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Whole Body Control of a Dual-Arm Mobile Robot Using a Virtual Kinematic Chain

Y. Q. Wang ; C. Smith ; Yiannis Karayiannidis (Institutionen för signaler och system, Mekatronik) ; P. Ogren
International Journal of Humanoid Robotics (0219-8436). Vol. 13 (2016), 1,
[Artikel, refereegranskad vetenskaplig]

Dual-arm manipulators have more advanced manipulation abilities compared to single-arm manipulators and manipulators mounted on a mobile base have additional mobility and a larger workspace. Combining these advantages, mobile dual-arm robots are expected to perform a variety of tasks in the future. Kinematically, the configuration of two arms that branches from the mobile base results in a serial-to-parallel kinematic structure. In order to respond to external disturbances, this serial-to-parallel kinematic structure makes inverse kinematic computations non-trivial, as the motion of the base has to take the needs of both arms into account. Instead of using the dual-arm kinematics directly, we propose to use a virtual kinematic chain (VKC) to specify the common motion of the two arms. We formulate a constraint-based programming solution which consists of two parts. In the first part, we use an extended serial kinematic chain including the mobile base and the VKC to formulate constraints that realize the desired orientation and translation expressed in the world frame. In the second part, we use the resolved VKC motion to constrain the common motion of the two arms. In order to explore the redundancy of the two arms in an optimization framework, we also provide a VKC-oriented manipulability measure as well as its closed-form gradient. We verify the proposed approach with simulations and experiments that are performed on a PR2 robot, which has two 7 degrees of freedom (DoF) arms and a 3 DoF mobile base.

Nyckelord: Mobile manipulation, dual-arm robot, virtual kinematic chain, manipulatability, manipulators, mechanisms, Robotics, iu sl, 1988, international journal of robotics research, v7, p13

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Denna post skapades 2016-05-20.
CPL Pubid: 236759


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Institutioner (Chalmers)

Institutionen för signaler och system, Mekatronik (2005-2017)


Informations- och kommunikationsteknik
Robotteknik och automation

Chalmers infrastruktur