Dynamically stable collision avoidance for tensegrity based robots

Tensegrity structures appeared in the science community about half a century ago, but they have already been applied to several heterogeneous research fields, such as architecture, civil engineering, space and even biology. Such structures keep a stable volume in space due to an intricate balance of forces between a disjoint set of rigid elements (bars) and a continuous set of tensile elements (cables). The use of tensegrity structures in robotics is still new and there exist only a handful of works about this subject. Some of their main features such as light weight, flexibility, energetic efficiency and redundancy, make them interesting candidates for both mobile robots and manipulators. In this paper, a new approach to dynamically drive a tensegrity structure from an initial to a desired stable configuration, that always keeps the stability of the structure and avoids internal and external collisions is presented.

Proceedings of the 2009 ASME/IFToMM International Conference on Reconfigurable Mechanisms and Robots, ReMAR 2009

Dynamically stable collision avoidance for tensegrity based robots Conference Paper