J.A.B. Fortes scite author profile

This paper introduces and demonstrates a novel brain-machine interface (BMI) architecture based on the concepts of reinforcement learning (RL), coadaptation, and shaping. RL allows the BMI control algorithm to learn to complete tasks from interactions with the environment, rather than an explicit training signal. Coadaption enables continuous, synergistic adaptation between the BMI control algorithm and BMI user working in changing environments. Shaping is designed to reduce the learning curve for BMI users attempting to control a prosthetic. Here, we present the theory and in vivo experimental paradigm to illustrate how this BMI learns to complete a reaching task using a prosthetic arm in a 3-D workspace based on the user's neuronal activity. This semisupervised learning framework does not require user movements. We quantify BMI performance in closed-loop brain control over six to ten days for three rats as a function of increasing task difficulty. All three subjects coadapted with their BMI control algorithms to control the prosthetic significantly above chance at each level of difficulty.

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From virtualized resources to virtual computing grids: the In-VIGO system

Adabala

Chadha

Chawla

et al. 2005

Future Generation Computer Systems

155

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Sky Computing

Keahey

Tsugawa

Matsunaga

et al. 2009

IEEE Internet Comput.

229

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J.A.B. Fortes

Digitization of Biodiversity Collections Reveals Biggest Data on Biodiversity

Partitioning and Mapping Algorithms into Fixed Size Systolic Arrays

Coadaptive Brain–Machine Interface via Reinforcement Learning

From virtualized resources to virtual computing grids: the In-VIGO system

Sky Computing

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