共查询到20条相似文献,搜索用时 234 毫秒
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《中国惯性技术学报》2019,(1)
针对在超短基线水声定位中,传统时延估计算法抗噪声性能差的问题,提出了一种基于重复广义互相关时延估计的超短基线水声定位算法。通过对两个源信号的其中一个增加一次自相关后,再对这两个源信号进行合适的加权广义互相关,之后对反傅里叶变换后得到的广义互相序列进行峰值检测,最终得到时延。通过半物理实验,比较经典的互相关算法和重复广义互相关算法发现,在相同环境中,新提出的算法时延估计误差为0.0112 s,相对于经典算法的0.0209 s,能够提高46.4%。基于重复广义互相关的超短基线定位算法仿真实验,表明X轴定位精度提高97.1%,Y轴定位精度提高96.3%。 相似文献
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由空压机提供的气体通过—排微小直径的喷嘴进入静止水体,形成水气两相流流场。在单相PIV和PTV技术的基础上,研究稀疏气液两相流情况下气泡的速度场分布。PIV算法采用快速傅立叶互相关分析法,而PTV算法需要获得每幅图像中每个气泡的形心,根据连续图像中的粒子对,计算速度。用PIV和PTV两种算法处理求出气泡的速度并对两种方法进行比较,其最终研究成果可应用于流体及多相流的流量测技术,提高我们进行低密度气液两相流相关研究的测量水平。同时为水气两相流的数值分析和理论研究提供流场测试的数据。 相似文献
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针对VDR雷达图像的无损压缩技术要求高速、高效、低内存占用量的特点,在分析图像整数小波变换的基础上,研究一种基于整数小波和改进SPECK快速无损压缩算法.该算法利用整数小波对图像进行变换,进而采用SPECK进行编码.SPECK算法采用易于计算和并行处理的块结构,不仅提高了编码速度,还具有动态存储小、容错性好等特点.算法中还引入了哈希表和综合匹配法对SPECK算法进行了改进.通过对VDR雷达图像的无损压缩实验证明,该算法不仅提高了压缩速度,而且提高了压缩比,具有广泛的应用价值. 相似文献
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光流测量技术作为一种新的空气动力学实验技术,以其像素级分辨率的矢量场测量优势获得广泛的应用。光流测量技术使用光流约束方程,配合平滑限定条件,可以进行速度场测量,获得高分辨率的全局矢量场。本文首先通过研究积分最小化光流测速理论和算法,采用C++编写光流速度测量程序;然后通过三种典型的人工位移图像对光流计算程序进行了验证,并将结果和标准位移分布进行比对分析,以指导如何在实际应用中获得高精度光流速度场;最后进行小型风洞后向台阶实验,利用高速相机拍摄示踪粒子图像,使用光流计算程序获得速度矢量场,同采用互相关算法的粒子图像测速计算结果相比较,体现出光流计算方法像素级分辨率的矢量场测量优势。 相似文献
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数字图像相关方法作为一种新的非接触式位移测量方法,在力学工程中有广泛的应用前景,然而受限于标准方法对图像变形的连续性要求,这种高效的测量方法在断裂力学领域的推广受到了限制. 为解决这一问题,提出采用引入子区分离数学模型,代替标准方法的连续模型,来对非连续区域进行精确识别和匹配的非连续数字图像相关方法. 研究子区被裂纹等非连续分割后原始像素点的位移情况,并引入裂纹张开向量用以表征被分割子区的主区和副区的位移关系;从而建立子区分离模型的数学表达式,并且为所提出的模型设计相应的图像相关算法;然后将所提出的非连续数字图像相关方法应用于重构平板拉伸试验开裂过程中图像的位移. 研究结果表明,相比于标准的数字图像相关方法,所提出的非连续数字图像相关方法解决了图像相关法在非连续区域失效的问题,提高了数字图像相关方法对位移测量的正确率,特别是能够准确重构裂纹面及附近的位移场,其测量精度能够达到亚像素级别. 相似文献
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数字图像相关方法作为一种新的非接触式位移测量方法,在力学工程中有广泛的应用前景,然而受限于标准方法对图像变形的连续性要求,这种高效的测量方法在断裂力学领域的推广受到了限制.为解决这一问题,提出采用引入子区分离数学模型,代替标准方法的连续模型,来对非连续区域进行精确识别和匹配的非连续数字图像相关方法.研究子区被裂纹等非连续分割后原始像素点的位移情况,并引入裂纹张开向量用以表征被分割子区的主区和副区的位移关系;从而建立子区分离模型的数学表达式,并且为所提出的模型设计相应的图像相关算法;然后将所提出的非连续数字图像相关方法应用于重构平板拉伸试验开裂过程中图像的位移.研究结果表明,相比于标准的数字图像相关方法,所提出的非连续数字图像相关方法解决了图像相关法在非连续区域失效的问题,提高了数字图像相关方法对位移测量的正确率,特别是能够准确重构裂纹面及附近的位移场,其测量精度能够达到亚像素级别. 相似文献
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A correlation-based central difference image correction (CDIC) method and application in a four-roll mill flow PIV measurement 总被引:1,自引:0,他引:1
An experiment is conducted in a four-roll mill to verify a novel particle image velocimetry (PIV) recording evaluation method that combines the advantages of central difference interrogation and an image correction technique. Simulations and experiments in the four-roll mill geometry demonstrate that the central difference image correction method described in this paper can not only avoid the bias error resulting from the curvature and high-velocity-gradient flow but also effectively reduce the random error resulting from particle image distortion. Two image correction schemes and two base algorithms are discussed. A four-point image correction scheme is suggested on the basis of the traditional correlation-based interrogation algorithm to enable a fast, high-accuracy evaluation of PIV recordings in complex flows. In addition, the PIV experiment accurately determines the velocity field in the four-roll mill and confirms the linear distributions of the velocity components and the roller speed. 相似文献
