Periodic Signal Learning and Recognition in Coupled Oscillators

Tetsuya Matsuno; Yukiko Kikkawa; Masahiro Iguchi; Kiyoshi Toko; Kaoru Yamafuji

doi:10.1143/JPSJ.63.1194

Periodic Signal Learning and Recognition in Coupled Oscillators

Tetsuya Matsuno, Yukiko Kikkawa, Masahiro Iguchi, Kiyoshi Toko, Kaoru Yamafuji

Electronic Devices

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Responses to periodic signals in the oscillator network are studied numerically. The network used here is globally coupled oscillators with distributed natural frequencies of the oscillatory elements. The ability of the temporal-pattern recognition in the system is studied using the learning rule which changes the distribution of the natural frequencies. It is found that the coherency representing the order of the system exhibits the periodic and complex behaviors. The periodic response of the coherency is observed in the case where the input signal is similar to the learned signal. The behavior of the coherency becomes complex; i.e., the number of the degrees of freedom of the behavior increases with the decrease in the similarity of the input signal to the learned signal. Moreover, the long transient process is observed after turning off the input.

Original language	English
Pages (from-to)	1194-1204
Number of pages	11
Journal	journal of the physical society of japan
Volume	63
Issue number	3
DOIs	https://doi.org/10.1143/JPSJ.63.1194
Publication status	Published - Jan 1 1994

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

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10.1143/JPSJ.63.1194

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abstract = "Responses to periodic signals in the oscillator network are studied numerically. The network used here is globally coupled oscillators with distributed natural frequencies of the oscillatory elements. The ability of the temporal-pattern recognition in the system is studied using the learning rule which changes the distribution of the natural frequencies. It is found that the coherency representing the order of the system exhibits the periodic and complex behaviors. The periodic response of the coherency is observed in the case where the input signal is similar to the learned signal. The behavior of the coherency becomes complex; i.e., the number of the degrees of freedom of the behavior increases with the decrease in the similarity of the input signal to the learned signal. Moreover, the long transient process is observed after turning off the input.",

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AU - Matsuno, Tetsuya

AU - Kikkawa, Yukiko

AU - Iguchi, Masahiro

AU - Toko, Kiyoshi

AU - Yamafuji, Kaoru

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N2 - Responses to periodic signals in the oscillator network are studied numerically. The network used here is globally coupled oscillators with distributed natural frequencies of the oscillatory elements. The ability of the temporal-pattern recognition in the system is studied using the learning rule which changes the distribution of the natural frequencies. It is found that the coherency representing the order of the system exhibits the periodic and complex behaviors. The periodic response of the coherency is observed in the case where the input signal is similar to the learned signal. The behavior of the coherency becomes complex; i.e., the number of the degrees of freedom of the behavior increases with the decrease in the similarity of the input signal to the learned signal. Moreover, the long transient process is observed after turning off the input.

AB - Responses to periodic signals in the oscillator network are studied numerically. The network used here is globally coupled oscillators with distributed natural frequencies of the oscillatory elements. The ability of the temporal-pattern recognition in the system is studied using the learning rule which changes the distribution of the natural frequencies. It is found that the coherency representing the order of the system exhibits the periodic and complex behaviors. The periodic response of the coherency is observed in the case where the input signal is similar to the learned signal. The behavior of the coherency becomes complex; i.e., the number of the degrees of freedom of the behavior increases with the decrease in the similarity of the input signal to the learned signal. Moreover, the long transient process is observed after turning off the input.

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Periodic Signal Learning and Recognition in Coupled Oscillators

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