城市地表典型遥感参数与热岛效应时空分析研究——以桂林市为例

利用桂林市1991年和2013年的卫星遥感影像数据,分别提取两个时期的归一化建筑指数(NDBI)、归一化植被指数(NDVI)和改进的归一化差异水体指数(MNDWI)3个地表典型参数,并利用回归分析方法,分析了3个地表典型参数与利用Landsat卫星(热红外波段)反演的地表温度(LST)的相关关系。研究结果表明:桂林市中、高、极高温区3个温度类别的变化趋势与桂林市城市扩张趋势基本一致;NDBI与LST成显著的正相关关系,而NDVI、MNDWI则与LST成负相关关系,且各参数对地表温度响应的程度各有差异。该研究成果对于揭示桂林市热岛效应现状、缓解热岛效应及推进桂林市生态城市建设具有一定的参考意义。     

基于Landsat数据地表特征参数与地表温度关系

以成都市为研究区,定量分析了各地表特征参数与地表温度之间的线性关系。通过对地表温度与归一化植被指数(NDVI)、归一化建筑指数(NDBI)、归一化水汽指数(NDMI)进行局部区域逐像元分析和总体区域统计分析,结果表明NDVI,NDMI,NDBI与地表温度间都存在明显的线性关系,可用于说明地表温度的动态变化,在3月份,NDMI与地温的相关性更优于NDVI。对传统城市热现象研究中,NDMI与NDBI能够用来以NDVI作为分析地表温度随季节而变化的互补的度量标准。     

南京市地表参数变化与热岛效应时空分析

利用南京市1989年TM和2001年、2010年ETM+卫星遥感数据,提取了3个时期的归一化植被指数(normalized difference vegetation index,NDVI)、改进的归一化水体指数(modified normalized difference water index,MNDWI)、归一化建筑指数(normalized difference build-up index,NDBI)和归一化不透水面指数(normalized difference impervious surface index,NDISI)等地表参数;利用热红外波段遥感数据反演地表温度,并从时间维对比分析了3个时期各个参数的变化和产生的原因;利用回归分析方法探讨了上述地表参数变化与城市地表温度之间的关系,即地表温度与NDISI和NDBI呈正相关,与NDVI呈负相关。进一步分析表明,南京市最近20 a来不透水面和建筑面积大幅增大,植被覆盖范围减少,城市热岛效应加剧,不透水面、建筑指数与地表温度的变化趋势和城市扩张趋势一致。该研究成果对于揭示南京市热岛效应、优化土地配置和推进生态城市建设具有一定的参考意义。     

卫星遥感地表温度降尺度的光谱归一化指数法

针对卫星遥感技术监测地表温度(land surface temperature,LST)存在时空分辨率矛盾这一难题,以TsHARP温度降尺度算法为基础,根据地表覆盖类型的不同,分别选择与LST相关性更好的光谱指数(归一化植被指数,NDVI;归一化建造指数,NDBI;改进的归一化水体指数,MNDWI;增强型裸土指数,EBSI)提出了新的转换模型,并从定性和定量两个角度评价了TsHARP法和新模型的降尺度精度。结果表明:两种模型在提高LST空间分辨率的同时又能较好地保持MODIS LST影像热特征的空间分布格局,消除了原始1km影像中的马赛克效应,两种模型均能够达到较好的降尺度效果;全局尺度分析表明,不管是在降尺度结果的空间变异性还是精度方面,本文提出的模型(RMSE:1.635℃)均要优于TsHARP法(RMSE:2.736℃);TsHARP法在水体、裸地和建筑用地这些低植被覆盖区表现出较差的降尺度结果,尤其对于裸地和建筑用地更为明显(|MBE|3℃),新模型提高了低植被覆盖区地物的降尺度精度;不同季节的降尺度结果表明,两种模型都是夏、秋季的降尺度结果优于春、冬季,新模型的降尺度结果四季均好于TsHARP法,其中春、冬季的降尺度精度提升效果要优于夏、秋季。     

