2019
DOI: 10.1109/access.2018.2887228
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Application of Tiling Theory for Path Planning Strategy in a Polyiamond Inspired Reconfigurable Robot

Abstract: Commercial floor cleaning robots face significant challenges in accessing convex and narrow corners due to their fixed and regular morphologies. To overcome this, we develop a new class of selfreconfigurable floor cleaning robot, hTetrakis, which is composed of tetriamonds (four equilateral triangles aligned along the edges) that adopt three distinct forms (''I'', ''A'', and ''U'' shapes). When on a flat and rigid platform, these forms have convex corners that help to cover narrow regions. This paper addresses… Show more

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Cited by 10 publications
(10 citation statements)
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“…The hTetrakis platform is suitable for accessing narrow and constrained spaces and has showed a superior area coverage performance in parallelogram based region as verified in the previous work [20]. In this section, we carried out simualtion experiments to check the mobility and positioning of the platform in test bed environment.…”
Section: A Simulation Results For Path Planningmentioning
confidence: 80%
See 3 more Smart Citations
“…The hTetrakis platform is suitable for accessing narrow and constrained spaces and has showed a superior area coverage performance in parallelogram based region as verified in the previous work [20]. In this section, we carried out simualtion experiments to check the mobility and positioning of the platform in test bed environment.…”
Section: A Simulation Results For Path Planningmentioning
confidence: 80%
“…1. All these configurations have convex boundary corners; as a result, the platform can reach sharp and narrow spaces of the environment, as described in our previous work [20].…”
Section: Robot Architecturementioning
confidence: 86%
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“…To enhance cleaning performance in dynamic environments, there is a need to consider the morphology of the cleaning robot when designing a cleaning platform. Considering these aspects, our team has implemented the concept of self-reconfiguration in floor-cleaning robots and built hTetro and hTetrakis platform [22][23][24]. These self-reconfigurable floor cleaning robots include tiling based area coverage path planning algorithms which are inspired by the Tetris game.…”
Section: Introductionmentioning
confidence: 99%