Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project

Justin Carpentier; Andrea Del Prete; Steve Tonneau; Thomas Flayols; Florent Forget; Alexis Mifsud; Kevin Giraud; Dinesh Atchuthan; Pierre Fernbach; Rohan Budhiraja; Mathieu Geisert; Joan Solà; Olivier Stasse; Nicolas Mansard

Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project

Justin Carpentier, Andrea Del Prete, Steve Tonneau, Thomas Flayols, Florent Forget, Alexis Mifsud, Kevin Giraud, Dinesh Atchuthan, Pierre Fernbach, Rohan Budhiraja, Mathieu Geisert, Joan Solà, Olivier Stasse, Nicolas Mansard

Research output: Contribution to conference › Poster › peer-review

Abstract

Planning, adapting and executing multi-contact locomotion movements on legged robots in complex environments remains an open problem. In this proposal, we introduce a complete pipeline to address this issue in the context of humanoid robots inside industrial environments. This pipeline relies on a multi-stage approach in order to simplify the process flow and to exploit at best state-of-the-art techniques both in terms of contact planning, whole-body control and perception. The main challenges lie in the choice of the different modules composing this pipeline as well as their mutual interactions: e.g. at which frequency rates each module has to work in order to allow safe and robust locomotion? or which information must transit between the modules? We named this project Loco3D standing for Locomotion in 3D, in contrast to the classic locomotion on quasi-flat terrains, where the motion of the center of mass of the robot is mostly limited to a 2D plane.

Original language	English
Number of pages	3
Publication status	Published - 1 Jul 2017
Event	RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion - Cambridge, United States Duration: 15 Jul 2017 → 15 Jul 2017 https://leggedrobotlocomotion.wordpress.com/2017/07/16/thank-you/

Workshop

Workshop	RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion
Country/Territory	United States
City	Cambridge
Period	15/07/17 → 15/07/17
Internet address	https://leggedrobotlocomotion.wordpress.com/2017/07/16/thank-you/

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Carpentier, J., Del Prete, A., Tonneau, S., Flayols, T., Forget, F., Mifsud, A., Giraud, K., Atchuthan, D., Fernbach, P., Budhiraja, R., Geisert, M., Solà, J., Stasse, O., & Mansard, N. (2017). Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project. Poster session presented at RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion, Cambridge, Massachusetts, United States. https://leggedrobotlocomotion.files.wordpress.com/2017/07/carpentier.pdf

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title = "Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project",

abstract = "Planning, adapting and executing multi-contact locomotion movements on legged robots in complex environments remains an open problem. In this proposal, we introduce a complete pipeline to address this issue in the context of humanoid robots inside industrial environments. This pipeline relies on a multi-stage approach in order to simplify the process flow and to exploit at best state-of-the-art techniques both in terms of contact planning, whole-body control and perception. The main challenges lie in the choice of the different modules composing this pipeline as well as their mutual interactions: e.g. at which frequency rates each module has to work in order to allow safe and robust locomotion? or which information must transit between the modules? We named this project Loco3D standing for Locomotion in 3D, in contrast to the classic locomotion on quasi-flat terrains, where the motion of the center of mass of the robot is mostly limited to a 2D plane.",

author = "Justin Carpentier and {Del Prete}, Andrea and Steve Tonneau and Thomas Flayols and Florent Forget and Alexis Mifsud and Kevin Giraud and Dinesh Atchuthan and Pierre Fernbach and Rohan Budhiraja and Mathieu Geisert and Joan Sol{\`a} and Olivier Stasse and Nicolas Mansard",

year = "2017",

month = jul,

day = "1",

language = "English",

note = "RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion ; Conference date: 15-07-2017 Through 15-07-2017",

url = "https://leggedrobotlocomotion.wordpress.com/2017/07/16/thank-you/",

}

Carpentier, J, Del Prete, A, Tonneau, S, Flayols, T, Forget, F, Mifsud, A, Giraud, K, Atchuthan, D, Fernbach, P, Budhiraja, R, Geisert, M, Solà, J, Stasse, O & Mansard, N 2017, 'Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project', RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion, Cambridge, United States, 15/07/17 - 15/07/17. <https://leggedrobotlocomotion.files.wordpress.com/2017/07/carpentier.pdf>

TY - CONF

T1 - Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project

AU - Carpentier, Justin

AU - Del Prete, Andrea

AU - Tonneau, Steve

AU - Flayols, Thomas

AU - Forget, Florent

AU - Mifsud, Alexis

AU - Giraud, Kevin

AU - Atchuthan, Dinesh

AU - Fernbach, Pierre

AU - Budhiraja, Rohan

AU - Geisert, Mathieu

AU - Solà, Joan

AU - Stasse, Olivier

AU - Mansard, Nicolas

PY - 2017/7/1

Y1 - 2017/7/1

N2 - Planning, adapting and executing multi-contact locomotion movements on legged robots in complex environments remains an open problem. In this proposal, we introduce a complete pipeline to address this issue in the context of humanoid robots inside industrial environments. This pipeline relies on a multi-stage approach in order to simplify the process flow and to exploit at best state-of-the-art techniques both in terms of contact planning, whole-body control and perception. The main challenges lie in the choice of the different modules composing this pipeline as well as their mutual interactions: e.g. at which frequency rates each module has to work in order to allow safe and robust locomotion? or which information must transit between the modules? We named this project Loco3D standing for Locomotion in 3D, in contrast to the classic locomotion on quasi-flat terrains, where the motion of the center of mass of the robot is mostly limited to a 2D plane.

AB - Planning, adapting and executing multi-contact locomotion movements on legged robots in complex environments remains an open problem. In this proposal, we introduce a complete pipeline to address this issue in the context of humanoid robots inside industrial environments. This pipeline relies on a multi-stage approach in order to simplify the process flow and to exploit at best state-of-the-art techniques both in terms of contact planning, whole-body control and perception. The main challenges lie in the choice of the different modules composing this pipeline as well as their mutual interactions: e.g. at which frequency rates each module has to work in order to allow safe and robust locomotion? or which information must transit between the modules? We named this project Loco3D standing for Locomotion in 3D, in contrast to the classic locomotion on quasi-flat terrains, where the motion of the center of mass of the robot is mostly limited to a 2D plane.

M3 - Poster

T2 - RSS 2017 Workshop: Challenges in Dynamic Legged Locomotion

Y2 - 15 July 2017 through 15 July 2017

ER -

Multi-contact Locomotion of Legged Robots in Complex Environments - The Loco3D project

Abstract

Workshop

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