Design and Advanced Robust Chassis Dynamics Control for X-by-Wire Unmanned Ground Vehicle PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Design and Advanced Robust Chassis Dynamics Control for X-by-Wire Unmanned Ground Vehicle PDF full book. Access full book title Design and Advanced Robust Chassis Dynamics Control for X-by-Wire Unmanned Ground Vehicle by Jun NI. Download full books in PDF and EPUB format.
Author: Jun NI Publisher: Morgan & Claypool Publishers ISBN: 1681732521 Category : Technology & Engineering Languages : en Pages : 144
Book Description
X-by-wire Unmanned Ground Vehicles (UGVs) have been attracting increased attention for various civilian or military applications. The x-by-wire techniques (drive-by-wire, steer-by-wire, and brake-by-wire techniques) provide the possibility of achieving novel vehicle design and advanced dynamics control, which can significantly improve the overall performance, maneuverability, and mobility of the UGVs. However, there are few full x-by-wire UGVs prototype models reported in the world. Therefore, there is no book that can fully describe the design, configuration, and dynamics control approach of full x-by-wire UGVs, which makes it difficult for readers to study this hot and interesting topic. In this book, we use a full x-by-wire UGV, developed by our group, as the example. This UGV is completely x-by-wire with four in-wheel motors driven and a four-wheel independent steer steer. In this book, the overall design of the UGV, the design of the key subsystems (battery pack system, in-wheel motor-driven system, independent steer system, remote and autonomous control system), and the dynamics control approach will be introduced in detail, and the experiment's results will be provided to validate the proposed dynamics control approach.
Author: Jun NI Publisher: Morgan & Claypool Publishers ISBN: 1681732521 Category : Technology & Engineering Languages : en Pages : 144
Book Description
X-by-wire Unmanned Ground Vehicles (UGVs) have been attracting increased attention for various civilian or military applications. The x-by-wire techniques (drive-by-wire, steer-by-wire, and brake-by-wire techniques) provide the possibility of achieving novel vehicle design and advanced dynamics control, which can significantly improve the overall performance, maneuverability, and mobility of the UGVs. However, there are few full x-by-wire UGVs prototype models reported in the world. Therefore, there is no book that can fully describe the design, configuration, and dynamics control approach of full x-by-wire UGVs, which makes it difficult for readers to study this hot and interesting topic. In this book, we use a full x-by-wire UGV, developed by our group, as the example. This UGV is completely x-by-wire with four in-wheel motors driven and a four-wheel independent steer steer. In this book, the overall design of the UGV, the design of the key subsystems (battery pack system, in-wheel motor-driven system, independent steer system, remote and autonomous control system), and the dynamics control approach will be introduced in detail, and the experiment's results will be provided to validate the proposed dynamics control approach.
Author: Jun NI Publisher: Springer Nature ISBN: 3031014960 Category : Technology & Engineering Languages : en Pages : 130
Book Description
X-by-wire Unmanned Ground Vehicles (UGVs) have been attracting increased attention for various civilian or military applications. The x-by-wire techniques (drive-by-wire, steer-by-wire, and brake-by-wire techniques) provide the possibility of achieving novel vehicle design and advanced dynamics control, which can significantly improve the overall performance, maneuverability, and mobility of the UGVs. However, there are few full x-by-wire UGVs prototype models reported in the world. Therefore, there is no book that can fully describe the design, configuration, and dynamics control approach of full x-by-wire UGVs, which makes it difficult for readers to study this hot and interesting topic. In this book, we use a full x-by-wire UGV, developed by our group, as the example. This UGV is completely x-by-wire with four in-wheel motors driven and a four-wheel independent steer steer. In this book, the overall design of the UGV, the design of the key subsystems (battery pack system, in-wheel motor-driven system, independent steer system, remote and autonomous control system), and the dynamics control approach will be introduced in detail, and the experiment's results will be provided to validate the proposed dynamics control approach.
Author: Jun Ni Publisher: Morgan & Claypool ISBN: 9781681732510 Category : Technology & Engineering Languages : en Pages : 130
Book Description
X-by-wire Unmanned Ground Vehicles (UGVs) have been attracting increased attention for various civilian or military applications. The x-by-wire techniques (drive-by-wire, steer-by-wire, and brake-by-wire techniques) provide the possibility of achieving novel vehicle design and advanced dynamics control, which can significantly improve the overall performance, maneuverability, and mobility of the UGVs. However, there are few full x-by-wire UGVs prototype models reported in the world. Therefore, there is no book that can fully describe the design, configuration, and dynamics control approach of full x-by-wire UGVs, which makes it difficult for readers to study this hot and interesting topic. In this book, we use a full x-by-wire UGV, developed by our group, as the example. This UGV is completely x-by-wire with four in-wheel motors driven and a four-wheel independent steer steer. In this book, the overall design of the UGV, the design of the key subsystems (battery pack system, in-wheel motor-driven system, independent steer system, remote and autonomous control system), and the dynamics control approach will be introduced in detail, and the experiment's results will be provided to validate the proposed dynamics control approach.
