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Linear actuator robots: Differential kinematics, controllability, and algorithms for locomotion and shape morphing

Nathan S. Usevitch, Zachary M. Hammond, Sean Follmer, Mac Schwager

发表年份
2017
引用次数
22

摘要

We consider a class of robotic systems composed of high elongation linear actuators connected at universal joints. We derive the differential kinematics of such robots, and formalize concepts of controllability based on graph rigidity. Control methods are then developed for two separate applications: locomotion and shape morphing. The control algorithm in both cases solves a series of linearly constrained quadratic programs at each time step to minimize an objective function while ensuring physical feasibility. We present simulation results for locomotion along a prescribed path, and morphing to a target shape.

关键词

MorphingControllabilityKinematicsActuatorComputer scienceRobotControl theory (sociology)Differential (mechanical device)Rigidity (electromagnetism)Robot kinematics

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