Extraction of Whole-Body Affordances for Loco-Manipulation Tasks

نویسندگان

  • Peter Kaiser
  • Nikolaus Vahrenkamp
  • Fabian Schultje
  • Júlia Borràs Sol
  • Tamim Asfour
چکیده

Humanoid robots that have to operate in cluttered and unstructured environments, such as man-made and natural disaster scenarios, require sophisticated sensorimotor capabilities. A crucial prerequisite for the successful execution of whole-body locomotion and manipulation tasks in such environments is the perception of the environment and the extraction of associated environmental affordances., i.e. the action possibilities of the robot in the environment. We believe that such a coupling between perception and action could be a key to substantially increase the flexibility of humanoid robots. In this paper, we approach the affordance-based generation of whole-body actions for stable locomotion and manipulation. We incorporate a rule-based system to assign affordance hypotheses to visually perceived environmental primitives in the scene. These hypotheses are then filtered using extended reachability maps that carry stability information, for identifying reachable affordance hypotheses. We then formulate the hypotheses in terms of a constrained inverse kinematics problem in order to find whole-body configurations that utilize a chosen set of hypotheses. The proposed methods are implemented and tested in simulated environments based on RGB-D scans as well as on a real robotic platform.

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عنوان ژورنال:
  • I. J. Humanoid Robotics

دوره 12  شماره 

صفحات  -

تاریخ انتشار 2015