Multilevel Thresholding-based Medical Image Segmentation using Hybrid Particle Cuckoo Swarm Optimization

Dharmendra Kumar, Anil Kumar Solanki, Anil Kumar Ahlawat
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Abstract

Background: The most important aspect of medical image processing and analysis is image segmentation. Fundamentally, the outcomes of segmentation have an impact on all subsequent image testing methods, including object representation and characterization, measuring of features, and even higher-level procedures. The problem with image segmentation is recognition and perceptual completion while segmenting the image. However, these issues can be resolved by multilevel optimization techniques. However, multilevel thresholding will become more computationally intensive with increasing thresholds. Optimization algorithms can resolve these issues. Therefore, hybrid optimization is used for image segmentation in this research work. Methods: The researchers propose a Multilevel Thresholding-based Segmentation using a Hybrid Optimization approach with an adaptive bilateral filter to resolve the optimization challenges in medical image segmentation. The proposed model utilizes Kapur's entropy as the objective function in the nature-inspired optimization algorithm. Results: The result is evaluated using parameters such as the Peak Signal-to-Noise Ratio (PSNR), Structural Similarity Index (SSIM), and Feature Similarity Index (FSIM). The researchers perform result analysis with variable thresholding levels on KAU-BCMD and mini-MIAS datasets. The highest PSNR, SSIM, and FSIM achieved were 31.9672, 0.9501, and 0.9728 respectively. The results of the hybrid model are compared with state-of-the-art models, demonstrating its efficiency. Conclusion: The research concludes that the proposed Multilevel thresholding-based segmentation using a Hybrid Optimization approach effectively solves optimization challenges in medical image segmentation. The results indicate its efficiency compared to existing models. The research work highlights the potential of the proposed hybrid model for improving image processing and analysis in the medical field.
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基于混合粒子布谷鸟群优化的多层次阈值医学图像分割
背景:医学图像处理与分析中最重要的一个方面是图像分割。从根本上说,分割的结果会影响所有后续的图像测试方法,包括对象表示和表征,特征测量,甚至更高级别的程序。图像分割的问题是图像分割时的识别和感知补全。然而,这些问题可以通过多级优化技术来解决。然而,随着阈值的增加,多层阈值将变得更加计算密集。优化算法可以解决这些问题。因此,本研究采用混合优化方法进行图像分割。方法:针对医学图像分割中存在的优化问题,提出了一种基于多级阈值的自适应双边滤波器混合优化分割方法。该模型利用Kapur熵作为自然优化算法的目标函数。结果:使用峰值信噪比(PSNR)、结构相似指数(SSIM)和特征相似指数(FSIM)等参数对结果进行评估。研究人员对KAU-BCMD和mini-MIAS数据集进行了不同阈值水平的结果分析。最高PSNR、SSIM和FSIM分别为31.9672、0.9501和0.9728。将混合模型的计算结果与现有模型进行了比较,验证了其有效性。结论:本文提出的基于多级阈值的混合优化分割方法有效地解决了医学图像分割中的优化难题。结果表明,与现有模型相比,该模型是有效的。这项研究工作突出了所提出的混合模型在改善医学领域图像处理和分析方面的潜力。
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来源期刊
Recent Advances in Computer Science and Communications
Recent Advances in Computer Science and Communications Computer Science-Computer Science (all)
CiteScore
2.50
自引率
0.00%
发文量
142
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