Growing RBF structures using self-organizing maps

Qingyu Xiong; Kotaro Hirasawa; Jinglu Hu; Junichi Murata

doi:10.1109/ROMAN.2000.892479

Growing RBF structures using self-organizing maps

Qingyu Xiong, Kotaro Hirasawa, Jinglu Hu, Junichi Murata

Section of Measurement and Control Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

We present a novel growing RBF network structure using SOM in this paper. It consists of SOM and RBF networks respectively. The SOM performs unsupervised learning and also the weight vectors belonging to its output nodes are transmitted to the hidden nodes in the RBF networks as the centers of RBF activation functions. as a result one to one correspondence relationship is realized between the output nodes in SOM and the hidden nodes in RBF networks. The RBF networks perform supervised training using delta rule. Therefore, the current output errors in the RBF networks can be used to determine where to insert a new SOM unit according to the rule. This also makes it possible to make the RBF networks grow until a performance criterion is fulfilled or until a desired network size is obtained. The simulations on the two-spirals benchmark are shown to prove the proposed networks have good performance.

Original language	English
Title of host publication	Proceedings - 9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000
Pages	107-109
Number of pages	3
DOIs	https://doi.org/10.1109/ROMAN.2000.892479
Publication status	Published - Dec 1 2000
Event	9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000 - Osaka, Japan Duration: Sept 27 2000 → Sept 29 2000

Publication series

Name	Proceedings - IEEE International Workshop on Robot and Human Interactive Communication

Other

Other	9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000
Country/Territory	Japan
City	Osaka
Period	9/27/00 → 9/29/00

All Science Journal Classification (ASJC) codes

Software
Artificial Intelligence
Human-Computer Interaction

Access to Document

10.1109/ROMAN.2000.892479

Cite this

Xiong, Q., Hirasawa, K., Hu, J., & Murata, J. (2000). Growing RBF structures using self-organizing maps. In Proceedings - 9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000 (pp. 107-109). [892479] (Proceedings - IEEE International Workshop on Robot and Human Interactive Communication). https://doi.org/10.1109/ROMAN.2000.892479

Growing RBF structures using self-organizing maps. / Xiong, Qingyu; Hirasawa, Kotaro; Hu, Jinglu et al.

Proceedings - 9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000. 2000. p. 107-109 892479 (Proceedings - IEEE International Workshop on Robot and Human Interactive Communication).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Xiong, Q, Hirasawa, K, Hu, J & Murata, J 2000, Growing RBF structures using self-organizing maps. in Proceedings - 9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000., 892479, Proceedings - IEEE International Workshop on Robot and Human Interactive Communication, pp. 107-109, 9th IEEE International Workshop on Robot and Human Interactive Communication, IEEE RO-MAN 2000, Osaka, Japan, 9/27/00. https://doi.org/10.1109/ROMAN.2000.892479

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title = "Growing RBF structures using self-organizing maps",

abstract = "We present a novel growing RBF network structure using SOM in this paper. It consists of SOM and RBF networks respectively. The SOM performs unsupervised learning and also the weight vectors belonging to its output nodes are transmitted to the hidden nodes in the RBF networks as the centers of RBF activation functions. as a result one to one correspondence relationship is realized between the output nodes in SOM and the hidden nodes in RBF networks. The RBF networks perform supervised training using delta rule. Therefore, the current output errors in the RBF networks can be used to determine where to insert a new SOM unit according to the rule. This also makes it possible to make the RBF networks grow until a performance criterion is fulfilled or until a desired network size is obtained. The simulations on the two-spirals benchmark are shown to prove the proposed networks have good performance.",

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N2 - We present a novel growing RBF network structure using SOM in this paper. It consists of SOM and RBF networks respectively. The SOM performs unsupervised learning and also the weight vectors belonging to its output nodes are transmitted to the hidden nodes in the RBF networks as the centers of RBF activation functions. as a result one to one correspondence relationship is realized between the output nodes in SOM and the hidden nodes in RBF networks. The RBF networks perform supervised training using delta rule. Therefore, the current output errors in the RBF networks can be used to determine where to insert a new SOM unit according to the rule. This also makes it possible to make the RBF networks grow until a performance criterion is fulfilled or until a desired network size is obtained. The simulations on the two-spirals benchmark are shown to prove the proposed networks have good performance.

AB - We present a novel growing RBF network structure using SOM in this paper. It consists of SOM and RBF networks respectively. The SOM performs unsupervised learning and also the weight vectors belonging to its output nodes are transmitted to the hidden nodes in the RBF networks as the centers of RBF activation functions. as a result one to one correspondence relationship is realized between the output nodes in SOM and the hidden nodes in RBF networks. The RBF networks perform supervised training using delta rule. Therefore, the current output errors in the RBF networks can be used to determine where to insert a new SOM unit according to the rule. This also makes it possible to make the RBF networks grow until a performance criterion is fulfilled or until a desired network size is obtained. The simulations on the two-spirals benchmark are shown to prove the proposed networks have good performance.

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Growing RBF structures using self-organizing maps

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