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Small Rocket/Spacecraft Technology (SMART) Platform (2011)

Flatley, Thomas P. ; Esper, Jaime ; Buckley, Steven J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The NASA Goddard Space Flight Center (GSFC) and the Department of Defense Operationally Responsive Space (ORS) Office are exercising a multi-year collaborative agreement focused on a redefinition of the way space missions are designed and implemented. A much faster, leaner and effective approach to space flight requires the concerted effort of a multi-agency team tasked with developing the building blocks, both programmatically and technologically, to ultimately achieve flights within 7-days from mission call-up. For NASA, rapid mission implementations represent an opportunity to find creative ways for reducing mission life-cycle times with the resulting savings in cost. This in tum enables a class of missions catering to a broader audience of science participants, from universities to private and national laboratory researchers. To that end, the SMART (Small Rocket/Spacecraft Technology) micro-spacecraft prototype demonstrates an advanced avionics system with integrated GPS capability, high-speed plug-and-playable interfaces, legacy interfaces, inertial navigation, a modular reconfigurable structure, tunable thermal technology, and a number of instruments for environmental and optical sensing. Although SMART was first launched inside a sounding rocket, it is designed as a free-flyer.

Keywords: Spacecraft Design, Testing and Performance; Astronautics (General)

Type: SSC11-VII-6 , LEGNEW-OLDGSFC-GSFC-LN-1178 , Annual AIAA/USU Conference on Small Satellites; Aug 08, 2011 - Aug 11, 2011; Logan, UT; United States

Format: application/pdf

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Nanosatellite Launch Adapter System (NLAS) (2010)

Buckley, Steven J. ; Hines, John W. ; Agasid, Elwood F. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The utility of small spacecraft based on the University cubesat standard is becoming evident as more and more agencies and organizations are launching or planning to include nanosatellites in their mission portfolios. Cubesats are typically launched as secondary spacecraft in enclosed, containerized deployers such as the CalPoly Poly Picosat Orbital Deployer (P-POD) system. The P-POD allows for ease of integration and significantly reduces the risk exposure to the primary spacecraft and mission. NASA/ARC and the Operationally Responsive Space office are collaborating to develop a Nanosatellite Launch Adapter System (NLAS), which can accommodate multiple cubesat or cubesat-derived spacecraft on a single launch vehicle. NLAS is composed of the adapter structure, P-POD or similar spacecraft dispensers, and a sequencer/deployer system. This paper describes the NLAS system and it s future capabilities, and also provides status on the system s development and potential first use in space.

Keywords: Spacecraft Design, Testing and Performance

Type: AIAA Paper RS8-2010-5004 , ARC-E-DAA-TN1284 , Responsive Space 8; Mar 08, 2010 - Mar 11, 2010; Los Angeles, CA; United States

Format: application/pdf

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