Author: V.V. Vantsevich Publisher: IOS Press ISBN: 1614995761 Category : Technology & Engineering Languages : en Pages : 408
Book Description
Classical vehicle dynamics, which is the basis for manned ground vehicle design, has exhausted its potential for providing novel design concepts to a large degree. At the same time, unmanned ground vehicle (UGV) dynamics is still in its infancy and is currently being developed using general analytical dynamics principles with very little input from actual vehicle dynamics theory. This technical book presents outcomes from the NATO Advanced Study Institute (ASI) ‘Advanced Autonomous Vehicle Design for Severe Environments’, held in Coventry, UK, in July 2014. The ASI provided a platform for world class professionals to meet and discuss leading-edge research, engineering accomplishments and future trends in manned and unmanned ground vehicle dynamics, terrain mobility and energy efficiency. The outcomes of this collective effort serve as an analytical foundation for autonomous vehicle design. Topics covered include: historical aspects, pivotal accomplishments and the analysis of future trends in on- and off-road manned and unmanned vehicle dynamics; terramechanics, soil dynamic characteristics, uncertainties and stochastic characteristics of vehicle-environment interaction for agile vehicle dynamics modeling; new methods and techniques in on-line control and learning for vehicle autonomy; fundamentals of agility and severe environments; mechatronics and cyber-physics issues of agile vehicle dynamics to design for control, energy harvesting and cyber security; and case studies of agile and inverse vehicle dynamics and vehicle systems design, including optimisation of suspension and driveline systems. The book targets graduate students, who desire to advance further in leading-edge vehicle dynamics topics in manned and unmanned ground vehicles, PhD students continuing their research work and building advanced curricula in academia and industry, and researchers in government agencies and private companies.
Author: Philip L. Frana Publisher: Bloomsbury Publishing USA ISBN: 1440853274 Category : Technology & Engineering Languages : en Pages : 405
Book Description
This authoritative reference work will provide readers with a complete overview of artificial intelligence (AI), including its historic development and current status, existing and projected AI applications, and present and potential future impact on the United States and the world. Some people believe that artificial intelligence (AI) will revolutionize modern life in ways that improve human existence. Others say that the promise of AI is overblown. Still others contend that AI applications could pose a grave threat to the economic security of millions of people by taking their jobs and otherwise rendering them "obsolete"-or, even worse, that AI could actually spell the end of the human race. This volume will help users understand the reasons AI development has both spirited defenders and alarmed critics; explain theories and innovations like Moore's Law, mindcloning, and Technological Singularity that drive AI research and debate; and give readers the information they need to make their own informed judgment about the promise and peril of this technology. All of this coverage is presented using language and terminology accessible to a lay audience.
Author: Amr Mohamed Publisher: ISBN: Category : Languages : en Pages : 0
Book Description
Recent years have seen considerable progress towards the goal of autonomous and unmanned ground vehicles which became essential for conducting military operations. These autonomous vehicles have the capability to operate and react to their environments without external control. Autonomous multi-wheeled combat vehicles are crucial for military applications which offer numerous leverages on modern battlefields. Applying autonomy features to such vehicles significantly increases its combat capabilities and expands its applications to work-day and night for risky missions compared with traditional manned ground vehicles. However, it is associated with some challenges because of their large dimension, heavy weight, and complex geometry. Therefore, the development of autonomous combat vehicles has become a cutting-edge research topic in robotics and automotive engineering. This thesis focuses on the control issues related to applying autonomous features for the multi-wheeled combat vehicles due to their significant influence especially when navigating in the presence of obstacles. The primary concern of path planning is to compute collision-free paths. Another equally important issue is to compute a realizable path and, if possible, achieving an optimal path bringing the vehicle to the final position. For these purposes, the developed methodology considers the combination between the optimal control theory using Pontryagin's Minimum Principle (PMP) and Artificial Potential Filed (APF). In addition, a four-axle bicycle model of the actual multi-wheeled combat vehicle considering the vehicle body lateral and yaw dynamics is developed. To generate the vehicle optimal path in real time, an Artificial Neural Network (ANN) model is proposed. The introduced ANN model allows the vehicle to carry out an autonomous navigation in real time with maintaining the path optimality by considering the vehicle parameters in terms of yaw rate, lateral velocity, heading angle and steering angle. Subsequently, a comparative study and performance analysis of the developed optimal path algorithm using PMP with Dynamic Programming (DP) method was carried out in order to guarantee the global optimum solution. Determining the accurate vehicle position offers sufficient capabilities which increase the autonomy and safety features, especially in case of off-road locomotion. In this regard, a hybrid framework for positioning technique based on the integration of GPS/INS for combat vehicles is developed. The developed algorithm is able to provide an accurate and reliable vehicle positioning information, even if the number of visible satellites is less than four, due to the harsh vehicle operation environments. In this work, a scaled multi-wheeled combat vehicle model was developed using system identification methodology. Different system identification methods are considered and applied to solve and identify this problem. An advanced control system in terms of fuzzy logic, robust, and PID control systems are designed. In addition, the Processor-In-the-Loop co-simulation (PIL) is considered, which permits and achieves a more realistic situation where the developed control algorithms running on a dedicated processor. The performance and effectiveness of the developed controllers are evaluated for vehicle heading angle tracking using different predefined heading angles. Furthermore, a comparative evaluation to assess the feasibility of the developed control algorithms is discussed. Finally, it should be stated that this work offers the first attempt in the open literature to control the scaled multi-wheeled combat vehicle using different advanced control techniques such as, fuzzy logic, [...]∞.
