<![CDATA[Newsroom University of 野狼社区]]> /about/news/ en Thu, 26 Dec 2024 22:51:48 +0100 Fri, 22 Nov 2024 10:14:47 +0100 <![CDATA[Newsroom University of 野狼社区]]> https://content.presspage.com/clients/150_1369.jpg /about/news/ 144 University awarded major funding for cyber security and nuclear robotics projects to drive UK regional growth /about/news/university-awarded-major-funding-for-cyber-security-and-nuclear-robotics-projects-to-drive-uk-regional-growth/ /about/news/university-awarded-major-funding-for-cyber-security-and-nuclear-robotics-projects-to-drive-uk-regional-growth/678951The University of 野狼社区 will partner two new projects which have the capacity to transform science and technology.

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The University of 野狼社区 will partner two new projects which have the capacity to transform science and technology.

The projects are supported through 拢22 million of funding 鈥 of which each will receive 拢5 million - by the UKRI Engineering and Physical Sciences Research Council (EPSRC) Place Based Impact Acceleration Account (PBIAA) scheme.

The first project, CyberFocus, led by Lancaster University, will strengthen and deliver strategic investments in the region鈥檚 cyber ecosystem, fuelling the potential of the North West cyber sector and keeping the UK at the forefront of advance cyber security.

Danny Dresner, Professor of Cyber Security in the Department of Computer Science and the University鈥檚 academic lead for CyberFocus, said: 鈥淭he volatile, risk-filled landscape of cyber security so often gives our adversaries free rein to innovate faster than those who create for the online safety of all of us."

CyberFocus brings together the universities of 野狼社区, Lancaster, Salford, 野狼社区 Metropolitan, Central Lancashire, Cumbria and Liverpool.

It will also be supported by other partners including Team Barrow (Westmorland & Furness Council, and BAE Systems), Cumbria Chamber of Commerce, Cumbria LEP, Greater 野狼社区 Combined Authority and Lancashire County Council.

The project aims to act as a catalyst for cyber knowledge exchange across the North West, fostering a collaborative approach to research and innovation, and helping the region drive economic growth and improve cyber resilience.

CyberFocus aims to:

  • Create 85 new collaborative partnerships
  • Develop 400 new products, processes, or services
  • Secure 拢40m additional funding for the region
  • Train 300 individuals in cyber innovation skills

The second project, led by the UK Atomic Energy Authority, focuses on nuclear robotics and artificial intelligence. It will connect academia with the supply chain, with the aim of decommissioning the country鈥檚 nuclear legacy, as well as developing technology that can be exploited by the nuclear fusion sector.

Barry Lennox, Professor of Applied Control, in the School of Electrical and Electronic Engineering, is the University鈥檚 lead for this project.

The project will link Cumbria and Oxfordshire 鈥 its' university partners being The University of Cumbria, The University of 野狼社区 and The University of Oxford 鈥 and hopes to mobilise significant knowledge and technology transfer between these areas.

Being the only research focused university with a research base in West Cumbria, The University of 野狼社区 will also attempt to bring other universities into the region and support them, as they develop technology for the nuclear industry.

The project aims to:

  • Create 200 business opportunities
  • Establish 10 spin-out companies
  • Generate 200 new jobs
  • Engage 5,000 people in cluster-driven events

UK Science Minister, Lord Vallance said: 鈥淲e are backing universities across the UK to home in on local strengths in research 鈥 from cybersecurity in Lancaster to maritime in Liverpool, offshore wind in Edinburgh to digital healthcare in Belfast 鈥 to support thousands of local jobs, boost skills and bring new technologies to market.

鈥淭his investment will allow innovators up and down the country to continue or expand their pioneering work to improve lives and kickstart growth in our economy with new opportunities.鈥

Other ongoing projects at The University of 野狼社区, funded by EPSRC PBIAA, include the Industrial Biotechnology Innovation Catalyst (IBIC), which is a collaborative project led by the University, aimed at creating a cohesive ecosystem for Industrial Biotechnology innovation. 

UKRI also funds the Impact Acceleration Account (IAA), which provides flexible support to progress the commercialisation and translational development of University research.

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Thu, 21 Nov 2024 15:12:56 +0000 https://content.presspage.com/uploads/1369/c81a6f0c-9388-4266-be43-2c83004ea481/500_mecd-p0007628-hr-2.jpg?10000 https://content.presspage.com/uploads/1369/c81a6f0c-9388-4266-be43-2c83004ea481/mecd-p0007628-hr-2.jpg?10000
野狼社区 AI expert helps local SME develop the technology to battle battery waste /about/news/manchester-ai-expert-helps-local-sme-develop-the-technology-to-battle-battery-waste/ /about/news/manchester-ai-expert-helps-local-sme-develop-the-technology-to-battle-battery-waste/637368A partnership between University of 野狼社区 academics and Lion Vision, a North West-based Artificial Intelligence (AI) specialist, has made a breakthrough with successful launch of a product poised to revolutionise the waste and recycling industry. 

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A partnership between University of 野狼社区 academics and Lion Vision, a North West-based Artificial Intelligence (AI) specialist, has made a breakthrough with successful launch of a product poised to revolutionise the waste and recycling industry. 

Research from Material Focus, the not-for-profit organisation funded by the waste electrical and electronic equipment (WEEE), found that 鈥渂atteries that have not been removed from unwanted electricals cause more than 700 fires annually in refuse collection vehicles (RCVs) and at household waste recycling centres (HWRCs).鈥 Batteries are also thought to cause an estimated 48% of all waste fires in the UK each year, with the cost to the UK thought to be in the region of 拢158 million annually. 

The team of entrepreneurs behind Lion Vision, along with the University, successfully applied to the Knowledge Transfer Partnerships (KTP) programme run by Innovate UK and was given a grant of more than 拢125,000 to assist in the quest to deliver a battery detection system. They partnered with Professor Hujun Yin, Professor of Artificial Intelligence in the School of Engineering, to bring their concept to life. 

The new technology has now been proven to reduce the existential threat of lithium-ion batteries and the environmental impact they pose within society and waste streams globally. The system combines advanced vision systems with innovative machine-learning techniques to detect, visualise and extract lithium-ion batteries and other hazardous items from the waste stream, using real-time analytics to identify where the flammable batteries are and how they should be removed. 

As waste passes underneath it, the Lion Vision system can analyse more than half a million images in a 24-hour window and detect more than 600 cylinder batteries per hour. While the system is currently focused on detecting cylinder batteries, it can be programmed to detect more than 40 battery subtypes and other hazardous objects such as vapes. 

The detection system is now in place at a range of sites across the UK, most notably at SWEEEP in Kent which processes 100 tons of waste electrical and electronic equipment (WEEE) per day. Typically, amongst this waste, the Lion Vision system is detecting more than 4500-cylinder batteries daily. 

Hujun Yin, Professor of Artificial Intelligence, based in the Department of Electrical and Electronic Engineering said, 鈥淢y work in AI and vision systems has often given me insight into challenges that society faces, and this project was no exception. While policy change and progress should be pursued, we cannot underestimate the environmental damage that is being caused by lithium-ion batteries. It is our responsibility to find engineering solutions to these problems. I have no doubt that the system created by the partnership and the team at Lion Vision will have a significant impact on the waste industry.鈥 

Today鈥檚 news is an example of a University of 野狼社区 Knowledge Exchange (KE) project, which match businesses with researchers, in order to increase the company鈥檚 economic growth. 野狼社区鈥檚 KE programmes are delivered by the University鈥檚 Business Engagement and Knowledge Exchange Team and can support companies at any stage of their project 鈥 from applying for funding, to project planning and evaluation. Its team of experts deliver opportunities through innovative and supportive schemes: Impact Acceleration Accounts and Knowledge Transfer Partnerships. 

Contact collaborate@manchester.ac.uk to discuss Knowledge Exchange further. 

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Professor Hujun Yin's main research interests include AI, machine learning, deep learning, image recognition, and data analytics. Recent projects focus on developing deep learning-based vision systems for recycling industries, advanced machine learning for multispectral image analysis for early detection of plant viral infection, and data-driven surrogate models in engineering designs. He was a Turing Fellow of the ATI (the Alan Turing Institute) 2018-2023, a senior member of the IEEE since 2003, and a member of the EPSRC Peer Review College. He has been the Chair of the IEEE CIS UK and Ireland Chapter since 2023. He leads a team of 12 researchers working in a wide range of vision and machine learning challenges with strong emphasis on real-world medical, sustainable and industrial applications. 

Read recent papers: 

  • Feature-Enhanced Representation with Transformers for Multi-View Stereo 
  • High-Frequency Channel Attention and Contrastive Learning for Image Super-Resolution 
  • A Divide-and-Conquer Machine Learning Approach for Modelling Turbulent Flows 
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  • DRLFluent: A distributed co-simulation framework coupling deep reinforcement learning with Ansys-Fluent on high-performance computing systems 
  • Manifold-enhanced CycleGAN for facial expression synthesis 

To discuss this research or potential partnerships, contact Professor Yin at hujun.yin@manchester.ac.uk.
 

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Fri, 21 Jun 2024 14:27:16 +0100 https://content.presspage.com/uploads/1369/2b3f90d9-74a3-4dee-9e35-24d3a6e03be1/500_featured.jpg?10000 https://content.presspage.com/uploads/1369/2b3f90d9-74a3-4dee-9e35-24d3a6e03be1/featured.jpg?10000
野狼社区 engineers unlock design for record-breaking robot that could jump over the height of Big Ben /about/news/manchester-engineers-unlock-design-for-record-breaking-robot-that-could-jump-twice-the-height-of-big-ben/ /about/news/manchester-engineers-unlock-design-for-record-breaking-robot-that-could-jump-twice-the-height-of-big-ben/636756Engineers at The University of 野狼社区 have unlocked the secrets to designing a robot capable of jumping 200 metres in the air 鈥 higher than any other jumping robot designed to date.

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Engineers at The University of 野狼社区 have unlocked the secrets to designing a robot capable of jumping 120 metres 鈥 higher than any other jumping robot designed to date.

Using a combination of mathematics, computer simulations, and laboratory experiments, the researchers have discovered how to design a robot with the optimum size, shape and the arrangement of its parts, allowing it to jump high enough to clear obstacles many times its own size.

The current highest-jumping robot can reach up to 33 metres, which is equivalent to 110 times its own size. Now, researchers have found out how to design a robot that could jump over 120 metres in the air 鈥 that鈥檚 more than the height of Big Ben鈥檚 tower.

The advancement, published in the journal , will revolutionise applications ranging from planetary exploration to disaster rescue to surveillance of hazardous or inaccessible spaces.

Co-author , Research Associate in Space Robotics at The University of 野狼社区, said: 鈥淩obots are traditionally designed to move by rolling on wheels or using legs to walk, but jumping provides an effective way of travelling around locations where the terrain is very uneven, or where there are a lot of obstacles, such as inside caves, through forests, over boulders, or even the surface of other planets in space.

鈥淲hile jumping robots already exist, there are several big challenges in the design of these jumping machines, the main one being to jump high enough to overcome large and complicated obstacles. Our design would dramatically improve the energy efficiency and performance of spring-driven jumping robots.鈥

The researchers found that traditional jumping robots often take off before fully releasing their stored spring energy, resulting in inefficient jumps and limiting their maximum height. They also found that they wasted energy by moving side to side or rotating instead of moving straight up.

The new designs must focus on removing these undesirable movements while maintaining the necessary structural strength and stiffness.

Co-author, Senior Lecturer in Aerospace Engineering, said: 鈥淭here were so many questions to answer and decisions to make about the shape of the robot, such as should it have legs to push off the ground like a kangaroo, or should it be more like an engineered piston with a giant spring? Should it be a simple symmetrical shape like a diamond, or should it be something more curved and organic? Then, after deciding this we need to think about the size of the robot 鈥 small robots are light and agile, but then large robots can carry bigger motors for more powerful jumps, so is the best option somewhere in the middle?

鈥淥ur structural redesigns redistribute the robot鈥檚 component mass towards the top and taper the structure towards the bottom. Lighter legs, in the shape of a prism and using springs that only stretch are all properties that we have shown to improve the performance and most importantly, the energy efficiency of the jumping robot.鈥

Although the researchers have found a practicable design option to significantly improve performance, their next goal is to control the direction of the jumps and find out how to harness the kinetic energy from its landing to improve the number of jumps the robot can do in a single charge. They will also explore more compact designs for space missions, making the robot easier to transport and deploy on the moon.

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Mon, 17 Jun 2024 14:27:30 +0100 https://content.presspage.com/uploads/1369/fec72e7c-6cf6-4ac7-8436-33f472e63209/500_untitleddesign7.png?10000 https://content.presspage.com/uploads/1369/fec72e7c-6cf6-4ac7-8436-33f472e63209/untitleddesign7.png?10000
CreaTech 2024 Event Series Lookback /about/news/createch-2024-event-series-lookback/ /about/news/createch-2024-event-series-lookback/634477A lookback at Digital Futures, Creative 野狼社区 and the Turing Innovation Catalyst (TIC) 野狼社区鈥檚 CreaTech 2024 events aimed at supporting the development of a network of industry professionals working in CreaTech and related industries.In March 2024 partnered with and for a ground-breaking series of events throughout, focused on bringing together people in 野狼社区 working in CreaTech 鈥 shining a light on the potential for innovation that can be derived from intersections between the creative, technology and digital sectors. 

This series of events aimed to build a CreaTech network to provide support, funding and connections to help grow this sector. These events echoed the aspirations of the Greater 野狼社区 city region to develop the CreaTech sector and to facilitate partnerships between the university and the wider GM Business Community.

We are pleased to announce that is now live, featuring photos and outputs of the breakout sessions. We are also pleased to have worked with to produce a suite of after movies showcasing People's experiences at the events and highlighting the importance of networking across the emerging CreaTech sector. Watch the full videos .

Our first event invited individuals interested and working in the gaming/animation/VR/AR industry within Greater 野狼社区 to network with each other and collaborate. We asked them to uncover the overall theme of 鈥淗ow Do We Make 野狼社区 Great?鈥 within breakout groups. See what attendees had to say about CreaTech innovation and the importance of networking across the sector.

 

In our second event 鈥楧igital Artisans鈥 we bridged the gap between tradition and innovation through looking at how artisanal craft can harness Createch This event was held at a fitting setting to delve into how independent artists can come together to chart a path towards a future where tradition and innovation converge, propelling 野狼社区's artisan arts and crafts sector to new heights of success.

Our next event focused on CreaTech innovation in the Audio and Sound sector. Held in the entrepreneurial atmosphere of , the event brought together enthusiastic, experts, and visionaries from diverse backgrounds, all united by their passion for the intersection of creativity, technology, and sound. See what attendees had to say about the importance of CreaTech in the sound industry.
 

Our next event focused on the fast-paced world of 鈥楥reative AI鈥 and took place at . This event brought together creatives who have an interest in digital technology and AI. Furthering the CreaTech ethos, the event connected inspired individuals who wanted to understand how to stay at the front of technological change and how their work practice has adapted to the advances in accessible AI.

The final instalment in the CreaTech Network Series surrounded the theme of Fashion, taking place in the iconic in Ancoats. Bringing together professionals and enthusiasts in the Fashion scene around 野狼社区. We asked attendees about how they thought technology could change the landscape of the Fashion industry.

 

As our CreaTech Network events of March 2024 have drawn to a close, we reflect on the exciting potential all attendees have reflected through the CreaTech network and look forward to future collaborations. 

We have helped to pave the way for a strong network of Creatives in Greater 野狼社区 ready to tackle the evolving CreaTech sector. We have also gained an understanding of the University of 野狼社区鈥檚 role in an increasingly digital and technology focused landscape.

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Mon, 20 May 2024 12:31:00 +0100 https://content.presspage.com/uploads/1369/a714697c-92dc-417d-9955-e26f5e3fb0bc/500_ourfirstevent.png?10000 https://content.presspage.com/uploads/1369/a714697c-92dc-417d-9955-e26f5e3fb0bc/ourfirstevent.png?10000
University awarded 拢30 million to train the next generation of science and engineering researchers through four new Centres for Doctoral Training /about/news/university-awarded-30-million-to-train-the-next-generation-of-science-and-engineering-researchers-through-four-new-centres-for-doctoral-training/ /about/news/university-awarded-30-million-to-train-the-next-generation-of-science-and-engineering-researchers-through-four-new-centres-for-doctoral-training/623688The University of 野狼社区 has been awarded 拢30 million funding by the Engineering and Physical Sciences Research Council (EPSRC) for four Centres for Doctoral Training as part of the UK Research and Innovation鈥檚 (UKRI) 拢500 million investment in engineering and physical sciences doctoral skills across the UK.

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  • Four Centres for Doctoral Training (CDT) will train more than 350 doctoral students after being awarded over 拢30m funding.
  • The CDTs will support in developing the UK鈥檚 skills base in critical technologies by training students to tackle key challenges such as meeting net-zero targets through advanced materials, nuclear energy, robotics and AI.
  • 野狼社区 is in the top three most-awarded institutions for CDTs after University of Bristol and University College London, and equal to University of Edinburgh.
  • The University of 野狼社区 has been awarded 拢30 million funding by the Engineering and Physical Sciences Research Council (EPSRC) for four Centres for Doctoral Training as part of the UK Research and Innovation鈥檚 (UKRI) 拢500 million investment in engineering and physical sciences doctoral skills across the UK.

    Building on 野狼社区鈥檚 long-standing record of sustained support for doctoral training, the new CDTs will boost UK expertise in critical areas such as advanced materials, AI, and nuclear energy.

    The CDTs include:

    • EPSRC Centre for Doctoral Training in 2D Materials of Tomorrow (2DMoT) - with cross-disciplinary research in the science and applications of two-dimensional materials, this CDT will focus on a new class of advanced materials with potential to transform modern technologies, from clean energy to quantum engineering. Led by , Professor of Physics at The University of 野狼社区.
       
    • EPSRC Centre for Doctoral Training Developing National Capability for Materials 4.0 - this CDT will bring together students from a range of backgrounds in science and engineering to drive forward the digitalisation of materials research and innovation. Led by , Professor of Applied Mathematics at The University of 野狼社区 and the Henry Royce Institute.
       
    • EPSRC Centre for Doctoral Training in Robotics and AI for Net Zero - this CDT will train and develop the next generation of multi-disciplinary robotic systems engineers to help revolutionise lifecycle asset management, in support of the UK鈥檚 Net Zero Strategy. Led by , Reader in the Department of Electrical and Electronic Engineering at The University of 野狼社区.
       
    • EPSRC Centre for Doctoral Training in SATURN (Skills And Training Underpinning a Renaissance in Nuclear) - the primary aim of SATURN is to provide high quality research training in science and engineering, underpinning nuclear fission technology. Led by , Professor of Nuclear Chemistry at The University of 野狼社区.

    野狼社区 received joint-third most awards across UK academia, and will partner with University of Cambridge, University of Glasgow, Imperial College London, Lancaster University, University of Leeds, University of Liverpool, University of Oxford, University of Sheffield, University of Strathclyde and the National Physical Laboratory to prepare the next generation of researchers, specialists and industry experts across a wide range of sectors and industries.

    In addition to leading these four CDTs, The University of 野狼社区 is also collaborating as a partner institution on the following CDTs:

    • EPSRC Centre for Doctoral Training in Fusion Power, based at University of York.
    • EPSRC Centre for Doctoral Training in Aerosol Science: Harnessing Aerosol Science for Improved Security, Resilience and Global Health, based at University of Bristol.
    • EPSRC Centre for Doctoral Training in Compound Semiconductor Manufacturing, based at Cardiff University.

    Along with institutional partnerships, all CDTs work with industrial partners, offering opportunities for students to develop their skills and knowledge in real-world environments which will produce a pipeline of highly skilled researchers ready to enter industry and take on sector challenges.

    Professor Scott Heath, Associate Dean for Postgraduate and Early Career Researchers at The University of 野狼社区 said of the awards: 鈥淲e are delighted that the EPSRC have awarded this funding to establish these CDTs and expose new cohorts to the interdisciplinary experience that researching through a CDT encourages. By equipping the next generation of researchers with the expertise and skills necessary to tackle complex issues, we are laying the groundwork for transformative solutions that will shape industries and societies for generations to come.鈥

    Announced by Science, Innovation and Technology Secretary Michelle Donelan, this round of funding is the largest investment in engineering and physical sciences doctoral skills to-date, totalling more than 拢1 billion. Science and Technology Secretary, Michelle Donelan, said: 鈥淎s innovators across the world break new ground faster than ever, it is vital that government, business and academia invests in ambitious UK talent, giving them the tools to pioneer new discoveries that benefit all our lives while creating new jobs and growing the economy.

    鈥淏y targeting critical technologies including artificial intelligence and future telecoms, we are supporting world class universities across the UK to build the skills base we need to unleash the potential of future tech and maintain our country鈥檚 reputation as a hub of cutting-edge research and development.鈥

    These CDTs join the already announced . This CDT led by , Senior Lecturer in Machine Learning at The University of 野狼社区, will train the next generation of AI researchers to develop AI methods designed to accelerate new scientific discoveries 鈥 specifically in the fields of astronomy, engineering biology and material science.

    The first cohort of AI CDT, SATURN CDT and Developing National Capability for Materials 4.0 CDT students will start in the 2024/2025 academic year, recruitment for which will begin shortly. 2DMoT CDT and RAINZ CDT will have their first cohort in 2025/26.

    For more information about the University of 野狼社区's Centres for Doctoral Training, please visit:

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    Tue, 12 Mar 2024 15:00:00 +0000 https://content.presspage.com/uploads/1369/500_abm-cdt-cropped.jpg?10000 https://content.presspage.com/uploads/1369/abm-cdt-cropped.jpg?10000
    University of 野狼社区 to lead Sellafield鈥檚 new Centre of Expertise in Robotics and Artificial Intelligence /about/news/university-of-manchester-to-lead-sellafields-new-centre-of-expertise-in-robotics-and-artificial-intelligence/ /about/news/university-of-manchester-to-lead-sellafields-new-centre-of-expertise-in-robotics-and-artificial-intelligence/605890The University of 野狼社区 will lead an academic consortium to support Sellafield鈥檚 new Robotics and Artificial Intelligence Centre of Expertise.

