研究者業績

Teijiro Isokawa

  (礒川 悌次郎)

Profile Information

Affiliation
Associate Professor, Graduate School, of Engineering, Division of Computer Engineering, University of Hyogo
Degree
Doctor of Engineering

J-GLOBAL ID
200901099615439120
researchmap Member ID
1000311122

External link

Education

 3

Papers

 208
  • Sihai Yu, Jia Lee, Teijiro Isokawa, Qianfei Mao
    Natural Computing, Oct 21, 2024  Peer-reviewed
  • Shuichi Inoue, Sou Nobukawa, Haruhiko Nishimura, Eiji Watanabe, Teijiro Isokawa
    Frontiers in Artificial Intelligence, 7, Jul 16, 2024  
    Introduction The deep echo state network (Deep-ESN) architecture, which comprises a multi-layered reservoir layer, exhibits superior performance compared to conventional echo state networks (ESNs) owing to the divergent layer-specific time-scale responses in the Deep-ESN. Although researchers have attempted to use experimental trial-and-error grid searches and Bayesian optimization methods to adjust the hyperparameters, suitable guidelines for setting hyperparameters to adjust the time scale of the dynamics in each layer from the perspective of dynamical characteristics have not been established. In this context, we hypothesized that evaluating the dependence of the multi-time-scale dynamical response on the leaking rate as a typical hyperparameter of the time scale in each neuron would help to achieve a guideline for optimizing the hyperparameters of the Deep-ESN. Method First, we set several leaking rates for each layer of the Deep-ESN and performed multi-scale entropy (MSCE) analysis to analyze the impact of the leaking rate on the dynamics in each layer. Second, we performed layer-by-layer cross-correlation analysis between adjacent layers to elucidate the structural mechanisms to enhance the performance. Results As a result, an optimum task-specific leaking rate value for producing layer-specific multi-time-scale responses and a queue structure with layer-to-layer signal transmission delays for retaining past applied input enhance the Deep-ESN prediction performance. Discussion These findings can help to establish ideal design guidelines for setting the hyperparameters of Deep-ESNs.
  • Goichi Narita, Teijiro Isokawa, Hikaru Nomura, Hitoshi Kubota, Tomohiro Taniguchi, Naotake Kamiura
    Book of Abstracts of 25th International Colloquium on Magnetic Films and Surfaces (ICMFS2024), MA7, Jul 7, 2024  Peer-reviewed
  • Sihai Yu, Wenli Xu, Jia Lee, Teijiro Isokawa
    New Generation Computing, Jun 4, 2024  Peer-reviewedLast author
  • Sihai Yu, Jia Lee, Teijiro Isokawa
    Journal of Membrane Computing, May 6, 2024  Peer-reviewed

Misc.

 12

Books and Other Publications

 6

Presentations

 60

Research Projects

 20

Industrial Property Rights

 8