At The National Robotarium, inspiring the next generation of robotics talent is at the heart of what we do. That’s why we’re proud to support Thistle Robotics as they attempt to raise money to travel to the VEX Robotics 2026 World Championship in St. Louis, Missouri in April.
Their story: Thistle Robotics, made-up of S5 and S6 students from James Gillespie’s High School in Edinburgh, have spent the past seven months designing, building, and programming a competition robot. Sacrificing their own time, after school and at weekends, their hard work led to them winning the regionals held at the followed by the ‘Think Award’ for programming and software design at the UK National Finals.
“Their place at the competition is lost if they cannot raise the funds necessary. This is their opportunity to showcase what is possible here in Scotland and we don’t want funding to be the reason Scotland doesn’t make it to the world stage.”
Blair Wilson, Schools and Engagement Lead
As the only Scottish state high school to qualify for the World Finals, the world’s largest – with over 20,000 teams from 50+ countries – they are seeking support to help with fees, transport and travel to the US.
Blair Wilson, Schools and Engagement Lead, has supported the team throughout their robotics journey, providing access to kits and expertise to allow them to hone their skills.
He said: “James Gillespie’s are the only Scottish government funded high school to make it to this year’s VEX Robotics World Championship. Winning one of the few judged awards and proving their programming skills were the best in the UK at their age level.
“Making it to the UK finals was a huge achievement already, and this is the 2nd consecutive year the team have done that. But they still need your help. Getting eight students and their robot from Edinburgh to St. Louis costs around £20,000, and while they’ve already raised over £5k, there’s still a long way to go before April. Their place at the competition is lost if they cannot raise the funds necessary.
“For several of these students, this is their final year of school. This is their opportunity to showcase what is possible here in Scotland and we don’t want funding to be the reason Scotland doesn’t make it to the world stage.”
If you’d like to help them achieve their dreams, you can donate to their GoFundMe page at: https://www.gofundme.com/f/send-thistle-robotics-to-the-vex-robotics-world-championship or scan the QR code below.
https://thenationalrobotarium.com/wp-content/uploads/Image-27-scaled.jpeg19202560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2026-03-25 15:23:592026-03-25 15:23:59Help get Thistle Robotics to the VEX World Championships!
To mark National Engineering Day (13 November 2024), we have been speaking to our Robotics Engineers about their career paths, engineering role models and what a typical day is like at the National Robotarium…
Hsing-Yu Chen
Who’s your engineering role model?
One of my key role models in engineering is Morris Chang, the founder of Taiwan Semiconductor Manufacturing Company (TSMC). His technical expertise, leadership and vision have revolutionised the semiconductor industry and made a huge impact on global technology innovation. His emphasis on long-term thinking, collaboration, and focus on excellence in manufacturing processes continues to inspire me in my own work.
What in your mind is an example of good engineering?
An example of engineering that truly inspires me is the development of reusable rockets. This breakthrough in space technology shows us the power of dreaming big and pushing the boundaries of what’s possible. The ability to reuse rockets—once thought to be impossible—has the potential to completely reshape the aerospace industry, opening up new possibilities for space travel and exploration.”
What is typical day like as a Robotics Engineer?
A typical day for a robotics engineer begins with problem-solving, addressing challenges and issues related to the robots they are developing. This entails brainstorming innovative solutions to optimize robot performance, troubleshooting both hardware and software components, conducting experiments to validate the robots’ functionality, and delving into data analysis. Given the collaborative nature of their work, engineers often engage in ongoing communication with team members and clients.
What skills are required to be a good engineer?
Beyond technical proficiency, being a good engineer relies on essential problem-solving and critical thinking skills, enabling the identification and resolution of intricate engineering challenges. Equally critical is a commitment to continuous learning and stay attuned with this rapidly evolving field, ensuring that engineers can adapt to new technologies and innovate effectively.
How does engineering improve people’s lives?
Robotics engineering plays a pivotal role in enhancing people’s lives in numerous ways. For instance, the creation of surgical robots and prosthetic limbs improves the quality of medical treatments and enhances the lives of patients. Autonomous vehicles not only increase transportation efficiency but also enhance road safety. Assistive robots simplify daily tasks, making life more convenient and accessible for individuals. These advancements underscore the transformative impact of robotics engineering on our daily existence and overall well-being.
How can engineering help us live and/or work more sustainably?
