Item talk:Q47229
From geokb
orcid:
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An Evaluation\ \ of the Variability in Digital Terrain Models of Europa" translated-title: null type: journal-article url: value: https://doi.org/10.3390/rs13245097 visibility: public - external-ids: external-id: - external-id-normalized: transient: true value: 10.3390/rs13173511 external-id-normalized-error: null external-id-relationship: self external-id-type: doi external-id-url: value: https://doi.org/10.3390/rs13173511 external-id-value: 10.3390/rs13173511 last-modified-date: value: 1654200779866 work-summary: - created-date: value: 1631145679216 display-index: '0' external-ids: external-id: - external-id-normalized: transient: true value: 10.3390/rs13173511 external-id-normalized-error: null external-id-relationship: self external-id-type: doi external-id-url: value: https://doi.org/10.3390/rs13173511 external-id-value: 10.3390/rs13173511 journal-title: value: Remote Sensing last-modified-date: value: 1654137481422 path: /0000-0003-0842-9226/work/99653731 publication-date: day: null month: value: 09 year: value: '2021' put-code: 99653731 source: assertion-origin-client-id: null assertion-origin-name: null assertion-origin-orcid: null source-client-id: host: orcid.org path: APP-WRQOUAK78G5F7GMD uri: https://orcid.org/client/APP-WRQOUAK78G5F7GMD source-name: value: Multidisciplinary Digital Publishing Institute source-orcid: null title: subtitle: null title: value: Evaluating Stereo Digital Terrain Model Quality at Mars Rover Landing Sites with HRSC, CTX, and HiRISE Images translated-title: null type: journal-article url: value: https://www.mdpi.com/2072-4292/13/17/3511 visibility: public - 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usgs_staff_profile:
meta: url: https://www.usgs.gov/staff-profiles/randolph-l-kirk timestamp: '2024-01-30T16:01:09.638607' status_code: 200 profile: name: Randolph L Kirk, Ph.D. name_qualifier: null titles: - Scientist Emeritus organizations: - !!python/tuple - Astrogeology Science Center - https://www.usgs.gov/centers/astrogeology-science-center email: rkirk@usgs.gov orcid: 0000-0003-0842-9226 intro_statements: - "Randolph Kirk\u2019s research interests span both geoscience and mapping of\ \ planetary bodies. He has participated in many missions to the Moon, Venus,\ \ Mars, asteroids, comets, and icy satellites. He helped direct planetary mapping\ \ at the USGS since the early 1990s, and has developed practical methods for\ \ topomapping by shape from shading and by adapting commercial stereo workstations\ \ to planetary use." expertise_terms: - Planetary science - Geophysics - Photogrammetry - Cartography - Remote Sensing professional_experience: [] education: [] affiliations: [] honors: [] abstracts: [] personal_statement: "Recent AccomplishmentsIn 2020, NASA's Mars 2020 roverPerseverancelanded\ \ in Jezero crater at a site mapped by the Astrogeology Science Center.Perseverencewas\ \ the ninth Mars lander or rover to go to a site we mapped, all of which landed\ \ successfully. (Starting in 1962, 10 Mars landings attempted without USGS\ \ mapping failed for a variety of reasons. Just days beforePerseverencethe Chinese\ \ landerTianwen-1 became the first such mission to succeed.)Perseverancealso\ \ carried our maps onboard and used them to guide its final descent, a technological\ \ first.We are helping to design and caibrate the Europa Imaging System (EIS)\ \ cameras for NASA's Europa Clipper mission and to develop software and procedures\ \ for making controlled image and topographic maps. As part of this task, we\ \ invented and demonstrated a new technique for correcting distortions in frame\ \ images that are read out line-by-line so that they can be used for precision\ \ mapping.We have used stereo images of Mars obtained by different cameras with\ \ pixel scales differing up to 50x to assess the resolution and precision of\ \ digital topographic models obtained under real-world (Mars) conditions. We\ \ are currently using similar techniques with images of Earth\u2019s Moon to\ \ quantify how topographic models can be improved by photoclinometry (shape\ \ from shading) techniques using one or multiple images.EducationPh.D., Planetary\ \ Science, Minor in Physics, California Institute of Technology, January 1987M.S.,\ \ Planetary Science, California Institute of Technology, June 1984B.S., Physics,\ \ Stanford University, June 1981Space Mission ParticipationMember, Europa Imaging\ \ System Science Team, May 2015\u2013PresentMember, ExoMars Trace Gas Orbiter\ \ CaSSIS Science Team, August 2010\u2013PresentMember, LRO and Chandrayaan-1\ \ Mini-RF Science Teams, July 2006\u2013PresentMember, Mars Reconnaissance Orbiter\ \ HiRISE Science Team, December 2001\u2013PresentMember, Mars Exploration Rovers\ \ Science Team, August 2000\u2013June 2018Associate, Deep Space 1 MICAS Science\ \ Team, March 2000\u2013December 2002Participating Scientist, NEAR MSI/NIS Team,\ \ August 1999\u2013July 2001Associate, Imager for Mars Pathfinder Science Team,\ \ July 1996\u2013August 1998Member, Mars Express HRSC Science Team, January\ \ 2000\u2013March 2020Associate, Mars 96 HRSC/WAOSS Science Team, March 1993\u2013\ December 1996Member, Cassini RADAR Instrument Team, December 1990\u2013September\ \ 2018Magellan Guest Investigator, October 1990\u2013September 1994Associate,\ \ Voyager Imaging Science Team, 1989Working GroupsMember, IAU Working Group\ \ on Cartographic Coords & Rotational Elements, August 2012\u2013presentMember,\ \ NASA Lunar Geodesy/Cartography Working Group, December 2007\u2013presentMember,\ \ NASA Mars Geodesy/Cartography Working Group, June 1998\u2013presentMember,\ \ ISPRS Working Group \u201CPlanetary Mapping & Remote Sensing\u201D, November\ \ 1996\u2013presentChair, November 2000-October 2004, Co-Chair, Nove"