Cloud-assisted sensing and supervision of multiple unmanned aerial vehicles by a single operator

Proceedings of the ACM/IEEE Sixth International Conference on Cyber-Physical Systems Pub Date : 2015-04-14 DOI:10.1145/2735960.2735987

Takashi Shigekuni, T. Ushio, Takuya Azumi

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引用次数: 2

Abstract

Supervisory control for multiple unmanned aerial vehicles (UAVs) operated by a single operator has been studied [1], The operator decides a plan by which he/she completes a mission such as surveillance and rescue. A supporting system for the operator is needed to select an optimal plan using a large number of data such as sensing data from the UAVs and a map from a cloud. On the other hand, in cloud computing, potentially unlimited computing and database resources can be utilized. In this paper, we apply a cyber-physical system approach to the design of a system for a Cloud-Assisted Sensing and Supervisory control (CLASS) of the multiple UAVs operated by a single operator. The cloud provides a list of plans from which the operator selects an optimal one, a user interface suitable for mission accomplishment, information such as the UAVs' data and a map to the operator, and commands to each UAV for an automatic navigation. Moreover, the cloud retrieves data used to complete the mission from other clouds.

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由一名操作员对多架无人机进行云辅助传感和监督

研究了由单个操作人员操作的多架无人机(uav)的监督控制问题，由操作人员决定完成监视和救援等任务的计划。操作员需要一个支持系统，使用大量数据(如来自无人机的传感数据和来自云的地图)来选择最佳计划。另一方面，在云计算中，可以利用潜在的无限计算和数据库资源。在本文中，我们将网络物理系统方法应用于由单个操作员操作的多架无人机的云辅助传感和监控(CLASS)系统的设计。云提供了一个计划列表，操作员从中选择一个最佳方案，一个适合任务完成的用户界面，诸如无人机数据和给操作员的地图等信息，以及给每架无人机的自动导航命令。此外，云从其他云检索用于完成任务的数据。

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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Proceedings of the ACM/IEEE Sixth International Conference on Cyber-Physical Systems

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