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    The University of 野狼社区 will lead an academic consortium to support Sellafield鈥檚 new Robotics and Artificial Intelligence Centre of Expertise.

    The purpose of the consortium will be to provide Sellafield Ltd with technical support as it delivers its long-term objectives of safely inspecting and decommissioning their facilities using remote technologies.

    Sellafield Ltd have made considerable progress with the deployment of robots to address challenges on its site. However, there are many challenges that remain, many of which cannot be solved using currently available commercial technologies.

    The academic consortium will be led by Professor Barry Lennox and Dr Simon Watson at The University of 野狼社区 and supported by groups at The University of Bristol, led by Professor Tom Scott, and The University of Oxford, led by Professor Nick Hawes. Sellafield Ltd鈥檚 engagement with the academic consortium will be led by its Robotics and Manufacturing Lead, Dr Melissa Willis.

    Melissa Willis, Robotics and Manufacturing Research Lead at Sellafield Ltd, added: 鈥We are excited by the opportunities that this consortium provides us with and are confident that their technical expertise will help us to deliver the benefits that robotics technology offers us on the Sellafield site.

    The consortium has considerable experience of working with Sellafield Ltd, having all been involved in the RAIN (Robotics and Artificial Intelligence for Nuclear) hub, and more recently The University of 野狼社区 has provided the academic leadership for the Robotics and AI Collaboration (RAICo) in Cumbria.

    Experience of the consortium includes the design, development and deployment of mobile robots in a range of air, land and aquatic environments in the UK and overseas.

    Working collaboratively with Sellafield Ltd, researchers at The University of 野狼社区 developed AVEXIS, which can be deployed into aquatic facilities with access ports as small as 150 mm and collect visual and radiometric data. The commercial version of AVEXIS was the first robot to be deployed into Sellafield鈥檚 Magnox Swarf Storage Silos and its use at Fukushima Daiichi has been explored.

    The University of Oxford鈥檚 Robotics Institute (ORI) have developed a range of mapping and mission planning technologies that can be used by robots, such as Boston Dynamics鈥 Spot to autonomously monitor facilities and identify unexpected changes.

    Using quadrotor and fixed wing vehicles, the University of Bristol have developed technology able to map radioactivity levels over large areas of land. The technology has been deployed successfully in the UK and overseas, with the image showing a radiation dose map generated over the Red Forest area of the Chornobyl Exclusion Zone, Ukraine, with the orange/red areas showing regions of elevated gamma dose rates.

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    Thu, 09 Nov 2023 08:48:00 +0000 https://content.presspage.com/uploads/1369/8934fa6a-93c1-431a-bd1d-3b5aded0b520/500_20171003-154507.jpg?10000 https://content.presspage.com/uploads/1369/8934fa6a-93c1-431a-bd1d-3b5aded0b520/20171003-154507.jpg?10000
    The University of 野狼社区 showcases AI and robotics research to the Minister for AI and Intellectual Property /about/news/the-university-of-manchester-showcases-ai-and-robotics-research-to-the-minister-for-ai-and-intellectual-property/ /about/news/the-university-of-manchester-showcases-ai-and-robotics-research-to-the-minister-for-ai-and-intellectual-property/587815The University of 野狼社区 has welcomed the Minister for AI and Intellectual Property to learn about its cutting-edge research into AI and Robotics and how it is supporting different industries locally and globally.

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    The University of 野狼社区 has welcomed the Minister for AI and Intellectual Property to learn about its cutting-edge research into AI and Robotics and how it is supporting different industries locally and globally.

    Viscount Camrose started his tour at Engineering Building A, home to the new international research centre CRADLE (Centre for Robotic Autonomy in Demanding and Long-lasting Environments), where he announced the countdown to the centre鈥檚 official opening in November.

    The Minister was guided by Professor Barry Lennox, The University of 野狼社区鈥檚 Centre for Robotics and AI Co-Director, where he learnt all about the interdisciplinary research going on in the centre, including a demonstration of a robot named Lyra, built to help transform nuclear infrastructure inspection.

    Lyra was used to survey one of the radiologically contaminated ducts in Dounreay. It performed the equivalent of more than 400 air-fed suited entries into the site, equal to 2,250 man-hours. This capability reduced costs by an estimated 拢5m and it is predicted that similar surveys could save decommissioning costs by a further 拢500m in the future.

    The Minister then took a tour of the Graphene Engineering Innovation Centre (GEIC), taking in its energy storage labs, printing lab facilities and construction materials testing facility, before making his way to ID 野狼社区 and the location for the (TIC); a project which aims to link businesses to cutting-edge AI research and technologies to help enhance productivity.

    John Holden, Associate Vice-President for Major Special Projects at The University of 野狼社区, said: 鈥淚 was delighted to welcome the minister to The University of 野狼社区 and to show him the leading-edge research and development activity we are undertaking in areas critical to the UK鈥檚 future economic growth and prosperity, including our pioneering work in AI and robotics.

    鈥淔unding research and development in universities is critical to regional and national efforts to improve productivity across all industries, and the visit was an opportunity to highlight to the minister how we are accelerating the translation of our research base into industrial application through initiatives such as GEIC and the Turing Innovation Catalyst.

    鈥淭he visit was also an opportunity to highlight the major opportunity that ID 野狼社区 represents for the region and UK 鈥 our plan to transform eight hectares of the North Campus into a commercially-led innovation district will create a world-leading innovation ecosystem around the University and has the potential to create 10,000 high quality jobs in research and development intensive sectors linked to the University鈥檚 capabilities over the next 10-15 years.鈥

    The Minister for AI and Intellectual Property, Viscount Camrose, added: 鈥淕reater 野狼社区 has long been at the forefront of science and innovation in this country, from the first splitting of the atom to the invention of the first computer.

    鈥淏y engaging closely with partners including The University of 野狼社区, businesses and local government, we can continue to grow our innovation economy across the country and level-up the UK.

    鈥淚t was great to see first-hand some of the fantastic Government-backed research in 野狼社区, such as the development of graphene applications at the GEIC, CRADLE鈥檚 cutting-edge innovations in robotics, as well as some of the projects underway through our 拢100m Innovation Accelerators programme such as the Turing Innovation Catalyst, the Centre for Digital Innovation and the Immersive Technologies Innovation Hub.鈥

    The visit ended with a round-table discussion about the . Led by Innovate UK on behalf of the Department for Science, Innovation Technology (DSIT), the pilot programme is investing 拢100m in 26 transformative R&D projects to accelerate the growth of three high-potential innovation clusters 鈥 Greater 野狼社区, Glasgow City Region and the West Midlands.

    Leaders from three AI-related projects backed by the Innovation Accelerator 鈥 the Turing Innovation Catalyst, led by The University of 野狼社区, the Centre for Digital Innovation, led by 野狼社区 Metropolitan University, and the MediaCity Immersive Technologies Innovation Hub, led by The Landing at MediaCityUK 鈥 attended the round-table. They were joined by Cllr Bev Craig, Leader of 野狼社区 City Council and Greater 野狼社区 lead for Economy, Business and International, and representatives from Greater 野狼社区 Combined Authority (GMCA).

    Participants discussed how to strengthen connections between these projects and maximise their value, and other national initiatives to support AI and related technologies.

    Cllr Bev Craig, Leader of 野狼社区 City Council and GMCA Lead for Economy and Business, said: 鈥淭oday鈥檚 visit provided a fantastic opportunity for the minister to learn more about the groundbreaking research and innovation happening right here in Greater 野狼社区, and particularly at The University of 野狼社区.

    鈥淚n recent years we have grown a reputation as a leading digital city-region, with AI as an important emerging sub-sector. As the impact of AI on our economy and society continues to grow, Greater 野狼社区 is well-placed, with the potential to go even further.

    鈥淲e also held a productive discussion about Greater 野狼社区鈥檚 Innovation Accelerator programme and its AI-related projects. Through the Innovation Accelerator we are piloting a new model of R&D decision making that empowers local leaders to harness innovation in support of regional economic growth.鈥

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    Fri, 01 Sep 2023 15:49:33 +0100 https://content.presspage.com/uploads/1369/6dc79d26-be80-48da-9478-bef388ba5bf8/500_viscountcamroseandbarrylennox.png?10000 https://content.presspage.com/uploads/1369/6dc79d26-be80-48da-9478-bef388ba5bf8/viscountcamroseandbarrylennox.png?10000
    The University of 野狼社区 launches new robotics research centre to support a net zero future /about/news/the-university-of-manchester-launches-new-robotics-research-centre-to-support-a-net-zero-future/ /about/news/the-university-of-manchester-launches-new-robotics-research-centre-to-support-a-net-zero-future/575083A new international research centre designed to create robotics and autonomous systems that will play a key role in the climate response has been developed in partnership with and .

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    A new international research centre designed to create robotics and autonomous systems that will play a key role in the climate response has been developed in partnership with and .

    The Centre for Robotic Autonomy in Demanding and Long-lasting Environments (CRADLE) will research new technologies for demanding and heavily regulated industry sectors such as space, nuclear decommissioning, energy generation and urban infrastructure.

    It will work to find advances such as autonomous inspection and repair systems to extend the life of water and energy networks, roads, bridges and railways, that will support the work towards net zero targets.

    The new partnership makes use of the research and expertise already being delivered in this area at the University. Last year, the Centre for Robotics and AI developed a robot called Lyra to help transform nuclear infrastructure inspection. The team have also contributed to the project, which worked to build a folding drone to allow Network Rail to inspect mine workings quicker, cheaper and with less risk.

    Professor Barry Lennox, University of 野狼社区鈥檚 Centre for Robotics and AI Co-Director, said: 鈥淐RADLE provides The University of 野狼社区鈥檚 recently established Centre for Robotics and AI with the opportunity to build a relationship with one of the leading organisations involved in applied robotics, helping us to progress our fundamental research in this area, and enabling us deliver impact from the robotic and AI systems that we are developing.鈥

    The center will be co-funded to a total value of $11 million (拢8.75 million) over five years by The University of 野狼社区, American international engineering company Jacobs, and the Prosperity Partnerships program, which fosters links between academia and industry. Further in-kind contributions will bring the total up to 拢10 million.

    CRADLE鈥檚 research remit covers mechatronics, software and how communities and regulators will engage with future robotic systems.

    The University of 野狼社区 will support 12 PhD students in conducting research and performing prototype demonstrations in its Electrical Engineering & Electronics and Computer Science departments, the and at Jacobs鈥 robotics laboratories in Warrington.

    Karen Wiemelt, Jacobs Energy, Security & Technology Senior Vice President, said: 鈥淪ecuring this prestigious Prosperity Partnerships grant allows Jacobs and The University of 野狼社区 to research the autonomous systems that industry needs to solve today鈥檚 challenges and create a more connected and sustainable world.

    鈥淩obotics is already a core strength of Jacobs鈥 work in the energy and space sectors and this research collaboration will enable us to develop advanced technologies to help achieve Net Zero targets.鈥

    Dr Andrew Bourne, Director of Partnerships at EPSRC, added: 鈥淧rosperity Partnerships demonstrate how business and academia can come together to co-create and co-deliver research and innovation that address industry-driven challenges and deliver economic and societal impact. These new projects showcase the breadth of research and innovation in the UK, covering a wider range of sectors, and support the UK鈥檚 ambitions to be a science superpower and an innovation nation.鈥

    The project is initiatives receiving part of 拢149 million, funded jointly by the Engineering and Physical Sciences Research Council (EPSRC), which is part of UK Research and Innovation. This includes 拢4 million from UKRI鈥檚 Biotechnology and Biological Sciences Research Council (BBSRC) and Medical Research Council (MRC). This public funding is being matched by a further 拢88 million from academia and business.

    All 19 projects are a significant investment in the UK鈥檚 future and are expected to make a real difference to people鈥檚 lives.

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    Thu, 25 May 2023 10:40:22 +0100 https://content.presspage.com/uploads/1369/1e484172-a841-4711-b84a-34e09fb6b659/500_robotcs.jpg?10000 https://content.presspage.com/uploads/1369/1e484172-a841-4711-b84a-34e09fb6b659/robotcs.jpg?10000
    Italy鈥檚 ambassador meets 野狼社区 robots during official tour /about/news/italys-ambassador-meets-manchester-robots-during-official-tour/ /about/news/italys-ambassador-meets-manchester-robots-during-official-tour/570140Inigo Lambertini met a range of advanced devices during a visit to 野狼社区.

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    Inigo Lambertini, Italy鈥檚 Ambassador to the UK, was welcomed by a group of robots during an official visit to The University of 野狼社区. 

    Mr Lambertini encountered the smart bots during an introduction to the , which specialises in applying state-of-the-art AI technologies into the design of robots and autonomous systems for real world applications. 

    The ambassador and his team 鈥 including Matteo Corradini from the Italian Consul in 野狼社区 鈥 were shown a number of advanced devices, ranging from humanoid robots that are designed to engage with people to highly resilient machines intended for use in hazardous environments like nuclear decommissioning. 

    The diplomatic visit to the robotics centre was part of a wider engagement with Greater 野狼社区, including a meeting with a senior University delegation led by Deputy President and Deputy Vice-Chancellor Professor, Luke Georghiou.

    In a separate engagement, Mr Lambertini and his delegation also met Andy Burnham, the Mayor of Greater 野狼社区. 
     

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    Wed, 19 Apr 2023 10:06:52 +0100 https://content.presspage.com/uploads/1369/b95a712a-8c65-4e09-bc95-4ae5d314eda1/500_ambassadorrobot2-cropped.jpg?10000 https://content.presspage.com/uploads/1369/b95a712a-8c65-4e09-bc95-4ae5d314eda1/ambassadorrobot2-cropped.jpg?10000
    野狼社区 experts to help robots better understand human emotions and improve dialogue with machines /about/news/manchester-experts-to-help-robots-better-understand-human-emotions-and-improve-dialogue-with-machines/ /about/news/manchester-experts-to-help-robots-better-understand-human-emotions-and-improve-dialogue-with-machines/568225The ERC has awarded a 野狼社区 team 鈧2.5million as part of the eTALK project.

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    A team of experts at The University of 野狼社区 has been awarded major EU funding to help design smarter robots that will have more meaningful dialogue with humans after developing improved insight into our inner feelings through language. 

    The European Research Council (ERC) has awarded , co-director of the , a total of 鈧2.5million as part of the eTALK project.

    The 野狼社区 research team will combine expertise in AI and psychology to focus on the fact that smart machines still only understand about one-third of the meaning of human language. 

    To progress their ability to understand humans more fully robots will act as 鈥榯utors鈥 to help children better understand numerical and abstract concepts. This in turn will then help robots engage more meaningfully with older generations of humans. 

    Angelo Cangelosi, Professor of Machine Learning and Robotics at The University of 野狼社区, explains that language is the most natural means of communication among people to talk about and share experiences 鈥 and for robots to understand and communicate with us. 

    For example, humans use concrete words to describe objects and their features (eg 鈥楲ook at this red pen鈥) and to talk about actions and events (鈥業 write with the pen鈥). However, we most commonly use abstract words to describe social situations and relationships (such as, 鈥楳ary likes John鈥), emotional states (鈥業 wish you happiness鈥), and numbers and quantities (1, 2, 10, or 鈥榮ome鈥, 鈥榤any鈥, et cetera). 

    鈥淚n fact, the great majority 鈥 a total of 72% 鈥 of words we use are abstract words; but today鈥檚 robots can only understand the concrete words. So, how can we have meaningful interaction with robots if they cannot understand most of the words we use?鈥 asks Professor Cangelosi. 

    To meet this challenge, the ERC Advanced eTALK project will take direct inspiration from the way children and adults use and learn abstract words 鈥 and use methods from AI and psychology to develop a new generation of robots capable of communicating with people about internal feelings, numbers, and other abstract words. 

    The award of this project builds on, and recognises, the reputation of the 野狼社区 Centre for Robotics and AI, and the expertise from Professor Cangelosi and his team in combining psychological concepts with AI and robotics, to design robots that positively impact society. 

    The ERC has announced the awarding of 218 Advanced Grants to outstanding research leaders across Europe, as part of the Horizon Europe programme. The grants 鈥 totalling 鈧544 million 鈥 support cutting-edge research in a wide range of fields, from medicine and physics to social sciences and humanities.

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    Thu, 30 Mar 2023 15:23:04 +0100 https://content.presspage.com/uploads/1369/500_robotics-centre.jpg?10000 https://content.presspage.com/uploads/1369/robotics-centre.jpg?10000
    野狼社区 AI summit aims to attract experts in advanced engineering and robotics /about/news/manchester-ai-summit-aims-to-attract-experts-in-advanced-engineering-and-robotics/ /about/news/manchester-ai-summit-aims-to-attract-experts-in-advanced-engineering-and-robotics/548502The University of 野狼社区 is launching a new specialist multi-disciplinary centre to explore developments in smart robotics through the lens of artificial intelligence (AI) and autonomous machinery.

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    The University of 野狼社区 is launching a new specialist multi-disciplinary centre to explore developments in smart robotics through the lens of artificial intelligence (AI) and autonomous machinery.

    The 野狼社区 will be based at the engineering and materials facilities at The University of 野狼社区 which will provide a state-of-the-art home for industry-leading research in AI-powered devices and be an 鈥渋nterface between robotics, autonomy and AI鈥.

    The University of 野狼社区 has built a modern reputation of excellence in AI and robotics, partly based on the legacy of seminal thought leadership begun in this field in 野狼社区 by legendary codebreaker Alan Turing (1). The creation of the new 野狼社区 centre also follows robotics and AI being identified by UK Chancellor Jeremy Hunt as the most critical drivers for 21st century economies (2).

    To mark the opening of the new robotics centre, the 野狼社区 group will host its first conference on Wednesday, Nov 23. Topics under discussion will include applications of robotics in extreme environments.

    For the past decade, a specialist 野狼社区 team led by Professor Barry Lennox has designed robots to work safely in nuclear decommissioning sites in the UK. A ground-breaking robot called Lyra that has been developed by Professor Lennox鈥檚 team - and recently deployed at the Dounreay site in Scotland, the 鈥 鈥 has been listed in .

    Other world-leading 野狼社区 applications include foldable drones to characterise subterranean mines or for the inspection of offshore wind turbines. And 野狼社区 leads on designing the verification technologies to ensure that we can trust these robots when working autonomously in hazardous conditions.

    A conference highlight will be a joint talk by robotics expert Dr Andy Weightman and theologian Dr Scott Midson which is expected to put a spotlight on 鈥榩osthumanism鈥 鈥 a future world where humans won鈥檛 be the only highly intelligent decision-makers.

    Dr Weightman, who researches home-based rehabilitation robotics for people with neurological impairment, and Dr Midson, who researches theological and philosophical critiques of posthumanism, will discuss how interdisciplinary research can help with the special challenges of rehabilitation robotics 鈥 and, ultimately, what it means to be human 鈥渋n the face of the promises and challenges of human enhancement through robotic and autonomous machines鈥.

    Delegates will also have a chance to observe a series of robots and autonomous machines being demoed at the conference.

    Angelo Cangelosi, Professor of Machine Learning and Robotics at 野狼社区, said the University offers a world-leading position in the field of autonomous systems 鈥 a technology that will be an integral part of our future world. 

    Professor Cangelosi, co-Director of the 野狼社区 , said: 鈥淲e are delighted to host our inaugural conference which will provide a special showcase for our diverse academic expertise to design robotics for a variety of real world applications.

    "Our research and innovation team are at the interface between robotics, autonomy and AI 鈥 and their knowledge is drawn from across the University's disciplines, including biological and medical sciences 鈥 as well the humanities and even theology. 

    鈥淭his rich diversity offers 野狼社区 a distinctive approach to designing robots and autonomous systems for real world applications, especially when combined with our novel use of AI-based knowledge.鈥

    The University of 野狼社区鈥檚 Centre for Robotics and AI will aim to: 

    路       design control systems with a focus on bio-inspired solutions to mechatronics, eg the use of biomimetic sensors, actuators and robot platforms; 

    路       develop new software engineering and AI methodologies for verification in autonomous systems, with the aim to design trustworthy autonomous systems; 

    路       research human-robot interaction, with a pioneering focus on the use of brain-inspired approaches to robot control, learning and interaction; and 

    路       research the ethics and human-centred robotics issues, for the understanding of the impact of the use of robots and autonomous systems with individuals and society.

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    novel use of AI-based knowledge.]]> Tue, 22 Nov 2022 13:22:57 +0000 https://content.presspage.com/uploads/1369/500_robototstakeabreakatalabattheuniversityofmanchester-picturecourtesyofmarketingmanchester.jpg?10000 https://content.presspage.com/uploads/1369/robototstakeabreakatalabattheuniversityofmanchester-picturecourtesyofmarketingmanchester.jpg?10000
    野狼社区 to build an interplanetary future through innovation in advanced materials and robots /about/news/manchester-to-build-an-interplanetary-future-through-innovation-in-advanced-materials-and-robots/ /about/news/manchester-to-build-an-interplanetary-future-through-innovation-in-advanced-materials-and-robots/529994Pioneering scientists and engineers from The University of 野狼社区 are looking to build a future in space through innovation in advanced materials and autonomous systems - including revolutionary concepts in space habitats and the trustworthy robots to help build them.

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    Pioneering scientists and engineers from The University of 野狼社区 are looking to build a future in space through innovation in advanced materials and autonomous systems - including revolutionary concepts in space habitats and the trustworthy robots to help build them.

    In the UK, the space sector is worth over 拢16.4 billion per year and employs more than 45,000 people, while satellites and space tech underpins 拢360 billion per year of wider economic activity. Globally, projections reveal that the space economy

    To optimise opportunities in this booming market, organisations such as the European Space Agency are looking to build space habitats, including a and ultimately . However, these types of ambitious projects will require breakthroughs in new materials to help construct resilient structures and infrastructure.

