QUT selected by Intel for an advanced robotics project

QUT selected by Intel for an advanced robotics project

QUT selected by Intel for an advanced robotics project

Queensland University of Technology (QUT) Robotics Center researchers Dr Tobias Fischer, Professor Michael Milford and PhD student Somayeh Hussaini have received a grant from Intel’s Neuromorphic Computing Laboratory for their project which will use the Intel’s Loihi 2 neuromorphic research chip.

Neuromorphic computing is based on the principles of biological neural computing and uses novel algorithmic approaches that emulate how the human brain interacts with the world to provide capabilities closer to human cognition.

The chip uses Spike Neural Networks (SNNs), which are new computer models that closely resemble neurons in our brains and simulate natural learning by dynamically remapping neural networks, to make decisions in response to learned patterns. over time.

“Simultaneous localization and mapping (SLAM) algorithms are at the heart of autonomous mobile vehicles deployed in unfamiliar, GPS-lacking, or dynamic environments,” Fischer said.

“Our project will focus on visual location recognition, a particularly challenging part of SLAM that requires robust recognition and discrimination of hundreds of thousands of locations under different conditions.

“This will include ‘slow’ adaptation (urban vs. rural or day vs. night) as well as ‘fast’ adaptation (sudden onset of rain, entering tunnels). Continuous adaptation is very difficult because it is impossible to cover all the variations of the environment in the training data,” he said.

Professor Michael Milford, co-director of the QUT Center of Robotics, said that to overcome this challenge, the QUT research team at the School of Electrical Engineering and Robotics took inspiration from the animal kingdom.

“Many animals display remarkable navigational abilities, solving large-scale memory formation and recognition problems with unprecedented efficiency, flexibility, and robustness,” Milford said.

“Intel’s new Loihi-2 features enable more complex neural models, putting it in a good position to implement the next generation of biologically-inspired map-forming and navigation algorithms that could outperform the current state of the art in the field.”

The QUT research project team worked closely with Intel to design algorithms. Collaborative partners include Intel Labs researchers Dr. Yulia Sandamirskaya and Dr. Garrick Orchard, as well as Software and Algorithm Manager Dr. Andreas Wild.

“Neuromorphic computing opens up exciting new possibilities in computing, especially in robotics,” said Mike Davies, director of Intel’s Neuromorphic Computing Lab.

“Loihi 2 dramatically improves the speed, programmability and capability of neuromorphic computing, enabling it to support more challenging optimization problems.

“We look forward to seeing how QUT researchers use Loihi 2 to address issues around continuous adaptability and expand the reach of today’s robots.

Image credit: iStock.com/DKosig

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