22.2.19 Land Surface Temperature, Remote Sensing

Harris, L., Warren, M., Grant, M., Llewellyn, G.M.,
Spectral Characterization of the AisaOWL,
GeoRS(55), No. 5, May 2017, pp. 2751-2756.
IEEE DOI 1705
geophysical techniques, hyperspectral imaging, infrared detectors, remote sensing, temperature sensors, absolute temperature measurement, long-wave infrared region, sensor performance, thermal hyperspectral instrument, Hyperspectral imaging, Temperature measurement, Wavelength measurement. BibRef

Urbain, M.[Manon], Clerbaux, N.[Nicolas], Ipe, A.[Alessandro], Tornow, F.[Florian], Hollmann, R.[Rainer], Baudrez, E.[Edward], Blazquez, A.V.[Almudena Velazquez], Moreels, J.[Johan],
The CM SAF TOA Radiation Data Record Using MVIRI and SEVIRI,
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Sun, H.[Hao], Wang, Y.M.[Yan-Mei], Liu, W.[Weihan], Yuan, S.Y.[Shu-Yun], Nie, R.W.[Ru-Wei],
Comparison of Three Theoretical Methods for Determining Dry and Wet Edges of the LST/FVC Space: Revisit of Method Physics,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link 1706
Land surface temperature and fractional vegetation coverage. BibRef

Crosman, E.[Erik], Vazquez-Cuervo, J.[Jorge], Chin, T.M.[Toshio Michael],
Evaluation of the Multi-Scale Ultra-High Resolution (MUR) Analysis of Lake Surface Temperature,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link 1708
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Bian, Z.J.[Zun-Jian], Cao, B.[Biao], Li, H.[Hua], Du, Y.M.[Yong-Ming], Song, L.S.[Li-Sheng], Fan, W.J.[Wen-Jie], Xiao, Q.[Qing], Liu, Q.H.[Qin-Huo],
A Robust Inversion Algorithm for Surface Leaf and Soil Temperatures Using the Vegetation Clumping Index,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708
BibRef
And: Addendum: RS(9), No. 10, 2017, pp. xx-yy.
DOI Link 1711
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Yang, Y.B.[Ying-Bao], Cao, C.[Chen], Pan, X.[Xin], Li, X.L.[Xiao-Long], Zhu, X.[Xi],
Downscaling Land Surface Temperature in an Arid Area by Using Multiple Remote Sensing Indices with Random Forest Regression,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708
BibRef

Bian, Z.J.[Zun-Jian], Du, Y., Li, H.[Hua], Cao, B.[Biao], Huang, H.G.[Hua-Guo], Xiao, Q.[Qing], Liu, Q.H.[Qin-Huo],
Modeling the Temporal Variability of Thermal Emissions From Row-Planted Scenes Using a Radiosity and Energy Budget Method,
GeoRS(55), No. 10, October 2017, pp. 6010-6026.
IEEE DOI 1710
land surface temperature, energy balance model. BibRef

Bian, Z.J.[Zun-Jian], Cao, B.[Biao], Li, H.[Hua], Du, Y.M.[Yong-Ming], Huang, H.G.[Hua-Guo], Xiao, Q.[Qing], Liu, Q.H.[Qin-Huo],
Modeling the Distributions of Brightness Temperatures of a Cropland Study Area Using a Model that Combines Fast Radiosity and Energy Budget Methods,
RS(10), No. 5, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Ye, X., Ren, H., Liu, R., Qin, Q., Liu, Y., Dong, J.,
Land Surface Temperature Estimate From Chinese Gaofen-5 Satellite Data Using Split-Window Algorithm,
GeoRS(55), No. 10, October 2017, pp. 5877-5888.
IEEE DOI 1710
land surface temperature, atmospheric column water vapors. BibRef

Ren, H., Ye, X., Liu, R., Dong, J., Qin, Q.,
Improving Land Surface Temperature and Emissivity Retrieval From the Chinese Gaofen-5 Satellite Using a Hybrid Algorithm,
GeoRS(56), No. 2, February 2018, pp. 1080-1090.
IEEE DOI 1802
emissivity, geophysical image processing, land surface temperature, remote sensing, temperature and emissivity separation (TES) algorithm BibRef

Gholamnia, M.[Mehdi], Alavipanah, S.K.[Seyed Kazem], Boloorani, A.D.[Ali Darvishi], Hamzeh, S.[Saeid], Kiavarz, M.[Majid],
Diurnal Air Temperature Modeling Based on the Land Surface Temperature,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
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Zhou, W.[Wang], Peng, B.[Bin], Shi, J.C.[Jian-Cheng], Wang, T.X.[Tian-Xing], Dhital, Y.P.[Yam Prasad], Yao, R.[Ruzhen], Yu, Y.[Yuechi], Lei, Z.T.[Zhong-Teng], Zhao, R.[Rui],
Estimating High Resolution Daily Air Temperature Based on Remote Sensing Products and Climate Reanalysis Datasets over Glacierized Basins: A Case Study in the Langtang Valley, Nepal,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
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Roy, A.[Alexandre], Toose, P.[Peter], Derksen, C.[Chris], Rowlandson, T.[Tracy], Berg, A.[Aaron], Lemmetyinen, J.[Juha], Royer, A.[Alain], Tetlock, E.[Erica], Helgason, W.[Warren], Sonnentag, O.[Oliver],
Spatial Variability of L-Band Brightness Temperature during Freeze/Thaw Events over a Prairie Environment,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
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Wang, W.H.[Wen-Hui], Cao, C.Y.[Chang-Yong], Bai, Y.[Yan], Blonski, S.[Slawomir], Schull, M.A.[Mitchell A.],
Assessment of the NOAA S-NPP VIIRS Geolocation Reprocessing Improvements,
RS(9), No. 10, 2017, pp. xx-yy.
DOI Link 1711
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Yu, W.P.[Wen-Ping], Ma, M.[Mingguo], Li, Z.L.[Zhao-Liang], Tan, J.[Junlei], Wu, A.[Adan],
New Scheme for Validating Remote-Sensing Land Surface Temperature Products with Station Observations,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
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Meng, X.[Xiangchen], Cheng, J.[Jie], Liang, S.L.[Shun-Lin],
Estimating Land Surface Temperature from Feng Yun-3C/MERSI Data Using a New Land Surface Emissivity Scheme,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
BibRef

Pérez-Planells, L.[Lluís], Valor, E.[Enric], Coll, C.[César], Niclòs, R.[Raquel],
Comparison and Evaluation of the TES and ANEM Algorithms for Land Surface Temperature and Emissivity Separation over the Area of Valencia, Spain,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
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Niclòs, R.[Raquel], Pérez-Planells, L.[Lluís], Coll, C.[César], Valiente, J.A.[José A.], Valor, E.[Enric],
Evaluation of the S-NPP VIIRS land surface temperature product using ground data acquired by an autonomous system at a rice paddy,
PandRS(135), No. Supplement C, 2018, pp. 1-12.
Elsevier DOI 1712
Land surface temperature, Emissivity, S-NPP VIIRS, Validation, Accuracy, Multiangular ground measurements BibRef

Wang, M.M.[Meng-Meng], He, G.J.[Guo-Jin], Zhang, Z.M.[Zhao-Ming], Wang, G.Z.[Gui-Zhou], Zhang, Z.J.[Zheng-Jia], Cao, X.J.[Xiao-Jie], Wu, Z.J.[Zhi-Jie], Liu, X.[Xiuguo],
Comparison of Spatial Interpolation and Regression Analysis Models for an Estimation of Monthly Near Surface Air Temperature in China,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
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Mira, M.[Maria], Ninyerola, M.[Miquel], Batalla, M.[Meritxell], Pesquer, L.[Lluís], Pons, X.[Xavier],
Improving Mean Minimum and Maximum Month-to-Month Air Temperature Surfaces Using Satellite-Derived Land Surface Temperature,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
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Lieberherr, G.[Gian], Riffler, M.[Michael], Wunderle, S.[Stefan],
Performance Assessment of Tailored Split-Window Coefficients for the Retrieval of Lake Surface Water Temperature from AVHRR Satellite Data,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link 1802
BibRef

