副载波调制无线光通信分集接收技术研究

基于湍流信道条件下光强闪烁的对数正态分布模型,建立了副载波BPSK调制的无线光通信空间接收分集系统。在不同光强闪烁效应和接收天线数下,分别对比分析了3种线性合并技术的差错性能及分集增益。仿真结果表明,分集技术可以有效地改善无线光通信系统性能,具有较强的抗大气信道衰落能力。3种合并技术中,系统误码率性能改善最优的是MRC,其次是EGC,而SelC较差,对短距离且弱光强闪烁下的FSO系统,不建议空间分集采用选择合并方式。     

传输分集技术在第三代移动通信系统中的应用

本文首先分析了衰落信道中采用分集技术时卷积编码Viterbi软判算法的性能,指出具有独立衰落特性的分集信道数越多,接收的性能越好.并给出了采用不同的分集技术时系统性能的仿真结果,结果表明采用传输分集技术可以明显提高前向链路的性能,而不增加移动终端的复杂度.传输分集是一种有效可行的对抗衰落的技术,有望在第三代移动通信系统中得到广泛应用.     

基于导频的发射分集OFDM系统的子空间跟踪信道估计

由于发射分集技术可以大大提高系统的抗衰落性能,因此得到了广泛的研究和应用。该文提出了3种基于导频的发射分集正交频分复用(OFDM)系统的子空间幅度跟踪信道估计方法,并分析比较了其估计性能。利用信道传播时延慢变和衰落幅度快变的特点,通过对多径信道的时延子空间和衰落幅度的跟踪,可以部分消除信道估计过程中噪声的影响,大大提高信道估计精度。在信道阶数已知或使用相同秩估计方法的情况下,第3种方法的运算复杂度最低, 性能最好;第1种方法次之,性能最差;第2种方法由于需要进行DFT和IDFT,运算复杂度最高。仿真结果表明,3种子空间幅度跟踪信道估计方法在410-3 误码率时可以提高系统误码率性能1～2 dB左右。     

弱湍流信道无线光通信分集接收合并技术

为了克服大气湍流所造成的信道衰落效应,分析了在弱湍流信道模型下基于强度检测脉冲位置调制方式的自由空间光通信空间（FSO）分集接收系统模型,推导了无分集系统的误时隙率计算公式。然后以此作为参考,在独立同分布的情况下,采用数值仿真的方法,分别对比分析了最大比合并（MRC）、等增益合并（EGC）和选择性合并（SC）的误时隙率性能。结果表明,3种合并技术中,误时隙率性能改善最优的是MRC,其次是EGC,而SC的改善性能最差,但是SC实现相对容易。利用分集接收合并技术可以有效改善FSO系统的性能,并且具有较好的抗大气信道衰落能力,在无线光通信中将有一定的应用前景。     

常见分集合并系统的性能分析

在移动通信中,分集技术是一种最有效的抗衰落技术。本文对3种常见的线性合并分集技术进行简要分析,给出它们的基带表示和合并器输出信噪比的概率密度函数(pdf),由此给出它们的合并增益。针对系统采用MPSK调制的情况,对瑞利衰落信道的3种合并分集系统的比特误码率(BER)性能进行理论研究,分别给出选择性合并(SC)和最大比率合并(MRC)系统的理论比特误码率表达式;对于等增益合并(EGC)分集,给出了一种近似的EGC系统的输出信噪比的pdf,由此导出EGC的一种近似的BER表达式,由蒙特卡罗仿真结果可以看出此近似的BER数值结果是准确的。数值结果显示:MRC性能最好,EGC性能稍差,而SC性能较差。文中给出的分析方法对于实际分集系统的理论研究具有普遍的指导意义。     

广域分集技术在短波通信中的研究及应用

由于短波信道的时变性和多径性,信号经过短波信道到达接收端会受到严重的衰落,分集接收技术是抗信道衰落最有效的措施之一。文中针对短波通信特点提出了一种广域分集方法,对三种常用的分集合并方式的性能进行仿真分析,并在实际通信中进行了验证。     

基于CRC校验的解码后合并方法

由于远距离短波通信的复杂性,使得接收信号的幅度、相位发生剧烈的变化,这样在接收端就必须采用抗信道衰落的技术.各种抗衰落技术中,又属分集接收技术为最有效的抗击衰落的技术之一.针对一种远距离短波通信的多台站接收模型下,简单分析了分集技术下3种合并方式的性能,但由于分集接收实现过于复杂的缺点,参照该模型提出了一种在实际环境下易于实现的解码后合并方法,仿真给出了该方法的性能上下界,结果表明该方法在低信噪比环境下能够取得接近甚至优于3种分集合并的性能,给实际通信过程中合并方式的选择提出了有效的参考.     

