Nichol, J.[Janet],
Remote Sensing of Urban Heat Islands by Day and Night,
PhEngRS(71), No. 5, May 2005, pp. 613-622.
A comparison of daytime and night time thermal images for
urban heat island analysis at micro- and meso-scales.
WWW Link.
0509
BibRef
Weng, Q.[Qihao],
Lu, D.S.[Deng-Sheng],
Liang, B.Q.[Bing-Qing],
Urban Surface Biophysical Descriptors and Land Surface Temperature
Variations,
PhEngRS(72), No. 11, November 2006, pp. 1275-1286.
WWW Link.
0704
Quantitative urban surface biophysical descriptors are developed and
related to land surface temperature variations.
BibRef
Jiang, Y.[Yitong],
Fu, P.[Peng],
Weng, Q.[Qihao],
Assessing the Impacts of Urbanization-Associated Land Use/Cover
Change on Land Surface Temperature and Surface Moisture:
A Case Study in the Midwestern United States,
RS(7), No. 4, 2015, pp. 4880-4898.
DOI Link
1505
BibRef
Nichol, J.[Janet],
An Emissivity Modulation Method for Spatial Enhancement of Thermal
Satellite Images in Urban Heat Island Analysis,
PhEngRS(75), No. 5, May 2009, pp. 547-556.
WWW Link.
0904
A methodology using ancillary land-cover information to enhance the
spatial resolution of thermal satellite images for detailed studies of
land surface temperature, such as in urban heat island analysis.
BibRef
Fabrizi, R.,
Bonafoni, S.,
Biondi, R.,
Satellite and Ground-Based Sensors for the Urban Heat Island Analysis
in the City of Rome,
RS(2), No. 5, May 2010, pp. 1400-1415.
DOI Link
1203
BibRef
Rinner, C.,
Hussain, M.,
Toronto's Urban Heat Island: Exploring the Relationship between Land
Use and Surface Temperature,
RS(3), No. 6, June 2011, pp. 1251-1265.
DOI Link
1203
BibRef
Jin, M.,
Kessomkiat, W.,
Pereira, G.,
Satellite-Observed Urbanization Characters in Shanghai, China:
Aerosols, Urban Heat Island Effect, and Land-Atmosphere Interactions,
RS(3), No. 1, January 2011, pp. 83-99.
DOI Link
1203
BibRef
Weng, Q.[Qihao],
Rajasekar, U.,
Hu, X.[Xuefei],
Modeling Urban Heat Islands and Their Relationship With Impervious
Surface and Vegetation Abundance by Using ASTER Images,
GeoRS(49), No. 10, October 2011, pp. 4080-4089.
IEEE DOI
1110
BibRef
Nichol, J.E.[Janet E.],
To, P.H.[Pui Hang],
Temporal characteristics of thermal satellite images for urban heat
stress and heat island mapping,
PandRS(74), No. 1, November 2012, pp. 153-162.
Elsevier DOI
1212
Thermal; Satellite; Urban; Climate
BibRef
Zhou, Y.[Yuyu],
Weng, Q.[Qihao],
Gurney, K.R.[Kevin R.],
Shuai, Y.M.[Yan-Min],
Hu, X.[Xuefei],
Estimation of the relationship between remotely sensed anthropogenic
heat discharge and building energy use,
PandRS(67), No. 1, January 2012, pp. 65-72.
Elsevier DOI
1202
Anthropogenic heat discharge; Building energy use; Multi-scale; Urban
heat island; Urban remote sensing
BibRef
Wu, C.D.[Chih-Da],
Lung, S.C.C.[Shih-Chun Candice],
Jan, J.F.[Jihn-Fa],
Development of a 3-D urbanization index using digital terrain models
for surface urban heat island effects,
PandRS(81), No. 1, July 2013, pp. 1-11.
Elsevier DOI
1306
Surface urban heat island (SUHI); Heat wave; Medium-sized
city; Three-dimension urbanization index; Urban climate
BibRef
Choi, Y.Y.[Youn-Young],
Suh, M.S.[Myoung-Seok],
Park, K.H.[Ki-Hong],
Assessment of Surface Urban Heat Islands over Three Megacities in
East Asia Using Land Surface Temperature Data Retrieved from COMS,
RS(6), No. 6, 2014, pp. 5852-5867.
DOI Link
1407
BibRef
Wang, J.[Juan],
Huang, B.[Bo],
Fu, D.J.[Dong-Jie],
Atkinson, P.M.[Peter M.],
Spatiotemporal Variation in Surface Urban Heat Island Intensity and
Associated Determinants across Major Chinese Cities,
RS(7), No. 4, 2015, pp. 3670-3689.
DOI Link
1505
BibRef
Wang, J.[Juan],
Meng, B.[Bin],
Fu, D.J.[Dong-Jie],
Pei, T.[Tao],
Xu, C.D.[Cheng-Dong],
Mapping Spatiotemporal Patterns and Multi-Perspective Analysis of the
Surface Urban Heat Islands across 32 Major Cities in China,
IJGI(7), No. 6, 2018, pp. xx-yy.
DOI Link
1806
BibRef
Liu, K.[Kai],
Su, H.B.[Hong-Bo],
Zhang, L.[Lifu],
Yang, H.[Hang],
Zhang, R.H.[Ren-Hua],
Li, X.[Xueke],
Analysis of the Urban Heat Island Effect in Shijiazhuang, China Using
Satellite and Airborne Data,
RS(7), No. 4, 2015, pp. 4804-4833.
DOI Link
1505
BibRef
Azevedo, J.A.[Juliana Antunes],
Chapman, L.[Lee],
Muller, C.L.[Catherine L.],
Quantifying the Daytime and Night-Time Urban Heat Island in
Birmingham, UK: A Comparison of Satellite Derived Land Surface
Temperature and High Resolution Air Temperature Observations,
RS(8), No. 2, 2016, pp. 153.
DOI Link
1603
BibRef
Wang, C.Y.[Chu-Yuan],
Myint, S.W.[Soe W.],
Wang, Z.H.[Zhi-Hua],
Song, J.[Jiyun],
Spatio-Temporal Modeling of the Urban Heat Island in the Phoenix
Metropolitan Area: Land Use Change Implications,
RS(8), No. 3, 2016, pp. 185.
DOI Link
1604
BibRef
Bao, T.L.[Tong-Liga],
Li, X.M.[Xue-Ming],
Zhang, J.[Jing],
Zhang, Y.J.[Ying-Jia],
Tian, S.Z.[Shen-Zhen],
Assessing the Distribution of Urban Green Spaces and its Anisotropic
Cooling Distance on Urban Heat Island Pattern in Baotou, China,
IJGI(5), No. 2, 2016, pp. 12.
DOI Link
1603
BibRef
Haashemi, S.[Sirous],
Weng, Q.[Qihao],
Darvishi, A.[Ali],
Alavipanah, S.K.[Seyed Kazem],
Seasonal Variations of the Surface Urban Heat Island in a Semi-Arid
City,
RS(8), No. 4, 2016, pp. 352.
DOI Link
1604
BibRef
Gawuc, L.[Lech],
Struzewska, J.[Joanna],
Impact of MODIS Quality Control on Temporally Aggregated Urban
Surface Temperature and Long-Term Surface Urban Heat Island Intensity,
RS(8), No. 5, 2016, pp. 374.