    In response to this challenge, Dr Vivek Koncherry - a University alumnus and now CEO of Graphene Innovations 野狼社区, a start-up based at the - is looking to build pressurised vessels that will create a modular space station for Low Earth Orbit. These pioneering vessels are to be made from graphene-enhanced carbon fibre as the addition of this 2D material will lightweight the habitat, as well as lending its thermal management properties to help regulate extremes of temperature.

    Dr Koncherry has been working closely with global architects SOM, who have been studying the complexity of space habitation for many years as they look to .

    As space explorers of the future look to go beyond the Earth鈥檚 orbit, travelling from a graphene space ship to begin building bases on the Moon 鈥 or even Mars 鈥 Dr Koncherry鈥檚 colleague Dr Aled Roberts, also part of the GEIC, is conducting research to develop bio-based building materials.

    Dr Roberts, who is also part of the , explains that one of the biggest challenges for 鈥渙ff-world habitat construction鈥 is the transportation of building materials, which can cost upwards of 拢1m 'per brick鈥. Until the conceptual can be built, one solution, says Dr Roberts, could be using local resources, such as lunar or Martian soil to make building materials. This thinking has led to proposed products like (aka extraterrestrial regolith biocomposites), a material using the local planetary soil and a bio-based binder to make sturdy bricks to build space habitats.

    To support this lunar or Martian construction work, artificial intelligence (AI) researchers at 野狼社区 - who are expert in developing autonomous systems and resilient AI-powered robots - have helped develop sophisticated software to enable 鈥榗o-bots鈥 to aid astronauts in exploration, in construction and in monitoring these new structures.

    This work has been led by Professor Michael Fisher and his colleagues that form the . A specialism at 野狼社区 involves designing and building AI-powered autonomous robots that can work in the harshest of environment, such as space, and can reliably undertake a wide range of tasks 鈥渙n their own鈥.

    Previous research in this field has looked to support improved capability of NASA鈥檚 Astronaut-Rover teams and the 野狼社区 team continue their collaboration with NASA. Future manned missions to the Moon and Mars are expected to use autonomous rovers and robots to assist astronauts during extravehicular activity (EVA), including science, technical and construction operations.

    鈥淎n important feature of the 野狼社区 work is to develop and apply systems making sure these robots are trustworthy and do what we expect,鈥 explained Professor Fisher.

    Once a space habitat has been built, its human occupants will need to survive in their new environment - and NASA researchers have identified hydroponics as a suitable method for growing food in outer space. 野狼社区 agri-tech experts are looking at the future of food production, which includes the application of hydroponics in vertical farming production.

    Dr Beenish Siddique, founder of (below) , a UK government-backed enterprise which is also based in the GEIC, is leading a team to develop a pioneering a hydrogel called GelPonics.

    Beenish Siddique - AEH Innovative Hydrogel in lab with plants

    This growth medium conserves water and filters out pathogens to protect plants from disease, while automated technology includes the use of a graphene-based sensor that allows remote monitoring and management of the irrigation management system. This process is much less labour intensive and ultimately the GelPonics system is designed to be used in the harshest of environments.

    Combining two strengths 鈥 advanced materials and trustworthy automation 鈥 to create a USP for space

    Space is a fast-growing opportunity for exponential market growth - and provides an arena for the UK engineering sector to apply its world-leading expertise. The R&D being pioneered by experts at The University of 野狼社区 to deliver revolutionary innovation in space habitat technology provides a model approach.

    野狼社区 has combined two of its key engineering strengths 鈥 advanced materials and autonomous systems 鈥 to find a unique proposition on space tech innovation.

    Dr Vivek Koncherry says: 鈥淚f you want to implement nanomaterials - or indeed the next generation of advanced materials - into space application you will also need automation.

    鈥淚n 野狼社区, everything comes together 鈥 you have expertise in both advanced materials and automated systems. The skilled people we need to work with are based in the same place, which creates a unique proposition.鈥

    Vivek and Jin - robotics2

    Dr Koncherry has built a pilot digital manufacturing line, designed to handle materials of the future by integrating robotics, AI and IoT systems in his state-of-the-art Alchemy Lab based in the GEIC (above). He has an ambition to grow the manufacturing base in Greater 野狼社区 and from this provide a model to underpin the UK鈥檚 national capability to making advanced products.

    "Dr Koncherry adds: 鈥淪pace is at the tipping point of being accessible to the commercial mainstream - the opportunities this provides are boundless. Just like in the original industrial revolution, 野狼社区 now finds itself with the right innovation at the right time to capitalise on the space revolution.鈥

    To find out more about The University of 野狼社区鈥檚 contribution to the space sector read: 

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    Thu, 06 Oct 2022 14:55:08 +0100 https://content.presspage.com/uploads/1369/500_multi-dome-base-being-constructed-2.jpg?10000 https://content.presspage.com/uploads/1369/multi-dome-base-being-constructed-2.jpg?10000
    Advanced materials and automation: manufacturing's 'dream team' /about/news/advanced-materials-and-automation-manufac-dream-team/ /about/news/advanced-materials-and-automation-manufac-dream-team/515147The University of 野狼社区鈥檚 expertise in advanced materials and robotic systems will play a key role in driving a revolution in UK manufacturing, according to graphene start-up pioneer Dr Vivek Koncherry.

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    The University of 野狼社区鈥檚 expertise in advanced materials and robotic systems will play a key role in driving a revolution in UK manufacturing, according to graphene start-up pioneer Dr Vivek Koncherry.

    Dr Koncherry, who is based at the University鈥榮 world-class materials innovation accelerator, the Graphene Engineering Innovation Centre (GEIC), is developing a range of products exploiting breakthrough nanomaterial technology.

    But to get this innovation to a mass market, Dr Koncherry recognises that manufacturing systems also need to keep pace 鈥 so he has built a pilot digital manufacturing line in the GEIC designed to handle materials of the future by integrating robotics, AI and IoT systems. 

    鈥淭he first industrial revolution in 野狼社区 was world famous for its textiles and weaving technologies and we are at the start of the next industrial revolution 鈥 but this time we are to use advanced materials and advanced manufacturing processes,鈥 he said.  

    鈥淪o, if you want to implement nanomaterials or the next generation of materials into the marketplace you will also need automation and the next level of advanced manufacturing to remain competitive at a global scale.

    鈥淚n 野狼社区, everything comes together 鈥 you have expertise in both advanced materials and automated systems. The skilled people we need to work with are based in the same place, which creates a unique proposition.鈥

    This 鈥渦nique proposition鈥 has, in fact, already helped Dr Koncherry attract inward investment from North America, with $5 million (拢3.6m) being put into his start-up Graphene Innovations 野狼社区 (GIM).

    Dr Koncherry and his team at GIM (including robotics expert Jinseong Park, pictured top) are developing a range of products, including mats and floor coverings made from recycled materials (such as rubber from car tyres) to pioneering pressurised vessels made from a graphene-enhanced composite material. These components can be applied to hydrogen storage on earth or creating a habitat for living in space.  

    Dr Koncherry has an ambition to grow the manufacturing base in Greater 野狼社区 and from this provide a model to underpin the UK鈥檚 national capability to making advanced products.  

    To find out more about Dr Koncherry鈥檚 pioneering work and also how graphene-based composite technology is a key to lightweighting in sectors including aerospace and automotive, watch the film below:

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    Tue, 21 Jun 2022 15:02:17 +0100 https://content.presspage.com/uploads/1369/500_vivekandjin-robotics2.jpg?10000 https://content.presspage.com/uploads/1369/vivekandjin-robotics2.jpg?10000
    野狼社区 experts are designing AI-powered machines tough enough to work safely in hostile hotspots /about/news/manchester-experts-are-designing-ai-powered-machines-tough-enough-to-work-safely-in-hostile-hotspots/ /about/news/manchester-experts-are-designing-ai-powered-machines-tough-enough-to-work-safely-in-hostile-hotspots/507385A new generation of smart robots is being developed at The University of 野狼社区 that can be trusted to think and act for themselves in some of the most hazardous places on Earth - and beyond.

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    A new generation of smart robots is being developed at The University of 野狼社区 that can be trusted to think and act for themselves in some of the most hazardous places on Earth - and beyond.

    鈥楬ot robotic鈥 systems were originally designed to work in radioactive environments found in decommissioned nuclear reactors - but future assignments for this type of super machine will include deployment in nuclear fusion power, the offshore energy sector, agriculture and even outer space.

    As part of an ambitious R&D programme to maintain UK leadership in robotic technologies, 野狼社区 experts are applying AI technologies to 鈥榟ot robotics鈥 as they will increasingly need to act independently of human operators as they enter a range of danger zones to carry out highly complex tasks.    

    野狼社区鈥檚 expertise in AI and robotic technologies will be showcased on June 14 as part of a symposium that will put a spotlight on the National Nuclear User Facility Hot Robotics programme Register here:

    An important challenge in the nuclear industry is to improve robot autonomy so that the technology can be used to deliver safer, faster and cheaper decommissioning of legacy power stations and other radioactive facilities at sites such as Sellafield and Dounreay.

    To support this challenge, the Robotics and AI Collaboration (RAICo) has been established in Cumbria as a joint research programme between The University of 野狼社区, the UK Atomic Energy Agency (UKAEA), Sellafield Ltd, the Nuclear Decommissioning Authority and the National Nuclear Laboratory. The aim is to develop advanced robotic and AI solutions and transferring these to sites across the Nuclear Decommissioning Authority鈥檚 estate in the UK.

    In addition to supporting the nuclear decommissioning industry, RAICo will also provide a pilot for the development and application of sophisticated robotic systems in other sectors 鈥 a recent  estimates that the total UK market size for autonomous robotic systems will reach almost 拢3.5 billion by 2030. 

    Academic engagement into RAICo is being led by Professor Barry Lennox and his team at The University of 野狼社区. This group leads the (Robotics and Artificial Intelligence for Nuclear) hub and are also part of the 野狼社区 Robotics and AI Centre.

    鈥淭he inclusion of AI is because the goal is to develop automated systems that can operate much more efficiently than if they were operated by people,鈥 explained Barry Lennox.

    鈥淲ithin RAICo we are looking at how to improve the operation of remote manipulation and inspection systems. We鈥檙e helping Sellafield and other nuclear end-users to develop the next generation of remote surveying and handling equipment so they can improve their operations.鈥

    Professor Lennox explained that 野狼社区 is a world-leader in designing and developing autonomous systems through the application of AI technologies like machine learning to significantly improve robotic systems.

    The 野狼社区-led RAIN group has built up their expertise after pioneering a series of resilient robotic systems to carry out work in many of the UK鈥檚 decommissioned nuclear power stations 鈥 doing work that is too dangerous for humans.

    Professor Lennox explained: 鈥淭he prefix 鈥榟ot鈥 was introduced because we were interested in deploying the robots into active environments - but we鈥檙e now looking to expand the hot so it can refer to more general applications, including the space, agriculture and offshore sectors. Many of the challenges are similar, although the robots may end up looking a bit different.鈥

    Enhancing the AI capability of these machines is the next big challenge for his team, added Professor Lennox. 鈥淎I introduces lots of additional problems related to ensuring that the AI will do what we expect it to do and not cause damage or risk the safety of humans.鈥

    Expanding beyond nuclear decommissioning, the 野狼社区-led RAIN team are also establishing joint programmes of work with the UK Atomic Energy Authority to support them in the development of robotic systems for nuclear fusion reactors.

    Rob Buckingham, Director UK Atomic Energy Authority and head of their Remote Applications in Challenging Environments (RACE) centre, said: 鈥淭he next generation of robotics will be essential for the delivery of fusion power and, recognising this, we intend to collaborate widely with the best, such as the robotics research group at 野狼社区.

    鈥淲orking with 野狼社区 on the RAIN programme has reaped huge rewards for both parties so let鈥檚 do more.鈥

    Finally, 野狼社区 researchers have been advising UK policy-makers and energy sector leaders on the safe development of robotic and autonomous systems for work in harsh environments.

      and have recently outlined recommendations in their 鈥, calling for greater transparency and easier verification in autonomous decision-making processes, particularly for systems used in situations where there is a risk to human wellbeing. 

     

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    Mon, 23 May 2022 11:01:28 +0100 https://content.presspage.com/uploads/1369/500_yuneec-h520-002-1-800x600.png?10000 https://content.presspage.com/uploads/1369/yuneec-h520-002-1-800x600.png?10000
    A robot called Lyra is helping transform nuclear infrastructure inspection /about/news/a-robot-called-lyra-is-helping-transform-nuclear-infrastructure-inspection/ /about/news/a-robot-called-lyra-is-helping-transform-nuclear-infrastructure-inspection/503542A robot named Lyra has been used to inspect a ventilation duct in Dounreay鈥檚 redundant nuclear laboratories and map radioactive materials. Lyra traversed 140m of duct from a single entry point and provided operators with detailed radiological characterisation information that can now be used to help plan safe and efficient decommissioning of the laboratories.

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    A robot named Lyra has been used to inspect a ventilation duct in Dounreay鈥檚 redundant nuclear laboratories and map radioactive materials. Lyra traversed 140m of duct from a single entry point and provided operators with detailed radiological characterisation information that can now be used to help plan safe and efficient decommissioning of the laboratories.

    Previously, gaining this amount of detailed information would be complex and, even where possible, it would require operations staff to make additional airline suit entries into contaminated areas, increasing cost and elevating risk. Human access to this area is currently impossible due to the size of the duct and radiological risks.

    This deployment has proven that mobile robots can be used to accelerate the pace of decommissioning legacy nuclear facilities in the UK, while at the same time reducing the risk to humans, decreasing costs and even reducing the amount of additional low-level waste that is generated during decommissioning.

    Lyra鈥檚 Design

    Lyra was designed as a low-cost robot, featuring 5 radiation detectors, a laser scanner for positioning, 2 cameras, lights and a manipulator arm that was used to take swab samples of the radioactive contamination from the wall or floor of the duct. Lyra was developed by researchers at The University of 野狼社区, working within the Robotics and Artificial Intelligence for Nuclear (RAIN) Hub and with considerable guidance from technical and operations staff at Dounreay Site Remediation Ltd (DSRL).

    Lyra was fitted with tracks and given a relatively high ground clearance to enable it to clear the considerable amounts of rubble that lay in the duct. The radiation sensing package was designed to be able to measure beta, gammas, x-ray, and neutrons radiations and a 5 DOF manipulator was attached to enable it to collect swabs for further radiological analysis at the site laboratories

    Cameras were attached to the front of Lyra and to the end of the manipulator. The camera attached to the manipulator allowed for detailed inspection of any areas of interest that were identified during the survey. Lyra is controlled via joypad, which is used for driving, and a compliant manipulator arm whose motion is copied by the arm on the robot.

    The radiation sensing package coupled with the LIDAR radar, live camera footage enabled a 3D, time stamped video to be developed with the radiation readings as measured overlayed onto the video such that any point of interest or high radiation measurement could be pin pointed at any selected location within the duct.

    Lyra was untethered, but did incorporate a winch retrieval mechanism, which could be used to drag Lyra back to an access point in the event of a loss of power, or to shift it off rubble if it became beached. An independent, remote reset was also incorporated onto Lyra. This was a wireless device that enabled Lyra to perform a 鈥榟ard reset鈥 if necessary.

    The Deployment

    The deployment of Lyra was completed in partnership with the operations team at DSRL and the figure below shows an image of the access port, within containment, that Lyra was deployed through. The frame that is being inserted provides additional cameras, lighting and back-up communications.

    Following the successful deployment of Lyra, DSRL Project Manager Jason Simpson said: 鈥淒SRL is greatly indebted to the team from The University of 野狼社区, their efforts coupled with that of FIS360 Managing Director Frank Allison have clearly demonstrated the substantial benefits to be gained through collaborative working with the supply chain. Now that the characterisation survey is complete, we have built up a comprehensive picture of the duct which will help us make informed decisions on how the duct will be decommissioned going forward.

    鈥淎lthough it is recognised that the incentives to succeed differed for all parties, the enthusiasm and commitment from Frank Allison, Barry Lennox, Matthew Nancekievill, Keir Groves and the rest of the team at 野狼社区, ensured our objectives ultimately aligned to culminate in the successful deployment and data capture witnessed via Lyra.鈥

    RAIN Hub Director Barry Lennox added: 鈥淲e wanted to demonstrate that the robot could be used successfully in active areas. We added fail safe devices, including a remote 鈥渞eboot鈥 switch, and a winch to enable us to physically retrieve the robot if it got stuck on the debris in the duct. The survey has demonstrated Lyra鈥檚 reliability in active areas.鈥

    The deployment was supported by innovation and technology transfer specialists, FIS360. Their Managing Director, Frank Allison said: 鈥淭he development and deployment of Lyra highlights the benefits that robotics technology offers the nuclear industry and the importance of academia, end-users and businesses in the supply chain working together. It is only through collaborative working, like this, that solutions can be developed for complex challenges, such as surveying the Dounreay duct.鈥

    The research team are grateful for the use of the Lyra robot, which was made available for this work through the NNUF Hot Robotics Programme.

    The Lyra robot is one example of mobile robotic platforms designed for inspection of hazardous environments and is commercially available through Ice Nine Ltd

    For further information regarding this work, please see:

     

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    Tue, 26 Apr 2022 10:55:33 +0100 https://content.presspage.com/uploads/1369/500_rainhubrobotlyra.jpg?10000 https://content.presspage.com/uploads/1369/rainhubrobotlyra.jpg?10000
    野狼社区 launches centre to design AI-enhanced robots for real world applications /about/news/manchester-launches-centre-to-design-ai-enhanced-robots-for-real-world-applications/ /about/news/manchester-launches-centre-to-design-ai-enhanced-robots-for-real-world-applications/501765The 野狼社区 Centre for Robotics and AI brings together projects from across different disciplines.

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    A new centre of excellence dedicated to designing the next generation of robots supported with state-of-the-art AI technologies has been launched at The University of 野狼社区. 

    The University's pulls together experts and projects from across the academic disciplines who share the challenge of working on the front line of applied robotic technologies. 

    For example, 野狼社区 researchers are looking to develop robotic systems that are able to explore in the most extreme environments, such as those found in the nuclear industry, power generation or agriculture. Other expertise includes designing robots to support digital manufacture or work in the field of medicine and health. 

    While driving developments in cutting-edge robotic systems, the new multidisciplinary centre will also have a commitment to ensure autonomous systems are compatible with the values and expectations of society. Some of the breakthrough 野狼社区-led research work will include: 

    • designing control systems with a focus on bio-inspired solutions to mechatronics, eg the use of biomimetic sensors, actuators and robot platforms; 
    • developing new software engineering and AI methodologies for verification in autonomous systems, with the aim to design trustworthy autonomous systems; 
    • researching human-robot interaction, with a pioneering focus on the use of brain-inspired approaches to robot control, learning and interaction; and 
    • research in ethics and human-centred robotics issues, for the understanding of the impact of the use of robots and autonomous systems with individuals and society. 

    Angelo Cangelosi, Professor of Machine Learning and Robotics at 野狼社区, said the University offers a world-leading position in the field of autonomous systems 鈥 a technology that is set to revolutionise our lives and workplaces. 

    "野狼社区's robotics community has achieved a critical mass of expertise 鈥 however, our approach in the designing of robots and autonomous systems for real world applications is distinctive through our novel use of AI-based knowledge," added Professor Cangelosi. 

    "Our robot pioneers therefore find themselves on the interface between robotics, autonomy and AI 鈥 and their knowledge is drawn from across the University's disciplines, including humanities and biological and medical sciences. 

    "Our University now has the potential to build on these solid foundations and further establish itself as a world leader in this important and rapidly growing field with the establishment of the new interdisciplinary 野狼社区 Centre for Robotics and AI." 

    The new centre has hosted an inaugural workshop 鈥 attracting more than 90 delegates 鈥 to bring a strategic focus to the robot and AI community at 野狼社区, and looks to share expertise and innovation. 

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    Fri, 08 Apr 2022 11:11:29 +0100 https://content.presspage.com/uploads/1369/500_robotics-centre.jpg?10000 https://content.presspage.com/uploads/1369/robotics-centre.jpg?10000
    Space habitats for life beyond earth revealed as 野狼社区 takes next graphene-enhanced leap /about/news/space-habitats-for-life-beyond-earth-revealed-as-manchester-takes-next-graphene-enhanced-leap/ /about/news/space-habitats-for-life-beyond-earth-revealed-as-manchester-takes-next-graphene-enhanced-leap/476273Advanced manufacturing experts from 野狼社区 have revealed what human life in space could look like – with a graphene-enhanced space habitat developed to meet anticipated demand for human settlements beyond Earth.

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    Advanced manufacturing experts from 野狼社区 have revealed what human life in space could look like – with a graphene-enhanced space habitat developed to meet anticipated demand for human settlements beyond Earth.

    A community of specialists at The University of 野狼社区 have teamed up with global architect firm Skidmore, Owings & Merrill (SOM) to research the design and manufacturing of space habitats for the space industry.

    With projections that the global space economy , the innovation will raise the technology readiness level (TRL) of new lightweight composites using 2D materials for space applications.

    In an international collaboration, Dr Vivek Koncherry and his team – supported by the 野狼社区-based – are creating a scaled prototype of a space habitat with pressurised vessels designed to function in a space environment.

    SOM, the architects behind the world’s tallest building - Burj Khalifa in Dubai - are contributing design and engineering expertise to the space architecture. Daniel Inocente, SOM’s senior designer in New York, said: “Designing for habitation in space poses some of the greatest challenges - it means creating an environment capable of maintaining life and integrating crew support systems.

    “As architects, our role is to combine and integrate the most innovative technologies, materials, methods and above all the human experience to designing inhabited environments,” added Inocente. “Conducting research using graphene allows us to test lightweight materials and design processes that could improve the efficacy of composite structures for potential applications on Earth and future use in space.”

    In the next five to 10 years most governments are expected to want a permanent presence in space to manage critical infrastructure, such as satellite networks – as well as considering the potential opportunity of accessing space-based resources and further scientific exploration.

