共查询到18条相似文献,搜索用时 250 毫秒
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针对合成孔径声呐中阵元相位不一致导致互相关时延补偿算法对成像质量提升效果有限的问题,提出了一种脉冲压缩与互相关联合的回波时延补偿算法.该算法利用脉冲压缩回波的互相关对原始回波相位畸变进行校正,实现粗补偿;联合脉冲压缩与偏移相位中心算法实现精细时延补偿,对不同合成孔径位置各阵元回波时延差实现了较为准确的估计,增强了成像效果。试验数据经该算法处理后,回波时延得到较为精确的补偿,地貌成像结果的亮度、对比度等统计特性得到不同程度的提高,且纹理细节增多;典型线缆目标的成像聚焦加深,成像长度误差约由5%减小为0.8%。试验结果显示,该算法对互相关时延补偿方法改进效果明显,验证了算法的可行性、有效性。 相似文献
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当合成孔径声呐测绘带较大时,运动误差的空变效应严重,经典的相位中心重叠算法难以适用。为此,提出了一种适用于大测绘带合成孔径声呐的运动补偿方法。首先使用混合调制的拉格朗日时延估计算法对前后两帧回波的时延进行估计,之后使用线性回归方法拟合出运动误差,最后利用运动误差的估计值对回波进行逐点精确补偿。仿真数据的结果表明,该算法能够获得比相位中心重叠算法更好的运动估计结果,运动补偿后成像分辨率接近理论分辨率。使用该算法分别对高、低频合成孔径声呐的湖试数据进行了处理,水下地貌和小目标的成像质量均有明显提高。 相似文献
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圆合成孔径声呐(CSAS)的成像性能受平台运动误差影响而下降,利用单侧回波可估计CSAS基阵的斜距误差,但单侧回波在小测绘带时无法估计升沉误差,针对此问题,提出了一种利用单侧回波信号的声呐平台三维运动估计和补偿方法。首先,对CSAS在不同观测角度的目标回波取极大值获得目标回波的到达时间;其次,基于多个点目标的到达时间建立CSAS三维定位模型;然后利用列文伯格-马夸尔特方法对声呐三维坐标进行估计;最后将位置估计结果与时域反投影成像方法结合实现对目标的成像.仿真结果表明:该方法能精确估计声呐平台运动误差,其空间坐标的估计误差小于仿真信号波长的1/8,从而精确补偿了CSAS在不同空间采样点上的阵元回波时间差,显著提高了目标成像质量。湖上试验结果表明,该算法能够实现对CSAS的运动误差补偿。仿真和试验结果均验证了方法的可行性和有效性。 相似文献
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利用单侧回波可估计合成孔径声呐基阵的斜距误差,但无法区分横荡误差和升沉误差。针对此问题,提出了一种双侧回波联合的运动补偿方法。该方法首先根据双侧基阵运动误差的几何关系,建立了双侧基阵的运动误差模型,再结合偏移相位中心算法估计基阵的横荡误差和升沉误差,最后利用所估计的运动误差对不同掠射角上的回波进行运动补偿。仿真结果表明:该方法能精确估计双侧基阵的运动误差,其估计值与实际值的偏差为10-4 m左右,估计结果的标准差接近克拉美罗下界;对回波进行运动补偿后,能获得比基于单侧回波运动补偿方法更好的成像效果。水下球串目标的湖试数据的成像结果显示,与基于单侧回波的运动补偿方法相比,所提方法能更好地抑制图像的散焦现象。 相似文献
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合成孔径声呐成象的难点之一在于孔径上载体的运动不稳定性影响了合成孔径上水听器接收的信号的相干性,其结果将导致图像的畸变和分辨率的降低。首先讨论了运动误差对合成孔径声呐(SAS)成像的影响及运动补偿的必要性。在分析位移相位中心运动补偿法的基础上,提出了一种改进算法。该方法首先估计时延,然后再对剩余误差进行相位估计,从而扩大了算法适用的运动误差范围。文中给出了利用该方法的计算机仿真结果和部分水池实验结果,从结果可以看出,该方法有效地修正了在合成孔径上由于介质和载体不稳定带来的不相干性,提高了成像的质量。 相似文献
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在运动测量设备噪声统计特性不确定的情况下,提出结合Sage-Husa滤波的合成孔径声呐多传感器组合运动补偿方法。使用Sage-Husa卡尔曼滤波处理多种异类运动传感器的数据,自适应估计声呐速度的最优值,计算实际航迹与理想航迹之间的横荡误差和升沉误差,最后通过时延校正原始回波数据。仿真结果表明,Sage-Husa滤波对运动误差估计精度至少提高37%,运动补偿后,目标峰值旁瓣比和积分旁瓣比有所降低,峰值旁瓣比接近理论值.湖试数据处理结果表明,目标能量分散的情况有所改善,能量集中在主瓣,散焦得到抑制。Sage-Husa滤波在多传感器系统噪声先验知识缺失的条件下,能减小运动数据估计误差,提高运动补偿的准确性。 相似文献
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逆合成孔径激光雷达(ISAL)的调制信号具有高频率、大带宽的特性,使传统逆合成孔径雷达的"一步一停"模型不再适用。通过建立精确的ISAL成像模型,分析了ISAL成像过程中存在的平动误差、转动误差和模型误差。针对传统ISAL采用平动、转动分离补偿时,由于平动误差补偿存在残余误差而影响转动误差补偿的问题,因此提出基于Nelder-Mead单纯形法和拟牛顿法的联合补偿成像算法。该算法首先采用Nelder-Mead单纯形法对目标运动参数进行优化迭代搜索,将得到的优化解作为运动补偿项对三类误差进行全局补偿,然后利用拟牛顿法补偿残余误差。仿真实验结果表明,与传统分离补偿算法相比,本文算法可以精确估计目标的运动参数,获得聚焦良好的高分辨率ISAL二维图像。 相似文献
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逆合成孔径激光雷达(ISAL)成像运动补偿中,包络对齐的精度直接影响了相位误差估计精度.当目标速度和加速度较大时,距离包络严重倾斜且相位误差较大,图像无法进行良好聚焦.针对上述问题,在高精度成像模型的基础上提出了一种基于Nelder-Mead单纯形法和粒子群优化的全局联合运动误差补偿算法.首先,利用单纯形法估计目标速度,完成包络对齐.然后,将包络对齐过程获得的目标速度作为相位误差估计中参数初始化的约束条件.最后,用粒子群优化算法对各运动参数进行全局搜索并得到最优解,实现高精度运动参数估计及高阶相位误差补偿,得到聚焦良好的二维图像.实验结果表明,本算法的参数估计误差主要分布在±0.2%以内,参数估计精度和抗噪声性能均优于传统ISAL成像算法. 相似文献
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《声学学报:英文版》2016,(3)
