Adaptive Scheduling of High-Availability Drone Swarms for Congestion Alleviation in Connected Automated Vehicles

IF 2.2 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Shengye Pang, Yi Li, Zhen Qin, Xinkui Zhao, Jintao Chen, Fan Wang, Jianwei Yin
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引用次数: 0

Abstract

The Intelligent Transportation System (ITS) serves as a pivotal element within urban networks, offering decision support to users and connected automated vehicles (CAVs) through comprehensive information gathering, sensing, device control, and data processing. Presently, ITS predominantly relies on sensors embedded in fixed infrastructure, notably Roadside Units (RSUs). However, RSUs are confined by coverage limitations and may encounter challenges in prompt emergency responses. On-demand resources, such as drones, present a viable option to supplement these deficiencies effectively. This paper introduces an approach where Software-Defined Networking (SDN) and Mobile Edge Computing (MEC) technologies are integrated to formulate a high-availability drone swarm control and communication infrastructure framework, comprising the cloud layer, edge layer, and device layer. Drones confront limitations in flight duration attributed to battery limitations, posing a challenge in sustaining continuous monitoring of road conditions over extended periods. Effective drone scheduling stands as a promising solution to overcome these constraints. To tackle this issue, we initially utilized Graph WaveNet, a specialized graph neural network structure tailored for spatial-temporal graph modeling, for training a congestion prediction model using real-world dataset inputs. Building upon this, we further propose an algorithm for drone scheduling based on congestion prediction. Our simulation experiments using real-world data demonstrate that, compared to the baseline method, the proposed scheduling algorithm not only yielded superior scheduling gains but also mitigated drone idle rates.

自适应调度高可用性无人机群,缓解联网自动驾驶汽车的拥堵状况
智能交通系统(ITS)是城市网络中的关键要素,通过全面的信息收集、传感、设备控制和数据处理,为用户和联网自动驾驶车辆(CAV)提供决策支持。目前,智能交通系统主要依靠嵌入在固定基础设施中的传感器,特别是路边装置(RSU)。然而,RSU 受到覆盖范围的限制,在迅速作出应急响应方面可能会遇到挑战。无人机等按需资源是有效补充这些不足的可行选择。本文介绍了一种将软件定义网络(SDN)和移动边缘计算(MEC)技术相结合的方法,以制定一个由云层、边缘层和设备层组成的高可用性无人机群控制和通信基础设施框架。由于电池的限制,无人机的飞行时间有限,这给长时间持续监控路况带来了挑战。有效的无人机调度是克服这些限制的可行解决方案。为了解决这个问题,我们首先利用了专门为时空图建模而定制的图神经网络结构 Graph WaveNet,使用真实世界数据集输入来训练拥堵预测模型。在此基础上,我们进一步提出了一种基于拥堵预测的无人机调度算法。我们使用真实世界数据进行的模拟实验表明,与基线方法相比,所提出的调度算法不仅获得了卓越的调度收益,还降低了无人机空闲率。
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来源期刊
ACM Transactions on Autonomous and Adaptive Systems
ACM Transactions on Autonomous and Adaptive Systems 工程技术-计算机:理论方法
CiteScore
4.80
自引率
7.40%
发文量
9
审稿时长
>12 weeks
期刊介绍: TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community -- and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. TAAS addresses research on autonomous and adaptive systems being undertaken by an increasingly interdisciplinary research community - and provides a common platform under which this work can be published and disseminated. TAAS encourages contributions aimed at supporting the understanding, development, and control of such systems and of their behaviors. Contributions are expected to be based on sound and innovative theoretical models, algorithms, engineering and programming techniques, infrastructures and systems, or technological and application experiences.
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