Advanced Model Predictive Control for Autonomous Marine Vehicles: Advances in Industrial Control
Autor Yang Shi, Chao Shen, Henglai Wei, Kunwu Zhangen Limba Engleză Paperback – 15 feb 2024
Advanced Model Predictive Control for Autonomous Marine Vehicles balances theoretical rigor – providing thorough analysis and developing provably-correct design conditions – and application perspectives – addressing practical system constraints and implementation issues. Starting with a fixed-point positioning problem for a single vehicle andprogressing to the trajectory-tracking and path-following problem of the vehicle, and then to the coordination control of a large-scale multi-robot team, this book addresses the motion control problems, increasing their level of challenge step-by-step. At each step, related subproblems such as path planning, thrust allocation, collision avoidance, and time constraints for real-time implementation are also discussed with solutions.
In each chapter of this book, compact and illustrative examples are provided to demonstrate the design and implementation procedures. As a result, this book is useful for both theoretical study and practical engineering design, and the tools provided in the book are readily applicable for real-world implementation.
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Paperback (1) | 755.07 lei 6-8 săpt. | |
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Springer International Publishing – 14 feb 2023 | 761.52 lei 3-5 săpt. |
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Specificații
ISBN-13: 9783031193569
ISBN-10: 3031193563
Pagini: 199
Ilustrații: XVI, 199 p. 72 illus., 70 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.31 kg
Ediția:1st ed. 2023
Editura: Springer International Publishing
Colecția Springer
Seria Advances in Industrial Control
Locul publicării:Cham, Switzerland
ISBN-10: 3031193563
Pagini: 199
Ilustrații: XVI, 199 p. 72 illus., 70 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.31 kg
Ediția:1st ed. 2023
Editura: Springer International Publishing
Colecția Springer
Seria Advances in Industrial Control
Locul publicării:Cham, Switzerland
Cuprins
1. Introduction.- 2. AUV Modelling.- 3. Receding Horizon Optimization for Integrated Path Planning and Tracking Control of an AUV.- 4. Lyapunov-Based Model Predictive Control for Dynamic Positioning and Trajectory Tracking Control of an AUV.- 5. Multi-Objective Model Predictive Control for Path Following Control of an AUV.- 6. Efficient Implementation Algorithms for NMPC Trajectory Tracking Control of an AUV.- 7. Distributed Lyapunov-based Model Predictive Formation Tracking Control for AUVs Subject to Disturbances.- 8. Conclusions and Future Work.
Notă biografică
Yang Shi received his Ph.D. degree in electrical and computer engineering from the University of Alberta, Canada, in 2005. From 2005 to 2009, he was an Assistant Professor and an Associate Professor with the Department of Mechanical Engineering, University of Saskatchewan, Canada, before joining the University of Victoria, where he is currently a Professor with the Department of Mechanical Engineering. He was a Visiting Professor with the University of Tokyo, Tokyo, Japan, in 2013. His current research interests include networked and distributed systems, model predictive control, cyber-physical systems, robotics and mechatronics, navigation and control of autonomous systems (AUV and UAV), and energy system applications. Professor Shi has received several professional and academic awards, including the 2017 IEEE Transactions on Fuzzy Systems Outstanding Paper Award for his coauthored paper, and the Humboldt Research Fellowship for Experienced Researchers in 2018. He has been a member of the IEEE IES Administrative Committee since 2017, and is currently the Chair of the IEEE IES Technical Committee on Industrial Cyber-Physical Systems. He has several editorial responsibilities, including being Co-Editor-in-Chief of the IEEE Transactions on Industrial Electronics, an Associate Editor for Automatica, and an Associate Editor for IEEE Transactions on Control Systems Technology. He is a fellow of IEEE, ASME, Engineering Institute of Canada, and Canadian Society for Mechanical Engineering, and a registered Professional Engineer in British Columbia, Canada.Chao Shen received his B.E. degree in automation engineering and M.Sc. in control science and engineering from Northwestern Polytechnical University, China in 2009 and 2012, respectively, and his Ph.D. degree in mechanical engineering from the University of Victoria, Canada, in 2018. His main research interests include model predictive control, robotics, mechatronics, deep learning and computer vision. DrShen was the winner of the 2018 IEEE SMCS Thesis Grant Initiative for his Ph.D. thesis on model predictive control for underwater robotics; the recipient of the Natural Science and Engineering Research Council of Canada (NSERC) Postdoctoral Fellowship in 2020, and he is currently holding a postdoc position with the Real-time Adaptive Control Engineering Lab at University of Michigan. He served as an Associate Editor of the IEEE ISIE 2019 and the IEEE ICCA 2020. He is a member of IEEE.