基于空时分组编码的MC-CDMA下行链路合并方案

基于空时分组编码的发射分集技术利用空间和时间分集 ,能有效抗多径 ,增强信道可靠性。将空时分组编码应用到MC -CDMA下行链路中 ,构建了一种新的多载波CDMA系统 (ST -MC -CD MA) ,通过在每个子载波信道中获得空间分集增益来提高系统性能。具体实现时 ,依据传统MC -CDMA信号合并方案 ,提出了ST -MC -CDMA空时译码后相应的四种合并方案。仿真结果验证了这 4种合并方案的优、缺点 ;并进一步证明 :在频率选择性瑞利衰落信道中 ,该系统比采用相同合并方案的传统MC -CDMA有明显的性能改善。     

一种基于光子计数的协作自由光通信技术

提出了一种基于光子计数的协作自由光通信技术。在自由光通信中,利用网络编码中继协作机制和光子计数技术,在保证系统性能良好的前提下,提高了系统抗衰落的能力。采用了交织多址接入方案,降低了多用户检测的复杂度。仿真结果表明,该系统能提供良好的传输性能,并且在衰落信道中,中继协作机制能够带来明显的空间分集增益。     

协同通信中分集合并性能分析

无线通信信道时变多径的传输特性严重影响了传输系统的性能,必须采取有效的措施来对抗信道衰落。分集接收技术成本低廉,性能优越,在无线通信技术中广泛使用,是对抗无线信道衰落最有效的技术之一。文中详细地叙述了分集接收合并的原理,给出了严密的数学公式,通过理论推导,研究了三种合并技术(最大合并比MRC、选择合并SC、等增益合并EGC)的误码率和合并增益,仿真并分析了其在瑞利衰落信道下的性能,为实际应用提供参考。     

Channel‐estimate‐based frequency‐domain equalization (CE‐FDE) for broadband single‐carrier transmission

A channel‐estimate‐based frequency‐domain equalization (CE‐FDE) scheme for wireless broadband single‐carrier communications over time‐varying frequency‐selective fading channels is proposed. Adaptive updating of the FDE coefficients are based on the timely estimate of channel impulse response (CIR) to avoid error propagation that is a major source of performance degradation in adaptive equalizers using least mean square (LMS) or recursive least square (RLS) algorithms. Various time‐domain and frequency‐domain techniques for initial channel estimation and adaptive updating are discussed and evaluated in terms of performance and complexity. Performance of uncoded and coded systems using the proposed CE‐FDE with diversity combining in different time‐varying, multi‐path fading channels is evaluated. Analytical and simulation results show the good performance of the proposed scheme suitable for broadband wireless communications. For channels with high‐Doppler frequency, diversity combining substantially improves the system performance. For channels with sparse multi‐path propagation, a tap‐selection strategy used with the CE‐FDE systems can significantly reduce the complexity without sacrificing the performance. Copyright © 2004 John Wiley & Sons, Ltd.     

正交频分复用技术在协作通信下的应用

协作分集技术利用其他用户进行协作传输,可以获得一定的分集增益,但是在频率选择性衰落信道下性能不很乐观。为了对抗频率选择性衰落,采用正交频分复用(ODFM)技术与协作分集技术相结合的方法,研究了基于OFDM技术的协作通信,对在不同调制技术、不同信道估计方法下系统的性能进行了比较,为了进一步提高系统性能,对传统S&C算法进行了改进并应用于该系统中,仿真实验结果表明,改进的定时同步算法性能优于传统的S&C算法。     

Combined multiuser detection and diversity reception for wirelessCDMA systems

Code division multiple-access (CDMA) techniques using interference cancellation are being explored for the capacity increase in third-generation universal mobile telecommunications systems. However, multipath fading is a major constraint on the performance of wireless CDMA systems, with multipath propagation worsening the effects of multiple-access interference, and fading on propagation paths leading to the near far problem. Multiuser detection, exploiting the knowledge of other users to cancel multiple-access interference, has the capability of eliminating the near far problem and providing a significant capacity increase in CDMA systems. On the other hand, diversity techniques effectively combat the fading effects of the channel. This paper investigates multiuser receivers that combine explicit antenna diversity, RAKE multipath diversity, and multipath decorrelating detection. Both coherent reception with maximal-ratio combining and differentially coherent reception with equal-gain combining are analyzed. The results demonstrate a significant increase in up-link capacity over the conventional RAKE receiver, at the expense of complexity. In the case of limited receiver complexity, where the number of correlators is less than the number of resolvable paths at the RAKE front-end, antenna diversity is shown to be effective in reducing residual multiple-access interference     

A comparison of two combining techniques for equal gain, trelliscoded diversity receivers

