Yves Brière scite author profile

A navigation strategy that exploits the optic flow and inertial information to continuously avoid collisions with both lateral and frontal obstacles has been used to control a simulated helicopter flying autonomously in a textured urban environment. Experimental results demonstrate that the corresponding controller generates cautious behavior, whereby the helicopter tends to stay in the middle of narrow corridors, while its forward velocity is automatically reduced when the obstacle density increases. When confronted with a frontal obstacle, the controller is also able to generate a tight U-turn that ensures the UAV's survival. The paper provides comparisons with related work, and discusses the applicability of the approach to real platforms.

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IBOAT: An autonomous robot for long-term offshore operation

Brière¹

2008

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Interest of the dual hybrid control scheme for teleoperation with time delays for proceeding of ISER'95

Reboulet

Plihon

Brière

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Control of rotation-floating space robots with flexible appendages for on-orbit servicing

Kraïem

Rognant²,

Biannic³

et al. 2021

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Aircraft attitude estimation based on central difference Kalman filter

Han

Gan

et al. 2012

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OATAO is an open access repository that collects the work of Toulouse researchers and makes it freely available over the web where possible. This is an author-deposited version published in: http://oatao.univ-toulouse.fr/ Eprints ID: 16769 effectively, but also avoids the computing burden of Jacobian matrices. In addition, it is more simple and easy to implement, because it has only one adjustable parameter instead of three in the UKF circumstances.

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Yves Brière

A contribution to vision-based autonomous helicopter flight in urban environments

IBOAT: An autonomous robot for long-term offshore operation

Interest of the dual hybrid control scheme for teleoperation with time delays for proceeding of ISER'95

Control of rotation-floating space robots with flexible appendages for on-orbit servicing

Aircraft attitude estimation based on central difference Kalman filter

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