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ORCIDTeruya Yamanishi
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2020 – today
- 2024
[j13]Takahiro Iinuma, Yudai Ebato, Sou Nobukawa, Nobuhiko Wagatsuma, Keiichiro Inagaki, Hirotaka Doho, Teruya Yamanishi, Haruhiko Nishimura:
Controlling Chaotic Resonance with Extremely Local-Specific Feedback Signals. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 107(8): 1106-1114 (2024)- 2023
- [j12]Sou Nobukawa, Nobuhiko Wagatsuma, Haruhiko Nishimura, Keiichiro Inagaki, Teruya Yamanishi:
Influence of Additive and Contaminant Noise on Control-Feedback Induced Chaotic Resonance in Excitatory-Inhibitory Neural Systems. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 106(1): 11-22 (2023) - [c17]Takahiro Iinuma
, Yudai Ebato, Sou Nobukawa, Anh Tu Tran, Nobuhiko Wagatsuma, Keiichiro Inagaki, Hirotaka Doho, Teruya Yamanishi, Haruhiko Nishimura:
Extremely Weak Feedback Method for Controlling Chaotic Resonance. SMC 2023: 1727-1732 - 2022
- [j11]Sou Nobukawa, Nobuhiko Wagatsuma, Haruhiko Nishimura, Keiichiro Inagaki, Teruya Yamanishi:
Memory Storage Systems Utilizing Chaotic Attractor-Merging Bifurcation. IEEE Access 10: 15699-15706 (2022) - 2021
- [j10]Sou Nobukawa, Haruhiko Nishimura, Nobuhiko Wagatsuma, Keiichiro Inagaki, Teruya Yamanishi, Tetsuya Takahashi:
Recent Trends of Controlling Chaotic Resonance and Future Perspectives. Frontiers Appl. Math. Stat. 7: 760568 (2021) - [j9]Sou Nobukawa, Haruhiko Nishimura, Nobuhiko Wagatsuma, Satoshi Ando, Teruya Yamanishi:
Long-Tailed Characteristic of Spiking Pattern Alternation Induced by Log-Normal Excitatory Synaptic Distribution. IEEE Trans. Neural Networks Learn. Syst. 32(8): 3525-3537 (2021) - [c16]Sou Nobukawa, Nobuhiko Wagatsuma, Haruhiko Nishimura, Keiichiro Inagaki, Teruya Yamanishi:
Evaluation of Ability of Chaotic Resonance under Noises in Neural Systems Comprising Excitatory-Inhibitory Neurons. SMC 2021: 2197-2202 - 2020
- [j8]Sou Nobukawa, Hirotaka Doho, Natsusaku Shibata, Haruhiko Nishimura, Teruya Yamanishi:
Chaos-Chaos Intermittency Synchronization Controlled by External Feedback Signals in Chua's Circuits. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 103-A(1): 303-312 (2020)
2010 – 2019
- 2019
- [j7]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Hirotaka Doho:
Induced Synchronization of Chaos-Chaos Intermittency Maintaining Asynchronous State of Chaotic Orbits by External Feedback Signals. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 102-A(3): 524-531 (2019) - [j6]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi:
Pattern Classification by Spiking Neural Networks Combining Self-Organized and Reward-Related Spike-Timing-Dependent Plasticity. J. Artif. Intell. Soft Comput. Res. 9(4): 283-291 (2019) - 2018
- [j5]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Hirotaka Doho:
Controlling Chaotic Resonance in Systems with Chaos-Chaos Intermittency Using External Feedback. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 101-A(11): 1900-1906 (2018) - [c15]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi:
Emergent Patterns and Spontaneous Activity in Spiking Neural Networks with Dual Complex Network Structure. ICCI*CC 2018: 159-165 - [c14]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Hirotaka Doho:
