Triple Scissor Extender Robot Arm: A Solution to the Last One Foot Problem of Manipulation
- 24 July 2018
- journal article
- research article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Robotics and Automation Letters
- Vol. 3 (4), 3975-3982
- https://doi.org/10.1109/lra.2018.2859022
Abstract
Final assembly, inspection, and maintenance of aircrafts, automobiles, and industrial equipment often requires a robot to reach confined areas that are difficult to access. While a robot can move freely in open space, the last one foot to a target site in a manufacturing environment is often cluttered with complex obstacles. Here we present a novel solution to the last one foot problem. Inspired by plant stem growth, a new design concept for an expandable arm, the Triple Scissor Extender Robot Arm (TSERA), is developed to access a confined area through a narrow channel. The robot consists of a series of expandable segments each of which is able to extend and tilt. Thus, the robot can elongate its structure along a narrow, winding space. The new design concept is accompanied by a new algorithm for path planning, the Sequential Expansion Algorithm. Unlike traditional algorithms for articulated robot path planning, TSERA's Sequential Expansion Algorithm reduces the otherwise computationally expensive multi body path planning problem to a single rigid body kinematics problem. Exploiting the serial nature of expandable structure, we can compute arm motion by sequentially solving a simple inverse kinematics problem for each segment.Keywords
Funding Information
- NSK
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