基于辅助粒子滤波算法的红外目标跟踪

针对红外目标在跟踪中计算复杂的问题,构建辅助粒子滤波算法。利用贝叶斯重要性采样算法,在权值大的粒子基础上引入辅助粒子变量,然后重新定义重要采样分布函数,防止重采样后粒子概率密度变化。两次加权计算,使粒子权值比仅用重采样的粒子权值变化更稳定,采样点最接近真实状态;同时不同权值粒子的概率阈值可作为粒子滤波是否完成的判断准则。在二维平面构造红外运动目标模型中,系统为零均值高斯白噪声。仿真数据表明:该算法在x,y方向的均方误差、画面处理时间、RM SE性能上优于粒子滤波算法和重采样粒子滤波算法。     

基于动态特征融合的粒子滤波目标跟踪算法

提出一种基于动态特征融合的粒子滤波目标跟踪算法。选择具有互补性的灰度直方图和梯度直方图特征共同描述目标模型,然后在目标跟踪过程中,根据特征对目标和背景的区分程度动态地调整每个特征的置信度,对目标模型进行在线动态建模和更新,从而提高目标模型描述的准确度,并进一步提高粒子滤波算法的跟踪精度。实验结果表明:在对典型场景下的目标跟踪过程中,提出的算法比单独使用一种特征的粒子滤波算法具有更高的跟踪精度和更稳定可靠的跟踪性能。     

基于优化辅助粒子算法的红外目标跟踪研究

针对粒子算法存在的问题,提出了辅助粒子算法.该算法在重采样算法基础上,引进辅助变量,对粒子的权2次计算,可使粒子权值比重采样的粒子权值变化更稳定,最后给出了红外目标模型和均方根误差函数.仿真结果表明该算法对运动目标跟踪的均值和方差上均优于标准粒子滤波、重采样粒子滤波,且提高了计算效率.     

基于自适应粒子滤波的红外目标跟踪

为有效解决非线性环境中的红外目标跟踪问题,提出一种自适应粒子滤波目标跟踪算法.建立了目标加权概率模型.在滤波过程中,提出双过程粒子重抽样方法,形成对抽样粒子集的自适应调节,有效地解决了粒子退化问题.用实际红外图像序列做了实验.结果表明,在非线性环境下用该方法得到的红外目标跟踪结果优于用传统粒子滤波和扩展卡尔曼滤波算法获得的结果.     

基于积分直方图的粒子滤波跟踪算法

在目标模型的建立过程中,将积分直方图引入到粒子滤波跟踪框架中,提出了一种快速的颜色直方图计算方法,极大地提高了粒子滤波跟踪算法的实时性。为了进一步提高算法的鲁棒性,引入了一种基于邻域颜色特征的匹配搜索机制,当跟踪精度下降时,能够对跟踪结果进行优化,减小跟踪误差。实验结果表明了该算法的有效性。     

基于混合粒子滤波的水下小目标跟踪

针对水下小目标粒子滤波估计过程中“粒子贫化”引起的估计性能下降,提出了混合粒子滤波算法。该算法在常规粒子滤波算法基础上,在每一步迭代估计过程中进行量测的再次随机采样,以丰富随机粒子多样性,缓解水下小目标状态估计过程中的“粒子贫化”的影响。对算法进行了仿真分析,并将该方法用于水下小目标探测实验的数据处理,结果表明,相比于常规的粒子滤波算法,所提出的混合粒子滤波得到了误差更小且稳定的状态估计结果,有效地改善水下小目标跟踪的精度和稳健性。     

基于积分直方图的快速粒子滤波跟踪算法

基于直方图的粒子滤波已成功地用于解决计算机视觉中的目标跟踪问题,但是,在观测似然计算上的低效限制了它们的实时应用。针对该问题,提出了一种快速的粒子跟踪方法。其建立在积分直方图技术的基础上,使得每个候选样本的观测似然能够由少量的查找表运算有效地计算出来。该方法使用了大量的粒子以确保鲁棒性,同时确保具备实时跟踪的能力。实验结果表明该方法在计算效率上优于通常的粒子滤波跟踪方法。     

基于动态目标建模的粒子滤波视觉跟踪算法

提出一种根据场景变化动态建立目标模型的粒子滤波视觉跟踪算法.该方法首先选择简单且具有互补性的特征描述当前图像,并统一采用直方图法对这些特征进行建模;然后在粒子滤波框架下,根据巴塔恰里亚测度评价各个目标特征和背景特征之间的可区分程度,动态调整特征间的置信度;并对各个特征似然函数的噪音参量进行在线估计和更新,使其似然函数的度量标准达到统一.分析和实验表明,该算法性能优于仅仅采用多特征融合进行粒子滤波视觉跟踪的方法,对摄像机运动、混淆干扰、遮挡及目标外观大小的改变具有更强的鲁棒性.     

