非周期扩频的同步CDMA系统下行信道的分数阶间隔信道估计

使用正交扩频码的同步CDMA系统具有对抗同信道干扰的能力,但是多径传播导致信号失去正交性,互相关值增加。在这些情况下,需要对信道进行估计以提高接收机检测性能。以往的基于子空间的CDMA信道估计算法都是在chip速率采样的基础上得到的,其条件是接收信号满足Nyquist定理且信道是最小相位系统,这些条件在实际情况中是很难满足的。该文提出一种应用于非周期扩频的同步CDMA系统的下行信道的分数阶间隔信道估计的算法。计算机仿真表明了算法是有效的。     

一种新的数字调制信号符号率估计和同步算法

在非合作通信中,符号率估计和符号同步是实现数字调制信号正确解调的关键问题之一。针对这一问题,文中在分析现有符号率估计和符号同步算法优缺点的基础上,提出了一种新的基于Haar小波变换的数字调制信号符号率估计和符号同步算法。通过引入多同步参考点和同步位置修正技术,使得该算法具有更高的精度和抗噪声性能。数值仿真验证了该算法与传统算法相比的优越性。     

空间非平稳噪声下的宽带DOA估计算法

投影子空间正交性测试(TOPS)法是利用子空间的正交性实现宽带信号DOA估计,而在空间非平稳噪声环境下子空间的正交性条件不再满足,尤其是在低信噪比或低快拍条件下子空间估计将出现较大误差,TOPS算法性能将急剧下降。针对该问题,提出了一种空间非平稳噪声下宽带DOA估计算法。该算法首先通过构造特殊对角矩阵将噪声从数据协方差矩阵中剔除,从而克服非平稳噪声对DOA估计的影响;然后利用平方TOPS法实现宽带信号DOA估计,消除了传统TOPS算法中的伪峰。该算法适用于空间非平稳噪声背景及低信噪比环境,提高了对角度相近目标的分辨性能;仿真实验表明了该算法的有效性。     

超宽带系统中基于稀疏恢复的TOA和DOA联合估计方法

针对稀疏表示框架下进行超宽带系统中到达时间(Time of Arrival, TOA)和波达方向(Direction of Arrival, DOA)联合估计的问题,提出了一种基于稀疏恢复的TOA和DOA联合估计方法。采用l范数作为稀疏约束条件,并利用联合正交匹配追踪算法获取TOA估计值,解决了TOA配对问题,最后根据两副天线的时延差与DOA之间的关系获得信号的DOA估计。所提算法考虑了离网格信号参数估计问题,并通过联合稀疏恢复进行补偿。仿真结果表明,所提算法的参数估计性能优于传统的压缩感知算法、传播算子算法、矩阵束算法以及借助旋转不变性的信号参数估计技术(Estimating Signal Parameters via Rotational Invariance Techniques, ESPRIT)算法,同时计算复杂度更低。     

一种新的扩频信号估计方法

在直接序列扩频通信中,接收端需要保持伪随机码同步。提出了利用UKF算法和EKF算法联合对PRN码进行跟踪处理的联合估计算法,同时对信号的幅度参数进行联合估计。仿真结果表明,该算法在处理扩频信号的非线性估计问题上比传统的EKF算法估计精度更高,与UKF算法的估计精度相当,能够较好地保持PRN信号的同步性。同时其所消耗的总的时间比UKF算法更少,计算量更小。     

基于OFDM的联合信道估计的定时方法

针对正交频分复用(OFDM)系统中,传统的时域相关法无法满足定时同步精度的要求,提出了一种联合信道估计的同步算法,给出了理论推导,在得到信道估计结果的基础上对初始的定时同步结果进行修正,进而得到较为精确的定时位置,解决了同步头摆动等定时不准确的问题。用Matlab对提出的算法进行了仿真,仿真结果表明,此改进算法能满足低信噪比下的定时同步要求。     

一种改进的高动态QPSK信号解调算法

正交相移键控(QPSK)调制解调方式广泛应用于深空通信、数字卫星通信等高速系统中,高动态QPSK信号具有较大的多普勒载波频偏,针对现有的解调算法对QPSK信号频偏估计范围小、精度较低等问题,提出了一种改进的高动态QPSK信号解调算法。该算法利用基于Zoom-FFT的Quinn频率估计算法对载波频偏进行估计,将频偏估计分为粗估计和精估计两个过程,对估计所得频偏进行补偿后利用Costas环完成载波同步。在MATLAB中对算法进行了仿真,仿真结果表明,该算法能够实现对高动态大频偏QPSK信号的有效捕获,与传统的解调方式相比,该算法对载波频偏的估计范围更大,且具有更高的频偏估计精度和更好的误码性能。     

