带有改进的二阶微分驱动项的主动轮廓模型

IF 3.4 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Signal Processing Pub Date : 2024-08-20 DOI:10.1016/j.sigpro.2024.109667

Bin Dong, Zicong Zhu, Qianqian Bu, Jingen Ni

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引用次数: 0

摘要

主动轮廓模型（ACM）中的驱动项在边缘识别和图像分割中发挥着重要作用。然而，在许多现有的主动轮廓模型中，驱动项都是迭代更新的，导致分割速度较慢，因为图像分割时间会随着迭代次数的增加而增加。为了解决这个问题，本文提出了一种基于改进二阶微分驱动项（ISDDT）的 ACM，它可以提取图像的边缘信息。改进的二阶微分驱动项只需在迭代前计算一次。因此，我们提出的 ACM 计算复杂度降低，从而加快了图像分割速度。此外，为了提高 ISDDT 模型的鲁棒性，我们还提出了一种带有均值滤波的改进正则化方法。作为一种应用，我们基于 ISDDT 模型开发了一种目标轮廓跟踪方法。实验结果表明，我们的 ISDDT 模型能很好地分割不均匀强度的图像。我们提出的模型在图像分割速度方面具有明显优势。

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Active contour model with improved second-order differential driven term

Driven terms in active contour models (ACMs) play a significant role in edge identification and image segmentation. However, in many existing ACMs, the driven terms are iteratively updated, resulting in slower segmentation speed because the image segmentation time increases with the iteration number. To address this problem, an ACM based on an improved second-order differential driven term (ISDDT) is presented, which can extract the edge information of images. The improved second-order differential driven term is computed only once before the iterations. Therefore, the computational complexity of our presented ACM is reduced, leading to a faster image segmentation speed. In addition, an improved regularization method with mean filtering is presented to improve the robustness of our ISDDT model. As an application, a target contour tracking method is developed based on our ISDDT model. Experimental results show that our ISDDT model segments images with inhomogeneous intensities well. The image segmentation speed of our proposed model has obvious advantages.

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来源期刊

Signal Processing 工程技术-工程：电子与电气

CiteScore

9.20

自引率

9.10%

发文量

309

审稿时长

41 days

期刊介绍： Signal Processing incorporates all aspects of the theory and practice of signal processing. It features original research work, tutorial and review articles, and accounts of practical developments. It is intended for a rapid dissemination of knowledge and experience to engineers and scientists working in the research, development or practical application of signal processing. Subject areas covered by the journal include: Signal Theory; Stochastic Processes; Detection and Estimation; Spectral Analysis; Filtering; Signal Processing Systems; Software Developments; Image Processing; Pattern Recognition; Optical Signal Processing; Digital Signal Processing; Multi-dimensional Signal Processing; Communication Signal Processing; Biomedical Signal Processing; Geophysical and Astrophysical Signal Processing; Earth Resources Signal Processing; Acoustic and Vibration Signal Processing; Data Processing; Remote Sensing; Signal Processing Technology; Radar Signal Processing; Sonar Signal Processing; Industrial Applications; New Applications.