期刊
IEEE GEOSCIENCE AND REMOTE SENSING LETTERS
卷 6, 期 2, 页码 302-306出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LGRS.2008.2012003
关键词
Component substitution (CS) pansharpening; context-adaptive (CA) injection model; high-resolution satellite data; multiresolution analysis (MRA); Gram-Schmidt (GS) spectral sharpening
类别
资金
- CNES French Space Agency
Multiresolution analysis (MRA) and component substitution (CS) are the two basic frameworks to which image fusion algorithms can be reported when merging multispectral (MS) and panchromatic (Pan) images (pansharpening), acquired with different spatial and spectral resolutions. State-of-the-art algorithms add the spatial details extracted from the Pan into the MS data set by considering different injection strategies. The capability of efficiently modeling the relationships between MS and Pan is crucial for the quality of fusion results and particularly for a correct recovery of local features with a consequent reduction of spectral distortions. Although context-adaptive (CA) injection models have been proposed in the MRA framework, their adoption in CS schemes has been scarcely investigated so far. In this letter, CA strategies are compared with global models by considering a general protocol in which both MRA- and CS-based schemes can be described. Qualitative and quantitative results are reported for three high-resolution data sets from two different sensors, namely, IKONOS and simulated Pleiades. The score gains of well-known and novel quality figures show that CA models are more efficient than global ones.
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