    Dr Koncherry said: “A major barrier to scaling up in time to meet this demand is the lack of advanced and automated manufacturing systems to make the specialist structures needed for living in space. One of the space industry’s biggest challenges is overcoming a lack of robotic systems to manufacture the complex shapes using advanced materials.”

    The solution is incorporating graphene for advanced structural capabilities, such as radiation shielding, as well as developing and employing a new generation of robotic machines to make these graphene-enhanced structures. This technology has the potential to revolutionise high-performance lightweight structures – and could also be used for terrestrial applications in the aerospace, construction and automotive sectors.

    James Baker, CEO Graphene@野狼社区, said: “The work being led by Dr Koncherry and his colleagues is taking the development of new composites and lightweighting to another level, as well as the advanced manufacture needed to make structures from these new materials. By collaborating with SOM there are opportunities to identify applications on our own planet as we look to build habitats that are much smarter and more sustainable.”

    The space habitat launch coincides with a series of world firsts for graphene in the built environment currently happening here on Earth – including the first external pour of graphene-enhanced Concretene and  - all supported by experts in the city where the super strong material was first isolated.

    Tim Newns, Chief Executive of MIDAS, 野狼社区’s inward investment agency, said: “This exciting piece of research further underlines the breadth of applications where advanced materials and in particular graphene can revolutionise global industries such as the space industry. In addition to world-leading expertise in graphene, facilities such as the new , will also support the development of advanced machines and machinery required to bring these applications to reality.”

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    Mon, 04 Oct 2021 14:08:39 +0100 https://content.presspage.com/uploads/1369/500_som-spacestation-v03-final1200px.jpg?10000 https://content.presspage.com/uploads/1369/som-spacestation-v03-final1200px.jpg?10000
    Helping robots to build new antibiotics /about/news/helping-robots-to-build-new-antibiotics/ /about/news/helping-robots-to-build-new-antibiotics/345513A team from The University of 野狼社区 have engineered a common gut bacterium to produce a new class of antibiotics by using robotics. 

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    A team from The University of 野狼社区 have engineered a common gut bacterium to produce a new class of antibiotics by using robotics. These antibiotics, known as class II polyketides, are also naturally produced by soil bacteria and have antimicrobial properties which are vital in the modern pharmaceutical industry to combat infectious diseases and cancer.

    The naturally produced Escherichia coli bacteria are difficult to work with as they grow in dense clumps that are incompatible with the automated robotic systems used for modern biotechnology research. By transferring the production machinery from the soil bacteria into E. coli, the 野狼社区 team is now making this class of antibiotics accessible for much more rapid exploration.

    This breakthrough could be vital for the ongoing combat against antimicrobial resistance, as recently developed automated robotics systems can now be used to create new antibiotics in a fast and efficient way.

    In this work, published in the journal , the group led by Professor Takano at The University of 野狼社区 show the potential of this approach. By combining the bacterial production machinery with enzymes from plants and fungi, it was possible to produce new chemical compounds not previously seen in nature. Using this plug-and-play platform, it will now be possible to explore and engineer polyketides using robotic systems to develop new and diversified polyketides in an automated, rapid and versatile fashion.

    Eriko Takano, Professor of Synthetic Biology said: “Nature is a huge treasure trove for powerful chemical compounds to treat a wide range of diseases. However, the most interesting chemicals often come from organisms that are difficult to work with in the laboratory.

    “This has been a major bottleneck for our work on type II polyketides, a group of important chemicals, which are mostly produced by soil bacteria and other microorganisms that are challenging to grow. By successfully moving the production machinery for these compounds into the “laboratory workhorse” bacterium E. coli, we can finally produce and engineer type II polyketides in our rapid robotic systems.

    “This not only allows us to trial new polyketides in an automated manner, but we will also be able to quickly rewrite the DNA sequences of the antibiotic biosynthesis pathways and combine them with new components from other organisms, such as medicinal plants and fungi, to produce variations on the antibiotic theme – including compounds that are not produced by the natural pathways, but may have enhanced or novel activities in the treatment of important diseases.”

    It could take a person a whole year to make and test ten new potential antibiotics, but this automated robotic system can make thousands in that time. This would hugely decrease the time it takes for new antibiotics to reach patients, and provide the necessary agility to react to new pathogen strains and outbreaks.

     is one of The University of 野狼社区’s  - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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    Thu, 18 Jul 2019 19:00:00 +0100 https://content.presspage.com/uploads/1369/500_img-3559ori-800307.jpg?10000 https://content.presspage.com/uploads/1369/img-3559ori-800307.jpg?10000
    Why don鈥檛 birds fall over when they jump? /about/news/why-dont-birds-fall-over-when-they-jump/ /about/news/why-dont-birds-fall-over-when-they-jump/307154Scientists have been analysing the way birds jump when they take-off to help us understand why they simply don’t just fall over when attempting to fly.

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    Scientists have been analysing the way birds jump when they take-off to help us understand why they simply don’t just fall over when attempting to fly.

    The researchers, based in the at The University of 野狼社区, have been investigating the biomechanics of how birds jump, and will use the findings to design jumping robots in the future. 

    Jumping robots that are highly agile and able to manoeuvre quickly through debris are extremely useful for exploring disaster zones such as earthquakes and floods.

    To perform the standing start take-off that we often see birds do in nature, they have to lean so far forwards that their centre of gravity is well ahead of their feet. If they were to pause during this manoeuvre, they would simply tip forwards, fall over, and never take-off. But they don’t. That’s because the birds ‘pitch’ their bodies upwards during the take-off.

    The researchers have found that by pitching the body upwards as the bird pushes off the ground or a perch it maintains stability in one fluid manoeuvre. This combination of pitching while accelerating has long been known in the field of walking biomechanics, but this is the first time it has been found and applied in relation to jumping.

    The researchers also found that, as well as pitching, birds have a ‘compliance’ in their joints which allows them to flex in a unique way during a jump. Without this compliance the birds would experience ‘stutter’ or ‘chatter’ which is a high frequency vibration between the feet at the ground.

    For the study the researchers used computer simulations to understand the stability of birds taking-off from a perch and from the ground.

    Dr Ben Parslew, Lecturer in Aerospace Engineering and lead author, explains: “Traditionally jumping take-offs are viewed as conceptually complex to understand or try to recreate.

    “But our research, for the first time, shows that you can ignore the movement of the individual leg segments, and the wing, and just treat a jumping bird as a single body.

    “This is enough to understand how birds remain stable when they take-off and, more importantly, these findings teach us the fundamentals about how a jumping robot would have to move to avoid tipping over when it jumps.”

    The study also found that a bird’s wings weren’t as fundamental in its take off as previously thought.

    Dr Parslew added: “Jumping take-off in birds is an explosive behaviour with the goal of providing a rapid transition from ground to airborne locomotion. This study found that for jumping diamond doves, the wing contributes very little to the physics of take-off and ‘it's all about the legs’ with the wings only coming into play once the bird is airborne.”

    REFERENCE: "" Royal Society Open Science, Ben Parslew*, Girupakaran Sivalingam, William Crowther - Royal Society Open Science 

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    Wed, 31 Oct 2018 01:30:00 +0000 https://content.presspage.com/uploads/1369/500_guinea-fowl-1165114-960-720-416429.jpg?10000 https://content.presspage.com/uploads/1369/guinea-fowl-1165114-960-720-416429.jpg?10000
    Scientists train spider to jump on demand to discover secrets of animal movement /about/news/scientists-train-spider-to-jump-on-demand-to-discover-secrets-of-animal-movement/ /about/news/scientists-train-spider-to-jump-on-demand-to-discover-secrets-of-animal-movement/275263

    Scientists have unlocked the secrets of how some predatory spiders catch their prey while hunting by successfully training one to jump different distances and heights for the first time.

    The study, conducted by researchers at *The University of 野狼社区, is the most advanced of its kind to date and first to use 3D CT scanning and high-speed, high-resolution cameras to record, monitor and analyse a spider’s movement and behaviour.

    The aim of the research is to answer the question of why jumping spider anatomy and behaviour evolved the way it did, and secondly, to use this improved understanding of spiders to imagine a new class of agile micro-robots that are currently unthinkable using today’s engineering technologies.

    The study is being published in the journal .

    Dr Mostafa Nabawy, lead author of the study, says: “The focus of the present work is on the extraordinary jumping capability of these spiders. A jumping spider can leap up to six times its body length from a standing start. The best a human can achieve is about 1.5 body lengths. The force on the legs at take-off can be up to 5 times the weight of the spider - this is amazing and if we can understand these biomechanics we can apply them to other areas of research.”

    The researchers trained the spider, which they nicknamed Kim, to jump different heights and distances on a manmade platform in a laboratory environment. Kim belongs to a species of jumping arachnid known as Phidippus regius, or ‘Regal Jumping Spider’.

    The team then recorded the jumps using ultra-high-speed cameras, and used high resolution micro CT scans to create a 3D model of Kim’s legs and body structure in unprecedented detail.

    The results show that this particular species of spider uses different jumping strategies depending on the jumping challenge it is presented with.

    For example, to jump shorter, close-range distances Kim favoured a faster, lower trajectory which uses up more energy, but minimises flight time. This makes the jump more accurate and more effective for capturing its prey.

    But, if Kim is jumping a longer distance or to an elevated platform, perhaps to traverse rough terrain, she jumps in the most efficient way to reduce the amount of energy used.

    Insects and spiders jump in a number of different ways, either using a spring like mechanism, direct muscle forces or using internal fluid pressure.

    Scientists have known for more than 50 years that spiders use internal hydraulic pressure to extend their legs, but what isn’t known is if this hydraulic pressure is actively used to enhance or replace muscle force when the spiders jump.

    Dr Bill Crowther, co-author of the study, explains: “Our results suggest that whilst Kim can move her legs hydraulically, she does not need the additional power from hydraulics to achieve her extraordinary jumping performance. Thus, the role of hydraulic movement in spiders remains an open question.”

     

    *The research team is comprised of specialists in microsystems, robotics, biomechanics and spider physiology from the University’s and . These were Dr Mostafa Nabawy, Dr Girupakaran Sivalingam, Dr Russell Garwood, Dr William Crowther and Prof William Sellers

    Reference: The paper, 'Energy and time optimal trajectories in exploratory jumps of the spider Phidippus regius' is being published in the journal by Mostafa R. A. Nabawy, Girupakaran Sivalingam1, Russell J. Garwood, William J. Crowther & William I. Sellers

     

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    Tue, 08 May 2018 10:00:00 +0100 https://content.presspage.com/uploads/1369/500_kim2.jpg?10000 https://content.presspage.com/uploads/1369/kim2.jpg?10000
    Jumping spiders and flying bees: The rise of bio inspired microrobots /about/news/jumping-spiders-and-flying-bees-the-rise-of-bio-inspired-microrobots/ /about/news/jumping-spiders-and-flying-bees-the-rise-of-bio-inspired-microrobots/263560Jumping robot spiders and swarms of robotic bees sounds like the stuff of science fiction, but researchers at The University of 野狼社区 are already working on such projects and aiming to lead the world in micro robotics.

     

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    Jumping robot spiders and swarms of robotic bees sounds like the stuff of science fiction, but researchers at The University of 野狼社区 are already working on such projects and aiming to lead the world in micro robotics.

    But what will these kinds of robots be used for and is it something we should be worried about? Dr Mostafa Nabawy is the Microsystems Research Theme Leader at The University of 野狼社区’s . He is presenting some of his research, “Spiders Attack: The rise of bioinspired microrobots” at 野狼社区’s on Thursday 1 March.

    Here Dr Nabawy explains why micro robots really aren’t anything to worry about and, instead, could be the revolution in robotics that spearheads the next generation in manufacturing technology:

    ‘For our robotic spiders research we are looking at a specific species of jumping spider called Phidippus regius. We have trained it to jump different distances and heights, recording the spider’s every movement in extreme detail through high resolution cameras which can be slowed down.

    ‘We are now using this bio-mechanical data to model robots that can perform with the same abilities. With this extensive dataset we have already started developing prototype robots that can mimic these biomechanical movements and jump several centimetres.’

    Why jumping spiders you ask? Unlike humans, these spiders can jump up to six-times longer than their own body length from a standing start. In comparison, the maximum a human can jump is just one and half times.

    Dr Nabawy says if we can perfect the way spiders jump in robots they can be used for a variety of different purposes in complex engineering and manufacturing and can be deployed in unknown environments to execute different missions.

    Dr Nabawy’s research and background is in aerodynamics, aircraft design, and the modelling of engineering systems. But he is now combining this expertise with bio-inspired flying and jumping technologies, including .

    He added: ‘The ultimate aim is to create a robot bee that can fly independently and we’re quite a long way into that project. But there are also many different opportunities for brilliant science and engineering outcomes along the way so it is a very exciting process.

    ‘We’re aiming to create the world’s first robot bee that can fly unaided and unaccompanied. These technologies can also be used for many different applications, including improving the current aerodynamic performances of aircraft.

    ‘Or, imagine if the current trend of a declining bee population continues, swarms of robot bees pollinating crops and flowers could become a reality. Whilst this may sound like something out of a transformers film this is our ultimate aim. But don’t worry we are someway off swarms of flying mechanical bees and armies of mechanical spider robots.’

    The  is looking at the future of the manufacturing industry, but will also look at topics ranging from Brexit and the Northern Powerhouse to skills shortages, cyber-security and blue skies technology.

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    Thu, 01 Mar 2018 09:00:00 +0000 https://content.presspage.com/uploads/1369/500_1-2.jpg?10000 https://content.presspage.com/uploads/1369/1-2.jpg?10000
    Automation, robots and the 鈥榚nd of work鈥 myth /about/news/automation-robots-and-the-end-of-work-myth/ /about/news/automation-robots-and-the-end-of-work-myth/254169  

    Can you imagine travelling to work in a robotic “” like the one predicted in the cult Arnold Schwarzenegger movie ? The image from 1990 is based on science fiction, but Mercedes Benz does have a that it aims to install in the next five years and Uber is also waging on a self-driving future. Its partnership with Volvo has been seen as a boost to its ambitions to replace a fleet of self-employed drivers with .

    Jonnycab might belong to futurology but if Erik Brynjolfson and Andrew McAfee are right, we may all be rejoicing at the prospect of extended leisure time, as robotic technologies free us from the drudgery of work. Except for the fact that big business will be keeping its eye on the bottom line and will often be opting for fast and cheap alternatives.

    No work, more play?

    These are not new concepts. argued technology would help free workers from harsh labour and lead to a . In the 1930s Bertrand Russell wrote of the benefits of “” and the economist John Maynard Keynes predicted that automation could enable a of less than 15 hours.

    Claims that robotics will wipe out millions of jobs, from to are all too common. But some see a change to how we work running alongside these job losses.

    Empowering or enslaving?

    Instead, some envision that digital platforms will empower people to become their own boss with the freedom to choose when and where to work and how much they will earn. And people will be encouraged to earn a living by “mixing it up” – becoming a driver one day (using the Uber or Deliveroo app) and then switching to digital “microtasks” (a small unit of work such as tagging images or translating text that takes place on a virtual assembly line) on one of the burgeoning platforms that make up the .

    A future where work is replaced by leisure time has widespread appeal. But the reality is many people now work longer hours with growing job insecurity, fragmented income and . If anything, technology has not liberated people from the drudgery of work as Marx, Russell and Keynes once anticipated, but has created new constraints, through the digitalisation of life.

    While technology may displace older job skills, new work demands emerge. Most corporations seek to protect their vested interests (maximising profit) while keeping shareholders sweet, which often means searching for cheaper labour rather than investing in expensive capital infrastructures.

    The ability to use technology to automate does not necessarily lead to implementation. Of the US companies that could benefit from robots, only 10% have . For low-skilled and low-paid sectors – including care homes, restaurants, bars and some factories – it will continue to be less costly to employ people.

    Consider the last time you had your car washed. The chances are it was not an automated drive-through, but a hand-wash carried out by immigrant labour at lower cost than the automated alternative. In short, while labour remains cheap, employers tend to cash in rather than benefit from the full potential of technologies.

    Many employers have little intention of innovating through technology. Consumerism and an almost blind faith in free market principles mean technology is leveraged to extract ever greater profit, rather than provide some of the idleness and leisure time Bertrand Russell felt would benefit society.

    No substitute for people

    Technology and how it is developed and adopted is not a neutral force but is shaped by politics and economics. While automation may replace some jobs, the technology rarely acts as a substitute for people. Instead, jobs become codified and reduced to a narrow range of de-skilled tasks. Technology is deeply connected to relations of power and tends not to wipe away inequalities in a society, but builds on existing inequalities.

    The proliferation of digital technologies can be associated with the growth of insecure, intensive and poor quality work as seen in and (a major manufacturer of Apple products) who use technology to monitor performance and dehumanise the workplace. The net effect is a polarised labour market of low-skill and low-income workers sitting alongside an elite who enjoy more secure jobs (at least for now).

    The future of work seems more likely to revolve around cost-containment strategies which limit investment in infrastructure and efficient technologies, opting instead for cheap sweated labour. It is more likely that managers will forego efficiency-generating gains from digital technologies because of a fear of losing control. Remember the promise of homeworking in the ?

    The ConversationIn order to realise Keynes’ vision of a shorter working week, managers would have to share control and provide an employment regime supporting genuine self-determination. Unfortunately, modern capitalist relations and geopolitical systems of governance are intolerant of such egalitarianism. For these reasons, it’s time to draw a close to the “end of work” hysteria. It is sham.

    , Professor of HRM & Employment Relations, and , Professor of Technology and Organisation,

    This article was originally published on . Read the .

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    Wed, 17 Jan 2018 12:53:25 +0000 https://content.presspage.com/uploads/1369/500_file-20180116-53289-4ronkq.jpg?10000 https://content.presspage.com/uploads/1369/file-20180116-53289-4ronkq.jpg?10000
    Killer robots, free will and the illusion of control /about/news/killer-robots-free-will-and-the-illusion-of-control/ /about/news/killer-robots-free-will-and-the-illusion-of-control/252789File 20171219 4968 14w7mbd.jpg?ixlib=rb 1.1

    Control. We all like to think we have it, but is it all just an illusion? It might seem like a very existential question but it plays an important part in our acceptance of new technologies, especially when it comes to robots.

    Even if we personally aren’t in control of something, we often like to comfort ourselves that someone else is. Humans have free will and empathy and we trust that we will make the “right” choice should something bad happen.

    The problem is, humans are unpredictable. There are people on the planet. Each person has their own moral and ethical code, a lifetime of different experiences that shape their actions and each one has a unique psychological make up which will direct how they react to a stressful event.

    When you take your driving theory test, you aren’t asked about . This is a famous thought experiment which can be adapted as follows: you’re driving a car and a child runs out in front of you, too close to stop before you hit them. If you swerve left to avoid them, you’ll hit pedestrians and if you swerve right, you’ll hit oncoming traffic killing yourself and the driver of the other car. What do you do?

    The first step is to brake as hard as you can. You then have to make a choice about which of the three options you take. There is no correct answer but you will make a decision subconsciously about which one to take. You might take into account a whole host of conditions to justify your decision. Of course it’s unlikely you’ll ever fully acknowledge which factors you took into account. Everyone will agree that you were put in an impossible position.

    Impossible decisions and accountability

    But now change the scenario slightly. You’re in an and the same incident occurs. The car brakes as hard as it can, but who has decided which of the three options it will take? Unlike you, that decision and the sensory inputs used to make it can be traced back. There could be a much higher level of accountability. These types of scenarios could be simulated thousands of times and the outcomes predicted and verified. A human will have programmed the outcomes into it. But it won’t be one person who does this – a consensus across the scientific, political and social spectrum will have been built.

    History has shown that when human control is replaced with automated control, safety increases and the number of – whether that’s or aircraft in late 20th century. Automated transportation is likely to have the same benefits.

    Killer robots

    But there is one area where fear of ceding control could have profound effects, serious enough that the – killer robots. While automation in almost every other walk of life , in the end reasoned discussion has been had in public forums to highlight the potential benefits. But not since the of the industrial revolution has a topic engendered such .

    Some even argue that by restricting AI research in this field, we can prevent a dystopian future, like that predicted in the sensationalist video “”. War and violence are emotive topics, but it is naive to think that humankind will ever be rid of them. on both sides when it comes to the use of robots in war but ultimately it all comes down to control.

    The biggest fear about autonomous weaponry is that anyone could do it. All you would need is a low cost robot (perhaps even a toy drone), a camera and some code from the internet and you have an autonomous killing robot. It doesn’t even have to have a weapon attached to it – with a rock strapped to it, dropping out of the sky onto your head will kill you just as easily as an explosive. Strap a metal bar to one and fly it into an aircraft engine and you could bring a plane down.

    A killer robot will need image processing, facial recognition and geo-location capabilities. These are already embedded in almost every aspect of our lives. You can use facial recognition to and everyone has sat-nav on their phones, so stopping research on it is simply not feasible. Mobile robot use is becoming more prevalent in everyday life so it’s unlikely their advance will be stopped.

     

    A ‘killer’ drone concept image. 

    Some people even fear these robots will eventually decide who to kill themselves. But society is a very long way from that reality. Yes, it might make killing someone easier than but you to kill someone. Nobody has called for a ban on cars following their use over the last year because the benefits far outweigh the risks.

    So as you walk down the street, ask yourself, are you really in control of your life? Haven’t we already relinquished control? Don’t we do it every time we get in a taxi or a plane or a bus? The illusion of control is in every aspect the world. But if another human appears to be in control, people seem happy to give them the benefit of the doubt.

    The reality is that machines and are much more reliable and accountable than humans. Maybe it’s time for society to see through the illusion and make the practical decision – relinquish control and let the machines and the robots do what they’re designed to do.

     

    , Lecturer in Robotic Systems,

    This article was originally published on . Read the .

