Omnidirectional Three Module Robot Design and Simulation
Kartik Suryavanshi, Rama Vadapalli, Praharsha Budharaja, Abhishek, Sarkar, Madhava Krishna
TL;DR
This paper presents a novel three-module omnidirectional robot designed for navigating complex pipe networks, featuring holonomic motion capabilities validated through simulation.
Contribution
It introduces a new robot design with three omnidirectional modules enabling holonomic motion and analyzes its motion singularities in pipe navigation.
Findings
Successful simulation validation in MSC ADAMS
Effective negotiation of T-junctions with minimal singularity issues
Enhanced orientation control during pipe traversal
Abstract
This paper introduces the Omnidirectional Tractable Three Module Robot for traversing inside complex pipe networks. The robot consists of three omnidirectional modules fixed 120{\deg} apart circumferentially which can rotate about their axis allowing holonomic motion of the robot. Holonomic motion enables the robot to overcome motion singularity when negotiating T-junctions and further allows the robot to arrive in a preferred orientation while taking turns inside a pipe. The singularity region while negotiating T-junctions is analyzed to formulate the geometry of the region. The design and motion capabilities are validated by conducting simulations in MSC ADAMS on a simplified lumped-model of the robot.
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Taxonomy
TopicsModular Robots and Swarm Intelligence · Soft Robotics and Applications · Robotic Locomotion and Control