Inspired by the exoskeletons of insects, we have developed a number of manufacturing methods for the fabrication of structures for attachment, protection, and sensing. This manufacturing paradigm is based on infrared laser machining of lamina and the bonding of layered structures. The structures have been integrated with an inexpensive palm-sized legged robot, the VelociRoACH [Haldane et al., 2013, “Animal-Inspired Design and Aerodynamic Stabilization of a Hexapedal Millirobot,” IEEE/RSJ International Conference on Robotics and Automation, Karlsruhe, Germany, May 6–10, pp. 3279–3286]. We also present a methodology to design and fabricate folded robotic mechanisms, and have released an open-source robot, the OpenRoACH, as an example implementation of these techniques. We present new composite materials which enable the fabrication of stronger, larger scale smart composite microstructures (SCM) robots. We demonstrate how thermoforming can be used to manufacture protective structures resistant to water and capable of withstanding terminal velocity falls. A simple way to manufacture traction enhancing claws is demonstrated. An electronics layer can be incorporated into the robot structure, enabling the integration of distributed sensing. We present fabrication methods for binary and analog force sensing arrays, as well as a carbon nanotube (CNT) based strain sensor which can be fabricated in place. The presented manufacturing methods take advantage of low-cost, high accuracy two-dimensional fabrication processes which will enable low-cost mass production of robots integrated with mechanical linkages, an exoskeleton, and body and limb sensing.
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Integrated Manufacture of Exoskeletons and Sensing Structures for Folded Millirobots
Duncan W. Haldane,
Duncan W. Haldane
Department of Mechanical Engineering,
e-mail: dhaldane@berkeley.edu
University of California
,Berkeley, CA 94720
e-mail: dhaldane@berkeley.edu
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Carlos S. Casarez,
Carlos S. Casarez
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
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Jaakko T. Karras,
Jaakko T. Karras
Robotic Actuation and Sensing Group,
NASA Jet Propulsion Laboratory
,Pasadena, CA 91101
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Jessica Lee,
Jessica Lee
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
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Chen Li,
Chen Li
Department of Electrical Engineering and
Department of Integrative Biology,
Department of Integrative Biology,
University of California
,Berkeley, CA 94720
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Andrew O. Pullin,
Andrew O. Pullin
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
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Ethan W. Schaler,
Ethan W. Schaler
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
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Dongwon Yun,
Dongwon Yun
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
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Hiroki Ota,
Hiroki Ota
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
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Ali Javey,
Ali Javey
Professor
Department of Electrical Engineering and
Computer Sciences,
Department of Electrical Engineering and
Computer Sciences,
University of California
,Berkeley, CA 94720
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Ronald S. Fearing
Ronald S. Fearing
Professor
Department of Electrical Engineering and
Computer Sciences,
e-mail: ronf@eecs.berkeley.edu
Department of Electrical Engineering and
Computer Sciences,
University of California
,Berkeley, CA 94720
e-mail: ronf@eecs.berkeley.edu
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Duncan W. Haldane
Department of Mechanical Engineering,
e-mail: dhaldane@berkeley.edu
University of California
,Berkeley, CA 94720
e-mail: dhaldane@berkeley.edu
Carlos S. Casarez
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
Jaakko T. Karras
Robotic Actuation and Sensing Group,
NASA Jet Propulsion Laboratory
,Pasadena, CA 91101
Jessica Lee
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
Chen Li
Department of Electrical Engineering and
Department of Integrative Biology,
Department of Integrative Biology,
University of California
,Berkeley, CA 94720
Andrew O. Pullin
Department of Mechanical Engineering,
University of California
,Berkeley, CA 94720
Ethan W. Schaler
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
Dongwon Yun
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
Hiroki Ota
Department of Electrical Engineering and
Computer Sciences,
Computer Sciences,
University of California
,Berkeley, CA 94720
Ali Javey
Professor
Department of Electrical Engineering and
Computer Sciences,
Department of Electrical Engineering and
Computer Sciences,
University of California
,Berkeley, CA 94720
Ronald S. Fearing
Professor
Department of Electrical Engineering and
Computer Sciences,
e-mail: ronf@eecs.berkeley.edu
Department of Electrical Engineering and
Computer Sciences,
University of California
,Berkeley, CA 94720
e-mail: ronf@eecs.berkeley.edu
Manuscript received August 16, 2014; final manuscript received December 23, 2014; published online February 27, 2015. Assoc. Editor: Aaron M. Dollar.
J. Mechanisms Robotics. May 2015, 7(2): 021011 (19 pages)
Published Online: May 1, 2015
Article history
Received:
August 16, 2014
Revision Received:
December 23, 2014
Online:
February 27, 2015
Citation
Haldane, D. W., Casarez, C. S., Karras, J. T., Lee, J., Li, C., Pullin, A. O., Schaler, E. W., Yun, D., Ota, H., Javey, A., and Fearing, R. S. (May 1, 2015). "Integrated Manufacture of Exoskeletons and Sensing Structures for Folded Millirobots." ASME. J. Mechanisms Robotics. May 2015; 7(2): 021011. https://doi.org/10.1115/1.4029495
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