Lieberherr, G.[Gian], Wunderle, S.[Stefan],
Lake Surface Water Temperature Derived from 35 Years of AVHRR Sensor Data for European Lakes,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
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Policelli, F.[Frederick], Hubbard, A.[Alfred], Jung, H.C.[Hahn Chul], Zaitchik, B.[Ben], Ichoku, C.[Charles],
Lake Chad Total Surface Water Area as Derived from Land Surface Temperature and Radar Remote Sensing Data,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804
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Wilkes, T.C.[Thomas Charles], Stanger, L.R.[Leigh Russell], Willmott, J.R.[Jon Raffe], Pering, T.D.[Tom David], McGonigle, A.J.S.[Andrew John Samuel], England, R.A.[Rebecca Anne],
The Development of a Low-Cost, Near Infrared, High-Temperature Thermal Imaging System and Its Application to the Retrieval of Accurate Lava Lake Temperatures at Masaya Volcano, Nicaragua,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link 1804
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Zou, Z.[Zhaoxu], Zhan, W.F.[Wen-Feng], Liu, Z.[Zihan], Bechtel, B.[Benjamin], Gao, L.[Lun], Hong, F.[Falu], Huang, F.[Fan], Lai, J.[Jiameng],
Enhanced Modeling of Annual Temperature Cycles with Temporally Discrete Remotely Sensed Thermal Observations,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Liu, H.M.[Hui-Min], Zhan, Q.M.[Qing-Ming], Yang, C.[Chen], Wang, J.[Jiong],
Characterizing the Spatio-Temporal Pattern of Land Surface Temperature through Time Series Clustering: Based on the Latent Pattern and Morphology,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Bulgin, C.E.[Claire E.], Merchant, C.J.[Christopher J.], Ghent, D.[Darren], Klüser, L.[Lars], Popp, T.[Thomas], Poulsen, C.[Caroline], Sogacheva, L.[Larisa],
Quantifying Uncertainty in Satellite-Retrieved Land Surface Temperature from Cloud Detection Errors,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Wang, D.C.[Dong-Chuan], Wang, F.C.[Fei-Cui], Huang, Y.[Yong], Duan, X.W.[Xing-Wu], Liu, J.[Jinya], Hu, B.X.[Bing-Xu], Sun, Z.C.[Zhi-Chao], Chen, J.[Junhe],
Examining the Effects of Hydropower Station Construction on the Surface Temperature of the Jinsha River Dry-Hot Valley at Different Seasons,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Tang, B.J.[Bi-Jian], Zhao, X.[Xiang], Zhao, W.Q.[Wen-Qian],
Local Effects of Forests on Temperatures across Europe,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Fang, L.[Li], Zhan, X.[Xiwu], Hain, C.R.[Christopher R.], Yin, J.[Jifu], Liu, J.C.[Ji-Cheng], Schull, M.A.[Mitchell A.],
An Assessment of the Impact of Land Thermal Infrared Observation on Regional Weather Forecasts Using Two Different Data Assimilation Approaches,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
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Hong, F.[Falu], Zhan, W.F.[Wen-Feng], Göttsche, F.M.[Frank-M.], Liu, Z.[Zihan], Zhou, J.[Ji], Huang, F.[Fan], Lai, J.[Jiameng], Li, M.[Manchun],
Comprehensive assessment of four-parameter diurnal land surface temperature cycle models under clear-sky,
PandRS(142), 2018, pp. 190-204.
Elsevier DOI 1807
Land surface temperature, Diurnal temperature cycle, Polar-orbiting satellite, Thermal remote sensing, Model comparison BibRef

Ermida, S.L.[Sofia L.], Trigo, I.F.[Isabel F.], Da Camara, C.C.[Carlos C.], Pires, A.C.[Ana C.],
A Methodology to Simulate LST Directional Effects Based on Parametric Models and Landscape Properties,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
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White, C.H.[Charles H.], Heidinger, A.K.[Andrew K.], Ackerman, S.A.[Steven A.], McIntyre, P.B.[Peter B.],
A Long-Term Fine-Resolution Record of AVHRR Surface Temperatures for the Laurentian Great Lakes,
RS(10), No. 8, 2018, pp. xx-yy.
DOI Link 1809
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Bento, V.A.[Virgílio A.], Trigo, I.F.[Isabel F.], Gouveia, C.M.[Célia M.], Da Camara, C.C.[Carlos C.],
Contribution of Land Surface Temperature (TCI) to Vegetation Health Index: A Comparative Study Using Clear Sky and All-Weather Climate Data Records,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Xia, H.P.[Hai-Ping], Chen, Y.H.[Yun-Hao], Zhao, Y.T.[Yu-Tong], Chen, Z.X.[Zi-Xuan],
'Regression-then-Fusion' or 'Fusion-then-Regression'? A Theoretical Analysis for Generating High Spatiotemporal Resolution Land Surface Temperatures,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Malbéteau, Y.[Yoann], Parkes, S.[Stephen], Aragon, B.[Bruno], Rosas, J.[Jorge], McCabe, M.F.[Matthew F.],
Capturing the Diurnal Cycle of Land Surface Temperature Using an Unmanned Aerial Vehicle,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Schreck, C.J.[Carl J.], Lee, H.T.[Hai-Tien], Knapp, K.R.[Kenneth R.],
HIRS Outgoing Longwave Radiation: Daily Climate Data Record: Application toward Identifying Tropical Subseasonal Variability,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link 1810
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Andrews, M.J., Johnson, J.T., Jezek, K.C., Li, H., Bringer, A., Chen, C., Belgiovane, D.J., Leuski, V., Macelloni, G., Brogioni, M.,
The Ultrawideband Software-Defined Microwave Radiometer: Instrument Description and Initial Campaign Results,
GeoRS(56), No. 10, October 2018, pp. 5923-5935.
IEEE DOI 1810
Antennas, Temperature measurement, Antenna measurements, Switches, Microwave radiometry, Ice, Calibration, Calibration, ultrawideband radiation BibRef

Qin, Y.[Yun], Ren, G.[Guoyu], Zhai, T.L.[Tian-Lin], Zhang, P.F.[Pan-Feng], Wen, K.M.[Kang-Min],
A New Methodology for Estimating the Surface Temperature Lapse Rate Based on Grid Data and Its Application in China,
RS(10), No. 10, 2018, pp. xx-yy.
DOI Link 1811
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Rahaman, K.R.[Khan Rubayet], Ahmed, M.R.[M. Razu], Hassan, Q.K.[Quazi K.],
Using Satellite-Borne Remote Sensing Data in Generating Local Warming Maps with Enhanced Resolution,
IJGI(7), No. 10, 2018, pp. xx-yy.
DOI Link 1811
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Marchand, N.[Nicolas], Royer, A.[Alain], Krinner, G.[Gerhard], Roy, A.[Alexandre], Langlois, A.[Alexandre], Vargel, C.[Céline],
Snow-Covered Soil Temperature Retrieval in Canadian Arctic Permafrost Areas, Using a Land Surface Scheme Informed with Satellite Remote Sensing Data,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
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Brodzik, M.J.[Mary J.], Long, D.G.[David G.], Hardman, M.A.[Molly A.],
Best Practices in Crafting the Calibrated, Enhanced-Resolution Passive-Microwave EASE-Grid 2.0 Brightness Temperature Earth System Data Record,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
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Lorenz, C.[Christof], Montzka, C.[Carsten], Jagdhuber, T.[Thomas], Laux, P.[Patrick], Kunstmann, H.[Harald],
Long-Term and High-Resolution Global Time Series of Brightness Temperature from Copula-Based Fusion of SMAP Enhanced and SMOS Data,
RS(10), No. 11, 2018, pp. xx-yy.
DOI Link 1812
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Liu, Y.H.[Ying-Hui], Dworak, R.[Richard], Key, J.[Jeffrey],
Ice Surface Temperature Retrieval from a Single Satellite Imager Band,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
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Choi, Y.Y.[Youn-Young], Suh, M.S.[Myoung-Seok],
Development of Himawari-8/Advanced Himawari Imager (AHI) Land Surface Temperature Retrieval Algorithm,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
BibRef

Liu, T.X.[Ting-Xiang], Yu, L.X.[Ling-Xue], Bu, K.[Kun], Yan, F.Q.[Feng-Qin], Zhang, S.[Shuwen],
Seasonal Local Temperature Responses to Paddy Field Expansion from Rain-Fed Farmland in the Cold and Humid Sanjiang Plain of China,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link 1901
BibRef

