一种基于背景自适应的运动目标检测与跟踪算法

背景图像差分法是运动目标实时检测中常用的方法,但缺乏背景图像随监视场景光照变化而及时更新的合理方法,限制了该方法的适应性。对此,文章首先提出了一种自适应背景更新方法;然后利用最大类间方差法实现运动目标的自适应阈值分割,并利用基于形态学方法的连通区检测算法检测运动目标;最后以Kalman滤波为运动模型实现对运动目标的连续跟踪。实验结果表明:所提方法可随着光照条件的变化,实时、准确地检测出运动目标并实现稳定跟踪。     

基于改进HOG特征的空间非合作目标检测

传统的非合作目标检测方法大都基于一定的匹配模板,这不仅需要预先指定先验信息,进而设计合适的检测模板,而且同一模板只能对具有相似形状的目标进行检测,不易直接用于检测形状未知的非合作目标。为降低检测过程中对目标形状等先验信息的要求,借鉴基于规范化梯度的物体区域估计方法,提出一种基于改进方向梯度直方图特征的目标检测方法,首先构建包含有自然图像和目标图像的训练数据集;然后提取标记区域的改进方向梯度直方图特征,以更好地保持局部特征的结构性,并根据级联支持向量机训练模型,从数据集中自动学习目标物体的判别特征;最后,将训练后的模型用于检测测试集图像中的目标。实验结果表明,算法在由4953幅和100幅图像构成的测试集中分别取得94.5%和94.2%的检测率,平均每幅图像的检测时间约为0.031 s,具有较低的时间开销,且对目标的旋转及光照变化具有一定的鲁棒性。     

旋转机械状态参数图形识别的免疫-模糊形态学方法

以旋转机械振动多维图形为对象,研究了直接提取和挖掘图形特征信息的模糊形态学方法,提出了基于模糊数学形态学及免疫智能的旋转机械振动参数图形识别方法.利用模糊形态滤波方法实现图形滤波,研究了模糊形态边缘检测算子,并结合旋转机械振动参数图形进行形态学梯度的边缘纹理特征提取,最后利用人工免疫算法对图形特征进行诊断识别.在600MW模化汽轮机转子试验台上进行了转子正常、转子不平衡故障、转子不对中故障及汽流激振故障的试验,诊断结果表明所提出的方法可以获得较高的诊断精度.      

基于数学形态学的图像边缘检测技术

边缘检测通常是用类似于素描图的图像表达出物体的要素和特征。实际图像中,边缘由灰度突变的象素点组成,在数字图像处理和分析中具有重要的作用。本文综合国内外最新文献资料,分析了多种基于数学形态学的边缘检测技术:基于多尺度形态学的边缘检测、基于数学形态学多极平均的图像的边缘检测、基于偏微分方程的形态学的边缘检测、基于均衡化和数学形态学的组合边缘检测、基于坐标逻辑的多结构元图像边缘检测等技术,并综合比较了其优缺点,探讨了其发展方向。     

运动平台上基于粒子滤波的目标跟踪技术

在固定平台上实现视频运动目标的准确跟踪本身就是一项富有挑战性的工作。何况在运动平台上,受到背景杂波、亮度变化以及摄像机运动等干扰的影响,要想成功地对目标进行跟踪则更加困难。提出将强度梯度跟踪器与粒子滤波相结合,实现对运动平台上的视频序列中的运动目标的准确跟踪。实验结果表明,跟踪方法能准确、可靠地自动跟踪视频序列中的运动目标。     

一种基于边缘特征的背景差分运动目标检测方法

针对背景差分运动目标检测中目标边缘不够精确的问题,提出一种基于边缘特征的背景差分运动目标检测方法.该方法结合了均值背景的总体特性和对称帧差的实时性.首先,利用包含同一图像的两幅对称帧差相与结果获取运动目标的准确边缘,并将其作为目标分割的边界限制;然后,利用背景差分方法获取运动目标区域范围,提取目标像索点作为区域生长的种...     

动态背景下基于金字塔LK光流的运动目标检测

提出了一种动态背景下基于金字塔LK光流的运动目标检测方法。首先采用Shi-Tomasi角点检测法提取图像的强角点,再用金字塔LK光流法计算下一时刻这些特征点的对应位置,得到匹配的多组特征点对。利用这些特征点对建立仿射变换模型并计算仿射参数,对图像做仿射变换消除背景运动带来的误差,最后用帧间差分法处理得到前景目标。实验结果表明,本方法能够以较好的实时性、稳定地检测和提取动背景下的运动目标。     

MTI data clustering and formation recognition

Image exploitation technology approaches have generally focused on the detection and spatial analysis of stationary groups of objects on the ground using various sensors. While spatial arrangement is clearly necessary in analyzing military formations, it is usually not sufficient. Typically the arrangement must be examined within some context in order to interpret a pattern of deployment. For moving objects the spatial arrangement of the group relative to the direction of motion is key to recognizing the formation. By examining ground moving target indicator (MTI) radar data over time, motion can be inferred and used to establish a context for interpreting the spatial arrangement of the data. New techniques that exploit the multitemporal nature of MTI data are described. The first is a space-time clustering technique that locates compact groups of objects that persist in time. The technique Is an application of Marr and Hildreth's edge detection methodology to the dual problem of region segmentation, or more accurately, volumetric segmentation of space-time. The second technique is based on the use of the Hough transform for recognizing moving formations such as columns, wedges, and lines abreast by analyzing the shape of clustered MTI detections (specifically the orientation of linear arrangements within the group) with respect to their direction of motion. Preliminary results from simulated MTI data sets are presented     

