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空基平台无源定位的误差推导与精度分析 总被引:1,自引:0,他引:1
为研究双机无源定位的误差精度,对无源定位误差公式进行了推导,并采用数字仿真的方法对间距、目标位置、测角精度以及平台测量误差对定位精度的影响进行了分析。分析结果表明,平台的几何位置对误差影响较大,保证目标交汇角在一定范围内,是保证定位精度的有效方法。 相似文献
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基于稀疏表示理论,提出一种新的双基地多输入多输出(MIMO)雷达收发角度及幅相误差估计算法。利用接收数据,分别构造发射和接收协方差矩阵,并以列向量化后的发射和接收协方差矩阵为量测信号建立2个一维稀疏线性模型,构造模型求解的 L2-L1 混合范数优化目标函数,通过交替迭代寻优获得目标角度估计和幅相误差估计,最后给出了本文算法的收敛性分析。与现有算法相比,该算法充分利用了目标发射和接收空域的稀疏特性,且能够通过对噪声功率的预估计来抑制噪声。仿真结果表明:在低信噪比(SNR)条件下,本文算法仍能够得到较好的估计精度,且对幅相误差具有一定的稳健性。 相似文献
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功率电传技术是未来全电飞机发展须攻克的难点,其中具有集成化优势的小型高效电静液作动器是功率电传技术领域的一项重要内容。智能材料驱动的电静液作动器由于具备集成度高、能量密度大、响应快、精度高等优势,已逐步成为电静液作动器的主流发展方向之一。本文针对一种双压电泵驱动、电机配流的封闭式电液作动器,从驱动幅值、频率、相位3个控制维度出发,提出幅相控制、频相控制与纯相控制3种控制方法。试验证明,幅相控制与纯相控制误差低于频相控制,当该作动器在跟踪 0.5 Hz 频率、7.5 mm 峰峰值的正弦目标位移时,幅相控制和纯相控制的均方根误差分别为0,09 mm 与1.101 mm,相对低于频相控制时的0.169 mm。文中所提出的3种控制方法均可实现双泵电静液作动器的伺服控制,但幅相控制和纯相控制方法的控制精度优于频相控制。 相似文献
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为了实现永磁同步电机低速段的高精度无传感器运行,系统地分析了绕组电阻和感应电动势、电流调节器、滤波器、电机暂态运行、注入高频电压的幅值与频率、多凸极效应、电流传感器精度以及A/D采样量化误差等因素对基于旋转高频电压注入法的低速无传感器控制方法转子位置估计精度的影响机理。在此基础上,提出了一种基于基波电流观测器和旋转高频电压注入法相结合的低速无传感器控制策略,消除了传统的无传感器控制方法中带通滤波器引起的转子位置估计误差,并降低了电机暂态运行引起的转子位置估计误差,有效地提高了低速无传感器控制方法的转子位置估计精度。仿真和实验结果表明,所提出的低速无传感器控制策略具有更高的转子位置估计精度和更宽的调速范围。 相似文献
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针对运动平台位置测量通常精度不高的问题,文章基于非合作目标的运动平台导航误差估计方法,将平台的导航误差建立为随时间一阶变化的模型,求解平台的运动参数,并使用线性模型拟合不同目标相对于不同平台的位置测量。通过对比参考平台与其他平台对相同目标运动参数估计的差异,求解平台的导航误差参数,并对平台运动参数进行校正。数值仿真证明了算法的有效性,并分析了测量次数对导航误差估计精度和目标定位精度的影响。 相似文献
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基于标准弹道确定的虚拟目标点位置在弹道小扰动的情况下能够确保闭路制导的精度,但是在弹道大扰动时,虚拟目标点位置修正误差变大,能否保证闭路制导的精度值得探讨。通过给弹道一个大扰动进行了弹道仿真,结果表明,弹道大扰动会引起闭路制导的方法误差变大。 相似文献
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给出利用星敏感器进行惯性姿态和对地姿态确定的流程,重点分析了惯性姿态向对地姿态转换过程中的误差传播关系,给出了相应的误差传播矩阵和误差传播影响因子。仿真表明,由于坐标转换时引入轨道参数误差,误差传播影响因子一般在1~2之间,因而使得对地定姿精度较惯性定姿精度稍低。 相似文献
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将三维坐标系引入运动误差分析,建立了对任意匀速直线航迹双基地聚束SAR运动误差统一、清晰的分析方法;在此三维坐标系下,推导出各种运动误差引起的相位误差的计算公式。推导基于一般的双基地聚束SAR回波模型,可适用于任意匀速直线航迹的双基地聚束SAR,并且将通常的单基地SAR的运动误差分析作为一种特例也涵盖在内。给出了位置误差、速度误差和加速度误差所造成的相位误差计算公式。从推导结果得出结论:位于不同平台的同一误差,引起的相位误差是不同的;在小场景假设下,双基地聚束SAR的运动误差是空不变的,与目标位置无关。计算机仿真验证了误差分析的正确性。 相似文献
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Three sources of beamforming deterioration are identified for an FMCW radar. These all relate to time-of-arrival and cable delays. There are small range-dependent phase errors at the receiver outputs. The delays cause frequency shifts, which produce phase errors at the discrete Fourier transform (DFT) outputs after ranging. These frequency shifts cause amplitude errors when the signals are resolved into the same range bin. Two methods of compensating for phase and amplitude errors are proposed. The first corrects for phase errors prior to beamforming. Amplitude errors are ignored but the residual error is usually small. The second method aligns the receiver frequencies digitally before ranging. This eliminates the phase errors and the amplitude errors at the DFT range estimates 相似文献
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The performance of planar phase-array antennas with mechanical errors is investigated. Errors in array element positions as a result of structural distortions are considered as deterministic and predictable. Detailed calculations for two assumed modes of distortion reveal that their effects on antenna performance are the loss of peak response in the scan direction and the broadening of the mainlobe, while the far-out sidelobe structure remains relatively intact. For large antennas, performance improvement can be expected by suitable phase compensation. Performance of antennas with random errors in their element positions must be treated statistically. Expressions of average directivity and sidelobe level corresponding to arbitrary error magnitudes in element position, amplitude and phase of excitation as well as finite rate of failure of element modules were derived and verified by direct numerical calculations from the antenna directivity patterns. For a planar phased-array antenna typical for space-based radars, the standard deviation of element position errors must not exceed 1% of the operating wavelength in order to maintain a -10 dBi sidelobe level 相似文献