Pavlidou, E.[Efthymia], van der Meijde, M.[Mark], van der Werff, H.[Harald], Hecker, C.[Christoph],
Time Series Analysis of Land Surface Temperatures in 20 Earthquake Cases Worldwide,
RS(11), No. 1, 2018, pp. xx-yy.
DOI Link 1901
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Wang, Y.L.[You-Lin], Wu, C.R.[Chau-Ron],
Enhanced Warming and Intensification of the Kuroshio Extension, 1999-2013,
RS(11), No. 1, 2019, pp. xx-yy.
DOI Link 1901
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Cheng, J.[Jie], Liang, S.L.[Shun-Lin], Yao, Y.J.[Yun-Jun], Ren, B.Y.[Bai-Yang], Shi, L.P.[Lin-Peng], Liu, H.[Hao],
A Comparative Study of Three Land Surface Broadband Emissivity Datasets from Satellite Data,
RS(6), No. 1, 2013, pp. 111-134.
DOI Link 1402
BibRef

Feng, Y.J.[Yong-Jiu], Gao, C.[Chen], Tong, X.H.[Xiao-Hua], Chen, S.R.[Shu-Rui], Lei, Z.K.[Zhen-Kun], Wang, J.F.[Jia-Feng],
Spatial Patterns of Land Surface Temperature and Their Influencing Factors: A Case Study in Suzhou, China,
RS(11), No. 2, 2019, pp. xx-yy.
DOI Link 1902
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Liu, C.G.[Chun-Guang], Shi, J.C.[Jian-Cheng], Wang, T.X.[Tian-Xing], Ram, K.[Kirpa], Zhao, T.J.[Tian-Jie],
Mathematical Assessment of the Effects of Substituting the Band Radiative Transfer Equation (RTE) for the Spectral RTE in the Applications of Earth's Surface Temperature Retrievals from Spaceborne Infrared Imageries,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Wu, P.H.[Peng-Hai], Yin, Z.X.[Zhi-Xiang], Yang, H.[Hui], Wu, Y.L.[Yan-Lan], Ma, X.S.[Xiao-Shuang],
Reconstructing Geostationary Satellite Land Surface Temperature Imagery Based on a Multiscale Feature Connected Convolutional Neural Network,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link 1902
BibRef

Liou, Y., Le, M.S., Chien, H.,
Normalized Difference Latent Heat Index for Remote Sensing of Land Surface Energy Fluxes,
GeoRS(57), No. 3, March 2019, pp. 1423-1433.
IEEE DOI 1903
evaporation, geophysical image processing, hydrological techniques, land surface temperature, latent heat, water availability BibRef

Acito, N., Diani, M., Corsini, G.,
Subspace-Based Temperature and Emissivity Separation Algorithms in LWIR Hyperspectral Data,
GeoRS(57), No. 3, March 2019, pp. 1523-1537.
IEEE DOI 1903
emissivity, geophysical image processing, maximum likelihood estimation, remote sensing, temperature emissivity separation BibRef

Martin, M.A.[Maria Anna], Ghent, D.[Darren], Pires, A.C.[Ana Cordeiro], Göttsche, F.M.[Frank-Michael], Cermak, J.[Jan], Remedios, J.J.[John J.],
Comprehensive In Situ Validation of Five Satellite Land Surface Temperature Data Sets over Multiple Stations and Years,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Sansivero, F.[Fabio], Vilardo, G.[Giuseppe],
Processing Thermal Infrared Imagery Time-Series from Volcano Permanent Ground-Based Monitoring Network. Latest Methodological Improvements to Characterize Surface Temperatures Behavior of Thermal Anomaly Areas,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
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Kelly, J.[Julia], Kljun, N.[Natascha], Olsson, P.O.[Per-Ola], Mihai, L.[Laura], Liljeblad, B.[Bengt], Weslien, P.[Per], Klemedtsson, L.[Leif], Eklundh, L.[Lars],
Challenges and Best Practices for Deriving Temperature Data from an Uncalibrated UAV Thermal Infrared Camera,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Liu, Z.H.[Zi-Han], Zhan, W.F.[Wen-Feng], Lai, J.M.[Jia-Meng], Hong, F.[Falu], Quan, J.L.[Jin-Ling], Bechtel, B.[Benjamin], Huang, F.[Fan], Zou, Z.[Zhaoxu],
Balancing prediction accuracy and generalization ability: A hybrid framework for modelling the annual dynamics of satellite-derived land surface temperatures,
PandRS(151), 2019, pp. 189-206.
Elsevier DOI 1904
Land surface temperature, Annual temperature cycle, LST dynamics, Prediction accuracy, Generalization ability BibRef

Zhang, Z.W.[Zhen-Wei], Du, Q.Y.[Qing-Yun],
A Bayesian Kriging Regression Method to Estimate Air Temperature Using Remote Sensing Data,
RS(11), No. 7, 2019, pp. xx-yy.
DOI Link 1904
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Caputo, T.[Teresa], Sessa, E.B.[Eliana Bellucci], Silvestri, M.[Malvina], Buongiorno, M.F.[Maria Fabrizia], Musacchio, M.[Massimo], Sansivero, F.[Fabio], Vilardo, G.[Giuseppe],
Surface Temperature Multiscale Monitoring by Thermal Infrared Satellite and Ground Images at Campi Flegrei Volcanic Area (Italy),
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Liu, Z.Y.[Zi-Yan], Sun, Y.Q.[Yue-Qiang], Bai, W.H.[Wei-Hua], Xia, J.M.[Jun-Ming], Tan, G.Y.[Guang-Yuan], Cheng, C.[Cheng], Du, Q.[Qifei], Wang, X.Y.[Xian-Yi], Zhao, D.Y.[Dan-Yang], Tian, Y.[Yusen], Meng, X.G.[Xiang-Guang], Liu, C.L.[Cong-Liang], Cai, Y.[Yuerong], Wang, D.W.[Dong-Wei],
Validation of Preliminary Results of Thermal Tropopause Derived from FY-3C GNOS Data,
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link 1905
BibRef

Lv, S., Zeng, Y., Su, Z., Wen, J.,
A Closed-Form Expression of Soil Temperature Sensing Depth at L-Band,
GeoRS(57), No. 7, July 2019, pp. 4889-4897.
IEEE DOI 1907
Temperature sensors, Temperature measurement, Soil moisture, Moisture, Optical sensors, Microwave remote sensing, soil temperature sensing depth BibRef

Pinker, R.T.[Rachel T.], Ma, Y.T.[Ying-Tao], Chen, W.[Wen], Hulley, G.[Glynn], Borbas, E.[Eva], Islam, T.[Tanvir], Hain, C.[Chris], Cawse-Nicholson, K.[Kerry], Hook, S.[Simon], Basara, J.[Jeff],
Towards a Unified and Coherent Land Surface Temperature Earth System Data Record from Geostationary Satellites,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907
BibRef

Heinemann, G.[Günther], Glaw, L.[Lukas], Willmes, S.[Sascha],
A Satellite-Based Climatology of Wind-Induced Surface Temperature Anomalies for the Antarctic,
RS(11), No. 13, 2019, pp. xx-yy.
DOI Link 1907
BibRef

Cao, B., Gastellu-Etchegorry, J., Du, Y., Li, H., Bian, Z., Hu, T., Fan, W., Xiao, Q., Liu, Q.,
Evaluation of Four Kernel-Driven Models in the Thermal Infrared Band,
GeoRS(57), No. 8, August 2019, pp. 5456-5475.
IEEE DOI 1908
land surface temperature, vegetation, TIR region, physical models, directional anisotropy patterns, LSF-Li model, RL model, land surface temperature (LST) BibRef

AlJassar, H.K.[Hala K.], Temimi, M.[Marouane], Entekhabi, D.[Dara], Petrov, P.[Peter], AlSarraf, H.[Hussain], Kokkalis, P.[Panagiotis], Roshni, N.[Nair],
Forward Simulation of Multi-Frequency Microwave Brightness Temperature over Desert Soils in Kuwait and Comparison with Satellite Observations,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link 1908
BibRef