     

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    Wed, 03 Jan 2018 11:12:46 +0000 https://content.presspage.com/uploads/1369/500_file-20171219-4968-yf7gpj.jpg?10000 https://content.presspage.com/uploads/1369/file-20171219-4968-yf7gpj.jpg?10000
    Nanobots pass first stage in 鈥榝antastic voyage鈥 from fiction to fact /about/news/nanobots-pass-first-stage-in-fantastic-voyage-from-fiction-to-fact/ /about/news/nanobots-pass-first-stage-in-fantastic-voyage-from-fiction-to-fact/246986A team of scientists have created a new generation of tiny remote controlled nanorobots which could one day allow doctors to diagnose disease and deliver drugs from within the human body.

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    A team of scientists have created a new generation of tiny remote controlled nanorobots which could one day allow doctors to diagnose disease and deliver drugs from within the human body.

    The team led by Professor Li Zhang from the , including Professor from The University of 野狼社区, have created the bots from a biodegradable material called spirulina algae.

    The algae, sold today as a food substitute in health food shops, was a source of nourishment during the time of the Aztecs.

    But it was rediscovered in the 1960s by Lake Texcoco in Mexico by French researchers.

    A paper by the team, published in hails the bots’ biodegradability as a new concept, in which an iron magnetic coating helps fine-tune the rate which they degrade.

    The nanorobots can be remotely controlled within complex biological fluids with high precision using magnetic fields.

    The team also describes how the bots are able to release potent drug compounds that are able to attack cancer cells.

    However more work still needs to be done on motion tracking, biocompatibility, biodegradation, and diagnostic and therapeutic effects before clinical trials can take place.

    Professor Zhang said: “Rather than fabricate a functional microrobot from scratch using intricate laboratory techniques and processes, we set out to directly engineer smart materials in nature, which are endowed with favorable functionalities for medical applications owing to their intrinsic chemical composition. For instance, because these biohybrid bots have a naturally fluorescent biological interior and magnetic iron-oxide exterior, we can track and actuate a swarm of those agents inside the body quite easily using fluorescence imaging and magnetic resonance imaging.

    “Our microrobots have the ability to sense changes in environments associated with the onset of illness and that makes them a promising probe for remote diagnostic sensing of diseases.

    “We must now develop this technology further so we are able to fine tune this image–guided therapy and create a proof of concept for the engineering of multifunctional microrobotic and nanorobotic devices.”

    Professor Kostarelos said: “Creating robotic systems which can be propelled and guided in the body has been and still is a holy-grail in the field of delivery system engineering.

    “Our work takes advantage of some elements offered by nature such as fluorescence, degradability, shape.

    “But we add engineered features such as magnetisation and biological activity to come up with a the proof-of-concept behind our bio-hybrid, magnetically propelled microrobots.

    He added: “We are still in early days of development since any such robotic system would need to be either completely and safely degraded, or it will need to be removed or excreted from the body after it has finished its work.

    “But nevertheless, our work provides the first ever example of how this could be possibly achieved by degradation.

    “The potential of these bots for controlled navigation in hard-to-reach cavities of the human body makes them promising miniaturized robotic tools to diagnose and treat diseases which is minimally invasive.”

    The research teram included the Chinese University of Hong Kong, The  University of Edinburgh and The University of 野狼社区.

    The paper ‘Multifunctional biohybrid magnetite microrobots for imaging-guided therapy’ is published in Science Robotics (DOI: 10.1126/scirobotics.aaq1155) on 22 November, 2017.

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    Thu, 23 Nov 2017 05:00:00 +0000 https://content.presspage.com/uploads/1369/500_infographicaaa.jpg?10000 https://content.presspage.com/uploads/1369/infographicaaa.jpg?10000
    Future robots won鈥檛 resemble humans 鈥 we鈥檙e too inefficient /about/news/future-robots-wont-resemble-humans--were-too-inefficient/ /about/news/future-robots-wont-resemble-humans--were-too-inefficient/245002Humanoid robots are a vanity project: an attempt to create artificial life in our own image – essentially trying to play God. The problem is, we’re not very good at it. 

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    Humanoid robots are a vanity project: an attempt to create artificial life in our own image – essentially trying to play God. The problem is, we’re not very good at it. Ask someone on the street to name a robot and you might hear “Terminator”, “the Cybermen” or “that gold one from Star Wars”.

    What you’re not going to be given are names like , or . These are all robots, but they don’t follow the sci-fi narrative of what robots should be like. The fact is, the robots of the near future won’t be going about on two legs like the shuffling C3PO. And they’ll be much more efficient than us .

    Our impression of what a robot is has been tainted by science fiction and popular culture. The term “robot” was first used in 1920 by Karel and Josef 膶apek in a play called to describe an artificial automaton. Since then, our narcissistic desires have seen the word become synonymous with humanoid robots, or androids.

    We like to think that we’re the dominant creatures on the planet, so mobile robots should look like us. But the fact is, they shouldn’t. We can’t fly, we’re not very good swimmers, we can’t live in a vacuum and if we want to travel more than a mile, most of us will get on some type of wheeled vehicles. Bipedal locomotion has served us well but it is limited and requires a and years of learning to perfect. The computer versions of our brain are nowhere near our level and are unlikely to be so for decades to come. After nearly 100 years of development, our most advanced humanoid robots can only just open a door without falling over (too often).

    Is a plane a robot?

    So what is the future of robotics? Well, it comes down to what you define a robot as. Unfortunately there isn’t a unified definition of what a robot is, but the general consensus is that it’s a physical device which can sense its surroundings and interact with the environment with limited human intervention. This could either be automation, where tasks are pre-programmed, or autonomy, where the robot makes decisions on its own.

    Let’s say that I build a little four-wheeled robot that can move from point A to point B without crashing into anything. I can give it a map and tell it where to go and it will do so without any further instructions. This sounds quite nifty, but what’s the point of it? Well now let’s scale it up so you can sit in it. Now suddenly it’s not a robot, it’s a driverless car. But all that’s changed is the size.

    I now want to fly off on my holidays. I quite happily get on the plane and see the two pilots in the cockpit. When I land, they’re still there and I think what a great job they did. More than likely though, the pilots didn’t actually fly the plane. They will have inputted commands to the autopilot and the computer will have flown the plane. The plane, for all intents and purposes, is a robot with human supervisors to take over if anything goes drastically wrong, just like a driverless car.

     

    Planes, trains automobiles … and robots

    The future of nearly all transport is mobile robots. We’re already there with robotic aircraft and within the next decade, we’ll have . Robots already  and . It won’t be too long before we have driverless trains and trams too.  will become a bigger part of society. All these things are robots, but they’ve had to be called something else due to societal impression of what a robot is.

    What this highlights is that we adapt the technology to fit the environment. Rather than building robots that look like us so that they can be a direct replacement, you’ll start to see things being built to suit a problem. Why do you need a robot with complex hands to pick up a pair of scissors or a hammer, when it can be built into their arms? Why build a robot to  on two legs, when four or six legs – or a wheeled track – would be much more stable?

    The ConversationThere is no doubt that eventually androids will be walking around and talking with us. You’ll pass them wandering down the street or hold a conversation with one as you do your shopping. But for now, the robots of the near future won’t walk like us. Instead they’ll drive, they’ll fly, they’ll swim or they’ll walk on any number of legs – except two.

    , Lecturer in Robotic Systems, . This article was originally published on . Read the .

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    Thu, 09 Nov 2017 10:07:31 +0000 https://content.presspage.com/uploads/1369/500_peppertherobot.jpg?10000 https://content.presspage.com/uploads/1369/peppertherobot.jpg?10000
    野狼社区 leading the way in robotics and AI for nuclear industry /about/news/manchester-leading-the-way-in-robotics-and-ai-for-nuclear-industry/ /about/news/manchester-leading-the-way-in-robotics-and-ai-for-nuclear-industry/245181Researchers at The University of 野狼社区 will lead a new multimillion pound robotic and artificial intelligence (AI) programme aiming to clean up the world’s nuclear waste.

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    Researchers at The University of 野狼社区's  will lead a new multimillion pound robotic and artificial intelligence (AI) programme aiming to clean up the world’s nuclear waste.

    Led by , Professor of Applied Control in the , the new Hub has been awarded £12 million to tackle some of the biggest challenges facing the nuclear industry.

    The hub will undertake world-leading research and develop innovative technologies to address issues such as decommissioning, waste management, fusion, plant life extension and new site builds.

    Whilst being led by 野狼社区, RAIN brings together expertise from the Universities of Oxford, Liverpool, Sheffield, Nottingham, Lancaster, Bristol and the UK Atomic Energy Authority (UKAEA), as well as international partners from the US, Italy and Japan.

    Prof Lennox, who is also part of the University's , says: "This is excellent news, not just for the universities involved, but the entire energy and nuclear sectors. It is also a testament to the world-leading research we are doing right here in 野狼社区. We have already successfully tested robots at facilities such as Sellafield and in hazardous environments like Fukushima in Japan and this new investment will allow us to take these major developments to the next level."

     

    The funding comes from a wider £68m awarded from the Industrial Strategy Challenge Fund (ISCF) of which £44.5m has been invested, over three and half years, for four research hubs, including RAIN, which will be managed by the .

    Professor Philip Nelson, EPSRC Chief Executive, said: “These new Robotics Hubs will draw on the country’s research talent to nurture new developments in the field of robotics and provide the foundations on which innovative technologies can be built. The resulting outcomes from this research will allow us to explore environments that are too dangerous for humans to enter without risking injury or ill-health.”

    The overall funding comes from the Government’s £93m for the robotics and AI in extreme environments programme. Innovate UK and the Research Councils are taking a leading role in delivering this funding.

    Ruth McKernan, Chief Executive of Innovate UK, added: “These pioneering projects driven by the very best minds in UK research and industry exemplify the huge potential of what can be achieved through the Industrial Strategy Challenge Fund and the long-term benefits for the UK economy. These are just the first competitions in robotics and AI, there will be further opportunities for businesses in the coming months.”

    Energy

     is one of The University of 野狼社区’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons []

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    Wed, 08 Nov 2017 16:44:26 +0000 https://content.presspage.com/uploads/1369/500_robot.jpg?10000 https://content.presspage.com/uploads/1369/robot.jpg?10000
    Computers able to mimic unique movements, finds study /about/news/computers-able-to-mimic-unique-movements-finds-study/ /about/news/computers-able-to-mimic-unique-movements-finds-study/222537A team of researchers has published the first study to show that each one of us has a unique 'control profile' that can be extracted by computer.

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    A team of researchers has today published the first study to show that each one of us has a unique 'control profile' that can be extracted by computer.

     

    The team also showed the computer profile was the same over time and distinct from other people.

     

    Led by University of 野狼社区 Doctoral researcher , the study has implications for skills training, rehabilitation after stroke, and in transforming the way psychology is normally studied.

     

    He said: “We've all witnessed how the latest technology can work out our own 'personal profile' from our shopping and viewing preferences online.

     

    “But we find that technology could be used to profile our movements in the 'real' world.”

     

    In the study, 20 volunteers used a joystick that controlled the position of a cursor on a computer screen.

     

    A computer model, developed from a scientific theory known as perceptual control theory, was fitted to the cursor movements of each volunteer so it learned to behave in a similar way to the volunteer.

     

    Researchers then recorded the movements produced by both models and volunteers when they tracked a series of new targets.

     

    He added: “The match between the movements that the volunteers and their own personal model was very high, even one week later.

     

    “In fact, each model was personal - it fit the person it was designed for better than other people’s models.”

    The study, the first of its kind, suggests we may be able to monitor people’s unique performance profile - useful at both ends of the spectrum - from people who struggle to engage in activities when rehabilitating after a stroke - to professional athletes who aim to enhance their performance through training.

    Dr Warren Mansell, who was on the research team, said: “The study also tells us that research doesn’t just tell us about the average person, or make generalisations about groups of people - like people with a specific diagnosis.

    “These findings are known to be hard to repeat - leading to the 'replication crisis' in psychology.

    “It may now be feasible to use science to understand each one of us, individually, with our own personal strengths and limitations. It opens up the possibility that the ‘woolly’ topic of psychology can be immediately practical and technically precise.”

    is published in Attention, Perception, & Psychophysics. DOI 10.3758/s13414-017-1398-2

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    Fri, 01 Sep 2017 12:00:00 +0100 https://content.presspage.com/uploads/1369/500_b-boying-413726-1920.jpg?10000 https://content.presspage.com/uploads/1369/b-boying-413726-1920.jpg?10000
    Artificial intelligence and robots to make offshore windfarms safer and cheaper /about/news/artificial-intelligence-and-robots-to-make-offshore-windfarms-safer-and-cheaper/ /about/news/artificial-intelligence-and-robots-to-make-offshore-windfarms-safer-and-cheaper/177808The University of 野狼社区 is leading a consortium to investigate advanced technologies, including robotics and artificial intelligence, for the operation and maintenance of offshore windfarms.

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    The University of 野狼社区 is leading a consortium to investigate advanced technologies, including robotics and artificial intelligence, for the operation and maintenance of offshore windfarms.

    The remote inspection and asset management of offshore wind farms and their connection to the shore is an industry which will be worth up to £2 billion annually by 2025 in the UK alone.

    Eighty to ninety percent of the cost of offshore operation and maintenance according to the Crown Estate is generated by the need to get site access – in essence get engineers and technicians to remote sites to evaluate a problem and decide what action to undertake.

    Such inspection takes place in a remote and hazardous environment and requires highly trained personnel of which there is likely to be a shortage in coming years.

    The £5m project will investigate the use of advanced sensing, robotics, virtual reality models and artificial intelligence to reduce maintenance cost and effort. Predictive and diagnostic techniques will allow problems to be picked up early, when easy and inexpensive maintenance will allow problems to be readily fixed. Robots and advanced sensors will be used to minimise the need for human intervention in the hazardous offshore environment.

    The use of robots will allow operation in difficult or hazardous environments: sub-sea to inspect cables, in high-voltage environments to inspect high voltage equipment and around the wind turbines to check their mechanical structures. The latest in advanced sensors will be used, for example sonar techniques to assess sub-sea cable wear and degradation in situ. This, along with state-of-the-art system modelling and artificial intelligence, will be used to best assess the data produced.

    The University of 野狼社区’s , who is leading the three-year project, said: “The UK has world-leading expertise in the technologies and science in this area, but they have often operated separately. The UK have supported this project to bring them together for the first time to make a real step change in this industry.”

    The project is a collaboration between the universities of 野狼社区, Durham, Warwick, Cranfield, Heriot-Watt and a consortium of companies from the offshore industry. Techniques will be trialled in an offshore test site in Scotland and a project demonstration will be given at Salford Quays, 野狼社区.

    Energy

     is one of The University of 野狼社区’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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    Thu, 09 Mar 2017 11:30:00 +0000 https://content.presspage.com/uploads/1369/500_nature-678374-1920.jpg?10000 https://content.presspage.com/uploads/1369/nature-678374-1920.jpg?10000
    NASA rover technology to be used in project to map nuclear sites comprehensively /about/news/nasa-rover-technology-to-be-used-in-project-to-map-nuclear-sites-comprehensively/ /about/news/nasa-rover-technology-to-be-used-in-project-to-map-nuclear-sites-comprehensively/176745University of 野狼社区 scientists are leading a team which is to comprehensively map some of the world’s most radioactive sites using sensing technology mounted on an advanced robotic vehicle.

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    University of 野狼社区 scientists are leading a team which is to comprehensively map some of the world’s most radioactive sites using sensing technology mounted on an advanced robotic vehicle.

    The world is home to a large number of sites which are contaminated with radioactive waste and require clean-up and analysis. Currently, the options to map and assess these sites are extremely expensive and time consuming – involving either removing samples for lab analysis or sending in remote sensors which only give part of the necessary picture.

    The team, led by The University of 野狼社区, has been awarded a £1.6 million grant by to form a group which will develop a new robotic system with the ability to use a wider range of sensors than ever before to map nuclear sites.

    Featuring optical spectroscopic techniques, advanced radiation detection methods and modern sensor technologies on remotely-operated vehicle platforms, each sensing technology will provide a piece of the ‘total characterisation’ jigsaw, together with 3D mapping of the material within the environment.

    It will feature advanced robotics and control technologies, such as those used in NASA’s Curiosity Rover, to form the flexible platform necessary for trials in nuclear environments ranging from Sellafield in the UK, to Fukushima in Japan.

    Principal Investigator, from The University of 野狼社区's , said: "This is an exciting project bringing together a multi-disciplinary team of scientists and engineers to develop a really innovative system for remote characterisation of a range of nuclear environments which should lead to big improvements in the decommissioning process."

    The Consortium, known as TORONE (TOtal characterisation by Remote Observation in Nuclear Environments), is also made up of scientists from Lancaster and Aston Universities, the National Nuclear Laboratory and the UK Atomic Energy Authority. The project is for three years’ duration and starts on 1st March 2017.

    The TORONE group will be working with Sellafield, and Sellafield Ltd Robotics and Autonomous Systems Lead, Dr Paul Mort, said: “Characterisation of materials is of critical importance on the Sellafield site. Improved understanding of what materials are and where they are in our facilities offers considerable benefits when we are planning and carrying out decommissioning activities.

    “A technology that is cheap and able to be remotely deployed simply and quickly to inspect materials in-situ, will make it safer for humans and give an opportunity to get better data to make more informed decisions. This technology would have far reaching applications on site and has the potential to improve productivity, thereby reducing decommissioning timescales and costs.”

    , Director of The University of 野狼社区’s , said: “As we decommission nuclear facilities around the world, it has become very clear that we have to be smarter, because that allows us to be quicker, cheaper and safer. New ideas, such as these, are vital if we are to do this.”

    Lancaster University Co-Investigator Professor Malcolm Joyce said: “This is an exciting opportunity to integrate the state of the art in radiation detection and robotics.”

    The news follows another recent announcement that the University of 野狼社区 is to that are more durable and perceptive for use in nuclear sites.

    For more information on research in this area, visit .

    TORONE is led by UoM Principal Investigator Dr Philip Martin (School of Chemical Engineering and Analytical Sciences). Co-Investigators at UoM comprise Prof. Barry Lennox (School of Electrical and Electronic Engineering) and Prof Nick Smith (Royal Society Industry Fellow, Schools of Earth and Environmental Sciences and Mechanical, Aerospace and Civil Engineering, seconded from NNL); Lancaster University Co-Investigator Prof. Malcolm Joyce (School of Engineering) and Aston University Co-Investigator Dr Michael Aspinall (School of Life and Health Sciences).

    Funding of £1.6 million is from the EPSRC through its Remote Sensing in Extreme Environments call.

    Energy

     is one of The University of 野狼社区’s - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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    Thu, 02 Mar 2017 09:53:21 +0000 https://content.presspage.com/uploads/1369/500_nuclearrobot5.jpg?10000 https://content.presspage.com/uploads/1369/nuclearrobot5.jpg?10000
    Next generation of nuclear robots will go where none have gone before /about/news/next-generation-of-nuclear-robots-will-go-where-none-have-gone-before/ /about/news/next-generation-of-nuclear-robots-will-go-where-none-have-gone-before/176381The University of 野狼社区 is to lead a consortium to build the next generation of robots that are more durable and perceptive for use in nuclear sites.

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    The University of 野狼社区 is to lead a consortium to build the next generation of robots that are more durable and perceptive for use in nuclear sites.

    The cost of cleaning up the UK’s existing nuclear facilities has been estimated to be between £95 billion and £219 billion over the next 120 years or so. The harsh conditions within these facilities means that human access is highly restricted and much of the work will need to be completed by robots.

    Present robotics technology is simply not capable of completing many of the tasks that will be required. Whilst robotic systems have proven to be of great benefit at Fukushima Daiichi NPP, their limitations, which include relatively straightforward tasks such as turning valves, navigating staircases and moving over rough terrain, have also been highlighted.

    The new group comprising 野狼社区, the , and industrial partners , , and has been funded with £4.6m from The .

    It will develop robots which have improved, power, sensing, communications and processing power. They will also develop systems which are able to address issues around grasping and manipulation, computer vision and perception. Importantly the robots will be autonomous – able to operate without direct supervision by humans.

    The University of 野狼社区’s , who is leading this project, said: “This programme of work will enable us to fundamentally improve RAS capabilities, allowing technologies to be reliably deployed in to harsh environments, keeping humans away from the dangers of radiation.”

    Within the next five years, the researchers will produce prototype robots which will then be trialled in both active and inactive environments. It is anticipated that these trials will include using robotic manipulators to autonomously sort and segregate waste materials and to use multiple robots, working collaboratively, to characterise facilities that may not have been accessed for 40 years or more.

    The technology will not only have potential for improving robots used at nuclear sites, but also in other hostile environments such as space, sub-sea, and mining. Or in situations such as bomb-disposal and healthcare which are dangerous or difficult for humans.

    The University of 野狼社区 has already developed small submersible and ground-based vehicles that can be deployed to survey nuclear facilities which will be used in this project, allied with the skills and knowledge of the other partners.

    Professor Lennox added: “If we are to be realistic about clearing up contaminated sites, then we have to invest in this type of technology. These environments are some of the most extreme that exist, so the benefits of developing this technology can also apply to a wide range of other scenarios.”

     

     is one of The University of 野狼社区’s  - examples of pioneering discoveries, interdisciplinary collaboration and cross-sector partnerships that are tackling some of the biggest questions facing the planet. #ResearchBeacons

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    Mon, 27 Feb 2017 13:42:33 +0000 https://content.presspage.com/uploads/1369/500_robot.jpg?10000 https://content.presspage.com/uploads/1369/robot.jpg?10000
    野狼社区 Museum to be transformed by spectacular science /about/news/manchester-museum-to-be-transformed-by-spectacular-science/ /about/news/manchester-museum-to-be-transformed-by-spectacular-science/152594Jaw-dropping and hair-raising science experiments will be the order of the day during the latest Spectacular Science takeover of 野狼社区 Museum.

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  • Spectacular Science takes over of 野狼社区 Museum
  • Create a superhero, become a cell explorer, or build a world of fungus
  • Jaw-dropping and hair-raising science experiments will be the order of the day during the latest Spectacular Science takeover of 野狼社区 Museum.

