Hinged-Tetro: A self-reconfigurable module for nested reconfiguration

Kee, Vincent; Rojas, Nicolás; Elara, Mohan Rajesh; Sosa, Ricardo

doi:10.1109/aim.2014.6878302

Cited by 21 publications

(25 citation statements)

References 26 publications

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“…Superbot (SPI), 14 Ubot, M-Blocks, and Hinged-Tetro (UART). 38 Molecube uses the 1-wire protocol. Ethernet communication, although not common, is used by CoSMO 31 due to its high data rate.…”

Section: Intramodule Communicationsmentioning

confidence: 99%

Current trends in reconfigurable modular robots design

Brunete

Ranganath

Segovia

et al. 2017

International Journal of Advanced Robotic Systems

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This article presents a review on trends in modular reconfigurable robots, comparing the evolution of the features of the most significant robots over the years and focusing on the latest designs. These features are reconfiguration, docking, degrees of freedom, locomotion, control, communications, size, and powering. For each feature, some of the most relevant designs are presented and the current trends in the design are discussed.

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Section: Intramodule Communicationsmentioning

confidence: 99%

Current trends in reconfigurable modular robots design

Brunete

Ranganath

Segovia

et al. 2017

International Journal of Advanced Robotic Systems

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“…In particular, the synchronization and the gait transitions are realized by utilizing a trajectory generator based on fifth-polynomial interpolation. Our presented reconfigurable platform, a novel approach of reconfigurable robot contained within a nested reconfigurable concept [10], needs applications for the synchronization for walking as well as the gait transitions between the gait patterns. However, to design applications for each synchronization and each gait transition is meaningless due to infinite complexities.…”

Section: Introductionmentioning

confidence: 99%

A novel approach to gait synchronization and transition for reconfigurable walking platforms

Nansai

Rojas

Elara

et al. 2015

Digital Communications and Networks

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Legged robots based on one degree-of-freedom reconfigurable planar leg mechanisms, that are capable of generating multiple useful gaits, are highly desired due to the possibility of handling environments and tasks of high complexity while maintaining simple control schemes. An essential consideration in these reconfigurable legged robots is to attain stability in motion, at rest as well as while transforming from one configuration to another with the minimum number of legs as long as the full range of their walking patterns, resulting from the different gait cycles of their legs, is achieved. To this end, in this paper, we present a method for the generation of input joint trajectories to properly synchronize the movement of quadruped robots with reconfigurable legs. The approach is exemplified in a four-legged robot with reconfigurable Jansen legs capable of generating up to six useful different gait cycles. The proposed technique is validated through simulated results that show the platform??s stability across its six feasible walking patterns and during gait transition phases, thus considerably extending the capabilities of the non-reconfigurable design

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“…Pertinent efforts in this field have included the remodeling of an equilateral triangle into a polygon [34], combining several rigid duplicates of the same polyhedron [35], the creation of unique patterns through rearrangement of shapes from one to another [36], and 3D hinged dissection being used for the formation of 3D polyhedra. In robotics, the work presented in [21] studies the hinged dissection principle, with a view to creating a nested re-configurable robot module named 'hinged-tetro', and to demonstrating that Left Left Right (LLR) or Left Left Left (LLL) hinged dissection applies to the creation of all one-sided tetromino forms. The LLR hinged dissection method was utilized in the creation of the hTetro cleaning device [22], in order to achieve the transformational capability.…”

Section: Htromo: Robot Architecturementioning

confidence: 99%

Tackling Area Coverage Problems in a Reconfigurable Floor Cleaning Robot Based on Polyomino Tiling Theory

et al. 2018

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Whilst Polyomino tiling theory has been extensively studied as a branch of research in mathematics, its application has been largely confined to multimedia, graphics and gaming domains. In this paper, we present a novel application of Tromino tiling theory, a class of Polyomino with three cells in the context of a reconfigurable floor cleaning robot, hTromo. The developed robot platform is able to automatically generate a global tiling set required to cover a defined space while leveraging on the Tromino tiling theory. Specifically, we validated the application of five Tromino tiling theorems with our hTromo robot. Experiments performed clearly demonstrate the efficacy of the proposed approach resulting in very high levels of area coverage performance in all considered experimental cases. This paper also presents the system architecture of our hTromo robot and a detailed description of the five tiling theorems applied in this study.

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Hinged-Tetro: A self-reconfigurable module for nested reconfiguration

Cited by 21 publications

References 26 publications

Current trends in reconfigurable modular robots design

Current trends in reconfigurable modular robots design

A novel approach to gait synchronization and transition for reconfigurable walking platforms

Tackling Area Coverage Problems in a Reconfigurable Floor Cleaning Robot Based on Polyomino Tiling Theory

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