2014
DOI: 10.1007/s11214-014-0073-3
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Pre-flight and On-orbit Geometric Calibration of the Lunar Reconnaissance Orbiter Camera

Abstract: The Lunar Reconnaissance Orbiter Camera (LROC) consists of two imaging systems that provide multispectral and high resolution imaging of the lunar surface. The Wide Angle Camera (WAC) is a seven color push-frame imager with a 90 • field of view in monochrome mode and 60 • field of view in color mode. From the nominal 50 km polar orbit, the WAC acquires images with a nadir ground sampling distance of 75 m for each of the five visible bands and 384 m for the two ultraviolet bands. The Narrow Angle Camera (NAC) c… Show more

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Cited by 41 publications
(46 citation statements)
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“…_______________________________ * Corresponding author Once in orbit, the LROC team conducted a focused investigation to geometrically calibrate each of the three cameras using images and data collected while in orbit. Using a series of retro reflectors emplaced during Apollo and Luna missions to the surface (Wagner et al, 2016), a temperature based pointing model was derived for the twin Narrow Angle Cameras (Speyerer et al, 2014). A subset of NAC images were later used to calibrate the internal and external orientation parameters of the LROC WAC.…”
Section: Lunar Reconnaissance Orbiter Cameramentioning
confidence: 99%
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“…_______________________________ * Corresponding author Once in orbit, the LROC team conducted a focused investigation to geometrically calibrate each of the three cameras using images and data collected while in orbit. Using a series of retro reflectors emplaced during Apollo and Luna missions to the surface (Wagner et al, 2016), a temperature based pointing model was derived for the twin Narrow Angle Cameras (Speyerer et al, 2014). A subset of NAC images were later used to calibrate the internal and external orientation parameters of the LROC WAC.…”
Section: Lunar Reconnaissance Orbiter Cameramentioning
confidence: 99%
“…A subset of NAC images were later used to calibrate the internal and external orientation parameters of the LROC WAC. With the improvement to the WAC orientation parameters, refined ephemeris derived with a new gravity model of the Moon (Mazarico et al, 2013;Lemoine et al, 2014), and a high-resolution topographic model (Scholten et al, 2012), WAC images can be orthorectified with an accuracy of 40 m without the use of ground control points (Speyerer et al, 2014). This enables the generation of regional multi-spectral maps with sub-pixel accuracy.…”
Section: Lunar Reconnaissance Orbiter Cameramentioning
confidence: 99%
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“…Image acquisition and calibration details for the cameras are detailed elsewhere , Speyerer et al, 2015, Robinson et al, 2010 and not repeated here. LROC observations are publicly accessed through the NASA Planetary Data System (PDS) (NASA, 2014).…”
Section: Lunar Images Acquired By Lrocmentioning
confidence: 99%