    The hands-on day of amazing science, run by top scientists from The University of 野狼社区, offers challenges, live experiments, and interactive demonstrations to delight children and adults alike.

    The Science Spectacular will be held on Saturday, 29 October from 10am to 4pm at the 野狼社区 Museum on Oxford Road.

    The completely free event will enable young people to create a superhero, become a cell explorer, or build a world of fungus all with the help of real scientists working at the University.

    With their help, children will also be able to investigate our universe, make a mini robot dance, explore new wonder materials, and much, much more.

    At the same time, our science buskers will be lining Oxford Road dishing out dazzling displays of scientific wizardry.

    Sheena Cruickshank, University of 野狼社区 Lead for Public Engagement with Research said: “This award winning event is a treasure of delights showcasing the variety of amazing and excellent science at The University of 野狼社区.

    “野狼社区 has a proud history of scientific discovery and by coming to the Science Spectacular you’ll be able to make some discoveries of your own!”

    Further information about the Spectacular Science takeover of 野狼社区 Museum can be found at .

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    Tue, 18 Oct 2016 12:08:48 +0100 https://content.presspage.com/uploads/1369/500_scispecc.jpg?10000 https://content.presspage.com/uploads/1369/scispecc.jpg?10000
    野狼社区 showcasing next industrial revolution to Taiwanese experts /about/news/manchester-showcasing-next-industrial-revolution-to-taiwanese-experts/ /about/news/manchester-showcasing-next-industrial-revolution-to-taiwanese-experts/149561

    The next technological breakthroughs to power a new industrial revolution – dubbed Industry 4.0 – are being showcased to a delegation of Taiwanese experts as part of a fact-finding mission to the UK led by The University of 野狼社区.

    The delegates are visiting 野狼社区 – the birthplace of the first industrial revolution – for three weeks to learn more about the next big industrial development, known as Industry 4.0 or the ‘Industrial Internet of Things’.

    野狼社区 is set to become a world leader as the UK’s first city to demonstrate the use of Internet of Things technologies at large scale.

    “Industry 4.0 is about connectivity, between people, machines and devices, analysing large volumes of ‘Big Data’ to boost efficiency, working with cobots (collaborative robots which work closely with humans), using augmented reality and 3D printing. It’s about making industry smarter, more flexible and more efficient,” explained Dr Carl Diver from The University of 野狼社区.

    Leading academics from a number of universities in Taiwan, brought together by National Formosa University, are on a three-week professional development course run by 野狼社区’s School of Mechanical, Aerospace and Civil Engineering with support from colleagues across the University – with a long-term aim to develop stronger research links between the UK and Taiwan in the area of Industry 4.0.

    As part of their exciting programme the 30-strong Taiwanese delegation will attend a closing ceremony at the Etihad Stadium, with special guest speaker former-野狼社区 City player Francis Lee CBE and to hear from STATsports, a world-leading provider of GPS player tracking and analysis equipment, on how smart devices and wearable technology is influencing football.

    Other highlights have been a visit to top UK car marque Jaguar Land Rover, digger giants JCB, the new Hermes distribution centre in Warrington and NR Engineering, a precision engineering manufacturer, to discuss the possibilities and impact that Industry 4.0 is having.

    “野狼社区 is recognised as the birthplace of the first industrial revolution and the UK has maintained its pioneering reputation as we enter another phase of industrial development,” added Dr Diver, from 野狼社区’s School of Mechanical, Aerospace and Civil Engineering.

    “We expect this is the first of many more courses on this topic, the delegates have also experienced the wonderful cultural sights in and around 野狼社区.”

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    Thu, 22 Sep 2016 15:10:00 +0100 https://content.presspage.com/uploads/1369/500_taiwangroup.jpg?10000 https://content.presspage.com/uploads/1369/taiwangroup.jpg?10000
    鈥楬uman Brain Project鈥 receives 鈧89 million from the European Commission /about/news/human-brain-project-receives-89-million-from-the-european-commission/ /about/news/human-brain-project-receives-89-million-from-the-european-commission/148469

    A flagship project which launched a range of prototype computer platforms to support brain research - including one based at The University of 野狼社区 - has just received an €89 million boost from the European Commission.

    The ‘Human Brain Project’ is made up of six new informatics-based platforms across Europe which aim to accelerate scientific understanding of the human brain, make advances in defining and diagnosing brain disorders, and develop new brain-like technologies. The platforms are designed to help researchers advance faster and more efficiently by sharing data and results, and by exploiting advanced ICT capabilities. The platforms should enable closer collaboration between scientists to create more detailed models and simulations of the brain.

    野狼社区’s contribution to the project is SpiNNaker (short for Spiking Neural Network Architecture), a computing platform made up of 500,000 microprocessors which emulates the way brain neurons fire signals in real time. SpiNNaker can be used to accurately model areas of the brain, and to test new hypotheses about how the brain might work. Because it runs at the same speed as the biological brain, it can be used to control robotic systems, providing ‘embodiment’ for the brain models. This biological approach to robot control is very different from the algorithmic systems more commonly used in robotics.

    The project aims to deliver a collaboratively-built first simulation of the human brain by 2023, which will not be a complete replication of every detail, but will provide a framework for integrating data and knowledge about the human brain from worldwide research and clinical studies.

    The new funding was agreed following a successful review, in which the Human Brain Project was praised for making significant progress during its first phase (October 2013-March 2016).

    Thomas Skordas, Acting Director of the European Commission Digital Excellence and Scientific Infrastructure Directorate, said: “The Human Brain Project is now ready and well-prepared to begin its next phase. We have established the right basis for the Project to make significant progress in the coming two years towards reaching its overall goals”.

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    Mon, 12 Sep 2016 11:21:06 +0100 https://content.presspage.com/uploads/1369/500_img-2993.jpg?10000 https://content.presspage.com/uploads/1369/img-2993.jpg?10000
    World-class 野狼社区 scientist awarded Royal Society Research Professorship /about/news/royal-society-research-professorship/ /about/news/royal-society-research-professorship/147999

    Professor David Leigh of The University of 野狼社区’s School of Chemistry has been recognised as one of the world’s top scientists, by being awarded with a Royal Society Research Professorship.

    Professor Leigh is a leading supramolecular chemist, and a pioneer of synthetic molecular machine systems. His work is directed towards the invention of artificial molecular machines and is at the forefront of small-molecule robotics, an important step towards the goal of a useful working molecular nanotechnology.

    Previous holders of Royal Society Research Professorships include seven Nobel Laureates and five Presidents of the Royal Society. The professorships usually run for up to 10 years, and provide long-term support for internationally recognised scientists of exceptional accomplishments from a range of diverse areas including biochemistry, genetics, chemistry, developmental biology and physics.

    The title is also currently held by The University of 野狼社区’s Professor Sir Kostya Novoselov - he is known for his work on graphene with Andre Geim, for which he was awarded the Nobel Prize in physics in 2010.

    “Nanotechnology has strong social and economic relevance for all nations”, said Professor Leigh. “Functional molecular machines systems will ultimately reduce power requirements, accelerate drug and material discovery, facilitate recycling and reduce life-cycle costs.”

    “They have the potential to be cornerstones of revolutionary technologies that will address societal needs in terms of competitiveness, public health, energy, transport and security.”

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    Tue, 06 Sep 2016 16:58:18 +0100 https://content.presspage.com/uploads/1369/500_davidleigh.jpg?10000 https://content.presspage.com/uploads/1369/davidleigh.jpg?10000
    野狼社区 academic wins major national award /about/news/manchester-academic-wins-major-national-award/ /about/news/manchester-academic-wins-major-national-award/134489

    Danielle George, Professor of Microwave Communication Engineering at The University of 野狼社区, has been presented with the 2016 Rooke Award by the Royal Academy of Engineering for her efforts to promote the subject to the public. Her work on exciting projects such as the upcoming Robot Orchestra has been recognised by the Academy at an awards dinner in the Tower of London.

    The Rooke Award is awarded to an individual, small team or organisation who has contributed to the Academy's aims and work through their initiative in promoting engineering to the public. It has previously been won by people including TV presenters Johnny Ball, Adam Hart-Davis and Kate Bellingham, as well as Professor John Burland, whose work helped to stabilise the Leaning Tower of Pisa.

    The award is named in honour of the late Sir Denis Rooke, a former President of the Academy and one of the UK's most distinguished engineers. As Chairman of British Gas, he built the UK's distribution network and united the gas industry, making domestic gas a cheap and convenient fuel source for millions of people. He later became Chancellor of Loughborough University, and served on many national advisory committees on both energy policy and education.

    Danielle is eager to make people excited about science and engineering, and to spread the message that we are all engineers at heart, which she does through a combination of interactive lectures and innovative citizen science experiments. She has been invited to present this engaging combination at many high-profile occasions including the 2014 Royal Institution Christmas Lecture broadcast on BBC Four, TEDGlobal and 野狼社区’s recent TEDx event.

    Her most recent project is the crowd-sourcing of a robot orchestra, built from recycled electronics and junk donated by an eclectic mix of organisations including the Women’s Institute, the National Trust and Transport for Greater 野狼社区. She is encouraging people to get involved through a citizens’ engineering project with primary and secondary school groups and individuals, mainly around 野狼社区 but as far away as London. Each team will make their own robot to play a particular part in the orchestra.

    Engineering company Siemens is building a special robot conductor to keep the other robots to time, and Professor George is also working closely with the Halle Orchestra, which has composed a special piece of music for the orchestra launch and will provide eight members of the orchestra to perform the music live alongside the robots. It will go on tour later this year, following its debut in 野狼社区 in July as part of the European City of Science celebrations.

     

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    Mon, 27 Jun 2016 09:16:03 +0100 https://content.presspage.com/uploads/1369/500_rooke.jpg?10000 https://content.presspage.com/uploads/1369/rooke.jpg?10000
    Aspiring scientists and engineers wowed by University鈥檚 women of wonder /about/news/aspiring-scientists-and-engineers-wowed-by-universitys-women-of-wonder/ /about/news/aspiring-scientists-and-engineers-wowed-by-universitys-women-of-wonder/132740

    Youngsters from across Greater 野狼社区 were wowed by the inspiration given to them by The University of 野狼社区’s own Women of Wonder.

    Dozens of Year 9 and 10 students from schools representing 野狼社区, Bury and Rochdale gathered at the University’s North Campus as part of a University-led campaign to inspire girls to pursue their ambitions to study science and engineering.

    The students were welcomed by the University’s own Women of Wonder, including Rachel Brealey, the Director of Faculty Operations for the Faculty of Engineering and Physical Sciences at the University. Rachel, a science graduate of the University, is now one of its senior managers and leading a £360million project to build a state-of-the-art engineering campus for the next generation of students. She explained that a science or engineering qualification opened up huge opportunities for women in the workplace.

     

    Professor Danielle George was also speaking at the event, who has just been awarded an MBE. Danielle, a professor of radio frequency engineering and Vice-Dean of Teaching and Learning at the University, received her honour in recognition of her contribution to engineering through public engagement. She has worked tirelessly to bring science, technology and engineering to life, encouraging young people to start careers in science and engineering through a variety of engaging talks and citizen science experiments - including a Robot Orchestra that has involved schools from across the region.

    Other Women of Wonder included Dr Caroline Jay, Dr Louise Natrajan, Dr Louise Walker Dr Delia Vazquez, Dr Rowan Smith, and event organiser Dr Lynne Bianchi.

    Dr  Bianch leads the University’s , which works with local schools to ensure young people retain their fascination and enthusiasm to study science and engineering. The Science & Engineering Education Research and Innovation Hub is behind the Fascinate campaign.

    Women of Wonder highlights and celebrates women who are making a difference in the fields of science and engineering at The University of 野狼社区.

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    Wed, 15 Jun 2016 15:23:55 +0100 https://content.presspage.com/uploads/1369/500_wowsoftlaunch8.jpg?10000 https://content.presspage.com/uploads/1369/wowsoftlaunch8.jpg?10000
    野狼社区 Day鈥檚 BRAIN BOX will make you shout EUREKA! /about/news/manchester-days-brain-box-will-make-you-shout-eureka/ /about/news/manchester-days-brain-box-will-make-you-shout-eureka/132007

    Town hall will become the city’s largest laboratory as scientists from across the city join forces for 野狼社区 Day’s Brain Box attraction.

    During the town hall takeover, collaborators from the city’s universities, museums and other societies and associations, will take 野狼社区 Day visitors on a fascinating journey through the brain.

    The Brain Box has been curated by Professor Andreas Prokop and Professor Stuart Allan from The University of 野狼社区.

    Professor Prokop said: “Seeing so many scientists, clinicians, creative practitioners and artists joining forces to explore the fascination and wonders of the brain in such an iconic location on 野狼社区 Day is a dream come true - a real once-in-a-lifetime opportunity for everybody!"

    Cllr Pat Karney, Chair of 野狼社区 Day, said: “Not content with taking over the whole of the city centre and transforming it into the UK’s biggest open air theatre, we’ve now taken over the town hall as well.

    This year’s 野狼社区 Day theme – EUREKA! – celebrates the city’s history of scientific discovery in a year when 野狼社区 is named European City of Science 2016.

    The Brainbox scientists will perform lively experiments throughout 野狼社区 Day on Sunday, 19 June, in a hands-on, participatory journey of discovery that will create countless EUREKA! moments.

    The exhibitions, which will spread throughout the first floor of the historic town hall building, will cover eight themes from the basics of the brain, vision, pain and disease to brain imaging, how we learn, the history of brain research and the fascinating links between the arts and the brain.

    Try your hand at brain surgery – on an egg! Observe how flies get tipsy… travel through the mind with modern brain mapping…and see the gruesome history of brain medicine, amongst many other fascinating activities for young and old alike.

    Brain Box will run alongside the 野狼社区 Day celebration from 10am until 6pm (野狼社区 Day itself begins at midday) – and look out for Albot², time travelling robot, who will be making regular visits throughout the day.

    Be sure to follow her twitter page @manc_day as she travels to meet scientists throughout time and follow the conversation using #MCRday and #mcrbrainbox

     “There will be something for all the family, so make sure to pop in. It will be a fascinating part of 野狼社区 Day with some of the city’s best minds explaining how the minds work.”

    The Brain Box is a unique collaboration between 野狼社区 City Council, The University of 野狼社区, Salford University, 野狼社区 Metropolitan University, Museum of Science and Industry, Stroke Association, Alzheimer’s Research UK, Alzheimer’s Society, Parkinson’s UK, MND Association, National Autistic Society, Salford Royal NHS Foundation Trust, The University of Liverpool, The Walton Centre NHS Foundation Trust, University of York, Seal Medical, Seal Medical Supplies, b-neuro, Medtronic, Access Dance and Dance Company Combination.

    For more information about Brain Box visit:

    野狼社区 Day will take place on Sunday, 19 June from midday until 6pm.

    The parade begins from Liverpool Road at 1pm.

    野狼社区 Day is created by 野狼社区 People, commissioned by 野狼社区 City Council and produced by Walk the Plank.

    For media enquiries contact:

    Simon Walker
    0161 234 1010

    s.walker2@manchester.gov.uk

    Photos
    (Credit Mark Waugh)

     

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    Tue, 07 Jun 2016 09:55:49 +0100 https://content.presspage.com/uploads/1369/500_brainbox2.jpg?10000 https://content.presspage.com/uploads/1369/brainbox2.jpg?10000
    野狼社区 plays vital role in billion-Euro 鈥楬uman Brain Project鈥 /about/news/manchester-plays-vital-role-in-billion-euro-human-brain-project/ /about/news/manchester-plays-vital-role-in-billion-euro-human-brain-project/120873

    A flagship European project involving more than 100 universities and research centres has launched a range of prototype computer platforms to support brain research – and 野狼社区 is right at the centre of it.

    The ‘Human Brain Project’ has released six new informatics-based platforms across Europe which aim to accelerate scientific understanding of the human brain, make advances in defining and diagnosing brain disorders, and develop new brain-like technologies. The platforms are designed to help researchers advance faster and more efficiently by sharing data and results, and by exploiting advanced ICT capabilities. The platforms should enable closer collaboration between scientists to create more detailed models and simulations of the brain.

    野狼社区’s contribution to the project is SpiNNaker (short for Spiking Neural Network Architecture), a computing platform made up of 500,000 microprocessors which emulates the way brain neurons fire signals in real time. SpiNNaker can be used to accurately model areas of the brain, and to test new hypotheses about how the brain might work. Because it runs at the same speed as the biological brain, it can be used to control robotic systems, providing ‘embodiment’ for the brain models. This biological approach to robot control is very different from the algorithmic systems more commonly used in robotics.

    The development of SpiNNaker has largely been funded by the UK Engineering and Physical Sciences Research Council (EPSRC), and the University of 野狼社区 also contributed towards the project’s costs, as well as converting a space in the University’s Kilburn Building for the machine to be located and operated. The Human Brain Project is supporting the software required to make the platform available to the world-wide scientific community.

    The project aims to deliver a collaboratively-built first simulation of the human brain by 2023, which will not be a complete replication of every detail, but will provide a framework for integrating data and knowledge about the human brain from worldwide research and clinical studies.

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    Wed, 30 Mar 2016 13:25:01 +0100 https://content.presspage.com/uploads/1369/500_314c84af-0a9e-4a25-bcb5-e9474b29166a.jpg?10000 https://content.presspage.com/uploads/1369/314c84af-0a9e-4a25-bcb5-e9474b29166a.jpg?10000
    Unleash your inner engineer and join in...because the robots are coming! /about/news/the-robots-are-coming/ /about/news/the-robots-are-coming/119693

    One person’s junk can be someone else’s Robot Orchestra – an engineering pioneer from The University of 野狼社区 will reveal how discarded technology and everyday items from around the home can be put to new and exciting uses.

    Professor Danielle George – who is currently building a huge  from donated machinery and technology – will be providing a sneak preview of a prototype at , the largest celebration of science, technology, engineering and maths (STEM) for young people in the UK staged at the NEC.

    Danielle, who will be assisted on stage by a young STEM ambassador from 野狼社区, will be hosting her new interactive show on Thursday, 17 March, in front of a live audience.

    The 野狼社区 team will create a musical instrument using cardboard, aluminium foil and electronic components such as those found in devices from around the home, including laptops, MaKey MaKey invention kits and the new BBC mirco:bit, a pocket-sized codeable computer.

    As well as Professor Danielle George, The University of 野狼社区 will have a strong representation at the Big Bang Fair – which attracts more than 70,000 visitors over four days.

    In tribute to the ground-breaking work of 野狼社区 pioneer Alan Turning, visitors will have the chance to crack secret codes as part of the University’s maths exhibition.

    The University is also sponsoring an energy-themed category in the National Science + Engineering Competition (the ‘Global Challenges, 野狼社区 Solutions: Energy Prize’). Ten shortlisted projects from schools across the UK will be judged on Wednesday, 16 March, and the final prize awarded the following day.

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    Wed, 16 Mar 2016 12:40:28 +0000 https://content.presspage.com/uploads/1369/500_daniellegeorgemagnifyingmanchesterrobotorchestra.jpg?10000 https://content.presspage.com/uploads/1369/daniellegeorgemagnifyingmanchesterrobotorchestra.jpg?10000
    野狼社区 students scoop gold in European Hacker League /about/news/manchester-students-scoop-gold-in-european-hacker-league/ /about/news/manchester-students-scoop-gold-in-european-hacker-league/118468

    Students from the University of 野狼社区 have won the European Major League Hackathon season for the second time. 野狼社区 regained its crown from King’s College London by beating 2000 students from 300 universities from across Europe at a series of events.

    More than 50,000 software developers and designers compete at official ‘hackathons’ across Europe and North America every year - these are weekend-long programming competitions in which student hackers get together to demonstrate their technical skills. Students from hundreds of universities team up to build websites, applications and hardware hacks – previous hackathon challenges have seen teams design mobile apps and build robots.

    野狼社区 is one of the country’s most prolific teams, and is the only university to have been in the top 3 in every single season since the Major League Hacking movement began in 2013. 180 students of all disciplines compete from The University of 野狼社区, and they are supported by the School of Computer Science and several societies.

    The popularity of Hackathons in the UK has grown massively in the last few years, with 野狼社区’s own HackSoc at the epicentre - they ran a 38-hour 'StudentHack' event last weekend at 野狼社区 Metropolitan University’s Business School, at which 288 students from 48 different universities competed.

    More events take place around the country throughout the year - if you want to know more about hacking, visit . For more information on The European Hacker Cup, visit the .

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    Wed, 09 Mar 2016 10:41:00 +0000 https://content.presspage.com/uploads/1369/500_2219631791-0354ce38f8-o.jpg?10000 https://content.presspage.com/uploads/1369/2219631791-0354ce38f8-o.jpg?10000
    Robot Scientist 鈥楨ve鈥 could boost search for new drugs /about/news/robot-scientist-eve-could-boost-search-for-new-drugs/ /about/news/robot-scientist-eve-could-boost-search-for-new-drugs/81640Eve, an artificially-intelligent ‘robot scientist’ could make drug discovery faster and much cheaper.

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  • Could make drug discovery faster and much cheaper
  • Robot scientists are a natural extension of the trend of increased involvement of automation in science
  • Eve’s robotic system is capable of screening over 10,000 compounds per day
  • Eve, an artificially-intelligent ‘robot scientist’ could make drug discovery faster and much cheaper.

    A team from the Universities of 野狼社区, Cambridge and Aberystwyth has demonstrated the potential of artificial intelligence by using Eve to discover that a compound shown to have anti-cancer properties might also be used in the fight against malaria.

    Robot scientists are a natural extension of the trend of increased involvement of automation in science. They can automatically develop and test hypotheses to explain observations, run experiments using laboratory robotics, interpret the results to amend their hypotheses, and then repeat the cycle, automating high-throughput hypothesis-led research. Robot scientists are also well suited to recording scientific knowledge: as the experiments are conceived and executed automatically by computer, it is possible to completely capture and digitally curate all aspects of the scientific process.

