排序方式: 共有67条查询结果,搜索用时 140 毫秒
1.
This paper investigates the use of time-adaptive self-organizing map (TASOM)-based active contour models (ACMs) for detecting the boundaries of the human eye sclera and tracking its movements in a sequence of images. The task begins with extracting the head boundary based on a skin-color model. Then the eye strip is located with an acceptable accuracy using a morphological method. Eye features such as the iris center or eye corners are detected through the iris edge information. TASOM-based ACM is used to extract the inner boundary of the eye. Finally, by tracking the changes in the neighborhood characteristics of the eye-boundary estimating neurons, the eyes are tracked effectively. The original TASOM algorithm is found to have some weaknesses in this application. These include formation of undesired twists in the neuron chain and holes in the boundary, lengthy chain of neurons, and low speed of the algorithm. These weaknesses are overcome by introducing a new method for finding the winning neuron, a new definition for unused neurons, and a new method of feature selection and application to the network. Experimental results show a very good performance for the proposed method in general and a better performance than that of the gradient vector field (GVF) snake-based method. 相似文献
2.
针对传统的主动轮廓模型对噪声敏感的缺陷,在推广梯度矢量流的基础上,提出了基于二进小波变换的改进外力场的计算方法.通过综合利用图像小波分解的高频信息,迭代计算获得其外力场,使蛇在图像的多尺度空间中搜索目标轮廓.针对蛇模型对初始轮廓的依赖性问题,给出了在一维最大熵阈值分割后的图像上获取初始轮廓点的方法,减少了人工的干预,加快了蛇的收敛速度和效果.实验结果表明该模型能有效地排除噪声的干扰,搜索凹陷轮廓,而且对脆弱轮廓有很好的逼近能力. 相似文献
3.
对使用GVF Snake动态轮廓模型算法中两次迭代的时间复杂度进行了统计计算,并进行了力场分析,在此基础上对初始轮廓线设定位置进行了研究。实验结果表明,初始轮廓线的设置应避免跨越能量极小值,此时可以得到比较好的提取效果。GVF力场迭代的次数和轮廓逼近次数与时间成正比。 相似文献
4.
5.
基于梯度向量流的医学图像自动分割 总被引:3,自引:0,他引:3
提出了一种基于梯度向量流的自动图像分割算法,该算法首先将梯度向量流场转化为一个标量场,该标量场能够显著简化种子点选取和区域增长的步骤。在得到图像的初始分割后,再使用基于区域邻接图的算法来将相似区域合并得到最终分割结果。试验结果表明,该算法能够有效地解决医学图像中多目标区域的自动分割问题。 相似文献
6.
视盘的检测对于眼底图像分析和计算机辅助诊断视网膜神经疾病有重要意义。论文提出了一种新型的视盘分割方法,新方法的思想是在去除血管的背景图像应用梯度向量场 GVF 活动轮廓模型。首先,从原始图像获取部分背景图像的像素,即获得在去除图像中血管像素之后的部分像素,然后利用取得部分背景的像素重塑整个背景图像,最后在恢复的背景图像中应用 GVF 活动轮廓模型分割出视盘,GVF Snake 模型的初始曲线为 Hough circle 。选取了不同的眼底医学图像进行了大量的实验,结果表明论文算法的分割结果十分准确,具有较好的分割效果。 相似文献
7.
基于熵和GVF的血管内超声图像边缘检测 总被引:1,自引:0,他引:1
血管内超声(intravascular ultrasound,IVUS)图像属于复杂度高的图像,只使用传统的Snake模型、GVF模型不易得到确切的血管壁内、外膜边缘轮廓。本文采用先对IVUS原图像进行预处理的方法来降低IVUS图像的复杂度。在预处理中,提出了采用极坐标变换、基于熵的阈值分割和二值化处理的方法。之后再采取改进的GVF变换与图像迭加等处理方法。实验结果验证了该方法的有效性。 相似文献
8.
Guo S 《Microscopy research and technique》2012,75(4):524-530
Starch is the most important carbohydrate in the human diet and contained in many staple foods such as rice, wheat, corn, potatoes and cassava, etc. Currently, microscopic imaging technology is one of the most effective ways to investigate and analyze the structure of starches. Segmentation of starch granules is a necessary step for starch granule structure analysis such as starch granules detection, shape recognition, and size computation. This article investigates a new method based on GVF (gradient vector flow) snake deformable model for starch granules segmentation. The proposed method focuses on full automatic segmentation on granules, especially on separation of adjacent and contacted starch granules, which occur widely in microscopic images. A novel energy function based on position and intensity is introduced into the directional gradient computation, thus the directional gradient is used to obtain the directional GVF snake, which drives the deforming contours to the real contours of multiple granules. To demonstrate the good ability of the proposed method, we segment 30 starch granule images and compare it with the level set method, experimental results show that the new method can separate multiple starch granules successfully; especially it works much better on overlapping objects segmentation than the level set method. 相似文献
9.
在电力系统中,利用计算机视觉和图像处理技术对零值绝缘子进行检测,对保障电力系统的安全运行具有非常重要的作用。提出了一种基于红外图像的零值绝缘子自动检测算法。该算法首先对输入图像进行预处理,利用GLOH描述子结合机器学习精确定位绝缘子,然后利用图谱方法提取图像的边界点,并搜索初始轮廓线作为初始值,利用GVF Snake模型检测绝缘子串的精确轮廓线,以分割绝缘子,最后通过分析统计直方图,实现零值绝缘子的自动检测。实验结果表明,所提出的算法可以有效地检测零值绝缘子。 相似文献
10.
数字人切片数据的硬件加速体绘制 总被引:2,自引:1,他引:2
实现了一个PC平台下的体绘制硬件加速算法,并对中国数字人、美国可视化人数据集进行可视化.预处理去除图像背景时,将图像从RGB颜色空间转换到YCbCr颜色空间,然后对Cb分量进行Otsu阈值化处理,用生成的二值图像作为掩码图像去除背景.为支持任意大小的体数据,采取了分块策略,并使用BSP树组织数据块,以生成正确的绘制顺序.此外还设计了一种基于图像的CIELUV颜色空间L分量的梯度向量场的传输函数,并取得了良好的绘制效果. 相似文献