22.2.21.2 Mars, Martian Atmosphere Measurements, Mars Analysis, Other Planets

Jones, E.[Eriita], Caprarelli, G.[Graziella], Mills, F.P.[Franklin P.], Doran, B.[Bruce], Clarke, J.[Jonathan],
An Alternative Approach to Mapping Thermophysical Units from Martian Thermal Inertia and Albedo Data Using a Combination of Unsupervised Classification Techniques,
RS(6), No. 6, 2014, pp. 5184-5237.
DOI Link 1407
Surface material on Mars. BibRef

Shiina, T.[Tatsuo], Yamada, S.[Sonoko], Senshu, H.[Hiroki], Otobe, N.[Naohito], Hashimoto, G.[George], Kawabata, Y.[Yasuhiro],
LED-powered mini-lidar for martian atmospheric dust studies,
SPIE(Newsroom), October 28, 2016
DOI Link 1611
A 10cm3, physically robust instrument has been tested in wind-tunnel experiments, and is suitable for diffusion and convection studies. BibRef

Geng, X.[Xun], Xu, Q.[Qing], Xing, S.[Shuai], Lan, C.Z.[Chao-Zhen], Xu, J.Y.[Jun-Yi],
A Novel Pixel-Level Image Matching Method for Mars Express HRSC Linear Pushbroom Imagery Using Approximate Orthophotos,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
BibRef

Geng, X.[Xun], Xu, Q.[Qing], Xing, S.[Shuai], Lan, C.Z.[Chao-Zhen], Hou, Y.F.[Yi-Fan],
Real Time Processing for Epipolar Resampling of Linear Pushbroom Imagery Based on the Fast Algorithm for Best Scan Line Searching,
GeoInfo13(129-131).
DOI Link 1402
BibRef

Geng, X.[Xun], Xu, Q.[Qing], Lan, Y.G.[Yuan-Ge], Hou, Y.F.[Yi-Fan], Xing, S.[Shuai], Lan, C.Z.[Chao-Zhen],
Pixel Level Data Fusion of Mars Express HRSC Linear Pushbroom Imagery Based on the Rigorous Geometric Model,
IWIDF13(153-156).
HTML Version. 1311
BibRef

Geng, X., Xu, Q., Miao, J., Hou, Y.F., Xing, S., Lan, C.Z.,
Dense Image Matching for Mars Express HRSC Imagery Based On Precise Point Prediction Method,
ISPRS16(B4: 391-395).
DOI Link 1610
BibRef

Wang, C., Dong, Z., Zhang, X., Liu, X., Fang, G.,
Method for Anisotropic Crystal-Orientation Fabrics Detection Using Radio-Wave Depolarization in Radar Sounding of Mars Polar Layered Deposits,
GeoRS(56), No. 9, September 2018, pp. 5198-5206.
IEEE DOI 1809
Ice, Radar antennas, Anisotropic magnetoresistance, Mars, Spaceborne radar, Surface topography, remote sensing BibRef

