一种基于导频设计的MIMO-OFDM载波 频偏估计方法

在多输入多输出-正交频分复用(MIMO-OFDM)系统中载频同步是个关键问题.考虑在该类系统中,存在着多个不同的载波频偏这个具有普遍适应性的模型,为了估计多个不同的频偏,提出了一种导频设计方案－子波段方法,将多个频偏的估计问题转换为一组单个频偏估计问题,从而降低了复杂度,同时可以有效地抑制载波间干扰和天线间干扰,提高载波频偏估计性能.     

MB-OFDM超宽带系统中模拟前端非理想因素的估计与补偿

解决模拟前端非理想因素:载波频率偏差、采样频率偏差以及I/Q失配对多带-正交频分复用超宽带系统的影响.提出时域载波频偏和I/Q失配估计和补偿方案.该方案包括一种能有效对抗大范围I/Q失配的数据辅助载波频偏估计算法,一种时域I/Q失配估计算法和一种2步式载波频偏、I/Q失配补偿算法.在频域,利用超宽带数据帧头的时域扩展特性进行残余载波频偏和采样频偏估计.仿真结果表明,即使存在较大非理想因素的情况下,提出的估计与补偿方案仍然能提供较好的系统误码性能.     

LOFDM系统大载波频偏的盲估计算法

该文研究了网格正交频分复用(LOFDM)系统中大载波频偏的盲估计.在低信噪比及虚子载波存在的假设下,基于最大似然准则(ML)推导出LOFDM系统大载波频偏盲估计算法.该算法利用了信号的时变自相关函数特性,频偏估计的范围为所有子载波宽度.计算机仿真表明,该算法也适用于高信噪比条件下的载波频偏估计.与基于信号二阶循环平稳特性(CS)的盲载波频偏估计算法相比,提出算法的均方根误差(RMSE)性能在加性高斯白噪声(AWGN)信道和广义平稳非相干散射信道(WSSUS)条件下均有很大程度的改善.     

OFDM-IDMA系统的迭代频偏估计及补偿

针对OFDM IDMA系统中载波频偏(CFO)带来的子载波之间的干扰问题,提出了在各用户具有相同频偏下的联合逐码片(构的信号作为虚拟的训练序列进行频域频偏估计,同时进行相应的时域频偏补偿.理论分析及实验仿真结果表明:基于逐码片迭代检测的近无频偏时的性能CBC)迭代检测的载波同步方法.该方法利用迭代检测中的外信息重OFDM IDMA系统的频偏估计和补偿方法能够使系统性能接     

一种新的频偏估计与补偿方法研究

载频同步是通信系统中一个重要的问题,QAM在相干解调时,接收机需要提供一个与发射机调制载波同频的相干载波,以保证接收机以较低的错误概率恢复出发送信号,载波提取性能的好坏是评价接收机性能的重要标准.可见,为了保证信息的可靠传输,对载波频偏估计方法的研究具有重要意义,为此,本文研究了一种新的载波频偏估计算法,并利用估计出来的频偏对解调后的信号进行频偏补偿,仿真结果表明效果较好.     

一种改进的Fitz载波频偏估计方法及其仿真

为了解决低信噪比条件下载波频偏估计中估计范围和估计精度的矛盾,在比较分析现有经典估计方法的基础上,提出了一种改进的Fitz载波频偏估计方法,利用自相关序列差分代替自相关序列相位估计频偏.此方法将频偏估计范围提高到数据速率的一半,同时又保持了原有Fitz方法的低信噪比门限.通过仿真验证了改进频偏估计方法对大频偏和低信噪比的适用性.     

数字中继卫星通信系统中的载波恢复技术

载波频偏估计是数字中继卫星通信系统中的一个关键技术。对非线性变换FFT载波频偏估计算法进行了推导,采用基于周期图峰值位置的三点插值法对FFT算法进行了改进,进一步采用二叉搜索法实现更高精度的载波频偏估计。给出了计算机仿真结果,表明该方案能够有效抑制噪声,在有限的计算量下具有良好的频偏估计性能。     

一种新的OFDM系统载波频偏估计算法

在正交频分复用(OFDM)系统中,频率偏移会破坏子载波间的正交性,降低整个系统的性能。在研究传统频偏估计算法的基础上,利用简单的实数训练序列,进行OFDM系统的载波频偏估计,只需要一个训练序列,就可以有效地在时域内同时对小数倍和整数倍的频率偏移进行估计。仿真结果表明,基于实数训练序列的载波频偏估计算法不仅方法简单,易于实现,而且可提高频偏估计精度。     

协作OFDM系统中改进的载波频偏估计算法

协作OFDM系统中,由于OFDM技术的引入,使协作通信系统对载波频率偏移非常敏感,很小的频偏就会引起子载波间的干扰.提出了协作OFDM系统中基于前导符号改进的载波频偏估计算法,设计了一种用PN序列调制指数序列得到的前导符号.仿真结果表明,该算法对协作OFDM系统的载波频偏估计性能明显优于传统算法.     

