Adaptive Cruise Control System Design and Its Impact on Traffic Flow
Adaptive Cruise Control System Design and Its Impact on Traffic Flow

Author:

Publisher:

Published: 2005

Total Pages: 182

ISBN-13:

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This study resolves the controversy over the stability of constant time-gap policy for highway traffic flow. Previous studies left doubt as to the effectiveness of constant time-gap policies and whether they maintain stability in all traffic conditions. The results of this study prove that the constant time gap policy is in fact stable to a limit. At this limit, depending on the boundary conditions, conditions lose their stability. This study develops alternative ways to maintain the balance between safety and traffic flow for ACC vehicles that does not rely on constant time-gap policies. New spacing policies will create more stability, and therefore safer conditions, and allow for greater traffic capacity.

Handbook of Intelligent Vehicles
Handbook of Intelligent Vehicles

Author: Azim Eskandarian

Publisher: Springer

Published: 2012-02-26

Total Pages: 0

ISBN-13: 9780857290847

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The Handbook of Intelligent Vehicles provides a complete coverage of the fundamentals, new technologies, and sub-areas essential to the development of intelligent vehicles; it also includes advances made to date, challenges, and future trends. Significant strides in the field have been made to date; however, so far there has been no single book or volume which captures these advances in a comprehensive format, addressing all essential components and subspecialties of intelligent vehicles, as this book does. Since the intended users are engineering practitioners, as well as researchers and graduate students, the book chapters do not only cover fundamentals, methods, and algorithms but also include how software/hardware are implemented, and demonstrate the advances along with their present challenges. Research at both component and systems levels are required to advance the functionality of intelligent vehicles. This volume covers both of these aspects in addition to the fundamentals listed above.

Design of Switching Strategy for Adaptive Cruise Control Under String Stability Constraints
Design of Switching Strategy for Adaptive Cruise Control Under String Stability Constraints

Author: Yao Zhai

Publisher:

Published: 2010

Total Pages: 138

ISBN-13:

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An Adaptive Cruise Control (ACC) system is a driver assistance system that assists a driver to improve driving safety and driving comfort. The design of ACC controller often involves the design of a switching logic that decides where and when to switch between the two modes in order to ameliorate driving comfort, mitigate the chance of a potential collision with the preceding vehicle while reduce long-distance driving load from the driver. In this thesis, a new strategy for designing ACC controller is proposed. The proposed control strategy utilizes Range vs. Range-rate chart to illustrate the relationship between headway distance and velocity difference, and then find out a constant deceleration trajectory on the chart, which the following vehicle is controlled to follow. This control strategy has a shorter elapsed time than existing ones while still maintaining a relatively safe distance during transient process. String stability issue has been addressed by many researchers after the adaptive cruise control (ACC) concept was developed. The main problem is when many vehicles with ACC controller forming a vehicle platoon end to end, how the control algorithm is designed to ensure that the spacing error, which is the deviation of the actual range from the desired headway distance, would not amplify as the number of following vehicles increases downstream along the platoon. In this thesis, string stability issues have been taken into consideration and constraints of parameters of an ACC controller are derived to mitigate steady state error propagation.

Control of Mechatronic Systems
Control of Mechatronic Systems

Author: Levent Güvenç

Publisher: IET

Published: 2017-05-16

Total Pages: 217

ISBN-13: 1785611445

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This book introduces researchers and advanced students with a basic control systems background to an array of control techniques which they can easily implement and use to meet the required performance specifications for their mechatronic applications. It is the result of close to two decades of work of the authors on modeling, simulating and controlling different mechatronic systems from the motion control, automotive control and micro and nano-mechanical systems control areas. The methods presented in the book have all been tested by the authors and a very large group of researchers, who have produced practically implementable controllers with highly successful results.

Proceedings of 10th International Conference on Mechatronics and Control Engineering
Proceedings of 10th International Conference on Mechatronics and Control Engineering

Author: Giuseppe Conte

Publisher: Springer Nature

Published: 2022-07-13

Total Pages: 191

ISBN-13: 9811915407

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This volume consists of selected peer reviewed papers from the 10th International Conference on Mechatronics and Control Engineering (ICMCE 2021) discussing latest advances in mechanical engineering and dynamic analysis, sensor technology and application, mechanical design and system modelling, control system and engineering, robot design and control engineering, development and performance analysis of functional materials. Additional themes include methodologies, algorithms, applications and knowledge discovery in mechatronics and control engineering. This volume will prove a valuable resource for those in academia and industry.

Vehicular Platoon System Design
Vehicular Platoon System Design

Author: Hui Zhang

Publisher: Elsevier

Published: 2024-08-13

Total Pages: 316

ISBN-13: 0443298580

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Vehicular Platoon System Design: Fundamentals and Robustness provides a comprehensive introduction to connected and automated vehicular platoon system design. Platoons decrease the distances between cars or trucks using electronic, and possibly mechanical, coupling. This capability allows many cars or trucks to accelerate or brake simultaneously. It also allows for a closer headway between vehicles by eliminating reacting distance needed for human reaction. The book considers the key issues of robustness and cybersecurity, with optimization-based model predictive control schemes applied to control vehicle platoon.In the controller design part, several practical problems, such as constraint handling, optimal control performance, robustness against disturbance, and resilience against cyberattacks are reviewed. In addition, the book provides detailed theoretical analysis of the stability of the platoon under different control schemes. - Provides a comprehensive introduction to the state-of-the-art development of connected and automated vehicular platoon systems - Covers the advanced, robust and stochastic model predictive control algorithm design methods for constraint handling and robustness improvement - Introduces rigorous theoretical stability analysis from the robust tube-based distributedMPC (Model Predictive Control) and stochastic tube-based distributed MPC perspectives - Offers various filter-based inter-vehicle attack detection methods and event-based resilient vehicle platoon control design methods

Integrated Roadway/adaptive Cruise Control System
Integrated Roadway/adaptive Cruise Control System

Author: Jianlong Zhang

Publisher:

Published: 2004

Total Pages: 78

ISBN-13:

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In this project, we design two new Adaptive Cruise Control (ACC) systems based on driver comfort, safety, vehicle following performance, environmental and traffic flow characteristics considerations. A new variable time headway rule is proposed and used to meet these considerations. Analysis and simulations are used to evaluate and compare the two designs. The first ACC system (referred to as ACC01) incorporates two controllers: one for speed tracking and one for vehicle following. The second ACC system (referred to as ACC02) treats the vehicle following task as a special speed tracking task and incorporates more intelligence in dealing with disturbance rejection, smooth response and safe vehicle following without affecting travel time. It provides better transient performance than ACC01, and can attenuate oscillations in the speed response of the preceding vehicle. It has also been shown that ACC02 provides better fuel economy and emission results than ACC01. The ACC02 design will be used for subsequent studies in a continuation project.