Motion Control Of Underactuated Mechanical Systems
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Motion Control of Underactuated Mechanical Systems
This volume is the first to present a unified perspective on the control of underactuated mechanical systems. Based on real-time implementation of parameter identification, this book provides a variety of algorithms for the Furuta pendulum and the inertia wheel pendulum, which are two-degrees-of-freedom mechanical systems. Specifically, this work addresses and solves the problem of motion control via trajectory tracking in one joint coordinate while another joint is regulated. Besides, discussions on extensions to higher degrees-of-freedom systems are given. The book, aimed at control engineers as well as graduate students, ranges from the problem of parameter identification of the studied systems to the practical implementation of sophisticated motion control algorithms. Offering real-world solutions to manage the control of underactuated systems, this book provides a concise tutorial on recent breakthroughs in the field, original procedures to achieve bounding of the error trajectories, convergence and gain tuning guidelines.
Control of Underactuated Mechanical Systems
Control of Underactuated Mechanical Systems: Stabilization and Limit Cycle Generationclearly explains stabilization and limit cycle generation in underactuated mechanical systems (UMS),addressing control design challenges and demonstrating concepts through real-time experiments.The book begins with advancements in UMS, introducing key concepts such as stabilization and limitcycle generation, supported by literature examples. It then focuses on the inertia wheel invertedpendulum, presenting a detailed discussion. The second part tackles stabilization, offering variouscontrol solutions validated through numerical simulations and real-time experiments. The finalpart addresses stable limit cycle generation, detailing three proposed control solutions and theirvalidation through different case studies.This book is a valuable resource for PhD and Master students, engineers, researchers, and educators.It provides guidance in robotics and automatic control, utilizing a simplified methodology forcontrolling underactuated mechanical systems. - • Addresses stabilization and stable limit cycle generation in underactuated mechanical systemsamid perturbations• Explores the design, development, and validation of robust control solutions• Illustrates concepts through case studies• Validates control solutions with numerical simulations and real-time experiments
Control of Ships and Underwater Vehicles
Author: Khac Duc Do
language: en
Publisher: Springer Science & Business Media
Release Date: 2009-08-09
Most ocean vessels are underactuated but control of their motion in the real ocean environment is essential. Starting with a review of the background on ocean-vessel dynamics and nonlinear control theory, the authors’ systematic approach is based on various nontrivial coordinate transformations coupled with advanced nonlinear control design methods. This strategy is then used for the development and analysis of a number of ocean-vessel control systems with the aim of achieving advanced motion control tasks including stabilization, trajectory-tracking, path-tracking and path-following. Control of Ships and Underwater Vehicles offers the reader: - new results in the nonlinear control of underactuated ocean vessels; - efficient designs for the implementation of controllers on underactuated ocean vessels; - numerical simulations and real-time implementations of the control systems designed on a scale-model ship for each controller developed to illustrate their effectiveness and afford practical guidance.