| 期刊論文1. | Huete, A. R.、Didan, K.、Miura, T.、Rodriguez, E. P.、Gao, X.、Ferreira, L. G.(2002)。Overview of the radiometric and biophysical performance of the MODIS vegetation indices。Remote Sensing of Environment,83(1/2),195-213。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 2. | Qin, Z.、Karnieli, A.、Berliner, P.(2001)。A mono-window algorithm for retrieving land surface temperature from Landsat TM data and its application to the Israel-Egypt border region。International Journal of Remote Sensing,22(18),3719-3746。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 3. | Gill, S. E.、Handley, J. F.、Ennos, A. R.、Pauleit, S.(2007)。Adapting Cities for Climate Change: The Role of the Green Infrastructure。Built Environment,33(1),115-133。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 4. | Jiménez-Muñoz, J. C.、Sobrino, J. A.、Skoković, D.、Mattar, C.、Cristóbal, J.(2014)。Land surface temperature retrieval methods from Landsat-8 thermal infrared sensor data。IEEE Geoscience and Remote Sensing Letters,11(10),1840-1843。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 5. | Chander, G.、Markham, B.(2003)。Revised Landsat-5 TM radiometric calibration procedures and postcalibration dynamic ranges。IEEE Transactions on Geoscience and Remote Sensing,41(11),2674-2677。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 6. | Gao, F.、Masek, J.、Schwaller, M.、Hall, F.(2006)。On the blending of the Landsat and MODIS surface reflectance: Predicting daily Landsat surface reflectance。IEEE Transactions on Geoscience and Remote Sensing,44(8),2207-2218。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 7. | Wang, L.、Koike, T.、Yang, K.、Yeh, P. J. F.(2009)。Assessment of a distributed biosphere hydrological model against streamflow and MODIS land surface temperature in the upper Tone River Basin。Journal of Hydrology,377(1/2),21-34。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 8. | Wan, Z.、Wang, P.、Li, X.(2004)。Using MODIS land surface temperature and normalized difference vegetation index products for monitoring drought in the southern Great Plains, USA。International Journal of Remote Sensing,25(1),61-72。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 9. | Sprenger, M.、Schemm, S.、Oechslin, R.、Jenkner, J.(2017)。Nowcasting Foehn wind events using the AdaBoost machine learning algorithm。Weather and Forecasting,32(3),1079-1099。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 10. | Sun, D.、Kafatos, M.(2007)。Note on the NDVI‐LST relationship and the use of temperature‐related drought indices over North America。Geophysical Research Letters,34(24)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 11. | Sandholt, I.、Rasmussen, K.、Andersen, J.(2002)。A simple interpretation of the surface temperature/vegetation index space for assessment of surface moisture status。Remote Sensing of Environment,79(2/3),213-224。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 12. | Pramanik, S.、Punia, M.(2019)。Land use/land cover change and surface urban heat island intensity: Source-sink landscape-based study in Delhi, India。Environment Development and Sustainability,22(8),7331-7356。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 13. | Potapov, P.、Hansen, M. C.、Stehman, S. V.、Loveland, T. R.、Pittman, K.(2008)。Combining MODIS and Landsat imagery to estimate and map boreal forest cover loss。Remote Sensing of Environment,112(9),3708-3719。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 14. | Motohka, T.、Nasahara, K. N.、Oguma, H.、Tsuchida, S.(2010)。Applicability of green-red vegetation index for remote sensing of vegetation phenology。Remote Sensing,2(10),2369-2387。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 15. | Matsushita, B.、Yang, W.、Chen, J.、Onda, Y.、Qiu, G.(2007)。Sensitivity of the enhanced vegetation index (EVI) and normalized difference vegetation index (NDVI) to topographic effects: A case study in high-density cypress forest。Sensors,7(11),2636-2651。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 16. | Lu, D.、Weng, Q.(2006)。Spectral mixture analysis of ASTER images for examining the relationship between urban thermal features and biophysical descriptors in Indianapolis, Indiana, USA。Remote Sensing of Environment,104(2),157-167。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 17. | Kumari, B.