Author: Xiaodong Wu Publisher: CRC Press ISBN: 1040032303 Category : Technology & Engineering Languages : en Pages : 191
Book Description
Advanced Chassis Control Technology for Steer-by-Wire Vehicles details state-of-the-art drive-by-wire technology, enabling engineers to create safer and smarter steering technology. With applications in Formula 1 driving, this book is an accessible yet ambitious introduction to the technology that is fast becoming the future of road vehicles. Steer-by-wire systems replace conventional mechanical technology with electronic sensors, controllers, and actuators, enhancing functionality when steering. Features such as variable steer ratio, customized road feel, and advanced vehicle dynamics control all ensure that this maximizes safety when driving. The book looks first at the theory behind this technology and compares it to conventional mechanical steering. It discusses control through forward and backward dynamics and a shared steering control concept to improve vehicle handling and performance, relevant to intelligent vehicles. It also explains how to create chassis domain fusion control, four independent wheels steering system and teleoperated control. Using case studies and ISOs, the book is a practical guide to safely designing steer-by-wire systems. The book is an essential guide to all engineers working in the modern automotive industry.
Author: Publisher: ISBN: Category : Languages : en Pages : 39
Book Description
The main objective of the proposed research is to improve various stability and handling qualities (such as Roll Over stability, Lane Change maneuver stability etc) of military, off road, unmanned multi-body ground vehicles within as wide operating envelope as possible under the presence of uncertainty in vehicle model parameters as well as under various sensor, actuator and component faults. Armed with important and award winning theoretical tools in linear and nonlinear uncertain systems theory developed by the PI, in this research project, we attempt to design advanced and sophisticated control systems to improve the roll over stability and other performance objectives of multi-body ground vehicles over as wide range of speed and terrain characteristics as possible and to improve the stability and performance characteristics of these vehicles under various faults. The analysis and design algorithms resulting from these sound theoretical bases are then applied to multi-body ground vehicle stability and control problem with military vehicle application.
Author: Yue Ma Publisher: Academic Press ISBN: 0128188006 Category : Technology & Engineering Languages : en Pages : 361
Book Description
Dynamics and Advanced Motion Control of Unmanned Ground Off-Road Vehicles details both theoretical concepts such as planning and perception when working with UGVs, as well as more practical, hands-on aspects such as torque vectoring control. The book also covers related technologies such as intelligent and electrification of ground vehicles. After an introduction, initial chapters include an exploration of wheel-soil and track-soil interaction mechanisms, motion stability, motion control, fault detection and identification, and fault tolerance control. This book offers readers a detailed understanding of Unmanned Ground Vehicles by combining theory, applications and further developments. Topics are covered in such a way that readers will be well versed on the current field of UGVs and will be able to implement future design and research in a feasible and effective way. Gives a comprehensive analysis and introduction to the dynamics and advanced motion control of unmanned ground off-road vehicles Covers key related technology concepts, such as intelligent and electrification of ground vehicles Details the entire control framework of off-road UGVs and the implementation of controller design
Author: Yong Li Publisher: Mdpi AG ISBN: 9783036580562 Category : Technology & Engineering Languages : en Pages : 0
Book Description
Advanced X-by-wire technologies for vehicular electrified chassis play an essential role in the development of new energy intelligent vehicles, which is the inevitable choice for intelligent vehicles in the future. This technology is involved in mechanical engineering, electronic and electrical engineering, computer technology, control engineering, signal processing, and artificial intelligence. Advanced electrified chassis control technology transmits control signals through cables and acts directly on the actuator to implement corresponding actions. The application of X-by-wire technologies for vehicular electrified chassis has changed the complex mechanical connections among actuators and hydraulic and pneumatic equipment in the past, greatly promoting energy efficiency, integration, and intelligence. This book focuses on advanced X-by-wire technologies in strong reliability design, modeling, integration control, thermal management, energy management, fault diagnosis, and fault-tolerant control with the vehicular electrified chassis. Therefore, the aim of this book is to solicit recent advanced X-by-wire technologies for vehicular electrified chassis.
Author: Jun NI
Author: Jun NI
Author: Jun NI
Author: Jun Ni
Author: V.V. Vantsevich
Author: Philip L. Frana
Author: Amr Mohamed
Author: Xiaodong Wu
Author: 
Author: Yue Ma
Author: Yong Li