共查询到18条相似文献,搜索用时 93 毫秒
1.
给出了DS-CDMA(直接序列扩频-码分多址)系统中的接收信号模型,在对时域处理和传统Rake接收机分析的基础上,阐述了智能天线和Rake接收机相结合的2-D Rake接收机的概念和原理,并对两种接收机的输出信噪比进行了比较,结果表明在CDMA系统中采用时空信号综合处理的2-D Rake接收机容量和性能将有大幅提高. 相似文献
2.
在扩频通信中,Rake接收是抵抗多径衰落的有效方法。本文首先介绍无线移动通信的信道特性,然后对Rake接收的基本原理和接收机结构进行详细描述,并对Rake接收性能进行了仿真比较。仿真结果表明,在多径信道条件下,Rake接收方式能很好的改善接收系统误码性能;采用GOLD序列扩频比m序列扩频方式时,Rake接收方法性能提高的更明显。 相似文献
3.
4.
对多径IR-UWB信号的Rake接收技术原理和结构进行了详细分析。在此基础上仿真了不同Rake接收机的性能,包括部分Rake和选择性Rake,以及具有不同叉指的Rake接收机的性能。仿真结果表明在具有相同叉指条件下,选择性Rake接收机比部分Rake接收机的性能高出3dB。而在相同接收原理下,叉指越多,接收机的性能越好。而2路选择性Rake接收机和5路部分Rake接收机在较低信噪比的情况下,性能并无很大差别。 相似文献
5.
Rake接收机在3G系统中已被广泛使用,实际应用证明它能够有效对抗移动无线信道中的多径衰落。传统Rake接收机有其时域一维处理的局限性,为获得更好的系统性能,本文在分析空时信道模型的基础上提出一种新的空时2D-Rake接收机算法,它将波束形成技术与Rake相结合。这种波束形成算法能够在干扰方向上完全陷零,其权重仅与阵列天线的导向矢量有关,与接收信号无关。最后简要分析了所提出的2D-Rake接收机的性能。仿真结果表明,这种空时2D-Rake接收机与传统Rake接收机相比,具有较好的性能,而且该算法对噪声具有鲁棒性。 相似文献
6.
从缩短信道时延扩展的角度出发,研究了Rake接收机的部分信道均衡能力,并推导出了Rake接收机均衡性能与Rake接收机的复杂度和信道衰减系数之间的关系;分析了信道估计误差对Rake接收机合并前后多径信道变化的影响。研究表明当存在估计误差时,Rake接收机仍然能实现均衡的作用,但是性能有所下降;由于低复杂度Rake接收机引入的估计误差较少,在低信噪比条件下其均衡性能甚至会优于高复杂度的Rake接收机。 相似文献
7.
针对有码间干扰的TH-PPM-UWB通信系统,研究了基于卷积码Rake接收机的性能,并在IEEE 15.3a UWB的LOS信道和NLOS信道下对采用卷积码Rake接收机的误比特率进行计算机仿真,仿真结果表明,当SNR达到一定值后,无论是LOS信道还是NLOS信道,相对未编码的Rake接收机,采用卷积码的Rake接收机性能明显提高,在NLOS信道更为显著。 相似文献
8.
9.
针对有码间干扰的跳时脉冲脉位调制超宽带(PPM-TH-UWB)通信系统,为了在不增加系统复杂度的前提下,提高系统抗码间干扰的性能,研究了基于平衡Gold码的Rake接收机的性能,并在IEEE 15.3a UWB信道下对采用平衡Gold码作为跳时序列的Rake接收机和采用传统伪随机序列的Rake接收机的误比特率进行计算机仿真比较,结果表明:采用平衡Gold码作为跳时序列,Rake接收机得到明显改善,而且码间干扰越严重,性能提升越显著。 相似文献
10.
