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在正交频分复用(OFDM)系统中,因高速移动造成的多普勒效应导致子载波间正交性的破坏并产生载波间干扰(ICI)。为了消除ICI,本文通过分析ICI分布特性及带状矩阵特性,提出了低复杂度的迭代干扰抵消算法和基于最小均方误差准则的排序串行干扰抵消(MMSE-OSIC)算法。仿真结果表明,与传统子载波间干扰频域均衡算法相比,新算法在计算复杂度和性能之间取得了良好的平衡,且MMSE-OSIC算法可以利用时变信道的时间分集特性在高信噪比情况下有效地消除“地板效应”。 相似文献
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本文提出两种新的用于循环前缀(CP)不足时正交频分复用(OFDM)系统的迭代均衡方法。首先,我们提出并行迭代均衡(PIE)方法,该方法分别使用时域判决反馈方法和频域并行迭代方法来消除符号间干扰(ISI)和子载频间干扰(ICI)。为了改进PIE的性能,提出基于高斯-塞德尔迭代的串行迭代均衡(SIE)方法。在不增加计算复杂度的情况下,SIE具有比PIE更快的收敛速度。仿真结果表明,新方法可以在几次迭代后得到接近CP足够情况下的系统性能,PIE的性能与传统的迭代干扰消除方法相同,而SIE则提供好得多的收敛性能。 相似文献
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OFDM(正交频分复用)是第4代移动通信系统的核心技术之一,在OFDM基本系统中,各载波间正交性的损失会导致ICI(载波间干扰)的产生。文中在介绍和比较多种传统消除ICI的方法的基础上,提出了一种新的ICI消除技术:PTS(部分传输序列)法和SLM(选择映射)法,并针对PTS算法的缺陷提出了改进优化算法。仿真结果表明PTS和SLM算法都能减小系统的ICI,对系统误码率有所改善,从而使系统的性能得到了提高。 相似文献
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根据一种典型的OFDM系统模型,证明了载波间干扰(ICI)系数矩阵为酉阵,并利用其容易求逆的性质,提出了一种基于发送训练码的ICI消除方法,以较小的计算复杂度对接收信号进行处理来消除ICI。分析及仿真结果表明,与两种现有的ICI消除方法一一自消除法和加窗法相比较,该方法可以较好的消除ICI,同时,避免了自消除法和加窗法的缺陷。 相似文献
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文章主要研究了消除OFDM系统的子载波间干扰(ICI)以及由此带来信号恶化的技术.提出了一种新型的ICI消除技术:部分序列传送法(PTS)和选择映射法(SLM),并针对其缺陷提出了改进优化算法. 相似文献
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Ryohei Kimura Akiyoshi Monma Jinsong Duan Mitsuru Uesugi 《Wireless Personal Communications》2006,38(1):27-42
Orthogonal frequency division multiplexing (OFDM) is robust against multi-path interference due to using a lot of low symbol rate sub-carriers. In order to mitigate the degradation due to multi-path interference, guard time interval (GI) is inserted into each OFDM symbol. However, redundant allocation to GI leads to loss of effective transmission power. We propose the Block-OFDM which can reduce the GI overhead ratio per frame compared with conventional OFDM. In Block-OFDM system frequency domain equalization (FDE) is carried out in order to remove multi-path interference. We evaluated Block-OFDM performance in a frequency selective fading channel and compared with that of conventional OFDM.
Ryohei Kimura received his B.E. and M.S degrees in communications engineering form Tohoku University, Sendai, Japan, in 2001 and 2003, respectively. In 2003, he joined Panasonic Mobile Communications Co., Ltd. His current research interests include such mobile communication technologies as OFDM and MIMO (MLD), and the like.
Akiyoshi Monma received his B.E. in communications engineering form Tohoku University, Sendai, Japan, in 1998. In 1998, he joined Panasonic Mobile Communications Sendai R&D Lab. Co., Ltd. His current research interests include such mobile communication technologies as OFDM and PAPR reduction, and the like.