大气激光通信下的OFDM的频偏及信道估计

本文针对子载波频率偏移对大气激光通信下的OFDM系统的影响,在LS估计准则下,采用基于训练符号的信道估计来抑制频偏对系统产生的影响,从而精确恢复子载波.仿真结果表明:在大气激光通信下的系统中,子载波的频率偏移仍会对系统产生很大的ICI,通过对系统进行基于训练符号的信道估计,可以有效补偿子载波频偏对系统带来的影响,能显著降低系统的BER.,证明了此方法的可行性.     

Scattered Pilots and Virtual Carriers Based Frequency Offset Tracking for OFDM Systems: Algorithms, Identifiability, and Performance Analysis

In this paper, we propose a novel carrier frequency offset (CFO) tracking algorithm for orthogonal frequency division multiplexing (OFDM) systems by exploiting scattered pilot carriers and virtual carriers embedded in the existing OFDM standards. Assuming that the channel remains constant during two consecutive OFDM blocks and perfect timing, a CFO tracking algorithm is proposed using the limited number of pilot carriers in each OFDM block. Identifiability of this pilot based algorithm is fully discussed under the noise free environment, and a constellation rotation strategy is proposed to eliminate the c-ambiguity for arbitrary constellations. A weighted algorithm is then proposed by considering both scattered pilots and virtual carriers. We find that, the pilots increase the performance accuracy of the algorithm, while the virtual carriers reduce the chance of CFO outlier. Therefore, the proposed tracking algorithm is able to achieve full range CFO estimation, can be used before channel estimation, and could provide improved performance compared to existing algorithms. The asymptotic mean square error (MSE) of the proposed algorithm is derived and simulation results agree with the theoretical analysis.     

Novel Blind Carrier Frequency Offset Estimation Algorithm for OFDM System Via Generalized Precoding

In this letter, we develop a blind carrier frequency offset (CFO) algorithm for orthogonal frequency division multiplexing (OFDM) systems by utilizing a generalized precoding. Generalized precoding is employed to obtain multiple covariance matrices, and then a CFO estimation algorithm for OFDM system using joint diagonalization is proposed. Comparing to estimation of signal parameters via rotational invariance techniques (ESPRIT) method, the algorithm that we presented has improved CFO estimation performance. Furthermore, our algorithm even works well without virtual carrier. Simulation results illustrate performance of this algorithm.     

Compressed Sensing Trilinear Model-Based Blind Carrier Frequency Offset Estimation for OFDM System with Multiple Antennas

This paper addresses the problem of carrier frequency offset (CFO) estimation for orthogonal frequency division multiplexing (OFDM) systems with multiple antennas, and links CFO estimation problem in OFDM systems to the compressed sensing trilinear model. Exploiting this link, we derives a compressed sensing trilinear model-based CFO estimation algorithm. The signal model can be expressed as a trilinear model, and there exists three compressed matrices which can compress the trilinear model to be a lower dimensional one. After that, trilinear decomposition is performed for the compressed model to get the estimations of compressed data matrices, and then the CFO can be estimated through solving the sparse recovery problem via \(\ell _0\) -norm constraint. The proposed algorithm has much better CFO estimation performance than ESPRIT method, and performs very close to the trilinear decomposition-based approach which has heavier computational burden and requires much greater storage capacity. Furthermore, our proposed algorithm can even work in condition of no virtual carrier. We derive the Cramer-Rao bound of CFO estimation for multiple antenna OFDM system. Simulation results illustrate performance of our algorithm.     

基于CP-ESPRIT的MIMO-OFDM频偏估计算法

针对已有MIMO-OFDM盲同步算法需要较多接收数据的缺点,提出了一种基于循环前缀和ESPRIT思想的MIMO-OFDM频偏估计算法——CP-ESPRIT算法。算法利用接收信号中未被IBI污染的循环前缀和OFDM符号中相应的部分构造接收信号矩阵,然后利用ESPRIT方法求得频偏估计值。该算法只要一个符号就能估计频偏,且频偏估计范围为一个子载波宽度,可用于载波频偏精同步。仿真验证了算法的性能。     

Multiple Invariance MUSIC-Based Blind Carrier Frequency Offset Estimation for OFDM System with Multi-Antenna Receiver

In this paper, we address the problem of carrier frequency offset (CFO) estimation for orthogonal frequency division multiplexing (OFDM) systems with multi-antenna receiver. The received signal can be reconstructed to form data model with multi-invariance property, and then a multi-invariance MUSIC algorithm for CFO estimation is proposed. This algorithm has better performance of CFO estimation than ESPRIT method, multi-invariance ESPRIT method and trilinear decomposition algorithm, and also qualifies the estimation for both integer CFO and fractional CFO. Simulation results illustrate validity of this algorithm.     

