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以正交空时分组码为例讨论了空时编码技术的性能特征。给出了各种STC-OFDM系统的BER性能。理论分析和仿真结果表明,STBC-OFDM系统在频率选择性的瑞利衰落信道下,性能优于其它STC-OFDM系统。 相似文献
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介绍了空时分组编码,正交频分复用原理以及STBC—OFDM的一般系统模型。阐述了STBC—OFDM系统的性能和当前对STBC—OFDM技术研究取得的进展,最后时STBC—OFDM技术在未来移动通信中的研究方向做了前景展望。 相似文献
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空时分组码(STBC)由于具有较高的分集增益和简单的编译方法,从而得到普遍关注。但是它只适于频率平坦信道,而实际的信道多为频率选择性信道。丈中将考虑两种适用于频率选择性信道的空时分组码系统方案:OFDM-STBC和SC/FDE-STBC方案,即考虑空时分组码与正交频分复用或单载波频域均衡结合。通过对OFDM-STBC和SC/FDE-STBC系统性能仿真结果的比较和分析,表明SC/FDE-STBC方案要优于OFDM-STBC方案。此外,文中也给出一些细致的仿真性能的观察。 相似文献
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为获得存在多径衰落的MIMO-OFDM系统中高速率传输方案,给出了一种基于线形星座预编码和坐标交织的速率为1的简单空时频分组码.该传输方案通过线性星座预编码来获得频率分集增益,通过坐标交织变换来获得传输速率为1,且能适当改善系统的误码性能.仿真结果表明,与传统的结合空时码的OFDM系统相比,该方案能获得更大的分集增益、更高的频谱效率和更好的误码性能.在误码率为10^-2的未加信道编码的条件,本文方案与传统方案相比,至少能够提供约4dB的性能增益.若在接收端采用MMSE等线性接收方案,本文方案的计算复杂度并没有明显的增加。 相似文献
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讨论了正交频分复用系统中空时分组码与空频分组码的基本原理,并对信道条件为快变或慢变的多径信道下的两种系统误码性能进行分析与比较,指出在慢变信道条件下采用空时分组码的系统可取得较空频分组码系统更佳的性能。 相似文献
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空时编码在OFDM系统中的应用 总被引:1,自引:0,他引:1
研究了空时分层码(LSTC)、空时分组码(STBC)和空时网格码(STTC)3种典型的空时编码技术。讨论了各自的编码原理和译码原理。以空时分组码为重点,介绍了OFDM系统的基本原理,将空时分组码和OFDM技术相结合,对STBC-OFDM系统的基本模型加以探讨,理论分析系统接收端的信噪比性能,通过M atlab仿真对收发... 相似文献
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Jiaxun Lu Zhengchuan Chen Pingyi Fan Khaled B. Leatief 《Wireless Communications and Mobile Computing》2016,16(16):2677-2689
Multiple‐Input, Multiple‐Output (MIMO)‐orthogonal frequency division multiplexing (OFDM) is a promising technique in 5G wireless communications. In high‐mobility scenarios, the transmission environments are time‐varying and/or the relative moving velocity between the transmitter and receiver is also time‐varying. In the literature, most of previous works mainly focused on fixed subcarrier group size and precoded the MIMO signals with unitary channel state information. In this way, the subcarrier grouping may naturally lead to big loss of channel capacity in high‐mobility scenarios because of the channel state information difference on the subcarriers in each group. To employ the MIMO‐OFDM technique, adaptive subcarrier grouping scheme may be an efficient way. In this paper, we first consider MIMO‐OFDM systems over double‐selective i.i.d. Rayleigh channels and investigate the quantitative relation between subcarrier group size and capacity loss theoretically. With developed theoretical results, we also propose an adaptive subcarrier grouping scheme to satisfy the preset capacity loss threshold by adjusting grouping size with the sensed environmental information and mobile velocity. Theoretical analysis and simulation results show that to achieve a better system capacity, a sparse scattering, lower signal‐to‐noise ratio, and lower velocity as well as properly large antenna number are matched with larger subcarrier group size. One important observation is that if the antenna number is too large and higher than a threshold, which will not bring any additional gain to the subcarrier grouping. That is, the system capacity loss will converge to a lower bound expeditiously with respect to antenna number, which is given in theory also. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
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Nakagami-m衰落信道下空时分组码的性能估计 总被引:2,自引:0,他引:2
基于等效单输入单输出SISO (Single-input Single-output) 模型,利用矩量母函数 (MGF) 分析法,空时分组码STBC (Space-Time Block Coding) 的误符号率是可以得到其准确闭式表达式的.对于独立同分布Nakagami-m衰落信道下的空时分组码的性能进行了研究,给出了采用M-PSK 和M-QAM调制方案的不同空时分组编码矩阵误符号率的闭式解以及基于闭式解的解析性能结果,通过蒙特卡洛仿真验证了闭式解的准确性.还从调制方案的角度对于几种新的空时分组码的性能进行了一些新的讨论. 相似文献
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Khaled H. Biyari Saud A. Al-Semari 《International Journal of Satellite Communications and Networking》1995,13(2):137-145
It is known that concatenated coding can significantly enhance the performance of digital communication systems operating over fading channels when compared to uncoded or single-coded systems. The price to be paid for such an improvement, however, is a substantial increase in the required bandwidth. In this paper, we consider the use of a concatenation scheme in which the inner code is a trellis-coded modulation (TCM) system. The analysis is carried out for two different outer codes: a binary Golay code and a non-binary Reed-Solomon code. Results obtained for the Rayleigh and Rician fading channels through analytical bounds indicate that the use of this system does provide a significant reduction in the bit error probability, a fact that is also verified through computer simulation. Unlike a traditional concatenated system, the proposed method achieves the coding gain while maintaining acceptable bandwidth efficiency. 相似文献
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OFDM(Orthogonal Frequency Division Multiplexing,正交频分复用)系统中,信道的时间选择性快衰落会破坏子载波间的正交性,导致系统中出现载波间干扰(Inter-carrier Interference,ICI),降低OFDM系统性能.论文使用信道函数泰勒展开式的前两项近似信道函数,并以此为基础分析了OFDM在时间选择性快衰落信道中的性能,给出了ICI功率及其上界与信道最大多普勒扩展的关系式.仿真分析表明论文给出的关系式和ICI功率上界能够较为准确的描述OFDM系统在快衰落信道中ICI功率及其上界与信道最大多普勒扩展的关系. 相似文献
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频率选择性衰落OFDM的半盲信道估计算法研究 总被引:4,自引:4,他引:0
从系统性能分析和设计的角度详细地研究了基于无线HIPERLAN2通信协议的OFDM(orthogonal frequency division multiplexing,正交频分多路复用技术)系统信道估计与均衡的一种半盲算法,提出了结合直接法和Cholesky分解法的切换盲算法。这种半盲算法综合了全盲算法得到的信息与已知导频符号,充分利用了原发信号的统计特性和OFDM帧结构中插入的导频符号,克服了全盲和导频训练序列存在的问题^[6,7],且不需额外的带宽。仿真结果表明,在误比特率和收敛性方面,该算法比现有的主要三种全盲算法有更好的收敛和抗干扰特性。 相似文献