在轨服务中非合作目标空间圆检测方法研究

为自主完成空间服务任务,需要满足各种功能需求、突破多种关键技术。针对在轨服务中具有圆特征的非合作目标空间圆（星箭对接环、发动机喷管等）,首先分析了非合作目标空间圆检测技术在在轨服务系统中的主要应用;然后提出了一种非合作目标空间圆的检测方法,通过Canny算子检测边缘,并用Freeman链码法对边缘进行提取分类,再利用RED算法进行非合作目标空间圆检测;最后给出仿真结果,在保证检测精度的前提下,较传统的RED算法明显降低了算法的耗时量。     

Detection of obstacles in the flight path of an aircraft

The National Aeronautics and Space Administration (NASA), along with members of the aircraft industry, recently developed technologies for a new supersonic aircraft. One of the technological areas considered for this aircraft is the use of video cameras and image-processing equipment to aid the pilot in detecting other aircraft in the sky. The detection techniques should provide high detection probability for obstacles that can vary from subpixel to a few pixels in size, while maintaining a low false alarm probability in the presence of noise and severe background clutter. Furthermore, the detection algorithms must be able to report such obstacles in a timely fashion, imposing severe constraints on their execution time. Approaches are described here to detect airborne obstacles on collision course and crossing trajectories in video images captured from an airborne aircraft. In both cases the approaches consist of an image-processing stage to identify possible obstacles followed by a tracking stage to distinguish between true obstacles and image clutter, based on their behavior. For collision course object detection, the image-processing stage uses morphological filter to remove large-sized clutter. To remove the remaining small-sized clutter, differences in the behavior of image translation and expansion of the corresponding features is used in the tracking stage. For crossing object detection, the image-processing stage uses low-stop filter and image differencing to separate stationary background clutter. The remaining clutter is removed in the tracking stage by assuming that the genuine object has a large signal strength, as well as a significant and consistent motion over a number of frames. The crossing object detection algorithm was implemented on a pipelined architecture from DataCube and runs in real time. Both algorithms have been successfully tested on flight tests conducted by NASA.     

飞机发动机损伤图像的分割处理

在形态学边缘检测算子的基础上,综合应用了形态学中的腐蚀和膨胀,提出了一种改进的多尺度形态边缘检测算法,得到修正的边缘检测算子,减轻了图像边缘检测的模糊性,并有效降低了噪声对边缘检测的影响。通过实验得到噪声存在条件下较为理想的图像,验证了该算法的可行性和有效性。     

基于模糊数学形态学及免疫智能的旋转机械状态参数图形识别方法

以旋转机械振动多维图形为对象,研究了直接提取和挖掘图形特征信息的模糊形态学方法,提出了基于模糊数学形态学及免疫智能的旋转机械振动参数图形识别方法。利用模糊形态滤波方法实现图形滤波,研究了模糊形态边缘检测算子,并结合旋转机械振动参数图形进行形态学梯度的边缘纹理特征提取,最后利用人工免疫算法对图形特征进行诊断识别。在600MW模化汽轮机转子试验台上进行了转子正常、转子不平衡故障、转子不对中故障及汽流激振故障的试验,诊断结果表明本文所提出的方法可以获得较高的诊断精度,为旋转机械故障诊断探索了一条新路。     

基于运动特征和中心环绕模型的空对地车辆检测方法

平台的移动基于空基车辆检测以其视野广、速度快、适应性强等优点,近些年成为了智能交通和航空应急救援等领域内的一个热点课题。然而,在城市背景的交通环境下,由于复杂背景造成的干扰、车辆运动的不规律性以及光照等条件变化带来的噪声,有效地获取运动对象特征是空对地视觉监视方法面临的一个难题。为有效解决这一问题,提出了结合运动特征的中心环绕模型进行空对地车辆检测的算法。现有的空对地车辆检测算法,大多是针对固定的摄像头的情况下,基于运动特征进行检测,例如光流法、背景差法等。这些方法在对高速公路等背景相对较为简单的环境下获得了良好的检测结果,但当面对城市复杂背景条件或摄像头自身运动的状况时,难以有效地检测出运动目标。而在对颜色、强度等静态特征进行显著度分析的基础上,加入了对运动特征的分析,可以解决在复杂环境下准确提取车辆目标有效特征的问题。试验表明,相较于基于图像相减的检测算法和单一显著度算法,该算法可以获得更高的检测率与更低的误报率。     

