Optimal Measurement Methods for Distributed Parameter System Identification  book cover
1st Edition

Optimal Measurement Methods for Distributed Parameter System Identification

ISBN 9780367393984
Published September 19, 2019 by CRC Press
392 Pages

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Book Description

For dynamic distributed systems modeled by partial differential equations, existing methods of sensor location in parameter estimation experiments are either limited to one-dimensional spatial domains or require large investments in software systems. With the expense of scanning and moving sensors, optimal placement presents a critical problem.

Optimal Measurement Methods for Distributed Parameter System Identification discusses the characteristic features of the sensor placement problem, analyzes classical and recent approaches, and proposes a wide range of original solutions, culminating in the most comprehensive and timely treatment of the issue available. By presenting a step-by-step guide to theoretical aspects and to practical design methods, this book provides a sound understanding of sensor location techniques.

Both researchers and practitioners will find the case studies, the proposed algorithms, and the numerical examples to be invaluable. This text also offers results that translate easily to MATLAB and to Maple. Assuming only a basic familiarity with partial differential equations, vector spaces, and probability and statistics, and avoiding too many technicalities, this is a superb resource for researchers and practitioners in the fields of applied mathematics, electrical, civil, geotechnical, mechanical, chemical, and environmental engineering.

Table of Contents

Introduction. Key Ideas of Identification and Experimental Design. Locally Optimal Designs for Stationary Sensors. Locally Optimal Strategies for Scanning and Moving Observations. Measurement Strategies With Alternative Design Objectives. Robust Designs for Sensor Location. Towards Even More Challenging Problems. Applications From Engineering. Conclusions and Future Research Directions. Appendices.

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Ucinski, Dariusz