An Alternative Approach to Mapping Thermophysical Units from Martian Thermal Inertia and Albedo Data Using a Combination of Unsupervised Classification Techniques

Jones, Eriita; Caprarelli, Graziella; Mills, Franklin P.; Doran, Bruce; Clarke, Jonathan

doi:10.3390/rs6065184

Cited by 23 publications

(24 citation statements)

References 172 publications

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“…hemispheres were typically found in areas of higher albedo and lower thermal inertia relative to global trends. The Heldmann and Mellon (2004) (Cantor et al, 2002;Smith, 2004;Tamppari et al, 2008); therefore, MY24 albedo values should be the most representative of average martian surface materials (Jones et al, 2014). The different datasets used may thus account for the differences in our observations vs. those of Heldmann and Mellon (2004) and Heldmann et al (2007).…”

Section: Relationship Of Gullies To Other Landformsmentioning

confidence: 88%

“…However, the variability in relative gully ages as compared to dunes suggests that optimal conditions for gully formation have not remained constant over time in individual locations. Jones et al (2014) conducted global thermophysical mapping of Mars using combined albedo and nighttime thermal inertia values derived from the Mars Global Surveyor Thermal Emission Spectrometer (TES), refining the previous mapping of Putzig et al (2005). They defined 7 classes of surface materials, distinguished by their dominant grain size, degree of induration, and albedo (correlated with mineralogy).…”

Section: Relationship Of Gullies To Other Landformsmentioning

confidence: 99%

See 1 more Smart Citation

Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation

Harrison

Osinski

Tornabene

et al. 2015

Icarus

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132

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Section: Relationship Of Gullies To Other Landformsmentioning

confidence: 88%

Section: Relationship Of Gullies To Other Landformsmentioning

confidence: 99%

Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation

Harrison

Osinski

Tornabene

et al. 2015

Icarus

Self Cite

132

View full text Add to dashboard Cite

“…The VL, Spirit, PHX and MSL landing sites sample the moderate thermal inertia and intermediate to high albedo unit C (Fig. 13, Table 7) that is dominated by crusty, cloddy, blocky or frozen soils (duricrust) with various abundances of rocks and bright dust (Golombek et al 2008a;Jakosky and Christensen 1986;Christensen and Moore 1992;Moore and Jakosky 1989;Mellon et al 2000Putzig et al 2005;Jones et al 2014). The Opportunity landing site is in the moderate thermal inertia and low albedo surface unit B that is relatively dust free and composed of dark eolian sand and/or increased abundance of rocks.…”

Section: Thermal Inertia Is Defined As I = (Kρc)mentioning

confidence: 99%

Selection of the InSight Landing Site

et al. 2016

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The selection of the Discovery Program InSight landing site took over four years from initial identification of possible areas that met engineering constraints, to downselection via targeted data from orbiters (especially Mars Reconnaissance SPAC 11214 layout: Small Condensed v.2.1 file: spac321.tex (ELE) class: spr-small-v1.2 v.2016/06/09 Prn:2016/12/02; 14:37 p. 1/91» « d o c to p i c : R e v i e w P a p e rn u m b e r i n g s t y l e : C o n t e n t O n l yr e f e r e n c e s t y l e : a p s » latitude (initially 15°S-5°N and later 3°N-5°N for solar power and thermal management of the spacecraft), ellipse size (130 km by 27 km from ballistic entry and descent), and a load bearing surface without thick deposits of dust, severely limited acceptable areas to western Elysium Planitia. Within this area, 16 prospective ellipses were identified, which lie ∼600 km north of the Mars Science Laboratory (MSL) rover. Mapping of terrains in rapidly acquired CTX images identified especially benign smooth terrain and led to the downselection to four northern ellipses. Acquisition of nearly continuous HiRISE, additional Thermal Emission Imaging System (THEMIS), and High Resolution Stereo Camera (HRSC) images, along with radar data confirmed that ellipse E9 met all landing site constraints: with slopes <15°at 84 m and 2 m length scales for radar tracking and touchdown stability, low rock abundance (<10 %) to avoid impact and spacecraft tip over, instrument deployment constraints, which included identical slope and rock abundance constraints, a radar reflective and load bearing surface, and a fragmented regolith ∼5 m thick for full penetration of the heat flow probe. Unlike other Mars landers, science objectives did not directly influence landing site selection. AUTHOR'S PROOF

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“…The iterative self-organizing data analysis technique (ISODATA) is a widely used classification methods (Micallef et al, 2007) that approximate the natural construction of a multidimensional dataset by iteratively passing it through defining classes to minimize pixel separation distance (D) and sum of squared error (SSE) (Ball and Hall, 1967;Jones et al, 2014). …”

Section: Unsupervised Learning Methodsmentioning

confidence: 99%

Acoustic mapping and classification of benthic habitat using unsupervised learning in artificial reef water

Tang

Xia

et al. 2017

Estuarine, Coastal and Shelf Science

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a b s t r a c tArtificial reefs (ARs) are effective means to maintain fishery resources and to restore ecological environment in coastal waters. ARs have been widely constructed along the Chinese coast. However, understanding of benthic habitats in the vicinity of ARs is limited, hindering effective fisheries and aquacultural management. Multibeam echosounder (MBES) is an advanced acoustic instrument capable of efficiently generating large-scale maps of benthic environments at fine resolutions. The objective of this study is to develop a technical approach to characterize, classify, and map shallow coastal areas with ARs using an MBES. An automated classification method is designed and tested to process bathymetric and backscatter data from MBES and transform the variables into simple, easily visualized maps. To reduce the redundancy in acoustic variables, a principal component analysis (PCA) is used to condense the highly collinear dataset. An acoustic benthic map of bottom sediments is classified using an iterative self-organizing data analysis technique (ISODATA). The approach is tested with MBES surveys in a 1.15 km 2 fish farm with a high density of ARs off the Yantai coast in northern China. Using this method, 3 basic benthic habitats (sandy bottom, muddy sediments, and ARs) are distinguished. The results of the classification are validated using sediment samples and underwater surveys. Our study shows that the use of MBES is an effective method for acoustic mapping and classification of ARs.

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An Alternative Approach to Mapping Thermophysical Units from Martian Thermal Inertia and Albedo Data Using a Combination of Unsupervised Classification Techniques

Cited by 23 publications

References 172 publications

Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation

Global documentation of gullies with the Mars Reconnaissance Orbiter Context Camera and implications for their formation

Selection of the InSight Landing Site

Acoustic mapping and classification of benthic habitat using unsupervised learning in artificial reef water

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