The National Robotarium, the UK’s leading centre for robotics and Artificial Intelligence at Heriot-Watt University, is to be involved in the development of new products and services that help to advance the safe adoption of robotics in the public sector.
As part of round 11 of the CivTech Challenge, a Scottish Government programme that brings the public, private and third sectors together to create new innovations that can make people’s lives better, The National Robotarium and the Directorate for Digital aims to support the development of pioneering ideas that can enable greater adoption of new robotic and smart technologies in public organisations.
Any organisation, team or individual can respond to Challenge 11.8, ‘How can the public sector ensure a safe, secure and transparent adoption of robotics’, with the most promising solutions given the chance to access up to £1.2m in public contracts.
CEO Stewart Miller with Robotics Engineer Coena Das
Chief Executive Officer of The National Robotarium, Stewart Miller, said: “Our mission at The National Robotarium is to build the UK’s presence in the robotics sector, support new technology companies in getting their robotic products to market, and encourage businesses to increase the use of robotic technologies in their day-to-day operations.
“A major part of this involves ensuring that companies feel confident in having more robots working side-by-side with humans, customers or other users, and that requires robust cybersecurity that protects their programming and automation.
“Through the CivTech Challenge, we have the opportunity to support the rapid advancement of new products or services that can protect robots – and businesses – from even the most sophisticated cyber-attacks, enabling a smoother transition to robotics adoption.”
Innovators, entrepreneurs, startups, SMEs and established businesses interested in taking on the CivTech Challenge have until 2 September to submit their initial proposal via Public Contracts Scotland.
Hear Stewart discuss the challenge in more detail at: https://youtu.be/SrJM_IONP6E
The International Blue Economy Robotarium – dubbed the ‘Blue Robotarium’ – will bring together leading experts in science and industry to test and develop cutting-edge robotic technologies to revolutionise the global blue economy.
Over the coming months, the Blue Robotarium aims to:
Develop an expansive programme that explores learning and solutions related to robotics, AI and data management for the offshore wind and tidal energy sectors;
Rapidly advance the testing and development of robotic systems to improve the sustainability of marine industry operations;
Create a centre in Orkney for testing, certification and performance validation of new robotic, AI digital technologies;
Support and facilitate the safe deployment of new technologies, underpinned by expert support and management;
Stewart Miller, CEO of The National Robotarium, spearheaded the new consortium alongside Professor Sandy Kerr, Director, School of Energy, Geoscience, Infrastructure and Society at Heriot-Watt’s Orkney campus.
Stewart said: “This is a hugely exciting opportunity to showcase how the National Robotarium model can be adapted to drive robotic innovations for specific sectors.
“The International Blue Economy Robotarium will explore sustainable solutions that will enhance the offshore energy, marine and renewables industries through advanced technology.
“With access to a network of 400 service specialists, the Blue Robotarium will be a one-stop-shop for enterprising companies seeking to enhance efficiencies and improve sustainability using robotics.”
https://thenationalrobotarium.com/wp-content/uploads/IBER-all-energy-land-1.jpeg13372082Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2025-05-14 16:32:312025-05-20 10:53:04New ‘Blue Robotarium’ aims to transform marine energy industry
This article was originally published by Frankie Macpherson in healthandcare.scot on Monday 28 April
A new project has spotlighted the potential of robotic technical to support independent living and social engagement for people living in assisted residential accommodation, at the same time as ensuring a quick response when things go wrong.
Scottish researchers partnered with charity and specialist home care provider, Blackwood Homes and Care to explore how robotics might work alongside, and potentially improve, Blackwood’s existing care systems.
Lead researcher and expert in assistive robotics, Heriot-Watt University’s Dr Mauro Dragone said:
“Robotics offers a powerful solution for independent living, enabling remote monitoring, reducing staff pressures, and increasing personal choice and care flexibility. Projects like this help de-risk innovation by embedding technical expertise into care environments, ensuring reliability and user acceptance.
“To achieve lasting impact, partnerships — such as with the National Robotarium at Heriot-Watt — are essential.
“They provide the research, support and training needed to scale new technologies responsibly and effectively across Scotland’s health and care sector.”
Temi: robot first responders
The Temi is being used as a first responder for residents at Blackwood Homes and Care, providing 24/7 support.
At the heart of the project was the ‘Temi’ robot, which was integrated with the digital telecare systems already used across three buildings in Glasgow. Temi could reach people in their apartments to help Blackwood’s Homes and Care 24/7 emergency response team and carry out routine health and wellbeing check-ins.