Ji, L.[Lei], Senay, G.B.[Gabriel B.], Velpuri, N.M.[Naga M.], Kagone, S.[Stefanie],
Evaluating the Temperature Difference Parameter in the SSEBop Model with Satellite-Observed Land Surface Temperature Data,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Firozjaei, M.K.[Mohammad Karimi], Alavipanah, S.K.[Seyed Kazem], Liu, H.[Hua], Sedighi, A.[Amir], Mijani, N.[Naeim], Kiavarz, M.[Majid], Weng, Q.[Qihao],
A PCA-OLS Model for Assessing the Impact of Surface Biophysical Parameters on Land Surface Temperature Variations,
RS(11), No. 18, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Wang, H.[Han], Mao, K.[Kebiao], Mu, F.Y.[Feng-Yun], Shi, J.C.[Jian-Cheng], Yang, J.[Jun], Li, Z.L.[Zhao-Liang], Qin, Z.H.[Zhi-Hao],
A Split Window Algorithm for Retrieving Land Surface Temperature from FY-3D MERSI-2 Data,
RS(11), No. 18, 2019, pp. xx-yy.
DOI Link 1909
BibRef

Zhang, S.T.[Shu-Ting], Duan, S.B.[Si-Bo], Li, Z.L.[Zhao-Liang], Huang, C.[Cheng], Wu, H.[Hua], Han, X.J.[Xiao-Jing], Leng, P.[Pei], Gao, M.F.[Mao-Fang],
Improvement of Split-Window Algorithm for Land Surface Temperature Retrieval from Sentinel-3A SLSTR Data Over Barren Surfaces Using ASTER GED Product,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
BibRef

He, M.[Min], Wang, D.H.[Dong-Hai], Ding, W.Y.[Wei-Yu], Wan, Y.J.[Yi-Jing], Chen, Y.H.[Yong-Hang], Zhang, Y.[Yu],
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Wang, L.J.[Li-Juan], Guo, N.[Ni], Wang, W.[Wei], Zuo, H.C.[Hong-Chao],
Optimization of the Local Split-Window Algorithm for FY-4A Land Surface Temperature Retrieval,
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Sismanidis, P.[Panagiotis], Keramitsoglou, I.[Iphigenia], Barberis, S.[Stefano], Dorotic, H.[Hrvoje], Bechtel, B.[Benjamin], Kiranoudis, C.T.[Chris T.],
PLANHEAT's Satellite-Derived Heating and Cooling Degrees Dataset for Energy Demand Mapping and Planning,
RS(11), No. 17, 2019, pp. xx-yy.
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Liu, Y.L.[Yu-Ling], Yu, Y.[Yunyue], Yu, P.[Peng], Wang, H.[Heshun], Rao, Y.[Yuhan],
Enterprise LST Algorithm Development and Its Evaluation with NOAA 20 Data,
RS(11), No. 17, 2019, pp. xx-yy.
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Sassi, M.Z.[Mohamed Zied], Fourrié, N.[Nadia], Guidard, V.[Vincent], Birman, C.[Camille],
Use of Infrared Satellite Observations for the Surface Temperature Retrieval over Land in a NWP Context,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link 1910
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Zhu, C.H.[Chuan-Hua], Jiao, Z.H.[Zhong-Hu], Shan, X.J.[Xin-Jian], Zhang, G.H.[Guo-Hong], Li, Y.C.[Yan-Chuan],
Land Surface Temperature Variation Following the 2017 Mw 7.3 Iran Earthquake,
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Johannsen, F.[Frederico], Ermida, S.[Sofia], Martins, J.P.A.[João P. A.], Trigo, I.F.[Isabel F.], Nogueira, M.[Miguel], Dutra, E.[Emanuel],
Cold Bias of ERA5 Summertime Daily Maximum Land Surface Temperature over Iberian Peninsula,
RS(11), No. 21, 2019, pp. xx-yy.
DOI Link 1911
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Zhang, Y.F.[Yun-Fei], Chen, Y.H.[Yun-Hao], Li, Y.[Yang], Xia, H.P.[Hai-Ping], Li, J.[Jing],
Reconstructing One Kilometre Resolution Daily Clear-Sky LST for China's Landmass Using the BME Method,
RS(11), No. 22, 2019, pp. xx-yy.
DOI Link 1911
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Liu, X.Y.[Xiang-Yang], Tang, B.H.[Bo-Hui], Yan, G.[Guangjian], Li, Z.L.[Zhao-Liang], Liang, S.L.[Shun-Lin],
Retrieval of Global Orbit Drift Corrected Land Surface Temperature from Long-term AVHRR Data,
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Zheng, X., Li, Z., Zhang, X., Shang, G.,
Quantification of the Adjacency Effect on Measurements in the Thermal Infrared Region,
GeoRS(57), No. 12, December 2019, pp. 9674-9687.
IEEE DOI 1912
Land surface temperature, Atmospheric modeling, Land surface, Temperature measurement, Remote sensing, Spatial resolution, thermal infrared (TIR) BibRef

Lima, C.B.[Chaluparambil B.], Prijith, S.S.[Sudhakaran S.], Sai, M.V.R.S.[Mullapudi V. R. Sesha], Rao, P.V.N.[Pamaraju V. N.], Niranjan, K.[Kandula], Ramana, M.V.[Muvva V.],
Retrieval and Validation of Cloud Top Temperature from the Geostationary Satellite INSAT-3D,
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DOI Link 1912
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Singh, S.[Shaktiman], Bhardwaj, A.[Anshuman], Singh, A.[Atar], Sam, L.[Lydia], Shekhar, M.[Mayank], Martín-Torres, F.J.[F. Javier], Zorzano, M.P.[María-Paz],
Quantifying the Congruence between Air and Land Surface Temperatures for Various Climatic and Elevation Zones of Western Himalaya,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
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Martins, J.P.A.[João P. A.], Trigo, I.F.[Isabel F.], Ghilain, N.[Nicolas], Jimenez, C.[Carlos], Göttsche, F.M.[Frank-M.], Ermida, S.L.[Sofia L.], Olesen, F.S.[Folke-S.], Gellens-Meulenberghs, F.[Françoise], Arboleda, A.[Alirio],
An All-Weather Land Surface Temperature Product Based on MSG/SEVIRI Observations,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link 1912
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Yu, L.X.[Ling-Xue], Liu, T.X.[Ting-Xiang],
The Impact of Artificial Wetland Expansion on Local Temperature in the Growing Season: the Case Study of the Sanjiang Plain, China,
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DOI Link 1912
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Wang, H., Yu, Y., Yu, P., Liu, Y.,
Land Surface Emissivity Product for NOAA JPSS and GOES-R Missions: Methodology and Evaluation,
GeoRS(58), No. 1, January 2020, pp. 307-318.
IEEE DOI 2001
Ocean temperature, Sea surface, Land surface temperature, Land surface, Satellite broadcasting, Vegetation mapping, MODIS, land surface temperature (LST) BibRef

