Error-bound for the non-exact SVD-based complexity reduction of thegeneralized type hybrid neural networks with non-singleton consequents
Takacs, O.; Varkonyi-Koczy, A.R.
Instrumentation and Measurement Technology Conference, 2001. IMTC 2001. Proceedings of the 18th IEEE
Volume 3, Issue , 2001 Page(s):1607 - 1612 vol.3
Digital Object Identifier   10.1109/IMTC.2001.929475
Summary:The main advantage of neural networks (NNs) is that they are able to solve complicated problems, even if the exact mathematical model is not known. However, there is no universal method for the approximation of the proper size of the neural networks which usually results in the overestimation of the needed size. Therefore, the need arises to have formal methods for the complexity reduction of neural networks. Singular Value Decomposition (SVD) based complexity reduction was first proposed for various fuzzy inference systems. Recently, the method has been extended to generalized neural network, which made possible the use of neural networks in time-critical systems. Beyond the elimination of redundancy, the SVD-based reduction can be used to achieve further reduction, if a certain amount of error can be tolerated. This paper gives an error-bound for this further complexity reduction of generalized type hybrid neural networks with non-singleton consequents

» View citation and abstract

Log in by entering your IEEE Web Account Username and Password.

IEEE Communications Society members: If you subscribe to the IEEE Electronic Periodicals Package or IEEE Electronic Periodicals Package Plus, you must access your subscription at www.comsoc.org.

Check with your librarian, information professional, or system manager to determine if you need to log in. Please complete the online Technical Support Form if you need assistance.

Select the Purchase History link to access the document. You will have 5 Days after purchase to access the Full Text PDF. Please complete the online Technical Support Form if you need assistance.

• Search and access Abstract records free of charge
• Register for table of contents alerts
• Purchase Full Text PDF documents

» Learn more about subscription options or how to become an IEEE Member.