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ASSESSMENT OF LAND SURFACE TEMPERATURE FROM SATELLITE DATA FOR DIFFERENT LAND USE AND LAND COVER

Popescu, Iosif Vorovencii/Lecturer Luciana Oprea/Prof. Ioan Ienciu/Prof. Cosmin

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bb2.v2/s10.004View metrics

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Publication details

Title
ASSESSMENT OF LAND SURFACE TEMPERATURE FROM SATELLITE DATA FOR DIFFERENT LAND USE AND LAND COVER
Authors
Popescu, Iosif Vorovencii/Lecturer Luciana Oprea/Prof. Ioan Ienciu/Prof. Cosmin
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on INFORMATICS, GEOINFORMATICS AND REMOTE SENSING
Publisher
Stef92 Technology
Year
2013
Pages
571 - 578 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References38
  1. Artis D.A. & Carnahan W.H. Survey of emissivity variability in thermography of urban areas, Remote Sensing of Environment , United States, vol. 12/issue 4 , pp 313- 329, 1982.

  2. Balling R.C. & Brazel S.W. High-resolution surface temperature patterns in a complex urban t errain, Photogrammetric Engineering and Remote Sensing, United States, vol. 54/issue 9, pp 1289-1293, 1988.

  3. Carson T.N., Gillies R.R. & Perry E.M. A method to make use of thermal infrared temperature and NDVI measurements to infer surface soil water content and fractional vegetation cover, Remote Sensing Reviews , United Kingdom, vol. 9/issue 2 , pp 161- 173, 1994.

  4. Chander G. & Markham B. Revised Landsat -5 TM radiometric calibration procedure and postcalibration dynamic ranges , IEEE Trans action on Geoscience and Remote Sensing, United States, vol. 41/issue 11, pp 2674-2677, 2003.

  5. Gallo, K.P. McNab A.L., Karl T.R., Brown J.F ., Hood J.J. & Tarpley J.D. The use of NOAA AVHRR data for assessment of the urban heat island effect , Journal of Applied Meteorology, United States, vol. 32/issue 5, pp 899-908, 1993. GeoConference on Informatics, Geoinformatics and Remote Sensing

  6. Gallo K.P. & Owen T.W. Assessment of Urban Heat Island: A multi-sensor perspective for the Dalla s-Ft. Worth, USA r egion, Geocarto International, China, vol. 13/issue 4, pp 35-41, 1998.

  7. Gillies R.R. & Carlson T.N. Thermal remote sensing of surface soil water content with partial vegetation cover for incorporation into climate models , Journal of Applied Meteorology, United States, vol. 34/issue 4, pp 745-756, 1995.

  8. Gillies R.R., Carlson T.N., Cui J., Kustas W.P. & Humes K.S. A verification of the ‘triangle’ method for obtaining surface soil water content and energy fluxes from remote measurements of the Normalized Difference Vegetation Index (NDVI) and surface radiant temperature, International Journal of Remote Sensing, United Kingdom, vol. 18/issue 15, pp 3145-3166, 1997.

  9. Goward S.N., Xue Y. & Czajkowski K.P. Evaluating land surface moisture conditions from the remotely sensed temperature/vegetation index measurements : An Exploration with the simplified simple biosphere mo del, Remote Sensing of Environment, United States, vol. 79/issue 2-3, pp 225-242, 2002.

  10. Lambin E.F. & Ehrlich D. The surface temperature–vegetation index space for land cover and land-cover change analysis, International Journal of Remote Sensing, Uni ted Kingdom, vol. 17/issue 3, pp 463-487, 1996.

  11. Landsat Project Science Office: Landsat 7 Science Data User’s Handbook. http://ltpwww.gsfc.nasa.gov/IAS/handbook/handbook_toc.html, 2002.

  12. Lillesand T.M. & Kiefer R.W. Remote sensing and image interpretation. 4 th Edition, New York, SUA, pp 30-190, 2000.

  13. Liu Y, Hiyama T. & Yamaguchi Y . Scaling of land surface temperature using satellite data : A case examination on ASTER a nd MODIS products over a heterogeneous terrain area, Remote Sens ing of Environment, United States, vol. 105/issue 2, pp 115-128, 2006.

  14. Lo C.P., Quattrochi D.A. & Luvall J.C. Application of high- resolution thermal infrared remote sensing and GIS to ass ess the urban heat island effect , International Journal of Remote Senssing, United Kingdom, vol. 18/issue 2, pp 287-304, 1997.

  15. Oke T.R. The energetic basis of the urban heat island , Quarterly Journal of the Royal Meteorological Society, United Kingdom, vol. 108/issue 455, pp 1-24, 1982.

  16. Owen T.W., Carlson T.N. & Gillies R.R. An assessment of satellite remotely - sensed land cover parameters in quantitatively describing the climatic effect of urbanization, International Journal of Remote Sensing, U nited Kingdom, vol. 19/issue 9, pp 1663-1681, 1998.

  17. Sobrino J.A. & Raissouni N. Toward remote sensing methods for land cover dynamic monitoring: Application to Morocco, International Journal of Remote Sensing, United Kingdom, vol. 21/issue 2, pp 353-366, 2000.

