Collaborative Research: Coordinated Real-Time Traffic Management Based on Dynamic Information Propagation and Aggregation under Connected Vehicle Systems

协作研究：车联网系统下基于动态信息传播和聚合的协同实时交通管理

• 批准号: 1436786
• 负责人: Lili Du
• 金额: $ 24万
• 依托单位: Illinois Institute of Technology
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-08-01 至 2018-04-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1436786&HistoricalAwards=false
• 关键词: Collaborative; Research; Coordinated; Real; Time

Advances in wireless communication technologies have enabled communications among vehicles, and between vehicles and the associated infrastructure. These technologies can be significantly leveraged to enhance the safety and performance of current roadway transportation systems. This study seeks to understand how traffic information spreads among vehicles and between vehicles and the roadside infrastructure, and how that data can be efficiently collected and used to develop real-time traffic management strategies, so as to improve safety, mobility, and sustainability. Further, through the education programs at Illinois Institute of Technology and Purdue University, this study will aid the development of new skills for the workforce that can leverage these emerging technologies for innovative applications, and broaden research and educational opportunities for under-represented groups.This study seeks to develop real-time coordinated traffic management strategies built upon dynamic information propagation and aggregation in connected vehicle systems. To achieve this goal, it investigates three interrelated research challenges: (i) information propagation dynamics, (ii) distributed information aggregation, and (iii) coordinated real-time traffic management. These methods bridge advanced scientific knowledge in computer science, transportation science, and operations research. Further, they adapt well-known and/or emerging concepts in traffic flow theory, network modeling, wireless communication, optimization theory, stochastic modeling, and algorithm design. The novelty of this research is highlighted through the holistic consideration of the unique features of a connected vehicle system: a distributed system with dynamic information propagating therein. At a fundamental level, the study outcomes will contribute to scientific knowledge and technologies for connected vehicle systems in the following aspects: (i) a better understanding of the interactions between information dynamics and traffic flow dynamics; (ii) the opening of a new research venue related to distributed information processing methods; and (iii) the understanding of real-time traffic management through the coordination of individual vehicle knowledge and centralized traffic control.

无线通信技术的进步使得车辆之间以及车辆与相关基础设施之间的通信成为可能。可以充分利用这些技术来提高当前道路运输系统的安全性和性能。本研究旨在了解交通信息如何在车辆之间以及车辆与路边基础设施之间传播，以及如何有效收集数据并使用这些数据来制定实时交通管理策略，从而提高安全性、流动性和可持续性。此外，通过伊利诺伊理工学院和普渡大学的教育项目，这项研究将帮助劳动力发展新技能，利用这些新兴技术进行创新应用，并为代表性不足的群体扩大研究和教育机会。研究旨在开发基于互联车辆系统中动态信息传播和聚合的实时协调交通管理策略。为了实现这一目标，它调查了三个相互关联的研究挑战：（i）信息传播动力学，（ii）分布式信息聚合，以及（iii）协调的实时交通管理。这些方法将计算机科学、交通科学和运筹学方面的先进科学知识联系起来。此外，它们采用了交通流理论、网络建模、无线通信、优化理论、随机建模和算法设计中众所周知的和/或新兴的概念。这项研究的新颖性通过对互联车辆系统的独特特征的整体考虑而凸显：其中具有动态信息传播的分布式系统。从根本上讲，研究成果将在以下方面为联网车辆系统的科学知识和技术做出贡献：（i）更好地理解信息动态与交通流动态之间的相互作用； (ii) 开设与分布式信息处理方法相关的新研究场所； (iii) 通过协调个体车辆知识和集中交通控制来理解实时交通管理。