People centred; technology driven

This world-leading research and development facility will translate cutting-edge research into technologies to create disruptive innovation in an expanding global market, delivering sustainable economic benefit to Edinburgh, the UK and beyond. 

As global leaders in robotics and autonomous systems, Heriot-Watt University and the University of Edinburgh are delivering Data-Driven Innovation as part of the Edinburgh and South East Scotland City Region Deal. 

Opening on our Edinburgh Campus in 2021, the purpose-built centre will have unrivalled facilities, adding to our laboratories in Ocean Systems, Human Robotic Interaction and Assisted Living, to explore collaborative interaction between humans, robots and their environments.

How do we do this?

The National Robotarium will leverage existing research and the expertise of UK industry with the significant market opportunity of robotics and autonomous systems.

Building capacity across complementary areas of embedded intelligence and expert systems, the National Robotarium will link to other UK and international research locations to attract further inward investment.

With a strong focus on entrepreneurship and job creation, the National Robotarium will offer an ecosystem for industry collaboration where humans and robots work in partnership.

Read more about: Data Driven Innovation, the ORCA Hub and Edinburgh Centre for Robotics

The National Robotarium

Unrivalled facilities and world-leading expertise in robotics, artifical intelligence and autonomous systems.

Robotics - Interviews

Professors David Lane, Helen Hastie and Oliver Lemon introduce the range of Robotics research activity at Heriot-Watt. 

Teaching machines to talk

Professor Verena Rieser introduces our research into smart assistants where we’re exploring a different model and asking can machines "teach themselves" how to talk?

Transcript

Professor Rieser: Whether it's Google Home, Amazon Alexa, Siri or Bixby, many of us now have 'smart assistants' in our home but we often don't use them beyond setting kitchen timers.

The machines you’ve had experience with were most likely built using a vast set of complex rules -- hand-written by a large workforce of software engineers. In our research at Heriot-Watt, we’re exploring a different model - and asking the question: Can machines "teach themselves" how to have a conversation?

We're looking at a method called 'machine learning' in order to teach machines to have a conversation just by looking at human examples meaning that machines could potentially learn to talk about anything from jointly solving a specific task to having a social chat.

This can be useful in many different contexts, from healthcare to entertainment and education.

Meaning that soon they could be for more than just weather forecasts and setting kitchen timers.

Robots and autism

Dr Thusha Rajendran talks about harnessing the power of robots and artificial intelligence to help people with autism today, to help millions tomorrow.

Transcript

Dr Thusha Rajendran: Robots and artificial intelligence are a part of our future. So harnessing their powers to help people with autism all over the world today, will help millions tomorrow.

In the UK, only sixteen percent of adults with an autism spectrum disorder are in full-time employment but our research shows that with the right training, many more could fulfill their potential…helping them, their families and society.

So, how can robots help those with autism in the work place?

Our research at Heriot-Watt will help, through our pioneering use of a Flash Robot that can produce human-like emotions.

The aim is to help those with autism better understand the expressions of others, aiding them in the work place when interacting with co-workers and boosting their confidence at the same time.

The Flash Robot can also help employers understand how they may need to change their workplace practices to help employees with autism.

We want to ensure that today’s technology can be used to make a difference tomorrow and by helping those who truly need it, our research can effect significant change.

Talking tech

Professor Oilver Lemon talks about developing technology that machines can understand to generate human language and join us in conversations.

Transcript

Professor Lemon: OK Google… Hey Siri… Alexa - let's chat…

Voice interactive systems are all around us – at home, at work or even on your wrist.

At Heriot-Watt’s Interaction Lab, we’re developing technology that machines can understand to help them generate human language and join us in conversations.

Why are we doing this? Well, spoken conversation is the most efficient, natural, and enjoyable method of communication that we have. Allowing computers to speak with us naturally and easily will open up more devices and services to more people.

Our research is developing the technology that can make such human-level communication skills a reality - for future systems that will cooperate intelligently with us.

In fact, our AI system is currently leading the 2018 Amazon Alexa Challenge, an international contest to develop a socially intelligent conversational AI for the Amazon Echo platform.

Our Interaction Lab is one of the few places in the world that has pioneered the use of machine learning methods, meaning our research could help everyone – from people with disabilities to surgeons, drivers and cooks – to perform difficult tasks hands free, making even the most complicated things accessible and achievable in every-day life.

Manufacturing with lasers

Professor Duncan Hand explains how at Heriot-Watt we are developing new laser processes to solve a range of manufacturing problems.

Transcript

Professor Duncan Hand: When you think of lasers, you probably think of pretty coloured beams of light at a laser light show, or a laser pointer used in a presentation.  

However the laser is increasingly used as a highly controllable tool in manufacturing – for instance about 30 different laser processes are used to manufacture a smart phone, from cutting the screen to drilling holes in the circuit boards – and without these processes such complex devices would be impossible to make.  

The reason why lasers are so useful is that they can deposit high energy exactly where you want and exactly when you want, for example in a pulse into an area of one thousandth of a mm across and lasting less than a billionth of a second.  This gives fantastic control for modifying or removing really any material.

At Heriot-Watt we’re developing new laser processes to solve a range of manufacturing problems from tailoring the frictional properties of surfaces to be used in engines of large container ships to the manufacture of miniature robotic actuators for minimally invasive surgery so we can constantly find ways of using lasers to improve industries across the world.

Robots and humans working together

Professor Helen Hastie focuses on techniques that allow humans to work effectively in a team with robots and autonomous systems. 

Transcript

Professor Helen Hastie: We live in a world where robots are becoming more reliable and able to help humans in ways never previously thought possible.

In our research at Heriot-Watt, we’re working on techniques that allow humans to work effectively in a team with robots and autonomous systems. We’re researching how robots could be safely used in hazardous or difficult-to-reach environments, such as on offshore wind farms or deep underwater.

Through initiatives such as the ORCA Hub, we’re developing techniques that allow the operator and robot to work towards a common goal, whilst at the same time keeping the human out of harm's way.

So why is this so difficult? 

Well, the problem mostly comes down to lack of communication so we’re looking at ways that the robot can explain what their doing and why, in natural language, and we think that this will enable a trusting relationship to evolve between the robot and the human.

Establishing these relationships will mean that we're more likely adopt robots to do these dangerous jobs and will result in less risk to life.
 

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