基于多角度无透镜傅里叶变换数字全息的散斑噪声抑制成像研究

在数字全息成像中,散斑噪声严重影响了再现像的信噪比和成像分辨率,因此为了提高数字全息成像质量,迫切需要抑制再现像的散斑噪声.分析并给出了矩形散射光斑的强度协方差,定量计算了特定实验条件下产生退相关散斑图样的最小角度差.结合透镜的性质设计并搭建了多角度无透镜傅里叶变换数字全息成像系统,利用光纤端面在透镜焦平面的二维机械移动代替传统反射镜的旋转,使照明光束在不改变照明位置和大小的同时,可任意改变光束方向.移动光纤端面使多角度照明满足最小角度差,获取了81幅数字全息图.利用单次快速傅里叶逆变换实现数值再现,对多幅再现像的强度像求平均,实验结果表明散斑对比度降低为单幅再现像的14.6%,使图像信噪比提高了6.9倍.该抑制散斑的多角度数字全息成像方法有效的抑制了散斑噪声,且成像光路结构简单,可操作性强.     

基于频域分解的融合鬼成像方法

针对传统鬼成像对比度差、信噪比低的问题,提出了一种基于频域分解的融合鬼成像方法.该方法将参考光路中获得的散斑图进行频域变换,选取合适的阈值将其分解为高频散斑和低频散斑,通过分别对高低频散斑与桶探测器得到的值进行关联运算得到高低频鬼像,最后利用逆非下采样剪切波变换重构出最终的鬼像.以对比度和峰值信噪比为评价指标,通过4组实验仿真验证了融合鬼成像方法的有效性.仿真实验结果表明,融合鬼成像的峰值信噪比/对比度较计算鬼成像、差分鬼成像方法分别平均提高了41%/173%、27%/135%.     

基于目标提取与引导滤波增强的红外与可见光图像融合EI北大核心CSCD

为了使融合结果突出目标并发掘更多细节,提出了一种基于目标提取与引导滤波增强的红外与可见光图像融合方法。首先对红外图像依据二维Tsallis熵和基于图的视觉显著性模型提取目标区域。然后对可见光与红外图像分别进行非下采样Shearlet变换(NSST),并对所得低频分量进行引导滤波增强。由增强后的红外图像和可见光图像低频分量基于目标提取的融合规则得到融合图像的低频分量,高频分量则根据方向子带信息和取大来确定。最后经NSST逆变换得到融合图像。大量实验结果表明,本文方法在增强融合图像空间细节的同时,有效突出了目标,并且在信息熵、平均梯度等指标上优于基于拉普拉斯金字塔变换、基于小波变换、基于平稳小波变换、基于非下采样Contourlet变换(NSCT)、基于目标提取与NSCT变换等。     

基于目标提取与引导滤波增强的红外与可见光图像融合

为了使融合结果突出目标并发掘更多细节,提出了一种基于目标提取与引导滤波增强的红外与可见光图像融合方法。首先对红外图像依据二维Tsallis熵和基于图的视觉显著性模型提取目标区域。然后对可见光与红外图像分别进行非下采样Shearlet变换(NSST),并对所得低频分量进行引导滤波增强。由增强后的红外图像和可见光图像低频分量基于目标提取的融合规则得到融合图像的低频分量,高频分量则根据方向子带信息和取大来确定。最后经NSST逆变换得到融合图像。大量实验结果表明,本文方法在增强融合图像空间细节的同时,有效突出了目标,并且在信息熵、平均梯度等指标上优于基于拉普拉斯金字塔变换、基于小波变换、基于平稳小波变换、基于非下采样Contourlet变换(NSCT)、基于目标提取与NSCT变换等。     