DOI Link
1606
BibRef
Shahraiyni, H.T.[Hamid Taheri],
Sodoudi, S.[Sahar],
El-Zafarany, A.[Abbas],
Seoud, T.A.E.[Tarek Abou El],
Ashraf, H.[Hesham],
Krone, K.[Kristin],
A Comprehensive Statistical Study on Daytime Surface Urban Heat
Island during Summer in Urban Areas, Case Study: Cairo and Its New
Towns,
RS(8), No. 8, 2016, pp. 643.
DOI Link
1609
BibRef
Luo, X.B.[Xiao-Bo],
Peng, Y.D.[Yi-Dong],
Scale Effects of the Relationships between Urban Heat Islands and
Impact Factors Based on a Geographically-Weighted Regression Model,
RS(8), No. 9, 2016, pp. 760.
DOI Link
1610
BibRef
Nguyen, L.H.[Lan H.],
Henebry, G.M.[Geoffrey M.],
Urban Heat Islands as Viewed by Microwave Radiometers and Thermal
Time Indices,
RS(8), No. 10, 2016, pp. 831.
DOI Link
1609
BibRef
Bahi, H.[Hicham],
Rhinane, H.[Hassan],
Bensalmia, A.[Ahmed],
Fehrenbach, U.[Ute],
Scherer, D.[Dieter],
Effects of Urbanization and Seasonal Cycle on the Surface Urban Heat
Island Patterns in the Coastal Growing Cities: A Case Study of
Casablanca, Morocco,
RS(8), No. 10, 2016, pp. 829.
DOI Link
1609
BibRef
And:
Reply to comments:
RS(9), No. 2, 2017, pp. xx-yy.
DOI Link
1703
See also Comment on Hicham Bahi, et al. Effects of Urbanization and Seasonal Cycle on the Surface Urban Heat Island Patterns in the Coastal Growing Cities: A Case Study of Casablanca, Morocco. Remote Sens. 2016, 8, 829.
BibRef
Yang, J.X.[Jin-Xin],
Wong, M.S.[Man Sing],
Menenti, M.[Massimo],
Nichol, J.[Janet],
Voogt, J.[James],
Krayenhoff, E.S.[E. Scott],
Chan, P.W.,
Development of an improved urban emissivity model based on sky view
factor for retrieving effective emissivity and surface temperature
over urban areas,
PandRS(122), No. 1, 2016, pp. 30-40.
Elsevier DOI
1612
Emissivity
BibRef
Al-Hamdan, M.Z.[Mohammad Z.],
Quattrochi, D.A.[Dale A.],
Bounoua, L.[Lahouari],
Lachir, A.[Asia],
Zhang, P.[Ping],
Using Landsat, MODIS, and a Biophysical Model to Evaluate LST in
Urban Centers,
RS(8), No. 11, 2016, pp. 952.
DOI Link
1612
Land surface temperature
BibRef
Zhang, H.[Hao],
Jing, X.M.[Xing-Min],
Chen, J.Y.[Jia-Yu],
Li, J.J.[Juan-Juan],
Schwegler, B.[Ben],
Characterizing Urban Fabric Properties and Their Thermal Effect Using
QuickBird Image and Landsat 8 Thermal Infrared (TIR) Data: The Case
of Downtown Shanghai, China,
RS(8), No. 7, 2016, pp. 541.
DOI Link
1608
BibRef
Tran, D.X.[Duy X.],
Pla, F.[Filiberto],
Latorre-Carmona, P.[Pedro],
Myint, S.W.[Soe W.],
Caetano, M.[Mario],
Kieu, H.V.[Hoan V.],
Characterizing the relationship between land use land cover change
and land surface temperature,
PandRS(124), No. 1, 2017, pp. 119-132.
Elsevier DOI
1702
Urban heat island
BibRef
Lofgren, B.M.[Brent M.],
Comment on Hicham Bahi, et al. Effects of Urbanization and Seasonal
Cycle on the Surface Urban Heat Island Patterns in the Coastal
Growing Cities: A Case Study of Casablanca, Morocco. Remote Sens.
2016, 8, 829,
RS(9), No. 1, 2017, pp. xx-yy.
DOI Link
1702
Article, with reply:
See also Effects of Urbanization and Seasonal Cycle on the Surface Urban Heat Island Patterns in the Coastal Growing Cities: A Case Study of Casablanca, Morocco.
BibRef
Zhao, G.S.[Guo-Song],
Dong, J.[Jinwei],
Liu, J.Y.[Ji-Yuan],
Zhai, J.[Jun],
Cui, Y.P.[Yao-Ping],
He, T.[Tian],
Xiao, X.M.[Xiang-Ming],
Different Patterns in Daytime and Nighttime Thermal Effects of
Urbanization in Beijing-Tianjin-Hebei Urban Agglomeration,
RS(9), No. 2, 2017, pp. xx-yy.
DOI Link
1703
BibRef
Liao, W.L.[Wei-Lin],
Liu, X.P.[Xiao-Ping],
Wang, D.G.[Da-Gang],
Sheng, Y.L.[Yan-Ling],
The Impact of Energy Consumption on the Surface Urban Heat Island in
China's 32 Major Cities,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link
1704
BibRef
Zhang, L.L.[Lin-Lin],
Meng, Q.Y.[Qing-Yan],
Sun, Z.H.[Zhen-Hui],
Sun, Y.X.[Yun-Xiao],
Spatial and Temporal Analysis of the Mitigating Effects of Industrial
Relocation on the Surface Urban Heat Island over China,
IJGI(6), No. 4, 2017, pp. xx-yy.
DOI Link
1705
BibRef
Elmes, A.[Arthur],
Rogan, J.[John],
Williams, C.[Christopher],
Ratick, S.[Samuel],
Nowak, D.[David],
Martin, D.[Deborah],
Effects of urban tree canopy loss on land surface temperature
magnitude and timing,
PandRS(128), No. 1, 2017, pp. 338-353.
Elsevier DOI
1706
Urban heat island
BibRef
Krehbiel, C.[Cole],
Zhang, X.Y.[Xiao-Yang],
Henebry, G.M.[Geoffrey M.],
Impacts of Thermal Time on Land Surface Phenology in Urban Areas,
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link
1706
BibRef
Chen, W.[Wei],
Zhang, Y.[Yao],
Pengwang, C.Y.[Chong-Yu],
Gao, W.J.[Wei-Jun],
Evaluation of Urbanization Dynamics and its Impacts on Surface Heat
Islands: A Case Study of Beijing, China,
RS(9), No. 5, 2017, pp. xx-yy.
