Literature DB >> 33134434

Location and Setting of the Mars InSight Lander, Instruments, and Landing Site.

M Golombek1, N Williams1, N H Warner2, T Parker1, M G Williams1, I Daubar1,3, F Calef1, J Grant4, P Bailey1, H Abarca1, R Deen1, N Ruoff1, J Maki1, A McEwen5, N Baugh5, K Block5, L Tamppari1, J Call1, J Ladewig6, A Stoltz6, W A Weems6, L Mora-Sotomayor7, J Torres7, M Johnson6, T Kennedy6, E Sklyanskiy1.   

Abstract

Knowing precisely where a spacecraft lands on Mars is important for understanding the regional and local context, setting, and the offset between the inertial and cartographic frames. For the InSight spacecraft, the payload of geophysical and environmental sensors also particularly benefits from knowing exactly where the instruments are located. A ~30 cm/pixel image acquired from orbit after landing clearly resolves the lander and the large circular solar panels. This image was carefully georeferenced to a hierarchically generated and coregistered set of decreasing resolution orthoimages and digital elevation models to the established positive east, planetocentric coordinate system. The lander is located at 4.502384°N, 135.623447°E at an elevation of -2,613.426 m with respect to the geoid in Elysium Planitia. Instrument locations (and the magnetometer orientation) are derived by transforming from Instrument Deployment Arm, spacecraft mechanical, and site frames into the cartographic frame. A viewshed created from 1.5 m above the lander and the high-resolution orbital digital elevation model shows the lander is on a shallow regional slope down to the east that reveals crater rims on the east horizon ~400 m and 2.4 km away. A slope up to the north limits the horizon to about 50 m away where three rocks and an eolian bedform are visible on the rim of a degraded crater rim. Azimuths to rocks and craters identified in both surface panoramas and high-resolution orbital images reveal that north in the site frame and the cartographic frame are the same (within 1°). ©2020. Jet Propulsion Laboratory.

Entities:  

Keywords:  InSight; Mars; Mars lander; location; surface location

Year:  2020        PMID: 33134434      PMCID: PMC7583488          DOI: 10.1029/2020EA001248

Source DB:  PubMed          Journal:  Earth Space Sci        ISSN: 2333-5084            Impact factor:   2.900


  7 in total

1.  Localization and physical properties experiments conducted by Spirit at Gusev Crater.

Authors:  R E Arvidson; R C Anderson; P Bartlett; J F Bell; D Blaney; P R Christensen; P Chu; L Crumpler; K Davis; B L Ehlmann; R Fergason; M P Golombek; S Gorevan; J A Grant; R Greeley; E A Guinness; A F C Haldemann; K Herkenhoff; J Johnson; G Landis; R Li; R Lindemann; H McSween; D W Ming; T Myrick; L Richter; F P Seelos; S W Squyres; R J Sullivan; A Wang; J Wilson
Journal:  Science       Date:  2004-08-06       Impact factor: 47.728

2.  The Mars Pathfinder atmospheric structure investigation/meteorology (ASI/MET) experiment.

Authors:  J T Schofield; J R Barnes; D Crisp; R M Haberle; S Larsen; J A Magalhães; J R Murphy; A Seiff; G Wilson
Journal:  Science       Date:  1997-12-05       Impact factor: 47.728

3.  Overview of the Mars Pathfinder mission and assessment of landing site predictions.

Authors:  M P Golombek; R A Cook; T Economou; W M Folkner; A F Haldemann; P H Kallemeyn; J M Knudsen; R M Manning; H J Moore; T J Parker; R Rieder; J T Schofield; P H Smith; R M Vaughan
Journal:  Science       Date:  1997-12-05       Impact factor: 47.728

4.  Localization and physical property experiments conducted by Opportunity at Meridiani Planum.

Authors:  R E Arvidson; R C Anderson; P Bartlett; J F Bell; P R Christensen; P Chu; K Davis; B L Ehlmann; M P Golombek; S Gorevan; E A Guinness; A F C Haldemann; K E Herkenhoff; G Landis; R Li; R Lindemann; D W Ming; T Myrick; T Parker; L Richter; F P Seelos; L A Soderblom; S W Squyres; R J Sullivan; J Wilson
Journal:  Science       Date:  2004-12-03       Impact factor: 47.728

Review 5.  SEIS: Insight's Seismic Experiment for Internal Structure of Mars.

