Data reduction is used to aggregate or amalgamate the large data sets into smaller and manageable information pieces in order to fast and accurate classification of different attributes. However, excessive spatial or spectral data reduction may result in losing or masking important radiometric information. Therefore, we conducted this research to evaluate the effectiveness of the different spectral data reduction algorithms including Principle Component Analysis (PCA) and Minimum Noise Fraction (MNF) transformation, Pixel Purity Index (PPI), and n Dimensional Visualizer (n-DV) algorithms on accuracy of the supervised classification of the salt-affected soils applying ETM+ data beside 188 ground control points. Results revealed that data reduction caused around 20 to 30 % decreases in classification results compared to none reduced data. It seems that applying spectral data reduction algorithm in small study areas is not only supportive, but also has negative effects on classification results. Therefore, it may better to not to use the algorithms in small areas.
Rahmati, M., & Hamzehpour, N. (2018). Effectiveness of spectral data reduction in detection of salt-affected soils in a small study area. Desert, 23(1), 97-106. doi: 10.22059/jdesert.2018.66357
MLA
M. Rahmati; N. Hamzehpour. "Effectiveness of spectral data reduction in detection of salt-affected soils in a small study area", Desert, 23, 1, 2018, 97-106. doi: 10.22059/jdesert.2018.66357
HARVARD
Rahmati, M., Hamzehpour, N. (2018). 'Effectiveness of spectral data reduction in detection of salt-affected soils in a small study area', Desert, 23(1), pp. 97-106. doi: 10.22059/jdesert.2018.66357
VANCOUVER
Rahmati, M., Hamzehpour, N. Effectiveness of spectral data reduction in detection of salt-affected soils in a small study area. Desert, 2018; 23(1): 97-106. doi: 10.22059/jdesert.2018.66357