Robotic engineering offers substantial potential to enhance sustainable living and working in various domains. This can be achieved by automating industrial processes to boost efficiency, optimising resource utilisation to reduce consumption and lower carbon emissions, improving recycling rates through precise sorting, and monitoring environmental changes. These technologies have the potential to create a more environmentally friendly and resilient world.
Hari Lakshman
Who are your engineering role models?
The reason I pursued an engineering career was after watching an animated video about Nikola Tesla’s life. Reading about his work, dedication, and passion to keep inventing things inspired me to follow in his footsteps. Another inspiration in my life is Henry Ford, who taught me so much about tech business, optimisation, and efficiency.”
Can you give an example of good engineering that inspires you?
The pyramids are the first engineering marvel that blew my mind; it’s exhausting even to imagine the methods ancient people might have used to build such a magnificent structure. Another marvel is the Chandra X-ray Observatory, which enables scientists to collect data and images for space research. This incredible piece of engineering has revolutionised space science research.”
What does the role of Robotics Engineer involve?
Robotics engineers involve themselves in various fields of engineering. It is always a big learning curve, sometimes building robots feels like creating a human child. We have knowledge in coding, software development, and designing prototypes, which involves an extensive understanding of mechanical engineering, electrical engineering, and control systems. We try and implement cutting-edge machine learning and AI algorithms to make the robot more intelligent and more efficient. For me, I’m still learning lots and lots to become a fine-tuned robotics engineer.
What skills are required to be a good engineer?
Robotics engineers should have skills such as critical thinking and design thinking, programming, active learning, teamwork, safety skills and leadership qualities.
How does engineering improve people’s lives?
Engineering helps to improve people’s lives in every possible way: economically, and ethically, it helps to improve quality of life, solve societal problems, fight against climate change and more. At the National Robotarium, we use our engineering skills to build robots that can help people with physically or mentally challenging tasks, and improve efficiency and cost-effectiveness.
Ronnie Smith
What is typical day like as a Robotics Engineer?
What you spend most of your time on day to day depends on your own role within the team. Some engineers can spend most of their day at a computer doing design or programming, while others might do largely hands on work building, extending, debugging, and maintaining robots. Since we tend to work on multiple projects at once, most days start by figuring out what to prioritise. For me, a typical day might involve some proposal writing, development work, project team meetings, and monitoring/debugging some of the robots we are testing as part of ongoing projects.
What skills are required to be a good engineer?
Since robotics is such an inter-disciplinary field, I think there is no fixed set of skills to be a robotics engineer. I think a good robotics isn’t necessarily someone who is an expert in all aspects of robotics, but rather someone who has their own strengths in a few core areas and who is interested in learning about the whole robotic system to the point where they can understand how everything fits together. This applies to myself, as I come from mainly a software background, but am keen to use my time at the National Robotarium to learn and become a more “rounded” robotics engineer.
How does engineering improve people’s lives?
Most of the time, when engineers are working on a problem it is in the name of improving our comfort, efficiency, safety, or our general quality of life. Robotics is a field which has the potential to touch on all of these aspects. In my previous role as a PhD student, we worked on assistive robotics and technology for older adults. Through user engagement we worked to understand the ways in which collaborative robotics can enable individuals to live in their own home for longer by automating aspects of daily tasks that might otherwise be impossible to complete alone.
How can engineering help us live and/or work more sustainably?
One of the main ways that robots can aid with sustainability is by being more efficient than the solutions that came before. What is meant by efficiency will of course differ across domains, but for example in manufacturing this might mean process efficiency which increases hourly output for the same or less energy. On the other hand, in agriculture it could be that increased precision in turn leads to increased efficiency, e.g., more accurate and targeted spraying of crops conserves resources.
Can you give an example of good engineering that inspires you?
I would look to the semiconductor industry and the advancement of the transistor-based processor over the past several decades as an example of inspiring engineering. Computers today are using billions of tiny transistors, manufactured at nanometre scale, to perform trillions of mathematical operations every second. This achievement has relied on back-to-back advancements and innovation across materials science, lithography, quantum physics, and of course computer and electronics engineers. To me, this is a shining example of human ingenuity and our ability to work together on a large scale to create technology that is so pervasive and seamless that we are able to take it for granted.
Rahul Ramachandran
Who are your engineering role models?
The Wright brothers and Dr. A.P.J. Abdul Kalam are two of my biggest role models. The Wright brothers’ achievement in creating the first successful powered airplane inspires me with their relentless pursuit of innovation and their ability to overcome doubt and failure. Similarly, Dr. Kalam’s perseverance and contributions to ISRO, especially his leadership in missions like India’s Mars Orbiter Mission, remind me of the importance of vision and hard work in achieving groundbreaking results. Both have shown me that with determination and passion, it’s possible to change the course of history.