Henglai Wei received his B.Sc. and M.Sc. degrees in mechanical engineering and automatic control from Northwestern Polytechnical University, Xi’an, China, in 2014 and 2017, respectively. He is currently working toward his Ph.D. degree in mechanical engineering with the University of Victoria, Canada. His current research interests include distributed model predictive control, multi-agent systems, and cooperative marine robots. He is an active reviewer for more than ten international journalsand conferences.
Kunwu Zhang received his M.A.Sc. and Ph.D. degrees in Mechanical Engineering from the University of Victoria, BC, Canada, in 2016 and 2021, respectively. Currently, he is a Postdoctoral Research Fellow and Lecturer with the Department of Mechanical Engineering, University of Victoria, BC, Canada. His current research interests include adaptive control, model predictive control, data-driven control, optimization, and mechatronics. He is an active reviewer for more than 15 international journals and conferences.
Henglai Wei received his B.Sc. and M.Sc. degrees in mechanical engineering and automatic control from Northwestern Polytechnical University, Xi’an, China, in 2014 and 2017, respectively. He is currently working toward his Ph.D. degree in mechanical engineering with the University of Victoria, Canada. His current research interests include distributed model predictive control, multi-agent systems, and cooperative marine robots. He is an active reviewer for more than ten international journalsand conferences.
Kunwu Zhang received his M.A.Sc. and Ph.D. degrees in Mechanical Engineering from the University of Victoria, BC, Canada, in 2016 and 2021, respectively. Currently, he is a Postdoctoral Research Fellow and Lecturer with the Department of Mechanical Engineering, University of Victoria, BC, Canada. His current research interests include adaptive control, model predictive control, data-driven control, optimization, and mechatronics. He is an active reviewer for more than 15 international journals and conferences.
Textul de pe ultima copertă
This book provides a comprehensive overview of marine control system design related to underwater robotics applications. In particular, it presents novel optimization-based model predictive control strategies to solve control problems appearing in autonomous underwater vehicle applications. These novel approaches bring unique features, such as constraint handling, prioritization between multiple design objectives, optimal control performance, and robustness against disturbances and uncertainties, into the control system design. They therefore form a more general framework to design marine control systems and can be widely applied.
Advanced Model Predictive Control for Autonomous Marine Vehicles balances theoretical rigor – providing thorough analysis and developing provably-correct design conditions – and application perspectives – addressing practical system constraints and implementation issues. Starting with a fixed-point positioning problem for a single vehicleand progressing to the trajectory-tracking and path-following problem of the vehicle, and then to the coordination control of a large-scale multi-robot team, this book addresses the motion control problems, increasing their level of challenge step-by-step. At each step, related subproblems such as path planning, thrust allocation, collision avoidance, and time constraints for real-time implementation are also discussed with solutions.
In each chapter of this book, compact and illustrative examples are provided to demonstrate the design and implementation procedures. As a result, this book is useful for both theoretical study and practical engineering design, and the tools provided in the book are readily applicable for real-world implementation.
Advanced Model Predictive Control for Autonomous Marine Vehicles balances theoretical rigor – providing thorough analysis and developing provably-correct design conditions – and application perspectives – addressing practical system constraints and implementation issues. Starting with a fixed-point positioning problem for a single vehicleand progressing to the trajectory-tracking and path-following problem of the vehicle, and then to the coordination control of a large-scale multi-robot team, this book addresses the motion control problems, increasing their level of challenge step-by-step. At each step, related subproblems such as path planning, thrust allocation, collision avoidance, and time constraints for real-time implementation are also discussed with solutions.
In each chapter of this book, compact and illustrative examples are provided to demonstrate the design and implementation procedures. As a result, this book is useful for both theoretical study and practical engineering design, and the tools provided in the book are readily applicable for real-world implementation.
Caracteristici
Offers a thorough review of state-of-the-art methods for autonomous underwater vehicle control system design Presents unique marine control system methods, overcoming motion-control problems Includes clear real-world examples to demonstrate methods developed throughout