DOI Link
1706
BibRef
Yao, R.[Rui],
Wang, L.[Lunche],
Gui, X.[Xuan],
Zheng, Y.[Yukun],
Zhang, H.M.[Hao-Ming],
Huang, X.[Xin],
Urbanization Effects on Vegetation and Surface Urban Heat Islands in
China's Yangtze River Basin,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link
1706
BibRef
Li, L.[Long],
Huang, X.[Xin],
Li, J.[Jiayi],
Wen, D.[Dawei],
Quantifying the Spatiotemporal Trends of Canopy Layer Heat Island
(CLHI) and Its Driving Factors over Wuhan, China with Satellite
Remote Sensing,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link
1706
BibRef
Fan, C.[Chao],
Myint, S.W.[Soe W.],
Kaplan, S.[Shai],
Middel, A.[Ariane],
Zheng, B.[Baojuan],
Rahman, A.[Atiqur],
Huang, H.P.[Huei-Ping],
Brazel, A.[Anthony],
Blumberg, D.G.[Dan G.],
Understanding the Impact of Urbanization on Surface Urban Heat
Islands: A Longitudinal Analysis of the Oasis Effect in Subtropical
Desert Cities,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link
1708
BibRef
Huang, W.J.[Wei-Jiao],
Li, J.[Jun],
Guo, Q.Y.[Qiao-Ying],
Mansaray, L.R.[Lamin R.],
Li, X.X.[Xin-Xing],
Huang, J.F.[Jing-Feng],
A Satellite-Derived Climatological Analysis of Urban Heat Island over
Shanghai during 2000-2013,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link
1708
BibRef
Ranagalage, M.[Manjula],
Estoque, R.C.[Ronald C.],
Murayama, Y.[Yuji],
An Urban Heat Island Study of the Colombo Metropolitan Area, Sri
Lanka, Based on Landsat Data (1997-2017),
IJGI(6), No. 7, 2017, pp. xx-yy.
DOI Link
1708
BibRef
Wicki, A.[Andreas],
Parlow, E.[Eberhard],
Multiple Regression Analysis for Unmixing of Surface Temperature Data
in an Urban Environment,
RS(9), No. 7, 2017, pp. xx-yy.
DOI Link
1708
BibRef
Miles, V.[Victoria],
Esau, I.[Igor],
Seasonal and Spatial Characteristics of Urban Heat Islands (UHIs) in
Northern West Siberian Cities,
RS(9), No. 10, 2017, pp. xx-yy.
DOI Link
1711
BibRef
Estoque, R.C.[Ronald C.],
Murayama, Y.[Yuji],
Monitoring surface urban heat island formation in a tropical mountain
city using Landsat data (1987-2015),
PandRS(133), No. Supplement C, 2017, pp. 18-29.
Elsevier DOI
1711
Urban heat island, Land surface temperature, Remote sensing,
Impervious surface
BibRef
Liu, Y.X.[Yan-Xu],
Peng, J.[Jian],
Wang, Y.L.[Yang-Lin],
Diversification of Land Surface Temperature Change under Urban
Landscape Renewal: A Case Study in the Main City of Shenzhen, China,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link
1711
BibRef
Yang, C.B.[Chao-Bin],
He, X.Y.[Xing-Yuan],
Yu, L.X.[Ling-Xue],
Yang, J.[Jiuchun],
Yan, F.Q.[Feng-Qin],
Bu, K.[Kun],
Chang, L.P.[Li-Ping],
Zhang, S.[Shuwen],
The Cooling Effect of Urban Parks and Its Monthly Variations in a
Snow Climate City,
RS(9), No. 10, 2017, pp. xx-yy.
DOI Link
1711
BibRef
Yoo, C.[Cheolhee],
Im, J.[Jungho],
Park, S.[Seonyoung],
Quackenbush, L.J.[Lindi J.],
Estimation of daily maximum and minimum air temperatures in urban
landscapes using MODIS time series satellite data,
PandRS(137), 2018, pp. 149-162.
Elsevier DOI
1802
Land surface temperature, Air temperature, Random forest, MODIS
BibRef
Morabito, M.[Marco],
Crisci, A.[Alfonso],
Georgiadis, T.[Teodoro],
Orlandini, S.[Simone],
Munafò, M.[Michele],
Congedo, L.[Luca],
Rota, P.[Patrizia],
Zazzi, M.[Michele],
Urban Imperviousness Effects on Summer Surface Temperatures Nearby
Residential Buildings in Different Urban Zones of Parma,
RS(10), No. 1, 2018, pp. xx-yy.
DOI Link
1802
BibRef
Jain, M.[Madhavi],
Dimri, A.P.,
Niyogi, D.[Dev],
Land-Air Interactions over Urban-Rural Transects Using Satellite
Observations: Analysis over Delhi, India from 1991-2016,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link
1802
BibRef
Essa, W.[Wiesam],
Verbeiren, B.[Boud],
van der Kwast, J.[Johannes],
Batelaan, O.[Okke],
Improved DisTrad for Downscaling Thermal MODIS Imagery over Urban
Areas,
RS(9), No. 12, 2017, pp. xx-yy.
DOI Link
1802
BibRef
Wang, L.[Lin],
Zhu, J.[Jianghong],
Xu, Y.[Yanqing],
Wang, Z.[Zhanqi],
Urban Built-Up Area Boundary Extraction and Spatial-Temporal
Characteristics Based on Land Surface Temperature Retrieval,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link
1804
BibRef
Keeratikasikorn, C.[Chaiyapon],
Bonafoni, S.[Stefania],
Urban Heat Island Analysis over the Land Use Zoning Plan of Bangkok
by Means of Landsat 8 Imagery,
RS(10), No. 3, 2018, pp. xx-yy.
DOI Link
1804
BibRef
Keeratikasikorn, C.[Chaiyapon],
Bonafoni, S.[Stefania],
Satellite Images and Gaussian Parameterization for an Extensive
Analysis of Urban Heat Islands in Thailand,
RS(10), No. 5, 2018, pp. xx-yy.
DOI Link
1806
BibRef
Lai, J.M.[Jia-Meng],
Zhan, W.F.[Wen-Feng],
Huang, F.[Fan],
Quan, J.L.[Jin-Ling],
Hu, L.Q.[Lei-Qiu],
Gao, L.[Lun],
Ju, W.M.[Wei-Min],
Does quality control matter? Surface urban heat island intensity
variations estimated by satellite-derived land surface temperature
products,
PandRS(139), 2018, pp. 212-227.
Elsevier DOI
1804
Surface urban heat island, Thermal remote sensing,
Land surface temperature, MODIS product, Quality control
BibRef
Nurwanda, A.[Atik],
Honjo, T.[Tsuyoshi],
Analysis of Land Use Change and Expansion of Surface Urban Heat
Island in Bogor City by Remote Sensing,
IJGI(7), No. 5, 2018, pp. xx-yy.
DOI Link
1806
BibRef
Qian, Y.G.[Yu-Guo],
Zhou, W.Q.[Wei-Qi],
Hu, X.F.[Xiao-Fang],
Fu, F.[Fan],
The Heterogeneity of Air Temperature in Urban Residential
Neighborhoods and Its Relationship with the Surrounding Greenspace,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link
1806
BibRef
Zhao, H.B.[Hong-Bo],
Zhang, H.[Hao],
Miao, C.H.[Chang-Hong],
Ye, X.Y.[Xin-Yue],
Min, M.[Min],
Linking Heat Source-Sink Landscape Patterns with Analysis of Urban
Heat Islands: Study on the Fast-Growing Zhengzhou City in Central
China,
RS(10), No. 8, 2018, pp. xx-yy.