Luo, Y.W.[Yao-Wen], Yan, J.G.[Jian-Guo], Li, F.[Fei], Li, B.[Bo],
Spatial Autocorrelation of Martian Surface Temperature and Its Spatio-Temporal Relationships with Near-Surface Environmental Factors across China's Tianwen-1 Landing Zone,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Lin, S.W.[Si-Wei], Chen, N.[Nan],
DEM Based Study on Shielded Astronomical Solar Radiation and Possible Sunshine Duration under Terrain Influences on Mars by Using Spectral Methods,
IJGI(10), No. 2, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Tang, Z.C.[Zhen-Cheng], Liu, J.J.[Jian-Jun], Wang, X.[Xing], Ren, X.[Xin], Yan, W.[Wei], Chen, W.L.[Wang-Li],
The Temporal Variation of Optical Depth in the Candidate Landing Area of China's Mars Mission (Tianwen-1),
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Gao, X.B.[Xue-Bang], Xie, L.[Li], Dou, X.Q.[Xu-Qiang], Zhou, J.[Jun],
Effects of Charged Martian Dust on Martian Atmosphere Remote Sensing,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Li, Z.C.[Zi-Chuan], Niu, D.D.[Dan-Dan], Gu, H.[Hao], Wu, X.S.[Xiao-Shu], Huang, Y.Y.[Ying-Ying], Zhong, J.H.[Jia-Hao], Cui, J.[Jun],
Modeling the CO2+ Ultraviolet Doublet Emission from Mars with a Multi-Instrument MAVEN Data Set,
RS(14), No. 7, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Hu, X.[Xiong], Wu, X.C.[Xiao-Cheng], Song, S.[Shuli], Ma, M.[Maoli], Zhou, W.[Weili], Xu, Q.C.[Qing-Chen], Li, L.[Lei], Xiao, C.[Cunying], Li, X.[Xie], Wang, C.[Chi], Liu, Q.H.[Qing-Hui], Chen, L.[Lue], Chen, G.M.[Guang-Ming], Cao, J.F.[Jian-Feng], Wang, M.[Mei], Li, P.[Peijia], Chu, Z.[Zhanghu], Xia, B.[Bo], Yang, J.F.[Jun-Feng], Tu, C.[Cui], Liu, D.[Dan], Zhang, S.[Simin], Zhang, Q.[Quan], Li, Z.[Zheng],
First Observations of Mars Atmosphere and Ionosphere with Tianwen-1 Radio-Occultation Technique on 5 August 2021,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Farahat, A.[Ashraf], Withers, P.[Paul], Mayyasi, M.[Majd], Dayeh, M.A.[Maher A.],
Comparison of the Effects of Regional and Global Dust Storms on the Composition of the Ionized Species of the Martian Upper Atmosphere Using MAVEN,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Wu, Z.P.[Zhao-Peng], Li, T.[Tao], Li, J.[Jing], Yang, C.Y.[Cheng-Yun], Cui, J.[Jun],
Diurnal Variations of Water Ice in the Martian Atmosphere Observed by Mars Climate Sounder,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Grygalashvyly, M.[Mykhaylo], Shaposhnikov, D.S.[Dmitry S.], Medvedev, A.S.[Alexander S.], Sonnemann, G.R.[Gerd Reinhold], Hartogh, P.[Paul],
Simplified Relations for the Martian Night-Time OH* Suitable for the Interpretation of Observations,
RS(14), No. 16, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Lozano, L.R.[Luca Ruiz], Karatekin, Ö.[Özgür], Dehant, V.[Véronique], Bellucci, G.[Giancarlo], Oliva, F.[Fabrizio], d'Aversa, E.[Emiliano], Carrozzo, F.G.[Filippo Giacomo], Altieri, F.[Francesca], Thomas, I.R.[Ian R.], Willame, Y.[Yannick], Robert, S.[Séverine], Vandaele, A.C.[Ann Carinne], Daerden, F.[Frank], Ristic, B.[Bojan], Patel, M.R.[Manish R.], Moreno, J.J.L.[José Juan López],
Evaluation of the Capability of ExoMars-TGO NOMAD Infrared Nadir Channel for Water Ice Clouds Detection on Mars,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Manzari, P.[Paola], Marzo, C.[Cosimo], Ammannito, E.[Eleonora],
Investigation of Absorption Bands around 3.3 mu-m in CRISM Data,
RS(14), No. 19, 2022, pp. xx-yy.
DOI Link 2210
hydrocarbon molecules. BibRef

Wong, M.H.[Michael H.], Bjoraker, G.L.[Gordon L.], Goullaud, C.[Charles], Stephens, A.W.[Andrew W.], Luszcz-Cook, S.H.[Statia H.], Atreya, S.K.[Sushil K.], de Pater, I.[Imke], Brown, S.T.[Shannon T.],
Deep Clouds on Jupiter,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Jiang, C.H.[Chun-Hua], Tian, R.[Rong], Wei, L.[Lehui],
Simulation of Transient Topside Layer in the Martian Ionosphere,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Rensen, F.[Frank], Miguel, Y.[Yamila], Zilinskas, M.[Mantas], Louca, A.[Amy], Woitke, P.[Peter], Helling, C.[Christiane], Herbort, O.[Oliver],
The Deep Atmospheric Composition of Jupiter from Thermochemical Calculations Based on Galileo and Juno Data,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Pluriel, W.[William],
Hot Exoplanetary Atmospheres in 3D,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Miguel, Y.[Yamila], Vazan, A.[Allona],
Interior and Evolution of the Giant Planets,
RS(15), No. 3, 2023, pp. xx-yy.
DOI Link 2302
BibRef

Maeda, K.[Keisuke], Ogawa, T.[Takahiro], Haseyama, M.[Miki],
Automatic martian dust storm detection via decision level fusion basedondeep extreme learning machine,
ICIP17(435-439)
IEEE DOI 1803
BibRef
Earlier:
Automatic detection of martian dust storms from heterogeneous data based on decision level fusion,
ICIP15(2246-2250)
IEEE DOI 1512
Feature extraction, Kernel, Mars, Monitoring, Satellites, Storms, Training, Mars, decision level fusion. Mars; decision level fusion; detection; dust storm; heterogeneous data BibRef

Putri, A.R.D.[Alfiah Rizky Diana], Sidiropoulos, P.[Panagiotis], Muller, J.P.[Jan-Peter],
Identifying Surface Changes on HRSC Images of the Mars South Polar Residual Cap (SPRC),
ISPRS16(B4: 463-469).
DOI Link 1610
BibRef

Alavipanah, S.K., van Gasselt, S., Mulder, N.J., Nezammahalleh, M.A.,
Heat of Mars is Love of Life?! Two Ways to Look at Mars,
SMPR13(31-36).
HTML Version. 1311
BibRef

Freeman, G.J.[Greg J.], Bovik, A.C.[Alan C.], Holt, J.W.[John W.],
Automated detection of near surface Martian ice layers in orbital radar data,
Southwest10(117-120).
IEEE DOI 1005
BibRef

Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Atmospheric, Water Vapor, Precipitable Water Vapor, PWV .