基于频谱边缘检测和Radon变换估计运动模糊图像的方向

为了准确估计运动模糊图像的方向,在理论推导部分,以定积分、Fourier变换和Sinc函数的性质为依据,得出了运动模糊方向、图像尺寸和频谱图像平行条纹方向三者的关系。在算法优化部分,系统分析了Radon变换法、Gabor变换法和频谱分块法的原理和不足,并提出了基于频谱边缘检测和Radon变换的改进算法。在数值实验部分,编写Matlab程序对几种方法进行了测试和比较,结果表明,该方法的估计精度最高,更适用于估计运动模糊图像的方向。

一种改进的光流估计方法

运动估计一直是视频处理领域的核心课题之一,基于Horn和Schunk所提出的光流约束方程的光流场估计类算法是图像运动估计的一类重要算法。本文针对光流法在亮度突变条件下,运动参数估计不准确的弱点,基于图像的边缘变化特征,对平滑约束项加以改进,给出了一种基于区域平滑约束的光流估计算法。该算法能够提高光流估计的精确性,降低Horn-Schunck法中全局平滑约束对运动边界的影响,提高峰值信噪比。实验结果表明,该方法更为有效和实用。

一种弱纹理图像特征跟踪的鲁棒方法

目的提出一种用于弱纹理图像的特征提取和跟踪的鲁棒方法．方法选取包含若干表面片的结构化特征，并假设结构化特征中的表面片之间的关系在图像运动时保持不变．使用基于梯度的方法和基于相关性的方法在另一幅图像中求取对应的结构化特征．利用结构化特征不变性判据，评价对应结构化特征的有效性．结果与结论该算法能有效地跟踪一般表面片特征，非常适合于在室外获取的一般图像序列和弱纹理图像序列运动分析．

光流场估计算法的优化分析

运动估计一直是视频处理领域的核心课题之一 ,而基于Horn和Schunk所提出的光流基本约束方程的光流场估计类算法是图像运动估计的一类重要算法。从由于缺少约束而事实上并不完备的光流基本约束方程出发 ,人们提出了各种光流计算方法 ,从算法约束条件上分为全局优化和局部优化两类。本文将对各类算法进行比较 ,归纳出其思路发展轨迹。同时 ,本文将选取一种基于区域平滑约束的光流场估计算法进行分析 ,该算法性能较为稳定 。

超分辨率图像复原技术综述

介绍了超分辨率图像重建的基本概念、应用场合和主要的重建方法,着重分析了压缩域中的超分辨率重建技术,并对未来的研究问题进行了展望。

估计运动模糊图像方向角的数学模型研究

从实拍的运动模糊图像出发,建立了数学模型来估计运动模糊的方向角.经理论推导,得出了运动模糊方向角、图像尺寸和频谱图像中平行条纹方向角三者的关系,将问题转化为估计频谱平行条纹方向角.在模型求解部分,分析了常用的Radon变换法以及两种改进方法即Gabor变换法和频谱分块法的不足,并提出了基于频谱边缘检测的改进方法.数值实验部分比较了三种方法,结果表明,方法的估计精度更高,具有更广泛的应用性.

光流场在动态手势识别技术中的应用

对于人机交互系统来说手势识别是其中一个较为关键的组成部分,它涉及了有关图像处理技术、模式识别技术、计算机视觉技术与人工智能技术等多种学科内容。它的研究目的是把手势更好的运用到人机接口当中去,这样可以实现更加自然与和谐的人机交互关系。想要进行手势识别操作,首先是要进行手势建模,而如果手势比较繁琐的话,就需要考虑手形的变化与手的运动轨迹这两种不同的变化特性。所以,想要利用直观的方式来构建手势模型是很难的。想要解决手势建模的问题,我们就必须要引入图像运动估计理论,这是建立手势模型动态场景分析所需要的理论基础,比较常见的方法是利用基于光流场来建立。文章主要介绍光流法在动态手势识别中的运用。

IMPROVED SYNTHETIC APERTURE SONAR MOTION COMPENSATION COMBINED DPCA WITH SUB-APERTURE IMAGE CORRELATION

Estimation precision of Displaced Phase Center Algorithm(DPCA) is affected by the number of displaced phase center pairs,the bandwidth of transmitting signal and many other factors.Detailed analysis is made on DPCA's estimation precision.Analysis results show that the directional vector estimation precision of DPCA is low,which will produce accumulating errors when phase cen-ters' track is estimated.Because of this reason,DPCA suffers from accumulating errors seriously.To overcome this problem,a method combining DPCA with Sub Aperture Image Correlation(SAIC) is presented.Large synthetic aperture is divided into sub-apertures.Micro errors in sub-aperture are estimated by DPCA and compensated to raw echo data.Bulk errors between sub-apertures are esti-mated by SAIC and compensated directly to sub-aperture images.After that,sub-aperture images are directly used to generate ultimate SAS image.The method is applied to the lake-trial dataset of a 20 kHz SAS prototype system.Results show the method can successfully remove the accumulating error and produce a better SAS image.

New Diamond Block Based Gradient Descent Search Algorithm for Motion Estimation in the MPEG- 4 Encoder

Motion estimation is an important part of the MPEG- 4 encoder, due to its significant impact on the bit rate and the output quality of the encoder sequence. Unfortunately this feature takes a significant part of the encoding time especially when the straightforward full search(FS) algorithm is used. In this paper, a new algorithm named diamond block based gradient descent search (DBBGDS) algorithm, which is significantly faster than FS and gives similar quality of the output sequence, is proposed. At the same time, some other algorithms, such as three step search (TSS), improved three step search (ITSS), new three step search (NTSS), four step search (4SS), cellular search (CS) , diamond search (DS) and block based gradient descent search (BBGDS), are adopted and compared with DBBGDS. As the experimental results show, DBBGDS has its own advantages. Although DS has been adopted by the MPEG- 4 VM, its output sequence quality is worse than that of the proposed algorithm while its complexity is similar to the proposed one. Compared with BBGDS, the proposed algorithm can achieve a better output quality.

Research on variable block size motion estimation algorithm for airborne image

A fast motion estimation algorithm for variable block-size using the ＂line scan and block merge procedure＂ is proposed for airborne image compression modules.Full hardware implementation via FPGA is discussed in detail.The proposed pipelined architecture based on the line scan algorithm is capable of calculating the required 41 motion vectors of various size blocks supported by H.264 within a 16 × 16 block in parallel.An adaptive rate distortion cost function is used for various size block decision.The motion vectors of adjacent small blocks are merged to predict the motion vectors of larger blocks for reducing computation.Experimental results show that our proposed method has lower computational complexity than full search algorithm with slight quality decrease and little bit rate increase.Due to the high real-time processing speed it can be easily realized in hardware.