  18. Vorovencii I. Highlighting of temperatures on Landsat 5 TM thermal infrared image, Forest and Sustainable Development, Romania, vol. 1/issue 1, pp 59-64, 2012.

  19. Weng Q. A remote sensing -GIS evaluation of urban expansion and its impact on surface temperature in the Zhujiang Delta, China, International Journal of Remote Sensing, United Kingdom, vol. 22/issue 10, pp 1999-2014, 2001.

  20. Artis D.A. & Carnahan W.H. Survey of emissivity variability in thermography of urban areas, Remote Sensing of Environment , United States, vol. 12/issue 4 , pp 313- 329, 1982.

  21. Balling R.C. & Brazel S.W. High-resolution surface temperature patterns in a complex urban t errain, Photogrammetric Engineering and Remote Sensing, United States, vol. 54/issue 9, pp 1289-1293, 1988.

  22. Carson T.N., Gillies R.R. & Perry E.M. A method to make use of thermal infrared temperature and NDVI measurements to infer surface soil water content and fractional vegetation cover, Remote Sensing Reviews , United Kingdom, vol. 9/issue 2 , pp 161- 173, 1994.

  23. Chander G. & Markham B. Revised Landsat -5 TM radiometric calibration procedure and postcalibration dynamic ranges , IEEE Trans action on Geoscience and Remote Sensing, United States, vol. 41/issue 11, pp 2674-2677, 2003.

  24. Gallo, K.P. McNab A.L., Karl T.R., Brown J.F ., Hood J.J. & Tarpley J.D. The use of NOAA AVHRR data for assessment of the urban heat island effect , Journal of Applied Meteorology, United States, vol. 32/issue 5, pp 899-908, 1993. GeoConference on Informatics, Geoinformatics and Remote Sensing

  25. Gallo K.P. & Owen T.W. Assessment of Urban Heat Island: A multi-sensor perspective for the Dalla s-Ft. Worth, USA r egion, Geocarto International, China, vol. 13/issue 4, pp 35-41, 1998.

  26. Gillies R.R. & Carlson T.N. Thermal remote sensing of surface soil water content with partial vegetation cover for incorporation into climate models , Journal of Applied Meteorology, United States, vol. 34/issue 4, pp 745-756, 1995.

  27. Gillies R.R., Carlson T.N., Cui J., Kustas W.P. & Humes K.S. A verification of the ‘triangle’ method for obtaining surface soil water content and energy fluxes from remote measurements of the Normalized Difference Vegetation Index (NDVI) and surface radiant temperature, International Journal of Remote Sensing, United Kingdom, vol. 18/issue 15, pp 3145-3166, 1997.

  28. Goward S.N., Xue Y. & Czajkowski K.P. Evaluating land surface moisture conditions from the remotely sensed temperature/vegetation index measurements : An Exploration with the simplified simple biosphere mo del, Remote Sensing of Environment, United States, vol. 79/issue 2-3, pp 225-242, 2002.

  29. Lambin E.F. & Ehrlich D. The surface temperature–vegetation index space for land cover and land-cover change analysis, International Journal of Remote Sensing, Uni ted Kingdom, vol. 17/issue 3, pp 463-487, 1996.

  30. Landsat Project Science Office: Landsat 7 Science Data User’s Handbook. http://ltpwww.gsfc.nasa.gov/IAS/handbook/handbook_toc.html, 2002.

  31. Lillesand T.M. & Kiefer R.W. Remote sensing and image interpretation. 4 th Edition, New York, SUA, pp 30-190, 2000.

  32. Liu Y, Hiyama T. & Yamaguchi Y . Scaling of land surface temperature using satellite data : A case examination on ASTER a nd MODIS products over a heterogeneous terrain area, Remote Sens ing of Environment, United States, vol. 105/issue 2, pp 115-128, 2006.

  33. Lo C.P., Quattrochi D.A. & Luvall J.C. Application of high- resolution thermal infrared remote sensing and GIS to ass ess the urban heat island effect , International Journal of Remote Senssing, United Kingdom, vol. 18/issue 2, pp 287-304, 1997.

  34. Oke T.R. The energetic basis of the urban heat island , Quarterly Journal of the Royal Meteorological Society, United Kingdom, vol. 108/issue 455, pp 1-24, 1982.

  35. Owen T.W., Carlson T.N. & Gillies R.R. An assessment of satellite remotely - sensed land cover parameters in quantitatively describing the climatic effect of urbanization, International Journal of Remote Sensing, U nited Kingdom, vol. 19/issue 9, pp 1663-1681, 1998.

  36. Sobrino J.A. & Raissouni N. Toward remote sensing methods for land cover dynamic monitoring: Application to Morocco, International Journal of Remote Sensing, United Kingdom, vol. 21/issue 2, pp 353-366, 2000.

  37. Vorovencii I. Highlighting of temperatures on Landsat 5 TM thermal infrared image, Forest and Sustainable Development, Romania, vol. 1/issue 1, pp 59-64, 2012.

  38. Weng Q. A remote sensing -GIS evaluation of urban expansion and its impact on surface temperature in the Zhujiang Delta, China, International Journal of Remote Sensing, United Kingdom, vol. 22/issue 10, pp 1999-2014, 2001.

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