Technology based on rodent neurons may point the way to the tactile internet

Technology based on rodent neurons may point the way to the tactile internet
Credit: Georgia Tech Institute for Electronics and Nanotechnology

Imagine you are playing an immersive game in which you are dropped into an unknown landscape with a directive to find a certain location. To advance forward in the game, you must also map the terrain so that you can then share your initial location and your map with another remote player. You have now been given a problem that, within the world of robotics is called SLAM. You have been asked to simultaneously localize and map an unknown environment.

Various algorithms are used to perform SLAM solving for robotics, , and VR/AR navigation, each tailored for optimization of resources. Bioinspired solutions to SLAM were proposed after research conducted on rodents exhibited hippocampal place fields, patterns of neural activity that correspond to locations in space. The place fields are activated by and the act of locomotion by the rodent as it moves about. "This corresponds with the problem of correlating odometric and range or vision sensors in a mobile robot; the problem at the heart of SLAM." Further experiments using this model allowed robotic agents to create representative maps without external input from the user.

With the ever-increasing demand for autonomous robotics to operate in the most visually ambiguous environments with the least amount of resources necessary, a team at Georgia Tech has developed the NeuroSLAM accelerator IC to support ultra-low-power visual SLAM applications in edge robotics. In the proposed IC, the SLAM algorithms are not implemented digitally; rather, the constant interactions between the , activated by the visual stimulii and responsible for solving SLAM, are emulated using the natural dynamics of a system of coupled mixed-signal oscillators. The NeuroSLAM IC is the first bio-inspired SLAM IC employing the principles of spatial cognition of rodents while considering hardware-efficient designs. Future applications of such robotics include remote/harsh search and rescue, unknown environment exploration for defense and security, enhanced autonomous vehicles, and enhanced VR and human-robot interactions.

Now imagine a future where you are playing an immersive VR game, controlling a tactilely sensitive robot to explore a unknown landscape. To advance to that point in the , we may need to look to rat neurons and NeuroSLAM architectures.


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More information: RatSLAM: a hippocampal model for simultaneous localization and mapping: ieeexplore.ieee.org/document/1307183
Citation: Technology based on rodent neurons may point the way to the tactile internet (2021, February 15) retrieved 24 June 2021 from https://techxplore.com/news/2021-02-technology-based-rodent-neurons-tactile.html
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