The National Robotarium has signed a new MOU (Memorandum of Understanding) with Corps Monitoring that will underpin the safe development of technologies for healthcare and other sectors.
The agreement, which was co-signed by Robotarium CEO Stewart Miller and CEO of Corps Monitoring Mike Bullock, during a visit to the National Robotarium on 3 June, kick-starts a collaboration that will focus on improving security and monitoring services for the social care sector.
Researchers in Human-Robot Interaction at Heriot-Watt University are developing applications, such as smart sensors and remote technologies, to enhance care provision in assisted-living environments. One current project involves the deployment of assistive robots within a real-use care organisation being led by Associate Professor Dr Mauro Dragone in partnership with Blackwood Homes and Care Services. Corps Monitoring, a division of Corps Security, will apply its extensive expertise in specialist security solutions to ensure these technologies are deployed safely, with enhanced cybersecurity to protect patient data and information.
Dr Mauro Dragone (far-left), who leads the Laboratory for Assisted Robotic Living at the National Robotarium
“The aim of our partnership with the National Robotarium, is to improve the quality of life for many whilst striving forward with innovative technology advances.” Andrea Strong, MD of Corps Monitoring
National Robotarium Business Development Manager Lisa Farrell, who spearheaded the partnership, led the visit. She said:
“We were delighted to welcome Andrea and Mike to the National Robotarium to co-sign our new partnership agreement with Corps Monitoring.
“Our researchers are making huge advancements into the use of smart sensors, data analysis and machine vision to support greater independent living, however their security is a must if they are to be adopted by care providers on a wider scale.
“The expertise of Corps Monitoring will help underpin the safe development of these technologies, ensuring patient data remains private and protected and maintaining confidence within the sector.”
Andrea Strong, Managing Director of Corps Monitoring, also attended the signing. She said:
“The advancement of technology is moving at such a rapid pace. This partnership won’t just allow us to ‘keep up’ but to be ahead of the curve. By focusing on innovations that not only enhances independent living within the varying care sectors but aids the security and other sectors in general.
“The aim of our partnership with the National Robotarium, is to improve the quality of life for many whilst striving forward with innovative technology advances.”
https://thenationalrobotarium.com/wp-content/uploads/Corps-Monitoring-MOU.jpeg10061663Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-06-05 14:17:292024-06-07 10:06:29New partnership will safeguard remote technologies for healthcare
Industry representatives from health technology and telecare are invited to attend the next Emergence Healthcare Technologies Network event, taking place at the National Robotarium.
An interactive workshop, participants will explore the use of intelligent and robotic systems for the elderly or frail. Insights into the challenges facing healthcare professionals will be shared, along with hands-on exploration of new technologies, including robots and smart sensors, in the facility’s living lab.
📌 Tackling Frailty: Facilitating the Emergence of Healthcare Robots from Labs into Services
📅 Tuesday 4 June
🕙 1000-1600
📍 The National Robotarium, Heriot-Watt University, Edinburgh
Prof. Dr. Patrick C. K. Hung, Faculty of Business and IT, Ontario Tech University, Canada is speaking at the National Robotarium on 22 May.
Join us in the Atrium space from 12-1pm for an insightful talk on the social impacts of anthropomorphic and zoomorphic robots.
No booking required
Abstract
A social robot consists of a physical hardware component that interacts with humans connected through a network infrastructure as a cyber-physical computing system supported by cloud services. Human-robot interaction (HRI) is a research area that involves understanding, designing, and evaluating robots for use by or with humans. The Uncanny Valley theory describes the disturbing effect of imperfect human likenesses that have dominated HRI.
Referring to the Uncanny Valley, social robots usually constitute a form of anthropomorphism. Social robots typically behave like humans or animals, such as mimicry of human/animal behavior and emotional expression, with speech, gestures, movements, and eye-gaze features. Prior research found that it is much easier for an embodied humanoid robot with emotional expression to gain users’ trust to release personal information than a disembodied interactive kiosk. Emotions are essential to human cognition and behavior caused by an identifiable source, such as an event or seeing emotions in other people. During the pandemic, our research team designed and built a homemade robotic puppy with wood and mechatronics with a mechanical tail to express emotion from scratch with body language. This talk will then overview our social-technical research works from anthropomorphic to zoomorphic robots. This talk will also focus on a recent study of a guide dog robot for people with visual impairments in Canada.
