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Generative Decoding of Intracortical Neuronal Signals for Online Control of Robotic Arm to Intercept Moving Objects

Chenyang Li, Yiheng Zhang, Tianwei Wang, Xinxiu Xu, Qifan Wang, Bradley Xu, He Cui

发表年份
2020
引用次数
5

摘要

Abstract Brain-machine interfaces (BMIs) are being developed for translating neural signals to control an external device such as a robotic arm. The prevalent decoding strategy of current BMIs is the continuously conversion of neural spike trains to motor variables via a discriminative algorithm, but this typically results in un-natural and slow robotic motion. Recently, we implemented a BMI under feedforward control for interception of moving targets, though the decoding accuracy was insufficient for accurate online control. To improve the BMI performance, a generative algorithm called Latent Factor Analysis via Dynamical Systems (LFADS) [1], was applied to data pre-processing for de-noising. The results indicate potential advantages of feedforward control with generative decoding in improving BMI design.

关键词

Decoding methodsDiscriminative modelComputer scienceGenerative modelGenerative grammarArtificial intelligenceFeed forwardRobotic armNeural decodingBrain–computer interface

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