An Integrated System for Autonomous Search and Track with a small Unmanned Aerial Vehicle | Zendy

Anjan Chakrabarty | Zendy; Robert A. Morris | Zendy; Xavier Bouyssounouse | Zendy; Rusty Hunt | Zendy

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An Integrated System for Autonomous Search and Track with a small Unmanned Aerial Vehicle

Author(s) -

Anjan Chakrabarty,

Robert A. Morris,

Xavier Bouyssounouse,

Rusty Hunt

Publication year - 2017

Publication title -

2018 aiaa information systems-aiaa infotech @ aerospace

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2017-0671

Subject(s) - track (disk drive) , computer science , remotely operated underwater vehicle , search and rescue , aeronautics , artificial intelligence , mobile robot , real time computing , aerospace engineering , engineering , robot , operating system

This article presents a framework for searching, detecting, and tracking an object of interest with a small unmanned aerial vehicle (sUAV). The vehicle is given an area to search for an object of interest. Once the object is detected, the sUAV follows the target while maintaining a fixed distance and centered on its image plane. This paper describes an architecture for integrating autonomy capabilities for search and track for sUAVs. The system has been implemented in the Robot Operating System (ROS) framework using the Parrot ARDrone platform. In this paper we present our technical approach, the system architecture and demonstrate the principles of the approach in a simulation environment and indoor flight tests.

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