ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Publications Copernicus
Articles | Volume I-7
ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci., I-7, 159–164, 2012
ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci., I-7, 159–164, 2012

  17 Jul 2012

17 Jul 2012


M. Niroumand Jadidi, A. R. Safdarinezhad, M. R. Sahebi, and M. Mokhtarzade M. Niroumand Jadidi et al.
  • Dept. of Remote Sensing Engineering, Geomatics Engineering Faculty, K. N. Toosi University of Technology, ValiAsr Street, Mirdamad Cross, P.C. 19967-15433, Tehran, Iran

Keywords: Land Cover, Classification, Accuracy, Spatial, Multispectral, Simplification, Resolution

Abstract. Mixed pixels could be considered as a major source of uncertainty through classification process of satellite imagery. In this regard, the use of soft classifiers is often inevitable in order to increase the accuracy of land cover estimates. Although soft classifiers provide detailed information for each pixel, spatial arrangement of sub-pixels remains unknown. Super Resolution Mapping (SRM) has opened up a new horizon to produce finer spatial resolution maps using the outputs of soft classifiers. Wide variety of SRM algorithms has been developed. In this way, spatial optimisation techniques are the most applicable ones. However, random allocation of sub-pixels and iterative procedure of optimisation are the main limitations of current methods (e.g. Hopfield Neural Network, Simulated Annealing). This research attempts to provide an optimisation approach based on the pixel swapping technique in order to simplify the concept and to reduce the iteration procedure.

In this paper, a brief survey is conducted on spatial optimisation based techniques of SRM. SVM and SMACC are used cooperatively to produce fractional maps as an input of SRM algorithm. The initial allocation of the sub-pixels is performed non-randomised based on the highest amounts of attractiveness. An optimisation procedure is proposed to transfer the multiple allocated sub-pixels to the non-allocated ones. This procedure usually stops with minimal iterations and is time effective. The proposed method is tested on multispectral imagery (Landsat ETM+ and Quickbird) and has demonstrated precise results particularly in boundary pixels.