Aspects of hyperdimensional computing for robotics: transfer learning, cloning, extraneous sensors, and network topology

Nathan McDonald; Richard Davis; Lisa Loomis; Johan Kopra

doi:10.1117/12.2585772

12 April 2021 Aspects of hyperdimensional computing for robotics: transfer learning, cloning, extraneous sensors, and network topology

Nathan McDonald, Richard Davis, Lisa Loomis, Johan Kopra

Author Affiliations +

Proceedings Volume 11751, Disruptive Technologies in Information Sciences V; 117510C (2021) https://doi.org/10.1117/12.2585772
Event: SPIE Defense + Commercial Sensing, 2021, Online Only

Abstract

Hyperdimensional computing (HDC) is a type of machine learning algorithm but is not based on the ubiquitous artificial neural network (ANN) paradigm. Instead of neurons and synapses, HDC implements online learning via very large vectors manipulated to represent correlations among the various vectors, measured by a similarity metric. Yet this approach readily affords one-shot learning, transfer learning, and native error correction, which are standing challenges for traditional ANNs. Further, implementations using binary vectors {0,1} are particularly attractive for size, weight, and power (SWaP) constrained systems, particularly disposable robotics. The paper is the first to identify and formalize a method to completely clone trained hyperdimensional behavior vectors. Using shift maps, d-1 unique clones can be made from a parent vector of length d. Additionally, expeditionary robots with extraneous sensors were trained via HDC to solve a maze even when up to 75% of the sensors fed irrelevant data to the robot. Lastly, we demonstrated the resiliency of this encoding method to random bit flips and how different network topologies contribute to dynamic reprogramming of HDC robots. HDC is presented here though not to replace ANNs but to encourage integration of these complementary ML paradigms.

Conference Presentation

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Nathan McDonald, Richard Davis, Lisa Loomis, and Johan Kopra "Aspects of hyperdimensional computing for robotics: transfer learning, cloning, extraneous sensors, and network topology", Proc. SPIE 11751, Disruptive Technologies in Information Sciences V, 117510C (12 April 2021); https://doi.org/10.1117/12.2585772

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