Title :
Missing Data and Regression Models for Spatial Images
Author :
Jun Zhang ; Clayton, Murray K. ; Townsend, Philip A.
Author_Institution :
Dept. of Financial & Institutional Res., Northern Illinois Univ., DeKalb, IL, USA
Abstract :
In previous work, we have shown that a functional concurrent linear model (FCLM) can be used to model the relationship between two spatial images. In this paper, we provide two extensions of the use of the FCLM to address missing data problems in series of colocated spatial images. First, we show how to build an FCLM relating two images involving gypsy moth defoliation data when there are missing data in some regions of the images. Because there is interest in filling in the missing scan lines in Landsat 7 images, we then further extend this approach to provide an imputation method for Landsat 7 data when the focus is on repairing a single image, rather than in relating images. A side effect of our approach is that the FCLM appears to automatically select the best parts of different covariate images for repairing a target image.
Keywords :
geophysical image processing; image restoration; regression analysis; vegetation mapping; FCLM; Landsat 7 data; Landsat 7 images; colocated spatial images; covariate images; functional concurrent linear model; gypsy moth defoliation data; image regions; image repair; imputation method; missing data problem; missing scan lines; regression models; Computational modeling; Data models; Earth; Educational institutions; Histograms; Remote sensing; Satellites; Functional concurrent linear model (FCLM); missing data; wavelet;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2014.2345513