一种基于清晰度计算的NSCT域多聚焦图像融合算法

针对多聚焦图像的特点．提出了一种基于清晰度计算的非抽样轮廓波变换（Non-Subsampied Contourlet’Transform,NSCT）域多聚焦图像融合算法。该算法首先对源图像进行NSCT分解．以此克服传统Contourlet变换不具平移不变性的缺点。在分析光学成像中散焦表现形式的基础上．对分解后的低频子带和高频方向子带分别以“邻域梯度”及“合成邻域模值”作为清晰度指标。采用自适应选择法实现对多聚焦图像的融合处理。实验结果表明,该方法不仅能有效融合图像中的“伪影”和“振铃效应”．视觉效果明显优于传统小波和Contourlet方法,且融合图像的熵、交叉熵及均方根交叉熵等客观评价指标也有明显提高。     

基于改进梯度投影NMF和复Contourlet变换的遥感图像融合

为了尽可能地保留全色图像的空间信息和多光谱图像的光谱信息,提出了一种基于改进梯度投影非负矩阵分解和复Contourlet变换的遥感图像融合方法.首先,以多光谱图像的强度分量图像为标准,对全色图像做直方图匹配,得到新的全色图像;然后,利用复Contourlet变换分别分解多光谱图像的强度分量图像和新的全色图像,得到各自对应的低频分量和高频分量;接着,对两幅低频分量图像采用改进梯度投影的非负矩阵分解作为融合规则获取新的低频分量,并对两幅高频分量图像使用系数绝对值较大法获取新的高频分量;最后,通过逆复Contourlet变换和逆色调-饱和度-强度变换获得融合后的图像.大量实验结果表明,与HSI方法、NMF与无下采样Contourlet变换结合的方法以及提升小波变换与HSI结合的方法相比,本文方法获得的融合图像具有更高的空间分辨率和更多的光谱信息.     

微细铣刀位姿同轴全息重建方法

微细铣刀在主轴上存在装夹偏角时,会加剧刀刃磨损,降低刀具使用寿命.为了精确观测微细铣刀在机倾斜状态,提出了基于景深的微细铣刀三维位姿重建方法.利用激光同轴数字全息实验装置得到微细铣刀全息图,并通过菲涅尔再现算法获得再现像.在再现像中提取刀具边缘点作为关键点,采用小波变换局部方差算子求出关键点的聚焦程度,确定铣刀对应的轴...     

基于改进对比度的有限离散剪切波图像融合

为了提高多聚焦图像的融合精度,结合有限离散剪切波变换(FDST)良好的局部化特性及平移不变性,提出了一种基于有限离散剪切波变换与改进对比度相结合的图像融合新算法。对经过严格配准后的多聚焦图像进行FDST分解,得到低频子带系数和不同尺度不同方向的高频子带系数;对低频子带系数采用区域平均能量匹配度自适应融合算法,高频子带系数的选取则根据低频与高频系数关联得到的对比度进行融合;应用有限离散剪切波逆变换重构得到融合图像,并对融合结果进行主观视觉和客观评价。通过仿真实验,算法在主观视觉效果上有着明显的优越性。在不同融合算法比较的融合结果中,熵值、互信息量和边缘相似度分别平均提高了1.4%、34.6%和8.0%,各项客观评价指标优于其他算法。     

基于区域分割和Counterlet变换的图像融合算法

提出了一种基于区域分割和Contourlet变换的图像融合算法。首先,对各源图像做区域分割,并利用区域能量比和区域清晰比的概念来度量和提取区域信息;然后,对各源图像进行多尺度非子采样Contourlet分解,分解后的高频部分采用绝对值取大算子进行融合,低频部分则采用基于区域的融合规则和算子进行融合;最后进行重构得到融合图像。对红外与可见光图像进行了融合实验,并与基于像素的àtrous小波变换和Contourlet变换的融合效果进行了比较。结果表明,采用本文算法的融合图像既保留了可见光图像的光谱信息,又继承了红外图像的目标信息,其熵值高于基于像素的融合方法约10%,交叉熵仅为基于像素的融合方法的1%左右。     

