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Space Test Program-H2-Radar Fence Transponder (STP-H2-RAFT)
12.05.12

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Overview | Description | Applications | Operations | Results | Publications | Imagery

Experiment Overview

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Brief Summary

The RAFT mission is a student experiment from the United Sates Naval Academy that uses picosatellites to test the Space Surveillance Radar Fence and experimental communications transponders.

Principal Investigator(s)

  • , United States Naval Academy, Annapolis, MD, United States

    • Co-Investigator(s)/Collaborator(s)

    Information Pending

    Developer(s)

    United States Department of Defense Space Test Program, Johnson Space Center, Houston, TX, United States

    Sponsoring Space Agency

    National Aeronautics and Space Administration (NASA)

    Sponsoring Organization

    Department of Defense (DoD) - Retired

    ISS Expedition Duration

    September 2006 - April 2007



    Expeditions Assigned

    14

    Previous ISS Missions

    RAFT is a new investigation, it has not been performed in microgravity before.

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    Experiment Description

    Research Overview

    • Radar Fence Transponder (RAFT) is a student experiment from the United States Naval Academy that will determine the limits of the Space Surveillance Radar Fence in detecting small satellites and test experimental communications transponders.


    • RAFT will use two small cube-shaped picosatellites (5 in on a side), to transmit and receive signals from the radar fence for calibration.


    • RAFT is part of the Space Test Program-H2 (STP-H2) complement that also includes MEPSI and ANDE.

    Description

    The mission of RAFT is to provide the Navy Space Surveillance System, or NSSS, radar fence with a means to determine the bounds of a constellation of picosatellites otherwise undetectable to the radar fence, and to enable NSSS to independently calibrate their transmit and receive beams using signals from RAFT. This must be accomplished with two picosatellites (RAFT1 and MARScom), one that will actively transmit and receive, and one with a passively augmented radar cross-section. Additionally, RAFT will provide experimental communications transponders for the Amateur Satellite Service, the Navy Military Affiliate Radio System, and the Naval Academy's Yard Patrol Craft.

    RAFT was deployed from the Space Shuttle Discovery during STS-116/12A.1 mission on December 20, 2006.

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    Applications

    Space Applications

    RAFT will lead to a better system of tracking an increasing population of picosatellites.

    Earth Applications

    RAFT is a student project at the US Naval Academy Aerospace. This experiment provides students the hands-on opportunity to design and build picosatellites. By using mathematics, engineering and scientific concepts, it will prepare the next generation for careers in the Aerospace industry.

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    Operations

    Operational Requirements

    The RAFT picosatellites are ejected from the SSPL5510 cargo element, a reusable launcher. The launcher is located in the STP-H2 complement, along with the ANDE and MEPSI experiments, which is in the Space Shuttle cargo bay. The launcher will hold 2 picosatellites, RAFT1 and MARScom, which are 5 x 5 x 5 inch cubes that weigh a combined 7 kg. The crew will use a switch from inside the crew cabin to launch RAFT. Each picosatellite contains 3 antennas that will deploy once launched that will allow RAFT1 to communicate with the NSSS and MARScom to communicate with the Amateur Satellite Service, the Navy Military Affiliate Radio System, and the Naval Academy's Yard Patrol Craft.

    Operational Protocols

    The Space Shuttle crew will initiate the launch from inside the crew cabin. The SSPL5510 launcher will release the 2 picosatellites, RAFT1 and MARScom. Once the satellites are in orbit, they will power-on and deploy their 3 antennas.

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    Results/More Information

    RAFT was deployed on December 20, 2006 and de-orbited on May 30, 2007 after 5 months in space. The deployment resulted in an applied torque to the satellites (see image sequence below). Several subsystems on the satellite (solar panel and thermal performance) were monitored. Volunteer ground stations were used to track the satellites. (Evans et al. 2009)

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    Related Websites
  • RAFT Satellite Project

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    Imagery

    image The image above shows the relation of size between nine picosatellites (also known as Cubesats) to a bottle of water. The RAFT experiment will use two picosatellites. Image courtesy of NASA, Johnson Space Center.
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    image The sequence of images shows the two RAFT satellite cubes being deployed from the Space Shuttle (STS-116). The bottom photo shows the onset of tumbling of the satellites. Image courtesy of DOD.
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    Information provided by the investigation team to the ISS Program Scientist's Office.
    If updates are needed to the summary please contact JSC-ISS-Program-Science-Group. For other general questions regarding space station research and technology, please feel free to call our help line at 281-244-6187 or e-mail at JSC-ISS-Payloads-Helpline.
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