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A kilohertz frame rate cinemagraphic PIV system for laboratory-scale turbulent and unsteady flows 总被引:2,自引:0,他引:2
A kilohertz frame rate cinemagraphic particle image velocimetry (PIV) system has been developed for acquiring time-resolved
image sequences of laboratory-scale gas and liquid-phase turbulent flows. Up to 8000 instantaneous PIV images per second are
obtained, with sequence lengths exceeding 4000 images. The two-frame cross-correlation method employed precludes directional
ambiguity and has a higher signal-to-noise ratio than single-frame autocorrelation or cross-correlation methods, facilitating
acquisition of long uninterrupted sequences of valid PIV images. Low and high velocities can be measured simultaneously with
similar accuracy by adaptively cross-correlating images with the appropriate time delay. Seed particle illumination is provided
by two frequency-doubled Nd:YAG lasers producing Q-switched pulses at the camera frame rate. PIV images are acquired using
a 16 mm high-speed rotating prism camera. Frame-to-frame registration is accomplished by imaging two pairs of crossed lines
onto each frame and aligning the digitized image sequence to these markers using image processing algorithms. No flow disturbance
is created by the markers because only their image is projected to the PIV imaging plane, with the physical projection device
residing outside the flow field. The frame-to-frame alignment uncertainty contributes 2% to the overall velocity measurement
uncertainty, which is otherwise comparable to similar film-based PIV methods.
Received: 11 July 2000 / Accepted: 21 June 2001 Published online: 29 November 2001 相似文献
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Sara Nauri José Nogueira Antonio Lecuona Mathieu Legrand Pedro A. Rodríguez 《Experiments in fluids》2008,45(4):609-621
Particle image velocimetry with local field correction (LFC PIV) has been tested in the past to obtain two components of velocity
in a two dimensional domain (2D2C). When compared to conventional correlation based algorithms, this advanced technique has
shown improvements in three important aspects: robustness, resolution and ability to cope with large displacements gradients.
A further step in the development of PIV algorithms consists in the combination of LFC with the stereo technique, which is
able to obtain three components of velocity in a plane (2D3C PIV). In this work this combination is implemented and its performance
is evaluated carrying out the following two different tasks:
The first task has been achieved using synthetic images. Afterwards the coherence of the results has been checked with real
images. The results show improvement of Stereo-LFC PIV in respect to Stereo-Multigrid PIV enhanced with image distortion.
The performance of Stereo-LFC when only large scales are involved shows an increase of the dynamic range of measurable vorticity.
