Title: Multi-resolution image fusion with regularisation framework using enhanced Gabor preceding method
Authors: Garladinne Ravikanth; K.V.N. Sunitha; B. Eswara Reddy
Addresses: Jawaharlal Nehru Technological University Anantapur, Ananthapuramu – 515002, Andhra Pradesh, India ' BVRIT Hyderabad College of Engineering for Women, 8-5/4, Nizampet Road, Rajiv Gandhi Nagar, Bachupally, Hyderabad, Telangana – 500090, India ' JNTUA College of Engineering, NH-205, Valmikipuram, Kalikiri – 517234, Andhra Pradesh, India
Abstract: Image fusion is characterised as the way towards consolidating applicable data from at least two pictures caught utilising diverse sensors, keeping in mind the end goal to create a solitary yield picture with an engaging visual recognition. In a model-based technique, the low resolution multi otherworldly picture is displayed as the obscured and loud form of its optimal high resolution intertwined picture. Since this issue is poorly postured, it expects regularisation to get the last arrangement. In the proposed approach, learning-based technique that utilises photogenic information is utilised to get the required corruption framework that records for association. Keeping in mind the end goal, to better save the spatial points of interest and to enhance the gauge of combined picture, we take care of the multi-resolution combination issue in a regularisation structure by making utilisation of another method called enhanced Gabor preceding method. Utilisation of enhanced Gabor preceding method guarantees highlights at various spatial frequencies of intertwined picture to coordinate those of the accessible HR photogenic picture. Along with enhanced Gabor preceding method strategy, we additionally incorporate a multi-resolution framework (MRF) preceding method which keeps up the spatial correlatedness among the HR pixels.
Keywords: resolution; fusion problem; image fusion; image enhancement; remote sensing.
International Journal of Advanced Intelligence Paradigms, 2023 Vol.25 No.3/4, pp.297 - 311
Received: 29 Jan 2018
Accepted: 28 Feb 2018
Published online: 19 Jul 2023 *