A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat

A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat

Land surface temperatures (LST) in urban landscapes are typically more heterogeneous than can be monitored by the spatial resolution of satellite-based thermal infrared sensors. Thermal sharpening (TS) methods permit the disaggregation of LST based on finer-grained multispectral information, but the...

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Main Authors: WANG, James. W., CHOW, Winston T. L., WANG, Yi-Chen
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2020
Subjects:
Impervious surface
Normalized differences
Regression method
Spatial resolution
Statistical scheme
Thermal infrared sensors
Urban applications
Urban land surface temperature
Environmental Sciences
Political Science
Urban Studies and Planning
Online Access:https://ink.library.smu.edu.sg/soss_research/3048
https://ink.library.smu.edu.sg/context/soss_research/article/4305/viewcontent/urban1.pdf
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Institution: Singapore Management University
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spelling sg-smu-ink.soss_research-43052023-10-19T08:03:03Z A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat WANG, James. W. CHOW, Winston T. L. WANG, Yi-Chen Land surface temperatures (LST) in urban landscapes are typically more heterogeneous than can be monitored by the spatial resolution of satellite-based thermal infrared sensors. Thermal sharpening (TS) methods permit the disaggregation of LST based on finer-grained multispectral information, but there is continued debate over which spectral indices are most appropriate for urban TS, and how they should be configured in a predictive regression framework. In this study, we evaluate the stability of various TS kernels with respect to LST at different spatial (Landsat 8) and diurnal (MODIS) scales, and present a new TS method, global regression for urban thermal sharpening (SGRUTS), based on these findings. Of the spectral indices examined, the normalized difference built-up index (NDBI) and the normalized multi-band drought index (NMDI) were the most spatially stable for Landsat 8 and MODIS overall. Kernel performance varied diurnally, with the index-based impervious surface index (IBI) and broadband α selected for 1030 h, NDBI and NMDI selected for 1330 h, and IBI and NMDI selected for 2230 h and 130 h, respectively. Over a range of field-validated metrics, the SGRUTS scheme comprising a two-factor interaction between NDBI and NMDI was competitive with the best alternative TS models compared. This SGRUTS model is essentially a refinement of the Enhanced Physical Method for urban applications in terms of kernel selection and configuration, and has interpretative advantages over more complex statistical schemes. 2020-04-01T07:00:00Z text application/pdf https://ink.library.smu.edu.sg/soss_research/3048 info:doi/10.1080/01431161.2019.1697009 https://ink.library.smu.edu.sg/context/soss_research/article/4305/viewcontent/urban1.pdf http://creativecommons.org/licenses/by-nc-nd/4.0/ Research Collection School of Social Sciences eng Institutional Knowledge at Singapore Management University Impervious surface Normalized differences Regression method Spatial resolution Statistical scheme Thermal infrared sensors Urban applications Urban land surface temperature Environmental Sciences Political Science Urban Studies and Planning
institution Singapore Management University
building SMU Libraries
continent Asia
country Singapore
Singapore
content_provider SMU Libraries
collection InK@SMU
language English
topic Impervious surface
Normalized differences
Regression method
Spatial resolution
Statistical scheme
Thermal infrared sensors
Urban applications
Urban land surface temperature
Environmental Sciences
Political Science
Urban Studies and Planning
spellingShingle Impervious surface
Normalized differences
Regression method
Spatial resolution
Statistical scheme
Thermal infrared sensors
Urban applications
Urban land surface temperature
Environmental Sciences
Political Science
Urban Studies and Planning
WANG, James. W.
CHOW, Winston T. L.
WANG, Yi-Chen
A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
description Land surface temperatures (LST) in urban landscapes are typically more heterogeneous than can be monitored by the spatial resolution of satellite-based thermal infrared sensors. Thermal sharpening (TS) methods permit the disaggregation of LST based on finer-grained multispectral information, but there is continued debate over which spectral indices are most appropriate for urban TS, and how they should be configured in a predictive regression framework. In this study, we evaluate the stability of various TS kernels with respect to LST at different spatial (Landsat 8) and diurnal (MODIS) scales, and present a new TS method, global regression for urban thermal sharpening (SGRUTS), based on these findings. Of the spectral indices examined, the normalized difference built-up index (NDBI) and the normalized multi-band drought index (NMDI) were the most spatially stable for Landsat 8 and MODIS overall. Kernel performance varied diurnally, with the index-based impervious surface index (IBI) and broadband α selected for 1030 h, NDBI and NMDI selected for 1330 h, and IBI and NMDI selected for 2230 h and 130 h, respectively. Over a range of field-validated metrics, the SGRUTS scheme comprising a two-factor interaction between NDBI and NMDI was competitive with the best alternative TS models compared. This SGRUTS model is essentially a refinement of the Enhanced Physical Method for urban applications in terms of kernel selection and configuration, and has interpretative advantages over more complex statistical schemes.
format text
author WANG, James. W.
CHOW, Winston T. L.
WANG, Yi-Chen
author_facet WANG, James. W.
CHOW, Winston T. L.
WANG, Yi-Chen
author_sort WANG, James. W.
title A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
title_short A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
title_full A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
title_fullStr A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
title_full_unstemmed A global regression method for thermal sharpening of urban land surface temperatures from MODIS and Landsat
title_sort global regression method for thermal sharpening of urban land surface temperatures from modis and landsat
publisher Institutional Knowledge at Singapore Management University
publishDate 2020
url https://ink.library.smu.edu.sg/soss_research/3048
https://ink.library.smu.edu.sg/context/soss_research/article/4305/viewcontent/urban1.pdf
_version_ 1781793976776392704

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