Speaker Bio Patrick C. K. Hung is a Professor and Graduate Program Director of Computer Science at Ontario Tech University, Faculty of Business and Information Technology. He is a Leverhulme Visiting Professor at Aston University, England, and an Honorable Guest Professor at Shizuoka University, Hamamatsu, Japan. He was also a Distinguished Visiting Fellow at Abertay University, Scotland, and a Visiting Researcher at the University of São Paulo, Brazil. Dr. Hung worked with Boeing Research and Technology in Seattle on aviation services-related research with two U.S. patents on the mobile network dynamic workflow system. Before that, he was a Research Scientist with Australia’s Commonwealth Scientific and Industrial Research Organization. He is a founding member of the IEEE Technical Committee on Services Computing and IEEE Transactions on Services Computing. In addition, he is an editorial board member for the IEEE Transactions on Engineering Management and a coordinating editor of the Information Systems Frontiers. He has a Ph.D. and Master in Computer Science from the Hong Kong University of Science and Technology, a Master in Management Sciences from the University of Waterloo, Canada, and a Bachelor in Computer Science from the University of New South Wales, Australia.
https://thenationalrobotarium.com/wp-content/uploads/Ben-Glasgow-33.jpg13632048Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-05-16 17:05:582024-05-23 10:40:31Anthropomorphic to Zoomorphic Social Robots: Our Experiences – Wed 22 May, 1200-1300
A robot that can wink, laugh, and shrug is about to turn the National Robotarium in Edinburgh into its first home in the UK.
Ameca, which is made by British company Engineered Arts, will be used as part of the facility’s outreach work with school pupils and the general public to study humans’ reactions to robots.
The National Robotarium, the UK’s centre for robotics and artificial intelligence (AI) based at Heriot-Watt University in partnership with The University of Edinburgh, has purchased Ameca, making it the first place in the UK to have this state-of-the-art humanoid robot.
Described by Engineered Arts as the ‘world’s most advanced’ humanoid robot, Ameca’s sophisticated features include embedded microphones, cameras, facial recognition software, and articulated motorised components which enable it to interact with people in a natural and engaging way. By showcasing Ameca’s capabilities through its public outreach and education programmes, the National Robotarium will seek to break down barriers and build trust between humans and robots.
Ameca will be utilised as part of the National Robotarium’s outreach and engagement programme, helping to build trust in robotics and improve adoption.
The facility’s dedicated public engagement team will feature Ameca at various events, school visits, and workshops across Scotland and beyond, providing opportunities for people of all ages and backgrounds to interact directly with the robot and learn about the latest advancements in robotics and AI.
Researchers will also utilise Ameca to study public perceptions and attitudes towards humanoid robots, gathering valuable insights to inform the development of future technologies that prioritise trust, transparency, and user-friendliness.
Steve Maclaren is Chief Operating Officer at the National Robotarium. He said:
“The arrival of Ameca at the National Robotarium marks a significant step forward in our mission to make robotics more accessible and relatable to the people of Scotland, the UK and beyond. Since opening our doors in September 2022, we’ve successfully hosted more than 50 in-person and virtual events and engaged with 1000s of school-aged children.
“Ameca represents an exciting opportunity to build on that success and take public engagement to the next level. By giving people the chance to interact with this state-of-the-art humanoid robot firsthand, we aim to demystify robotics, foster trust in human-robot interaction, and showcase the remarkable potential of these technologies to improve our daily lives and benefit society as a whole.”
Will Jackson is the founder and CEO of Engineered Arts Ltd. He said:
“We are incredibly proud to have Ameca join the many preeminent robots at the National Robotarium. Meeting an AI-embodied humanoid robot is a unique experience that very few people have witnessed and we are very excited to be able to share what can be a profound moment with a wider audience.”
The National Robotarium is part of the Data-Driven Innovation initiative, supported by £21 million from the UK Government and £1.4 million from the Scottish Government. The initiative aims to turn Edinburgh into the data capital of Europe and is part of the wider £1.5 billion Edinburgh and South-East Scotland City Region Deal.
https://thenationalrobotarium.com/wp-content/uploads/Ben-38-scaled-e1724410004325.jpg6651000Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-04-17 00:01:472024-04-16 12:20:58‘World’s most advanced’ humanoid robot arrives at the National Robotarium
Researchers in Robotics and Artificial Intelligence (AI) from Heriot-Watt University and The University of Edinburgh hosted a visit from Caroline Lamb, NHS Scotland Chief Executive and Director – General Health and Social Care, at the National Robotarium on 18 March. The purpose of the visit was to showcase the latest innovations in robotics for healthcare being developed by scientists.