Kishcha, P.[Pavel], Starobinets, B.[Boris], Pinker, R.T.[Rachel T.], Kunin, P.[Pavel], Alpert, P.[Pinhas],
Spatial Non-Uniformity of Surface Temperature of the Dead Sea and Adjacent Land Areas,
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DOI Link 2001
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Sobrino, J.A.[José Antonio], Julien, Y.[Yves], García-Monteiro, S.[Susana],
Surface Temperature of the Planet Earth from Satellite Data,
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DOI Link 2001
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Sánchez-Aparicio, M.[María], Andrés-Anaya, P.[Paula], del Pozo, S.[Susana], Lagüela, S.[Susana],
Retrieving Land Surface Temperature from Satellite Imagery with a Novel Combined Strategy,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
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Song, B.[Bonggeun], Park, K.[Kyunghun],
Verification of Accuracy of Unmanned Aerial Vehicle (UAV) Land Surface Temperature Images Using In-Situ Data,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link 2001
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Yang, F.[Fei], Meng, X.L.[Xiao-Lin], Guo, J.M.[Ji-Ming], Shi, J.B.[Jun-Bo], An, X.D.[Xiang-Dong], He, Q.[Qiyi], Zhou, L.[Lv],
The Influence of Different Modelling Factors on Global Temperature and Pressure Models and Their Performance in Different Zenith Hydrostatic Delay (ZHD) Models,
RS(12), No. 1, 2020, pp. xx-yy.
DOI Link 2001
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Wang, X.N.[Xiao-Ni], Prigent, C.[Catherine],
Comparisons of Diurnal Variations of Land Surface Temperatures from Numerical Weather Prediction Analyses, Infrared Satellite Estimates and In Situ Measurements,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
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NourEldeen, N.[Nusseiba], Mao, K.[Kebiao], Yuan, Z.[Zijin], Shen, X.[Xinyi], Xu, T.[Tongren], Qin, Z.H.[Zhi-Hao],
Analysis of the Spatiotemporal Change in Land Surface Temperature for a Long-Term Sequence in Africa (2003-2017),
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
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Wang, R.[Ruci], Hou, H.[Hao], Murayama, Y.[Yuji], Derdouri, A.[Ahmed],
Spatiotemporal Analysis of Land Use/Cover Patterns and Their Relationship with Land Surface Temperature in Nanjing, China,
RS(12), No. 3, 2020, pp. xx-yy.
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Zhu, L.H.[Liu-Hua], Bao, Y.S.[Yan-Song], Petropoulos, G.P.[George P.], Zhang, P.[Peng], Lu, F.[Feng], Lu, Q.[Qifeng], Wu, Y.[Ying], Xu, D.[Dan],
Temperature and Humidity Profiles Retrieval in a Plain Area from Fengyun-3D/HIRAS Sensor Using a 1D-VAR Assimilation Scheme,
RS(12), No. 3, 2020, pp. xx-yy.
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Hu, J.J.[Jing-Jing], Bao, Y.S.[Yan-Song], Liu, J.[Jian], Liu, H.[Hui], Petropoulos, G.P.[George P.], Katsafados, P.[Petros], Zhu, L.H.[Liu-Hua], Cai, X.[Xi],
Temperature and Relative Humidity Profile Retrieval from Fengyun-3D/HIRAS in the Arctic Region,
RS(13), No. 10, 2021, pp. xx-yy.
DOI Link 2105
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Qin, L.Y.[Lu-Yao], Chen, Y.D.[Yao-Deng], Yu, T.L.[Tian-Lei], Ma, G.[Gang], Guo, Y.[Yang], Zhang, P.[Peng],
Dynamic Channel Selection of Microwave Temperature Sounding Channels under Cloudy Conditions,
RS(12), No. 3, 2020, pp. xx-yy.
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Wang, J.[Jiong], Schmitz, O.[Oliver], Lu, M.[Meng], Karssenberg, D.[Derek],
Thermal unmixing based downscaling for fine resolution diurnal land surface temperature analysis,
PandRS(161), 2020, pp. 76-89.
Elsevier DOI 2002
Thermal downscaling, Spatiotemporal fusion, Remote sensing, MODIS, Landsat, LST, Unmixing, Diurnal BibRef

Januar, T.W.[Tri Wandi], Lin, T.H.[Tang-Huang], Huang, C.Y.[Chih-Yuan], Chang, K.E.[Kuo-En],
Modifying an Image Fusion Approach for High Spatiotemporal LST Retrieval in Surface Dryness and Evapotranspiration Estimations,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
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Liu, N., Jin, Y.,
A Real-Time Model of the Seasonal Temperature of Lunar Polar Region and Data Validation,
GeoRS(58), No. 3, March 2020, pp. 1892-1903.
IEEE DOI 2003
Chang'E (CE), infrared (IR) and microwave (MW) brightness temperature (TB), seasonal temperature variation BibRef

Heinemann, S.[Sascha], Siegmann, B.[Bastian], Thonfeld, F.[Frank], Muro, J.[Javier], Jedmowski, C.[Christoph], Kemna, A.[Andreas], Kraska, T.[Thorsten], Muller, O.[Onno], Schultz, J.[Johannes], Udelhoven, T.[Thomas], Wilke, N.[Norman], Rascher, U.[Uwe],
Land Surface Temperature Retrieval for Agricultural Areas Using a Novel UAV Platform Equipped with a Thermal Infrared and Multispectral Sensor,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
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Mateus, P.[Pedro], Catalão, J.[João], Mendes, V.B.[Virgílio B.], Nico, G.[Giovanni],
An ERA5-Based Hourly Global Pressure and Temperature (HGPT) Model,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
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Lin, X.W.[Xing-Wen], Wen, J.G.[Jian-Guang], Liu, Q.H.[Qin-Huo], You, D.Q.[Dong-Qin], Wu, S.B.[Sheng-Biao], Hao, D.L.[Da-Lei], Xiao, Q.[Qing], Zhang, Z.Y.[Zhao-Yang], Zhang, Z.Z.[Zhen-Zhen],
Spatiotemporal Variability of Land Surface Albedo over the Tibet Plateau from 2001 to 2019,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
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Laipelt, L.[Leonardo], Ruhoff, A.L.[Anderson Luis], Fleischmann, A.S.[Ayan Santos], Kayser, R.H.B.[Rafael Henrique Bloedow], de Mello Kich, E.[Elisa], da Rocha, H.R.[Humberto Ribeiro], Neale, C.M.U.[Christopher Michael Usher],
Assessment of an Automated Calibration of the SEBAL Algorithm to Estimate Dry-Season Surface-Energy Partitioning in a Forest-Savanna Transition in Brazil,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link 2004
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Liu, X., Tang, B., Li, Z., Rasmussen, M.O.,
Influence of Temperature Inertia on Thermal Radiation Directionality Modeling Based on Geometric Optical Model,
GeoRS(58), No. 5, May 2020, pp. 3445-3457.
IEEE DOI 2005
Geometric optical (GO) model, hotspot, land surface temperature (LST), temperature inertia (TI), thermal radiation directionality BibRef

Niu, Z.Y.[Ze-Yi], Zou, X.L.[Xiao-Lei], Ray, P.S.[Peter Sawin],
Development and Testing of a Clear-Sky Data Selection Algorithm for FY-3C/D Microwave Temperature Sounder-2,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Dumitrescu, A.[Alexandru], Brabec, M.[Marek], Cheval, S.[Sorin],
Statistical Gap-Filling of SEVIRI Land Surface Temperature,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link 2005
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Ma, R.M.[Rui-Ming], Xie, M.M.[Miao-Miao], Yun, W.J.[Wen-Ju], Zhu, D.[Dehai],
Evaluating Responses of Temperature Regulating Service to Landscape Pattern Based on 'Source-Sink' Theory,
IJGI(9), No. 5, 2020, pp. xx-yy.
DOI Link 2005
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Zhang, Y.[Yunfei], Chen, Y.H.[Yun-Hao], Li, J.[Jing], Chen, X.[Xi],
A Simple Method for Converting 1-km Resolution Daily Clear-Sky LST into Real LST,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link 2006
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Zhang, M.X.[Ming-Xi], Wang, B.[Bin], Cleverly, J.[James], Liu, D.L.[De Li], Feng, P.[Puyu], Zhang, H.[Hong], Huete, A.[Alfredo], Yang, X.[Xihua], Yu, Q.A.[Qi-Ang],
Creating New Near-Surface Air Temperature Datasets to Understand Elevation-Dependent Warming in the Tibetan Plateau,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Zhou, B.[Bin], Erell, E.[Evyatar], Hough, I.[Ian], Shtein, A.[Alexandra], Just, A.C.[Allan C.], Novack, V.[Victor], Rosenblatt, J.[Jonathan], Kloog, I.[Itai],
Estimation of Hourly near Surface Air Temperature Across Israel Using an Ensemble Model,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Zhang, X.[Xunhe], Xu, M.[Ming],
Assessing the Effects of Photovoltaic Powerplants on Surface Temperature Using Remote Sensing Techniques,
RS(12), No. 11, 2020, pp. xx-yy.
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Kim, S.[Sungho],
Novel Air Temperature Measurement Using Midwave Hyperspectral Fourier Transform Infrared Imaging in the Carbon Dioxide Absorption Band,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Cai, X.[Xi], Bao, Y.[Yansong], Petropoulos, G.P.[George P.], Lu, F.[Feng], Lu, Q.[Qifeng], Zhu, L.[Liuhua], Wu, Y.[Ying],
Temperature and Humidity Profile Retrieval from FY4-GIIRS Hyperspectral Data Using Artificial Neural Networks,
RS(12), No. 11, 2020, pp. xx-yy.
DOI Link 2006
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Sobrino, J.A.[José Antonio], García-Monteiro, S.[Susana], Julien, Y.[Yves],
Surface Temperature of the Planet Earth from Satellite Data over the Period 2003-2019,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link 2006
BibRef