Dr Dragone said that the robots have been developed with input from staff and residents. He said: “These robots acted as first responders, automatically travelling to residents’ flats during emergencies and enabling live video contact with care teams. Unlike traditional devices, they ensured support even when residents couldn’t access their phones or tablets.
“Beyond emergency response, the robots also carried out daily mental health and wellbeing check-ins.
“Developed through co-design with residents and staff, the robot could ask questions, play music, and facilitate contact with the care team — adding value to day-to-day life and increasing social interaction.
“One of the most successful aspects of the collaboration between the research team at Heriot-Watt University and the innovation team in Blackwood was these participatory design activities, to understand their concerns but also their aspiration, preferences and desires for the new technology.”
Participants in the trial reported increased satisfaction with the enhanced service, highlighting Temi’s contribution to both social engagement and accessibility of care services.
A care work team leader who attended one of the sessions demonstrating how the robotics work described themselves as “totally converted” from a non-believer in robotics to seeing it as something that can help “shape the future of care”.
The UK’s National Robotarium played a ‘pivotal role’ in advancing robotic and software solutions through this partnership, with Heriot-Watt researchers developing “custom software and user interfaces” for Temi.
The research team also trained staff, and integrated the system within Blackwood’s residences, and now hope to continue to advance robotic-assisted independent living and care.
One person involved in the trial said they had “immensely enjoyed” the process, adding:
“I initially got involved as I was curious about what robotics encompassed, and despite being unsure about technology, I kept an open mind. From the very first workshop, I saw how they could be of benefit. Contributing ideas from a service user point of view felt such a privilege and now that I have seen my ‘mental health check-in’ idea has been incorporated into the robot, is just mind blowing!
“It makes me feel not only proud of my idea, but more importantly, that it can be of benefit to others. That makes me happy to know that someone else might feel better because of it.”
Remote triage
One challenge the teams worked to address for remote care staff is that systems often rely on the person who is in trouble to trigger an emergency video call.
The researchers explain this can “difficult to manage”, as it may not be possible if someone has fallen out of sight of the device or is feeling ill or confused.
Dr Mauro Dragone showcases the Temi robot to health and social care practitioners with the National Robotarium Laboratory for Robotic Assistive living (LARA).
Dr Dragone explained Temi could respond to an emergency being trigged without residents using a phone or tablet. It travels from the ground floor, using the building’s lifts if needed, to reach and connect residents with a virtual care team through a live video feed. Once connected, the responder from the remote care team takes control of the robot, assesses the situation and can speak to the resident.
He said: “This allowed remote staff to assess the situation accurately and quickly enhanced emergency response and enabling care even during travel restrictions.
“Temi is a mobile robot with a tablet and camera for video calls, combined with obstacle detection, navigation software, and the ability to operate lifts and doors.
“While Temi doesn’t currently carry out physical tasks, Heriot-Watt is now developing smart home devices and modular robotic furniture to work alongside robots like Temi — extending their support potential in care settings.”
He added that this is particularly helpful during stations where there are travel or social distancing restrictions, as seen during the COVID crisis.
Dr Dragone emphasised that robotics is an increasing key component of independent living, not just for remote monitoring but also promoting social connections and self-management at times of self-isolation or travel restrictions.
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https://thenationalrobotarium.com/wp-content/uploads/Mauro-Dragone-at-EMERGENCE.jpg6661000Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2025-04-28 17:03:262025-04-28 18:05:13Enhancing independent living with robotics
The UNITE project, an EPSRC Prosperity Partnership programme spearheaded by The National Robotarium and Heriot-Watt University in collaboration with Imperial College London, was Highly Commended in the Multi-party Collaboration category at the 2025 Interface Scottish Knowledge Exchange awards.
The project team, which includes global geo-data specialists Fugro and Heriot-Watt spinout technology company Frontier Robotics, is developing advanced AI and autonomous systems for undertaking remote inspections of offshore wind farms to offer a safe, efficient and sustainable solution for global energy providers.
Picking up the prize on the night from Minister for Business, Richard Lochhead MSP was Project Manager, David Morrison, Director and Co-Founder of Frontier Robotics, Jonatan Scharff Willners, Head of the Robot Motor Intelligence (RoMI) lab, Dr Carlos Mastalli and postdoctoral student Hefan Wang.
Yvan Petillot, Professor of Robotics at Heriot Watt University and National Robotarium academic lead, commented:
“The National Robotarium’s partnership between Fugro and the UNITE project has created an exciting opportunity to develop this next generation of underwater technologies as well as the skills and expertise needed to support the transition to net zero. UNITE has enormous potential to power the UK’s offshore renewable sector and beyond, delivering worldwide economic and environmental impact that can benefit communities around the world.”
