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This book systematically introduces the two core technologies of hub motor and distributed drive control, and describes vehicle parameter estimation and dynamic modeling as the design basis of distributed drive control strategy based on the author's research results and engineering practice, starting from the introduction to distributed drive control of hub motor. The content systematically describes the specific control strategy design method of distributed drive and brake, and the software/hardware in-the-loop test technology for distributed drive control. The related intelligent driving technology based on distributed drive vehicle is also introduced in the book. This book can be used as a reference for automotive industry professionals engaged in new energy vehicle development, electric powertrain research, hub motor research, etc. It can also be used as a reference book for teachers and students majoring in automotive in colleges and universities. The basis of English translation of this book, originally in Chinese, was facilitated by artificial intelligence. The content was later revised by the author for accuracy.
This book focuses on the control-by-wire system, particularly the steer-by-wire system, as well as its control and optimization issues in chassis integration. The steering stability of the vehicle, handling portability, and overall performance of the chassis system are improved by steer-by-wire technology, which includes stability control, road-feeling control, decoupling control, force and displacement coordinated control, and chassis integration optimization. Furthermore, intelligent control goals such as active collision avoidance and active rollover prevention of the vehicle are realized, and the active safety of the vehicle is increased, due to the integrated control of the steer-by-wire system and chassis system. In this book, different types of steer-by-wire systems are introduced, as well as thorough force and displacement control strategies and their implementation in chassis integrated control, ensuring the intelligent and unmanned driving's control reaction speed and precision.
This book focuses on transmission systems for pure electric and hybrid vehicles. It first discusses system development and optimization technologies, comprehensively and systematically describing the development trends, structures and technical characteristics, as well as the related technologies and methods. It highlights the principles, implementation process and energy management of the power transmission system based on the pure electric and hybrid mode management method, and examines the reliability and NVH characteristic tests and optimization technologies. Combining research theory and engineering practice, the book is a valuable reference resource for engineering and technical professionals in the field of automobile and related power transmission machinery as well as undergraduate and graduate students.
Scientists and engineers are working constantly to develop and improve the materials, machines and vehicles that are part of all our daily lives, and keeping abreast of advances in these fields is important to all those engaged in such efforts. This book presents the proceedings of NMMVE 2023, the 2nd International Conference on New Materials, Machinery, and Vehicle Engineering, held in Guiyang, China, from 2 - 4 June 2023. The conference brings together researchers, academics, and industrial professionals from around the world to discuss the latest advancements in the fields of new materials, machinery, and vehicle engineering. A total of 149 submissions were received for presentation at the conference, of which 57 were ultimately accepted after a rigorous three-part single blind review process. A wide variety of topics is covered in the papers, which are divided into 3 categories: machinery, new materials, and vehicle engineering. The book provides a valuable overview of the latest developments and breakthroughs, and will be of interest to all researchers and professionals working in the fields of new materials, machinery, and vehicle engineering.
This book belongs to the field of intelligent vehicle control, which is dedicated to the research of nonlinear control problems of intelligent vehicle chassis-by-wire systems. Through the nonlinear stability control of the steer-by-wire system and the consistency optimization control of the brake-by-wire system, the performance of the vehicle subsystem is improved. Then, the decoupling control of the nonlinear inverse system is used to realize the decoupling of the chassis-by-wire system. Finally, this book further adopts nonlinear rollover prevention integrated control to improve the rollover prevention performance of the vehicle.
This volume gathers the latest advances, innovations and applications in the field of condition monitoring, plant maintenance and reliability, as presented by leading international researchers and engineers at the 5th International Conference on Maintenance Engineering and the 2020 Annual Conference of the Centre for Efficiency and Performance Engineering Network (IncoME-V & CEPE Net-2020), held in Zhuhai, China on October 23-25, 2020. Topics include vibro-acoustics monitoring, condition-based maintenance, sensing and instrumentation, machine health monitoring, maintenance auditing and organization, non-destructive testing, reliability, asset management, condition monitoring, life-cycle cost optimisation, prognostics and health management, maintenance performance measurement, manufacturing process monitoring, and robot-based monitoring and diagnostics. The contributions, which were selected through a rigorous international peer-review process, share exciting ideas that will spur novel research directions and foster new multidisciplinary collaborations.
These proceedings gather selected papers from the 9th International Conference on Green Intelligent Transportation Systems and Safety, held in Guilin, China on July 1-3, 2018. They feature cutting-edge studies on Green Intelligent Mobility Systems, the guiding motto being to achieve “green, intelligent, and safe transportation systems.” The contributions presented here can help promote the development of green mobility and intelligent transportation technologies to improve interconnectivity, resource sharing, flexibility and efficiency. Given its scope, the book will benefit researchers and engineers in the fields of Transportation Technology and Traffic Engineering, Automotive and Mechanical Engineering, Industrial and System Engineering, and Electrical Engineering alike.