Led by Professor Lynne Baillie, Heriot-Watt’s world-leading expert in Human-Robot Interaction (HRI), the visit included an introduction from Chief Executive of the Robotarium, Stewart Miller, followed by a tour of the high-spec HRI labs and selection of demonstrations from researchers developing cutting-edge robotics and AI solutions to support people’s health, wellbeing and social care, and reduce pressure on clinical and healthcare staff.
Prof. Kia Nazarpour (University of Edinburgh), Dr Theo Georgiou (Heriot-Watt University) and Caroline Lamb
Examples of research included the FEATHER project, a ground-breaking study that is utilising AI and smart home sensors to monitor living habits and enable the early detection of urinary tract infections (UTIs). The project team, a partnership with the Robotarium and School of Informatics at Edinburgh University, is working with social care and residential homes to develop the smart data systems and help improve patient care for the condition, which affects 150 million people worldwide.
The Horizon Europe project SPRING, led by academic co-lead at the National Robotarium Professor Oliver Lemon, was also featured during the tour, with a demonstration of the socially-assistive ARI robots, which have been providing advice and comfort to elderly patients and those with cognitive decline in a hospital in Paris. Recent news of the study has captured the public’s imagination and garnered significant media interest worldwide.
The varied and comprehensive programme also included talks and visual presentations from Research Assistants and doctoral students from Edinburgh Centre for Robotics covering topics such as robotics-assisted surgery and assessment, automated upper-limb protheses and rehabilitation, robotic exoskeletons, wearable devices to combat drug overdoses, healthcare sensors, long-term monitoring resources for an ageing population, and legged robots.
Caroline was accompanied by Professor Soumen Sengupta, Chief Officer of South Lanarkshire Health and Social Care Partnership, throughout the visit. Following the tour, they joined scientists and business figures from the Robotarium in a roundtable discussion on the future of applications of robotics in the NHS and beyond.
The visit was organised and led by Professor Lynne Baillie (front row, third from left)
Professor Lynne Baillie said: “On behalf of the research teams at Heriot-Watt and The University of Edinburgh, I’d like to express my gratitude to Caroline and Soumen for taking the time to visit the National Robotarium and learn about the wide-ranging robotic applications and solutions we’re developing with input from the health and social care industry.
“As Chief Executive of NHS Scotland and lead of the Digital Health and Care Directorate, Caroline was interested in learning about new innovations that can complement the existing care and support being given to patients across the country.
“Scotland’s population is ageing more rapidly than ever before. That, alongside the pandemic and other public health crises, is putting strain on existing health services, leading to longer waiting lists and staff burnout. We believe that the safe and responsible application of robotics, AI and data could provide solutions to current challenges facing the sector, facilitating independent-living for longer and improving patient wellbeing overall.”
Professor Soumen Sengupta, Chief Officer of South Lanarkshire University Health and Social Care Partnership, said: “Innovation and collaboration with partners across the nation is crucial to how increasingly sophisticated care is being delivered, compassionately, in and with communities.
“Indeed, this is something we are actively committed to in South Lanarkshire and across Lanarkshire as a whole.
“These are challenging times for health and social care services – which further reinforces the importance of innovation and collaboration with strategic partners such as our universities.
“From the stimulating presentations and lively discussions with colleagues from Heriot-Watt University and The University of Edinburgh, it is clear that there is huge scope to build upon the exciting developments that are already being progressed with the NHS in Scotland, and to expand the opportunities for collaboration in relation to social care and housing.
“We all clearly share a common, resolute commitment to the ongoing exchange of learning and experience with a view to harnessing all the potential of technology to enhance the vital work of our health and care staff and to improve the quality of lives across our diverse communities.
“I very much look forward to our harnessing the expertise and enthusiasm that is evident within the National Robotarium to contribute to the transformation of health and social care right across Scotland.”
https://thenationalrobotarium.com/wp-content/uploads/20240318_145730-scaled.jpg19202560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-03-27 10:00:492024-03-27 10:20:39Health and social care robots showcased for NHS Scotland Chief Executive
Next-generation socially assistive robots have been successfully tested in a healthcare setting to assist patients, alleviate their anxiety, and relieve pressure on nursing staff as part of a hospital trial co-conducted by researchers from the National Robotarium in Paris, France.
