An Overview of Fundamental Step Using Wi-Fi Communication for Flight Formation Quadrotors

2018 4th International Conference on Science and Technology (ICST) Pub Date : 2018-08-01 DOI:10.1109/ICSTC.2018.8528700

M. Fikri, Ahmad Ashari, Andi Dharmawan, Bakhtiar Alldino

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引用次数: 4

Abstract

A quadrotor is one of Unmanned Aerial Vehicle that has a capability to flight in the restricted area. Quadrotor as the flying robot attracted the interest from various groups such as researchers, hobbyists, and military for doing particular tasks. Although a single quadrotor is capable of overcoming multiple missions, however, a multi quadrotor has advantages for overcoming communication failures. Multi quadrotor in its application is identical with a formation that required leader-follower, behavioral structure, virtual structure, multiple-input-multiple-output approaches for communication between quadrotor. In this study, communication system and multi quadrotor established using AR.Drone 2.0. A study of a formation based on connection has made by AR.Drone. Wi-Fi communication types designed as the communication which is subsequently tested with various flight movements to study the responses that obtained from each AR.Drone. The test results in the study showed that communication system built on multi quadrotor had been done. There is conformity between AR.Drone 1 and AR.Drone 2 motion due to navigation data is taken from a roll, pitch, and yaw parameters.

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使用Wi-Fi通信的飞行编队四旋翼机的基本步骤概述

四旋翼飞行器是一种具有在限定区域内飞行能力的无人机。作为飞行机器人的四旋翼吸引了各种团体的兴趣，如研究人员，爱好者和军队做特定的任务。尽管单个四旋翼飞行器能够克服多个任务，但是，多四旋翼飞行器在克服通信故障方面具有优势。在实际应用中，多架四旋翼飞行器与编队相同，需要领导者-追随者、行为结构、虚拟结构、多输入-多输出方式进行四旋翼飞行器之间的通信。本研究利用AR.Drone 2.0搭建了通信系统和多旋翼飞行器。AR.Drone对基于连接的地层进行了研究。Wi-Fi通信类型设计为通信，随后与各种飞行动作进行测试，以研究从每个ar无人机获得的响应。试验结果表明，在多架四旋翼飞行器上建立的通信系统已经实现。在AR.Drone 1和AR.Drone 2之间存在一致性，由于导航数据取自滚转、俯仰和偏航参数。

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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2018 4th International Conference on Science and Technology (ICST)

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