共查询到19条相似文献,搜索用时 62 毫秒
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针对OFDM系统中子载波间干扰带来的性能恶化问题,在最优Turbo均衡的基础上,提出了基于软干扰对消技术的MAP均衡算法。Turbo均衡部分首先利用先验信息进行干扰抵消,然后通过干扰抵消输出结果计算编码比特后验概率;同时对信道矩阵进行带状近似,提出简化算法,运算复杂度进一步降低。通过仿真分析表明,相比于传统turbo均衡算法,该算法在工程应用中更具有可行性。 相似文献
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60 GHz脉冲通信环境中的多径衰落问题使信号能量发生弥散并产生符号间干扰(ISI).针对这一问题,分析了系统中ISI的严重程度,并研究了消除干扰的解决方法.在IEEE 802.15.3c工作组建立的60 GHz无线信道模型基础上,搭建了60 GHz脉冲通信系统仿真平台,对系统中的ISI进行了理论分析与数值仿真,设计了一种Rake接收机联合均衡器的接收方案.研究结果表明,采用两径MRC-Rake接收模块并联合MMSE线性均衡模块,既可获得多径分集增益又能有效处理ISI,在不增加过多复杂度的同时提高了系统性能.为今后60 GHz脉冲通信系统接收方案的设计提供了技术参考. 相似文献
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针对大时延稀疏多径信道条件下的单载波频域均衡系统(SC-FDE),本文提出了一种新的迭代均衡结构,记为IC-FDE-DFE。IC-FDE-DFE可以缩短频域均衡所需的循环前缀(CP)的长度,提高稀疏多径信道下SC-FDE系统的带宽效率和功率效率。与单纯的时频域混合判决反馈均衡器(H-DFE)相比,IC-FDE-DFE能够充分利用信道的‘稀疏’特性,其中的均衡器具有较低的运算复杂度和设计复杂度。仿真结果表明,IC-FDE-DFE能够在迭代过程中逐渐抵消大时延多径的影响,逼近H-DFE的理想性能。 相似文献
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介绍了用于高速率数字用户线中性能较优的数字调制技术-离散多频音调制,分析了调制原理及其实现方法,提出了加循环前缀与时域均衡器相结合的方法解决符号间干扰问题。 相似文献
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In this paper, we address the issues of designing lowpower VLSI implementation of the Code DivisionMultiple Access (CDMA) receiver. Among all the digitalfunctional blocks of a CDMA receiver, the RAKEreceiver and the Viterbi decoder are the mostcomputational intensive and hence consume most of thepower. In this work, we propose new VLSI architecturesfor these two functional blocks which consumesignificantly lower power. In particular, were-organize the structure of the pilot-aided RAKEdemodulator to reduce the operational frequency of thearithmetic components and we propose a newAdd-Compare-Select (ACS) architecture for the Viterbidecoder which can reduce the complexity of thecomputation. Also a novel pre-computationalarchitecture is proposed to further reduce the powerconsumption of the ACS unit. Experimental results showsignificant reduction in power consumption. 相似文献
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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
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A low power high gain gain-controlled LNA + mixer for GNSS receivers is reported. The high gain LNA is realized with a current source load. Its gain-controlled ability is achieved using a programmable bias circuit. Taking advantage of the high gain LNA, a high noise figure passive mixer is adopted. With the passive mixer, low power consumption and high voltage gain of the LNA + mixer are achieved. To fully investigate the performance of this circuit, comparisons between a conventional LNA + mixer, a previous low power LNA + mixer, and the proposed LNA + mixer are presented. The circuit is implemented in 0.18 #m mixed-signal CMOS technology. A 3.8 dB noise figure, an overall 45 dB converge gain and a 10 dB controlled gain range of the two stages are measured. The chip occupies 0.24 mm2 and consumes 2 mA current under 1.8 V supply. 相似文献
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Yizhi Feng Jiayin Qin Gang Wei Fei Ji 《International Journal of Communication Systems》2009,22(2):219-236
In this paper, we propose a novel low‐complexity transmission power adaptation with good bit error rate (BER) performance for multicarrier code‐division multiple‐access (MC‐CDMA) systems over Nakagami‐m fading channels. We first propose a new receiver called ath‐order‐maximal‐ratio‐combining (a‐MRC) receiver with which the receiver power gain for the nth subcarrier is the ath (a?1) power of the corresponding channel gain. Incorporating the a‐MRC receiver, we then propose a new transmission power adaptation scheme where the transmission power is allocated over all the N subcarriers according to the subchannel gains and the transmitter adapts its power to maintain a constant signal‐to‐interference‐plus‐noise (SINR) at the receiver. The proposed scheme has a significant performance gain over the nonadaptive transmission scheme over both independent and correlated fading channels. Moreover, the proposed scheme keeps good BER performance while it is much simpler than the previous power control/adaptation schemes. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献