The SPRING (Socially Assistive Robots in Gerontological healthcare) trial developed robots equipped with advanced artificial intelligence to enable natural conversations, understand patient needs, and assist hospital staff with routine tasks across three waves of experiments with elderly volunteers at Assistance Publique Hôpitaux de Paris.
Results show that robots were able to smoothly engage in social interactions like greeting patients, answering questions, and providing directions. Critically, robots are quickly demonstrating an ability to comprehend multi-party conversations – following dialogue between several individuals simultaneously.
By undertaking simple but repetitive duties, robots also reduced potential physical contact between clinicians and patients as part of the trial, with early feedback suggesting the use of socially assistive robots may lower infection transmission risk, while boosting productivity of nurses and doctors.
Anxiety and uncertainty can often precede a hospital visit and it is understood that this behaviour can be more pronounced in senior patients, with up to 20% of older adults suffering from the illness1. It is hoped that the availability of helpful and socially intelligent robots that can converse and answer initial screening questions whilst alleviating busy hospital staff could prove extremely beneficial in clinical settings.
Patients and companions make their enquiries with the ARI robot
Professor Anne-Sophie Rigaud, Head of Department at Assistance Publique Hôpitaux de Paris, said:
“Our patients are increasingly interested in robotics and the evolution of hospital services, which they see as the logical evolution of our society. We believe that the ARI robot could in future become an essential element of patient care in hospitals, thanks to its capacity for social interaction and guidance.
“Older adults have also expressed that they’re pleased with the design of the robot and thought that it would be useful to provide information and companionship to patients with cognitive disorders.”
The feasibility of implementing the SPRING project has been made possible by academics at the National Robotarium who have made major advances in developing large language models (LLM) that enable robots to be capable of natural and fluent conversations with groups of people.
The Paris trials have provided key insights into how this emerging technology can enhance care delivery and safety whilst simultaneously advancing innovations in areas like computer vision, audio processing and human-robot interaction which have potential for further global applications.
The €8.4 million collaborative SPRING project includes researchers from Heriot Watt University, the National Robotarium, the Czech Technical University, Bar Ilan University Israel, University of Trento Italy, Assistance Publique Hôpitaux de Paris, PAL Robotics Spain, ERM AUtomatismes France, and is coordinated by Inria France. SPRING received support from Horizon 2020, a programme funded by the European Union.
The National Robotarium is part of the Data-Driven Innovation initiative, supported by £21 million from the UK Government and £1.4 million from the Scottish Government. The initiative aims to turn Edinburgh into the data capital of Europe and is part of the wider £1.3 billion Edinburgh and South-East Scotland City Region Deal.
Professor Oliver Lemon, academic co-lead at the National Robotarium
Oliver Lemon is a professor of AI and academic co-lead at the National Robotarium. He said:
“Today’s rapid advances in AI are truly inspiring and open up a world of possibilities for its positive impact on various sectors, including healthcare. One of the most significant contributions of robotics and AI is its ability to conserve resources and alleviate human workload, therefore providing valuable new tools for enhancing healthcare delivery.
“The prospect of robots seamlessly collaborating with hospital staff to enhance the patient experience is now closer to reality. Promising initial trials at Assistance Publique Hôpitaux de Paris have demonstrated our robot’s ability to converse effectively with patients and their companions simultaneously.
“We believe that the SPRING project marks a significant milestone in the development of interactive robotics, and we are proud of its achievements, while recognising the exciting challenges that lie ahead.”
UK Government Minister for Scotland, Malcolm Offord, said:
“The early trials into helper robots successfully demonstrates the great potential such advanced technology has to deliver vital support to health staff, improve patient care and prevent the spread of infections and diseases.
“The UK Government has invested £21 million in the National Robotarium helping foster world-leading research and support high quality jobs, investment and growth, as part of our more than £2.9 billion investment to level up across Scotland.”
Scottish Government Wellbeing Economy, Fair Work and Energy Secretary, Neil Gray, said:
“I welcome this progress using artificial intelligence to help ease the pressure on health service staff.
“With Scottish Government support, the National Robotarium is using cutting edge research to help drive innovation and artificial intelligence to deliver creative solutions to real world challenges.”
https://thenationalrobotarium.com/wp-content/uploads/ARI-INRIA-4-scaled.jpg14402560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-01-31 00:01:252024-01-31 09:23:00Socially assistive robots deployed in Paris hospital to ease pressure on staff and reassure patients
Heriot-Watt University has been named as one of 29 new members joining the Turing University Network. The network provides institutes that excel in data science and AI the opportunity to engage with its broader network to advance world-class research that address global challenges. Heriot-Watt is home to the National Robotarium, a £22.4m centre for robotics and AI, created to produce new and innovative technologies to overcome real-world obstacles, boosting its credentials as a leader in the UK data science and AI landscape.