A target cueing and tracking system (TCATS) for smart videoprocessing

A smart system that uses state-of-the-art image processing techniques to detect and track targets moving in video or infrared imagery is presented. It is a general-purpose system that was developed to be independent of the application and the user interface. TCATS has successfully demonstrated a high detection capability and the ability to ignore exterior environmental conditions, such as cloud shadows moving through the scene, snow, blowing dust, rain and moderate camera motion. TCATS can handle many targets and retain the identity of each object from one frame to the next. Special rugged hardware has been developed to reduce the size, cost, and power consumption and to increase the processing rate, reliability, and environmental operating capability of the system. TCATS can be incorporated into an existing video assessment system without a major cost outlay intruder. The TCATS algorithms, custom-developed hardware, and preliminary field test results are described     

泊位引导系统中运动物体的检测与分类

重点研究了基于视觉检测方式的机场泊位自动引导系统的图像预处理算法。提出改进的基于混合高斯模型的运动检测算法,有效抑制了分割运动缓慢且成像面积比较大的物体时易出现的“拖尾”现象。提出了基于颜色色度信息的阴影检测算法,成功地检测出运动物体的阴影。在此基础上设计了分类器,区分泊位飞机与泊位场景中其他运动物体。在实际机场泊位自动引导系统中的应用证明了所提出算法的有效性和实用性。     

分数傅立叶变换用于抑制SAR杂波背景检测慢速动目标

慢速运动目标在时、空、频域上都落入主杂波区。利用单通道SAR图像中静止背景的信息抑制静止杂波,可改善检测动目标的性能。分数傅立叶变换是线性变换,不存在交叉项,采用分数傅立叶变换搜索匹配动目标信号,使其能量汇聚。对称计算旋转角正负对称的分数傅立叶变换,在两个对称的分数傅立叶域中得到两个复信号,这两个复信号中静止背景的模处处相同,而包含动目标的区域,模的幅度有很大差别,计算对称的分数傅立叶域信号对应位置模的差,取绝对值,可对消静止背景,敏锐地检测动目标。实测数据表明本算法有效。     

基于机器视觉与UMAC的自动铺丝成型构件缺陷检测闭环控制系统

为保证自动铺丝成型构件的性能,实现对成型构件表面质量的高效检测,本文基于机器视觉检测技术,自行研发自动铺丝成型构件表面缺陷检测闭环控制系统,使自动铺丝过程中预浸纱之间的间隙或重叠在允许范围内,从而保证铺丝精度。研究主要分为三个部分:铺丝成型构件表面图像提取与缺陷检测,检测数据传输,运动轴反馈控制,实现在自动铺丝过程中对成型构件表面缺陷检测实时闭环控制。针对电荷耦合相机采集到的预浸纱图像存在运动模糊和信噪比低等问题,将图像预处理划分为图像复原和降噪两大功能,根据不同类型的噪声采用对应滤波法进行降噪处理,提高了图像的信噪比,为后续检测提供高质量图像;预浸纱缺陷主要由其边缘直线这一几何特征进行表征,因此通过对预浸纱边缘检测实现缺陷识别;利用工控机向图像采集控制器发送命令实现图像采集,同时通过工控机与运动控制器之间信息流和数据流的交换实现检测数据的传输。探讨模糊控制理论用于闭环控制的研究,在反模糊化环节后面,加入自适应参数调节,以适应加工过程的突变,并成功地应用到自动铺丝缺陷检测闭环控制系统中,提高了伺服跟踪精度和跟踪实时性,从而提高铺丝精度。     

基于改进Canny的激光主动成像图像边缘检测算法研究

针对传统Canny边缘检测算法存在的不足,结合激光主动成像末制导的实际特点,提出了一种改进的Canny边缘检测算法.该算法在Canny边缘检测算法的基础上,采用同态滤波和提升小波变换级联的方法代替传统的高斯滤波器;采用3×3邻域的权值梯度计算方法代替原有的2×2邻域差分运算;采用Otsu自适应阈值计算方法,使算法可根据图像自身特点选择最合适的阈值.实验证明:该算法提升了传统Canny算子的抗干扰能力和鲁棒性,能够较好地保存边缘信息,准确检测出激光主动成像图像的边缘,具有较强的自适应性.     

Recursive 3-D motion estimation from a monocular image sequence

Consideration is given to the design and application of a recursive algorithm to a sequence of images of a moving object to estimate both its structure and kinematics. The object is assumed to be rigid, and its motion is assumed to be smooth in the sense that it can be modeled by retaining an arbitrary number of terms in the appropriate Taylor series expansions. Translational motion involves a standard rectilinear model, while rotational motion is described with quaternions. Neglected terms of the Taylor series are modeled as process noise. A state-space model is constructed, incorporating both kinematic and structural states, and recursive techniques are used to estimate the state vector as a function of time. A set of object match points is assumed to be available. The problem is formulated as a parameter estimation and tracking problem which can use an arbitrarily large number of images in a sequence. The recursive estimation is done using an iterated extended Kalman filter (IEKF), initialized with the output of a batch algorithm run on the first few frames. Approximate Cramer-Rao lower bounds on the error covariance of the batch estimate are used as the initial state estimate error covariance of the IEKF. The performance of the recursive estimator is illustrated using both real and synthetic image sequences