Can you give an example of good engineering that inspires you?
One piece of engineering that really inspires me is the Moog synthesizer. What I love about it is how it simplified the complex technology of earlier electronic instruments, making it easier for musicians to use. The design is so elegant, and the way it combines innovation with simplicity was groundbreaking at the time. The Moog didn’t just change the way music was made; it made a complex tool feel accessible, showing how thoughtful design can open up new possibilities and spark creativity in unexpected ways.
What does the role of Robotics Engineer involve?
Robotics is an interdisciplinary field and because of that robotics engineer’s role depends on one’s engineering background, be it mechanical, electrical, computer science, sociology or applied physics. For example, a robotics engineer with a degree in Mechanical Engineering would work on the design and modelling of robot mechanics, whereas one with a background in electrical and electronics engineering would develop the robot’s battery management system and its sensors and actuators.
What skills are required to be a good engineer?
I believe that to be a good engineer, you must be able to understand the need for an engineering solution to any given problem. It’s not the “what” and “how” but the “why” that comes first.
Be curious, take inspiration from nature and question EVERYTHING! Analytical thinking is very important as is the ability to communicate effectively in a collaborative environment. It is helpful to have an engineering degree, but it is not always necessary if you have the proper knowledge and practical skills.”
How does engineering improve people’s lives?
We live in a world where everything we see has been engineered for us to live a better life, especially in today’s modern digital world, where everything is data-driven. We now have self-driving cars and text-to-speech solutions such as Okay Google, Alexa and Siri which enable us to make calls and play songs using voice commands.
At the National Robotarium, we are developing solutions such as unmanned underwater robots to undertake the inspection of offshore turbines, which is currently being done by deep-sea scuba divers. We are also improving the quality of life for many people doing repetitive tasks in factories by developing solutions for factory automation, which will enable people to safely undertake less repetitive and more skilled tasks side-by-side with robots.
The National Robotarium has partnered with Highland and Islands Enterprise for a TechHUB webinar exploring how can benefit the food and drink, and agricultural sectors. 🥔 🍊 🚜
Join the FREE webinar on Mon 16 Sept and learn:
✅ The robots currently being used across the sectors;
✅ Automation vs. Robotics – what works best?
✅ Ways to assess your robotics-readiness;
✅How the National Robotarium can support your journey into robotics;
With the backing of funding from the Engineering and Physical Sciences Research Council (EPSRC), UKRAS-STEP will strengthen the UK’s Robotics and Autonomous Systems capabilities, improve the long-term career prospects of Research Technical Professionals (RTPs) and create stronger links between academia, industry and government.
Through a consortium of 37 universities within the existing UKRAS network, the project, led by University of Leeds Professor of Robotics, Robert Richardson, will deliver a programme of education across eight themes, designed to support the diverse range of technical expertise that currently supports world-class robotics research.
“Research technicians are the backbone of world-leading research into Robotics and Autonomous Systems, providing a wealth of technical expertise and operational support…”
– Steve Maclaren, Chief Operating Officer at the National Robotarium
Professor Richardson said: “Research Technicians in Robotics and Autonomous Systems play a pivotal role in advancing robotics research across various industry sectors in the UK, spanning from transport and healthcare to manufacturing and unmanned systems.
“Despite their amazing contribution, career growth opportunities are limited and as a result, some areas experience high staff turnover. UKRAS STEPS will establish a dedicated platform to address these challenges by facilitating the development of secondments, training programmes and mentorship schemes.
COO Steve Maclaren and Senior Technician Thomas McGravie
The National Robotarium will lead in formation of a number of task groups, each focused on addressing a particular challenge within the technical research sector. Through an open call, HEIs from the UK-RAS network will work together to deliver tasks ranging from small projects and producing training materials to holding national workshops and influencing policy through white papers.
“The UKRAS-STEP initiative will enable me and other technical research colleagues working in robotics across the UK to connect, share knowledge and best practice.”
– Thomas McGravie, Senior Technician at the National Robotarium
Chief Operating Officer at the National Robotarium Steve Maclaren will lead on the Task Groups work package. He said: “We are thrilled to be a part of the UKRAS-STEP programme and work with the RAS community to help advance training and opportunities for technical research staff.
“Research technicians are the backbone of world-leading research into Robotics and Autonomous Systems, providing a wealth of technical expertise and operational support that enable scientists to conduct research safely and effectively in an optimum research environment.