Induced Synchronization of Chaos-Chaos Intermittency in Coupled Cubic Maps by External Feedback Signals. CoDIT 2018: 64-68 - [c13]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi:
Skewed and Long-Tailed Distributions of Spiking Activity in Coupled Network Modules with Log-Normal Synaptic Weight Distribution. ICONIP (1) 2018: 535-544 - 2017
- [c12]Sou Nobukawa, Teruya Yamanishi, Haruhiko Nishimura, Yuji Wada, Mitsuru Kikuchi, Tetsuya Takahashi:
Temporal-specific roles of fractality in EEG signal of Alzheimer's disease. IJCNN 2017: 4395-4399 - 2016
- [c11]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi:
Evaluation of Chaotic Resonance by Lyapunov Exponent in Attractor-Merging Type Systems. ICONIP (1) 2016: 430-437 - [c10]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi:
Chaotic states caused by discontinuous resetting process in spiking neuron model. IJCNN 2016: 315-319 - [c9]Sou Nobukawa, Ryohei Hashimoto, Haruhiko Nishimura, Teruya Yamanishi, Masaru Chiba:
Analysis of Coherence Resonance in Kaldor-Kalecki Business Cycle Model. SCIS&ISIS 2016: 243-247 - 2015
- [j4]Teruya Yamanishi, Kazutomi Sugihara, Kazumasa Ohkuma, Katsuji Uosaki:
Programming instruction using a micro robot as a teaching tool. Comput. Appl. Eng. Educ. 23(1): 109-116 (2015) - [j3]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Jian-Qin Liu:
Chaotic States Induced By Resetting Process In Izhikevich Neuron Model. J. Artif. Intell. Soft Comput. Res. 5(2): 109 (2015) - 2014
- [c8]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Jian-Qin Liu:
Analysis of routes to chaos in Izhikevich neuron model with resetting process. SCIS&ISIS 2014: 813-818 - 2012
- [j2]Teruya Yamanishi, Jian-Qin Liu, Haruhiko Nishimura:
Modeling fluctuations in Default-Mode Brain Network Using a Spiking Neural Network. Int. J. Neural Syst. 22(4) (2012) - [c7]Jian-Qin Liu, Teruya Yamanishi, Haruhiko Nishimura, Sou Nobukawa, Hiroaki Umehara:
On sustaining robustness of molecular pathway circuits of the HSR network of E. coli under spatial configuration. NEMS 2012: 496-501 - [c6]Teruya Yamanishi, Jian-Qin Liu, Haruhiko Nishimura:
Beats as the origin of slow fluctuations in the brain's default-mode network. SCIS&ISIS 2012: 33-38 - [c5]Jian-Qin Liu, Teruya Yamanishi, Haruhiko Nishimura, Hiroaki Umehara, Sou Nobukawa:
On the filtering mechanism of spontaneous signaling causality of brain's default mode network. SCIS&ISIS 2012: 43-48 - [c4]Sou Nobukawa, Haruhiko Nishimura, Teruya Yamanishi, Jian-Qin Liu:
Chaotic resonance in Izhikevich neuron model and its assembly. SCIS&ISIS 2012: 49-54 - 2011
- [c3]Masahiro Osogami, Teruya Yamanishi, Katsuji Uosaki:
Input-Output Conditions for Automatic Program Generation Using Petri Nets. KES (1) 2011: 296-305 - 2010
- [c2]Teruya Yamanishi, Jian-Qin Liu, Haruhiko Nishimura:
Firing Pattern of Default Mode Brain Network with Spiking Neuron Model. BIONETICS 2010: 629-636
2000 – 2009
- 2009
- [c1]Teruya Yamanishi, Haruhiko Nishimura:
Firing Correlation in Spiking Neurons with Watts-Strogatz Rewiring. IWNC 2009: 363-371 - 2008
- [j1]Teruya Yamanishi, Masashi Nosaka, Haruhiko Nishimura, Kazumasa Ohkuma:
Neural Model Approach to the Basic Law of Psychophysics. Neural Process. Lett. 27(2): 115-123 (2008)
Coauthor Index
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