DOI Link
1809
BibRef
And:
Erratum:
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link
2009
BibRef
Bonafoni, S.[Stefania],
Keeratikasikorn, C.[Chaiyapon],
Land Surface Temperature and Urban Density: Multiyear Modeling and
Relationship Analysis Using MODIS and Landsat Data,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link
1810
BibRef
Ravanelli, R.[Roberta],
Nascetti, A.[Andrea],
Cirigliano, R.V.[Raffaella Valeria],
Di Rico, C.[Clarissa],
Leuzzi, G.[Giovanni],
Monti, P.[Paolo],
Crespi, M.[Mattia],
Monitoring the Impact of Land Cover Change on Surface Urban Heat
Island through Google Earth Engine: Proposal of a Global Methodology,
First Applications and Problems,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link
1810
BibRef
Ranagalage, M.[Manjula],
Dissanayake, D.[DMSLB],
Murayama, Y.[Yuji],
Zhang, X.M.[Xin-Min],
Estoque, R.C.[Ronald C.],
Perera, E.[ENC],
Morimoto, T.[Takehiro],
Quantifying Surface Urban Heat Island Formation in the World Heritage
Tropical Mountain City of Sri Lanka,
IJGI(7), No. 9, 2018, pp. xx-yy.
DOI Link
1810
BibRef
Zhao, C.H.[Chun-Hong],
Jensen, J.[Jennifer],
Weng, Q.[Qihao],
Weaver, R.[Russell],
A Geographically Weighted Regression Analysis of the Underlying
Factors Related to the Surface Urban Heat Island Phenomenon,
RS(10), No. 9, 2018, pp. xx-yy.
DOI Link
1810
BibRef
Fu, P.[Peng],
Weng, Q.[Qihao],
Variability in annual temperature cycle in the urban areas of the
United States as revealed by MODIS imagery,
PandRS(146), 2018, pp. 65-73.
Elsevier DOI
1812
Annual temperature cycle, Land surface temperature,
Surface urban heat island, Köppen-Geiger climatic zones, MODIS imagery
BibRef
Oxoli, D.[Daniele],
Ronchetti, G.[Giulia],
Minghini, M.[Marco],
Molinari, M.E.[Monia Elisa],
Lotfian, M.[Maryam],
Sona, G.[Giovanna],
Brovelli, M.A.[Maria Antonia],
Measuring Urban Land Cover Influence on Air Temperature through
Multiple Geo-Data: The Case of Milan, Italy,
IJGI(7), No. 11, 2018, pp. xx-yy.
DOI Link
1812
BibRef
Hoan, N.T.[Nguyen Thanh],
Liou, Y.A.[Yuei-An],
Nguyen, K.A.[Kim-Anh],
Sharma, R.C.[Ram C.],
Tran, D.P.[Duy-Phien],
Liou, C.L.[Chia-Ling],
Cham, D.D.[Dao Dinh],
Assessing the Effects of Land-Use Types in Surface Urban Heat Islands
for Developing Comfortable Living in Hanoi City,
RS(10), No. 12, 2018, pp. xx-yy.
DOI Link
1901
BibRef
Li, L.[Long],
Zha, Y.[Yong],
Satellite-Based Spatiotemporal Trends of Canopy Urban Heat Islands
and Associated Drivers in China's 32 Major Cities,
RS(11), No. 1, 2019, pp. xx-yy.
DOI Link
1901
BibRef
Zhou, D.[Decheng],
Xiao, J.F.[Jing-Feng],
Bonafoni, S.[Stefania],
Berger, C.[Christian],
Deilami, K.[Kaveh],
Zhou, Y.[Yuyu],
Frolking, S.[Steve],
Yao, R.[Rui],
Qiao, Z.[Zhi],
Sobrino, J.A.[José A.],
Satellite Remote Sensing of Surface Urban Heat Islands:
Progress, Challenges, and Perspectives,
RS(11), No. 1, 2018, pp. xx-yy.
DOI Link
1901
BibRef
Hu, L.[Leiqiu],
Wendel, J.[Jochen],
Analysis of urban surface morphologic effects on diurnal thermal
directional anisotropy,
PandRS(148), 2019, pp. 1-12.
Elsevier DOI
1901
Thermal directional anisotropy, Radiative temperature,
Urban morphology, Aspect ratio, MODIS
BibRef
Renard, F.[Florent],
Alonso, L.[Lucille],
Fitts, Y.[Yasmin],
Hadjiosif, A.[Adeline],
Comby, J.[Jacques],
Evaluation of the Effect of Urban Redevelopment on Surface Urban Heat
Islands,
RS(11), No. 3, 2019, pp. xx-yy.
DOI Link
1902
BibRef
Yu, K.[Ke],
Chen, Y.H.[Yun-Hao],
Wang, D.[Dandan],
Chen, Z.[Zixuan],
Gong, A.[Adu],
Li, J.[Jing],
Study of the Seasonal Effect of Building Shadows on Urban Land
Surface Temperatures Based on Remote Sensing Data,
RS(11), No. 5, 2019, pp. xx-yy.
DOI Link
1903
BibRef
Fonseka, H.P.U.,
Zhang, H.[Hongsheng],
Sun, Y.[Ying],
Su, H.[Hua],
Lin, H.[Hui],
Lin, Y.[Yinyi],
Urbanization and Its Impacts on Land Surface Temperature in Colombo
Metropolitan Area, Sri Lanka, from 1988 to 2016,
RS(11), No. 8, 2019, pp. xx-yy.
DOI Link
1905
BibRef
Sun, Y.W.[Yan-Wei],
Gao, C.[Chao],
Li, J.[Jialin],
Wang, R.[Run],
Liu, J.[Jian],
Quantifying the Effects of Urban Form on Land Surface Temperature in
Subtropical High-Density Urban Areas Using Machine Learning,
RS(11), No. 8, 2019, pp. xx-yy.
DOI Link
1905
BibRef
Huang, X.[Xin],
Wang, Y.[Ying],
Investigating the effects of 3D urban morphology on the surface urban
heat island effect in urban functional zones by using high-resolution
remote sensing data: A case study of Wuhan, Central China,
PandRS(152), 2019, pp. 119-131.
Elsevier DOI
1905
Surface urban heat island, Land surface temperature,
3D urban morphology, Landscape, Urban functional zone
BibRef
Liu, H.[Huimin],
Zhan, Q.M.[Qing-Ming],
Gao, S.[Sihang],
Yang, C.[Chen],
Seasonal Variation of the Spatially Non-Stationary Association
Between Land Surface Temperature and Urban Landscape,
RS(11), No. 9, 2019, pp. xx-yy.
DOI Link
1905
BibRef
Wu, X.J.[Xiao-Jun],
Wang, G.X.[Guang-Xing],
Yao, R.[Rui],
Wang, L.[Lunche],
Yu, D.[Deqing],
Gui, X.[Xuan],
Investigating Surface Urban Heat Islands in South America Based on
MODIS Data from 2003-2016,
RS(11), No. 10, 2019, pp. xx-yy.
