Characterization of Uav Performance and Development of a Formation Flight Controller for Multiple Small Uavs - Tapa blanda

McCarthy, Patrick A.

 
9781249450085: Characterization of Uav Performance and Development of a Formation Flight Controller for Multiple Small Uavs

Sinopsis

The Air Force Institute of Technology's (AFIT) Advanced Navigation Technology (ANT) Center has recently delved into the research topic of small Unmanned Aerial Vehicles (UAV). One area of particular interest is using multiple small UAVs cooperatively to improve mission efficiency, as well as perform missions that couldn't be performed using vehicles independently. However, many of these missions require that the UAVs operate in close proximity with each other. This research lays the foundation required to use the ANT Center's UAVs for multi-vehicle missions (e.g. cooperatively) by accomplishing two major goals. First, it develops test procedures that can be used to characterize the tracking performance of a small UAV being controlled by a waypoint guided autopilot. This defines the size of the safety zones that must be maintained around each vehicle to ensure no collisions, assuming no, as yet unspecified, collision avoidance algorithm is being implemented. Secondly, a formation flight algorithm is developed that can be used to guide UAVs relative to each other using a waypoint guided autopilot. This is done by dynamically changing the waypoints. Such an approach gives a wrap-around method of cooperatively controlling UAVs that can only be guided waypoint-to-waypoint. For both components of this research, tests were conducted using a hardware-in-the-loop (HITL) simulation before validating through flight testing. This report, along with legacy documentation and procedures, furthers the UAV test bed at AFIT and establishes methods for simulating, visualizing, and flight testing multiple UAVs during formation/cooperative flight.

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Reseña del editor

The Air Force Institute of Technology's (AFIT) Advanced Navigation Technology (ANT) Center has recently delved into the research topic of small Unmanned Aerial Vehicles (UAV). One area of particular interest is using multiple small UAVs cooperatively to improve mission efficiency, as well as perform missions that couldn't be performed using vehicles independently. However, many of these missions require that the UAVs operate in close proximity with each other. This research lays the foundation required to use the ANT Center's UAVs for multi-vehicle missions (e.g. cooperatively) by accomplishing two major goals. First, it develops test procedures that can be used to characterize the tracking performance of a small UAV being controlled by a waypoint guided autopilot. This defines the size of the safety zones that must be maintained around each vehicle to ensure no collisions, assuming no, as yet unspecified, collision avoidance algorithm is being implemented. Secondly, a formation flight algorithm is developed that can be used to guide UAVs relative to each other using a waypoint guided autopilot. This is done by dynamically changing the waypoints. Such an approach gives a wrap-around method of cooperatively controlling UAVs that can only be guided waypoint-to-waypoint. For both components of this research, tests were conducted using a hardware-in-the-loop (HITL) simulation before validating through flight testing. This report, along with legacy documentation and procedures, furthers the UAV test bed at AFIT and establishes methods for simulating, visualizing, and flight testing multiple UAVs during formation/cooperative flight.

Biografía del autor

Patrick A. McCarthy is the author or editor of 11 books or monographs, over 50 scholarly articles and numerous reference articles and reviews. His principal publications on Malcolm Lowry include "Forests of Symbols: World, Text, and Self in Malcolm Lowry’s Fiction "(University of Georgia Press, 1994); Malcolm Lowry’s "“La Mordida” A Scholarly Edition "(University of Georgia Press, 1996); and “Under the Volcano,” in "The Literary Encyclopedia".

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Otras ediciones populares con el mismo título

9781025083025: Characterization of UAV Performance and Development of a Formation Flight Controller for Multiple Small UAVS

Edición Destacada

ISBN 10:  1025083024 ISBN 13:  9781025083025
Editorial: Hutson Street Press, 2025
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