The Advanced Space-borne Thermal Emission and Reflection Radiometer (ASTER) cover a wide spectral region with 14 bands from visible to the thermal infrared. The different band ranges can be capable discriminating and mapping surface rocks and predict minerals on alteration assemblages of potential targets. The aim of this work is a multispectral analysis of the area of interest using ASTER sensor image on board the satellite Terra. This research work presents classification of different minerals in Gobi (Southern Mongolia) desert and almost non-vegetated arid area. The Satellite imagery has been corrected geometrically and radiometrically. The spectral classification was done according to the following steps: a) Spectral reduction by the Minimum Noise Fraction (MNF) transformation, b) Spatial reduction by the Pixel Purity Index (PPI) and c) Manual identification of the endmembers using the N-dimensional visualizer. This research work was used remotely sensed imagery and topographical map, and Remote Sensing and GIS techniques to detect mineral alteration mapping. Ground truth data have been used for validation as a reference. The application of the sequence MNF, PPI and n-D visualizer in the study area showed possibility of the identification of different mineral and different rock types.