Intensity normalization of sidescan sonar imagery

Authors: Al-Rawi, M.S., Galdrán, A., Yuan, X., Eckert, M., Martínez, J.F., Elmgren, F., Cürüklü, B., Rodriguez, J., Bastos, J. and Pinto, M.

Journal: 2016 6th International Conference on Image Processing Theory, Tools and Applications, IPTA 2016

ISBN: 9781467389105

DOI: 10.1109/IPTA.2016.7820967

Abstract:

Sonar imaging is currently the exemplary choice used in underwater imaging. However, since sound signals are absorbed by water, an image acquired by a sonar will have gradient illumination; thus, underwater maps will be difficult to process. In this work, we investigated this phenomenon with the objective to propose methods to normalize the images with regard to illumination. We propose to use MIxed exponential Regression Analysis (MIRA) estimated from each image that requires normalization. Two sidescan sonars have been used to capture the seabed in Lake Vattern in Sweden in two opposite directions west-east and east-west; hence, the task is extremely difficult due to differences in the acoustic shadows. Using the structural similarity index, we performed similarity analyses between corresponding regions extracted from the sonar images. Results showed that MIRA has superior normalization performance. This work has been carried out as part of the SWARMs project (http://www.swarms.eu/).

Source: Scopus

Intensity Normalization of Sidescan Sonar Imagery

Authors: Al-Rawi, M.S., Galdran, A., Yuan, X., Eckert, M., Martinez, J.-F., Elmgren, F., Curuklu, B., Rodriguez, J., Bastos, J. and Pinto, M.

Journal: 2016 SIXTH INTERNATIONAL CONFERENCE ON IMAGE PROCESSING THEORY, TOOLS AND APPLICATIONS (IPTA)

ISSN: 2154-512X

Source: Web of Science (Lite)

Intensity normalization of sidescan sonar imagery.

Authors: Al-Rawi, M.S., Galdran, A., Yuan, X., Eckert, M., Martínez, J.-F., Elmgren, F., Çürüklü, B., Rodriguez, J., Bastos, J. and Pinto, M.

Journal: IPTA

Pages: 1-6

Publisher: IEEE

ISBN: 978-1-4673-8910-5

http://ieeexplore.ieee.org/xpl/mostRecentIssue.jsp?punumber=7799452

Source: DBLP