基于随机森林算法的地表温度降尺度研究

地表温度(land surface temperature,LST)是地面能量平衡等模型中的重要参数之一。高时间分辨率的遥感LST可通过降尺度处理实现空间分辨率的提高,这对详细的LST时空分布监测具有重要意义。以北京市为研究区,选择Landsat8 OLI/TIRS数据,通过改进的单窗(improved mono-window,IMW)算法反演LST作为验证数据,在计算归一化差值植被指数(normalized difference vegetation index,NDVI)和归一化差值建筑指数(normalized difference built-up index,NDBI)等多种遥感指数并模拟至1 000 m空间分辨率的基础上,联合空间分辨率为1 000 m的MODIS/LST产品,利用随机森林(random forest,RF)模型实现LST(100 m空间分辨率)降尺度,并与多因子回归方法和基于植被指数的LST锐化算法(TsHARP)2种常用降尺度方法进行对比。实验结果表明:以模拟Landsat/LST作为降尺度数据源,RF方法降尺度LST的均方根误差(root-mean-square,RMSE)为2.01 K,与多因子回归方法和TsHARP算法相比,精度分别提高了0.16 K和0.44 K;针对MODIS/LST降尺度时,RF方法的RMSE为2.29 K,与多因子回归方法和TsHARP算法相比,精度分别提高了0.42 K和0.50 K;针对不同地表类型,RF算法降尺度效果不同,其中高植被覆盖区表现最优,RMSE为1.81 K;城镇表面因其空间异质性,RMSE则达到了2.75 K。     

不同土地利用类型的城市热环境效应研究——以广州市为例

利用2005年Landsat TM遥感卫星数据,对广州市不同土地利用类型与城市热环境之间的关系进行研究,发现不同土地利用类型对地表温度(LST)的影响具有明显的差异。草地、林地及耕地的LST与归一化植被覆盖指数(NDVI)呈现明显的负相关,水域的LST与归一化水体指数(MNDWI)之间呈现明显负相关,而城镇建设用地指数(NDBI)、未利用土地指数(NDBaI)则与LST呈现明显正相关。最后建立了LST与各土地利用类型表征指数及DEM之间的多元线性回归方程,可用来指示一个地区不同地表覆盖及地形差异导致的地表温度分布,为城市热环境的评价和分析提供依据。     

基于空间自回归模型的广州市NDVI和NDBI与气温关系研究

为了探索城镇化地区热岛的时空变化特征,采用2015年覆盖广州市的1 km空间分辨率MOD13A3月合成归一化植被指数(normalized difference vegetation index,NDVI)数据、用Landsat8 OLI提取的归一化建筑指数(normalized difference build-up index,NDBI)数据以及不同季节的气象站点近地表气温数据,运用相关性分析方法,研究近地表气温与NDVI和NDBI的相互关系;在此基础上,应用空间自回归方法构建不同季节的近地表气温与NDVI和NDBI的空间自回归模型,定量分析广州地区近地表气温与NDVI和NDBI的空间关系,并与普通回归模型进行比较分析。结果表明,不同季节的NDVI与近地表气温呈负相关,NDBI与近地表气温呈正相关;与普通线性回归模型相比,空间滞后模型与空间误差模型的拟合效果最优;通过比较分析相关系数(R~2)值、赤池信息量准则(Akaike information criterion,AIC)值及回归模型残差的莫兰指数(Moran index,Moran’s I),发现空间滞后模型的拟合效果略优于空间误差模型;从春季到秋季,NDVI对近地表气温的影响大于NDBI对近地表气温的影响;在空间滞后模型中,显著的、正的空间自回归系数表明,气象站点的近地表气温受到相邻气象站点的近地表气温的显著正影响。     

多尺度城市地表温度降尺度方法

针对目前星载热红外传感器的空间分辨率低,无法满足城市尺度的生态环境研究需求的现状,该文选择地表覆盖类型复杂的区域,根据研究区土地覆盖类型,选取归一化植被指数(NDVI)、城市不透水面指数(ISA)、改进的归一化差异水体指数(MNDWI)等因子加入DisTrad模型,采用移动窗口逐步回归统计地表温度和因子的线性关系,利用半方差曲线函数和均方根误差综合确定最优移动窗口的大小,以提高地表温度降尺度精度。研究结果表明:改进的DisTrad模型在地表覆盖类型复杂区域,具有良好的降尺度目视效果,且具有较高的降尺度精度,尤其在低植被覆盖的建筑区、水体区域具有更高的精度。     

基于Landsat8卫星数据的城市相关指数变化分析

基于Landsat8 OLI遥感影像数据,提取了与城市环境密切相关的NDVI、NDBI、NDWI和LST,分析了不同地物类型遥感指数的分布特征和不同时间序列的变化特征;进一步探讨了NDVI、NDBI与LST的相关性,可为研究城市热岛效应提供依据。结果表明,山地的NDVI最大,建筑用地密集区域的NDBI、LST最大,水体的NDWI最大,且建筑用地的NDVI、NDBI随时间变化较稳定。     

