Title :
Linear adaptive infrared image fusion
Author :
Nguyen, Chuong T. ; Havlicek, Joseph P.
Author_Institution :
Sch. of Electr. & Comput. Eng., Univ. of Oklahoma, Norman, OK, USA
Abstract :
We introduce a new adaptive image fusion algorithm to address the decomposition level problem in the multiresolution fusion technique. The fusion scheme consists of two parallel processes which are linearly combined on a spatially adaptive basis: lowpass fusion to exploit the inherent target-background discrimination capability of infrared sensors and highpass fusion to capture texture and shape details leveraging the visible band imagery. The weighting coefficients for each process are determined by maximizing a no-reference fusion quality metric. We demonstrate the effectiveness of the proposed algorithm against a variety of practical infrared fusion tasks where it delivers tangible performance gains relative to several well-known state of the art fusion techniques.
Keywords :
image fusion; image resolution; image texture; infrared detectors; infrared imaging; decomposition level problem; highpass fusion; infrared sensors; linear adaptive infrared image fusion algorithm; lowpass fusion; multiresolution fusion technique; noreference fusion quality metric maximization; parallel processes; shape detail; spatially adaptive basis; target-background discrimination capability; texture detail; visible band imagery; weighting coefficients; Discrete wavelet transforms; Image fusion; Image resolution; Infrared sensors; Measurement; SSIM; image fusion; infrared fusion;
Conference_Titel :
Image Analysis and Interpretation (SSIAI), 2014 IEEE Southwest Symposium on
Conference_Location :
San Diego, CA
DOI :
10.1109/SSIAI.2014.6806043