UFMC系统中的载波频率同步技术

针对UFMC系统对频率偏差敏感的问题,提出一种适合用于UFMC 系统的频率同步算法。为了保留UFMC系统的良好特性、降低UFMC中滤波器的设计复杂度,该算法设计了一种子带间正交的导频序列,并采用非线性最小二乘（NLS）法进行CFO估计。通过序列构造和计算该构造序列与估计信号的相关性对算法进一步改进,使得低信噪比下的估计性能得到改善。理论分析和仿真表明,在高斯和瑞利衰落信道下,子带间正交导频序列的误码率、CFO性能均优于全1导频序列;在低信噪比环境下,改进算法的CFO性能优于NLS算法。     

空间任意阵的多宽带信源定位算法性能研究

针对宽带信号非平稳特性,以及常用宽带DOA估计算法要求信源个数是已知的情况,提出一种新的基于空间任意阵的非平稳信号DOA估计算法。首先,通过短时傅里叶变换将信号转为频域表示,然后构造阵列频域数据模型,最后利用短时功率谱矩阵的联合对角化特性实现宽带信号的波达方向估计。本文对提出的算法进行了理论分析,并在常见阵型（如线阵、十字阵）上进行了仿真和性能分析,仿真结果表明该算法可高分辨率地估计出DOA,并且估计误差小。相对于已有的MUSIC谱估计方法,该算法无需进行信源个数估计,更具实用性。      

采用合成方法的多路信号自适应时延联合估计

本文关注的是多路信号之间时延差异的联合估计问题。不同于传统的自适应时延估计算法,本文以合成信号作为自适应时延估计的参考信号,给出了基于信号合成的联合自适应时延估计算法。同时本文推导和仿真了该算法时延估计的均值、学习曲线及方差特性。性能分析和仿真结果均显示,本文提出的基于合成的多路信号自适应时延估计为渐进无偏的时延估计。在不明显增加计算量的条件下,当算法收敛时,联合时延估计算法的方差显著低于传统的两路信号之间自适应时延估计算法方差。      

A new symbol timing and carrier frequency offset estimationalgorithm for noncoherent orthogonal M-CPFSK

We present a new joint symbol timing and carrier frequency offset estimation algorithm for noncoherent orthogonal continuous-phase M-ary frequency-shift keying (M-CPFSK). Our algorithm performs nondata-aided feedforward processing of finite-length observations, and it is suited for an all-digital modem implementation based on a DSP or an ASIC processor. The algorithm exploits phase continuity of M-CPFSK in order to generate both a spectral component at the carrier frequency offset and a timing error signal. This is obtained without nonlinear transformations of the received signal involving noise×noise products. Thus, our algorithm can operate at a very low input signal-to-noise ratio. We discuss the operating range of our algorithm, and we show that no additional overhead (training sequence) in excess of the standard overhead of FDMA/TDMA packet transmission is required to resolve timing and frequency ambiguities. Moreover, we show that by differentially preceding the transmitted symbols, it is possible to eliminate automatically frequency ambiguities, at the price of a slight increase in the bit-error rate. An approximate mean-square error analysis of the estimators and simulation results prove that our algorithm provides good performance, even with a relatively short observation block length and large carrier frequency offset. Computer simulations show also that our algorithm is extremely robust to phase noise. These features make our algorithm a good candidate for satellite FDMA/TDMA applications in the 20-30 GHz band, with a large number of users and bursty transmission     

一种CPM信号参数盲估计方法

针对非协作通信下CPM信号参数盲估计问题,提出了一种系统的有序的盲估计方法,实现了对CPM信号的载频、符号速率、调制指数和调制阶数等参数的精确估计。利用CPM信号的循环平稳特性,采用了基于周期谱的符号速率估计方法,构建了代价函数,采用联合估计法对调制指数和频偏实现了三维的精确搜索,最后实现了基于循环平稳性的CPM信号调制阶数的准确识别。理论分析与试验仿真表明,新方法具有较高的正确估计概率,且在低信噪比下也能达到较好的效果。     

