Images analysis for automatic volcano visibility estimation

In this paper, a method for estimating the volcano visibility in the images is presented. This method includes algorithms for analyzing parametric edges of objects under observation and frequency characteristics of the images. Procedures for constructing parametric edges of a volcano and their compa...

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Bibliographic Details
Published in:Computer Optics
Main Authors: Alexandr Kamaev, Igor Urmanov, Aleksei Sorokin, Dmitry Karmanov, Sergey Korolev
Format: Article in Journal/Newspaper
Language:English
Russian
Published: Samara National Research University 2018
Subjects:
image analysis
algorithms
edge detection
parametric edges
volcano
edge matching
video surveillance
visibility analysis
Information theory
Q350-390
Optics. Light
QC350-467
Kamchatka
Online Access:https://doi.org/10.18287/2412-6179-2018-42-1-128-140
https://doaj.org/article/1829493f0fd946a7842c31bcaafa1660
Description
Summary:In this paper, a method for estimating the volcano visibility in the images is presented. This method includes algorithms for analyzing parametric edges of objects under observation and frequency characteristics of the images. Procedures for constructing parametric edges of a volcano and their comparison are considered. An algorithm is proposed for identifying the most persistent edges for a group of several reference images. The visibility of a volcano is estimated by comparing these edges to those of the image under analysis. The visibility estimation is maximized with respect to a planar shift and rotation of the camera to eliminate their influence on the estimation. If the image quality is low, making it hardly suitable for further visibility analysis, the estimation is corrected using an algorithm for analyzing the image frequency response represented as a vector of the octave frequency contribution to the image luminance. A comparison of the reference frequency characteristics and the characteristics of the analyzed image allows us to estimate the contribution of different frequencies to the formation of volcano images. We discuss results of the verification of the proposed algorithms performed using the archive of a video observation system of Kamchatka volcanoes. The estimates obtained corroborate the effectiveness of the proposed methods, enabling the non-informative imagery to be automatically filtered off while monitoring the volcanic activity.

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