、Tayyab, M.、Mallick, J.、Khan, M. F.、Rahman, A.(2018)。Satellite-driven land surface temperature (LST) using Landsat 5, 7 (TM/ETM+SLC) and Landsat 8 (OLI/TIRS) data and its association with built-up and green cover over urban Delhi, India。Remote Sensing in Earth Systems Sciences,1,63-78。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 18. | Kawabata, A.、Ichii, K.、Yamaguchi, Y.(2001)。Global monitoring of interannual changes in vegetation activities using NDVI and its relationships to temperature and precipitation。International Journal of Remote Sensing,22(7),1377-1382。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 19. | Jiménez‐Muñoz, J. C.、Sobrino, J. A.(2003)。A generalized single‐channel method for retrieving land surface temperature from remote sensing data。Journal of Geophysical Research: Atmospheres,108(D22)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 20. | Januar, T. W.、Lin, T. H.、Huang, C. Y.、Chang, K. E.(2020)。Modifying an image fusion approach for high spatiotemporal LST retrieval in surface dryness and evapotranspiration estimations。Remote Sensing,12(3)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 21. | Hilker, T.、Wulder, M. A.、Coops, N. C.、Seitz, N.、White, J. C.、Gao, F.、Masek, J. G.、Stenhouse, G.(2009)。Generation of dense time series synthetic Landsat data through data blending with MODIS using a spatial and temporal adaptive reflectance fusion model。Remote Sensing of Environment,113(9),1988-1999。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 22. | Hereher, M. E.(2016)。Recent trends of temperature and precipitation proxies in Saudi Arabia: Implications for climate change。Arabian Journal of Geosciences,9(11)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 23. | Hansen, M. C.、Roy, D. P.、Lindquist, E.、Adusei, B.、Justice, C. O.、Altstatt, A.(2008)。A method for integrating MODIS and Landsat data for systematic monitoring of forest cover and change in the Congo Basin。Remote Sensing of Environment,112(5),2495-2513。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 24. | Greve, F.、Kanz, K. G.、Zyskowski, M.、Von Matthey, F.、Biberthaler, P.、Muthers, S.、Matzarakis, A.、Lefering, R.、Huber-Wagner, S.(2020)。The influence of foehn winds on the incidence of severe injuries in southern Bavaria: An analysis of the TraumaRegister DGU®。BMC Musculoskeletal Disorders,21(1)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 25. | Fatemi, M.、Narangifard, M.(2019)。Monitoring LULC changes and its impact on the LST and NDVI in District 1 of Shiraz City。Arabian Journal of Geosciences,12(4),1-12。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 26. | Alexander, C.(2020)。Normalised difference spectral indices and urban land cover as indicators of land surface temperature (LST)。International Journal of Applied Earth Observation and Geoinformation,86。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 27. | 林俞佑、翁叔平、鐘珮瑄(20161200)。臺東與臺中地區焚風現象之分析研究。地理學報,83,1-21。 延伸查詢![new window](/gs32/images/newin.png) | 會議論文1. | 徐森雄(1989)。農業氣象災害。台灣地區農業氣象資源應用研討會。臺北市:中央氣象局。323-329。 延伸查詢![new window](/gs32/images/newin.png) | 2. | 邱禮弘、黃武林、劉復誠、梁仁有(1993)。臺東地區焚風現象之觀測及其對果樹生育影響之研究。中日農業氣象應用研討會,281-306。 延伸查詢![new window](/gs32/images/newin.png) | 研究報告1. | Rouse, J. W. Jr.、Haas, R. H.、Schell, J. A.、Deering, D. W.(1973)。Monitoring the vernal advancement and retrogradation (green wave effect) of natural vegetation (計畫編號:NASA-CR-132982)。NASA。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 學位論文1. | 陳悅芬(1996)。台灣東部地區焚風的研究(碩士論文)。國立中央大學。 延伸查詢![new window](/gs32/images/newin.png) | 2. | 陳囿而(2009)。焚風對宜蘭地區植生覆蓋影響之研究(碩士論文)。國立彰化師範大學。 延伸查詢![new window](/gs32/images/newin.png) | 3. | 郭人維(2019)。高時空融合影像在氣膠光學厚度反演之改進與空氣品質偵測之應用(碩士論文)。國立中央大學。 延伸查詢![new window](/gs32/images/newin.png) | 單篇論文1. | Nilsson, J.,Akenine-Möller, T.(2020)。Understanding SSIM(2006.13846)。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 其他1. | Huete, A.,Justice, C.,Van Leeuwen, W.(1999)。MODIS vegetation index (MOD 13) Algorithm theoretical basis document,http://modis.gsfc.nasa.gov/data/atbd/atbd_mod13.pdf。 ![](/gs32/thssjcncl/image/nclsfx.gif) ![new window](/gs32/images/newin.png) | 2. | 臺東區農業改良場(2012)。焚風形成的原因,https://www.ttdares.gov.tw/upload/ttdares/files/web_structure/5375/51-003.pdf。 延伸查詢![new window](/gs32/images/newin.png) | |