    In 2009, Adam, a robot scientist developed by researchers at the Universities of Aberystwyth and Cambridge, became . The same team has now developed Eve, based at the University of 野狼社区, whose purpose is to speed up the drug discovery process and make it more economical. In the study published today, they describe how the robot can help identify promising new drug candidates for malaria and neglected tropical diseases such as African sleeping sickness and Chagas’ disease.

    “Neglected tropical diseases are a scourge of humanity, infecting hundreds of millions of people, and killing millions of people every year,” says , from at the University of 野狼社区. “We know what causes these diseases and that we can, in theory, attack the parasites that cause them using small molecule drugs. But the cost and speed of drug discovery and the economic return make them unattractive to the pharmaceutical industry.

    “Eve exploits its artificial intelligence to learn from early successes in her screens and select compounds that have a high probability of being active against the chosen drug target. A smart screening system, based on genetically engineered yeast, is used. This allows Eve to exclude compounds that are toxic to cells and select those that block the action of the parasite protein while leaving any equivalent human protein unscathed. This reduces the costs, uncertainty, and time involved in drug screening, and has the potential to improve the lives of millions of people worldwide.”

    Eve is designed to automate early-stage drug design. First, she systematically tests each member from a large set of compounds in the standard brute-force way of conventional mass screening. The compounds are screened against assays (tests) designed to be automatically engineered, and can be generated much faster and more cheaply than the bespoke assays that are currently standard. This enables more types of assay to be applied, more efficient use of screening facilities to be made, and thereby increases the probability of a discovery within a given budget.

    Eve’s robotic system is capable of screening over 10,000 compounds per day. However, while simple to automate, mass screening is still relatively slow and wasteful of resources as every compound in the library is tested. It is also unintelligent, as it makes no use of what is learnt during screening.

    To improve this process, Eve selects at random a subset of the library to find compounds that pass the first assay; any ‘hits’ are re-tested multiple times to reduce the probability of false positives. Taking this set of confirmed hits, Eve uses statistics and machine learning to predict new structures that might score better against the assays. Although she currently does not have the ability to synthesise such compounds, future versions of the robot could potentially incorporate this feature.

    Steve Oliver from the Cambridge Systems Biology Centre and the Department of Biochemistry at the University of Cambridge says: “Every industry now benefits from automation and science is no exception. Bringing in machine learning to make this process intelligent – rather than just a ‘brute force’ approach – could greatly speed up scientific progress and potentially reap huge rewards.”

    To test the viability of the approach, the researchers developed assays targeting key molecules from parasites responsible for diseases such as malaria, Chagas’ disease and schistosomiasis and tested against these a library of approximately 1,500 clinically approved compounds. Through this, Eve showed that a compound that has previously been investigated as an anti-cancer drug inhibits a key molecule known as DHFR in the malaria parasite. Drugs that inhibit this molecule are currently routinely used to protect against malaria, and are given to over a million children; however, the emergence of strains of parasites resistant to existing drugs means that the search for new drugs is becoming increasingly more urgent.

    “Despite extensive efforts, no one has been able to find a new antimalarial that targets DHFR and is able to pass clinical trials,” adds Professor Oliver. “Eve’s discovery could be even more significant than just demonstrating a new approach to drug discovery.”

    The research was supported by the Biotechnology & Biological Sciences Research Council and the European Commission.

    Reference

    Williams, K. and Bilsland, E. et al. . Interface; 4 Feb 2015.

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    Wed, 04 Feb 2015 11:48:00 +0000 https://content.presspage.com/uploads/1369/500_13814_large-2.jpg?10000 https://content.presspage.com/uploads/1369/13814_large-2.jpg?10000
    New consortium to tackle UK鈥檚 nuclear legacy announced /about/news/new-consortium-to-tackle-uks-nuclear-legacy-announced/ /about/news/new-consortium-to-tackle-uks-nuclear-legacy-announced/82187The University of 野狼社区 is part of a consortium of 10 universities to start an £8 million project looking at new ways of dealing with Britain’s historical nuclear waste.

    Funded by the Engineering & Physical Sciences Research Council (EPSRC), the project will bring together the nuclear industry, the Government’s nuclear advisors and the country’s leading academic researchers.

    The National Nuclear Laboratory (NNL), Nuclear Decommissioning Authority (NDA) and Sellafield Limited will be partners in the project, alongside the universities of Leeds, Birmingham, Bristol, Imperial, Lancaster, Loughborough, 野狼社区, Sheffield, Strathclyde and UCL.

    Over the next four years, more than 40 doctoral and post-doctoral researchers will work on issues including how best to handle different types of spent fuels, packaging and storing waste, and dealing with nuclear sludges in ponds and silos at nuclear power stations.

    Professor Simon Biggs, Director of the University of Leeds’ Institute of Particle Science and Engineering, who will lead the University consortium, said: “The project is primarily focused on developing new technologies and providing confidence in the safe storage and disposal of legacy waste. The UK is a technology leader in this field and the core aim of this project is to maintain and further develop that skill base.”

    He added: “This will be a truly interdisciplinary effort. We have civil engineers, chemists, chemical engineers, robotics experts, radiochemists, mechanical engineers and material engineers all working together on thirty different projects”

    The University of 野狼社区 team of researchers consists of Professor Simon Pimblott, Professor Barry Lennox, Dr Enrique Jimenez-Melero and Dr Carolyn Pearce from the Dalton Nuclear Institute. The 野狼社区 research will focus on investigations on the properties and chemistry of plutonium dioxide, like that stored at the repository at Sellafield. This study will to be the first significant programme undertaken by a university using the active facilities at NNL’s Central Laboratory, and will involve with postdoctoral researchers from the universities of 野狼社区 and Lancaster being seconded into the Central Laboratory full-time for four years.

    Prof Simon Pimblott, Director of The University of 野狼社区’s Dalton Cumbrian Facility and Principal Investigator on the 野狼社区 team, said: “This research project will enable significant advancements in the understanding of the science of plutonium storage and so help elucidate the challenges faced at the plutonium storage facilities on the Sellafield site’.

    Much of the UK’s legacy waste is kept at the Sellafield site in Cumbria.

    Sellafield Limited's Research Alliance Manager Neil Smart said: “Today, Sellafield faces a challenge where there is no blueprint; emptying and demolishing some of the most difficult and complex nuclear buildings in the world – the decommissioning of historic reactors, reprocessing facilities and associated legacy ponds and silos.”

    “This massive challenge is however an opportunity to demonstrate that Sellafield is still at the forefront of the UK’s nuclear industry and we are delighted that the EPSRC is supporting appropriate academic research that will contribute to the scientific and technical underpinning of our mission.  We look forward to engaging in these projects and benefiting from the outcomes, not only in terms of the science and technology but also the skilled people developed through these projects with the potential to enhance our workforce long into the future.”

    Graham Fairhall, Chief Science and Technology Officer at the NNL, which provides experts and technologies to government and the nuclear industry, also welcomed the project.

    “Having 10 of the UK's leading universities working collaboratively with industry in this important area makes this a very significant programme,” he said. “We are pleased to be involved in a number of ways, including supervision of more than half of the projects and making the world-leading facilities in our central laboratory on the Sellafield site available to support several strands of the work.”

    The NDA’s Head of Research and Development, Melanie Brownridge, said: “Our industry benefits hugely when high-level academic research is focused at some of the challenges we face in decommissioning our nuclear legacy. We welcome this collaboration and look forward to seeing the progress that these important projects will deliver. Equally valuable will be the development of knowledge and expertise for the participants – we hope their skills with be with us for many years ahead.”

    The project will be formally called Decommissioning, Immobilisation and Storage solutions for Nuclear waste Inventories (DISTINCTIVE) - and follows an earlier programme, also led by Leeds and announced by the EPSRC in 2007, which was known as DIAMOND.

    The EPSRC will provide a £4.9 million grant to the new project, with additional funding and support coming from the Universities and the industry partners.

    Research will be organised under four themes: AGR, Magnox and Exotic Spent Fuel; Plutonium oxide and Fuel Residues; Legacy Ponds and Silos Wastes; Infrastructure characterisation, restoration and preservation. Each project will have an industrial supervisor from either NNL or Sellafield Limited.

    Ends

    Notes for editors

    NNL provides the experts and technologies to ensure the UK nuclear industry operates safely and cost effectively today and for the future.  The company has also provided support and services to the UK and other Governments and to the European Union. NNL has over 10,000 person-years of nuclear industry experience across the whole nuclear fuel cycle.

    The Nuclear Decommissioning Authority is responsible for the decommissioning and clean-up of the UK’s earliest nuclear facilities. These include a number of research centres, fuel-related plants, 11 Magnox power stations and Sellafield, the country’s largest and most complex nuclear site. Funded by the Government, the NDA is also required to ensure that sufficient R&D is undertaken to deliver its mission safely and cost-effectively. .

    Sellafield Ltd. is the company responsible for safely delivering   decommissioning of the UK’s nuclear legacy as well as fuel recycling and the management of low, high and intermediate level nuclear waste activities on behalf of the Nuclear Decommissioning Authority.Under the ownership of Nuclear Management Partners (NMP), we are safely   delivering nuclear decommissioning, waste management and commercial operations and by continually raising our performance we will achieve the Nuclear Decommissioning Authority’s (NDA) vision to become the site and workforce of choice for potential new missions. www.sellafieldsites.com

    For further information contact:

    Aeron Haworth
    Media Relations
    Faculty of Engineering and Physical Sciences
    The University of 野狼社区

    Tel: 0161 275 8387
    Email: aeron.haworth@manchester.ac.uk

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    Mon, 20 Jan 2014 00:00:00 +0000 https://content.presspage.com/uploads/1369/500_11430_large-2.jpg?10000 https://content.presspage.com/uploads/1369/11430_large-2.jpg?10000
    Prosthetic hands viewed as eerie by the public new study shows /about/news/prosthetic-hands-viewed-as-eerie-by-the-public-new-study-shows/ /about/news/prosthetic-hands-viewed-as-eerie-by-the-public-new-study-shows/82258

    Members of the public would prefer to look at human hands or robotic hands rather than prosthetic hands which they view as eerie, a new study by The University of 野狼社区 has shown.

    But prosthetic hands which looked more human-like were rated as less eerie, the academics found.

    Researchers hope , published in the Journal Perception, and future work in this area will help improve designs for prosthetic limbs.

    Earlier research has shown that people find robots that look as close to being human more uncomfortable than those which are clearly not human. But this research has focused on faces or whole bodies.

    The University of 野狼社区 study explored the theory with hands. 43 right-handed participants, 36 female and seven male, viewed a series of photographs of human, robotic and prosthetic hands and graded them on a nine-point scale in terms of eeriness or human-likeness.

    They found prosthetic hands generally received the highest eeriness ratings and were rated as more human like than the mechanical hands. But prosthetic hands which looked more human-like were rated as less eerie.

    , based in the University's School of Psychological Science who led the research, now plans to carry out further experiments. Dr Poliakoff said: “Our findings show hands are viewed in a similar way to previous experiments which have looked at faces and bodies.
     
    “Finding out more about this phenomenon, known as the uncanny valley, may help with the design of prosthetic limbs.”

    , based in the University's Faculty of Life Science who also worked on the research, added: “We hope this and further research will allow us to learn more about social perception and what is special about perceiving another human being. Determining what factors contribute to eeriness can help us to understand how we interpret and respond to other people.”
     
    ENDS

    Notes for editors

    For further information, please contact Alison Barbuti | Media Relations Officer | Faculty of Medical and Human Sciences |The University of 野狼社区 |Tel. +44 (0)161 275 8383 | Mobile 07887 561 318 |Email: alison.barbuti@manchester.ac.uk

     
    The research was completed by Dr Ellen Poliakoff, Natalie Beach, Rebecca Best, Toby Howard and Dr Emma Gowen from The University of 野狼社区.
     
    The research was published in the most recent edition of the Journal Perception. Reference: doi 10.1068/p7569  Alison Barbuti | Media Relations Officer | Faculty of Medical and Human Sciences |The University of 野狼社区 | 野狼社区 Academic Health Sciences Centre (MAHSC) Tel. +44 (0)161 275 8383 | Mobile 07887 561 318 |Email: alison.barbuti@manchester.ac.uk
     
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    Tue, 12 Nov 2013 00:00:00 +0000 https://content.presspage.com/uploads/1369/500_11052_large-2.jpg?10000 https://content.presspage.com/uploads/1369/11052_large-2.jpg?10000
    Scientists digitally reconstruct giant steps taken by dinosaurs /about/news/scientists-digitally-reconstruct-giant-steps-taken-by-dinosaurs/ /about/news/scientists-digitally-reconstruct-giant-steps-taken-by-dinosaurs/82277One of the world’s largest dinosaurs has been digitally reconstructed by experts from The University of 野狼社区 allowing it to take its first steps in over 94 million years.

    The 野狼社区 team, working with scientists in Argentina, were able to laser scan a 40 metre-long skeleton of the vast Cretaceous Argentinosaurus dinosaur. Then using an advanced computer modeling technique involving the equivalent of 30,000 desktop computers they recreated its walking and running movements and tested
    its locomotion ability tested for the very first time.

    The study, published in , provides the first ever ‘virtual’ trackway of the dinosaur and disproves previous suggestions that the animal was inflated in size and could not have walked.

    Dr Bill Sellers, lead researcher on the project from the University’s Faculty of Life Sciences, said: “If you want to work out how dinosaurs walked, the best approach is computer simulation. This is the only way of bringing together all the different strands of information we have on this dinosaur, so we can reconstruct how it once moved.”

    Dr Lee Margetts, who also worked on the project, said: “We used the equivalent of 30,000 desktop computers to allow Argentinosaurus to take its first steps in over 94 million years.
    “The new study clearly demonstrates the dinosaur was more than capable of strolling across the Cretaceous planes of what is now Patagonia, South America.”

    The team of scientists included Dr Rodolfo Coria from Carmen Funes Museum, Plaza Huincal, Argentina, who was behind the first physical reconstruction of this dinosaur that takes its name from the country where it was found. The dinosaur was so big it was named after a whole country.

    Dr Phil Manning, from 野狼社区 who contributed to the paper, said: “It is frustrating there was so little of the original dinosaur fossilized, making any reconstruction difficult. The digitization of such vast dinosaur skeletons using laser scanners brings Walking with Dinosaurs to life…this is science not just animation.”

    Dr Sellers uses his own software (Gaitsym) to investigate locomotion both living and extinct animals have to overcome.

    “The important thing is that these animals are not like any animal alive today and so we can’t just copy a modern animal,” he explained. “Our machine learning system works purely from the information we have on the dinosaur and predicts the best possible movement patterns.”

    The dinosaur weighed 80 tonnes and the simulation shows that it would have reached just over 2 m/s - about 5 mph.

    Dr Sellers said the research was important for understanding more about musculoskeletal systems and for developing robots.
     
    He added: “All vertebrates from humans to fish share the same basic muscles, bones and joints. To understand how these function we can compare how they are used in different animals, and the most interesting are often those at extremes. Argentinosaurus is the biggest animal that ever walked on the surface of the earth and understanding how it did this will tell us a lot about the maximum performance of the vertebrate musculoskeletal system. We need to know more about this to help understand how it functions in ourselves.

    “Similarly if we want to build better legged robots then we need to know more about the mechanics of legs in a whole range of animals and nothing has bigger, more powerful legs than Argentinosaurus.”

    The University of 野狼社区 team now plans to use the method to recreate the steps of other dinosaurs including Triceratops, Brachiosaurus and T. rex.

    The Collection will be freely available to read in .

    ENDS

    Notes for editors

    Image and video attached are available on request. Please credit Dr Bill Sellers, The University of 野狼社区.

    Dr Bill Sellers will be in San Francisco from Tuesday and has limited interview availability. For more information and to request an interview, please contact: Alison Barbuti | Media Relations Officer | The University of 野狼社区
    Tel. +44 (0)161 275 8383 | Mobile 07887 561 318 | Email: alison.barbuti@manchester.ac.uk

    The paper is published in PLOS ONE (Public Library of Science) 30 October Sellers WI, Margetts L, Coria RA, Manning PL (2013) March of the Titans: The Locomotor Capabilities of Sauropod Dinosaurs. PLoS ONE 8(10): e78733. doi:10.1371/journal.pone.0078733

    The collection is freely available to read in PLOS:

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    Wed, 30 Oct 2013 00:00:00 +0000 https://content.presspage.com/uploads/1369/500_10947_large-2.jpg?10000 https://content.presspage.com/uploads/1369/10947_large-2.jpg?10000
    Students celebrate success at science awards night /about/news/students-celebrate-success-at-science-awards-night/ /about/news/students-celebrate-success-at-science-awards-night/82324It was triple delight for The University of 野狼社区 at the 2013 SET (Science, Engineering and Technology) Student of the Year Awards announced in London last night (Thursday).

    Record numbers of entries were received this year and judges paid tribute to the exceptional quality of the work, with 42 students shortlisted in 14 different categories. 

    野狼社区’s trio of winners were Joseph Northwood, a Masters student last year in the School of Electrical and Electronic Engineering, who won the ARM award for the Best Electronic Engineering Student for the ARTEMIS (Autonomous Robotic Technology Enabling Minimally Invasive Surgery) Project.

    Laura Howarth-Kirke, a graduate of the School of Computer Science, won the award for the Best Computer Science Student for her project entitled, ‘Learning and Recognising Human Gestures using the Microsoft Kinect’. Laura was the highest scoring winner overall, so making it a truly memorable night for 野狼社区’s Faculty of Engineering and Physical Sciences, she also took the BP SET Student of the Year honour.

    Laura's success meant that the award for the Lecturer of the Year went to Dr Gavin Brown in the School of Computer Science, who supervised her final year project.

    Making use of the Microsoft Kinect device, Laura built a software interface capable of recognising human gestures for the purposes of controlling media devices like TVs – this is cutting edge technology, only just appearing in modern Samsung TVs this year.

    However, the project went beyond what is available on the high street, using ‘machine learning’ techniques to automatically learn new personalised gestures from the user. No existing retail device has this capability, yet Laura managed to build it during a five-month final year project.

    During the project, Laura learnt new programming languages and large software toolkits, as well as advanced techniques (MSc level) in Statistical Machine Learning called ‘Hidden Markov Models’, as well as advanced mathematical formalisms like quaternions, something that belongs on an MSc module in computer graphics.

    Laura, who graduated this summer, has now secured a prestigious place on the BBC’s ‘Future Media’ graduate scheme, developing similar technologies.

    Dr Brown said: "It was a privilege to work with Laura, and I enjoyed every minute of the project we worked on, seeing her bring the various technologies together. When she was awarded the Best Computer Science Student prize, I was extremely happy but when her name was called out as the overall SET Student of the Year, I was ecstatic, and even more so when I had to get up to receive my award. Laura is now creating the future of your TV technology, working at the BBC. Here at 野狼社区, we're all very proud of her."

    The ARTEMIS Project, led by Joseph, was a collaborative project involving a team of seven MEng undergraduate students in the School of the Electrical and Electronic Engineering at 野狼社区 and a team of five MEng undergraduate students in the School of Mechanical Engineering at the University of Leeds.

    Minimally Invasive Surgery, also known as keyhole surgery, has revolutionised medical practice by minimising both the size and number of surgical incisions. Whilst this surgical technique has significantly reduced patient trauma and recovery times, post-operative infection still remains a significant problem which and affects around 14% of patients at a cost of £930m in the UK alone.  The ARTEMIS project investigated the feasibility of developing swallowable autonomous robots capable of performing minimally invasive surgical procedures. The project explored the key technological challenges required to deliver such robotic systems, and demonstrated the feasibility of the approach using a 6:1 scaled surgical capsule and an actuated physical model of the  upper gastrointestinal tract.

    The other 野狼社区 students involved in the ARTEMIS projesct were Maria McKavanagh, Martin Schuster, Roberto Fernandez Bautista, Sertunc Tuncel, John Waymont and Stephen Alderman. The 野狼社区 project was supervised by Dr Danielle George and Mr Peter Green.

    野狼社区 students also shortlisted for the SET awards were Michael O’Connor, for best Chemical Engineering Student, and James Roscow, for best Materials Student Award.

    Professor Colin Bailey, Dean and Vice President of the Faculty of Engineering and Physical Sciences, said: "This is excellent news and very well deserved. I want to congratulate all the 野狼社区 winners and finalists – their success is testimony to the talent of our students and the quality of our teaching and learning."

    Ends

    Notes for editors

    The SET Awards are Europe’s most important awards for science, engineering and technology undergraduates. The Awards are presented at a magnificent ceremony before an audience comprising hundreds of technology students, academics, senior industry executives; as well as senior figures from government, scientific and technical institutions and the media.

    The highest scoring student overall is declared the BP Science, Engineering and Technology Student of the Year. The lecturer who taught and nominated the overall winning student is declared the Lecturer of the Year.

    The 2013 Science, Engineering and Technology Student of the Year Awards Gala Dinner and Presentation Ceremony took place on the evening of Thursday, 26th September at Kensington Town Hall. The Awards are multidisciplinary, to reflect the wide range of degrees that modern universities offer.

    For further information and contact:

    Aeron Haworth
    Media Relations
    Faculty of Engineering and Physical Sciences
    The University of 野狼社区

    Tel: 0161 275 8387
    Email: aeron.haworth@manchester.ac.uk

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    Fri, 27 Sep 2013 01:00:00 +0100 https://content.presspage.com/uploads/1369/500_10747_large-2.jpg?10000 https://content.presspage.com/uploads/1369/10747_large-2.jpg?10000
    Computer animation contest inspires young animators /about/news/computer-animation-contest-inspires-young-animators/ /about/news/computer-animation-contest-inspires-young-animators/82417Computer scientists from The University of 野狼社区 will present their annual UK Schools Animation Competition Festival and Inspirational Computer Science Day tomorrow (Friday).

