Title :
Atmospheric effects on Landsat TM thermal IR data
Author :
Bartolucci, L.A. ; CHANG, MAO ; ANUTA, PAUL E. ; Graves, Mark R.
Author_Institution :
Murray State Univ., KY, USA
fDate :
3/1/1988 12:00:00 AM
Abstract :
The components of atmospherically attenuated target radiance and the path radiance emitted by the atmosphere are calculated to explain the fact that for certain meteorological conditions, properly calibrated thermal IR (infrared) data gathered from aircraft and spacecraft altitudes provide accurate temperature measurements of surface water bodies even when atmospheric corrections are not applied. Results show that although the 8-14-μm atmospheric window is far from being transparent (<50% transmission), the amount of atmospheric path radiance may be equal to the amount of attenuated target radiance. Errors in remotely sensed temperatures introduced by atmospheric effects are shown to be smaller than or of the same order of magnitude as those errors caused by sensor noise and the effects of applying a cubic convolution during the process of converting the TM (Thematic Mapper) data from A-tape to geometrically corrected P-tape data format
Keywords :
atmospheric optics; atmospheric radiation; geophysical techniques; hydrological techniques; oceanographic techniques; remote sensing; 8 to 14 mum; Landsat TM thermal IR data; Thematic Mapper; atmospheric corrections; atmospheric optics; attenuated target radiance; far infrared remote sensing; measurement; meteorological conditions; path radiance; radiation propagation; remote sensing; technique; temperature; Aircraft; Atmosphere; Convolution; Error correction; Meteorology; Remote sensing; Satellites; Space vehicles; Temperature measurement; Temperature sensors;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
