A novel hierarchical distributed vehicular edge computing framework for supporting intelligent driving

IF 4.4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Kun Yang , Peng Sun , Dingkang Yang , Jieyu Lin , Azzedine Boukerche , Liang Song
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Abstract

Recently, various infrastructure-assisted or onboard driving assistant applications have been proposed as a component of intelligent transportation systems (ITS) to improve the transportation system’s efficiency and release public concern about road safety. However, such AI-assisted intelligent applications are mainly data-driven and put great demands on the computing power of the ITS systems. Therefore, in the highly dynamic Internet-of-Vehicles environment in ITS, how to effectively coordinate the limited computing power of the various components of the system and realize reliable support for such resource-consuming applications through efficient resource allocation methods is the focus of our research. Accordingly, a novel joint computing and communication resource scheduling method is proposed to fulfill those ITS applications’ inherent heterogeneous quality of service (QoS) requirements. By fully exploiting the computing resources provided by the onboard computing device, the edge computing device located in the vehicle’s proximity and remote data center, we designed a hierarchical three-layer Vehicular Edge Computing (VEC) framework. Briefly, an onboard joint computation offloading and transmission scheduling policy is designed to assign corresponding offloading decisions to the locally generated computing tasks by considering the vehicle’s computing resources and real-time network link status. Additionally, a new distributed resource allocation policy is developed for the edge devices, in which we derive a server selection policy and allocate communication time based on our proposed metric. To evaluate the performance and validate the effectiveness of our proposed method, we conduct extensive simulation tests and ablation experiments, respectively. The results show that our approach can achieve stable performance in various experimental settings. Also, compared to the state-of-the-art algorithms, our joint resource allocation policy significantly reduces the scheduling overhead, improves the utilization of system resources, and minimizes the data transmission delay caused by vehicle motion.

一种支持智能驾驶的新型分层分布式车辆边缘计算框架
近年来,各种基础设施辅助或车载驾驶辅助应用已被提出作为智能交通系统(ITS)的一个组成部分,以提高交通系统的效率,并释放公众对道路安全的关注。然而,这种人工智能辅助的智能应用主要是数据驱动的,对ITS系统的计算能力提出了很高的要求。因此,在ITS高度动态的车联网环境下,如何有效协调系统各组成部分有限的计算能力,通过高效的资源分配方法,实现对此类消耗资源的应用的可靠支持,是我们研究的重点。为此,提出了一种计算与通信资源联合调度的方法,以满足智能交通系统固有的异构服务质量要求。通过充分利用车载计算设备提供的计算资源,即位于车辆附近和远程数据中心的边缘计算设备,我们设计了一个分层的三层车辆边缘计算(VEC)框架。简而言之,设计车载联合计算卸载与传输调度策略,考虑车辆计算资源和实时网络链路状态,为本地生成的计算任务分配相应的卸载决策。此外,针对边缘设备开发了一种新的分布式资源分配策略,在该策略中,我们推导了服务器选择策略,并基于我们提出的度量来分配通信时间。为了评估性能和验证我们提出的方法的有效性,我们分别进行了大量的模拟测试和烧蚀实验。结果表明,该方法在各种实验环境下均能取得稳定的性能。此外,与现有算法相比,我们的联合资源分配策略显著降低了调度开销,提高了系统资源的利用率,并最大限度地减少了车辆运动引起的数据传输延迟。
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来源期刊
Ad Hoc Networks
Ad Hoc Networks 工程技术-电信学
CiteScore
10.20
自引率
4.20%
发文量
131
审稿时长
4.8 months
期刊介绍: The Ad Hoc Networks is an international and archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in ad hoc and sensor networking areas. The Ad Hoc Networks considers original, high quality and unpublished contributions addressing all aspects of ad hoc and sensor networks. Specific areas of interest include, but are not limited to: Mobile and Wireless Ad Hoc Networks Sensor Networks Wireless Local and Personal Area Networks Home Networks Ad Hoc Networks of Autonomous Intelligent Systems Novel Architectures for Ad Hoc and Sensor Networks Self-organizing Network Architectures and Protocols Transport Layer Protocols Routing protocols (unicast, multicast, geocast, etc.) Media Access Control Techniques Error Control Schemes Power-Aware, Low-Power and Energy-Efficient Designs Synchronization and Scheduling Issues Mobility Management Mobility-Tolerant Communication Protocols Location Tracking and Location-based Services Resource and Information Management Security and Fault-Tolerance Issues Hardware and Software Platforms, Systems, and Testbeds Experimental and Prototype Results Quality-of-Service Issues Cross-Layer Interactions Scalability Issues Performance Analysis and Simulation of Protocols.
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