Volume 14, Issue 1 (2010)                   MJSP 2010, 14(1): 107-126 | Back to browse issues page

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Mobasheri M R, Poorbager kordi S M, Farajzadeh Asl M, Sadeghi Naeini A. Total Precipitable Water (TPW) Assessment Using MODIS Images Radiosonde Data (Case study: Tehran District). MJSP 2010; 14 (1) :107-126
URL: http://hsmsp.modares.ac.ir/article-21-11102-en.html
1- Associated Professor of Khajeh Nasir University, Tehran, Iran,
2- Masters of Tarbiat Modares University
3- Associated Professor of Tarbiat Modares University
4- Staff of Iranian Space Agency
Abstract:   (12096 Views)
The ability in assessment of Total Precipitable Water (TPW) is useful in the prediction of the amount of raining, dam over-flooding and the flood. To extract TPW, the algorithm of infra- red bands near the MODIS sensor images were used. The satellite TPW, was validated using radiosonde data. Due to the limitation of the algorithm implementation to the cloud free sky and stable atmosphere, the general atmospheric conditions in the satellite passing date were investigated using auxiliary curves produced by synoptic and higher level meteorological data. In this way, the calm and eddy free atmosphere were selected. Then MODIS images were supplied from Iran Space Agency for this satellite passage. Then the TPW data were estimated using radiosonde and thermodynamics equation. Then regarding the stability and lack of new air masses in the region for the selected days (using analysis of the ground data and atmospheric profiles), the TPW for the time of satellite passage was interpolated.For determination of and in the aforementioned algorithm, EVI and ENDVI indices were deployed. At the end, a regression between the TPW produced by satellite and the one calculated from the radiosonde. showed that for the Mehrabad weather conditions, the MODIS channels 18 and 19 are suitable. Using the ratio of the apparent reflectance in the water vapor absorption bands to the one in the non-absorbing band, the atmospheric water vapor transparency for each one of the water vapor bands was calculated. The TPW in the earth-sensor path was calculated by implementing MODIS infrared bands under different atmospheric conditions, taking into account sensor and zenith angles, and the water vapor transparency using band ratio technique.
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Received: 2007/05/15 | Accepted: 2008/12/6 | Published: 2010/10/13

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