DOI Link
1906
BibRef
Yang, J.X.[Jin-Xin],
Menenti, M.[Massimo],
Qiao, Z.[Zhi],
Wu, C.[Chen],
Zhao, D.Q.[Dong-Qi],
Xu, X.L.[Xin-Liang],
Yang, J.L.[Ji-Lin],
Feng, L.[Li],
Sun, Z.Y.[Zong-Yao],
Liu, L.[Luo],
Determining the Boundary and Probability of Surface Urban Heat Island
Footprint Based on a Logistic Model,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link
1906
BibRef
Li, F.[Fei],
Sun, W.W.[Wei-Wei],
Yang, G.[Gang],
Weng, Q.[Qihao],
Investigating Spatiotemporal Patterns of Surface Urban Heat Islands
in the Hangzhou Metropolitan Area, China, 2000-2015,
RS(11), No. 13, 2019, pp. xx-yy.
DOI Link
1907
BibRef
Granero-Belinchon, C.[Carlos],
Michel, A.[Aurelie],
Lagouarde, J.P.[Jean-Pierre],
Sobrino, J.A.[Jose A.],
Briottet, X.[Xavier],
Night Thermal Unmixing for the Study of Microscale Surface Urban Heat
Islands with TRISHNA-Like Data,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link
1907
BibRef
Naughton, J.[Joseph],
McDonald, W.[Walter],
Evaluating the Variability of Urban Land Surface Temperatures Using
Drone Observations,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link
1908
BibRef
Simwanda, M.[Matamyo],
Ranagalage, M.[Manjula],
Estoque, R.C.[Ronald C.],
Murayama, Y.[Yuji],
Spatial Analysis of Surface Urban Heat Islands in Four Rapidly
Growing African Cities,
RS(11), No. 14, 2019, pp. xx-yy.
DOI Link
1908
BibRef
Feng, Y.N.[Yu-Ning],
Du, S.H.[Shi-Hong],
Myint, S.W.[Soe W.],
Shu, M.[Mi],
Do Urban Functional Zones Affect Land Surface Temperature
Differently? A Case Study of Beijing, China,
RS(11), No. 15, 2019, pp. xx-yy.
DOI Link
1908
BibRef
Hu, Y.H.[Yong-Hong],
Hou, M.T.[Mei-Ting],
Jia, G.S.[Gen-Suo],
Zhao, C.L.[Chun-Lei],
Zhen, X.J.[Xiao-Ju],
Xu, Y.H.[Yan-Hua],
Comparison of surface and canopy urban heat islands within megacities
of eastern China,
PandRS(156), 2019, pp. 160-168.
Elsevier DOI
1909
Urban heat island, Land use, Climate background, Urbanization
BibRef
Wang, J.[Jia],
Zhou, W.[Weiqi],
Wang, J.[Jing],
Time-Series Analysis Reveals Intensified Urban Heat Island Effects
but without Significant Urban Warming,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link
1910
BibRef
Wesley, E.J.[Elizabeth Jane],
Brunsell, N.A.[Nathaniel A.],
Greenspace Pattern and the Surface Urban Heat Island:
A Biophysically-Based Approach to Investigating the Effects of Urban
Landscape Configuration,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link
1910
BibRef
Guo, X.[Xuan],
Huang, G.[Ganlin],
Jia, P.[Peng],
Wu, J.G.[Jian-Guo],
Estimating Fine-Scale Heat Vulnerability in Beijing Through Two
Approaches: Spatial Patterns, Similarities, and Divergence,
RS(11), No. 20, 2019, pp. xx-yy.
DOI Link
1910
BibRef
Zhang, Y.S.[You-Shui],
Wang, X.Q.[Xiao-Qin],
Balzter, H.[Heiko],
Qiu, B.W.[Bing-Wen],
Cheng, J.Y.[Jing-Yuan],
Directional and Zonal Analysis of Urban Thermal Environmental Change
in Fuzhou as an Indicator of Urban Landscape Transformation,
RS(11), No. 23, 2019, pp. xx-yy.
DOI Link
1912
BibRef
Wu, Q.[Qiong],
Tan, J.X.[Jin-Xiang],
Guo, F.X.[Feng-Xiang],
Li, H.Q.[Hong-Qing],
Chen, S.[Shengbo],
Multi-Scale Relationship between Land Surface Temperature and
Landscape Pattern Based on Wavelet Coherence:
The Case of Metropolitan Beijing, China,
RS(11), No. 24, 2019, pp. xx-yy.
DOI Link
1912
BibRef
Ma, C.[Caihong],
Niu, Z.[Zheng],
Ma, Y.[Yan],
Chen, F.[Fu],
Yang, J.[Jin],
Liu, J.B.[Jian-Bo],
Assessing the Distribution of Heavy Industrial Heat Sources in India
between 2012 and 2018,
IJGI(8), No. 12, 2019, pp. xx-yy.
DOI Link
1912
BibRef
Liu, X.[Xin],
Xiao, Z.[Zuolin],
Liu, R.[Rui],
A Spatio-Temporal Bayesian Model for Estimating the Effects of Land
Use Change on Urban Heat Island,
IJGI(8), No. 12, 2019, pp. xx-yy.
DOI Link
1912
BibRef
Liu, F.[Fei],
Zhang, X.M.[Xin-Min],
Murayama, Y.[Yuji],
Morimoto, T.[Takehiro],
Impacts of Land Cover/Use on the Urban Thermal Environment:
A Comparative Study of 10 Megacities in China,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link
2001
BibRef
Wang, Z.[Zhe],
Fan, C.[Chao],
Zhao, Q.S.[Qun-Shan],
Myint, S.W.[Soe Win],
A Geographically Weighted Regression Approach to Understanding
Urbanization Impacts on Urban Warming and Cooling:
A Case Study of Las Vegas,
RS(12), No. 2, 2020, pp. xx-yy.
DOI Link
2001
BibRef
Wang, Y.[Yuchen],
Zhang, Y.[Yu],
Ding, N.[Nan],
Qin, K.[Kai],
Yang, X.Y.[Xiao-Yan],
Simulating the Impact of Urban Surface Evapotranspiration on the
Urban Heat Island Effect Using the Modified RS-PM Model: A Case Study
of Xuzhou, China,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link
2002
BibRef
Luan, X.L.[Xia-Li],
Yu, Z.W.[Zhao-Wu],
Zhang, Y.T.[Yu-Ting],
Wei, S.[Sheng],
Miao, X.Y.[Xin-Yu],
Huang, Z.Y.X.[Zheng Y. X.],
Teng, S.Q.N.[Shu-Qing N.],
Xu, C.[Chi],
Remote Sensing and Social Sensing Data Reveal Scale-Dependent and
System-Specific Strengths of Urban Heat Island Determinants,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link
2002
BibRef
Chu, L.[Lixia],
Oloo, F.[Francis],
Bergstedt, H.[Helena],
Blaschke, T.[Thomas],
Assessing the Link between Human Modification and Changes in Land
Surface Temperature in Hainan, China Using Image Archives from Google
Earth Engine,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link
2003
BibRef
Yang, H.B.[Hai-Bo],
Xi, C.[Chaofan],
Zhao, X.[Xincan],
Mao, P.[Penglei],
Wang, Z.[Zongmin],
Shi, Y.[Yong],
He, T.[Tian],
Li, Z.H.[Zhen-Hong],
Measuring the Urban Land Surface Temperature Variations Under
Zhengzhou City Expansion Using Landsat-Like Data,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link
2003
BibRef
Qiao, Z.[Zhi],
Liu, L.[Luo],
Qin, Y.[Yuanwei],
Xu, X.[Xinliang],
Wang, B.[Binwu],
Liu, Z.J.[Zhen-Jie],
The Impact of Urban Renewal on Land Surface Temperature Changes: A
Case Study in the Main City of Guangzhou, China,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link
2003
BibRef
Tang, X.Y.[Xi-Ying],
Cui, Y.P.[Yao-Ping],
Li, N.[Nan],
Fu, Y.M.[Yi-Ming],
Liu, X.Y.[Xiao-Yan],
Run, Y.[Yadi],
Li, M.D.[Meng-Di],
Zhao, G.S.[Guo-Song],
Dong, J.W.[Jin-Wei],
Human Activities Enhance Radiation Forcing through Surface Albedo
Associated with Vegetation in Beijing,
RS(12), No. 5, 2020, pp. xx-yy.
