根据声纳平台运动参数定量分析合成孔径声纳图像畸变

IF 0.2 Q4 ACOUSTICS
Sea-Moon Kim and Sung-Hoon Byun
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引用次数: 0

摘要

合成孔径声呐、侧扫声呐或多波束回声测深仪已经商品化,广泛用于海底成像。国内正在开发拖曳式合成孔径声呐系统等相关研究。为了获得高分辨率合成孔径声呐图像,需要准确估计其所安装的平台运动,并且需要精确的水下导航系统。本文将根据合成孔径声呐平台的运动特性,定量分析声呐图像的畸变程度,为确定所需的导航精度和导航传感器的精度提供参考数据。考虑了五种运动类型,并定义了归一化均方根误差进行定量分析。对运动特性参数变化的误差分析结果表明,偏航和摇摆运动对图像畸变的影响最大,俯仰和垂升运动对图像畸变的影响不显著。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A quantitative analysis of synthetic aperture sonar image distortion according to sonar platform motion parameters
Synthetic aperture sonars as well as side scan sonars or multibeam echo sounders have been commercialized and are widely used for seafloor imaging. In Korea related research such as the development of a towed synthetic aperture sonar system is underway. In order to obtain high-resolution synthetic aperture sonar images, it is necessary to accurately estimate the platform motion on which it is installed, and a precise underwater navigation system is required. In this paper we are going to provide reference data for determining the required navigation accuracy and precision of navigation sensors by quantitatively analyzing how much distortion of the sonar images occurs according to motion characteristics of the platform equipped with the synthetic aperture sonar. Five types of motions are considered and normalized root mean square error is defined for quantitative analysis. Simulation for error analysis with parameter variation of motion characteristics results in that yaw and sway motion causes the largest image distortion whereas the effect of pitch and heave motion is not significant.
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CiteScore
0.60
自引率
50.00%
发文量
1
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