17 October 2017 Minerals identification and mapping using ASTER satellite image
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Advanced spaceborn thermal emission and reflection radiometer (ASTER) has fine spectral bands in short-wave infrared (SWIR) and thermal infrared (TIR) regions of the electromagnetic spectrum. The purpose behind the study is to explore the potential of ASTER for lithological and minerals detection; in comparison with Landsat-ETM+ Khaira Murat range (KMR) of Gali Jagir area, district Attock was selected as a test site; enriched with industrial minerals of the Eocene age. Maximum likelihood classification was applied on Landsat-ETM+ and ASTER images. Maximum likelihood classification on ASTER satellite image exhibits better discrimination among various lithologies as compared to Landsat-ETM+. Classified image of ASTER showed a correlation coefficient of 0.6 with the geological survey of Pakistan’s map while a classified image of Landsat-ETM+ exhibited a correlation of only 0.43. Landsat-ETM+ and ASTER satellite images were further investigated for minerals detection. Landsat-ETM+ band ratio detected clay. ASTER SWIR band ratios detected various clay and carbonate minerals. X’PertPRO diffractometer and differential thermal analysis of field samples verified the detected minerology. The results suggest that ASTER can be successfully used for lithological and minerals mapping of less-examined areas.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Khunsa Fatima, Khunsa Fatima, Muhammad Umar Khan Khattak, Muhammad Umar Khan Khattak, Allah Bakhsh Kausar, Allah Bakhsh Kausar, Muhammad Toqeer, Muhammad Toqeer, Naghma Haider, Naghma Haider, Asid Ur Rehman, Asid Ur Rehman, } "Minerals identification and mapping using ASTER satellite image," Journal of Applied Remote Sensing 11(4), 046006 (17 October 2017). https://doi.org/10.1117/1.JRS.11.046006 . Submission: Received: 1 February 2017; Accepted: 21 September 2017
Received: 1 February 2017; Accepted: 21 September 2017; Published: 17 October 2017

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