A Convex-Combinatorial Model for Planar Caging

September 17, 2018 · Declared Dead · 🏛 IEEE/RJS International Conference on Intelligent RObots and Systems

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Authors Bernardo Aceituno-Cabezas, Hongkai Dai, Alberto Rodriguez arXiv ID 1809.06427 Category cs.RO: Robotics Citations 6 Venue IEEE/RJS International Conference on Intelligent RObots and Systems Last Checked 4 months ago

Abstract

Caging is a promising tool which allows a robot to manipulate an object without directly reasoning about the contact dynamics involved. Furthermore, caging also provides useful guarantees in terms of robustness to uncertainty, and often serves as a way-point to a grasp. Unfortunately, previous work on caging is often based on computational geometry or discrete topology tools, causing restriction on gripper geometry, and difficulty on integration into larger manipulation frameworks. In this paper, we develop a convex-combinatorial model to characterize caging from an optimization perspective. More specifically, we study the configuration space of the object, where the fingers act as obstacles that enclose the configuration of the object. The convex-combinatorial nature of this approach provides guarantees on optimality, convergence and scalability, and its optimization nature makes it adaptable for further applications on robot manipulation tasks.

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