Convergence Analysis of Recurrent Neural Networks [electronic resource] /

Convergence Analysis of Recurrent Neural Networks [electronic resource] /

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Since the outstanding and pioneering research work of Hopfield on recurrent neural networks (RNNs) in the early 80s of the last century, neural networks have rekindled strong interests in scientists and researchers. Recent years have recorded a remarkable advance in research and development work on RNNs, both in theoretical research as weIl as actual applications. The field of RNNs is now transforming into a complete and independent subject. From theory to application, from software to hardware, new and exciting results are emerging day after day, reflecting the keen interest RNNs have instilled in everyone, from researchers to practitioners. RNNs contain feedback connections among the neurons, a phenomenon which has led rather naturally to RNNs being regarded as dynamical systems. RNNs can be described by continuous time differential systems, discrete time systems, or functional differential systems, and more generally, in terms of non­ linear systems. Thus, RNNs have to their disposal, a huge set of mathematical tools relating to dynamical system theory which has tumed out to be very useful in enabling a rigorous analysis of RNNs.

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Main Authors: Yi, Zhang. author., Tan, K. K. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: Boston, MA : Springer US : Imprint: Springer, 2004
Subjects:Computer science., Computer science, System theory., Electrical engineering., Computer Science., Mathematics of Computing., Systems Theory, Control., Electrical Engineering.,
Online Access:http://dx.doi.org/10.1007/978-1-4757-3819-3
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spelling KOHA-OAI-TEST:2103042018-07-30T23:42:14ZConvergence Analysis of Recurrent Neural Networks [electronic resource] / Yi, Zhang. author. Tan, K. K. author. SpringerLink (Online service) textBoston, MA : Springer US : Imprint: Springer,2004.engSince the outstanding and pioneering research work of Hopfield on recurrent neural networks (RNNs) in the early 80s of the last century, neural networks have rekindled strong interests in scientists and researchers. Recent years have recorded a remarkable advance in research and development work on RNNs, both in theoretical research as weIl as actual applications. The field of RNNs is now transforming into a complete and independent subject. From theory to application, from software to hardware, new and exciting results are emerging day after day, reflecting the keen interest RNNs have instilled in everyone, from researchers to practitioners. RNNs contain feedback connections among the neurons, a phenomenon which has led rather naturally to RNNs being regarded as dynamical systems. RNNs can be described by continuous time differential systems, discrete time systems, or functional differential systems, and more generally, in terms of non­ linear systems. Thus, RNNs have to their disposal, a huge set of mathematical tools relating to dynamical system theory which has tumed out to be very useful in enabling a rigorous analysis of RNNs.Since the outstanding and pioneering research work of Hopfield on recurrent neural networks (RNNs) in the early 80s of the last century, neural networks have rekindled strong interests in scientists and researchers. Recent years have recorded a remarkable advance in research and development work on RNNs, both in theoretical research as weIl as actual applications. The field of RNNs is now transforming into a complete and independent subject. From theory to application, from software to hardware, new and exciting results are emerging day after day, reflecting the keen interest RNNs have instilled in everyone, from researchers to practitioners. RNNs contain feedback connections among the neurons, a phenomenon which has led rather naturally to RNNs being regarded as dynamical systems. RNNs can be described by continuous time differential systems, discrete time systems, or functional differential systems, and more generally, in terms of non­ linear systems. Thus, RNNs have to their disposal, a huge set of mathematical tools relating to dynamical system theory which has tumed out to be very useful in enabling a rigorous analysis of RNNs.Computer science.Computer scienceSystem theory.Electrical engineering.Computer Science.Mathematics of Computing.Systems Theory, Control.Electrical Engineering.Springer eBookshttp://dx.doi.org/10.1007/978-1-4757-3819-3URN:ISBN:9781475738193
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Computer science.
Computer science
System theory.
Electrical engineering.
Computer Science.
Mathematics of Computing.
Systems Theory, Control.
Electrical Engineering.
Computer science.
Computer science
System theory.
Electrical engineering.
Computer Science.
Mathematics of Computing.
Systems Theory, Control.
Electrical Engineering.
spellingShingle Computer science.
Computer science
System theory.
Electrical engineering.
Computer Science.
Mathematics of Computing.
Systems Theory, Control.
Electrical Engineering.
Computer science.
Computer science
System theory.
Electrical engineering.
Computer Science.
Mathematics of Computing.
Systems Theory, Control.
Electrical Engineering.
Yi, Zhang. author.
Tan, K. K. author.
SpringerLink (Online service)
Convergence Analysis of Recurrent Neural Networks [electronic resource] /
description Since the outstanding and pioneering research work of Hopfield on recurrent neural networks (RNNs) in the early 80s of the last century, neural networks have rekindled strong interests in scientists and researchers. Recent years have recorded a remarkable advance in research and development work on RNNs, both in theoretical research as weIl as actual applications. The field of RNNs is now transforming into a complete and independent subject. From theory to application, from software to hardware, new and exciting results are emerging day after day, reflecting the keen interest RNNs have instilled in everyone, from researchers to practitioners. RNNs contain feedback connections among the neurons, a phenomenon which has led rather naturally to RNNs being regarded as dynamical systems. RNNs can be described by continuous time differential systems, discrete time systems, or functional differential systems, and more generally, in terms of non­ linear systems. Thus, RNNs have to their disposal, a huge set of mathematical tools relating to dynamical system theory which has tumed out to be very useful in enabling a rigorous analysis of RNNs.
format Texto
topic_facet Computer science.
Computer science
System theory.
Electrical engineering.
Computer Science.
Mathematics of Computing.
Systems Theory, Control.
Electrical Engineering.
author Yi, Zhang. author.
Tan, K. K. author.
SpringerLink (Online service)
author_facet Yi, Zhang. author.
Tan, K. K. author.
SpringerLink (Online service)
author_sort Yi, Zhang. author.
title Convergence Analysis of Recurrent Neural Networks [electronic resource] /
title_short Convergence Analysis of Recurrent Neural Networks [electronic resource] /
title_full Convergence Analysis of Recurrent Neural Networks [electronic resource] /
title_fullStr Convergence Analysis of Recurrent Neural Networks [electronic resource] /
title_full_unstemmed Convergence Analysis of Recurrent Neural Networks [electronic resource] /
title_sort convergence analysis of recurrent neural networks [electronic resource] /
publisher Boston, MA : Springer US : Imprint: Springer,
publishDate 2004
url http://dx.doi.org/10.1007/978-1-4757-3819-3
work_keys_str_mv AT yizhangauthor convergenceanalysisofrecurrentneuralnetworkselectronicresource
AT tankkauthor convergenceanalysisofrecurrentneuralnetworkselectronicresource
AT springerlinkonlineservice convergenceanalysisofrecurrentneuralnetworkselectronicresource
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