基于粒子滤波的运动目标光电定位仿真研究

运动目标的光电定位不能像静止目标那样简单做均值滤波,鉴于此,引入粒子滤波算法,它不仅可以应用于线性系统,而且还适用于非线性系统。结合光电定位需求,详细推导了计算公式及初值和参数选取公式,对只含测量噪声以及含有测量和运动噪声等的海面运动目标光电无源定位算法进行了仿真计算,验证了算法的有效性,讨论了噪声强度对滤波效果的影响,滤波参数选择对滤波效果的影响,目标运动方式对滤波跟随性的影响,重采样算法对滤波效果的影响等。所得结论为:粒子滤波可用于运动目标光电定位过程,可有效降低定位误差;粒子滤波算法具有较强鲁棒性,适用于噪声较大、目标运动形态变化大等情况。     

一种改进的粒子滤波视觉跟踪算法

针对复杂背景下视觉目标跟踪问题,提出了一种基于多特征融合和改进建议分布函数的粒子滤波目标跟踪算法。为了解决单一特征跟踪稳定性差的问题,该方法在构造粒子滤波算法观测似然函数的过程中,综合利用颜色、梯度和纹理特征,并给出一种有效的特征权值自适应分配策略。针对传统建议分布函数无法利用观测信息的缺陷,提出了一种基于PSO算法的建议分布函数,有效地抑制了粒子退化现象。实验采用复杂地面环境下的多组图像序列,结果表明该算法的有效性。     

粒子区别性稀疏表征的小弱运动目标跟踪算法

评估每个粒子的重要性是确保粒子滤波法跟踪目标准确性的重要因素。针对背景杂波和噪声干扰形成的大量虚警导致小弱目标跟踪识别的随机性和不确定性问题, 提出了一种基于粒子区别性稀疏表征的小弱目标跟踪方法。该方法根据红外图像信号自适应构建分类超完备字典, 即反映目标信号特征的目标字典和表示背景杂波的背景字典, 有利于突出目标粒子和背景粒子在联合分类字典的稀疏表征差异程度;建立基于目标粒子和背景粒子稀疏重构残差差异性的粒子滤波观测模型, 采用随机估计法对字典子空间进行在线更新, 实现对目标状态估计与跟踪。理论分析和试验结果表明, 该方法增强了随机粒子的状态估计能力, 提升了粒子稀疏表征对小弱运动目标的适应能力和跟踪识别准确度。     

颜色与纹理相融合的自适应粒子滤波跟踪算法

针对目标跟踪过程中存在的光线变化及目标遮挡等复杂情况所导致的跟踪目标的丢失或跟踪错位等问题,采用特征融合的策略,将其用于粒子滤波框架中进行跟踪。利用特征融合加权直方图的方法来描述目标的颜色和纹理特征,并对变化的目标自适应地更新参考目标模型,能有效地处理视频中由于旋转、遮挡、光线变化带来的影响。实验证明,提出的算法在保证跟踪精确性的情况下,具有较好的适应性及鲁棒性。     

Dim moving target tracking algorithm based on particle discriminative sparse representation

The small dim moving target usually submerged in strong noise, and its motion observability is debased by numerous false alarms for low signal-to-noise ratio (SNR). A target tracking algorithm based on particle filter and discriminative sparse representation is proposed in this paper to cope with the uncertainty of dim moving target tracking. The weight of every particle is the crucial factor to ensuring the accuracy of dim target tracking for particle filter (PF) that can achieve excellent performance even under the situation of non-linear and non-Gaussian motion. In discriminative over-complete dictionary constructed according to image sequence, the target dictionary describes target signal and the background dictionary embeds background clutter. The difference between target particle and background particle is enhanced to a great extent, and the weight of every particle is then measured by means of the residual after reconstruction using the prescribed number of target atoms and their corresponding coefficients. The movement state of dim moving target is then estimated and finally tracked by these weighted particles. Meanwhile, the subspace of over-complete dictionary is updated online by the stochastic estimation algorithm. Some experiments are induced and the experimental results show the proposed algorithm could improve the performance of moving target tracking by enhancing the consistency between the posteriori probability distribution and the moving target state.     

Infrared small target tracking based on sample constrained particle filtering and sparse representation

Infrared search and track technology for small target plays an important role in infrared warning and guidance. In view of the tacking randomness and uncertainty caused by background clutter and noise interference, a robust tracking method for infrared small target based on sample constrained particle filtering and sparse representation is proposed in this paper. Firstly, to distinguish the normal region and interference region in target sub-blocks, we introduce a binary support vector, and combine it with the target sparse representation model, after which a particle filtering observation model based on sparse reconstruction error differences between sample targets is developed. Secondly, we utilize saliency extraction to obtain the high frequency area in infrared image, and make it as a priori knowledge of the transition probability model to limit the particle filtering sampling process. Lastly, the tracking result is brought about via target state estimation and the Bayesian posteriori probability calculation. Theoretical analyses and experimental results show that our method can enhance the state estimation ability of stochastic particles, improve the sparse representation adaptabilities for infrared small targets, and optimize the tracking accuracy for infrared small moving targets.     

