共查询到19条相似文献,搜索用时 62 毫秒
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该文针对多脉冲发射协同结构的分布式全相参雷达,首先建立了全相参模式下的信号模型,然后推导了输出信噪比增益(oSNRg)的解析式,并基于相干参数估计的克拉美-罗界(CRB),利用多项式拟合,获得了oSNRg上界的数值解。结果表明:增加发射天线数或脉冲数能够提高oSNRg;而增加接收天线数能否提高oSNRg取决于输入信噪比大小,输入信噪比较大时则oSNRg随之提高,较小时反而随之下降。最后的仿真实验验证了研究结论的正确性。 相似文献
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宽带分布式全相参雷达具有高距离分辨力和高角度分辨力,可在实现对目标探测的同时获得更为精细的信息。其中,准确的相参参数是实现宽带全相参的关键。在远距离探测场景下,目标回波SNR较低,导致单部雷达无法探测到目标。如何在此情况下准确地估计相参参数,完成多部雷达相参合成,是分布式全相参雷达实现远距离探测的核心问题。本文首先建立了针对高速运动复杂目标的宽带Chirp去斜回波模型,并建立了相参参数的数学模型。然后,提出了基于MUSIC法的宽带分布式全相参雷达相参参数估计方法,通过估计观测目标的散射点个数、极点以及复幅度,重建宽带回波信号,并基于该无噪声重建信号估计相参参数。最后,利用仿真分析验证了本文提出方法在低SNR下的有效性。 相似文献
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该文研究了收发站运动情况下双基地MIMO雷达的参数估计性能。首先,给出了运动双基地MIMO雷达的信号模型,推导出多目标下参数估计克拉美罗界(CRB)的一般表达式;其次,给出了单目标情况下发射角和接收角估计的CRB闭式解,并分析了收发站运动时,各参数对CRB的影响。理论和仿真结果表明:增大某一站(发射站/接收站)的运动速度,将提高该站所对应的角度(发射角/接收角)估计性能,但同时也降低了另一站所对应的角度估计性能;当发射站/接收站的运动视角垂直于发射角/接收角,而另一站的运动视角平行于接收角/发射角时,发射角/接收角的估计性能最优。 相似文献
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分布式相参雷达(DCAR)是目前国内外雷达领域的重要研究方向,精确的参数估计是实现其良好相参性能的前提和核心。基于动目标模型,提出一种基于多脉冲积累的相参参数估计方法。该方法通过对多脉冲信号进行快、慢时间匹配滤波处理,实现多脉冲相参积累;再利用互相关法进行相参参数估计。仿真分析对比了不同脉冲个数和不同输入信噪比下的参数估计性能和相参性能,仿真结果表明,该方法具有可行性,且可以有效提高低信噪比情况下的参数估计性能和相参性能。 相似文献
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为选择最佳参数估计方法估计目标微多普勒特征,需要研究参数估计的克拉美-罗界,来评价各估计方法的性能。以相干激光探测为背景,考虑噪声方差未知的影响,严格推导了高斯白噪声环境下微动目标回波信号各参数估计的克拉美-罗界的闭合表达式,仿真分析了目标相对于雷达的位置信息、数据处理长度以及回波信噪比与参数估计方差下界的关系。结果表明,克拉美-罗界与噪声方差无关,目标相对于雷达的方位角、俯仰角越小,数据长度和信噪比越大,参数估计的方差下界越小。对目前常用的两种微动参数估计方法方差进行了计算,并与推导克拉美-罗界进行了对比。最后,与通过近似处理方法得到的克拉美-罗界进行了对比,指出了精确推导方差下界的意义。 相似文献
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研究了MIMO雷达GMTI 性能及其DOA估计的克拉美·罗界(CRB)。首先建立机载平台下MIMO雷达信号模型,通过对系统参数设置,可使MIMO雷达工作在3种不同模式中。接着分析了MIMO雷达GMTI性能,并推导出了在MIMO雷达空时信号模型下,利用空时联合域信息时DOA估计的CRB。仿真结果表明,无论是GMTI性能还是DOA估计性能,MIMO雷达均优于相控阵雷达,尤其是发射稀疏阵MIMO雷达性能最佳。同时,利用空时联合域信息能有效改善MIMO雷达DOA估计的CRB,在目标多普勒频率相差较大时效果更加明显。 相似文献
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分布式全相参雷达是一种新体制、颠覆性雷达技术,可将若干单元雷达进行信号处理级合成处理,实现N3信噪比增益,可突破雷达功率孔径积的限制.由于星载平台雷达系统各单元间距较远,星间无线相位估计与同步则成为核心问题之一.本文建立分布式相位同步理论模型,通过对相位误差分析,提出一种循环往返式相位同步方式.相比于主-从相位同步方式... 相似文献
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In this article, a novel coherent angle estimation method is proposed for bistatic multiple-input multiple-output radar. First, a decorrelation operation is taken by constructing a Hankel block matrix whose rank equals the number of coherent targets and is independent of the coherency between these targets. Therefore, the signal and noise subspaces of the Hankel block matrix can be estimated properly. Then, in conjunction with the ESPRIT algorithm, the shift invariance properties of the transmit and receive arrays are exploited to estimate the angles of coherent targets with automatic pairing. The numerical simulations demonstrate its validity. 相似文献
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根据天线阵列接收到的数据,提出了一种基于Toeplitz矩阵重构的宽带相干源方位估计算法.该算法先由Toeplitz 阵列接收到的数据得到包含波达方向信息的协方差矩阵,再对该协方差矩阵进行聚焦处理,得到同一频率的阵列协方差矩阵,最后由高分辨子空间处理方法得到宽带相干信号的波达方向估计.仿真实验证明了该方法的有效性. 相似文献
