Programs
- M. Tech. in Automotive Engineering -
- Clinical Fellowship in Laboratory Genetics & Genomics - Fellowship
Publication Type : Conference Proceedings
Source : In Image and Signal Processing for Remote Sensing XXIV (Vol. 10789, p. 107890T). International Society for Optics and Photonics.
Campus : Amritapuri
School : School of Computing
Center : Computer Vision and Robotics
Year : 2018
Abstract : This paper presents a novel content-based image search and retrieval (CBIR) system that achieves coarse to fine remote sensing (RS) image description and retrieval in JPEG 2000 compressed domain. The proposed system initially: i) decodes the code-streams associated to the coarse (i.e., the lowest) wavelet resolution, and ii) discards the most irrelevant images to the query image that are selected based on the similarities estimated among the coarse resolution features of the query image and those of the archive images. Then, the code-streams associated to the sub-sequent resolution of the remaining images in the archive are decoded and the most irrelevant images are selected by considering the features associated to both resolutions. This is achieved by estimating the similarities between the query image and remaining images by giving higher weights to the features associated to the finer resolution while assigning lower weights to those related to the coarse resolution. To this end, the pyramid match kernel similarity measure is exploited. These processes are iterated until the code-streams associated to the highest wavelet resolution are decoded only for a very small set of images. By this way, the proposed system exploits a multiresolution and hierarchical feature space and accomplish an adaptive RS CBIR with significantly reduced retrieval time. Experimental results obtained on an archive of aerial images confirm the effectiveness of the proposed system in terms of retrieval accuracy and time when compared to the standard CBIR systems.
Cite this Research Publication : Byju, A. P., Demir, B., & Bruzzone, L., (2018, October). A novel coarse-to-fine remote sensing image retrieval system in JPEG-2000 compressed domain. In Image and Signal Processing for Remote Sensing XXIV (Vol. 10789, p. 107890T). International Society for Optics and Photonics.