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This paper presents a discussion of multipath disturbance of a satellite interferometer. A mathematical expression is developed, in which an upper bound of the error of the measured angle difference and position locations owing to multipath is expressed in terms of geometrical system parameters and the amplitude and phase of the multipath signal. Because diffuse reflection from a rough surface is predominant, the spectrum of multipath reflections is calculated. Multipath rejection by filtering is discussed, and curves for the position errors are presented. 相似文献
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Missile terminal guidance seekers that employ optical, infrared, or radar sensors to acquire, lock-on, and track their target are subject to a missile-to-target line-of-sight pointing error during the acquisition phase. The error is due primarily to missile navigation errors (attitude and position) and inaccuracies in predicting the target location. The computational process to obtain the seeker-to-target pointing vector is formulated. Linear perturbation ion of the pointing vector yields the pointing-angle error tions.quaons. A simple quantitative example is given. 相似文献
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The concept, operation, and predicted performance of an RF tracking control system used to point the Pioneer F/G spacecraft at the Earth is described. This system employs a modified conical scanning technique called Conscan. The signal processor, the most interesting unit of the system, is described in detail to show that it approximates a maximum likelihood estimator. The dynamic behavior of the spacecraft and the stability analysis of the system are presented, demonstrating that the system performance is basically determined by the open-loop phase and amplitude errors introduced by the antenna, receiver, and signal processor. A detailed error budget shows that the phase and amplitude errors are small. Finally, closed-loop simulation and test data are presented to verify the error budget. 相似文献
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Stausberger D.J. Garber E.D. Chamberlain N.F. Walton E.K. 《IEEE transactions on aerospace and electronic systems》1992,28(2):396-403
The effects of a class of multipath propagation channels on the performance of a over-the-horizon (OTH) radar target classification system are considered. A Rician frequency-selective fading channel model is employed to characterize the effects of the multipath propagation medium and evaluate the performance of radar target classification systems. The performance of classification algorithms that employ relative amplitude, relative phase, and absolute amplitude measurements as features is investigated. Performance estimates of the various classification algorithms for interesting sets of channel parameters are obtained by means of Monte-Carlo simulations 相似文献
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Optimal guidance of extended trajectory shaping 总被引:3,自引:1,他引:2
To control missile's miss distance as well as terminal impact angle, by involving the timeto-go-nth power in the cost function, an extended optimal guidance law against a constant maneuvering target or a stationary target is proposed using the linear quadratic optimal control theory.An extended trajectory shaping guidance(ETSG) law is then proposed under the assumption that the missile-target relative velocity is constant and the line of sight angle is small. For a lag-free ETSG system, closed-form solutions for the missile's acceleration command are derived by the method of Schwartz inequality and linear simulations are performed to verify the closed-form results. Normalized adjoint systems for miss distance and terminal impact angle error are presented independently for stationary targets and constant maneuvering targets, respectively. Detailed discussions about the terminal misses and impact angle errors induced by terminal impact angle constraint, initial heading error, seeker zero position errors and target maneuvering, are performed. 相似文献