    This year, the festival looks to be the most exciting yet featuring hands-on activities, including a full-size flight simulator, the iCub humanoid robot, a 3D printer, face recognition with the Kinect, augmented reality, 3D graphics, and creating games avatars from ordinary photographs.

    More than 400 schoolchildren, teachers and parents from across the UK will visit the University for the competition’s Awards Show, and an afternoon of exciting hands-on workshop activities.

    Staff at the School of Computer Science came up with the idea for the UK Schools Computer Animation Competition in 2008, to mark the 60th anniversary of the world's first stored program computer – The Baby – designed and built in 野狼社区 in 1948.

    Now in 2013 the competition, Animation13, is in its sixth year, with its goal to encourage a greater interest in computing among young people.

    Youngsters aged between seven and 19 are challenged to create an animated film of one minute or less using any of the Alice, Scratch, Adobe Flash or Serif software packages.

    Almost 700 schools across the UK registered to take part in this year’s competition, and 1,500 schoolchildren submitted 1,100 entries. Competition winners stand to scoop prizes including laptops, iPods and iPads and will have their films showcased at tomorrow’s festival.

    Organisers hope that the competition has given young people a chance to explore computer animation for the first time and to find out how exciting working with computers can be.

    Toby Howard, from the School of Computer Science, said: "The animations might tell a story, or explain or demonstrate a topic or idea. The only limits will have been the students' imaginations.

    "Since the invention of the world’s first stored program computer at The University of 野狼社区 65 years ago, computing has progressed at an incredible speed – we could not live the way we do today without computers.

    “The mood in the country has changed and government now realises how important it is to train young people to be the computer scientists of the future. We’re seeing the start of a revolution in the way computer science and IT are taught in schools.

    "We need to encourage the brightest and the best of the next generation to engage in the challenges facing computing – not just to use computers, but to invent the next generation of hardware and software. And we hope this competition will help raise the profile of computer science amongst children in a fun and exciting way."

    Animation13 is supported by Electronic Arts, Autodesk and Microsoft Research, and run in association with cs4fn.

    Ends

    Notes for editors

    Full details of the competition, and movies and images from last year's Animation12 prize winners, visit:

    For further information contact:

    Aeron Haworth
    Media Relations
    Faculty of Engineering and Physical Sciences
    The University of 野狼社区

    Tel: 0161 275 8387
    Mob: 07717 881563
    Email: aeron.haworth@manchester.ac.uk

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    Thu, 11 Jul 2013 01:00:00 +0100 https://content.presspage.com/uploads/1369/500_10382_large-2.jpg?10000 https://content.presspage.com/uploads/1369/10382_large-2.jpg?10000
    野狼社区 leads the way in 1bn euro research projects /about/news/manchester-leads-the-way-in-1bn-euro-research-projects/ /about/news/manchester-leads-the-way-in-1bn-euro-research-projects/82656The University of 野狼社区 is involved in two exciting flagship research projects today given funding of 1bn euros by the European Commission.

    Winners of the ten-year research programs were announced at a press conference in Brussels this morning.

    The first project selected is Graphene: the wonder material first isolated at in 2004 by Professors Andre Geim and Kostya Novoselov. Their ground-breaking experiments won them the 2010 Nobel prize for Physics.

    The second is the Human Brain Project – an ambitious plan to aggregate everything known about the human brain and to construct large-scale computer models of the brain.

    Led by neuroscientist Henry Markram at the (EPFL) in Lausanne, 野狼社区’s research is led by Professor Steve Furber, whose revolutionary project provides one of the platforms for the modelling of the brain.

    The Graphene Flagship will coordinate 126 academic and industrial research groups in 17 European countries with an initial 30-month-budget of 54 million euro.

    Key applications include fast electronic and optical devices, flexible electronics, functional lightweight components and advanced batteries. Examples of new products enabled by graphene technologies include fast, flexible and strong consumer electronics such as electronic paper and bendable personal communication devices, and lighter and more energy efficient airplanes.

    In the longer term, graphene is expected to give rise to new computational paradigms and revolutionary medical applications such as artificial retinas.  

    The flagship will be coordinated by Chalmers University of Technology based in Gothenburg, Sweden. Director is Professor Jari Kinaret who will lead the research activities together with the leaders of the 15 work packages.

    The management team is supported by a Strategic Advisory Council that includes the European Nobel Laureates Professor Andre Geim (chairman), Albert Fert, Klaus von Klitzing and Professor Kostya Novoselov, industrial representatives from Nokia and Airbus, and two representatives of the global graphene research community.

    Professor Novoselov said: “The Graphene Flagship funding is designed to strengthen European research in the area of novel materials and to build bridges between the best European scientists and industrialists. The hope is that the links that are to be developed within this project between the universities and the commercial companies will lead to many new innovations beyond the Flagship.”

    “The University of 野狼社区 has been at the forefront of graphene research for many years, thanks to the efforts of such brilliant scientists as Andre Geim, Irina Grigorieva, Sasha Grigorenko, Ian Kinloch and many others.

    “However, the area of graphene and other 2D crystals has grown and widened dramatically, so we are happy to see hundreds of other university and industrial groups in Europe involved in this research. They bring unrivalled expertise to the story. It is great to see that the research which started and continues at The University of 野狼社区 is now spreading across Europe.”

    The goal of the Human Brain Project is to pull together all our existing knowledge about the human brain and to reconstruct it, piece by piece, in supercomputer-based models and simulations.

    The models offer the prospect of a new understanding of the human brain and its diseases and of completely new computing and robotic technologies.

    The EPSRC-funded SpiNNaker project, hosted at The University of 野狼社区 in collaboration with the universities of Southampton, Cambridge and Sheffield, has been developing a machine ultimately to incorporate a million UK-designed ARM processor cores with the primary objective of supporting large-scale computer models of parts of the brain.

    Professor Steve Furber said, "Understanding how the brain processes information remains as one of the great frontiers of science.

    “Over the last decade we have been developing SpiNNaker to contribute to this great scientific quest, and the Human Brain Project creates a wonderful opportunity to work with experts across Europe and beyond to extract the maximum value from this investment, as well as to create an even more powerful successor to SpiNNaker."

    Notes for editors

    More information about the FET Flagship projects can be found at

    More information about graphene can be found at , and aboput SpiNNaker at

    Professor Furber is available for interview on request

    For media enquiries please contact:

    Daniel Cochlin
    Graphene Communications and Marketing Manager
    The University of 野狼社区
    0161 275 8382
    Daniel.cochlin@manchester.ac.uk
    Twitter: @UoMGraphene
     

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    Mon, 28 Jan 2013 00:00:00 +0000 https://content.presspage.com/uploads/1369/500_iron_bird_13.jpg?10000 https://content.presspage.com/uploads/1369/iron_bird_13.jpg?10000
    UK first for new eye treatment trial /about/news/uk-first-for-new-eye-treatment-trial/ /about/news/uk-first-for-new-eye-treatment-trial/82719

    A team of 野狼社区 eye specialists has treated the first two patients in a new trial of radiotherapy for the eye disease wet age-related macular degeneration (AMD).

    The radiotherapy is delivered by a non-invasive robotic device called IRay® Radiotherapy System which uses low-level radiation, similar to a dental x-ray. Patients treated with the IRay device sit at the machine with their chin on a chin rest. A contact lens is placed on the surface of their eye, and a robot tracks any eye movement via the lens and maintains stability. This allows a controlled dose of radiation to be precisely delivered into the eye on the macula.

    The team, led by Mr Tariq Aslam, Consultant Ophthalmologist at 野狼社区 Royal Eye Hospital and Honorary Senior Lecturer at The University of 野狼社区, conducted an initial clinical trial of IRay in 2011. This trial, called INTREPID, combined radiation therapy with the standard AMD treatment of injections into the eye. The number of injections needed within the treatment group was reduced by 32%, compared to people receiving the standard treatment of a monthly injection into the eye. Certain patients achieved an even higher reduction in injections of up to 50%. 

    The 野狼社区 team then worked with the developer of IRay, US-based company Oraya Therapeutics, to make the device even easier to use and to further reduce treatment times for patients and clinical staff. They are now running a clinical trial over the next few months with 10 patients using the enhanced IRay workflow alongside injections.

    Patients only need one session of IRay treatment, which potentially can reduce or even remove the need for the regular injections. 

    AMD affects thousands of people and is the leading cause of blindness in the UK for people over 65 years of age. Wet AMD is an aggressive form of the disease, affecting 250,000 people in this country, and if left untreated can quickly lead to loss of central vision.

    “Treatments such as this under clinical trial conditions represent a significant logistical challenge and Iain McLean, our research manager, and Ekaterina Varimezova-Georgieva, our research co-ordinator, were instrumental to achieving the treatments,” said Mr Aslam.

    “This novel therapy has to be co-ordinated with the timing of the patients’ standard treatment and the availability of Oraya’s specialist engineers, who come over from the US to provide technical support. Both 野狼社区 patients were delighted to have been given this novel therapy, which showed significant improvements to standard AMD care in earlier randomised studies.”

    Mrs Stella Chandler from North 野狼社区 is one of the first two patients treated with IRay in this new trial. She said: “I joined the trial as I was driven by optimism about the potential benefits of the treatment in my own case, and also because this research could help other people. Having regular injections into one or both eyes is a traumatic process, so anything that reduces the frequency of the injections will be a positive result.”

    Local funding support helped the trial to take place in 野狼社区. Debbie Vinsun, Greater 野狼社区 Comprehensive Local Research Network (GM CLRN) senior manager, said: "Congratulations to Tariq and the ophthalmology team at the Royal Eye Hospital. They have used National Institute for Health Research GM CLRN funding to support staff with different skills, such as a photographer, nurses and a co-ordinator, to ensure that patients in Greater 野狼社区 are getting access to treatments which are not only cutting edge but show promising improvements to the current treatments."

    Mr Aslam added: "IRay is an exciting new technology that targets one of the most common causes of blindness in the UK. If the initial results are borne out in this further trial, then a majority of patients will have something to look forward to - an easily administered, one-off treatment that maintains or improves vision, and fewer injections into their eye."

    Ends

    Notes for editors

    The INTREPID study is the first sham-controlled double-masked trial to evaluate the effectiveness and safety of a one-time radiation therapy in conjunction with as-needed anti-VEFG injections for the treatment of wet AMD. The results of the study were presented during the EURETINA Congress in Milan in September 2012. 

    The National Institute for Health Research is funded by the Department of Health to improve the health and wealth of the nation through research. Since its establishment in April 2006, the NIHR has transformed research in the NHS. It has increased the volume of applied health research for the benefit of patients and the public, driven faster translation of basic science discoveries into tangible benefits for patients and the economy, and developed and supported the people who conduct and contribute to applied health research. The NIHR plays a key role in the Government’s strategy for economic growth, attracting investment by the life-sciences industries through its world-class infrastructure for health research. Together, the NIHR people, programmes, centres of excellence and systems represent the most integrated health research system in the world. For further information, visit the NIHR website ().

    Central 野狼社区 University Hospitals NHS Foundation Trust is a leading provider of specialist healthcare services in 野狼社区, treating more than a million patients every year. Its eight specialist hospitals (野狼社区 Royal Infirmary, Saint Mary’s Hospital, Royal 野狼社区 Children’s Hospital, 野狼社区 Royal Eye Hospital, University Dental Hospital of 野狼社区 and Trafford Hospitals) are home to hundreds of world class clinicians and academic staff committed to finding patients the best care and treatments. ()

    Oraya Therapeutics, Inc. is a privately-held company developing innovative and non-invasive therapies for diseases of the eye. Founded in 2006, Oraya is funded by Essex Woodlands Health Ventures, Synergy Life Science Partners, Scale Venture Partners and Domain Associates.

    The University of 野狼社区, a member of the Russell Group, is one of the largest and most popular universities in the UK. It has 20 academic schools and hundreds of specialist research groups undertaking pioneering multi-disciplinary teaching and research of worldwide significance. According to the results of the 2008 Research Assessment Exercise, The University of 野狼社区 is one of the country’s major research institutions, rated third in the UK in terms of ‘research power’. The University had an annual income of £809 million in 2010/11. ()

    For further information please contact:

    Lucy Prosser
    Web Communications Officer
    野狼社区 Biomedical Research Centre

    Tel: 0161 701 0260
    Mob: 0782 514 2219
    Email: lucy.prosser@cmft.nhs.uk

    Or Aeron Haworth
    Media Relations
    Faculty of Medical and Human Sciences
    The University of 野狼社区

    Tel: 0161 275 8383
    Mob: 07717 881563
    Email: aeron.haworth@manchester.ac.uk

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    Tue, 27 Nov 2012 00:00:00 +0000 https://content.presspage.com/uploads/1369/500_9135_large-2.jpg?10000 https://content.presspage.com/uploads/1369/9135_large-2.jpg?10000
    野狼社区鈥檚 鈥榝irst step鈥 to perfect drug combinations /about/news/manchesters-first-step-to-perfect-drug-combinations/ /about/news/manchesters-first-step-to-perfect-drug-combinations/83084Scientists at The University of 野狼社区 have discovered a way of speeding up the creation of perfect drug combinations, which could help patients recovering from critical health problems such as stroke, heart attacks and cancer.

    The researchers found a way of identifying ideal drug combinations from billions of others which would prevent inflammation from occurring.

    The findings, published in , could be the first step in the development of new drug combinations to combat severe diseases and conditions.

    Most non-infectious disease, such as cancer, stroke and Alzheimer’s are worsened by inflammation, which is the body’s natural defence mechanism.

    Inflammation has evolved to help fight infection but can also be very damaging in long term disease, prolonging suffering and ultimately risking premature death.

    After a stroke, the body reacts to the injury as if it were an infection, causing further damage.  By blocking the inflammation, the chances of survival or higher quality of life following a stroke are thus greatly enhanced. This can be achieved by quickly and effectively identifying combinations of drugs which can be used together.

    Existing ‘clot-busting’ stroke drugs are only effective if administered within three hours after the stroke – often very difficult to achieve as people are often unaware they are having a stroke – and even then do not completely solve the problem, often leaving sufferers with serious disabilities.

    However, using ideal drug combinations the researchers suggest they can block inflammation and therefore greatly reduce the damage caused by non-communicable diseases such as stroke.

    Although the researchers have initially concentrated on stroke, they believe the process can be applied to all drugs and for a huge variety of diseases.

    The multi-disciplinary team of researchers, led by , Professor of Bioanalytical Science at , developed an evolutionary computer programme which rapidly sifted through nine billion different combinations of potential drugs.

    Sorting and testing 50 drug combinations at a time using robotics in the laboratory, the scientists were able to find effective combinations and then refine them as many times as necessary to find ideal combinations.

    Ultimately, they hope this will lead to the development of tailored therapies for treating inflammation.

    Professor Kell, who is also Chief Executive of the , said:  “Most diseases have complex causes. This makes their analysis a problem of systems biology, and to find novel therapies multiple targets need to be attacked at once.

    “We have devised a strategy, based on Darwinian evolution, to make this considerably easier. Although our immediate interest is inflammation and conditions such as stroke, our approach is universal and is thus applicable to all complex diseases.”

    Another advantage of choosing ideal drug combinations is that it allows patients to take smaller doses, which reduces potential toxicology concerns.

    Professor Kell and his team worked with computer scientists at the University to create the programme. explains: “Our experiments were guided by software that is based on an evolutionary algorithm. The algorithm suggests new drug combinations from previous ones by re-mixing their components – much like the DNA of a child is a mix of that of their parents.

    “The new drug combinations are then tested and the best are selected to continue generating new ones. In each experiment we tested 50 drug combinations, then the software would tell us which new ones to test in the next experiment.”
     

    Notes for editors

    Professor Kell, Professor Mendes and other members of the team are available for interview on request

    Technical images are available from the .

    The paper, Efficient discovery of anti-inflammatory small-molecule combinations using evolutionary computing, by Ben G Small, Barry W McColl, Richard Allmendinger, Jürgen Pahle, Gloria López-Castejón, Nancy J Rothwell, Joshua Knowles, Pedro Mendes, David Brough and Douglas B Kell, is available from the Press Office on request.

    This work was funded by a grant from the Biotechnology and Biological Sciences Research Council (BBSRC) to Professor Pedro Mendes and Professor Dame Nancy Rothwell. Funding for studentships and fellowships was provided by BBSRC, (EPSRC) and .

    For media enquiries please contact:

    Daniel Cochlin
    Media Relations Officer
    The University of 野狼社区
    0161 275 8387
    daniel.cochlin@manchester.ac.uk
     

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    Mon, 24 Oct 2011 01:00:00 +0100 https://content.presspage.com/uploads/1369/500_7569_large-2.jpg?10000 https://content.presspage.com/uploads/1369/7569_large-2.jpg?10000
    Computer program could 鈥榬evolutionise the world鈥檚 healthcare鈥 /about/news/computer-program-could-revolutionise-the-worlds-healthcare/ /about/news/computer-program-could-revolutionise-the-worlds-healthcare/83171

    A massive network of computer programs co-created by University of 野狼社区 scientists could revolutionise healthcare around the world, saving countless lives and billions of pounds.

    Working with a number of partners, the academics have been awarded funds from a huge European research programme to create “virtual patients” – computational models of individual people – which could lead to everyone having their own individually-tailored health system based on their genetic and physiological make-up.

    Under the system, doctors would be able to have an instant, in-depth knowledge of an individual patient’s health needs and medical history at their fingertips.

    This will allow GPs to correctly and quickly diagnose illnesses and conditions, saving patients from potentially-deadly side effects of wrongly-prescribed medicines and saving huge amounts of money on drugs.

    The University of 野狼社区 researchers are part of a pan-European, 10-year project, called IT Future of Medicine (), costing €1bn.

    ITFOM has been allocated €1.5m preliminary funding.

    A consortium of more than 25 academic institutions and industrial partners with expertise in ICT, the life sciences, public health and medicine have come together to begin the process of bringing the project to life.

    As it progresses, even more partners will come on board, ultimately making this one of the largest collaborative endeavours since the Apollo space programme.

    A vast array of ICT developments must take place in order to make this medicine of the future a reality. This will include new techniques for the rapid acquisition and evaluation of patient data, dynamic storage and processing of real time patient data into relevant mathematical models and the development of new systems that can learn, predict and inform.

    These are needed to provide healthcare professionals and patients with unprecedented insights into matters of health and treatment.

    The first goal is to give each GP the power to use a person‘s individual genome to inform every stage of disease management – through diagnosis, treatment and follow-up. This will require a revolution in ICT technologies so that relevant computing, storage, networking and modelling technologies are developed;

    The IT systems will create mathematical models using vast amounts of data – our knowledge to date about how humans work.

    ITFoM will also provide scenarios – such as what would happen if a patient takes a certain medicinal drug, what would happen if they started running three times a week?

    Through genome sequencing and clinical information gathered, the general model will be able to be adapted to suit the particular health demands of any individual, including such issues as allergies, congenital defects and current treatment.

    ITFoM was set up as it was felt that, while IT and computing played a large role in many commercial scientific areas, its potential power to revolutionise medicine has not yet been realised.

    Professor Hans Westerhoff, who is leading the 野狼社区 part of the project, believes computer models will fundamentally change the way healthcare is provided.

    He added: “ITFoM will make general models of human pathways, tissues, diseases and ultimately of the human as a whole. These models will then be used to identify personalised prevention and therapy schedules, and the side effects of drugs.

    “The models will be there to help diagnose a particular problem and provide solutions. Obviously this would need to be done in conjunction with a person’s  GP depending on the gravity of the situation.

    “Making personalised medicine a reality will thus require fundamental advances in the computational sciences.

    “It promises to be unique and ground-breaking because people could access their own health model. It is intended to be a large, straightforward system which can also inform treatment regimes.

    “This is the first time that huge IT systems looking at individual care will be combined with genomics and medical needs.”

    , Head of the , added: "The IT Future of Medicine project provides an exciting opportunity to bring together and build upon advances in medical, biological and computational sciences. 

    “The greatest opportunities to improve outcomes in medicine seem likely to come from personalised medicine, the biological sciences are providing the insights required to support informed personalisation, and advanced computational techniques are essential for making sense of the data that informs decision making. 

    “This is a fantastic opportunity to bring together advances from these three rapidly developing areas to bring about a paradigm shift in medical practice."

    Notes for editors

    ITFoM is one of six pilot projects in the European Future and Emerging Technologies flagship scheme. These projects are vying for €1bn funding over ten years to in order to generate a scientific revolution.

    More information about ITFoM can be found at http://www.fet11.eu/images/stories/programme/ITFoM.pdf and http://www.itfom.eu.

    Professor Westerhoff and Professor Paton are available for interview on request.

    The finalists are (in alphabetical order):
    •    FuturICT Knowledge Accelerator and Crisis-Relief System: ICT can analyse vast amounts of data and complex situations so as to better predict natural disasters, or manage and respond to man-made disasters that cross national borders or continents.
    •    Graphene Science and technology for ICT and beyond: Graphene is a new substance developed by atomic and molecular scale manipulation that could replace silicon as the wonder material of the 21st century.
    •    Guardian Angels for a Smarter Life: tiny devices without batteries that act like autonomous personal assistants, and which can sense, compute and communicate potentially even while travelling through your bloodstream.
    •    The Human Brain Project: understanding the way in which the human brain works can bring the benefits of brain-related or brain-inspired developments to computing architectures, neuroscience and medicine.
    •    IT Future of Medicine: digital technology has the power to deliver individualised medicine, based on molecular, physiological and anatomical data collected from individual patients and processed on the basis of globally integrated medical knowledge.
    •    Robot Companions for Citizens: soft skinned and intelligent robots have highly developed perceptive, cognitive and emotional skills, and can help people, radically changing the way humans interact with machines.

    For media enquiries please contact:

    Daniel Cochlin
    Media Relations Officer
    The University of 野狼社区
    0161 275 8387
    daniel.cochlin@manchester.ac.uk

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    Mon, 25 Jul 2011 01:00:00 +0100 https://content.presspage.com/uploads/1369/500_7265_large.jpg?10000 https://content.presspage.com/uploads/1369/7265_large.jpg?10000