毫米波全息成像中的部分发育散斑模型

建立了包含镜面反射分量的毫米波全息成像中的部分发育散斑模型。将部分发育的散斑模型与毫米波全息成像的卷积过程相结合,推导了等效散射中心个数,建立了散斑对比度与高斯粗糙面均方根高度、相关长度和成像分辨率的关系。基于近场物理光学法,对随机粗糙面的毫米波全息散斑图样进行了蒙特卡罗仿真和散斑对比度分析。结果表明,当等效散射中心个数较少时,该模型与随机积分法及仿真所估计的散斑对比度一致,优于传统模型的估计结果。     

Study on the reduction of speckle noise in the reconstructed image of digital hologram

As one of the most important 3-D display technique, reduction of speckle noise in the reconstructed image of digital holography should be grounded on the digital hologram itself. Based on the whole process of the recording and reconstruction of digital holography, the optical distributions of recorded object and reconstructed image of digital holography have been studied. It has been proposed that the root formation cause of speckle noise in its reconstructed image is the speckle noise formed on the recorded object surface when illuminated by coherent light because of its optical roughness. A novel approach has been presented to reduce speckle noise in digital holography by changing the interference structure of hologram itself. First, by reducing the speckle noise in the reconstructed image, the distribution of ideal reconstruction light with reduced speckle noise is acquired. Then in turn, taking the ideal reconstruction light with reduced speckle noise as ideal object light, a new hologram can be rebuilt, which can reconstruct the ideal object light. The experimental results are given to confirm the proposed method. Therefore, it offers a brand-new thought and practical way to reduce the speckle noise in the reconstructed image of digital holography.     

An adaptive fusion approach for infrared and visible images based on NSCT and compressed sensing

A novel nonsubsampled contourlet transform (NSCT) based image fusion approach, implementing an adaptive-Gaussian (AG) fuzzy membership method, compressed sensing (CS) technique, total variation (TV) based gradient descent reconstruction algorithm, is proposed for the fusion computation of infrared and visible images.Compared with wavelet, contourlet, or any other multi-resolution analysis method, NSCT has many evident advantages, such as multi-scale, multi-direction, and translation invariance. As is known, a fuzzy set is characterized by its membership function (MF), while the commonly known Gaussian fuzzy membership degree can be introduced to establish an adaptive control of the fusion processing. The compressed sensing technique can sparsely sample the image information in a certain sampling rate, and the sparse signal can be recovered by solving a convex problem employing gradient descent based iterative algorithm(s).In the proposed fusion process, the pre-enhanced infrared image and the visible image are decomposed into low-frequency subbands and high-frequency subbands, respectively, via the NSCT method as a first step. The low-frequency coefficients are fused using the adaptive regional average energy rule; the highest-frequency coefficients are fused using the maximum absolute selection rule; the other high-frequency coefficients are sparsely sampled, fused using the adaptive-Gaussian regional standard deviation rule, and then recovered by employing the total variation based gradient descent recovery algorithm.Experimental results and human visual perception illustrate the effectiveness and advantages of the proposed fusion approach. The efficiency and robustness are also analyzed and discussed through different evaluation methods, such as the standard deviation, Shannon entropy, root-mean-square error, mutual information and edge-based similarity index.     

一种基于小波变换的红外偏振融合算法

针对红外偏振图像可以较好地抑制背景噪声,对目标边缘信息比较敏感的特点,提出一种基于小波变换的红外偏振融合算法,它主要用于红外辐射强度图像和偏振度图像融合,增加图像的信息量。首先采用小波变换对参与融合的每幅图像分别进行各尺度分解,得到各尺度小波系数,然后针对不同尺度小波系数,采用邻域平均梯度为判据进行融合,得到融合后的各尺度小波系数,最后通过小波逆变换进行图像重构,得到融合图像。融合前后的图像对比表明融合图像在保留辐射强度图像的清晰度的同时,突出了目标的边缘、轮廓信息。相对于辐射强度图像,融合图像的梯度均值提高了112%,相对于偏振度图像,融合图像的标准差提高了151%,信息熵提高了38%。     

