Stereo visual system for autonomous air vehicle navigation

Luis Mejias; Pascual Campoy; Ivan Mondragón; Patrick Doherty

doi:10.3182/20070903-3-fr-2921.00037

Stereo visual system for autonomous air vehicle navigation

Luis Mejias, Pascual Campoy, Ivan Mondragón, Patrick Doherty

Producción: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

6 Citas (Scopus)

Resumen

We present a system to estimate the altitude and motion of an aerial vehicle using a stereo visual system. The system has been initially tested on a ground robot and the novelty lays on its application and robustness validation in an UAV, where vibrations and rapid environmental changes take place. The two main functionalities are height estimation and visual odometry. The system first detects and tracks salient points in the scene. Depth to the plane containing the features is calculated matching features between left and right images then using the disparity principle. Motion is recovered tracking pixels from one frame to the next one finding its visual displacement and resolving camera rotation and translation by a least-square method. We present results from different experimental trials on the two platforms comparing and discussing the results regarding the trajectories calculated by the visual odometry and the onboard helicopter state estimation.

Idioma original	Inglés
Título de la publicación alojada	6th IFAC Symposium on Intelligent Autonomous Vehicles, IAV 200707 - Proceedings
Editorial	IFAC Secretariat
Páginas	203-208
Número de páginas	6
Edición	PART 1
ISBN (versión impresa)	9783902661654
DOI	https://doi.org/10.3182/20070903-3-fr-2921.00037
Estado	Publicada - 2007
Publicado de forma externa	Sí

Serie de la publicación

Nombre	IFAC Proceedings Volumes (IFAC-PapersOnline)
Número	PART 1
Volumen	6
ISSN (versión impresa)	1474-6670

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10.3182/20070903-3-fr-2921.00037

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title = "Stereo visual system for autonomous air vehicle navigation",

abstract = "We present a system to estimate the altitude and motion of an aerial vehicle using a stereo visual system. The system has been initially tested on a ground robot and the novelty lays on its application and robustness validation in an UAV, where vibrations and rapid environmental changes take place. The two main functionalities are height estimation and visual odometry. The system first detects and tracks salient points in the scene. Depth to the plane containing the features is calculated matching features between left and right images then using the disparity principle. Motion is recovered tracking pixels from one frame to the next one finding its visual displacement and resolving camera rotation and translation by a least-square method. We present results from different experimental trials on the two platforms comparing and discussing the results regarding the trajectories calculated by the visual odometry and the onboard helicopter state estimation.",

keywords = "Autonomous helicopter, Vision-based navigation",

author = "Luis Mejias and Pascual Campoy and Ivan Mondrag{\'o}n and Patrick Doherty",

note = "Funding Information: This work is sponsored in part by the Spanish Science and Technology Ministry under a project Funding Information: grant CICYT DPI2004-06624, and by Universidad Polit{\'e}cnica de Madrid-CAM. The authors would",

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Stereo visual system for autonomous air vehicle navigation. / Mejias, Luis; Campoy, Pascual; Mondragón, Ivan et al.
6th IFAC Symposium on Intelligent Autonomous Vehicles, IAV 200707 - Proceedings. PART 1. ed. IFAC Secretariat, 2007. p. 203-208 (IFAC Proceedings Volumes (IFAC-PapersOnline); Vol. 6, N.º PART 1).

Producción: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

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AU - Campoy, Pascual

AU - Mondragón, Ivan

AU - Doherty, Patrick

N1 - Funding Information: This work is sponsored in part by the Spanish Science and Technology Ministry under a project Funding Information: grant CICYT DPI2004-06624, and by Universidad Politécnica de Madrid-CAM. The authors would

PY - 2007

Y1 - 2007

N2 - We present a system to estimate the altitude and motion of an aerial vehicle using a stereo visual system. The system has been initially tested on a ground robot and the novelty lays on its application and robustness validation in an UAV, where vibrations and rapid environmental changes take place. The two main functionalities are height estimation and visual odometry. The system first detects and tracks salient points in the scene. Depth to the plane containing the features is calculated matching features between left and right images then using the disparity principle. Motion is recovered tracking pixels from one frame to the next one finding its visual displacement and resolving camera rotation and translation by a least-square method. We present results from different experimental trials on the two platforms comparing and discussing the results regarding the trajectories calculated by the visual odometry and the onboard helicopter state estimation.

AB - We present a system to estimate the altitude and motion of an aerial vehicle using a stereo visual system. The system has been initially tested on a ground robot and the novelty lays on its application and robustness validation in an UAV, where vibrations and rapid environmental changes take place. The two main functionalities are height estimation and visual odometry. The system first detects and tracks salient points in the scene. Depth to the plane containing the features is calculated matching features between left and right images then using the disparity principle. Motion is recovered tracking pixels from one frame to the next one finding its visual displacement and resolving camera rotation and translation by a least-square method. We present results from different experimental trials on the two platforms comparing and discussing the results regarding the trajectories calculated by the visual odometry and the onboard helicopter state estimation.

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BT - 6th IFAC Symposium on Intelligent Autonomous Vehicles, IAV 200707 - Proceedings

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Stereo visual system for autonomous air vehicle navigation

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