Stochastic approximation : a dynamical systems viewpoint

By: Vivek S. BorkarMaterial type: TextTextPublication details: U.K.: Cambridge University Press, [c2008]Description: 164 pISBN: 9780521515924LOC classification: QA 274.2.BOR
Contents:
1. Introduction 2. Basic convergence analysis 3. Stability criteria 4. Lock-in probability 5. Stochastic recursive inclusions 6. Multiple timescales 7. Asynchronous schemes 8. A limit theorem for fluctuations 9. Constant stepsize algorithms 10. Applications 11. Appendices
Summary: This simple, compact toolkit for designing and analyzing stochastic approximation algorithms requires only basic literacy in probability and differential equations. Yet these algorithms have powerful applications in control and communications engineering, artificial intelligence and economic modelling. The dynamical systems viewpoint treats an algorithm as a noisy discretization of a limiting differential equation and argues that, under reasonable hypotheses, it tracks the asymptotic behaviour of the differential equation with probability one. The differential equation, which can usually be obtained by inspection, is easier to analyze. Novel topics include finite-time behaviour, multiple timescales and asynchronous implementation. There is a useful taxonomy of applications, with concrete examples from engineering and economics. Notably it covers variants of stochastic gradient-based optimization schemes, fixed-point solvers, which are commonplace in learning algorithms for approximate dynamic programming, and some models of collective behaviour. Three appendices give background on differential equations and probability. --- summary provided by publisher
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Item type Current library Collection Shelving location Call number Status Notes Date due Barcode Item holds
Book Book ICTS
Mathematic Rack No 5 QA274.2.BOR (Browse shelf (Opens below)) Available Billno: 46263 ; Date: 10-08-2020 02435
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1. Introduction
2. Basic convergence analysis
3. Stability criteria
4. Lock-in probability
5. Stochastic recursive inclusions
6. Multiple timescales
7. Asynchronous schemes
8. A limit theorem for fluctuations
9. Constant stepsize algorithms
10. Applications
11. Appendices

This simple, compact toolkit for designing and analyzing stochastic approximation algorithms requires only basic literacy in probability and differential equations. Yet these algorithms have powerful applications in control and communications engineering, artificial intelligence and economic modelling. The dynamical systems viewpoint treats an algorithm as a noisy discretization of a limiting differential equation and argues that, under reasonable hypotheses, it tracks the asymptotic behaviour of the differential equation with probability one. The differential equation, which can usually be obtained by inspection, is easier to analyze. Novel topics include finite-time behaviour, multiple timescales and asynchronous implementation. There is a useful taxonomy of applications, with concrete examples from engineering and economics. Notably it covers variants of stochastic gradient-based optimization schemes, fixed-point solvers, which are commonplace in learning algorithms for approximate dynamic programming, and some models of collective behaviour. Three appendices give background on differential equations and probability. --- summary provided by publisher

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