“Without them, we would be unable to maintain and manage essential research components such as robotic equipment, lab space, computer systems and software, so it is vital that our community of technical research professionals feel valued with opportunities to develop and grow.”
Thomas McGravie has been Senior Technician for Heriot-Watt University at the National Robotarium since it opened in September 2022. He said: “The UKRAS-STEP initiative will enable me and other technical research colleagues working in robotics across the UK to connect, share knowledge and best practice, and build upon our individual and collective skills.
“I’m excited to see the proposal come to life and look forward working more closely with the wider RTP community.”
About UKRAS-STEP
The UK Robotics and Autonomous Systems Strategic Technical Platform (UKRAS-STEP), led by University of Leeds, is one of 11 new projects benefitting from a share of a new £16 million investment by EPSRC and UKRI Digital Research Infrastructure (DRI) to improve the long-term career prospects of Research Technical Professionals (RTPs).
UKRAS-STEP will create a community-driven strategic technology platform that empowers individuals to develop, while building an inclusive community to enhance the UK research environment and support the delivery of world-class research in the UK.
Its three main objectives are:
i) To enhance individual technical knowledge, skills and career development amongst research technicians;
ii) Provide opportunities for networking, knowledge-sharing, community-driven activities, celebrating and promotion success, international collaboration and national advocacy;
iii) Deliver a flagship programme that is inclusive, ethical and sustainable.
https://thenationalrobotarium.com/wp-content/uploads/1000002836.jpg17342312Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-03-18 11:04:362024-08-23 10:51:06The National Robotarium to support robotics technician development across UK
The National Robotarium is continuing its successful outreach and engagement work through its prominent support of the VEX IQ Robotics competition, an international contest sponsored by global tech heavyweights, including Tesla and Microsoft, to encourage budding roboticists to design and create their own innovative robot.
As host venue for the first event regional heats in Scotland since 2019, the UK’s leading centre for Robotics and AI welcomed 13 teams from 10 high schools to take part in an intensive battle, during which teams had to engineer innovative robotic solutions with a basic kit of components.
Teams from primary schools James Gillespie and Strichen were the overall winners and relative newcomers First Step Robotics, a community interest group from Livingston, also dazzled the judges to win the prestigious Amaze Award, which recognised their submission as the most outstanding, well-rounded, and best performing robot in the competition.
The winning teams will now take on other regional winners in the UK finals event taking place in Telford on 1-2 March. Over the two days, the finalists’ robots will be judged based on criteria including design, build, sportsmanship, and innovation, with the Tournament Champions securing a place at the ‘largest robotics competition in the world’ final in Dallas.
Blair Wilson, lead for Engagement at the National Robotarium will be attending the event with support from robot dog Spot. He’ll also be judging one of the categories. He said: “I am thrilled to join-up with VEX Robotics to support young people in Scotland in developing their robotics engineering skills.
“The National Robotarium is passionate about inspiring the next generation to become the roboticists of the future, empowering them to learn an entire range of STEM skills including maths, programming, computer science and engineering.
Blair Wilson, Engagement Lead at the National Robotarium
“That’s why we were so excited to host the Scottish heats and help provide the robotics kits to the teams to enable them to realise their vision.
“I’ll be at the finals to cheer on all our Scottish regional qualifiers as well as all the amazing UK teams that are taking part.”
WATCH the stream of the VEX Robotics Competition UK National Championships using this link, live from 0900 on Friday 1 March.
Robotics and automation are already helping to reduce risk to humans and increase productivity on building sites, writes Pete Felton, Business Development Executive at the National Robotarium.
FROM its early use on films such as Rocky, Marathon Man, and The Shining through to its modern appearances at the side of football matches and other sporting clashes, the Steadicam has revolutionised the life of camera operators, removing much of the strain of manoeuvring heavy equipment from their shoulders and arms. Soon, construction workers should be benefiting from similar assisted technology too.
In the same way that the Steadicam rig helps camera operators by spreading the weight of cameras, batteries, and monitors throughout their core, engineers are developing systems to aid construction workers in handling heavy tools. Rather than putting the pressure on workers’ shoulders or arms, these robotic structures should help to spread the load, cutting down on the number of potential workplace injuries.
Other robotic systems are already making a difference on construction sites. Hilti’s Jaibot semi-autonomous drilling robot is harnessing data from building information modelling (BIM) systems to carry out mechanical, electrical, and plumbing (MEP) installation tasks such as overhead drilling, both improving productivity and reducing the strain on human workers.