DOI Link
2003
BibRef
Yin, C.[Cong],
Yang, F.[Fei],
Wang, J.[Juanle],
Ye, Y.[Yexing],
Spatiotemporal Distribution and Risk Assessment of Heat Waves Based
on Apparent Temperature in the One Belt and One Road Region,
RS(12), No. 7, 2020, pp. xx-yy.
DOI Link
2004
BibRef
Mirzaei, M.[Mohsen],
Verrelst, J.[Jochem],
Arbabi, M.[Mohsen],
Shaklabadi, Z.[Zohreh],
Lotfizadeh, M.[Masoud],
Urban Heat Island Monitoring and Impacts on Citizen's General Health
Status in Isfahan Metropolis: A Remote Sensing and Field Survey
Approach,
RS(12), No. 8, 2020, pp. xx-yy.
DOI Link
2004
BibRef
Sun, T.[Tao],
Sun, R.[Ranhao],
Chen, L.[Liding],
The Trend Inconsistency between Land Surface Temperature and Near
Surface Air Temperature in Assessing Urban Heat Island Effects,
RS(12), No. 8, 2020, pp. xx-yy.
DOI Link
2004
BibRef
Zhang, Q.A.[Qi-Ang],
Wu, Z.[Zixuan],
Yu, H.[Huiqian],
Zhu, X.[Xiudi],
Shen, Z.[Zexi],
Variable Urbanization Warming Effects across Metropolitans of China
and Relevant Driving Factors,
RS(12), No. 9, 2020, pp. xx-yy.
DOI Link
2005
BibRef
Fan, C.[Chao],
Wang, Z.[Zhe],
Spatiotemporal Characterization of Land Cover Impacts on Urban
Warming: A Spatial Autocorrelation Approach,
RS(12), No. 10, 2020, pp. xx-yy.
DOI Link
2006
BibRef
Chao, Z.H.[Zhen-Hua],
van Dijk, A.I.J.M.[Albert I. J. M.],
Wang, L.X.[Liang-Xu],
Che, M.L.[Ming-Liang],
Hou, S.F.[Sheng-Fang],
Effects of Different Urbanization Levels on Land Surface Temperature
Change: Taking Tokyo and Shanghai for Example,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link
2006
BibRef
Sobrino, J.A.[José Antonio],
Irakulis, I.[Itziar],
A Methodology for Comparing the Surface Urban Heat Island in Selected
Urban Agglomerations Around the World from Sentinel-3 SLSTR Data,
RS(12), No. 12, 2020, pp. xx-yy.
DOI Link
2006
BibRef
Sabrin, S.[Samain],
Karimi, M.[Maryam],
Nazari, R.[Rouzbeh],
Developing Vulnerability Index to Quantify Urban Heat Islands Effects
Coupled with Air Pollution: A Case Study of Camden, NJ,
IJGI(9), No. 6, 2020, pp. xx-yy.
DOI Link
2006
BibRef
Wang, R.[Rui],
Gao, W.J.[Wei-Jun],
Peng, W.C.[Wang-Chongyu],
Downscale MODIS Land Surface Temperature Based on Three Different
Models to Analyze Surface Urban Heat Island: A Case Study of Hangzhou,
RS(12), No. 13, 2020, pp. xx-yy.
DOI Link
2007
BibRef
Alonso, L.[Lucille],
Renard, F.[Florent],
A New Approach for Understanding Urban Microclimate by Integrating
Complementary Predictors at Different Scales in Regression and
Machine Learning Models,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link
2008
BibRef
Firozjaei, M.K.[Mohammad Karimi],
Fathololoumi, S.[Solmaz],
Mijani, N.[Naeim],
Kiavarz, M.[Majid],
Qureshi, S.[Salman],
Homaee, M.[Mehdi],
Alavipanah, S.K.[Seyed Kazem],
Evaluating the Spectral Indices Efficiency to Quantify Daytime
Surface Anthropogenic Heat Island Intensity: An Intercontinental
Methodology,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link
2009
BibRef
Lu, L.L.[Lin-Lin],
Weng, Q.[Qihao],
Xiao, D.[Da],
Guo, H.[Huadong],
Li, Q.[Qingting],
Hui, W.H.[Wen-Hua],
Spatiotemporal Variation of Surface Urban Heat Islands in Relation to
Land Cover Composition and Configuration: A Multi-Scale Case Study of
Xi'an, China,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link
2009
BibRef
Chakraborty, T.,
Hsu, A.,
Manya, D.,
Sheriff, G.,
A spatially explicit surface urban heat island database for the
United States: Characterization, uncertainties, and possible
applications,
PandRS(168), 2020, pp. 74-88.
Elsevier DOI
2009
Surface Urban Heat Island Intensity, SUHI, LST,
Google earth engine, MODIS, NDVI, Environmental disparities
BibRef
Ma, Y.[Yan],
Ma, C.[Caihong],
Liu, P.[Peng],
Yang, J.[Jin],
Wang, Y.[Yuzhu],
Zhu, Y.[Yueqin],
Du, X.P.[Xiao-Ping],
Spatial-Temporal Distribution Analysis of Industrial Heat Sources in
the US with Geocoded, Tree-Based, Large-Scale Clustering,
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link
2009
BibRef
Terfa, B.K.[Berhanu Keno],
Chen, N.C.[Neng-Cheng],
Zhang, X.[Xiang],
Niyogi, D.[Dev],
Spatial Configuration and Extent Explains the Urban Heat Mitigation
Potential due to Green Spaces: Analysis over Addis Ababa, Ethiopia,
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link
2009
BibRef
Ge, X.[Xu],
Mauree, D.[Dasaraden],
Castello, R.[Roberto],
Scartezzini, J.L.[Jean-Louis],
Spatio-Temporal Relationship between Land Cover and Land Surface
Temperature in Urban Areas: A Case Study in Geneva and Paris,
IJGI(9), No. 10, 2020, pp. xx-yy.
DOI Link
2010
BibRef
Li, Y.Y.[Ying-Ying],
Liu, Y.[Yu],
Ranagalage, M.[Manjula],
Zhang, H.[Hao],
Zhou, R.[Rui],
Examining Land Use/Land Cover Change and the Summertime Surface Urban
Heat Island Effect in Fast-Growing Greater Hefei, China: Implications
for Sustainable Land Development,
IJGI(9), No. 10, 2020, pp. xx-yy.
