Fractional-order-based ACC/CACC algorithm for improving string stability

Flores Carlos; Milanes Vicente

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Fractional-order-based ACC/CACC algorithm for improving string stability

机译：基于分数阶的ACC / CACC算法可提高字符串稳定性

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Traffic flow optimization and driver comfort enhancement are the main contributions of an Adaptive Cruise Control (ACC) system. If communication links are added, more safety and shorter gaps can be reached performing a Cooperative-ACC (CACC). Although shortening the inter-vehicular distances directly improves traffic flow, it can cause string unstable behavior. This paper presents fractional-order-based control algorithms to enhance the car-following and string stability performance for both ACC and CACC vehicle strings, including communication temporal delay effects. The proposed controller is compared with state-of-the-art implementations, exhibiting better performance. Simulation and real experiments have been conducted for validating the approach.

机译：交通流优化和驾驶员舒适度提高是自适应巡航控制（ACC）系统的主要贡献。如果添加了通信链接，则执行协作ACC（CACC）可以达到更高的安全性和更短的间隔。尽管缩短车辆之间的距离可以直接改善交通流量，但这可能会导致字符串不稳定。本文提出了基于分数阶的控制算法，以增强ACC和CACC车辆弦的跟随性和弦稳定性，包括通信时间延迟效应。所提出的控制器与最新的实现方案进行了比较，表现出更好的性能。为了验证该方法已进行了仿真和实际实验。

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来源
《Transportation research》 |2018年第10期|381-393|共13页
作者
Flores Carlos; Milanes Vicente;
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作者单位

INRIA Paris, Robot & Intelligent Transportat Syst RITS Team, 2 Rue Simone Iff, F-75012 Paris, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Adaptive cruise control; Cooperative adaptive cruise control; String stability; Fractional-order calculus; Cooperative systems; Intelligent transportation systems;

机译：自适应巡航控制;自适应自适应巡航控制;弦稳定性;分数阶演算;协作系统;智能交通系统;

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专利

1. Effects of ACC and CACC vehicles on traffic flow based on an improved variable time headway spacing strategy [J] . Chen Jianzhong, Zhou Yang, Liang Huan Intelligent Transport Systems, IET . 2019,第9期

机译：基于改进的可变时距间距策略的ACC和CACC车辆对交通流量的影响
2. Communication delay compensation for string stability of CACC system using LSTM prediction [J] . Tian Bin, Wang Guanqun, Xu Zhigang, Vehicular Communications . 2021,第Juna期

机译：使用LSTM预测的CACC系统字符串稳定性的通信延迟补偿
3. Evaluation of CACC string stability using SUMO, Simulink, and OMNeT++ [J] . Chenxi Lei, Emiel Martijn van Eenennaam, Wouter Klein Wolterink, Eurasip Journal on Wireless Communications and Networking . 2012,第1期

机译：使用SUMO，Simulink和OMNeT ++评估CACC字符串的稳定性
4. ACC/CACC-control design, stability and robust performance [C] . Xiao-Yun Lu, Hedrick, J.K., . 2002

机译：ACC / CACC控制设计，稳定性和鲁棒性
5. Streaming Algorithms for String Problems [D] . Sadeqi Azer, Erfan . 2020

机译：字符串问题的流算法
6. Improved algorithms for approximate string matching (extended abstract) [O] . Dimitris Papamichail, Georgios Papamichail 2009

机译：用于近似字符串匹配的改进算法（扩展摘要）
7. Extensions of ACC Technology Toward Ad Hoc Platooning with Guaranteed String Stability and Improved Tracking Performance [O] . Gabor Rodonyi 2018

机译：ACC技术对Ad Hoc排中的扩展，具有保证串稳定性和改进的跟踪性能
8. String Stability of a Trajectory-Based Interval Management Algorithm in the Midterm Airspace. [R] . Swieringa, K. A. 2015

机译：基于轨迹的中期空域区间管理算法的字符串稳定性。

Fractional-order-based ACC/CACC algorithm for improving string stability

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