Based on compressive sensing framework and sparse reconstruction technology, a new pan-sharpening method, named Sparse Fusion of Images (SparseFI, pronounced as sparsify), is proposed in [1]. In this paper, the proposed SparseFI algorithm is validated using UltraCam and WorldView-2 data. Visual and statistic analysis show superior performance of SparseFI compared to the existing conventional pan-sharpening methods in general, i.e. rich in spatial information and less spectral distortion. Moreover, popular quality assessment metrics are employed to explore the dependency on regularization parameters and evaluate the efficiency of various sparse reconstruction toolboxes
Image fusion, commonly known as pan-sharpening, is a method that combines two data: a panchromatic i...
Panchromatic and multispectral image fusion, termed pan-sharpening, is to merge the spatial and spec...
Pan-sharpening of remote sensing multispectral imagery directly influences the accuracy of interpret...
Data provided by most optic earth observation satellites such as IKONOS, Quick Bird and GeoEye are c...
Data provided by most optical earth observation satellites such as IKONOS, Quick Bird and GeoEye are...
In the mid 1980s, pan-sharpening caught significant attention in remote sensing and image processing...
Two types of images are produced by Earth observation satellites, each having complementing spatial ...
In this paper, we propose a compressive sensing-based method to pan-sharpen the low-resolution multi...
Abstract — Recently, sparse representation (SR) and joint sparse representation (JSR) have attracted...
Recently sparse signal representation of image patches was explored to solve the pan-sharpening prob...
Pan-sharpening based on compressed sensing (CS) theory has been widely studied in recent years. In t...
A critical analysis of remote sensing image fusion methods based on the super-resolution (SR) paradi...
Panchromatic and multispectral image fusion, termed pan-sharpening, is to merge the spatial and spec...
Abstract — Pan-sharpening is a common postprocessing oper-ation for captured multispectral satellite...
Satellites provide very valuable data about the Earth, e.g., for environmental monitoring, weather f...
Image fusion, commonly known as pan-sharpening, is a method that combines two data: a panchromatic i...
Panchromatic and multispectral image fusion, termed pan-sharpening, is to merge the spatial and spec...
Pan-sharpening of remote sensing multispectral imagery directly influences the accuracy of interpret...
Data provided by most optic earth observation satellites such as IKONOS, Quick Bird and GeoEye are c...
Data provided by most optical earth observation satellites such as IKONOS, Quick Bird and GeoEye are...
In the mid 1980s, pan-sharpening caught significant attention in remote sensing and image processing...
Two types of images are produced by Earth observation satellites, each having complementing spatial ...
In this paper, we propose a compressive sensing-based method to pan-sharpen the low-resolution multi...
Abstract — Recently, sparse representation (SR) and joint sparse representation (JSR) have attracted...
Recently sparse signal representation of image patches was explored to solve the pan-sharpening prob...
Pan-sharpening based on compressed sensing (CS) theory has been widely studied in recent years. In t...
A critical analysis of remote sensing image fusion methods based on the super-resolution (SR) paradi...
Panchromatic and multispectral image fusion, termed pan-sharpening, is to merge the spatial and spec...
Abstract — Pan-sharpening is a common postprocessing oper-ation for captured multispectral satellite...
Satellites provide very valuable data about the Earth, e.g., for environmental monitoring, weather f...
Image fusion, commonly known as pan-sharpening, is a method that combines two data: a panchromatic i...
Panchromatic and multispectral image fusion, termed pan-sharpening, is to merge the spatial and spec...
Pan-sharpening of remote sensing multispectral imagery directly influences the accuracy of interpret...