结合图论的JSEG彩色图像分割算法

静态图像压缩标准（ JSEG）分割算法是一种经典的图像分割方法,它充分考虑到了图像的局部信息,可以获得比较精确的分割边界。但JSEG算法在分割过程中计算量相当大并且分割结果容易出现过分割现象。由此,文中提出一种结合图论的JSEG图像分割算法。首先去除JSEG算法中在多个尺度上反复计算J值的过程,改为仅在一个小尺度上进行计算。其次,在得到的J图上使用K-means方法进行聚类,分割得到过分割区域。最后,将分割后的小区域对应为图中的点,进而利用图理论的方法进行区域合并。实验结果表明新算法具有高精度和低复杂度的优势。     

基于流形学习的正交稀疏保留投影

稀疏保留投影通过保留样本之间的全局稀疏重构关系来进行特征提取,获得了良好的分类效果。但是,稀疏保留投影得到的投影变换通常不是正交的,而且在实际应用中,正交性一直被认为有利于提高鉴别能力。另外,根据流形学习理论,局部流形结构比全局欧式结构更重要。因此,文中在稀疏保留投影中引入了流形结构保留和正交投影,提出了整体正交流形稀疏保留投影（HOMSPP）和迭代正交流形稀疏保留投影（IOMSPP）两种实现算法来实现人脸和掌纹图像的特征提取。     

图像高斯噪声估计的极大似然算法

提出一种图像高斯噪声极大似然估计方法,目的是估计出噪声图像所含噪声大小。首先,根据高斯噪声模型的特点,用极大似然法估计噪声值,对图像所含噪声模型进行分析。其次,把噪声图像用直方图表示,从归一化直方图中选出不同的样本观测值,用极大似然算法对噪声的方差进行估计。最后,用MATLAB对该方法进行了模拟实验,实验结果表明此方法所得的图像噪声的方差与实际图像噪声的方差近似相等。所以,此方法无论是在准确性上还是在可行性上均具有优良的特性。     

基于数据同化的图像融合方法研究

数据同化凭借其在数值预报中将观测数据与理论模型相结合的特点,目前广泛应用于遥感图像处理及图像融合领域。文中介绍了数据同化的含义和数据同化系统的构成,并分析了其应用于图像融合的原理;结合现有的研究成果着重分析了数据同化框架下结合不同优化算法的图像融合方法,并对其进行分类比较,给出了各方法的优缺点和研究成果及应用;最后在总结了各种基于数据同化的图像融合方法普遍存在的问题的基础上,探讨了进一步发展与研究的方向。     

改进标记分水岭的乳腺X线图像肿块检测方法

乳腺X线图像肿块大小不一,固定参数的传统标记分水岭算法无法实现乳腺X线图像肿块的有效检测。针对此问题,文中提出了一种结合形状特征和改进型标记分水岭的乳腺X线图像肿块检测方法。在计算前景标记时,结合标记的形状特征判定前景标记,通过对前景标记进行形态学膨胀并提取边缘以获得背景标记,利用改进型自适应参数标记分水岭算法实现肿块检测。实验结果表明,文中算法通过结合形状特征,自适应地选择合适的形态学参数,使得肿块检测准确率高于传统标记分水岭算法。     

基于流形学习的整体正交稀疏保留鉴别分析

稀疏保留投影是一种有效的特征提取方法,但是其主要关注样本间的全局稀疏重构关系,并且得到的投影变换通常不是正交的。在实际应用中,图像数据往往处于高维空间中的一种低维流形中,正交性一直被认为有利于提高鉴别能力。文中以有监督学习的方式在稀疏保留投影中引入了流形结构保留,并使得投影空间正交,从而提出了一种新的特征提取方法,即基于流形学习的整体正交稀疏保留鉴别分析（MLHOSDA）。在人脸和掌纹图像数据库的实验结果表明此方法具有较好的识别效果。     

Image decomposing for inpainting using compressed sensing in DCT domain

Inpainting images with occlusion or corruption is a challenging task. Most existing algorithms are pixel based, which construct a statistical model from image features. However, in these algorithms, the frequency component is not sufficiently addressed. In this paper, we propose a novel algorithm that utilizes compressed sensing （CS） in frequency domain to reconstruct corrupted images. In order to reconstruct image, we first decompose the image into two functions with different basic characteristics - structure component and textual component. We seek a sparse representation for the functions and use the DCT coefficients of this representation to generate an over-complete dictionary. Experimental results on real world datasets demonstrate the efficacy of our method in image inpainting. We compare our method with three state-of-the-art inpalnting algorithms and demonstrate its advantages in terms of both quantitative and qualitative aspects.     

Local adaptive segmentation algorithm for 3-D medical image based on robust feature statistics

Medical image segmentation is of pivotal importance in computer-aided clinical diagnosis. Many factors, including noises, bias field effect, local volume effect, as well as tissue movement may affect the med- ical image, thus causing blurring or uneven characteristics when forming a picture. Such quality defects will inevitably impair the gray-scale difference between adjacent tissues and lead to insufficient segmentation or even leakage during tissue or organ segmentation. In the present investigation, a local adaptive segmentation algorithm for 3-D medical image based on robust feature statistics （LARFS） was proposed. By combining segmentation algorithm principles for traditional region growing （RG） and robust feature statistics （RFS）, the location and neighborhood image information of input seed point can be comprehensively analyzed by LARFS. Results show that, for different segmentation objects, under controlling the input parameter of growing factor within certain range, LARFS segmentation algorithm can adapt well to the regional geometric shape. And be- cause the robust feature statistics is applied in the contour evolution process, LARFS algorithm is not sensitive to noises and not easily influenced by image contrast and object topology. Hence, the leakage and excessive segmentation effects are ameliorated with a smooth edge, and the accuracy can be controlled within the effective error range.     

Variational PCA fusion for resolution Pan-sharpening very high imagery

The Pan-sharpening approach based on principle component analysis （PCA） is affected by severe spectral distortion. To address this problem, a new pan-sharpening model based on PCA and variational technique is proposed to construct the substitute image of the first principal component （PC1）. The energy functional consists of three terms. The first term injects PC1 with the geometric structure of the panchromatic （Pan） image. The second term preserves the spectral pattern of the multi-spectral image in the merged result. And the third term guarantees the smoothness of the functional optimization solution. The fusion result is given by the minimum of the energy functional, which is computed with the gradient descend flow. The experiments on QuickBird and IKONOS datasets validate the effectiveness of the proposed model. Compared with the state- of-the-art pan-sharpening approaches, this model exhibits a better trade-off between improving spatial quality and preserving spectral signature of the MS image.     

基于测地线活动轮廓模型的图像除噪和增强

讨论曲线演化的活动模型去除图像噪声的性质。利用不同尺度小波变换系数的边缘映射指示图像的边缘。把不同尺度下的边缘映射经复合设置成曲线演化方程的边缘指示函数。为了防止边缘尖点被平滑,采用一种新的数值离散迭代格式求解曲线演化方程。这样使曲线演化方程在均匀区域能更好地平滑噪声,边缘点得到保护且不被模糊。通过对图像的仿真试验说明提出的方法在图像除噪方面有良好的效果。