1 |
Qiao K, Zhu W Q, Hu D Y, et al. Examining the Distribution and Dynamics of Impervious Surface in Different Function Zones in Beijing[J]. Journal of Geographical Sciences, 2018, 28(5): 669-684.
|
2 |
Zheng Z F,Ren G Y,Wang H,et al. Relationship between Fine-Particle Pollution and The Urban Heat Island in Beijing, China: Observational Evidence[J]. Boundary-Layer Meteorology, 2018, 169(1): 93-113.
|
3 |
Hao P Y,Niu Z,Zhan Y L,et al. Spatiotemporal Changes of Urban Impervious Surface Area and Land Surface Temperature in Beijing from 1990 to 2014[J]. GIScience & Remote Sensing, 2015, 53(1): 63-84.
|
4 |
Qiao Zhi, Sun Zongyao, Sun Xihua, et al. Prediction and Analysis of Urban Thermal Environment Risk and Its Spatio-Temporal Pattern[J].Acta Ecologica Sinica, 2019, 39(2): 649-659.
|
4 |
乔治, 孙宗耀, 孙希华, 等.城市热环境风险预测及时空格局分析[J]. 生态学报, 2019, 39(2):649-659.
|
5 |
Zhao Hengqian, Jia Liang, Yin Zhengran, et al. Dynamic Monitoring of Land Use and Ecological Environment based on Multiple Remote Sensing Data: A Case Study of Tongzhou District, Beijing[J]. Geography and Geo-information Science, 2019, 35(1): 38-44.
|
5 |
赵恒谦, 贾梁, 尹政然, 等. 基于多源遥感数据的北京市通州区土地利用/覆盖与生态环境变化监测研究[J]. 地理与地理信息科学, 2019, 35(1):38-44.
|
6 |
Yang Hao, Meng Na,Wang Jing, et al. Spatial-Temporal Morphology Simulation of Beijing-Tianjin-Hebei Urban Agglomeration Thermal Environment based on Support Vector Machine[J]. Journal of Geo-information Science, 2019, 21(2):190-200.
|
6 |
杨浩, 孟娜, 王婧, 等. 基于支持向量机的京津冀城市群热环境时空形态模拟[J]. 地球信息科学学报, 2019, 21(2): 190-200.
|
7 |
Kuang W H,Dou Y Y,Zhang C,et al. Quantifying the Heat Flux Regulation of Metropolitan Land Use/Land Cover Components by Coupling Remote Sensing Modeling with In Situ Measurement[J]. Journal of Geophysical Research-Atmospheres, 2015, 120(1): 113-130.
|
8 |
Zhao G S, Dong J W, Cui Y P, et al. Evapotranspiration-dominated Biogeophysical Warming Effect of Urbanization in the Beijing-Tianjin-Hebei Region, China[J]. Climate Dynamics, 2019, 52(1-2): 1231-1245.
|
9 |
Kuang W H,Yang T R,Liu A L,et al. An EcoCity Model for Regulating Urban Land Cover Structure and Thermal Environment:Taking Beijing as an Example[J]. Science China: Earth Sciences, 2017,47(7): 847-859.
|
9 |
匡文慧,杨天荣,刘爱琳,等. 城市地表覆盖结构组分与热环境调控模型(EcoCity)研究—以北京城市为例[J]. 中国科学: 地球科学, 2017, 47(7): 847-859.
|
10 |
Shahid N,Cao C X, Khunsa F,et al. Landscape Greening Policies-based Land Use/ Land Cover Simulation for Beijing and Islamabad—An Implication of Sustainable Urban Ecosystems[J]. Sustainability, 2018,10(4): 1049. doi:.
doi: 10.3390/SU1004 1049
|
11 |
Cui Y P,Liu J Y,Hu Y F,et al. Modeling the Radiation Balance of Different Urban Underlying Surfaces[J]. Chinese Science Bulletin, 2012, 57(9): 1046-1054.
|
12 |
Chen S H,Su H B,Zhan J Y. Estimating the Impact of Land Use Change on Surface Energy Partition based on the Noah Model[J]. Frontiers of Earth Science, 2014, 8(1): 18-31.
