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Theory of differential inclusions and its application in mechanics. / Kiseleva, Maria; Kuznetsov, Nikolay; Leonov, Gennady.

New Perspectives and Applications of Modern Control Theory: In Honor of Alexander S. Poznyak. Springer Nature, 2017. p. 219-239.

Research output: Chapter in Book/Report/Conference proceedingChapterpeer-review

Harvard

Kiseleva, M, Kuznetsov, N & Leonov, G 2017, Theory of differential inclusions and its application in mechanics. in New Perspectives and Applications of Modern Control Theory: In Honor of Alexander S. Poznyak. Springer Nature, pp. 219-239. https://doi.org/10.1007/978-3-319-62464-8_9

APA

Kiseleva, M., Kuznetsov, N., & Leonov, G. (2017). Theory of differential inclusions and its application in mechanics. In New Perspectives and Applications of Modern Control Theory: In Honor of Alexander S. Poznyak (pp. 219-239). Springer Nature. https://doi.org/10.1007/978-3-319-62464-8_9

Vancouver

Kiseleva M, Kuznetsov N, Leonov G. Theory of differential inclusions and its application in mechanics. In New Perspectives and Applications of Modern Control Theory: In Honor of Alexander S. Poznyak. Springer Nature. 2017. p. 219-239 https://doi.org/10.1007/978-3-319-62464-8_9

Author

Kiseleva, Maria ; Kuznetsov, Nikolay ; Leonov, Gennady. / Theory of differential inclusions and its application in mechanics. New Perspectives and Applications of Modern Control Theory: In Honor of Alexander S. Poznyak. Springer Nature, 2017. pp. 219-239

BibTeX

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title = "Theory of differential inclusions and its application in mechanics",
abstract = "The following chapter deals with systems of differential equations with discontinuous right-hand sides. The key question is how to define the solutions of such systems. The most adequate approach is to treat discontinuous systems as systems with multivalued right-hand sides (differential inclusions). In this work, three well-known definitions of solution of discontinuous system are considered. We will demonstrate the difference between these definitions and their application to different mechanical problems. Mathematical models of drilling systems with discontinuous friction torque characteristics are considered. Here, opposite to classical Coulomb symmetric friction law, the friction torque characteristic is asymmetrical. Problem of sudden load chande is studied. Analytical methods of investigation of systems with such asymmetrical friction, based on the use of Lyapunov functions, are demonstrated. TheWatt governor and Chua system are considered to show different aspects of computer modeling of discontinuous systems.",
author = "Maria Kiseleva and Nikolay Kuznetsov and Gennady Leonov",
year = "2017",
month = sep,
day = "30",
doi = "10.1007/978-3-319-62464-8_9",
language = "English",
isbn = "9783319624631",
pages = "219--239",
booktitle = "New Perspectives and Applications of Modern Control Theory",
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address = "Germany",

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T1 - Theory of differential inclusions and its application in mechanics

AU - Kiseleva, Maria

AU - Kuznetsov, Nikolay

AU - Leonov, Gennady

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N2 - The following chapter deals with systems of differential equations with discontinuous right-hand sides. The key question is how to define the solutions of such systems. The most adequate approach is to treat discontinuous systems as systems with multivalued right-hand sides (differential inclusions). In this work, three well-known definitions of solution of discontinuous system are considered. We will demonstrate the difference between these definitions and their application to different mechanical problems. Mathematical models of drilling systems with discontinuous friction torque characteristics are considered. Here, opposite to classical Coulomb symmetric friction law, the friction torque characteristic is asymmetrical. Problem of sudden load chande is studied. Analytical methods of investigation of systems with such asymmetrical friction, based on the use of Lyapunov functions, are demonstrated. TheWatt governor and Chua system are considered to show different aspects of computer modeling of discontinuous systems.

AB - The following chapter deals with systems of differential equations with discontinuous right-hand sides. The key question is how to define the solutions of such systems. The most adequate approach is to treat discontinuous systems as systems with multivalued right-hand sides (differential inclusions). In this work, three well-known definitions of solution of discontinuous system are considered. We will demonstrate the difference between these definitions and their application to different mechanical problems. Mathematical models of drilling systems with discontinuous friction torque characteristics are considered. Here, opposite to classical Coulomb symmetric friction law, the friction torque characteristic is asymmetrical. Problem of sudden load chande is studied. Analytical methods of investigation of systems with such asymmetrical friction, based on the use of Lyapunov functions, are demonstrated. TheWatt governor and Chua system are considered to show different aspects of computer modeling of discontinuous systems.

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