The University of Manchester opens a new Smart Robotics Campus

The University of Manchester opens a new Smart Robotics Campus

The University of Manchester is launching a new interdisciplinary specialist center to explore developments in intelligent robotics through the lens of artificial intelligence (AI) and autonomous machines.

The Manchester Center for Robotics and Artificial Intelligence It will open on the University of Manchester’s state-of-the-art Engineering and Materials Campus and will provide a venue for industry-leading research and innovation in AI-powered robotics.

The University of Manchester has built a recent reputation for excellence in artificial intelligence and robotics, building in part on a legacy of pioneering thought leadership begun in Manchester by legendary codebreaker Alan Turing.

To celebrate the opening of the new Robotics Centre, Engineering’s Manchester campus will host its first conference at the University of Manchester Wednesday 23 November. How humans and superintelligent robots live and work together will be one of the hot topics being discussed by leading experts.

The concept of “transhumanism” – a future world where humans will not be the only decision-makers with a high degree of intelligence – will be just one of the evolving themes that form part of the program for the inaugural conference.

Conference highlights will include a joint talk by Robotics expert Dr. Andy Whitman And the Theologian Dr. Scott Madson Which is expected to shed light on what human-robot relationships might look like.

Dr. WhitmanAnd the who researches home rehabilitation robots for people with a neurological disability, and Dr. Meadson, who researches theological and philosophical critiques of transhumanism, will discuss how interdisciplinary research can help address the particular challenges of rehabilitation robots — and ultimately, what it means to be. Human “in the face of the promises and challenges of human augmentation through robotic and autonomous machines.”

Other topics under discussion will include Robotics applications in harsh environments. Over the past decade, it has been a leading Manchester team, led by Professor Barry Lennox Robots have been developed to operate safely at nuclear decommissioning sites in the UK. A robot called Lyra developed by Professor Lennox’s team – and recently deployed at Dounreay in Scotland,The deepest nuclear cleanup site in the world – was included in Time Magazine’s 200 Best Innovations of 2022.

Other pioneering applications in Manchester include foldable drones to characterize underground mines or to inspect offshore wind turbines. Manchester is leading the way in designing verification technologies to ensure that we can trust these robots when operating autonomously in hazardous conditions.

Delegates will also have a chance to see a series of robots and autonomous machines being showcased at the new conference.

Angelo Cangelosi is Professor of Machine Learning and Robotics at ManchesterHe said that the university offers a world-leading position in the field of autonomous systems – a technology that will be an integral part of our future world.

Professor Cangelosi, Associate Director, Manchester Center for Robotics and Artificial IntelligenceHe said:

“We are excited to host our inaugural conference that will provide a special showcase of our diverse academic expertise designing robotics for a variety of real-world applications.

“Our research and innovation team is at the interface between robotics, autonomy and artificial intelligence – and their knowledge is drawn from all university disciplines, including the biological and medical sciences – as well as the humanities and even theology.

“This rich diversity provides Manchester with a distinctive approach to designing robotics and autonomous systems for real-world applications, especially when combined with A new use of knowledge based on artificial intelligence. “

The University of Manchester’s Center for Robotics and Artificial Intelligence aims to:

  • Design control systems with a focus on bio-inspired solutions for mechatronics, for example using biomimetic sensors, actuators and robot platforms;
  • Develop new software engineering and AI validation methodologies in autonomous systems, with the goal of designing trustworthy autonomous systems;
  • research in human-robot interaction, with a leading focus on using brain-inspired methods for robot control, learning, and interaction; And the
  • Research the ethics and issues of human-centered robotics, to understand the impact of the use of robots and autonomous systems with individuals and society.

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