基于DML-ESPRIT算法的多维参数快速联合估计

将确定性最大似然估计准则的多维参数估计能力与ESPRIT算法的高时效性有机结合,提出了一种二维DOA-功率-频率快速联合估计方法--DML-ESPRIT算法。利用双L阵列的空间特性,通过引入空间锥角,将多维空间搜索问题转换为一维角度估计,并基于确定性最大似然估计准则推导得到了多信源的空间锥角、功率和频率联合估计的数学模型;然后在对子阵进行扩展的基础上,利用TLS-ESPRIT算法对模型进行求解,避免了谱峰搜索问题,实现了多维参数的快速联合估计。实验结果表明,DML-ESPRIT算法在保持高估计精度的同时运行耗时约35 ms,具有较好的工程应用前景。     

Joint angle and Doppler frequency estimation of coherent targets in monostatic MIMO radar

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.     

Joint Doppler frequency, 2D-DOD and 2D-DOA estimation for bistatic MIMO radar in spatial coloured noise

In this paper, we address the problem of four-dimensional angle and Doppler frequency estimation for L-shaped bistatic multiple input multiple output radar in spatial coloured noise. A novel method of joint estimation of Doppler frequency, two-dimensional direction of departure and two-dimensional direction of arrival based on the propagator method is discussed. Utilising the cross-correlation matrix which is formed by the adjacent outputs of matched filter in the time domain, the special matrix is constructed to eliminate the influence of spatial coloured noise. The proposed algorithm provides lower computational complexity and has very close parameter estimation to the estimation of signal parameters via rotational invariance techniques algorithm and DOA-matrix algorithm in high signal-to-noise ratio and Cramér–Rao bound is given. Furthermore, multidimensional parameters can be automatically paired by this algorithm to avoid the performance degradation resulting from wrong pairing. Numerical simulation results demonstrate the effectiveness of the proposed method.     

相干信号源的空时三维参数分离估计方法

文中提出了一种宽频段窄带相干信号源的频率和二维波达方向估计的新方法。该方法利用L型阵列并结合一定的时域信息,将相干源的三维参数估计问题转化为3个一维问题,并在每一维使用空间平滑方法和ESPR IT算法求解相应参数,最后通过求解联立方程,获得相干信号的三维参数。因此,避免了谱峰搜索,并且算法本身的并行处理能力,提高了测向系统的实时性。计算机仿真结果表明了该算法的有效性。     

基于MUSIC和ML方法的MIMO系统参数估计

该文提出了一种基于MUSIC和ML方法联合估计MIMO系统频偏和信道增益的算法,该算法首先使用MUSIC方法估计出多个发射天线到某一接收天线的频偏子集,然后利用最大似然方法在这个有限子集中分离出不同天线对之间的频偏,最后在频率同步的基础上利用最大似然估计器对信道增益进行估计。该算法解决了在估计多个频偏时直接使用最大似然估计进行多维搜索的问题,将多维搜索转化为一维搜索,降低了算法的复杂度。     

TD-SCDMA系统频偏估计算法

文章从估计范围、估计精度和运算复杂度等方面,对现有的5种频偏估计算法进行研究和仿真,给出了算法的选择依据和详细的分析结果.在此基础上,研究了利用差分相关法、基于TS0的Midamble码与SYNC-DL码的联合频偏估计算法,分析了估计范围和运算复杂度.通过仿真发现,该算法可以将频偏控制在±0.05×10-6之内,较好地实现了精确的频偏估计,解决了频偏估计精度不易提高的难题.     

Joint Semi-Blind Channel Estimation and Data Sequence Detection of OFDM Systems

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Novel angle estimation for bistatic MIMO radar using an improved MUSIC

In this article, we study the problem of angle estimation for bistatic multiple-input multiple-output (MIMO) radar and propose an improved multiple signal classification (MUSIC) algorithm for joint direction of departure (DOD) and direction of arrival (DOA) estimation. The proposed algorithm obtains initial estimations of angles obtained from the signal subspace and uses the local one-dimensional peak searches to achieve the joint estimations of DOD and DOA. The angle estimation performance of the proposed algorithm is better than that of estimation of signal parameters via rotational invariance techniques (ESPRIT) algorithm, and is almost the same as that of two-dimensional MUSIC. Furthermore, the proposed algorithm can be suitable for irregular array geometry, obtain automatically paired DOD and DOA estimations, and avoid two-dimensional peak searching. The simulation results verify the effectiveness and improvement of the algorithm.