Shao, H.L.[Hong-Lan], Liu, C.Y.[Cheng-Yu], Xie, F.[Feng], Li, C.L.[Chun-Lai], Wang, J.Y.[Jian-Yu],
Noise-sensitivity Analysis and Improvement of Automatic Retrieval of Temperature and Emissivity Using Spectral Smoothness,
RS(12), No. 14, 2020, pp. xx-yy.
DOI Link 2007
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Osei, M.A.[Marian Amoakowaah], Amekudzi, L.K.[Leonard Kofitse], Ferguson, C.R.[Craig R.], Danuor, S.K.[Sylvester Kojo],
Inter-Comparison of AIRS Temperature and Relative Humidity Profiles with AMMA and DACCIWA Radiosonde Observations over West Africa,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008
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Li, R.[Ruibo], Li, H.[Hua], Sun, L.[Lin], Yang, Y.K.[Yi-Kun], Hu, T.[Tian], Bian, Z.[Zunjian], Cao, B.[Biao], Du, Y.M.[Yong-Ming], Liu, Q.H.[Qin-Huo],
An Operational Split-Window Algorithm for Retrieving Land Surface Temperature from Geostationary Satellite Data: A Case Study on Himawari-8 AHI Data,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008
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Duan, S.B.[Si-Bo], Han, X.J.[Xiao-Jing], Huang, C.[Cheng], Li, Z.L.[Zhao-Liang], Wu, H.[Hua], Qian, Y.G.[Yong-Gang], Gao, M.[Maofang], Leng, P.[Pei],
Land Surface Temperature Retrieval from Passive Microwave Satellite Observations: State-of-the-Art and Future Directions,
RS(12), No. 16, 2020, pp. xx-yy.
DOI Link 2008
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Zhang, X.D.[Xiao-Dong], Zhou, J.[Ji], Liang, S.L.[Shun-Lin], Chai, L.[Linna], Wang, D.D.[Dong-Dong], Liu, J.[Jin],
Estimation of 1-km all-weather remotely sensed land surface temperature based on reconstructed spatial-seamless satellite passive microwave brightness temperature and thermal infrared data,
PandRS(167), 2020, pp. 321-344.
Elsevier DOI 2008
Land surface temperature, All-weather, Gap-filling, Thermal infrared remote sensing, Passive microwave, Brightness temperature BibRef

Wang, S.[Shaofei], Zhou, J.[Ji], Lei, T.J.[Tian-Jie], Wu, H.[Hua], Zhang, X.D.[Xiao-Dong], Ma, J.[Jin], Zhong, H.L.[Hai-Ling],
Estimating Land Surface Temperature from Satellite Passive Microwave Observations with the Traditional Neural Network, Deep Belief Network, and Convolutional Neural Network,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009
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Safieddine, S.[Sarah], Parracho, A.C.[Ana Claudia], George, M.[Maya], Aires, F.[Filipe], Pellet, V.[Victor], Clarisse, L.[Lieven], Whitburn, S.[Simon], Lezeaux, O.[Olivier], Thépaut, J.N.[Jean-Noël], Hersbach, H.[Hans], Radnoti, G.[Gabor], Goettsche, F.[Frank], Martin, M.[Maria], Doutriaux-Boucher, M.[Marie], Coppens, D.[Dorothée], August, T.[Thomas], Zhou, D.K.[Daniel K.], Clerbaux, C.[Cathy],
Artificial Neural Networks to Retrieve Land and Sea Skin Temperature from IASI,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009
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Choi, Y.Y.[Youn-Young], Suh, M.S.[Myoung-Seok],
Development of a Land Surface Temperature Retrieval Algorithm from GK2A/AMI,
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link 2009
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Mumtaz, F.[Faisal], Yu, T.[Tao], de Leeuw, G.[Gerrit], Zhao, L.M.[Li-Min], Fan, C.[Cheng], Elnashar, A.[Abdelrazek], Bashir, B.[Barjeece], Wang, G.[Gengke], Li, L.[LingLing], Naeem, S.[Shahid], Arshad, A.[Arfan],
Modeling Spatio-temporal Land Transformation and Its Associated Impacts on land Surface Temperature (LST),
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link 2009
BibRef
And: Erratum: RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Zhou, S., Cheng, J.,
An Improved Temperature and Emissivity Separation Algorithm for the Advanced Himawari Imager,
GeoRS(58), No. 10, October 2020, pp. 7105-7124.
IEEE DOI 2009
Land surface temperature, Land surface, Ocean temperature, MODIS, Sea surface, Temperature sensors, Surface topography, thermal infrared (TIR) BibRef

Basurto-Lozada, D.[Daniela], Hillier, A.[Adeline], Medina, D.[David], Pulido, D.[Dagoberto], Karaman, S.[Sertac], Salas, J.[Joaquin],
Dynamics of soil surface temperature with unmanned aerial systems,
PRL(138), 2020, pp. 68-74.
Elsevier DOI 2010
Thermographic imaging, Unmanned aerial systems, Soil surface temperature, Remote sensing BibRef

Tariq, A.[Aqil], Shu, H.[Hong],
CA-Markov Chain Analysis of Seasonal Land Surface Temperature and Land Use Land Cover Change Using Optical Multi-Temporal Satellite Data of Faisalabad, Pakistan,
RS(12), No. 20, 2020, pp. xx-yy.
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Li, J.[Jing], Wu, H.[Hua], Li, Z.L.[Zhao-Liang],
An optimal sampling method for multi-temporal land surface temperature validation over heterogeneous surfaces,
PandRS(169), 2020, pp. 29-43.
Elsevier DOI 2011
Optimal sampling, Diurnal land surface temperature, Validation, Sampling representativeness, Heterogeneous surfaces BibRef

Du, Y., Li, H., Cao, B., Bian, Z., Zhao, J., Xiao, Q., Liu, Q., Zeng, Y., Su, Z.,
A Modified Interactive Spectral Smooth Temperature Emissivity Separation Algorithm for Low-Temperature Surface,
GeoRS(58), No. 11, November 2020, pp. 7643-7653.
IEEE DOI 2011
Atmospheric measurements, Land surface, Temperature measurement, Land surface temperature, Geologic measurements, Atmosphere, temperature and emissivity separation (TES) BibRef

Yuan, L.[Linan], Liao, J.J.[Jing-Juan],
Parametric Design of a Microwave Radiometer for Land Surface Temperature Retrieval from Moon-Based Earth Observation Platform,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
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Langsdale, M.F.[Mary F.], Dowling, T.P.F.[Thomas P. F.], Wooster, M.[Martin], Johnson, J.[James], Grosvenor, M.J.[Mark J.], de Jong, M.C.[Mark C.], Johnson, W.R.[William R.], Hook, S.J.[Simon J.], Rivera, G.[Gerardo],
Inter-Comparison of Field- and Laboratory-Derived Surface Emissivities of Natural and Manmade Materials in Support of Land Surface Temperature (LST) Remote Sensing,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
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Perry, M.[Mike], Ghent, D.J.[Darren J.], Jiménez, C.[Carlos], Dodd, E.M.A.[Emma M. A.], Ermida, S.L.[Sofia L.], Trigo, I.F.[Isabel F.], Veal, K.L.[Karen L.],
Multisensor Thermal Infrared and Microwave Land Surface Temperature Algorithm Intercomparison,
RS(12), No. 24, 2020, pp. xx-yy.
DOI Link 2012
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Collados-Lara, A.J.[Antonio-Juan], Fassnacht, S.R.[Steven R.], Pardo-Igúzquiza, E.[Eulogio], Pulido-Velazquez, D.[David],
Assessment of High Resolution Air Temperature Fields at Rocky Mountain National Park by Combining Scarce Point Measurements with Elevation and Remote Sensing Data,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
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Langsdale, M.F.[Mary F.], Wooster, M.[Martin], Harrison, J.J.[Jeremy J.], Koehl, M.[Michael], Hecker, C.[Christoph], Hook, S.J.[Simon J.], Abbott, E.[Elsa], Johnson, W.R.[William R.], Maturilli, A.[Alessandro], Poutier, L.[Laurent], Lau, I.C.[Ian C.], Brucker, F.[Franz],
Spectral Emissivity (SE) Measurement Uncertainties across 2.5-14 µm Derived from a Round-Robin Study Made across International Laboratories,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link 2101
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Chen, L.[Liang], Wang, X.[Xuelei], Cai, X.O.[Xia-Obin], Yang, C.[Chao], Lu, X.R.[Xiao-Rong],
Seasonal Variations of Daytime Land Surface Temperature and Their Underlying Drivers over Wuhan, China,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
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Yin, Z., Wu, P., Foody, G.M., Wu, Y., Liu, Z., Du, Y., Ling, F.,
Spatiotemporal Fusion of Land Surface Temperature Based on a Convolutional Neural Network,
GeoRS(59), No. 2, February 2021, pp. 1808-1822.
IEEE DOI 2101
Land surface temperature, Spatiotemporal phenomena, Spatial resolution, Remote sensing, Earth, Artificial satellites, spatiotemporal-consistency (STC)-weighting BibRef

