客观评价不同的水下图像分割算法

Jayanta Acharya, S. Gadhiya, Kapil S. Raviya
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引用次数: 5

摘要

水介质、大气介质、压力和温度直接影响水下图像的质量。这就强调了图像分割的必要性,将图像分割成与物体有较强相关性的部分,以反映从现实世界中采集到的实际信息。在几乎所有的自动图像识别系统中,图像分割是最实用的方法。特征提取和识别在电信、天气预报、环境勘探和医疗诊断等领域有着广泛的应用。文献中有不同的分割技术用于分割或简化水下图像。图像分割算法的性能取决于其对图像的简化程度。本文对水下图像实现了基于边缘的图像分割、自适应图像阈值分割、K-means分割、模糊c均值(FCM)和模糊c均值带阈值分割(FCMT)等不同的分割算法,并利用能量、离散熵、相对熵、互信息和冗余等客观评价参数对它们进行了比较。实验结果表明,模糊C均值阈值(FCMT)算法在处理水下图像方面的性能优于其他方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Objective assesment of different segmentation algorithm for underwater images
The quality of underwater images is directly affected by water medium, atmosphere medium, pressure and Temperature. This emphasizes the necessity of image segmentation, which divides an image into parts that have strong correlations with objects to reflect the actual information collected from the real world. Image segmentation is the most practical approach among virtually all automated image recognition systems. Feature extraction and recognition have numerous applications on telecommunication, weather forecasting, environment exploration and medical diagnosis. Different segmentation techniques are available in the literature for segmenting or simplifying the underwater images. The performance of an image segmentation algorithm depends on its simplification of image. In this paper, different segmentation algorithms namely, edge based image segmentation, adaptive image thresolding, K-means segmentation, Fuzzy c means(FCM), and Fuzzy C Means with thresholding (FCMT) are implemented for underwater images and they are compared using objective assesment parameter like Energy, Discrete Entropy, Relative Entropy, Mutual Information and Redundancy. Out of the above methods the experimental results show that Fuzzy C means with Thresholding (FCMT) algorithm performs better than other methods in processing underwater images.
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