DOI Link
2010
BibRef
Montaner-Fernández, D.[Daniel],
Morales-Salinas, L.[Luis],
Rodriguez, J.S.[José Sobrino],
Cárdenas-Jirón, L.[Luz],
Huete, A.[Alfredo],
Fuentes-Jaque, G.[Guillermo],
Pérez-Martínez, W.[Waldo],
Cabezas, J.[Julián],
Spatio-Temporal Variation of the Urban Heat Island in Santiago, Chile
during Summers 2005-2017,
RS(12), No. 20, 2020, pp. xx-yy.
DOI Link
2010
BibRef
Chen, M.X.[Ming-Xing],
Zhou, Y.[Yuan],
Hu, M.G.[Mao-Gui],
Zhou, Y.[Yaliu],
Influence of Urban Scale and Urban Expansion on the Urban Heat Island
Effect in Metropolitan Areas: Case Study of Beijing-Tianjin-Hebei
Urban Agglomeration,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link
2011
BibRef
Nakhapakorn, K.[Kanchana],
Sancharoen, W.[Warisara],
Mutchimwong, A.[Auemphorn],
Jirakajohnkool, S.[Supet],
Onchang, R.[Rattapon],
Rotejanaprasert, C.[Chawarat],
Tantrakarnapa, K.[Kraichat],
Paul, R.[Richard],
Assessment of Urban Land Surface Temperature and Vertical City
Associated with Dengue Incidences,
RS(12), No. 22, 2020, pp. xx-yy.
DOI Link
2011
BibRef
HosseiniHaghighi, S.[SeyedehRabeeh],
Izadi, F.[Fatemeh],
Padsala, R.[Rushikesh],
Eicker, U.[Ursula],
Using Climate-Sensitive 3D City Modeling to Analyze Outdoor Thermal
Comfort in Urban Areas,
IJGI(9), No. 11, 2020, pp. xx-yy.
DOI Link
2012
BibRef
Zheng, X.,
Gao, M.,
Li, Z.L.,
Chen, K.S.,
Zhang, X.,
Shang, G.,
Impact of 3-D Structures and Their Radiation on Thermal Infrared
Measurements in Urban Areas,
GeoRS(58), No. 12, December 2020, pp. 8412-8426.
IEEE DOI
2012
Roads, Urban areas, Land surface temperature, Solid modeling,
Analytical models, Numerical models, Buildings, 3-D,
urban areas
BibRef
Kenawy, A.M.E.[Ahmed M. El],
Hereher, M.[Mohamed],
Robaa, S.M.[Sayed M.],
McCabe, M.F.[Matthew F.],
Lopez-Moreno, J.I.[Juan I.],
Domínguez-Castro, F.[Fernando],
Gaber, I.M.[Islam M.],
Al-Awadhi, T.[Talal],
Al-Buloshi, A.[Ali],
Nasiri, N.A.[Noura Al],
Al-Hatrushi, S.[Salim],
Schuwerack, P.M.[Petra-Manuela],
Peña-Angulo, D.[Dhais],
Abdelaal, M.M.[Mohamed M.],
Vicente-Serrano, S.M.[Sergio M.],
Nocturnal Surface Urban Heat Island over Greater Cairo: Spatial
Morphology, Temporal Trends and Links to Land-Atmosphere Influences,
RS(12), No. 23, 2020, pp. xx-yy.
DOI Link
2012
BibRef
Shen, Z.[Zhicheng],
Xu, X.[Xinliang],
Influence of the Economic Efficiency of Built-Up Land (EEBL) on Urban
Heat Islands (UHIs) in the Yangtze River Delta Urban Agglomeration
(YRDUA),
RS(12), No. 23, 2020, pp. xx-yy.
DOI Link
2012
BibRef
Yao, N.[Na],
Huang, C.H.[Cong-Hong],
Yang, J.[Jun],
van den Bosch, C.C.K.[Cecil C. Konijnendijk],
Ma, L.[Lvyi],
Jia, Z.K.[Zhong-Kui],
Combined Effects of Impervious Surface Change and Large-Scale
Afforestation on the Surface Urban Heat Island Intensity of Beijing,
China Based on Remote Sensing Analysis,
RS(12), No. 23, 2020, pp. xx-yy.
DOI Link
2012
BibRef
Sarif, M.O.[M. Omar],
Rimal, B.[Bhagawat],
Stork, N.E.[Nigel E.],
Assessment of Changes in Land Use/Land Cover and Land Surface
Temperatures and Their Impact on Surface Urban Heat Island Phenomena
in the Kathmandu Valley (1988-2018),
IJGI(9), No. 12, 2020, pp. xx-yy.
DOI Link
2012
BibRef
Hrisko, J.[Joshua],
Ramamurthy, P.[Prathap],
Melecio-Vázquez, D.[David],
Gonzalez, J.E.[Jorge E.],
Spatiotemporal Variability of Heat Storage in Major U.S. Cities:
A Satellite-Based Analysis,
RS(13), No. 1, 2021, pp. xx-yy.
DOI Link
2101
BibRef
Yu, Z.W.[Zhao-Wu],
Jing, Y.C.[Yong-Cai],
Yang, G.Y.[Gao-Yuan],
Sun, R.H.[Ran-Hao],
A New Urban Functional Zone-Based Climate Zoning System for Urban
Temperature Study,
RS(13), No. 2, 2021, pp. xx-yy.
DOI Link
2101
BibRef
Guerri, G.[Giulia],
Crisci, A.[Alfonso],
Messeri, A.[Alessandro],
Congedo, L.[Luca],
Munafò, M.[Michele],
Morabito, M.[Marco],
Thermal Summer Diurnal Hot-Spot Analysis:
The Role of Local Urban Features Layers,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link
2102
BibRef
Palafox-Juárez, E.B.[Erika Betzabeth],
López-Martínez, J.O.[Jorge Omar],
Hernández-Stefanoni, J.L.[José Luis],
Hernández-Nuñez, H.[Héctor],
Impact of Urban Land-Cover Changes on the Spatial-Temporal Land
Surface Temperature in a Tropical City of Mexico,
IJGI(10), No. 2, 2021, pp. xx-yy.
DOI Link
2103
BibRef
Tsurumi, R.[Ryuta],
Asawa, T.[Takashi],
Oshio, H.[Haruki],
Experimental Study on the Inverse Estimation of Horizontal Air
Temperature Distribution in Built Spaces Using a Ground-Based Thermal
Infrared Spectroradiometer,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link
2103
BibRef
Alavipanah, S.[Sadroddin],
Haase, D.[Dagmar],
Makki, M.[Mohsen],
Nizamani, M.M.[Mir Muhammad],
Qureshi, S.[Salman],
On the Spatial Patterns of Urban Thermal Conditions Using Indoor and
Outdoor Temperatures,
RS(13), No. 4, 2021, pp. xx-yy.
DOI Link
2103
BibRef
Yan, H.[Han],
Wang, K.[Kai],
Lin, T.[Tao],
Zhang, G.Q.[Guo-Qin],
Sun, C.[Caige],
Hu, X.Y.[Xin-Yue],
Ye, H.[Hong],
The Challenge of the Urban Compact Form: Three-Dimensional Index
Construction and Urban Land Surface Temperature Impacts,
RS(13), No. 6, 2021, pp. xx-yy.
