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Machine Learning Control by Symbolic Regression

Name: Machine Learning Control by Symbolic Regression
Brand: Springer
Price: 524.53 PLN
Availability: InStock

ISBN-13: 9783030832124 / Angielski / Twarda / 2021 / 150 str.

Askhat Diveev; Elizaveta Shmalko

Machine Learning Control by Symbolic Regression

ISBN-13: 9783030832124 / Angielski / Twarda / 2021 / 150 str.

Askhat Diveev; Elizaveta Shmalko

cena 524,53 zł
(netto: 499,55 VAT: 5%)

Najniższa cena z 30 dni: 501,19 zł

Termin realizacji zamówienia:
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inne wydania

Kategorie:

Informatyka, Bazy danych

Kategorie BISAC:

Computers > Artificial Intelligence - General
Science > System Theory
Technology & Engineering > Automation

Wydawca:

Springer

Język:

Angielski

ISBN-13:

9783030832124

Rok wydania:

2021

Wydanie:

2021

Ilość stron:

150

Waga:

0.41 kg

Wymiary:

23.39 x 15.6 x 1.12

Oprawa:

Twarda

Wolumenów:

Dodatkowe informacje:

Wydanie ilustrowane

1 Introduction

1.1 About modern control systems

1.2 About machine learning control

1.3 About symbolic regression methods

References

2 Mathematical Statements of MLC Problems

2.1 Machine Learning Problem

2.2 Optimal Control Problem

2.3 Control Synthesis Problem

2.4 Synthesized Optimal Control Problem

2.5 Model Identification Problem

References

3 Numerical Solution of Machine Learning Control Problems

3.1 Artificial Neural Networks

3.2 General Approach of Symbolic Regression

3.3 The principle of small variations of the basic solution

3.4 Genetic Algorithm for Multicriterial Structural-Parametric Search of Functions

3.5 Space of Machine-Made Functions

Appendix

References

4 Symbolic Regression Methods

4.1 Genetic Programming

4.2 Grammatical Evolution

4.3 Cartesian Genetic Programming

4.4 Inductive Genetic Programming

4.5 Analytic Programming

4.6 Parse-Matrix Evolution

4.7 Binary Complete Genetic Programming

4.8 Network Operator Method

4.9 Variational Symbolic Regression Methods

4.9.1 Variational Genetic Programming

4.9.2 Variational Analytic Programming

4.9.3 Variational Binary Complete Genetic Programming

4.9.4 Variational Cartesian Genetic Programming

4.10 Multilayer Symbolic Regression Methods

References

5 Examples of MLC Problem Solutions

5.1 Control Synthesis as Unsupervised MLC

5.1.1 Ponryagin’s Example

5.1.2 Mobile Robot

5.1.3 Quadcopter

5.2 Control Synthesis as Supervised MLC

5.3 Identification and Control Synthesis for Multi-link Robot

5.4 Synthesized Optimal Control Example

5.4.1 Synthesized optimal control

5.4.2 Direct solution of the optimal control problem

5.4.3 Experimental analysis of sensitivity to perturbations

5.5 Machine learning in Synergetic control

References

Prof., Dr. Diveev is a renowned specialist in the field of control and a leading researcher in Russia in evolutionary computation and symbolic regression. He received the Ph.D. degree in technical science from Bauman Moscow State Technical University, in 1989, and Doctor of Sciences in 2001 in Dorodnitsyn Computing Center of the Russian Academy of Sciences, in 2009 he became a professor. Presently, he works as a Director of Robotic Center of Federal Research Center “Computer Science and Control” of the Russian Academy of Sciences. He is also a Professor at the RUDN University, Engineering Department. He is the author of five books, more than 300 articles. Prof. Diveev is a member of the editorial board of the RUDN journal of Engineering Researches and journal of Instrument Engineering of the Bauman Moscow State Technical University, a general chair of the INTELS Symposium.

Dr. Shmalko is a former student and follower of Prof. Diveev, received the B.S. and M.S. degrees in Computer Science and Cybernetics from RUDN University, Engineering Dept. and the Ph.D. degree from Dorodnicyn Computing Center of the Russian Academy of Sciences, Moscow, Russia, in 2009. From 2007 to 2010, she was with IBM East Europe/Asia. Since 2010, she is a Senior researcher with the Computing Center of the Federal Research Center “Computer Science and Control” of the Russian Academy of Sciences.

The authors’ current research interests are computational methods in control, symbolic regression and evolutionary computation with applications to model identification, optimization and control system synthesis. The authors conduct theoretical research and implement applied tasks on the basis of the Robotics Center of the Federal Research Center “Computer Science and Control” of the Russian Academy of Sciences.

This book provides comprehensive coverage on a new direction in computational mathematics research: automatic search for formulas. Formulas must be sought in all areas of science and life: these are the laws of the universe, the macro and micro world, fundamental physics, engineering, weather and natural disasters forecasting; the search for new laws in economics, politics, sociology. Accumulating many years of experience in the development and application of numerical methods of symbolic regression to solving control problems, the authors offer new possibilities not only in the field of control automation, but also in the design of completely different optimal structures in many fields.

For specialists in the field of control, Machine Learning Control by Symbolic Regression opens up a new promising direction of research and acquaints scientists with the methods of automatic construction of control systems.

For specialists in the field of machine learning, the book opens up a new, much broader direction than neural networks: methods of symbolic regression. This book makes it easy to master this new area in machine learning and apply this approach everywhere neural networks are used. For mathematicians, the book opens up a new approach to the construction of numerical methods for obtaining analytical solutions to unsolvable problems; for example, numerical analytical solutions of algebraic equations, differential equations, non-trivial integrals, etc.

For specialists in the field of artificial intelligence, the book offers a machine way to solve problems, framed in the form of analytical relationships.

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