Mathematical Systems Theory in Biology, Communications, Computation and Finance / Edition 1

Mathematical Systems Theory in Biology, Communications, Computation and Finance / Edition 1

by Joachim Rosenthal
     
 

ISBN-10: 1441923268

ISBN-13: 9781441923264

Pub. Date: 12/16/2011

Publisher: Springer New York

This volume contains survey and research articles by some of the leading researchers in mathematical systems theory - a vibrant research area in its own right. Many authors have taken special care that their articles are self-contained and accessible also to non-specialists.

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Overview

This volume contains survey and research articles by some of the leading researchers in mathematical systems theory - a vibrant research area in its own right. Many authors have taken special care that their articles are self-contained and accessible also to non-specialists.

Product Details

ISBN-13:
9781441923264
Publisher:
Springer New York
Publication date:
12/16/2011
Series:
IMA Volumes in Mathematics and its Applications Series, #134
Edition description:
Softcover reprint of the original 1st ed. 2003
Pages:
504
Product dimensions:
6.14(w) x 9.21(h) x 1.05(d)

Table of Contents

On cellular automaton approaches to modelling biological cells.- Crystalline stochastic systems and curvature driven flows.- Overdetermined multidimensional systems: State space and frequency domain methods.- Dissipative dynamics in classical and quantum conservative systems.- A state space approach to control of interconnected systems.- Multi-dimensional capacity, pressure and Hausdorff dimension.- Numerics versus control.- Manipulating matrix inequalities automatically.- A dynamical system approach to matrix eigenvalue algorithms.- Belief propagation on partially ordered sets.- Smoothing by Savitzky-Golay and Legendre filters.- On stochastic control in finance.- Control and financial engineering.- Passive and conservative infinite-dimensional impedance and scattering systems (from a personal point of view).- Spectral theory for neutral delay equations with applications to control and stabilization.- On factor graphs and electrical networks.- Dissipative distributed systems.

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