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This paper discusses the problem of coherent direction of arrival (DOA) estimation in a monostatic multi-input multi-output (MIMO) radar using a single pulse, and proposes a reduced dimension (RD)-estimation of signal parameters via rotational invariance techniques (ESPRIT) algorithm. We reconstruct the received data and then utilise it to construct a set of Toeplitz matrices. After that, we use RD-ESPRIT to obtain the DOAs of the sources. The proposed algorithm is effective for coherent angle estimation based on a single pulse, and it has much better angle estimation performance than the forward backward spatial smoothing (FBSS)-ESPRIT algorithm and the ESPRIT-like of Li, as well as very close angle estimation performance to the ESPRIT-like of Han. For complexity comparison, our algorithm has very close complexity to the FBSS-ESPRIT algorithm, and lower complexity than the ESPRIT-like of Han and the ESPRIT-like of Li. Simulation results present the effectiveness and improvement of our approach. 相似文献
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This paper discusses the problem of joint direction of arrival (DOA) and Doppler frequency estimation of coherent targets in a monostatic multiple-input multiple-output radar. In the proposed algorithm, we perform a reduced dimension (RD) transformation on the received signal first and then use forward spatial smoothing (FSS) technique to decorrelate the coherence and obtain joint estimation of DOA and Doppler frequency by exploiting the estimation of signal parameters via rotational invariance techniques (ESPRIT) algorithm. The joint estimated parameters of the proposed RD-FSS-ESPRIT are automatically paired. Compared with the conventional FSS-ESPRIT algorithm, our RD-FSS-ESPRIT algorithm has much lower complexity and better estimation performance of both DOA and frequency. The variance of the estimation error and the Cramer–Rao Bound of the DOA and frequency estimation are derived. Simulation results show the effectiveness and improvement of our algorithm. 相似文献
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An improved algorithm on coherent direction-of-arrival (DOA) estimation is presented in this article, with the objective to overcome the unsatisfactory performances of estimation of signal parameter via rotational invariance techniques (ESPRIT)-like algorithms (Han and Zhang, IEEE Antennas and Wireless Propagation Letters 2005;4:443–446). On the basis of trilinear model by reconstructing a series of Toeplitz matrix from the co-variance matrix of array output, our proposed algorithm is to resolve the DOAs of coherent signals, which not only has much better DOA estimation performance than algorithms of ESPRIT-like and multi-invariance ESPRIT but also identifies more DOAs than ESPRIT-like algorithm. Simulation results demonstrate its validity. 相似文献