Li, H., Li, R., Yang, Y., Cao, B., Bian, Z., Hu, T., Du, Y., Sun, L., Liu, Q.,
Temperature-Based and Radiance-Based Validation of the Collection 6 MYD11 and MYD21 Land Surface Temperature Products Over Barren Surfaces in Northwestern China,
GeoRS(59), No. 2, February 2021, pp. 1794-1807.
IEEE DOI 2101
Land surface temperature, MODIS, Atmospheric modeling, Land surface, Remote sensing, Soil, Land surface emissivity (LSE), validation BibRef

Mazhar, U.[Usman], Jin, S.[Shuanggen], Duan, W.[Wentao], Bilal, M.[Muhammad], Ali, M.A.[Md. Arfan], Farooq, H.[Hasnain],
Spatio-Temporal Trends of Surface Energy Budget in Tibet from Satellite Remote Sensing Observations and Reanalysis Data,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
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Yuan, W.[Wenan], Choi, D.[Daeun],
UAV-Based Heating Requirement Determination for Frost Management in Apple Orchard,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link 2101
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Zhu, X.M., Song, X.N., Leng, P., Guo, D., Cai, S.H.,
Impact of Atmospheric Correction on Spatial Heterogeneity Relations Between Land Surface Temperature and Biophysical Compositions,
GeoRS(59), No. 3, March 2021, pp. 2680-2697.
IEEE DOI 2103
Land surface temperature, Atmospheric modeling, Land surface, Remote sensing, Biological system modeling, Indexes, spatial variability BibRef

Liu, F.[Fei], Hou, H.[Hao], Murayama, Y.[Yuji],
Spatial Interconnections of Land Surface Temperatures with Land Cover/Use: A Case Study of Tokyo,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link 2103
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Sun, Z.[Zhangyu], Zhang, B.[Bao], Yao, Y.[Yibin],
Improving the Estimation of Weighted Mean Temperature in China Using Machine Learning Methods,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
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Gao, Z.[Zhen], Hou, Y.[Ying], Zaitchik, B.F.[Benjamin F.], Chen, Y.Z.[Yong-Zhe], Chen, W.P.[Wei-Ping],
A Two-Step Integrated MLP-GTWR Method to Estimate 1 km Land Surface Temperature with Complete Spatial Coverage in Humid, Cloudy Regions,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Sanz, E.[Ernesto], Saa-Requejo, A.[Antonio], Díaz-Ambrona, C.H.[Carlos H.], Ruiz-Ramos, M.[Margarita], Rodríguez, A.[Alfredo], Iglesias, E.[Eva], Esteve, P.[Paloma], Soriano, B.[Bárbara], Tarquis, A.M.[Ana M.],
Normalized Difference Vegetation Index Temporal Responses to Temperature and Precipitation in Arid Rangelands,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Liu, N., Jin, Y.Q.,
Simulation and Data Analysis of the Temperature Distribution and Variation in the Permanent Shaded Region of the Moon,
GeoRS(59), No. 4, April 2021, pp. 2962-2972.
IEEE DOI 2104
Moon, Temperature distribution, Mathematical model, Solar heating, Rocks, Temperature measurement, Moon, temperature variation BibRef

Xu, S.P.[Sai-Ping], Zhao, Q.J.[Qian-Jun], Yin, K.[Kai], He, G.J.[Guo-Jin], Zhang, Z.M.[Zhao-Ming], Wang, G.Z.[Gui-Zhou], Wen, M.P.[Mei-Ping], Zhang, N.[Ning],
Spatial Downscaling of Land Surface Temperature Based on a Multi-Factor Geographically Weighted Machine Learning Model,
RS(13), No. 6, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Favrichon, S.[Samuel], Prigent, C.[Catherine], Jiménez, C.[Carlos],
A Method to Downscale Satellite Microwave Land-Surface Temperature,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Mao, Q.[Qi], Peng, J.[Jian], Wang, Y.[Yanglin],
Resolution Enhancement of Remotely Sensed Land Surface Temperature: Current Status and Perspectives,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link 2104
BibRef

Zheng, D.H.[Dong-Hai], Li, X.[Xin], Zhao, T.J.[Tian-Jie], Wen, J.[Jun], van der Velde, R.[Rogier], Schwank, M.[Mike], Wang, X.[Xin], Wang, Z.[Zuoliang], Su, Z.B.[Zhong-Bo],
Impact of Soil Permittivity and Temperature Profile on L-Band Microwave Emission of Frozen Soil,
GeoRS(59), No. 5, May 2021, pp. 4080-4093.
IEEE DOI 2104
Soil, Computational modeling, Soil measurements, L-band, Dielectrics, Sea measurements, Temperature measurement, Frozen soil, soil permittivity BibRef

Trigo, I.F.[Isabel F.], Ermida, S.L.[Sofia L.], Martins, J.P.A.[João P.A.], Gouveia, C.M.[Célia M.], Göttsche, F.M.[Frank-M.], Freitas, S.C.[Sandra C.],
Validation and consistency assessment of land surface temperature from geostationary and polar orbit platforms: SEVIRI/MSG and AVHRR/Metop,
PandRS(175), 2021, pp. 282-297.
Elsevier DOI 2105
Land Surface Temperature, LSA-SAF, SEVIRI, AVHRR, Validation BibRef

Bian, Z.J.[Zun-Jian], Cao, B.[Biao], Li, H.[Hua], Du, Y.M.[Yong-Ming], Fan, W.J.[Wen-Jie], Xiao, Q.[Qing], Liu, Q.H.[Qin-Huo],
The Effects of Tree Trunks on the Directional Emissivity and Brightness Temperatures of a Leaf-Off Forest Using a Geometric Optical Model,
GeoRS(59), No. 6, June 2021, pp. 5370-5386.
IEEE DOI 2106
Vegetation, Forestry, Vegetation mapping, Soil, Land surface temperature, Temperature measurement, tree trunk effect BibRef

Zhang, C.M.[Chun-Ming], Gu, M.J.[Ming-Jian], Hu, Y.[Yong], Huang, P.Y.[Peng-Yu], Yang, T.[Tianhang], Huang, S.[Shuo], Yang, C.[Chunlei], Shao, C.Y.[Chun-Yyan],
A Study on the Retrieval of Temperature and Humidity Profiles Based on FY-3D/HIRAS Infrared Hyperspectral Data,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Luo, Y.[Yaowen], 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

Xu, S.[Shuo], Cheng, J.[Jie], Zhang, Q.[Quan],
A Random Forest-Based Data Fusion Method for Obtaining All-Weather Land Surface Temperature with High Spatial Resolution,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Pérez-Planells, L.[Lluís], Niclòs, R.[Raquel], Puchades, J.[Jesús], Coll, C.[César], Göttsche, F.M.[Frank-M.], Valiente, J.A.[José A.], Valor, E.[Enric], Galve, J.M.[Joan M.],
Validation of Sentinel-3 SLSTR Land Surface Temperature Retrieved by the Operational Product and Comparison with Explicitly Emissivity-Dependent Algorithms,
RS(13), No. 11, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Long, F.[Fengyang], Gao, C.F.[Cheng-Fa], Yan, Y.[Yuxiang], Wang, J.[Jinling],
Enhanced Neural Network Model for Worldwide Estimation of Weighted Mean Temperature,
RS(13), No. 12, 2021, pp. xx-yy.
DOI Link 2106
BibRef

