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Compact Tensegrity Robots Capable of Locomotion Through Mass-Shifting

Tyler Rhodes, Vishesh Vikas

发表年份
2019
引用次数
2

摘要

Abstract Robustness, compactness, and portability of tensegrity robots make them suitable candidates for locomotion on unknown terrains. Locomotion is achieved by breaking symmetry and altering the position of center-of-mass to induce “tip-over”. The design of curved links of tensegrity mechanisms allows continuous change in the point of contact (along the curve) as compared to discontinuities in the traditional straight links (point contact) which induces impulse reaction forces during locomotion. The illustrated curve-link tensegrity robot achieves smooth locomotion through internal mass-shifting. Additionally, this tensegrity robot displays folding and unfolding. Introduced is a design methodology for fabricating tensegrity robots of varying morphologies with modular components created using rapid prototyping techniques, including 3D printing and laser-cutting. The techniques are utilized to fabricate simple tensegrity structures, followed by locomotive tensegrity robots in icosahedron and half-circle arc morphologies.

关键词

TensegrityRobotModular designSelf-reconfiguring modular robotComputer scienceRobot locomotionHumanoid robotRobustness (evolution)Classification of discontinuitiesEngineering

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