Petrovic, Vladimir S. and Xydeas, Costas (2004) Gradient-based multi-resolution image fusion. IEEE Transactions on Image Processing, 13 (2). pp. 127-228. ISSN 1057-7149Full text not available from this repository.
A novel approach to multiresolution signal-level image fusion is presented for accurately transferring visual information from any number of input image signals, into a single fused image without loss of information or the introduction of distortion. The proposed system uses a "fuse-then-decompose" technique realized through a novel, fusion/decomposition system architecture. In particular, information fusion is performed on a multiresolution gradient map representation domain of image signal information. At each resolution, input images are represented as gradient maps and combined to produce new, fused gradient maps. Fused gradient map signals are processed, using gradient filters derived from high-pass quadrature mirror filters to yield a fused multiresolution pyramid representation. The fused output image is obtained by applying, on the fused pyramid, a reconstruction process that is analogous to that of conventional discrete wavelet transform. This new gradient fusion significantly reduces the amount of distortion artefacts and the loss of contrast information usually observed in fused images obtained from conventional multiresolution fusion schemes. This is because fusion in the gradient map domain significantly improves the reliability of the feature selection and information fusion processes. Fusion performance is evaluated through informal visual inspection and subjective psychometric preference tests, as well as objective fusion performance measurements. Results clearly demonstrate the superiority of this new approach when compared to conventional fusion systems.
|Journal or Publication Title:||IEEE Transactions on Image Processing|
|Additional Information:||The significance of this paper lies both in the algorithmic novelty and the advanced performance of the proposed image fusion system, in comparison to conventional techniques. Furthermore advances in image fusion performance are demonstrated using both subjective tests and objective performance measures. This work has been identified and supported by BAES, Warton (Dr. D. Parker) for aerospace applications. RAE_import_type : Journal article RAE_uoa_type : Electrical and Electronic Engineering|
|Uncontrolled Keywords:||DCS-publications-id ; art-801 ; DCS-publications-credits ; dsp ; DCS-publications-personnel-id ; 24|
|Subjects:||Q Science > QA Mathematics > QA75 Electronic computers. Computer science|
|Departments:||Faculty of Science and Technology > School of Computing & Communications|
|Deposited On:||28 Mar 2008 11:04|
|Last Modified:||25 Apr 2017 01:58|
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