In this work, a multi-resolution procedure based on a generalized Laplacian pyramid (GLP) with rational scale factor is proposed to merge image data of any resolution and represent them at any scale. The GLP-based data fusion is shown to be superior to a similar scheme based on the discrete wavelet transform (WT), according to a set of parameters established in the literature. The pyramid-generating filters can be easily designed for data of any resolutions, differently from the WT, whose filter-bank design is non-trivial when the ratio between the scales of the images to be merged is not a power of two. Images from Landsat TM and from Panchromatic SPOT are fused together. The resulting bands capture multi-spectral features with enhanced contrast and texture, and an increased spatial resolution, thereby expediting automatic analyses for contextual interpretation of the environment.
A pyramid-based approach to multisensor image data fusion with preservation of spectral signatures / Alparone, L; Cappellini, V; Mortelli, L; Aiazzi, B; Baronti, S; Carla, R. - STAMPA. - (1998), pp. 419-426. (Intervento presentato al convegno 17th EARSeL Symposium on Future Trends in Remote Sensing tenutosi a LYNGBY, DENMARK nel JUN 17-19, 1997).
A pyramid-based approach to multisensor image data fusion with preservation of spectral signatures
ALPARONE, LUCIANO;CAPPELLINI, VITO;
1998
Abstract
In this work, a multi-resolution procedure based on a generalized Laplacian pyramid (GLP) with rational scale factor is proposed to merge image data of any resolution and represent them at any scale. The GLP-based data fusion is shown to be superior to a similar scheme based on the discrete wavelet transform (WT), according to a set of parameters established in the literature. The pyramid-generating filters can be easily designed for data of any resolutions, differently from the WT, whose filter-bank design is non-trivial when the ratio between the scales of the images to be merged is not a power of two. Images from Landsat TM and from Panchromatic SPOT are fused together. The resulting bands capture multi-spectral features with enhanced contrast and texture, and an increased spatial resolution, thereby expediting automatic analyses for contextual interpretation of the environment.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.