基于可变遗忘因子RLS在OFDM系统的载波频偏估计

在时变信道下正交频分复用（OFDM）系统中,通过导频辅助,提出基于可变遗忘因子RLS（VFF-RLS）的载波频偏（CFO）估计改进算法。针对传统RLS（CFF-RLS）算法中遗忘因子无法同时满足CFO估计收敛速度和收敛精度的缺陷,本文设计了线性变化遗忘因子(LFF)和非线性变化遗忘因子(NLFF) 两种可变遗忘因子方案来提升CFO估计性能。仿真结果显示：在低信噪比的情形下,基于VFF-RLS算法的CFO估计性能明显优于基于CFF-RLS算法的CFO估计性能。     

PROPAGATOR BASED CLOSED-FORM BLIND CARRIER FREQUENCY OFFSET ESTIMATION FOR OFDM SYSTEMS

Most of the blind Orthogonal Frequency Division Multiplexing （OFDM） Carrier Frequency Offset （CFO） estimators necessitate large number of samples to ensure the estimation accuracy. However, the number of samples can not be selected too large because of the carrier offset drift. In this letter, a new closed form algorithm for blind OFDM CFO estimation in frequency-selective channel is proposed. This method utilizes the propagator obtained from data matrix and the diagonal loading technique, thus it has better performance even only using one or two OFDM blocks. Furthermore, the range of the CFO estimation which can be handled is overall transmission spectral. Simulation results confirm its effectiveness.     

Joint low‐complexity equalization and CFO estimation and compensation for UWA‐OFDM communication systems

Frequency synchronization has a great importance in preserving the performance of the underwater acoustic (UWA) orthogonal frequency division multiplexing (OFDM) systems. The carrier frequency offset (CFO) estimation can be blind or data‐aided. In this paper, the Zadoff‐Chu (ZC) sequences are used for OFDM synchronization in UWA communications, and they are compared with different data‐aided algorithms. We propose a low‐complexity algorithm for CFO estimation based on ZC sequences. Also, a joint equalization and CFO compensation scheme for UWA‐OFDM communication systems is presented. Simulation results demonstrate that the proposed CFO estimation algorithm allows estimation of the CFO accurately with a simple implementation in comparison with the traditional schemes. Also, the performance of the UWA‐OFDM system can be preserved in the presence of frequency offsets.     

电力无线专网中一种OFDM载波同步算法

电力无线专网在1.8 GHz频段建设4G TD-LTE网络,正交频分复用(OFDM)是其关键技术之一,OFDM系统对信道产生的载波频率偏移(CFO)很敏感,频率偏移会造成系统性能的严重下降。因此,需要对OFDM系统中的频率载波偏移精确估计并补偿,以保证系统的性能。本文提出了一种用于OFDM系统中基于局部搜索的多重信号分类(MUSIC)盲CFO估计的算法,该算法利用频率偏移矩阵列矢量与噪声子空间的正交性和CFO的单峰特性,构造一个改进空间谱函数,然后通过局部谱峰搜索得到频偏估计值。该算法的CFO估计性能优于传统CFO估计算法,且能够克服传统MUSIC算法低信噪比下谱峰缺失的问题。仿真结果证明了该算法的有效性。     

Unitary-ESPRIT Algorithm for Carrier Frequency Offset Estimation for Interleaved OFDMA Uplink Systems

The carrier frequency offset (CFO) estimation is an important task for orthogonal frequency-division multiple-access (OFDMA) systems. Making use of the intrinsic periodic structure of the received signal samples, an effective Unitary-ESPRIT algorithm based on unitary transformation technique is proposed for the CFO estimation problem. Compared with other recently proposed CFO estimation approaches, the proposed algorithm offers a number of advantages. Firstly, the presented approach can reduce the computation complexity considerably, since it is efficiently formulated in terms of real-valued computation except for the data preprocessing. Secondly, it can provide better CFO estimation performance by incorporating the data stacking technology and the unitary transformation, etc. Simulation results demonstrate the efficacy of the proposed algorithm.