When the swath of Synthetic Aperture Sonar(SAS) is considerably wide, the spacevariant effect of motion errors becomes remarkable. This space-variant effect makes Displace Phase Center Algorithm(DPCA) invalid. To solve the problem, a motion compensation method for wide-swath SAS is proposed. This method uses mixed modulated Lagrange explicit time delay estimation(MMLETDE) to estimate the time delay between two successive pings of the raw echo data, and then motion errors are fitted by linear regression. After that, the raw echo data can be precisely compensated point by point with the estimations of motion errors.Simulation results show that the proposed method can obtain better motion estimation results than DPCA. The resolution measured on the reconstructed image processed by the proposed method is very close to the theoretical resolution. The lake trail results of high frequency and low frequency SAS data show that the quality of the images of the terrain area and small targets is significantly improved. 相似文献
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Global illumination affects shape measurement accuracy, and phase unwrapping is an important problem in phase measuring profilometry. In this paper, a micro-phase measuring profilometry is proposed to reduce the effects of global illumination. The wrapped phase error level of the proposed method is lower than that of the traditional micro-phase shifting method. First, a frequency selection rule is developed in combination with the micro-phase rule to design the frequencies of the proposed phase measuring profilometry. The frequency rule is obtained by analysing the uncertainty of the wrapped phase caused by intensity noise. Then, phase unwrapping is regarded as a congruence problem, and the closed-form robust Chinese remainder theorem algorithm is adopted to determine the correspondence. Finally, the comparative experiments are conducted on a projector-camera system. Experimental results show that the effects of global illumination can be effectively reduced with the proposed phase measuring profilometry, and the proposed frequency selection rule is valid. In addition, the performance of the robust Chinese remainder theorem in addressing the phase error is better than that of traditional Chinese remainder theorem. Furthermore, the unwrapping accuracy can nearly reach 100% if the frequency selection rule is satisfied. Otherwise, the performance degrades. 相似文献
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基于中国余数定理的重构算法的信号频率估计是近年来信号处理、电磁学以及光学等领域的前沿问题,但目前这些研究仅限于对复指数信号做粗略频率估计.因而,本文把基于中国余数定理的频率估计从复指数信号粗估计拓展到实余弦信号精细估计领域,其所提出的估计方案处理过程如下:1)对高频余弦波形进行过零点检测,确定信号的相位信息;2)对各路欠采样信号做快速傅里叶变换,并借助Candan估计器对各路谱峰值做频率校正以获取高精度余数估计,基于此算出频偏值以做相位校正;3)用提出的基于相位特征分类方法对校正得到的余数做筛选;4)将筛选出的频率余数代入闭合形式的中国余数定理得到原信号频率的高精度估计.此外,本文还推导出了频率估计方差的理论表达式.数据模拟实验验证了该表达式的正确性,实验结果还反映了本文提出的方案具有高精度和高抗噪性能. 相似文献
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High resolution inverse synthetic aperture radar imaging of three-axis-stabilized space target by exploiting orbital and sparse priors 下载免费PDF全文