When small scales are analysed, the magnitude of the error resulting when using Stereo-LFC is about half of the one obtained
for the Stereo-Multigrid measurements. Results with errors below 20% have been achieved for some of the cases with peak vorticities
as large as 1.8 Δt
−1 (in the absence of out-of-plane displacements), out-of-plane loss of particle pairs of 65% (with a low peak vorticity of
0.06 Δt
−1) and peak vorticities as large as 1.5 Δt
−1 with 50% particle pair loss. For the second task most of the information has been obtained using real images. It has been
found that the resolution limit is very dependent on the robustness of the algorithms against image defects and variability.
The results show a remarkable improvement when using the Stereo-LFC PIV processing, although a full quantification and characterization
would need further study because of the variety of noise sources possible in a real image. 相似文献
| – | Comparison of robustness and accuracy for large and small scale flow structures. This is carried out using three techniques: the conventional Stereo PIV, the Stereo-LFC PIV and the Stereo-Multigrid PIV enhanced with image distortion. |
| – | Insight on the limit of resolvable scales for the Stereo-LFC. This task is relevant because the resolution attainable by this combination is higher than what has been obtained by the rest of the herein used algorithms. |
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The combination of ultrasound echo images with digital particle image velocimetry (DPIV) methods has resulted in a two-dimensional, two-component velocity field measurement technique appropriate for opaque flow conditions including blood flow in clinical applications. Advanced PIV processing algorithms including an iterative scheme and window offsetting were used to increase the spatial resolution of the velocity measurement to a maximum of 1.8 mm×3.1 mm. Velocity validation tests in fully developed laminar pipe flow showed good agreement with both optical PIV measurements and the expected parabolic profile. A dynamic range of 1 to 60 cm/s has been obtained to date. 相似文献
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Analysis and treatment of errors due to high velocity gradients in particle image velocimetry 总被引:1,自引:0,他引:1
This paper deals with errors occurring in two-dimensional cross-correlation particle image velocimetry (PIV) algorithms (with window shifting), when high velocity gradients are present. A first bias error is due to the difference between the Lagrangian displacement of a particle and the real velocity. This error is calculated theoretically as a function of the velocity gradients, and is shown to reach values up to 1 pixel if only one window is translated. However, it becomes negligible when both windows are shifted in a symmetric way. A second error source is linked to the image pattern deformation, which decreases the height of the correlation peaks. In order to reduce this effect, the windows are deformed according to the velocity gradients in an iterative process. The problem of finding a sufficiently reliable starting point for the iteration is solved by applying a Gaussian filter to the images for the first correlation. Tests of a PIV algorithm based on these techniques are performed, showing their efficiency, and allowing the determination of an optimum time separation between images for a given velocity field. An application of the new algorithm to experimental particle images containing concentrated vortices is shown. 相似文献
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两相流显微PIV/PTV系统的开发 总被引:1,自引:0,他引:1
开发了一个能同时测量两相流中两相速度和细颗粒尺寸分布的显微PIV/PTV系统,其硬件系统包括大功率连续激光器、显微镜、高速摄像机;软件系统由改进的球形颗粒图像识别算法、各种图像处理算法和各种先进的PIV/PTV算法组成。其中改进的圆弧识别算法能够进行更准确地进行曲线分割而能对充满噪音并相互重叠的颗粒图像给出较好的识别结果。应用该PIV系统,可以在微秒和微米数量级上捕获细颗粒/气泡图像,并能较准确地同时得到两相速度、颗粒尺寸和浓度分布。对焚香可吸入颗粒物进行了速度和尺寸的同时测量,得到了较满意的结果。 相似文献
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Fast 3D PIV with direct sparse cross-correlations 总被引:1,自引:0,他引:1
The extension of the well-assessed high-accuracy algorithms for two-dimensional-two components particle image velocimetry (PIV) to the case of three-dimensional (3D) data involves a considerable increase of the computational cost. Tomographic PIV is strongly affected by this issue, relying on 3D cross-correlation to estimate the velocity field. In this study, a number of solutions are presented, enabling a more efficient calculation of the velocity field without any significant loss of accuracy. A quick estimation of the predictor displacement field is proposed, based on voxels binning in the first steps of the process. The corrector displacement field is efficiently computed by restricting the search area of the correlation peak. In the initial part of the process, the calculation of a reduced cross-correlation map by using Fast Fourier Transform on blocks is suggested, in order to accelerate the processing by avoiding redundant calculations in case of overlapping interrogations windows. Eventually, direct cross-correlations with a search radius of only 1?pixel in the neighborhood of the estimated peak are employed; the final iterations are consistently faster, since direct correlations can better enjoy the sparsity of the distributions, reducing the number of operations to be performed. Furthermore, three different approaches to reduce the number of redundant calculations for overlapping windows are presented, based on pre-calculations of the contributions to the cross-correlations coefficients along segments, planes or blocks. The algorithms are tested both on synthetic and real images, showing that a potential speed-up of up to 800 times can be obtained, depending on the complexity of the flow field to be analyzed. The challenging application on a real swirling jet results in a speed-up of an order of magnitude. 相似文献
