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Dynamic Systems Models: New Methods of Parameter and State Estimation

Autor Josif A. Boguslavskiy Editat de Mark Borodovsky
en Limba Engleză Hardback – 30 mar 2016
This monograph is an exposition of a novel method for solving inverse problems, a method of parameter estimation for time series data collected from simulations of real experiments. These time series might be generated by measuring the dynamics of aircraft in flight, by the function of a hidden Markov model used in bioinformatics or speech recognition or when analyzing the dynamics of asset pricing provided by the nonlinear models of financial mathematics.
Dynamic Systems Models demonstrates the use of algorithms based on polynomial approximation which have weaker requirements than already-popular iterative methods. Specifically, they do not require a first approximation of a root vector and they allow non-differentiable elements in the vector functions being approximated.
The text covers all the points necessary for the understanding and use of polynomial approximation from the mathematical fundamentals, through algorithm development to the application of the method in, for instance, aeroplane flight dynamics or biological sequence analysis. The technical material is illustrated by the use of worked examples and methods for training the algorithms are included.
Dynamic Systems Models provides researchers in aerospatial engineering, bioinformatics and financial mathematics (as well as computer scientists interested in any of these fields) with a reliable and effective numerical method for nonlinear estimation and solving boundary problems when carrying out control design. It will also be of interest to academic researchers studying inverse problems and their solution.
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Specificații

ISBN-13: 9783319040356
ISBN-10: 3319040359
Pagini: 203
Ilustrații: XX, 201 p.
Dimensiuni: 155 x 235 x 18 mm
Greutate: 0.49 kg
Ediția:1st ed. 2016
Editura: Springer International Publishing
Colecția Springer
Locul publicării:Cham, Switzerland

Public țintă

Research

Cuprins

From the Contents: Linear Estimators of a Random-Parameter Vector.-Basis of the Method of Polynomial Approximation.- Polynomial Approximation and Optimization of Control.- Polynomial Approximation Technique Applied to Inverse Vector Functions.- Identification of Parameters of Nonlinear Dynamical Systems: Smoothing, Filtering and Forecasting the State Vector.- Estimating Status Vectors from Sight Angles.- Estimation of Parameters of Stochastic Models.- Designing the Control of Motion to a Target Point of Phase Space.- Inverse Problems of Dynamics Algorithm for Identifying Parameters of an Aircraft

Textul de pe ultima copertă

This monograph is an exposition of a novel method for solving inverse problems, a method of parameter estimation for time series data collected from simulations of real experiments. These time series might be generated by measuring the dynamics of aircraft in flight, by the function of a hidden Markov model used in bioinformatics or speech recognition or when analyzing the dynamics of asset pricing provided by the nonlinear models of financial mathematics.
Dynamic Systems Models demonstrates the use of algorithms based on polynomial approximation which have weaker requirements than already-popular iterative methods. Specifically, they do not require a first approximation of a root vector and they allow non-differentiable elements in the vector functions being approximated.
The text covers all the points necessary for the understanding and use of polynomial approximation from the mathematical fundamentals, through algorithm development to the application of the method in, for instance, aeroplane flight dynamics or biological sequence analysis. The technical material is illustrated by the use of worked examples and methods for training the algorithms are included.
Dynamic Systems Models provides researchers in aerospatial engineering, bioinformatics and financial mathematics (as well as computer scientists interested in any of these fields) with a reliable and effective numerical method for nonlinear estimation and solving boundary problems when carrying out control design. It will also be of interest to academic researchers studying inverse problems and their solution.

Caracteristici

Lays down a new method of solving inverse problems equations with weaker requirements than existing methods Reinforces basic principles and demonstrates methodical efficiency using non-trivial applied examples Relevant to many applications from bioinformatics through aerodynamics to financial mathematics Includes supplementary material: sn.pub/extras