PDE Control of String-Actuated Motion (Princeton Series in Applied Mathematics)

PDE Control of String-Actuated Motion (Princeton Series in Applied Mathematics) image
ISBN-10:

0691233497

ISBN-13:

9780691233499

Released: Oct 25, 2022
Format: Paperback, 512 pages
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Description:

Review\n“A valuable resource for control theorists and practitioners, this is the first book to deal with the emerging field of event-triggered control for PDEs. Easy to read and technically sound, it has an excellent balance between theory and applications, making the practical significance of the methods clear.”―Joachim Deutscher, Ulm University, Germany\n“To the best of my knowledge, this is the first book to deal with string-related dynamical systems, and it opens the door for perspectives and applications beyond the control of cable-driven systems. A very significant book.”―Christophe Prieur, CNRS, France\nNew adaptive and event-triggered control designs with concrete applications in undersea construction, offshore drilling, and cable elevators\nControl applications in undersea construction, cable elevators, and offshore drilling present major methodological challenges because they involve PDE systems (cables and drillstrings) of time-varying length, coupled with ODE systems (the attached loads or tools) that usually have unknown parameters and unmeasured states. In PDE Control of String-Actuated Motion, Ji Wang and Miroslav Krstic develop control algorithms for these complex PDE-ODE systems evolving on time-varying domains.\nMotivated by physical systems, the book’s algorithms are designed to operate, with rigorous mathematical guarantees, in the presence of real-world challenges, such as unknown parameters, unmeasured distributed states, environmental disturbances, delays, and event-triggered implementations. The book leverages the power of the PDE backstepping approach and expands its scope in many directions.\nFilled with theoretical innovations and comprehensive in its coverage, PDE Control of String-Actuated Motion provides new design tools and mathematical techniques with far-reaching potential in adaptive control, delay systems, and event-triggered control.












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