DOI Link
2104
BibRef
Peng, T.[Ting],
Sun, C.[Caige],
Feng, S.S.[Shan-Shan],
Zhang, Y.D.[Yong-Dong],
Fan, F.L.[Feng-Lei],
Temporal and Spatial Variation of Anthropogenic Heat in the Central
Urban Area: A Case Study of Guangzhou, China,
IJGI(10), No. 3, 2021, pp. xx-yy.
DOI Link
2104
BibRef
Yu, Z.W.[Zhao-Wu],
Zhang, J.G.[Jin-Guang],
Yang, G.Y.[Gao-Yuan],
Schlaberg, J.[Juliana],
Reverse Thinking: A New Method from the Graph Perspective for
Evaluating and Mitigating Regional Surface Heat Islands,
RS(13), No. 6, 2021, pp. xx-yy.
DOI Link
2104
BibRef
Athukorala, D.[Darshana],
Murayama, Y.[Yuji],
Urban Heat Island Formation in Greater Cairo: Spatio-Temporal
Analysis of Daytime and Nighttime Land Surface Temperatures along the
Urban-Rural Gradient,
RS(13), No. 7, 2021, pp. xx-yy.
DOI Link
2104
BibRef
Burkard, E.,
Bulatov, D.,
Kottler, B.,
Towards Detection of Thermal Anomalies In Large Urban Areas Using
Simulation,
ISPRS20(B2:1195-1202).
DOI Link
2012
BibRef
Liu, Y.,
Qi, J.,
Wang, G.,
Wang, J.,
Comprehensive Analysis of Urban Thermal Environment:
A Case Study Of Qingdao, China,
ISPRS20(B3:119-123).
DOI Link
2012
BibRef
Bozorgi, M.,
Nejadkoorki, F.,
Spatiotemporal Monitoring of Thermal Environment in Isfahan
Metropolitan Area,
SMPR19(227-234).
DOI Link
1912
BibRef
Alcantara, C.A.,
Escoto, J.D.,
Blanco, A.C.,
Baloloy, A.B.,
Santos, J.A.,
Santa Ana, R.R.,
Geospatial Assessment and Modeling of Urban Heat Islands in Quezon
City, Philippines Using Ols and Geographically Weighted Regression,
GGT19(85-92).
DOI Link
1912
BibRef
Bala, R.,
Prasad, R.,
Yadav, V.P.,
Sharma, J.,
Spatial Variation of Urban Heat Island Intensity in Urban Cities Using
Modis Satellite Data,
GGT19(147-151).
DOI Link
1912
BibRef
Taheri Otaghsara, M.P.,
Arefi, H.,
Modelling Urban Heat Island Using Remote Sensing and City Morphological
Parameters,
SMPR19(1035-1040).
DOI Link
1912
BibRef
Zafrir, R.,
Ojeda, S.,
Singh, H.,
Hahn, M.,
Seasons in Stuttgart: Developing a Google Earth Engine Tool for Heat
Island Mapping,
SMPR19(1123-1130).
DOI Link
1912
BibRef
Lan, Y.,
Huang, Z.,
Guo, R.,
Zhan, Q.,
The Roles of Urban Buildings and Vegetation in Adjusting Seasonal And
Daily Air Temperature,
SmartGeoApps19(1307-1312).
DOI Link
1912
BibRef
Ujang, U.,
Azri, S.,
Zahir, M.,
Abdul-Rahman, A.,
Choon, T.L.,
Urban Heat Island Micro-mapping Via 3D City Model,
GeoInfo18(201-207).
DOI Link
1901
BibRef
Mongeau, R.,
Baudouin, Y.,
Cavayas, F.,
Acquisition And Processing of High Resolution Hyperspectral Imageries
For the 3D Mapping of Urban Heat Islands And Microparticles of Montreal,
GeoInfo17(27-30).
DOI Link
1805
BibRef
Isa, N.A.,
Wan Mohd, W.M.N.,
Salleh, S.A.,
The Effects of Built-up And Green Areas On the Land Surface Temperature
Of the Kuala Lumpur City,
GeoDisast17(107-112).
DOI Link
1805
BibRef
Petrescu, F.,
Aldea, M.,
Luca, O.,
Iacoboaea, C.,
Gaman, F.,
Parlow, E.,
3D Geo-Information in Urban Climate Studies,
GeoInfo16(51-55).
DOI Link
1612
BibRef
Novotny, J.,
Pivovarnik, M.,
Khalsa, S.J.,
Zemek, F.,
Visualisation Of Dependencies Between City Structure And Thermal
Behaviour In Brno,
ISPRS16(B2: 741-745).
DOI Link
1610
BibRef
Sekertekin, A.,
Kutoglu, S.H.,
Kaya, S.,
Marangoz, A.M.,
Monitoring The Surface Heat Island (shi) Effects Of Industrial
Enterprises,
ISPRS16(B6: 289-293).
DOI Link
1610
BibRef
Aslan, N.,
Koc-San, D.,
Analysis Of Relationship Between Urban Heat Island Effect And Land
Use/cover Type Using Landsat 7 Etm+ And Landsat 8 Oli Images,
ISPRS16(B8: 821-828).
DOI Link
1610
BibRef
Peng, F.,
Wong, M.S.,
Nichol, J.E.,
Chan, P.W.,
Historical GIS Data and Changes in Urban Morphological Parameters For
The Analysis Of Urban Heat Islands In Hong Kong,
ISPRS16(B2: 55-62).
DOI Link
1610
BibRef
Chang, H.T.[Hsiao-Tung],
A Temporal And Spatial Analysis Of Urban Heat Island In Basin City
Utilizing Remote Sensing Techniques,
ISPRS16(B2: 165-170).
DOI Link
1610
BibRef
Baldinelli, G.[Giorgio],
Bonafoni, S.[Stefania],
Analysis of Albedo Influence on Surface Urban Heat Island by Spaceborne
Detection and Airborne Thermography,
CMTR15(95-102).
Springer DOI
1511
BibRef
Sherafati, S.A.,
Saradjian, M.R.,
Niazmardi, S.,
Urban Heat Island Growth Modeling Using Artificial Neural Networks and
Support Vector Regression: A case study of Tehran, Iran,
SMPR13(399-403).
HTML Version.
1311
BibRef
Xue, Y.,
Fung, T.,
Tsou, J.,
An Investigation of Local Effects on Surface Warming with
Geographically Weighted Regression (GWR),
ISPRS12(XXXIX-B8:131-136).
DOI Link
1209
BibRef
Danahy, J.[John],
Feick, R.[Rob],
Wrigh, R.[Robert],
Harrap, R.[Robin],
Mitchell, J.[Jacob],
King, L.[Lisa],
Penny, J.[Jennifer],
Geovisualisation methods for exploring urban heat island effects,
CGC10(335).
PDF File.
1006
BibRef
Chapter on Remote Sensing, Cartography, Aerial Images, Buildings, Roads, Terrain, ATR continues in
Atmospheric, Aerosols, Aerosol Optical Depth, Measurements, Air Quality, Remote Sensing .