Experimental demonstration of adaptive model selection based on reinforcement learning in photonic reservoir computing

IF 0.5 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS IEICE Nonlinear Theory and Its Applications Pub Date : 2022-01-01 DOI:10.1587/nolta.13.123
Ryohei Mito, Kazutaka Kanno, M. Naruse, A. Uchida
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Abstract

: Reservoir computing provides superior information processing ability for a time series prediction based on appropriate learning prior to task execution. The performance of reservoir computing, however, may degrade if the characteristics of the input signal drastically change over time because the internal model of reservoir computing deviates from the subjected input signal trains. We propose a method for adaptive model selection using reinforcement learning in electro-optic delay-based reservoir computing. We experimentally show that an adaptive model selection is effective when different dynamical models for the input signals change dynamically over time.
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基于强化学习的自适应模型选择在光子库计算中的实验证明
:基于任务执行前的适当学习,油藏计算为时间序列预测提供了优越的信息处理能力。然而,如果输入信号的特征随着时间的推移而急剧变化,由于油藏计算的内部模型偏离了受影响的输入信号序列,油藏计算的性能可能会下降。提出了一种基于电光延迟油藏计算的强化学习自适应模型选择方法。实验表明,当输入信号的不同动态模型随时间动态变化时,自适应模型选择是有效的。
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来源期刊
IEICE Nonlinear Theory and Its Applications
IEICE Nonlinear Theory and Its Applications MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
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20.00%
发文量
67
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