Control Technology for Remotely Piloted Air Systems (RPAS)

2019 12th International Conference on Developments in eSystems Engineering (DeSE) Pub Date : 2019-10-01 DOI:10.1109/DeSE.2019.00092

D. Senchuk, R. Meshcheryakov

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Abstract

Remotely piloted aircraft systems (RPAS) are capable to solve a wide range of application tasks, including ones with high requirements to the time limit of performance. These requirements are mitigated in case of simultaneous use of multiple vehicles of different type. It is expedient to develop and implement technologies that ensure automatic tasks fulfilment in order to improve efficiency of their use. This article describes typical missions for UAVs used in the Ministry of Emergency Situations (EMERCOM) and suggests the optimum RPAS. Next, it examines the design principles of swarm RPAS control and offers a control algorithm for UAV swarm based on the examined principles. Finally, the article makes a conclusion about perspective of the development of the proposed RPAS used in the Ministry of Emergency Situations of Russia and about the communication algorithm in the system. In this research article the briefing and typical tasks for UAV used in the EMERCOM are described and analysed. The design principles of RPAS swarm control are described, also the control strategy in swarm and functioning order of UAVs in dynamics and the protocol of local voting of the agents are given. Authors suggest the algorithm of control of the UAV swarm, based on the examined principles.

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遥控航空系统(RPAS)控制技术

遥控飞机系统(RPAS)能够解决广泛的应用任务，包括对性能时限要求很高的任务。在同时使用多辆不同类型车辆的情况下，这些要求有所减轻。为了提高使用效率，开发和实施确保自动完成任务的技术是有利的。本文描述了紧急情况部(EMERCOM)中使用的无人机的典型任务，并提出了最佳RPAS。其次，研究了蜂群RPAS控制的设计原则，并在此基础上提出了无人机蜂群的控制算法。最后，对俄罗斯紧急情况部拟议的RPAS系统的发展前景和系统中的通信算法进行了总结。本文介绍和分析了无人机在应急军事指挥中应用的概况和典型任务。阐述了RPAS群体控制的设计原则，给出了无人机在群体中的控制策略和动态的功能顺序，以及智能体的局部投票协议。在此基础上提出了无人机群的控制算法。

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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2019 12th International Conference on Developments in eSystems Engineering (DeSE)

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