Helping to narrow the skills gap
That focus on health and safety is one of the key areas in which robotics and automation can help to take people away from dangerous and dirty jobs, helping to improve the quality of life for everyone. Robots and people can work side by side in safety.
This isn’t about robots taking people’s jobs – there’s a massive skills shortage in the construction industry and so if we can take workers away from mundane and repetitive jobs and use robots instead then those workers can be retrained to carry out more skilled tasks, adding greater value to projects and giving them more job satisfaction.
Brick-laying machines don’t work well because people are better suited to that type of skilled work. But, in the pre-construction phase, robots could be assembling panels and other prefabricated materials, freeing up people to do tasks on site that require finer skills – such as sealing, plumbing, or installing electrics – which are much harder for robots.
Pete Felton, Business Development Executive at the National Robotarium
Harnessing the power of digital twins
Here at The National Robotarium, we know that it’s no good talking the talk if we don’t walk the walk as well. That’s why we used a Spot robot – built by Boston Dynamics and kitted out with sensors by our team – to inspect our building site at night when construction was underway on our flagship facility.
This type of simultaneous localisation and mapping work is going to become even more important when stricter building regulations are introduced throughout the UK. Robots can help to gather the data that will be needed to prove that construction projects comply with environmental regulations – if robots don’t carry out this type of work then construction companies will need to employ people, at significant expense, to carry out mundane tasks such as checking sealant and auditing insulation.
Ultimately, using robots to gather data will enable the creation of digital twins while office blocks and industrial projects are being constructed, creating an accurate record of where each wire, cable, pipe, and duct is situated. Those digital twins can then be passed on by the builder to the facilities manager, making the maintenance of properties much easier and creating a digital link all the way through from the architect to the maintenance staff.
Widening opportunities for export success
As well as improving conditions for workers and increasing productivity in the UK, the greater use of robotics and automation could also generate an economic boost for Britain through exports too. If British construction companies harness the power of robots then the technologies they create and the expertise they develop could be exported to markets throughout the world.
The building boom across the Gulf States and the wider Middle East is set to be eclipsed by the growth of the affluent middle classes in India, with the ensuing need for buildings that rapid urbanisation will bring. Such growth can only be achieved in an environmentally sustainable way if robotics and automation are harnessed throughout the construction process, from prefabrication through to retrofitting of existing buildings to make sure they keep dwellers cool in the summer and warm in the winter.
BIM and automation go hand-in-hand when it comes to energy efficiency, both for cooling systems and heating systems, making sure that buildings consume as little power as possible. If we get these factors correct in the UK then we can export that expertise around the world.
Health and safety and digital twinning are just two of the exciting areas in which robots can make a difference to building projects, but our engineers are always looking to work with staff at the sharp end of the construction industry to come up with new ideas – that’s why the doors at The National Robotarium are always open for collaborations.
This article was originally published in BIM Plus magazine on 11 January 2024.
https://thenationalrobotarium.com/wp-content/uploads/AdobeStock_220539261-scaled.jpeg17072560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2024-01-22 16:23:192024-01-22 16:24:25How robots are taking BIM to the next level
The Centre has been training innovation-ready postgraduates since 2014, equipping graduates with the technical skills and industry awareness to create an innovation pipeline to global markets. Application areas include manufacturing, assistive and medical robots, offshore energy, environmental monitoring, search and rescue, defence, and support for the ageing population. Many of these research themes are the foundation for the testing and development of robotic solutions in the National Robotarium’s high-spec labs.
The 4-year PhD studentships are fully-funded for all nationalities and provide a maintenance stipend at the research council rate (£16,062pa for 2022/23) and home tuition fees (£4596 for 2022/23).
How to apply
Applicants are invited to submit a proposal on one of the CDT-RAS’s main research themes and include 2-3 other research themes of interest.
Themes include:
Human-Robot Interaction:
NLP (Neuro-linguistic programming);
Machine Learning and AI;
Robot Design and Soft Robotics;
Verification and Security;
These should be submitted, along with additional documentation, via the Heriot-Watt application portal no later than Monday 16 January 2023.
https://thenationalrobotarium.com/wp-content/uploads/The-National-Robotarium-Grand-Opening-17-scaled.jpg17042560Louise Jackhttp://thenationalrobotarium.com/wp-content/uploads/Robotarium.pngLouise Jack2022-11-18 14:50:502023-09-27 17:19:49Interested in a research career in robotics and AI?
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