Authors:  P Lognonné; W B Banerdt; D Giardini; W T Pike; U Christensen; P Laudet; S de Raucourt; P Zweifel; S Calcutt; M Bierwirth; K J Hurst; F Ijpelaan; J W Umland; R Llorca-Cejudo; S A Larson; R F Garcia; S Kedar; B Knapmeyer-Endrun; D Mimoun; A Mocquet; M P Panning; R C Weber; A Sylvestre-Baron; G Pont; N Verdier; L Kerjean; L J Facto; V Gharakanian; J E Feldman; T L Hoffman; D B Klein; K Klein; N P Onufer; J Paredes-Garcia; M P Petkov; J R Willis; S E Smrekar; M Drilleau; T Gabsi; T Nebut; O Robert; S Tillier; C Moreau; M Parise; G Aveni; S Ben Charef; Y Bennour; T Camus; P A Dandonneau; C Desfoux; B Lecomte; O Pot; P Revuz; D Mance; J tenPierick; N E Bowles; C Charalambous; A K Delahunty; J Hurley; R Irshad; Huafeng Liu; A G Mukherjee; I M Standley; A E Stott; J Temple; T Warren; M Eberhardt; A Kramer; W Kühne; E-P Miettinen; M Monecke; C Aicardi; M André; J Baroukh; A Borrien; A Bouisset; P Boutte; K Brethomé; C Brysbaert; T Carlier; M Deleuze; J M Desmarres; D Dilhan; C Doucet; D Faye; N Faye-Refalo; R Gonzalez; C Imbert; C Larigauderie; E Locatelli; L Luno; J-R Meyer; F Mialhe; J M Mouret; M Nonon; Y Pahn; A Paillet; P Pasquier; G Perez; R Perez; L Perrin; B Pouilloux; A Rosak; I Savin de Larclause; J Sicre; M Sodki; N Toulemont; B Vella; C Yana; F Alibay; O M Avalos; M A Balzer; P Bhandari; E Blanco; B D Bone; J C Bousman; P Bruneau; F J Calef; R J Calvet; S A D'Agostino; G de Los Santos; R G Deen; R W Denise; J Ervin; N W Ferraro; H E Gengl; F Grinblat; D Hernandez; M Hetzel; M E Johnson; L Khachikyan; J Y Lin; S M Madzunkov; S L Marshall; I G Mikellides; E A Miller; W Raff; J E Singer; C M Sunday; J F Villalvazo; M C Wallace; D Banfield; J A Rodriguez-Manfredi; C T Russell; A Trebi-Ollennu; J N Maki; E Beucler; M Böse; C Bonjour; J L Berenguer; S Ceylan; J Clinton; V Conejero; I Daubar; V Dehant; P Delage; F Euchner; I Estève; L Fayon; L Ferraioli; C L Johnson; J Gagnepain-Beyneix; M Golombek; A Khan; T Kawamura; B Kenda; P Labrot; N Murdoch; C Pardo; C Perrin; L Pou; A Sauron; D Savoie; S Stähler; E Stutzmann; N A Teanby; J Tromp; M van Driel; M Wieczorek; R Widmer-Schnidrig; J Wookey
Journal:  Space Sci Rev       Date:  2019-01-28       Impact factor: 8.017

6.  Geology of the InSight landing site on Mars.

Authors:  M Golombek; N H Warner; J A Grant; E Hauber; V Ansan; C M Weitz; N Williams; C Charalambous; S A Wilson; A DeMott; M Kopp; H Lethcoe-Wilson; L Berger; R Hausmann; E Marteau; C Vrettos; A Trussell; W Folkner; S Le Maistre; N Mueller; M Grott; T Spohn; S Piqueux; E Millour; F Forget; I Daubar; N Murdoch; P Lognonné; C Perrin; S Rodriguez; W T Pike; T Parker; J Maki; H Abarca; R Deen; J Hall; P Andres; N Ruoff; F Calef; S Smrekar; M M Baker; M Banks; A Spiga; D Banfield; J Garvin; C E Newman; W B Banerdt
Journal:  Nat Commun       Date:  2020-02-24       Impact factor: 14.919
  7 in total
  2 in total

1.  Soil Thermophysical Properties Near the InSight Lander Derived From 50 Sols of Radiometer Measurements.

Authors:  Sylvain Piqueux; Nils Müller; Matthias Grott; Matthew Siegler; Ehouarn Millour; Francois Forget; Mark Lemmon; Matthew Golombek; Nathan Williams; John Grant; Nicholas Warner; Veronique Ansan; Ingrid Daubar; Jörg Knollenberg; Justin Maki; Aymeric Spiga; Don Banfield; Tilman Spohn; Susan Smrekar; Bruce Banerdt
Journal:  J Geophys Res Planets       Date:  2021-08-12       Impact factor: 4.434

2.  InSight Pressure Data Recalibration, and Its Application to the Study of Long-Term Pressure Changes on Mars.

Authors:  L Lange; F Forget; D Banfield; M Wolff; A Spiga; E Millour; D Viúdez-Moreiras; A Bierjon; S Piqueux; C Newman; J Pla-García; W B Banerdt
Journal:  J Geophys Res Planets       Date:  2022-05-23       Impact factor: 4.434
  2 in total

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