Trellis coded modulation is widely used for digital transmission over fading channels. Classical diversity techniques are also frequently employed to combat fading. In this paper two different strategies for equal gain combining are compared, One scheme is based on an interleaved code combining technique. The alternative scheme is based on averaged diversity combining. The well known transfer function bounding technique for trellis codes is used to obtain: expressions for the bit error rate performance of the two trellis coded diversity receivers over a slowly fading Rayleigh channel. The analysis of interleaved code combining is a straightforward modification of the analysis for multiple trellis coded modulation. The analysis of averaged diversity combining is accommodated through a more involved, novel modification of the branch labeling of the error state diagram. The analytic techniques presented in this paper are supported by simulation results using a TCM scheme based on QPSK modulation and a rate-l/2 linear convolution code     

一种基于SVD预编码的MIMO调制分集方法

本文研究了一种基于SVD-MIMO系统的高频谱利用率的编码调制分集方法,该方法将MIMO系统、旋转调制和Turbo码结合起来,有效利用空间分集、调制分集和时间分集特性。与传统的比特交织编码调制（BICM）技术相比,该方法以很小的复杂度代价换取了较大的性能增益,具有更强的对抗衰落的能力,保证了系统高频谱利用率,有效地增强了无线系统的传输可靠性。     

Analytical level crossing rates and average fade durations for diversity techniques in Nakagami fading channels

The level crossing rates (LCRs) and average fade durations (AFDs) of a fading channel find diverse applications in the evaluation and design of wireless communication systems. Analytical expressions for these quantities are available in the literature for certain diversity reception techniques, but are generally limited to the Rayleigh fading channel, with few exceptions. Moreover, the methods employed are usually specific to a certain channel/diversity pair, and thus cannot be applied to all cases of interest. Using a unified methodology, we derive analytical expressions for the LCRs and AFDs for three diversity reception techniques and a general Nakagami (1960) fading channel. We provide novel analytical expressions for selection combining (SC) and equal-gain combining (EGC), and rederive in a more general manner the case of maximal-ratio combining (MRC). It is shown that our general results reduce to some specific cases previously published. These results are used to examine the effects of the diversity technique, the number of receiving branches and severity of the fading on the concerned quantities. It is observed that as the Nakagami m-parameter and the diversity order increase, the behavior of the combined received envelope for EGC follows closely the one for MRC, and distances itself from SC.     

Decorrelating detector with diversity combining for single user frequency-selective rayleigh fading multipath channels

Diversity combining techniques are applied in mobile radio communications as a means of performance improvement in a fading multipath environment. Adaptive equalizers which incorporate diversity combining were shown to combat intersymbol interference (ISI) caused by multipath provided that the fading is sufficiently slow. However, for fast fading rates, noncoherent techniques are often desirable. In this paper, we examine the performance of several coherent and noncoherent detectors that make use of diversity combining. In particular, the decorrelating filter is shown to provide reliable performance for a frequency-selective Rayleigh fading multipath channel with ISI. Numerical and simulation results are presented for a channel with two independent Rayleigh fading paths. Signal design issues which arise in the implementation of the decorrelating detector and the zero-forcing equalizer are discussed.     

MQAM Performance over Nakagami channels with diversity

This paper presents the error probability performance for M-ary quadrature amplitude modulation (mqam) signalling with L-branch diversity receiver over Nakagami fading channel. Both maximal ratio combining (mrc) and selection diversity combining (sdc) techniques are considered with reference to predetection diversity architecture, in the case of integer values of fading severity and independent fading. Average symbol error probability is analitycally derived in terms of finite sum of Gauss hypergeometric functions for balanced branches with identical values of the fading severity. In particular, performance analysis of sdc for mqam in Nakagami fading is new since it has not been presented in any previous work. Numerical results are presented allowing to identify those operational conditions in which diversity techniques can aid successfully in counteracting the effects of slow and nonselective short-term fading.     

Performance analysis of dual switched diversity over correlated Weibull fading channels with co‐channel interference

This paper studies the performance of switch and stay combining (SSC) diversity in the presence of co‐channel interference over correlated Weibull fading channels. SSC diversity based on signal‐to‐interference ratio (SIR) is a low‐complexity and a very efficient technique that reduces fading and co‐channel interference influence. New closed‐form expressions for the probability density function and cumulative distribution function of the output SIR's are derived. These formulas are used in a detailed analysis of the average output SIR and outage probability. The influence of fading severity and correlation coefficient on the optimum switching threshold and system performance is investigated. Monte Carlo simulations are performed to verify obtained theoretical results and determine average bit error rate in detecting binary phase‐shift keying (BPSK), differential BPSK and quadrature amplitude modulation signals. Copyright © 2011 John Wiley & Sons, Ltd.