Adding to the evening’s achievements, Heriot-Watt was part of a team that claimed the Innovation of the Year award through the collaborative spin-out SolarSub Ltd. Working alongside partner universities, SolarSub Ltd has developed groundbreaking solar-powered autonomous underwater vehicles, significantly enhancing sustainable subsea operations. These innovative vehicles provide environmentally friendly solutions for extended underwater monitoring and exploration, supporting diverse industries from environmental research to offshore renewable energy.”
Minister for Business, Richard Lochhead MSP said:
“It was good to see the full breadth of academic and business-led innovation on show at Interface’s annual awards.
“Scotland has been at the forefront of many of the world’s most impactful innovations, from the MRI Scanner and penicillin to televisions and telephones. Yet, by combining research and business, so many new and exciting Scottish breakthroughs are just on the horizon and that is something we should all champion.”
The awards, now in their tenth year, were held at Edinburgh Futures Institute and celebrated exceptional collaborations between academia and industry that deliver economic, environmental and social benefits for Scotland. UNITE was recognised for its innovative KE consortium, which brings together a long legacy of scientific research alongside industry expertise and new autonomous and AI technologies.
Heriot-Watt’s Medical Device Manufacturing Centre (MDMC), scooped the main prize in the same category, topping off an successful evening for the institution.
A housing provider in North East England has enlisted a conversational robot from The National Robotarium to explore how humans interact with robotics in a social setting.
The AI-empowered humanoid Furhat robot has been installed in North Star Housing’s Aspen Gardens communal bistro area, where it will have conversations with residents and visitors while taking orders and preparing hot drinks through an automated coffee machine.
Along with friends and family, residents – many of whom require additional care at the complex – will provide feedback to The National Robotarium’s researchers so lessons can be learned about how humans prefer to interact with robots and whether they can be adopted to tackle loneliness.
To enable the robot to engage in meaningful conversations with residents, it has been programmed with information about the local area, its history and local celebrities. It can also provide updates on activities taking place at Aspen Gardens, encouraging residents to participate and socialise with each other.
Fred Connor, 87 (pictured below), was one of the Furhat’s first customers. “It’s the first time I’ve seen anything like it, but we have to embrace change, so it’ll be interesting to see how he gets on.”
The idea for the partnership between North Star and The National Robotarium resulted from a creative workshop involving North Star staff facilitated by Durham-based IT consultancy Waterstons.
Alex Waterston, Associate Director of Innovation said: “From our point of view, this is really exciting because it’s a new challenge for us at Waterstons – using technology to free up time to provide better customer service. If that can be achieved, it’s going to be really worthwhile.”
Leading the project is Heriot-Watt PhD student Bruce Wilson, David Robb and Dr Theodoros Georgiou (pictured below, far left), Assistant Professor of Computer Science at Heriot-Watt University and The National Robotarium.
He said: “This collaboration with North Star is a vital part of our wider research initiative to understand how humans and robots interact in real-world settings.
“The data we gather will inform the future development of robotics across multiple sectors, particularly in social care where such technology could transform service delivery.
[l-r] Dr Theo Georgiou, Alex Waterston, Associate Director of Innovation at Waterstons and Sean Lawless, Director of Insight and Transformation at North Star Housing
Lisa Farrell is Business Development Manager at The National Robotarium and facilitates new partnerships between industry and robotics. She said:
“By placing conversational robots in communities like Aspen Gardens, we’re not just conducting research – we’re advancing our understanding of how AI and robotics can genuinely improve quality of life for elderly residents while addressing pressing challenges in the care sector.
“This project represents a critical step in the National Robotarium’s mission to create people-centred, intelligence-driven robotic solutions that can be widely deployed to support an ageing population.”
Bruce Wilson is leading the project as part of his PhD in Robotics
The project team, which includes global geo-data specialists Fugro and Heriot-Watt spinout technology company Frontier Robotics, is developing advanced AI and autonomous systems for undertaking remote inspections of offshore wind farms to offer a safe, efficient and sustainable solution for global energy providers.
The Scottish KE awards, now in their 10th year, highlight the exceptional collaborations that deliver economic, environmental and social benefits for Scotland. UNITE has been nominated within the Multi-party Collaboration category, in recognition of the consortium’s innovative knowledge exchange, bringing together a legacy of science, industry expertise and emerging technologies to tackle a real-world challenge.