Mo, Y.P.[Ya-Ping], Xu, Y.M.[Yong-Ming], Chen, H.J.[Hui-Juan], Zhu, S.[Shanyou],
A Review of Reconstructing Remotely Sensed Land Surface Temperature under Cloudy Conditions,
RS(13), No. 14, 2021, pp. xx-yy.
DOI Link 2107
BibRef

Zhu, X.L.[Xiao-Lin], Duan, S.B.[Si-Bo], Li, Z.L.[Zhao-Liang], Zhao, W.[Wei], Wu, H.[Hua], Leng, P.[Pei], Gao, M.[Maofang], Zhou, X.M.[Xiao-Ming],
Retrieval of Land Surface Temperature With Topographic Effect Correction From Landsat 8 Thermal Infrared Data in Mountainous Areas,
GeoRS(59), No. 8, August 2021, pp. 6674-6687.
IEEE DOI 2108
Land surface temperature, Surface topography, Land surface, Earth, Remote sensing, Artificial satellites, Atmospheric modeling, topographic effect BibRef

He, W.[Wen], Cao, S.[Shisong], Du, M.Y.[Ming-Yi], Hu, D.[Deyong], Mo, Y.[You], Liu, M.Q.[Man-Qing], Zhao, J.H.[Jiang-Hong], Cao, Y.[Yuee],
How Do Two- and Three-Dimensional Urban Structures Impact Seasonal Land Surface Temperatures at Various Spatial Scales? A Case Study for the Northern Part of Brooklyn, New York, USA,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Dowling, T.P.F.[Thomas P. F.], Song, P.[Peilin], de Jong, M.C.[Mark C.], Merbold, L.[Lutz], Wooster, M.J.[Martin J.], Huang, J.F.[Jing-Feng], Zhang, Y.Q.[Yong-Qiang],
An Improved Cloud Gap-Filling Method for Longwave Infrared Land Surface Temperatures through Introducing Passive Microwave Techniques,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Tang, K.[Kai], Zhu, H.[Hongchun], Ni, P.[Ping],
Spatial Downscaling of Land Surface Temperature over Heterogeneous Regions Using Random Forest Regression Considering Spatial Features,
RS(13), No. 18, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Abbas, A.[Alim], He, Q.[Qing], Jin, L.[Lili], Li, J.L.[Jing-Long], Salam, A.[Akida], Lu, B.[Bo], Yasheng, Y.J.[Yierpan-Jiang],
Spatio-Temporal Changes of Land Surface Temperature and the Influencing Factors in the Tarim Basin, Northwest China,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef

Zhu, X.M.[Xin-Ming], Song, X.N.[Xiao-Ning], Leng, P.[Pei], Li, X.T.[Xiao-Tao], Gao, L.[Liang], Guo, D.[Da], Cai, S.H.[Shuo-Hao],
A Framework for Generating High Spatiotemporal Resolution Land Surface Temperature in Heterogeneous Areas,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
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Zhu, H.[Hai], Chen, K.[Kejie], Huang, G.W.[Guan-Wen],
A Weighted Mean Temperature Model with Nonlinear Elevation Correction Using China as an Example,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef

Zhang, Q.[Qiang], Wu, Z.X.[Zi-Xuan], Singh, V.P.[Vijay P.], Liu, C.L.[Chun-Ling],
Impacts of Spatial Configuration of Land Surface Features on Land Surface Temperature across Urban Agglomerations, China,
RS(13), No. 19, 2021, pp. xx-yy.
DOI Link 2110
BibRef

Blanco, A.C., Babaan, J.B., Escoto, J.E., Alcantara, C.K.,
Modelling of Land Surface Temperature Using Gray Level Co-occurrence Matrix and Random Forest Regression,
ISPRS20(B3:23-28).
DOI Link 2012
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Tahooni, A., Kakroodi, A.A.,
Relationships Between Land Use/land Cover and Land Surface Temperature In Tabriz From 2000 to 2017,
SMPR19(1041-1044).
DOI Link 1912
BibRef

Firozjaei, M.K., Fathololuomi, S., Alavipanah, S.K., Kiavarz, M., Vaezi, A., Biswas, A., Ghorbani, A.,
Modeling The Impact of Surface Characteristics On The Near Surface Temperature Lapse Rate,
SMPR19(395-399).
DOI Link 1912
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Firozjaei, M.K., Makki, M., Lentschke, J., Kiavarz, M., Alavipanah, S.K.,
Spatioltemporal Modeling The Impact of Surface Characteristics Variations On Land Surface Temperature Variations: a Case Study Of Samalghan Vally,
SMPR19(401-405).
DOI Link 1912
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Chu, W.T., Ho, K.C., Borji, A.,
Visual Weather Temperature Prediction,
WACV18(234-241)
IEEE DOI 1806
convolution, feature extraction, feedforward neural nets, geophysical image processing, image sequences, Visualization BibRef

Ikani, V., Chokmani, K., Fathollahi, L., Granberg, H., Fournier, R.,
Spatiotemporal Evaluation Of Nocturnal Cold Air Drainage Over A Simple Slope Using Thermal Infrared Imagery,
ISPRS16(B8: 265-269).
DOI Link 1610
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Chen, Z., Jiang, W.G., Tang, Z.H., Jia, K.,
Spatial-temporal Pattern Of Vegetation Index Change And The Relationship To Land Surface Temperature In Zoige,
ISPRS16(B3: 849-852).
DOI Link 1610
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Ibrahim, I., Samah, A.A.[A. Abu], Fauzi, R., Noor, N.M.,
The Land Surface Temperature Impact To Land Cover Types,
ISPRS16(B3: 871-876).
DOI Link 1610
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Huang, J., Zhou, Q.,
Relations Between Grace-derived Water Storage Change With Precipitation And Temperature Over Kaidu River Basin, China,
ISPRS16(B8: 405-407).
DOI Link 1610
BibRef

Nithiyanandam, Y., Nichol, J.E.,
A Simple And Effective Retrieval Of Land Surface Temperature Using A New Reflectance Based Emissivity Estimation Technique,
ISPRS16(B8: 443-447).
DOI Link 1610
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Bernales, A.M., Antolihao, J.A., Samonte, C., Campomanes, F., Rojas, R.J., dela Serna, A.M., Silapan, J.,
Modelling The Relationship Between Land Surface Temperature And Landscape Patterns Of Land Use Land Cover Classification Using Multi Linear Regression Models,
ISPRS16(B8: 851-856).
DOI Link 1610
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Ibitolu, H.A., Ogunjobi, K.O.,
Inter-seasonal Dynamics Of Vegetation Cover And Surface Temperature Distribution: A Case Study Of Ondo State, Nigeria,
ISPRS16(B8: 897-904).
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Zhang, J., Jung, J., Sohn, G., Cohen, M.,
Thermal Infrared Inspection of Roof Insulation Using Unmanned Aerial Vehicles,
UAV-g15(381-386).
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Ding, J.F.[Ji-Feng], Zhao, J.Y.[Ji-Yin], Ma, B.[Biao],
Remote Monitoring System of Temperature and Humidity Based on GSM,
CISP09(1-4).
IEEE DOI 0910
BibRef

Pan, J.[Jun], Xing, L.X.[Li-Xin], Wen, J.C.[Jiu-Cheng], Meng, T.[Tao], Jiang, L.J.[Li-Jun],
Inversion Method Study on Short Wave Infrared Remote Sensing Data High Temperature Surface Feature Temperature,
CISP09(1-4).
IEEE DOI 0910
BibRef

Zhou, L.[Li], Jiang, T.C.[Ting-Chen], Lu, X.[Xia],
A Practical Method of Feature Extraction for Water Surface Temperature Based on Thermal Infrared Remote Sensing Image,
CISP09(1-4).
IEEE DOI 0910
BibRef

Prakash, S., Lee, P.Y.[Pei Yean], Caelli, T.M.,
3D Mapping of Surface Temperature Using Thermal Stereo,
ICARCV06(1-4).
IEEE DOI 0612
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Chapter on Remote Sensing General Issue, Land Use, Land Cover continues in
Land Surface Temperature using LandSat .

Last update:Nov 1, 2021 at 09:26:50