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Autonomous Electric Vehicles - Gerasimos Rigatos, Masoud Abbaszadeh, Pierluigi Siano, Patrice Wira

Autonomous Electric Vehicles

Nonlinear Control, Traction, and Propulsion
Buch | Softcover
400 Seiten
2025
Elsevier - Health Sciences Division (Verlag)
978-0-443-28854-8 (ISBN)
CHF 379,95 inkl. MwSt
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The integration of ground-breaking technologies, such as next-generation batteries and AI-powered systems, promises to reshape the way we commute, transport goods, and navigate our cities. Autonomous Electric Vehicles: Nonlinear Control, Traction, and Propulsion offers sought-after, specialized know-how on robotized electric vehicles (ground, surface, underwater, aerial). The book builds on theoretical fundamentals to then comprehensively cover the very latest research advances in nonlinear control, estimation, and fault diagnosis for autonomous navigation and electric traction systems. Part I investigates nonlinear optimal control and estimation of a specific class of vehicle per chapter, while part II control and dynamic modeling of a specific type of electric motor per chapter. Furthermore, the methodological analysis conducted is not constrained by the shortcomings of global linearization-based control algorithms, is computationally easy to implement, and is also corroborated by global robustness and stability proofs. Case studies and other practical application discussions exemplify these methods’ potential prospects if adopted at commercial scale. Readers from a wide range of related disciplines will benefit from the structured, modular approach of the volume, which was written by a group of experts with backgrounds both in academia and industry, whose aim is also to contribute transformative solutions to accelerate the global low-carbon power transition as well as smart energy management systems for the continuing shift to renewables.

Dr. Rigatos is Research Director at the Industrial Systems Institute, Greece. He has led research cooperation projects in the areas of nonlinear control, nonlinear filtering, and control of distributed parameter systems. His results have appeared in well-received research monographs. Since 2007, he has been awarded visiting professor positions at several academic institutes (Université Paris XI, France; Harper-Adams University College, UK; University of Northumbria, UK; University of Salerno, Italy; École Centrale de Nantes, France). He is a Senior Member of IEEE and a Member and CEng of the IET. He holds an Editor's position for the International Journal of Advanced Robotic Systems (SAGE) and for the Journal of Electrified Vehicles (SAE International). He received a PhD from the Department of Electrical and Computer Engineering of the National Technical University of Athens (NTUA), Greece, in 2000. Masoud Abbaszadeh received a PhD in Electrical and Computer Engineering from the University of Alberta in 2008. From 2008 to 2011, he was with Maplesoft, Ontario, Canada, as a Research Engineer. He was the principal developer of the MapleSim Control Design Toolbox and a member of a Maplesoft-Toyota joint research team. From 2011 to 2013, he was a Senior Research Engineer at United Technologies Research Center, CT, USA, working on advanced control systems, and complex systems modeling and simulation. Since 2013, he has been with GE Research Center, NY, USA, where he is currently a Principal Research Engineer and technical leader of the cyber-physical security and resilience portfolio. His research interests include estimation and detection theory, robust and nonlinear control, and machine learning with applications in cyber-physical resilience. He is an Associate Editor of IEEE Transactions on Control Systems Technology, a member of the IEEE CSS Conference Editorial Board, and has over 60 patents credited to his name. Dr. Siano received a PhD in Information and Electrical Engineering from the University of Salerno, Salerno, Italy, in 2006. He is a Professor and the Scientific Director of the Smart Grids and Smart Cities Laboratory with the Department of Management and Innovation Systems of the University of Salerno. Since 2021, he has been a Distinguished Visiting Professor in the Department of Electrical and Electronic Engineering Science at the University of Johannesburg, South Africa. His research activities are focused on demand response, energy management, the integration of distributed energy resources in smart grids, electricity markets, and planning and management of power systems. He is a prolific author and, in 2019, 2020, and 2021, was awarded as a Highly Cited Researcher in Engineering by the ISI Web of Science Group. He is Editor for several IEEE journals, including the Power & Energy Society Section of IEEE Access, IEEE Transactions on Power Systems, IEEE Transactions on Industrial Informatics, IEEE Transactions on Industrial Electronics, and IEEE Systems. Dr. Wira received a PhD in Electrical Engineering from Université de Haute Alsace in 2002. He has published several journal papers, book chapters, and conference papers. He has also chaired and co-chaired numerous sessions and special sessions on intelligent control and machine learning issues. His current research interests focus on artificial neural networks, adaptive control systems, neuro-control, and especially their applicability to robotics and active power filtering. He has been a senior member of IEEE since 2013. He has served as an associate editor for the Energy section of the Heliyon Journal (Cell Press) since 2022.

Part I. Control and estimation of robotized vehicles’ dynamics and kinematics
1. Nonlinear optimal control and Lie algebra-based control
2. Flatness-based control in successive loops for complex nonlinear dynamical systems
3. Nonlinear optimal control for car-like front-wheel steered autonomous ground vehicles
4. Nonlinear optimal control for skid-steered autonomous ground vehicles
5. Flatness-based control in successive loops for 3-DOF unmanned surface vessels
6. Flatness-based control in successive loops for 3-DOF autonomous underwater vessels
7. Flatness-based control in successive loops for 6-DOF autonomous underwater vessels
8. Flatness-based control in successive loops for 6-DOF autonomous quadrotors
9. Flatness-based control in successive loops for 6-DOF autonomous octocopters
10. Nonlinear optimal control for 6-DOF tilt rotor autonomous quadrotors
11. Flatness-based adaptive neurofuzzy control of the four-wheel autonomous ground vehicles
12. H-infinity adaptive neurofuzzy control of the four-wheel autonomous ground vehicles
13. Fault diagnosis for four-wheel autonomous ground vehicles

Part II. Control and estimation of electric autonomous vehicles’ traction
14. Flatness-based control in successive loops for VSI-fed three-phase permanent magnet synchronous motors
15. Flatness-based control in successive loops for VSI-fed three-phase induction motors
16. Flatness-based control in successive loops and nonlinear optimal control for five-phase permanent magnet synchronous motors
17. Flatness-based control in successive loops for VSI-fed six-phase asynchronous motors
18. Flatness-based control in successive lops for nine-phase permanent magnet synchronous motors
19. Flatness-based control in successive loops of a vehicle’s clutch with actuation for permanent magnet linear synchronous motors
20. Flatness-based control in successive loops for electrohydraulic actuators
21. Flatness-based control in successive loops for electropneumatic actuators
22. Flatness-based adaptive neurofuzzy control of three-phase permanent magnet synchronous motors
23. H-infinity adaptive neurofuzzy control of three-phase permanent magnet synchronous motors
24. Fault diagnosis of a hybrid electric vehicle’s powertrain

Erscheint lt. Verlag 1.3.2025
Verlagsort Philadelphia
Sprache englisch
Maße 152 x 229 mm
Themenwelt Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Technik Fahrzeugbau / Schiffbau
ISBN-10 0-443-28854-2 / 0443288542
ISBN-13 978-0-443-28854-8 / 9780443288548
Zustand Neuware
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