基于Rake接收机的UWB通信系统性能分析 总被引:1,自引:0,他引:1
针对无码间干扰的TH-PPM-UWB通信系统,分析了该系统在IEEE UWB室内多径信道模型下采用Rake接收机时的系统性能,仿真了不同结构Rake接收机的误码率,结果表明,总体上SRake的性能要优于PRake,且两种接收机的性能随着叉指数目的增加都有明显的改善。 相似文献
11.
Amira I. Zaki Said E. El-Khamy Ehab F. Badran 《Wireless Personal Communications》2013,71(4):2877-2894
In this research, a novel smart UWB system is introduced. The proposed system is based on using an adaptive maximum ratio combining (MRC) Rake receiver. The proposed adaptive Rake receiver uses Genetic algorithm (GA) to adaptively select the delays of the fingers of the Rake receiver depending on the channel impulse response. It adaptively selects the delays that will allow the Rake receiver to capture most of the energy in the multipath components with minimum complexity. This adaptive Rake receiver is referred to as a GA Rake. The adaptive GA Rake is applied to a single-input single-output and space time coding (STC) multi-input single-output UWB systems. The performance of those systems using a GA Rake is compared to their performance when using a conventional MRC-Rake receiver and showed a great enhancement in performance with less receiver complexity. Also, in this paper, the smart UWB system using STC is modified by using the time reversal (TR) pre-coding technique. The modified system is referred to as a TR smart UWB system. This modification leads to more enhancements in performance and more reduction in receiver complexity over the smart UWB system. Moreover, this paper also shows the ability a TR smart UWB system in combating interference from other UWB systems. 相似文献
12.
13.
Error probabilities are evaluated for direct-sequence spread-spectrum communications and Rake reception over channels with doubly selective fading. The error probability for such a system depends on the spreading sequence, the autocorrelation function of the fading process, the received signal-to-noise ratio, and the number of taps in the Rake receiver. The focus of the paper is on the effect of the spreading sequence on the performance of each of two systems. One system employs noncoherent detection of differentially-encoded binary direct-sequence spread-spectrum signals and a post-detection diversity-combining Rake receiver which uses equal-gain combining. The other system employs coherent detection of binary direct-sequence spread-spectrum signals and a post-detection diversity-combining Rake receiver with perfect gain estimates for the channel. A simple sequence selection criterion is introduced, and the sensitivity of the performance of the system to the choice of the spreading sequence is examined. It is shown that significant performance differences result from different choices of the spreading sequence. It is also shown that, given a moderate range of delay spreads, sequences can be found that yield low bit error probabilities over that range. These are found to be robust with respect to the delay spectrum for the channel, the number of taps in the Rake receiver, the Doppler spread, and the signal-to-noise ratio 相似文献
14.
15.
在CDMA系统中,为了对抗多径衰落,使用Rake接收机对接收信号进行处理。在发射端,通过扰码对信号进行加扰处理。Rake接收机对接收的信号进行解扰,相干积分处理,根据功率时堑函数PDP值来计算多径的相位信息。在信噪比比较差的情况下,搜索出来的多径可能是噪声径,这对Rake接收机解调的性能有一定的影响。介绍一种根据扰码自相关特性,来判断搜索出多径是否为噪声径的方法,提高Rake接收机的性能。 相似文献
16.
17.
Rake接收技术是CDMA蜂窝移动通信系统中的关键技术之一。分集的基本思想是将接收到的多径信号分离成不相关的多路信号,把这些多径信号的能量按一定的规则合并,使接收到的有用信号能量最大化,进而提高接收信号信噪比达到抗衰落的目的。文中以异步DS-CDMA系统为例,论述了分集技术并对Rake接收机的误码率进行了分析与仿真。 相似文献
18.
在基于串行干扰抵消的Rake接收机的基础上作了改进,提出了一种新的Rake接收机结构,对其进行了原理和性能分析,给出了Matlab仿真结果,并与基于串行干扰抵消的Rake接收机性能进行了比较。仿真结果表明,改进的基于串行干扰抵消的Rake接收机性能明显得到提高,同时减小了误码率。 相似文献