兰西城市群热环境格局多尺度研究

从不同空间尺度研究城市热环境的变化格局,可为城市人居环境建设提供科学参考。采用MODIS和Landsat TM/OLI/TIRS遥感影像反演地表温度(land surface temperature,LST),分别从宏观和微观尺度探索了兰西城市群热场的空间格局特征,分析了城市热岛效应在昼夜、季节和年份等不同时间尺度上的分布格局及变化特征。研究结果表明,大尺度下兰西城市群未存在明显的城市热岛效应,但中心城区内热岛效应的空间格局发生了较大变化,热场的空间格局及演变与城市空间扩展布局相一致;兰州中心城区热岛比例指数呈现先增加后减小的变化趋势,西宁—海东中心城区热岛比例指数则呈现持续增长的态势;河谷地段的LST低于周围黄土丘陵,主要受植被覆盖、太阳辐射时间和接收量的影响;LST与归一化差值植被指数(normalized difference vegetation index,NDVI)呈负相关关系,与归一化差值建筑用地指数(normalized difference building index,NDBI)呈正相关关系。     

Bi-temporal characterization of land surface temperature in relation to impervious surface area,NDVI and NDBI,using a sub-pixel image analysis

As more than 50% of the human population are situated in cities of the world, urbanization has become an important contributor to global warming due to remarkable urban heat island (UHI) effect. UHI effect has been linked to the regional climate, environment, and socio-economic development. In this study, Landsat Thematic Mapper (TM) and Enhanced Thematic Mapper Plus (ETM+) imagery, respectively acquired in 1989 and 2001, were utilized to assess urban area thermal characteristics in Fuzhou, the capital city of Fujian province in south-eastern China. As a key indicator for the assessment of urban environments, sub-pixel impervious surface area (ISA) was mapped to quantitatively determine urban land-use extents and urban surface thermal patterns. In order to accurately estimate urban surface types, high-resolution imagery was utilized to generate the proportion of impervious surface areas. Urban thermal characteristics was further analysed by investigating the relationships between the land surface temperature (LST), percent impervious surface area, and two indices, the Normalized Difference Vegetation Index (NDVI) and Normalized Difference Built-up Index (NDBI). The results show that correlations between NDVI and LST are rather weak, but there is a strong positive correlation between percent ISA, NDBI and LST. This suggests that percent ISA, combined with LST, and NDBI, can quantitatively describe the spatial distribution and temporal variation of urban thermal patterns and associated land-use/land-cover (LULC) conditions.     

Downscaling Landsat-8 land surface temperature maps in diverse urban landscapes using multivariate adaptive regression splines and very high resolution auxiliary data

ABSTRACT

We propose a method for spatial downscaling of Landsat 8-derived LST maps from 100(30?m) resolution down to 2–4?m with the use of the Multiple Adaptive Regression Splines (MARS) models coupled with very high resolution auxiliary data derived from hyperspectral aerial imagery and large-scale topographic maps. We applied the method to four Landsat 8 scenes, two collected in summer and two in winter, for three British towns collectively representing a variety of urban form. We used several spectral indices as well as fractional coverage of water and paved surfaces as LST predictors, and applied a novel method for the correction of temporal mismatch between spectral indices derived from aerial and satellite imagery captured at different dates, allowing for the application of the downscaling method for multiple dates without the need for repeating the aerial survey. Our results suggest that the method performed well for the summer dates, achieving RMSE of 1.40–1.83?K prior to and 0.76–1.21?K after correction for residuals. We conclude that the MARS models, by addressing the non-linear relationship of LST at coarse and fine spatial resolutions, can be successfully applied to produce high resolution LST maps suitable for studies of urban thermal environment at local scales.     

Spatial analysis of high-resolution urban thermal patterns in Vojvodina,Serbia

Main objective of this study was to establish a relationship between land cover and land surface temperature (LST) in urban and rural areas. The research was conducted using Landsat, WorldView-2 (WV-2) and Digital Mapping Camera. Normalised difference vegetation index and normalised difference built-up index were used for establishing the relation between built-up area, vegetation cover and LST for spatial resolution of 30 m. Impervious surface and vegetation area generated from Digital Mapping Camera from Intergraph and WV-2 were used to establish the relation between built-up area, vegetation cover and LST for spatial resolutions of 0.1, 0.5 and 30 m. Linear regression models were used to determine the relationship between LST and indicators. Main contribution of this research is to establish the use of combining remote sensing sensors with different spectral and spatial resolution for two typical settlements in Vojvodina. Correlation coefficients between LST and LST indicators ranged from 0.602 to 0.768.     

