Variable Topology Truss: Hardware Overview, Reconfiguration Planning and Locomotion
Seong‐Jae Jeong, Byungheon Kim, Eugene Park, Alexander Spinos, Devin Carroll, Thulani Tsabedze, Yulai Weng, TaeWon Seo, Mark Yim, Frank C. Park, Jongwon Kim
- Year
- 2018
- Citations
- 11
Abstract
The variable topology truss (VTT) system is a new type of modular platform that enables control over both the shape and topology of a truss, bringing both the efficiency of variable geometry trusses and the flexibility of self-reconfigurable robots. A VTT has the capability to enter a disaster site and shore damaged structures to assist with rescue work. This paper presents a revised overview of the VTT hardware design, enhanced from our previous works. We propose an active VTT spherical joint, which can address the hardware-related issues and also simplify the VTT software. Additionally, reconfiguration and locomotion planning algorithms for VTT are presented. We propose a retraction-based RRT method especially suitable for VTT and show our algorithm is superior to basic RRT in a practical 21-member VTT scenario. The locomotion algorithm implements a rolling gait under kinematic constraints; simulation results for a 21-member VTT show our algorithm yields accurate trajectory tracking.
Keywords
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