عنوان مقاله فارسی: یادگیری تقویتی هسته ای توجه برای رمزگشایی رابط بین ماشین و مغز

عنوان مقاله لاتین: Quantized Attention-Gated Kernel Reinforcement Learning for Brain–Machine Interface Decoding

نویسندگان: Fang Wang;Yiwen Wang;Kai Xu;Hongbao Li;Yuxi Liao;Qiaosheng Zhang;Shaomin Zhang;Xiaoxiang Zheng;José C. Principe

تعداد صفحات:

سال انتشار: 2017

زبان: لاتین

Abstract:

Reinforcement learning (RL)-based decoders in brain-machine interfaces (BMIs) interpret dynamic neural activity without patients' real limb movements. In conventional RL, the goal state is selected by the user or defined by the physics of the problem, and the decoder finds an optimal policy essentially by assigning credit over time, which is normally very time-consuming. However, BMI tasks require finding a good policy in very few trials, which impose a limit on the complexity of the tasks that can be learned before the animal quits. Therefore, this paper explores the possibility of letting the agent infer potential goals through actions over space with multiple objects, using the instantaneous reward to assign credit spatially. A previous method, attention-gated RL employs a multilayer perceptron trained with backpropagation, but it is prone to local minima entrapment. We propose a quantized attention-gated kernel RL (QAGKRL) to avoid the local minima adaptation in spatial credit assignment and sparsify the network topology. The experimental results show that the QAGKRL achieves higher successful rates and more stable performance, indicating its powerful decoding ability for more sophisticated BMI tasks as required in clinical applications.