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Remote sensing of land surface temperature Lecture 8.

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Presentation on theme: "Remote sensing of land surface temperature Lecture 8."— Presentation transcript:

1 Remote sensing of land surface temperature Lecture 8

2 Thermal infrared of EM spectrum 0.7  m 3.0  m 100  m  All objects have a temperature above absolute zero (0 K) emit EM energy (in 3.0-100 µm). Human being has normal 98.6 ºF (37 ºC)  Our eyes are only sensitive to visible energy (0.4-0.7 µm). Human sense thermal energy through touch. while detectors (sensors) are sensitive to all EM spectrum.  All objects (vegetation, soil, rock, water, concrete, etc) selectively absorb solar short- wavelength energy and radiate thermal infrared energy. Details about thermal remote sensing refers to another lectureanother lecture For this lecture and lab, we focus on MODIS LST processing and application

3 Brightness temperature, and physical (surface) temperature  Through radiance recorded by a remote sensor, if we use the Planck equation, we can get a temperature, which we call brightness temperature T b, which is less than the real physical (or surface) temperature T. h, Planck’s constant =6.626 x 10 -34 Ws 2 T, Kelvin (K) c, 3 x 10 8 m/s k, Boltzmann’s constant=1.38 x 10 -23 Ws/K L or B, radiance (Wm -2 μm -1 ) c1=2πhc 2 =3.74 x 10 -16 Wm 2 c2=ch/k=0.0144 mK

4 MODIS land surface temperature and emissivity product led by Dr. Wan http://www.icess.ucsb.edu/modis/modis-lst.html Wan et al. 2002

5 The accuracy of temperature is better than 1 K, Wan (2008)

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9 Xie and Ytuarte, 2005 Urban Heat Island of San Antonio downtown area detected by MODIS temperature product 1:30 am, July 15, 2004

10 Dallas-Fort Worth Houston El Paso/Juarez San Antonio

11 10:30 am 1:30 pm San Antonio 2000-2008 2002-2008

12 10:30 pm 1:30 am San Antonio 2000-2008 2002-2008

13 Black areas are no date, due to cloud cover. So this image should not use

14 The Delaunay triangulation method is available under ENVI, at Topographic/Replace Bad Values

15 David Prado thesis, 2010

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23 Source: Jeff Dozier

24 Active fire detection: MODIS fire and thermal anomalies products Image caption: Fires in the Bahamas, Florida and Cuba (03 April 2004, 18:30 UTC) identified using MODIS Aqua and outlined in red on the MODIS 1km corrected reflectance product http://modis-fire.gsfc.nasa.gov/index.asp

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