Optimization Based Motion Planning for Multi-Limbed Vertical Climbing Robots

September 13, 2019 · Declared Dead · 🏛 IEEE/RJS International Conference on Intelligent RObots and Systems

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Authors Xuan Lin, Jingwen Zhang, Junjie Shen, Gabriel Fernandez, Dennis W Hong arXiv ID 1909.06339 Category cs.RO: Robotics Citations 20 Venue IEEE/RJS International Conference on Intelligent RObots and Systems Last Checked 4 months ago

Abstract

Motion planning trajectories for a multi-limbed robot to climb up walls requires a unique combination of constraints on torque, contact force, and posture. This paper focuses on motion planning for one particular setup wherein a six-legged robot braces itself between two vertical walls and climbs vertically with end effectors that only use friction. Instead of motion planning with a single nonlinear programming (NLP) solver, we decoupled the problem into two parts with distinct physical meaning: torso postures and contact forces. The first part can be formulated as either a mixed-integer convex programming (MICP) or NLP problem, while the second part is formulated as a series of standard convex optimization problems. Variants of the two wall climbing problem e.g., obstacle avoidance, uneven surfaces, and angled walls, help verify the proposed method in simulation and experimentation.

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