Guided filter and convolutional network based tracking for infrared dim moving target

The dim moving target usually submerges in strong noise, and its motion observability is debased by numerous false alarms for low signal-to-noise ratio. A tracking algorithm that integrates the Guided Image Filter (GIF) and the Convolutional neural network (CNN) into the particle filter framework is presented to cope with the uncertainty of dim targets. First, the initial target template is treated as a guidance to filter incoming templates depending on similarities between the guidance and candidate templates. The GIF algorithm utilizes the structure in the guidance and performs as an edge-preserving smoothing operator. Therefore, the guidance helps to preserve the detail of valuable templates and makes inaccurate ones blurry, alleviating the tracking deviation effectively. Besides, the two-layer CNN method is adopted to obtain a powerful appearance representation. Subsequently, a Bayesian classifier is trained with these discriminative yet strong features. Moreover, an adaptive learning factor is introduced to prevent the update of classifier’s parameters when a target undergoes sever background. At last, classifier responses of particles are utilized to generate particle importance weights and a re-sample procedure preserves samples according to the weight. In the predication stage, a 2-order transition model considers the target velocity to estimate current position. Experimental results demonstrate that the presented algorithm outperforms several relative algorithms in the accuracy.     

基于自适应背景的目标跟踪算法研究

随着现在的社会发展以及经济进步,我国的科学技术方面发展迅速,特别是在技术监控方面更是突飞猛进。为了更好的对目标遮挡影响进行降低,我国在这方面主要依据自适应的技术发展背景下提出目标跟踪计算法,用来完善我国的监督控制技术。这种计算方式第一是根据对观察目标的基本外观形态进行的鉴定与跟踪,将其自身的运动量进行平均计算;其次是根据时空的运行方向与特征进行跟踪目标的计算,建立比较完善整体的运行模型,再根据这个运动模型以及整体的状态对监督目标进行检测与控制,这期间就会形成一种遮挡掩膜。对于掩膜是一种将程序数据等绘制成光刻板,在程序使用期间非常可靠,并且制造成本比较低,使用方便;最后是在不同的使用情况下将不同参数进行收集,自动的适应运动模型的运行。针对这种计算方式的实验主要是利用两种在国际上经常使用的CAVIAR、York数据进行测试,并且根据这两种数据对测试的精准度与多重目标跟踪等进行评定,检测跟踪的整体性能。通过多方面的研究表明这种方式的跟踪的性能非常好,并且还能很好的将跟踪目标的鲁棒性进行遮挡。     

Small moving infrared space target tracking algorithm based on probabilistic data association filter

Numerous false alarms for low signal-to-noise ratio (SNR) would seriously debase the performance for infrared low observable (LO) space target tracking. Due to the motion (i.e. azimuth, elevation and their derivative velocity), amplitude and size of infrared target are almost invariable and highly correlative, a multi-feature association approach based on probabilistic data association (PDA) is presented to track target in this paper. Firstly, the motion, amplitude and size of target are modeled as stationary random signal afforded Gaussian distribution. The probability of motion, amplitude and size of measurement originated as the target of interest is then estimated by Gaussian distribution, and that of false alarm is distributed uniformly. Subsequently, the combined probability of motion, amplitude and size is derived by PDA, and their weight coefficients are estimated adaptively according to their fluctuations. Finally, the relevant parameters including combination measurement are predicted and updated. Some experiments are included and the results show that the performance of target tracking by the proposed approach is significantly enhanced.     

基于高斯混合概率假设滤波的水下目标跟踪算法

为了解决传统水下目标跟踪中目标数目估计不准确、状态估计误差增长过快的问题,提出了一种基于高斯混合概率假设滤波的水下目标跟踪算法。该算法基于双基地观测模型,采用高斯混合概率假设滤波算法处理方位和时延信息,利用粒子群算法处理多普勒频率获得矢量速度,进一步提升算法的跟踪精度。结果表明,该算法能完成在杂波环境下对目标的跟踪,相比传统的关联算法,能够有效地实现目标个数估计和抑制状态误差增长的目的。     

Robust visual tracking base on adaptively multi-feature fusion and particle filter

In order to avoid the tracking failure based on single feature under the conditions of cluttered backgrounds illumination changes, a robust tracking algorithm was proposed based on adaptively multi-feature fusion and particle filter. Color histogram was used to describe the overall distribution characteristics of the target and histogram of oriented gradients containing some construction information and LBP is very effective to describe the image texture features. The Three features were fused in the frame of particle filter. Meanwhile, the weights of each feature were adjusted dynamically. The experimental results show that with adaptive fusion, the tracker becomes more robust to illumination changes, pose variations, partial occlusions, cluttered backgrounds and camera motion.