The Alan Turing Institute launched the network as a pilot in April 2023, with an open call for new members announced in early summer this year. It now includes 65 members across the UK, facilitating better connections and providing access to a bespoke network that encourages collaboration across the data science and AI ecosystem. The network is a key component of The Alan Turing Institute’s strategy and supports it in delivering its three overarching goals: to advance world-class research and apply it to national and global challenges, build skills for the future, and drive an informed public conversation.
Dr Jean Innes, Chief Executive Officer of The Alan Turing Institute, said: “We’re really pleased to welcome our new members to the network. We hope that they will benefit from being part of our data science and AI group and find opportunities for new, meaningful collaborations across the data science and AI landscape.”
Oliver Lemon, Professor in Conversational AI, and academic co-lead of the National Robotarium, Heriot-Watt’s Global Research Institute for robotics and artificial intelligence, said: “We are thrilled to be accepted into the Turing University Network, a prestigious consortium of universities dedicated to advancing world-class AI research with real-world applications.
“The National Robotarium was created to develop robotics and AI solutions that make a difference in the world. By joining the Turing University Network, we will be able to collaborate with other leading institutions and build on our collective expertise to create even more ground-breaking innovations.
“This partnership is a testament to the strength of our AI research programme and our commitment to using technology to solve the world’s most pressing challenges. We are excited to work with our fellow Turing Network members to make a positive impact on the economy, industry, and society.”
The full list of universities joining the network are:
•Aston University
•University of Aberdeen
•University of Bath
•University of Bradford
•University of Dundee
•University of East Anglia
•University of Essex
•University of Greenwich
•University of Hull
•University of Lincoln
•University of Portsmouth
•University of Salford
•University of Sussex
•University of Westminster
•University of York
•Birkbeck, University of London
•Coventry University
•Edinburgh Napier University
•Heriot-Watt University
•Lancaster University
•London Business School
•Loughborough University
•Manchester Metropolitan University
•Oxford Brookes University
•Sheffield Hallam University
•Swansea University
•The Open University
•University of Leicester
•University of St Andrews
https://thenationalrobotarium.com/wp-content/uploads/TATI_UniversityNetworkLogo_Black-scaled-1.jpg25472560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2023-10-02 09:01:002023-10-24 12:05:34Turing University Network: A Collaboration for World-Class AI Research
Innovators, healthcare experts, students and scientists converged for a special 5-day hackathon event, focused on shaping solutions for better independent living.
Sponsored by the Scottish Informatics & Computer Science Alliance (SICSA) and the EPSRC Network+ EMERGENCE, the Robotics + Care Mashup took place at the National Robotarium from 16-20 October.
Hosted by the Heriot-Watt University CARE (Cognitive Assistive Robotic Environments) Group, the event offered a unique opportunity to test and develop emerging technologies, including cloud, robotics and IoT (Internet of Things) equipped with machine learning and artificial intelligence capabilities, for health and social care. Applications can include non-intrusive monitoring of health status and vital signs, detecting patterns and trends in behaviour, triaging, facilitating communication and social-connectedness, and generally supporting general self-management of health and wellbeing.
Working in teams, students in different disciplines, such as robotics, engineering, computer science, nursing, medicine, psychology and business, developed new and innovative concepts that can address challenges for healthcare providers and people who require assisted living support. Throughout the week, end-users, academics, technologists and care providers assesssed the progression of each idea and provided feedback in real-time.
The Mashup also hosted a number of talks and product development sessions from technical providers on topics including APIs and sensor kits, ethics and cybersecurity, and live robot demonstrations in the Laboratory for Robotic Assistive living (LARA)
Godfrey works with the HRI research group, located in the Laboratory for Assistive Living (LARA), a unique test lab for developing assistive robots
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
Toyota Human Support Robot (HSR)
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
EMERGENCE Robotics + Care Mashup, 16-20 Oct 2023
https://thenationalrobotarium.com/wp-content/uploads/NR-stills-76.png10552000Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2023-09-07 14:01:542024-04-08 16:08:13Robotics + Care Mashup event to improve independent living
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