The Lunar Crater Observation and Sensing Satellite (LCROSS) Payload Development and Performance in Flight

The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently shadowed region (PSR) at a lunar pole. LCROSS was classified as a NASA Class D mission. Its payload, the subject of this article, was designed, bu...

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Published in	Space science reviews Vol. 167; no. 1-4; pp. 23 - 69
Main Authors	Ennico, Kimberly, Shirley, Mark, Colaprete, Anthony, Osetinsky, Leonid
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.05.2012 Springer Springer Nature B.V
Subjects	Aerospace Technology and Astronautics Astrophysics and Astroparticles Calibration Earth, ocean, space Exact sciences and technology Indexing in process Moisture content Moon Physics Physics and Astronomy Planetology Remote sensing Satellites Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Spectrum analysis United States > US Spectroscopy LCROSS Moon Class D Impactor LRO Mission
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ISSN	0038-6308 1572-9672
DOI	10.1007/s11214-011-9753-4

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Abstract	The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently shadowed region (PSR) at a lunar pole. LCROSS was classified as a NASA Class D mission. Its payload, the subject of this article, was designed, built, tested and operated to support a condensed schedule, risk tolerant mission approach, a new paradigm for NASA science missions. All nine science instruments, most of them ruggedized commercial-off-the-shelf (COTS), successfully collected data during all in-flight calibration campaigns, and most importantly, during the final descent to the lunar surface on October 9, 2009, after 112 days in space. LCROSS demonstrated that COTS instruments and designs with simple interfaces, can provide high-quality science at low-cost and in short development time frames. Building upfront into the payload design, flexibility, redundancy where possible even with the science measurement approach, and large margins, played important roles for this new type of payload. The environmental and calibration approach adopted by the LCROSS team, compared to existing standard programs, is discussed. The description, capabilities, calibration and in-flight performance of each instrument are summarized. Finally, this paper goes into depth about specific areas where the instruments worked differently than expected and how the flexibility of the payload team, the knowledge of instrument priority and science trades, and proactive margin maintenance, led to a successful science measurement by the LCROSS payload’s instrument complement.
AbstractList	The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently shadowed region (PSR) at a lunar pole. LCROSS was classified as a NASA Class D mission. Its payload, the subject of this article, was designed, built, tested and operated to support a condensed schedule, risk tolerant mission approach, a new paradigm for NASA science missions. All nine science instruments, most of them ruggedized commercial-off-the-shelf (COTS), successfully collected data during all in-flight calibration campaigns, and most importantly, during the final descent to the lunar surface on October 9, 2009, after 112 days in space. LCROSS demonstrated that COTS instruments and designs with simple interfaces, can provide high-quality science at low-cost and in short development time frames. Building upfront into the payload design, flexibility, redundancy where possible even with the science measurement approach, and large margins, played important roles for this new type of payload. The environmental and calibration approach adopted by the LCROSS team, compared to existing standard programs, is discussed. The description, capabilities, calibration and in-flight performance of each instrument are summarized. Finally, this paper goes into depth about specific areas where the instruments worked differently than expected and how the flexibility of the payload team, the knowledge of instrument priority and science trades, and proactive margin maintenance, led to a successful science measurement by the LCROSS payload’s instrument complement. The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently shadowed region (PSR) at a lunar pole. LCROSS was classified as a NASA Class D mission. Its payload, the subject of this article, was designed, built, tested and operated to support a condensed schedule, risk tolerant mission approach, a new paradigm for NASA science missions. All nine science instruments, most of them ruggedized commercial-off-the-shelf (COTS), successfully collected data during all in-flight calibration campaigns, and most importantly, during the final descent to the lunar surface on October 9, 2009, after 112 days in space. LCROSS demonstrated that COTS instruments and designs with simple interfaces, can provide high-quality science at low-cost and in short development time frames. Building upfront into the payload design, flexibility, redundancy where possible even with the science measurement approach, and large margins, played important roles for this new type of payload. The environmental and calibration approach adopted by the LCROSS team, compared to existing standard programs, is discussed. The description, capabilities, calibration and in-flight performance of each instrument are summarized. Finally, this paper goes into depth about specific areas where the instruments worked differently than expected and how the flexibility of the payload team, the knowledge of instrument priority and science trades, and proactive margin maintenance, led to a successful science measurement by the LCROSS payload's instrument complement. Issue Title: The Lunar Crater Observation Sensing Satellite (LCROSS) The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently shadowed region (PSR) at a lunar pole. LCROSS was classified as a NASA Class D mission. Its payload, the subject of this article, was designed, built, tested and operated to support a condensed schedule, risk tolerant mission approach, a new paradigm for NASA science missions. All nine science instruments, most of them ruggedized commercial-off-the-shelf (COTS), successfully collected data during all in-flight calibration campaigns, and most importantly, during the final descent to the lunar surface on October 9, 2009, after 112 days in space. LCROSS demonstrated that COTS instruments and designs with simple interfaces, can provide high-quality science at low-cost and in short development time frames. Building upfront into the payload design, flexibility, redundancy where possible even with the science measurement approach, and large margins, played important roles for this new type of payload. The environmental and calibration approach adopted by the LCROSS team, compared to existing standard programs, is discussed. The description, capabilities, calibration and in-flight performance of each instrument are summarized. Finally, this paper goes into depth about specific areas where the instruments worked differently than expected and how the flexibility of the payload team, the knowledge of instrument priority and science trades, and proactive margin maintenance, led to a successful science measurement by the LCROSS payload's instrument complement.[PUBLICATION ABSTRACT]
Author	Colaprete, Anthony Osetinsky, Leonid Ennico, Kimberly Shirley, Mark
Author_xml	– sequence: 1 givenname: Kimberly surname: Ennico fullname: Ennico, Kimberly email: Kimberly.Ennico@nasa.gov organization: NASA Ames Research Center – sequence: 2 givenname: Mark surname: Shirley fullname: Shirley, Mark organization: NASA Ames Research Center – sequence: 3 givenname: Anthony surname: Colaprete fullname: Colaprete, Anthony organization: NASA Ames Research Center – sequence: 4 givenname: Leonid surname: Osetinsky fullname: Osetinsky, Leonid organization: NASA Ames Research Center
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Cites_doi	10.1126/science.1186986 10.1117/12.541974 10.1126/science.1187454 10.1126/science.1187726 10.1051/0004-6361:20021326 10.1007/s11214-011-9753-4 10.1007/s11214-010-9631-5 10.1126/science.1186474 10.1007/s11214-011-9765-0 10.1126/science.1185696 10.1364/AO.44.006426 10.1126/science.1197135 10.1007/s11214-009-9529-2 10.1086/498708
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Snippet	The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was to confirm the presence or absence of water ice in a permanently... Issue Title: The Lunar Crater Observation Sensing Satellite (LCROSS) The primary objective of the Lunar Crater Observation and Sensing Satellite (LCROSS) was...
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SubjectTerms	Aerospace Technology and Astronautics Astrophysics and Astroparticles Calibration Earth, ocean, space Exact sciences and technology Indexing in process Moisture content Moon Physics Physics and Astronomy Planetology Remote sensing Satellites Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Spectrum analysis
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Title	The Lunar Crater Observation and Sensing Satellite (LCROSS) Payload Development and Performance in Flight
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