UNITE aims to develop autonomous, electric remotely-operated vehicles (eROVs) to conduct maintenance and repair on offshore wind turbines
Professor Yvan Petillot is academic co-lead at The National Robotarium and leads the UNITE project at Heriot-Watt.
He said: “It’s an honour to be shortlisted for a Scottish KE Award. By harnessing advanced robotics, artificial intelligence, and subsea engineering with the aim of transforming offshore maintenance and directly supporting Scotland’s net-zero ambitions, we think the UNITE project is an excellent example of truly impactful Knowledge Exchange.”
Amelia Whitelaw, Director of Interface, which organises the Awards, said: “At Interface, we are proud to deliver the Scottish Knowledge Exchange Awards on behalf of Scotland’s vibrant innovation ecosystem.
“These awards are more than just a celebration of achievements—they showcase the transformative power of collaboration between academia and industry. Each finalist represents the spirit of partnership, driving solutions that create lasting economic, environmental, and social impact.”
The Interface Scottish KE Awards will take place at Edinburgh Futures Institute on 19th March.
https://thenationalrobotarium.com/wp-content/uploads/KE-awards.png499706Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2025-02-12 12:34:512025-02-12 12:40:25UNITE consortium shortlisted for Scottish Knowledge Exchange Award
The National Robotarium and Freshwave have joined forces to deploy a portable 5G private network within the world-leading centre for robotics and AI. The 5G private network is being used to test robots with the aim of building the innovation centre’s digital capabilities for undertaking commercial projects.
Spot, a quadruped wireless robot created by Boston Dynamics, is the first robot to be used on the portable 5G private network. Spot is being tested to meet an agricultural technology (agritech) need for a National Robotarium customer and will be streaming live video content, doing 3D mapping, and infrared assessments when out in the field. The real-time data Spot collects will be used to improve agricultural productivity and sustainability.
Portable 5G private networks are unlocking exciting benefits in the agritech sector. They provide high-speed, reliable internet access in remote or rural areas where traditional broadband is often limited, enabling better connectivity for devices and systems on the farm. The low latency offered by 5G allows real-time data collection and analysis, supporting immediate decision-making for precision agricultural tasks, such as crop monitoring and equipment adjustments. And they can be easily deployed and moved as needed, making them ideal for seasonal or shifting agricultural operations where fixed infrastructure is impractical. The UK agritech industry is predicted to hit £15.6 billion by 2026.
Steve Maclaren, Chief Operating Officer at the National Robotarium, said: “I’m delighted with what we’ve achieved with Freshwave’s portable 5G private network so far. Robots have the potential to transform the agricultural sector, similar to the way equipment such as tractors did so many years ago, but they need the right networks to power this data-driven approach.
“This portable 5G private network is going to allow us to unlock exciting new applications for our customers. One day we’ll see multiple robots in the field working together on different tasks, from weed removal to nutrient-analysis to pesticide application, creating a co-bot (human and robots working together) workforce to achieve results that simply aren’t possible without harnessing technology. It’s truly a gamechanger and the future of agritech.”
Steve Maclaren, Chief Operating Officer, The National Robotarium
Tom Bennett, CTO at Freshwave, said: “We’re pleased to bring our 5G private network expertise to this project with the National Robotarium. The work the team is doing there is unbelievably cutting-edge and we’re excited to be involved in it.”
Ian Sharp, Head of Business Development at The Scotland 5G Centre, Scotland’s national centre with wide expertise on private 5G network adoption and advanced wireless connectivity, attended a demonstration of Spot on the portable 5G private network at the National Robotarium.
Ian said: “The demonstration of this robot, powered by Freshwave’s portable 5G private network, showcases the transformative potential of 5G to revolutionise agritech. It’s exciting to see how 5G can address the unique challenges of rural and remote areas, making sustainable and efficient farming more achievable.”
Freshwave’s 5G private network can be quickly deployed and the pop-up mast is self-contained and powered by a generator, so it’s completely portable. It uses n77 spectrum Freshwave secured from Ofcom. The network was deployed in a matter of days.
The 5G private network has been deployed under a Memorandum of Understanding (MOU) between the National Robotarium and Freshwave. The MOU combines the National Robotarium’s expertise in robotics and artificial intelligence with Freshwave’s success in delivering neutral host-led private networks. The MOU will see the two organisations collaborate in testing robotics on private 5G networks on an ongoing basis.
https://thenationalrobotarium.com/wp-content/uploads/Spot-ext-scaled.jpg17032560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2025-01-20 13:50:112025-01-20 14:29:27Freshwave plants portable 5G in agritech innovation at the National Robotarium
The National Robotarium is supporting the development of new artificial intelligence and control systems that could enable underwater robots to operate autonomously in turbulent seas, potentially revolutionising maintenance and repair tasks for offshore wind turbines.
