Unmanned aerial vehicle control costs mirror bird behaviour when soaring close to buildings
Unmanned aerial vehicle control costs mirror bird behaviour when soaring close to buildings
Small unmanned aerial vehicles (SUAVs) are suitable for many low-altitude operations in urban environments due to their manoeuvrability; however, their flight performance is limited by their on-board energy storage and their ability to cope with high levels of turbulence. Birds exploit the atmospheric boundary layer in urban environments, reducing their energetic flight costs by using orographic lift generated by buildings. This behaviour could be mimicked by fixed-wing SUAVs to overcome their energy limitations if flight control can be maintained in the increased turbulence present in these conditions. Here, the control effort required and energetic benefits for a SUAV flying parallel to buildings whilst using orographic lift was investigated. A flight dynamics and control model was developed for a powered SUAV and used to simulate flight control performance in different turbulent wind conditions. It was found that the control effort required decreased with increasing altitude and that the mean throttle required increased with greater radial distance to the buildings. However, the simulations showed that flying close to the buildings in strong wind speeds increased the risk of collision. Overall, the results suggested that a strategy of flying directly over the front corner of the buildings appears to minimise the control effort required for a given level of orographic lift, a strategy that mirrors the behaviour of gulls in high wind speeds.
Orographic lift, fixed-wing, flight control, simulation, SUAV
Guerra-Langan, A.
edc6a42b-6f6f-4beb-a188-3034b3e1ae97
Araujo-Estrada, S.
87793c63-f2bd-4169-b93d-ec1525909a7a
Windsor, Shane
85e45dbd-8c49-45d6-a100-80e513f84440
1 December 2020
Guerra-Langan, A.
edc6a42b-6f6f-4beb-a188-3034b3e1ae97
Araujo-Estrada, S.
87793c63-f2bd-4169-b93d-ec1525909a7a
Windsor, Shane
85e45dbd-8c49-45d6-a100-80e513f84440
Guerra-Langan, A., Araujo-Estrada, S. and Windsor, Shane
(2020)
Unmanned aerial vehicle control costs mirror bird behaviour when soaring close to buildings.
International Journal of Micro Air Vehicles, 12.
(doi:10.1177/1756829320941005).
Abstract
Small unmanned aerial vehicles (SUAVs) are suitable for many low-altitude operations in urban environments due to their manoeuvrability; however, their flight performance is limited by their on-board energy storage and their ability to cope with high levels of turbulence. Birds exploit the atmospheric boundary layer in urban environments, reducing their energetic flight costs by using orographic lift generated by buildings. This behaviour could be mimicked by fixed-wing SUAVs to overcome their energy limitations if flight control can be maintained in the increased turbulence present in these conditions. Here, the control effort required and energetic benefits for a SUAV flying parallel to buildings whilst using orographic lift was investigated. A flight dynamics and control model was developed for a powered SUAV and used to simulate flight control performance in different turbulent wind conditions. It was found that the control effort required decreased with increasing altitude and that the mean throttle required increased with greater radial distance to the buildings. However, the simulations showed that flying close to the buildings in strong wind speeds increased the risk of collision. Overall, the results suggested that a strategy of flying directly over the front corner of the buildings appears to minimise the control effort required for a given level of orographic lift, a strategy that mirrors the behaviour of gulls in high wind speeds.
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More information
e-pub ahead of print date: 6 August 2020
Published date: 1 December 2020
Keywords:
Orographic lift, fixed-wing, flight control, simulation, SUAV
Identifiers
Local EPrints ID: 470532
URI: http://eprints.soton.ac.uk/id/eprint/470532
ISSN: 1756-8293
PURE UUID: 0601f554-f069-4825-b3a7-cf422182dbad
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Date deposited: 12 Oct 2022 16:46
Last modified: 17 Mar 2024 04:12
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Contributors
Author:
A. Guerra-Langan
Author:
S. Araujo-Estrada
Author:
Shane Windsor
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