An improved fusion algorithm for infrared and visible images based on multi-scale transform

In this paper, an improved fusion algorithm for infrared and visible images based on multi-scale transform is proposed. First of all, Morphology-Hat transform is used for an infrared image and a visible image separately. Then two images were decomposed into high-frequency and low-frequency images by contourlet transform (CT). The fusion strategy of high-frequency images is based on mean gradient and the fusion strategy of low-frequency images is based on Principal Component Analysis (PCA). Finally, the final fused image is obtained by using the inverse contourlet transform (ICT). The experiments and results demonstrate that the proposed method can significantly improve image fusion performance, accomplish notable target information and high contrast and preserve rich details information at the same time.     

Speckle reduction by selective spatial-domain mask in digital holography

An improved method of using a selective spatial-domain mask to reduce speckle noise in digital holography is proposed.The sub-holograms are obtained from the original hologram filtered by the binary masks including a shifting aperture for being reconstructed. Normally, the speckle patterns of these sub-reconstructed images are different. The speckle intensity of the final reconstructed image is suppressed by averaging the favorable sub-reconstructed images which are selected based on the most optimal pixel intensity sub-range in the sub-holograms. Compared with the conventional spatial-domain mask method, the proposed method not only reduces the speckle noise more effectively with fewer sub-reconstructed images,but also reduces the redundant information used in the reconstruction process.     

一种基于区域特性的红外与可见光图像融合算法

提出了一种基于区域分割和à trous小波变换的红外与可见光图像融合算法.首先,对红外与可见光图像进行区域分割及区域关联,并按关联映射图所划分区域提取红外与可见光图像的的能量信息及梯度信息;然后,对红外与可见光图像进行多尺度à trous小波变换分解,分解后的低频部分按照文中所提出的区域能量比和区域清晰比指标进行区域融合,高频部分采用绝对值取大算子进行融合;最后进行重构得到融合图像.结果表明,该算法既可保持可见光图像的光谱信息,又可有效获取红外图像的热目标信息.     

An effective method for reducing speckle noise in digital holography

An effective method for reducing the speckle noise in digital holography is proposed in this paper.Different from the methods based on classical filtering technique,it utilizes the multiple holograms which are generated by rotating the illuminating light continuously.The intensity images reconstructed by a series of holograms generated by rotating the illuminating light possess different speckle patterns.Hence by properly averaging the reconstructed intensity fields,the speckle noises can be reduced greatly.Experimental results show that the proposed method is simple and effective to reduce speckle noise in digital holography.     

基于Shearlet变换的自适应图像融合算法

针对多聚焦图像与多光谱和全色图像的成像特点,结合Shearlet变换具有较好的稀疏表示图像特征的性质,提出了一种新的图像融合规则.并基于此融合规则,提出了基于Shearlet变换的自适应图像融合算法.在多聚焦图像的融合算法中,分别对聚焦不同的图像进行Shearlet变换,并基于本文提出的融合规则,对分解后的高低频系数进行融合处理. 通过与多种算法的比较实验证明了本文提出的算法融合的图像具有更高的清晰度和更加丰富的细节信息.在多光谱和全色图像的融合处理中,提出了一种基于Shearlet变换与HSV变换相结合的图像融合方法.该算法首先对多光谱图像作HSV变换,将得到的V分量与全色图像进行Shearlet分解与融合,在融合过程中对分解系数选用特定的融合准则进行融合,最后将融合生成新的分量与H、S分量进行HSV逆变换产生新的RGB融合图像. 该算法在空间分辨率和光谱特性两方面达到了良好的平衡,融合后的图像在减少光谱失真的同时,有效增强了空间分辨率. 仿真实验证明,本文算法融合的图像与传统的多光谱和全色图像融合算法相比,具有更佳的融合性能和视觉效果.