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FOCUSED MODULARITY: RAPID ITERATION OF DESIGN AND FABRICATION OF A METER-SCALE HEXAPEDAL ROBOT

Dale Miller, Ian Fitzner, Sawyer B. Fuller, Shai Revzen

Year
2015
Citations
3

Abstract

Robots are faced with increasingly complex, hard to simulate environments. Multilegged robots exhibit dynamics that are often difficult to model well. Their development thus depends on experimental verification. Here we pro-pose “focused modularity ” – an approach combining benefits of both modular robotics and more traditional rapid fabrication. We made robot mechanisms by laser cutting low-cost foam board, while the complexity of motor control and electronics is focused in a small number of servomotor modules. This dramat-ically reduced the cost and time of design iteration, and allowed incremental improvements to make up for deficits in material strength and manufactur-ing tolerance. We present meter-scale hexapods whose chassis and drive train were manufactured for under 20 USD and under four hours of skilled labor. To date we have produced over 40 revisions of the design, including 25 iterations of drive mechanism design and 7 full robot prototypes built. This represents a substantially more thorough exploration of the design space than could be possible using conventional development approaches. We suggest a library of

Keywords

Modularity (biology)Scale (ratio)Computer scienceRobotMetreFabricationArtificial intelligencePhysics

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