The UNITE project, an EPSRC Prosperity Partnership programme led by Heriot-Watt University in collaboration with Imperial College London, is creating new artificial intelligence and control systems in partnership with geo-data specialist Fugro and Heriot-Watt University spinout Frontier Robotics, supported by the National Robotarium, the UK’s centre for robotics and AI.
“The UNITE project was co-created with Fugro to develop the next generation of autonomy-enabled robotics solutions for offshore inspection and maintenance. We are especially interested in subsea inspection and manipulation in dynamic environments where existing solutions cannot be used.”
– Yvan Petillot, Professor of Robotics at Heriot Watt University and National Robotarium academic lead
“Our trials are showing promising results in enabling underwater robots to maintain stable contact with offshore structures in challenging conditions,” said David Morrison, Project Manager at the National Robotarium. “If successful, the technology could transform offshore wind maintenance, reducing fuel consumption of maintenance missions by up to 97% – from 7,000 litres per day to just 200 litres. This could significantly lower both operational costs and the carbon footprint of maintenance.”
The project demonstrates the National Robotarium’s role in bringing together established companies and emerging innovators. Through its laboratories and testing infrastructure, the facility enables rapid development and validation of commercial solutions. The technology being developed could reduce standard data collection time from three weeks to just three hours.
“With the exponential growth of offshore infrastructure, we need to look towards deploying more AI, robots and autonomy to enable the industry to take advantage of new technologies to work even more efficiently and to scale with the global demand,” said Jonatan Scharff Willners, CEO of Frontier Robotics. “It is great to work closely with Heriot-Watt University, the National Robotarium and Fugro to tackle these highly important problems, which are key components if we want to transition to renewable energy using a greener and more sustainable supply-chain.”
Mark Bruce, Global Product Manager of Next Generation ROV Systems at Fugro, said: “Our USVs and eROV’s deliver unmatched efficiency, hugely reduced environmental impact, and most importantly they eliminate human risk offshore by removing people from harm’s way. Our remote operations centres have been operating for ten years, during which time we have refined and improved our solutions.”
The National Robotarium provides companies with access to laboratories, testing facilities, and specialised equipment, alongside support for commercialisation. Companies working at the facility can connect with researchers, access funding opportunities, and engage with the UK’s broader robotics ecosystem.
The £1.4 million Underwater Intervention for Offshore Renewable Energies (UNITE) project is led by Professor Yvan Petillot from Heriot-Watt University, with Dr. Sen Wang leading Imperial College London’s contributions, and is funded through an EPSRC Prosperity Partnership, part of UK Research and Innovation.
The National Robotarium welcomes contact from energy companies and technology providers interested in exploring the commercial applications of this technology. Email nationalrobotarium@hw.ac.uk or contact our Business Development team.
https://thenationalrobotarium.com/wp-content/uploads/Surface-vessel-and-autonomous-underwater-robot-undergoing-trials-in-Heriot-Watt-Universitys-wave-tank-facility-GoPro-stills.jpg15362048Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-10-24 00:01:272024-10-24 09:54:06National Robotarium accelerates industry development of wind farm robotics
Ameca, one of the world’s most advanced humanoids, will take to the stage for a one-on-one interview with nationally decorated author Jeanette Winterson, as part of the Edinburgh Futures Institute (EFI) official launch event.
The robot, recently installed at The National Robotarium, a world-leading centre for robotics and artificial intelligence (AI) at Heriot-Watt University, will share its thoughts on the rapid advancement of AI in society and how people’s lives, work and learning will be impacted by the development of these technologies.
Also speaking at the event, taking place 7 October, is the National Robotarium’s Head of Robotics, Dr Ingo Keller, who will join a panel discussion with Jeanette and Chair JL Williams for a deep-dive into the future of robots and how human trust and relationships robots will evolve as the technology gets increasingly more sophisticated.
‘Jeanette Winterson: In Conversation with Ameca’ kicks-off EFI’s new season of events, Learning Curves, its first since renovation work was completed on the building. It also marks the first joint event delivered by EFI and The National Robotarium, both partner hubs of the Data-Driven Innovation initiative, funded as part of the Edinburgh and South-East Scotland City Region Deal to make the region the data capital of Europe.
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