The development of inverse synthetic aperture radar(ISAR) imaging techniques is of notable significance for monitoring, tracking and identifying space targets in orbit. Usually, a well-focused ISAR image of a space target can be obtained in a deliberately selected imaging segment in which the target moves with only uniform planar rotation. However, in some imaging segments, the nonlinear range migration through resolution cells(MTRCs) and time-varying Doppler caused by the three-dimensional rotation of the target would degrade the ISAR imaging performance, and it is troublesome to realize accurate motion compensation with conventional methods. Especially in the case of low signal-to-noise ratio(SNR),the estimation of motion parameters is more difficult. In this paper, a novel algorithm for high-resolution ISAR imaging of a space target by using its precise ephemeris and orbital motion model is proposed. The innovative contributions are as follows. 1) The change of a scatterer projection position is described with the spatial-variant angles of imaging plane calculated based on the orbital motion model of the three-axis-stabilized space target. 2) A correction method of MTRC in slant-and cross-range dimensions for arbitrarily imaging segment is proposed. 3) Coarse compensation for translational motion using the precise ephemeris and the fine compensation for residual phase errors by using sparsity-driven autofocus method are introduced to achieve a high-resolution ISAR image. Simulation results confirm the effectiveness of the proposed method. 相似文献
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成像光谱仪扫描镜运动准确度测量 总被引:3,自引:1,他引:2
扫描镜的运动准确度直接影响成像光谱仪对地运动补偿效果,为此研制了一套扫描镜运动准确度测试设备对其进行测量.首先分析了扫描镜的运动补偿原理,从理论上给出了运动补偿曲线;随后以15 m地面像元分辨率和系统调制传递函数下降2%作为依据分别确定了扫描镜的位置和速度准确度要求,列出了扫描镜运动补偿倍数与相对转速误差的关系.基于检定设备1/3法则提出了扫描镜运动准确度测试设备技术指标要求,接着以0.8″绝对式光电编码器为核心建立了一套扫描镜运动准确度测试装置,并从测试方法误差和编码器测角误差两方面对测试装置测角和测速准确度进行了详细分析;最后采用研制的测试装置对扫描镜的运动准确度进行了测量试验.试验结果表明扫描镜位置准确度优于3″±1.2″,4倍补偿时速度准确度为5.6%±1.29%,6倍补偿时速度准确度为3.85%±1.29%,满足成像光谱仪对扫描镜运动准确度要求.外场成像图像证明本文提出的扫描镜运动准确度测量方法及设备可用于成像光谱仪扫描镜的性能检测与验收. 相似文献
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Compensation of phase change on reflection in white-light interferometry for step height measurement 总被引:1,自引:0,他引:1
We present a method for compensating for the phase change on reflection in scanning white-light inteferometry that practically permits precise three-dimensional profile mapping of composite target surfaces that comprise multiple, dissimilar materials. The compensation method estimates the variation of phase change with the spectral distribution of the light source through a first-order approximation and then directly compensates for the measurement errors by performing two additional quasi-monochromatic phase-measuring interferometric measurements. Experimental results prove that the proposed compensation method is capable of reducing the measurement error in step height gauging to +/-5 nm or less. 相似文献