Analysis of urban built-up areas and surface urban heat island using downscaled MODIS derived land surface temperature data

Regional scale urban built-up areas and surface urban heat islands (SUHI) are important for urban planning and policy formation. Owing to coarse spatial resolution (1000 m), it is difficult to use Moderate Resolution Imaging Spectroradiometer (MODIS) Land surface temperature (LST) products for mapping urban areas and visualization, and SUHI-related studies. To overcome this problem, the present study downscaled MODIS (1000 m resolution)-derived LST to 250 m resolution to map and visualize the urban areas and identify the basic components of SUHI over 12 districts of Punjab, India. The results are compared through visual interpretation and statistical procedure based on similarity analysis. The increased entropy value in the downscaled LST signifies higher information content. The temperature variation within the built-up and its environs is due to difference in land use and is depicted better in the downscaled LST. The SUHI intensity analysis of four cities (Ludhiana, Patiala, Moga and Vatinda) indicates that mean temperature in urban built-up core is higher (38.87 °C) as compared to suburban (35.85 °C) and rural (32.41 °C) areas. The downscaling techniques demonstrated in this paper enhance the usage of open-source wide swath MODIS LST for continuous monitoring of SUHI and urban area mapping, visualisation and analysis at regional scale. Such initiatives are useful for the scientific community and the decision-makers.     

遥感影像时—空融合的“点”—“线”—“面”质量评价

遥感影像时—空融合可集成多源数据高空间分辨率和高时间分辨率互补优势,生成时间连续的高空间分辨率影像,在遥感影像的动态监测与时序分析等方面具有重要应用价值.然而,现有多数研究往往基于单一数据产品对时—空融合算法进行评价,而在实际生产应用中,需要验证算法在多种遥感产品数据的融合表现;此外,目前研究大多基于“单点时刻”进行评...     

Downscaling of Land Surface Temperature Maps in the Texas High Plains with the TsHARP Method

High-resolution evapotranspiration (ET) maps can assist demand-based irrigation management. Development of high-resolution daily ET maps requires high-resolution land surface temperature (LST) images. Earth-observing satellite sensors such as the Landsat 5 Thematic Mapper (TM) and MODerate resolution Imaging Spectroradiometer (MODIS) provide thermal images that are coarser than simultaneously acquired visible and near-infrared images. In this study, we evaluated the TsHARP downscaling technique for its capability to downscale coarser LST images using finer resolution normalized difference vegetation index (NDVI) data. The TsHARP technique was implemented to downscale seven coarser scale (240, 360, 480, 600, 720, 840, and 960 m) synthetic images to a 120 m LST image. The TsHARP was also evaluated for downscaling a coarser 960 m LST image to 240 m to mimic MODIS datasets. Comparison between observed 120 m LST images and 120 m LST images downscaled from coarser 240, 360, 480, 600, 720, 840, and 960 m images yielded root mean square errors of 1.0, 1.3, 1.5, 1.6, 1.7, 1.8, and 1.9°C, respectively. This indicates that the TsHARP method can be used for downscaling coarser (960 m) MODIS-based LST images using finer Landsat (120 m) or MODIS (240 m)-derived NDVI images. However, the TsSHARP method should be evaluated further with real datasets before using it for an operational ET remote sensing program for irrigation scheduling purposes.     

遥感地表温度降尺度方法比较————性能对比及适应性评价

在归纳现有遥感地表温度降尺度方法的基础上, 选取3种代表性方法:Normalized Difference Vegetation Index (NDVI)、Pixel Block Intensity Modulation (PBIM)和Linear Spectral Mixture Model (LSMM)方法进行实验比较, 并建立了一种纹理相似性度量指标CO-RMSE (Co-Occurrence Root Mean Square Error)。结果表明:(1)NDVI方法受季节影响最严重, 不适于春、冬季, 其次为PBIM方法;(2)LSMM方法受分辨率限制最大, 低分辨率时丢失大量纹理信息, NDVI方法在较高分辨率时优于PBIM方法, 较低分辨率时则相反;(3)3种方法的适用区域分别为植被与裸土像元并存区域, 山区和反照率变化较大区域, 以及类别间温差较大区域;(4)NDVI方法操作最简单, LSMM方法最复杂。分析认为, 尺度因子是决定方法性能的关键, 应根据季节、分辨率、地表覆盖、应用目的和操作性等综合选择。     

基于遥感的长沙市城市热岛与土地利用/覆盖变化研究

基于多时相Landsat TM/ETM+影像,首先计算长沙市地表亮度温度,然后利用NDVI(归一化植被指数)、MNDWI(改进 的归一化水体指数)、NDBI(归一化建筑指数)和NDBaI(归一化裸土指数)4个指数,采用决策树分类方法对长沙市影像进行 土地利用/覆盖分类。在此基础上,对长沙市城市热岛的空间分布特征、时空演变特征以及城市热岛与土地利用/覆盖变化和各种影 响因子之间的关系进行研究。结果表明,随着长沙市城区范围的不断扩张,城市热岛范围也不断增大; 土地利用/覆盖类型的变化 会改变地表温度的空间分布,城市用地和裸地是城市热岛强度的主要贡献因素,水体和林地具有较好的降温作用。地表温度与4种 归一化指数的回归分析表明,它们之间存在明显的相关性,不同土地利用/覆盖类型的地表温度存在较大差异。