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One of the key factors that limit accuracy of particle image velocimetry (PIV) is the peak-locking effect. In this paper,
a previously uncharacterised source of peak locking is presented. This source is neither related to the sensor geometry nor
the subpixel resolution peak-fitting algorithms. It is present even when the particles are well described in terms of sensor
spatial resolution (i.e. for particle diameters larger than 2 pixels). If no specific actions to avoid it are taken, its effect
is especially important in those super-resolution systems that are based on iteratively reducing the size of the interrogation
window. In this work, the mentioned source and its effects are studied and modelled. Based on this study, the actions required
to avoid this type of peak locking are described. This includes the most usual correlation-based PIV systems, as well as super-resolution
ones. Once this source of inaccuracy is avoided, it is possible to discriminate the performance of different types of correlation
algorithms. As a consequence, specific proposals for the algorithms in the last steps of multigrid super-resolution PIV systems
are given. The performances of the proposed solutions are verified using both synthetic and real PIV images.
Received: 31 January 2000/Accepted: 2 May 2000 相似文献
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Simultaneous velocity field measurements in two-phase flows for turbulent mixing of sprays by means of two-phase PIV 总被引:3,自引:0,他引:3
This paper describes a novel derivative of the PIV method for measuring the velocity fields of droplets and gas phases simultaneously
using fluorescence images rather than Mie scattering images. Two-phase PIV allows the simultaneous and independent velocity
field measurement of the liquid phase droplets and ambient gas in the case of two-phase flow mixing. For phase discrimination,
each phase is labelled by a different fluorescent dye: the gas phase is seeded with small liquid droplets, tagged by an efficient
fluorescent dye while the droplets of the liquid phases are tagged by a different fluorescent dye. For each phase, the wavelength
shift of fluorescence is used to separate fluorescence from Mie scattering and to distinguish between the fluorescence of
each phase. With the use of two cross-correlation PIV cameras and adequate optical filters, we obtain two double frame images,
one for each phase. Thus standard PIV or PTV algorithms are used to obtain the simultaneous and independent velocity fields
of the two phases. Because the two-phase PIV technique relies on the ability to produce two simultaneous and independent images
of the two phases, the choice of the labelling dyes and of the associated optical filter sets is relevant for the image acquisition.
Thus a spectroscopic study has been carried out to choose the optimal fluorescent dyes and the associated optical filters.
The method has been evaluated in a simple two-phase flow: droplets of 30–40 μm diameter, produced by an ultrasonic nozzle
are injected into a gas coflow seeded with small particles. Some initial results have been obtained which demonstrate the
potential of the method. 相似文献
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Local field correction particle image velocimetry (LFC-PIV) has become an established alternative among high-resolution PIV techniques. Previous works by the authors introduced its implementation by means of simple algorithms. In these works the initial limitation of the method, which was related to the mean distance between particles, was removed. Comparison with other contemporary high-resolution techniques indicates that it offers advantages in robustness and accuracy. The trade-off for this better performance is a heavier computing load. Until now, the computing time that this load requires has not been characterized in detail, since this computing time could be substantially reduced by accepting a reduction in accuracy. This paper focuses on the characterization of the trade-off between time and accuracy, thus offering a new perspective to PIV. In this field, LFC-PIV offers a wide range of possibilities that are described in the paper. Several alternative schemes for LFC-PIV are tested, together with an analysis of the influence of the number of iterations. Performance figures for both accuracy and expended time are given. Metrological evaluation is carried out over synthetic images. A test of coherence between these results and the performance on real images is also presented. The paper shows that even for a limited number of iterations this technique offers advantages. 相似文献