What question did this study set out to answer?

The aim is to develop a flexible microactuator for use in miniature robots to enhance their functionality.

December 9, 2002

Flexible microactuator for miniature robots

Key Points

The aim is to develop a flexible microactuator for use in miniature robots to enhance their functionality.
Constructed using fiber-reinforced rubber.
Actuated by electropneumatic or electrohydraulic systems.
Analyzed both theoretically and experimentally.
FMAs provide multiple degrees of freedom including pitch, yaw, and stretch.
A robot arm example features seven degrees of freedom with a diameter of a few millimeters.
FMAs can be efficiently designed based on easy predictions of statistics and dynamics.

Abstract

A new type of flexible microactuator (FMA) has been developed for use in miniature robots. They are constructed using fiber-reinforced rubber and are actuated by an electropneumatic or electrohydraulic system. These microactuators have many degrees of freedom (including pitch, yaw, and stretch), making them suitable for robotic mechanisms such as arms, legs, or fingers. Pliant miniature robots can be created by combining FMAs. One example is a robot arm a few millimeters in diameter with seven degrees of freedom. The basic characteristics of the FMAs have been analyzed theoretically and experimentally. It is noted that, since the statistics and dynamics are predicted easily, FMAs can be designed efficiently.>

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Authors

Koichi Suzumori

Tokyo Institute of Technology

S. Iikura

Toshiba (Japan)

Hirohisa Tanaka

Kwansei Gakuin University

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Institutions

Yokohama National University

Toshiba (Japan)

References and Citations

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Cite this study

Suzumori et al. (Mon,) studied this question.

synapsesocial.com/papers/6a0fab16d8c5cf602efd0248 — DOI: https://doi.org/10.1109/memsys.1991.114797

Also consider

Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context:

The characteristics of the McKibben artificial muscle· 1961 · 297 citations
Rubber gas actuator driven by hydrogen storage alloy for in-pipe inspection mobile robot with flexible structure· 2003 · 113 citations
In-pipe inspection mobile robots· 1989 · 6 citations
Trajectory Generation and Path Planning Expert System for Inspection Robots· 2005 · 3 citations
MOGRER: A vehicle study and realization for in-pipe inspection tasks· 1987 · 83 citations

Also consider

Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context:

The characteristics of the McKibben artificial muscle· 1961 · 297 citations
Rubber gas actuator driven by hydrogen storage alloy for in-pipe inspection mobile robot with flexible structure· 2003 · 113 citations
In-pipe inspection mobile robots· 1989 · 6 citations
Trajectory Generation and Path Planning Expert System for Inspection Robots· 2005 · 3 citations
MOGRER: A vehicle study and realization for in-pipe inspection tasks· 1987 · 83 citations

Flexible microactuator for miniature robots

Key Points

Abstract

Citation Network

Connected Papers

Discussion

Authors

Actions

Institutions

References and Citations

Citation Network

Connected Papers

Discussion

Cite this study

Also consider

Also consider