Control of Underactuated Mechanical Systems
Stabilisation and Limit Cycle Generation
Published on 2. June 2025
Book
Paperback/Softback
238 pages
978-0-443-24020-1 (ISBN)
Description
Control of Underactuated Mechanical Systems: Stabilization and Limit Cycle Generation
clearly 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 limit
cycle generation, supported by literature examples. It then focuses on the inertia wheel inverted
pendulum, presenting a detailed discussion. The second part tackles stabilization, offering various
control solutions validated through numerical simulations and real-time experiments. The final
part addresses stable limit cycle generation, detailing three proposed control solutions and their
validation 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 for
controlling underactuated mechanical systems.
clearly 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 limit
cycle generation, supported by literature examples. It then focuses on the inertia wheel inverted
pendulum, presenting a detailed discussion. The second part tackles stabilization, offering various
control solutions validated through numerical simulations and real-time experiments. The final
part addresses stable limit cycle generation, detailing three proposed control solutions and their
validation 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 for
controlling underactuated mechanical systems.
More details
Series
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
College/higher education
Dimensions
Height: 229 mm
Width: 152 mm
Weight
400 gr
ISBN-13
978-0-443-24020-1 (9780443240201)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Afef Hfaiedh | Ahmed Chemori
Control of Underactuated Mechanical Systems
Stabilisation and Limit Cycle Generation
E-Book
03/2025
Elsevier
€151.99
Available for download
Persons
Afef Hfaiedh received her Master's degree in Automatic Control, Robotics, and Signal Processing in 2015 and her Ph.D. in Automatic Control in 2021. She is a postdoctoral researcher at RISC-LAB and a part-time professor at the University of Tunis El Manar, specializing in nonlinear control applications in robotics and underactuated mechanical systems. Ahmed Chemori earned his M.Sc. and Ph.D. in Automatic Control from the Grenoble Institute of
Technology in 2001 and 2005, respectively. He has worked as a research and teaching assistant and is currently a senior research scientist at LIRMM, University of Montpellier, focusing on nonlinear control and its applications in robotics.
Technology in 2001 and 2005, respectively. He has worked as a research and teaching assistant and is currently a senior research scientist at LIRMM, University of Montpellier, focusing on nonlinear control and its applications in robotics.
Content
Part I: General context and case study
1. Introduction
2. The inertia wheel inverted pendulum case study
Part II: Control solutions for the stabilisation problem
3. A revisited adaptive sliding mode control scheme
4. Nonlinear RISE feedback control scheme
5. Model reference adaptive IDA-PBC approach
Part III: Control solutions for stable limit cycle generation problem
6. Partial feedback linearization and optimization
7. Nonlinear Model Predictive control
8. Dual Model Free control
1. Introduction
2. The inertia wheel inverted pendulum case study
Part II: Control solutions for the stabilisation problem
3. A revisited adaptive sliding mode control scheme
4. Nonlinear RISE feedback control scheme
5. Model reference adaptive IDA-PBC approach
Part III: Control solutions for stable limit cycle generation problem
6. Partial feedback linearization and optimization
7. Nonlinear Model Predictive control
8. Dual Model Free control