Scheduling for Offloading Safety-Critical Applications Within Networked Groups of Vehicles

2020 AIAA/IEEE 39th Digital Avionics Systems Conference (DASC) Pub Date : 2020-10-11 DOI:10.1109/DASC50938.2020.9256820

John B. Mains, Thanakorn Khamvilai, E. Feron

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Abstract

This paper presents a combined scheduling and path planning scheme for offloading of safety-critical applications in a group of networked vehicles. Due to the dynamic nature of such systems, a scheduler for applications to be offloaded needs to account for the changes of the network parameters. Such a scheduling scheme based on a mixed-integer program (MIP) is detailed with attention to the time-varying duration of message passing operations. Given knowledge of the scheduling requirements of applications to be offloaded, a path planner for a group of networked vehicles can ensure the resulting path will yield a feasible schedule for offloading. An method for generating such a path is described, utilizing the scheduling scheme and a mixed-integer program for path planning with integral communication capacity constraints. The combined scheme is demonstrated in a case study consisting of a pair of UAS equipped with a line-of-sight inter-vehicle a communication link and onboard processors. We show how the scheme can be used to make individual vehicles of the group fault-tolerant to processor failures.

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网络车辆组内卸载安全关键应用的调度

本文提出了一种结合调度和路径规划的网络车辆安全关键应用卸载方案。由于这类系统的动态性，要卸载的应用程序的调度器需要考虑网络参数的变化。详细介绍了一种基于混合整数程序的调度方案，并考虑了消息传递操作的时变持续时间。给定要卸载的应用程序的调度要求，一组联网车辆的路径规划器可以确保最终路径将产生一个可行的卸载时间表。描述了一种生成这种路径的方法，该方法利用调度方案和混合整数规划进行具有整体通信容量约束的路径规划。该组合方案在一个案例研究中进行了演示，该案例研究由一对配备视距飞行器间通信链路和机载处理器的无人机组成。我们展示了如何使用该方案使组中的单个车辆对处理器故障具有容错性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 AIAA/IEEE 39th Digital Avionics Systems Conference (DASC)

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