Jinsong Duan received his B.E. and M.S. from Changsha Institute of Technology, China in 1987 and 1990. He received his Ph.D. from Osaka City University, Japan in 2000. From 2000–2003 he was with Mitsubishi Electric Corporation, where he engaged in research and development of WCDMA systems. From 2003, he joined Panasonic Mobile Communications Co., Ltd. His current interests include such mobile communication technologies as OFDM, MIMO, link adaptation, scheduling, and TDMA/FDMA/CDMA systems.
Mitsuru Uesugi received his B.E. degree from Waseda University in 1986 and received his Ph.D degree from Tohoku University in 2004, respectively. He is a general manager in the Mobile Communication Technology Development Center of Panasonic Mobile Communications Co., Ltd. His current research interests include such mobile communication technologies as equalization, interference cancellation, modulation method, and the like. 相似文献
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OFDM是一项能有效对抗高速无线通信中多径衰落的关键技术,为了进一步提高OFDM系统的误码性能,许多信道编码技术已被应用于OFDM系统中,二元域LDPC码以其近香农限的误码性能和较低的译码复杂度成为研究的热点。在AWGN信道下,多元域LDPC码比等效码长的二元域LDPC码有更好的纠错性能。本文提出了一种将多元域LDPC码经过MPSK调制后用于OFDM系统的新方法。仿真结果表明,在多径衰落信道下,通过合理选择多元LDPC码域的阶数和调制的方法,多元域LDPC编码的高阶调制OFDM系统比等效码长的二元域LDPC编码OFDM系统具有更好的性能,并且由于采用了多元域LDPC的快速BP译码,译码复杂度只是稍有增加。 相似文献
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MIMO-OFDM(多输入多输出-正交频分复用)作为第四代移动通信标准中最有力的竞争者,其优势十分突出。MIMO-OFDM系统既结合了两个系统的优点,又克服了OFDM在多径衰落问题上和MIMO在频率选择性问题上的不足。系统利用了时间、频率和空间的三种分集技术,使无线系统对噪声、干扰、多径的容限大大增加,在提高无线链路的有效性和可靠性方面具有巨大潜力。本文介绍了MIMO-OFDM系统的模型,并分析了系统时频同步的原理及各种常用算法,最后对系统的同步做了仿真并分析其结果,提出了算法的改进意见。 相似文献
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为了提高船舶自动识别系统(AIS)的容量,提出了基于正交频分复用技术(OFDM)的新型AIS系统设计方案.新系统设计主要包括系统参数设计、系统帧结构设计.新系统链路容量和信道传输速率均较传统AIS系统提高了6倍,实现了频域资源的有效利用.该系统对符号定时偏差和载波频率偏差特别敏感,因此对接收信号的同步处理必不可少,在设计的新系统基础之上提出了一种新的盲估计算法,利用包含在循环前缀内的冗余信息,在多径信道信息未知的情况下,直接通过对接收信号做相关构造一个归一化的相关特性函数,通过此函数可得到符号时延位置和多径信道长度,进而得到载波频率偏差.仿真结果表明在多径信道下该算法也具有较好的性能. 相似文献
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Abbas Hasan Kattoush Waleed Ameen Mahmoud Al-Jawher Osama Q. Al-Thahab 《Wireless Personal Communications》2013,71(2):857-871
Finite Radon transform (FRAT) mapper has the ability to increase orthogonality of sub-carriers, it is non sensitive to channel parameters variations, and has a small constellation energy compared with conventional fast Fourier transform (FFT) based orthogonal frequency division multiplexing (OFDM). It is also able to work as a good interleaver which significantly reduces the bit error rate (BER). Due to its good orthogonality, discrete Multiwavelet transform (DMWT) is attractive for implementation in OFDM systems which reduces inter-symbol interference (ISI) and inter-carrier interference (ICI) and eliminates the need for cyclic prefix and increases the spectral efficiency of the design. In this paper both FRAT and DMWT are implemented in a new design for OFDM. The new structure was tested and compared with conventional FFT-based OFDM, Radon-based OFDM, and DMWT-based OFDM for additive white Gaussian noise channel, flat fading channel, and multi-path selective fading channel. Simulation tests were generated for different channels parameters values. The obtained results showed that proposed system has increased spectral efficiency, reduced ISI and ICI, and improved BER performance compared with other systems. 相似文献
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