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Proceedings Paper

Print-and-play: a new paradigm for the nearly-instant aerospace system
Author(s): Kenneth H. Church; C. Michael Newton; Albert J. Marsh; Eric W. MacDonald; Cassandra D. Soto; James C. Lyke
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Paper Abstract

Nanosatellites, in particular the sub-class of CubeSATs, will provide an ability to place multiple small satellites in space more efficiently than larger satellites, with the eventual expectation that they will compete against some of the roles played by traditional large satellites that are expensive to launch. In order to do this, it is necessary to decrease the weight and volume without decreasing the capabilities. At the same time, it is desirable to create systems extremely rapidly, less than a week from concept to orbit. The Air Force has been working on a concept termed "CubeFlow" which will be a web-based design flow for rapidly constructible CubeSAT systems. In CubeFlow, distributed suppliers create offerings (modules, software functions, for satellite bus and payloads) meeting standard size and interface specifications, which are registered as a living catalog to a design community within the web-based CubeFlow environment. The idea of allowing any interested parties to make circuits and sensors that simply and compatibly connect to a modular satellite carrier is going to change how satellites are developed and launched, promoting creative exploitation and reduced development time and costs. We extend the power of the CubeFlow framework by a concept we call "print-and-play." "Print-and-play" enriches the CubeFlow concept dramatically. Whereas the CubeFlow system is oriented to the brokering of pre-created offerings from a "plug-and-play" vendor community, the idea of "print-andplay" allows similar offerings to be created "from scratch," using web-based plug-ins to capture design requirements, which are communicated to rapid prototyping tools.

Paper Details

Date Published: 7 May 2010
PDF: 9 pages
Proc. SPIE 7691, Space Missions and Technologies, 76910A (7 May 2010); doi: 10.1117/12.850409
Show Author Affiliations
Kenneth H. Church, nScrypt, Inc. (United States)
C. Michael Newton, nScrypt, Inc. (United States)
Albert J. Marsh, nScrypt, Inc. (United States)
Eric W. MacDonald, The Univ. of Texas at El Paso (United States)
Cassandra D. Soto, The Univ. of Texas at El Paso (United States)
James C. Lyke, Air Force Research Lab. (United States)

Published in SPIE Proceedings Vol. 7691:
Space Missions and Technologies
Joseph Lee Cox; Manfred G. Bester; Wolfgang Fink, Editor(s)

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