|
13 |
Bastiaanssen W G M,Menenti M,Feddes R A,et al. The Surface Energy Balance Algorithm for Land (SEBAL): Part 1 Formulation[J]. Journal of Hydrology, 1998, 212(98): 801-811.
|
14 |
Su Z. The Surface Energy Balance System (SEBS) for Estimation of Turbulent Heat Fluxes[J]. Hydrology & Earth System Sciences, 2002, 6(1): 85-99.
|
15 |
Di S C, Li Z L, Tang R L, et al. Urban Green Space Classi-fication and Water Consumption Analysis with Remote-sen-sing Technology: A Case Study in Beijing, China[J]. International Journal of Remote Sensing, 2018, 40(5-6): 1909-1929.
|
16 |
Moran M S,Clarke T R,Inoue Y,et al. Estimating Crop Water Deficit Using the Relation between Surface-air Temperature and Spectral Vegetation Index[J]. Remote Sensing of Environment, 1994, 49(3): 246-263.
|
17 |
Zhang Renhua, Sun Xiaomin, Wang Weimin, et al.An Operational Two-layer Remote Sensing Model to Estimate Ssurface Flux in Regional Scale:Physical Background[J]. Science China: Earth Sciences, 2004, 34(S2): 200-216.
|
17 |
张仁华,孙晓敏,王伟民,等. 一种可操作的区域尺度地表通量定量遥感二层模型的物理基础[J].中国科学:地球科学,2004,34(): 200-216.
|
18 |
Tang Ronglin. Retrieval of Land Surface Evapotranspiration from Remotely Sensed Surface Temperature-Fractional Vegetation Cover Characteristic Space[D]. Beijing: University of Chinese Academy of Sciences, 2011.
|
18 |
唐荣林. 基于地表温度-植被覆盖度特征空间的地表蒸散发遥感反演方法研究[D]. 北京: 中国科学院大学, 2011.
|
19 |
Kuang W H. Simulating Dynamic Urban Expansion at Regional Scale in Beijing-Tianjin-Tangshan Metropolitan Area[J]. Journal of Geographical Sciences, 2011, 21(2): 317-330.
|
20 |
Kuang W H, Liu J Y, Zhang Z X, et al. Spatiotemporal Dynamics of Impervious Surface Areas Across China during the Early 21st Century[J]. Science Bulletin, 2013, 58(14): 1691-1701.
|
21 |
Kuang W H. Spatio-temporal Patterns of Intra-urban Land Use Change in Beijing, China between 1984 and 2008[J]. Chinese Geographical Science, 2012, 22(2): 210-220.
|
22 |
Ke X L, Zhan J Y, Ma E J, et al. Regional Climate Impacts of Future Urbanization in China[M]. Berlin: Springer, 2014.
|
23 |
Alan G, Shuichi R, Tsuneo M,et al. A Temperature and Emissivity Separation Algorithm for Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) Images[J]. IEEE Transactions on Geoscience & Remote Sensing, 2002, 36(4): 1113-1126.
|
24 |
Qin Z H,Li W J,Xu B,et al. The Estimation of Land Surface Emissivity for Landsat TM6[J]. Remote Sensing for Land & Resources, 2004,16(3):28-32.
|
24 |
覃志豪,李文娟,徐斌,等. 陆地卫星TM6波段范围内地表比辐射率的估计[J]. 国土资源遥感, 2004, 16(3): 28-32.
|
25 |
Liang S L. Narrowband to Broadband Conversions of Land Surface Albedo I : Algorithms[J]. Remote Sensing of Environment, 2001, 76(2): 213-238.
|
26 |
Bernardo B Da Silva,Braga Alexandra C,Braga Célia C,et al. Procedures for Calculation of the Albedo with OLI-Landsat 8 Images: Application to the Brazilian Semi-arid[J]. Revista Brasileira de Engenharia Agrícola e Ambiental - Agriambi, 2016, 20(1): 3-8.
|