共查询到19条相似文献,搜索用时 156 毫秒
1.
基于DFT的OFDM系统信道估计改进算法 总被引:2,自引:0,他引:2
基于DFT的信道估计算法计算复杂度比MMSE算法低,性能比LS算法好.但是传统的基于DFT的信道估计只消除了信道冲击响应估计中循环前缀长度之外的噪声,循环前缀长度内的噪声并没有得到抑制,因此算法性能还有提高的空间.本文提出了一种改进的基于DFT的信道估计算法.算法首先估计出噪声方差,然后利用噪声方差设定一个门限,通过此门限对循环前缀内的信道时域冲击响应值进行阈值,进一步消除噪声的干扰.仿真证明,本文的改进信道估计算法性能优于原算法. 相似文献
2.
3.
4.
传统的DFT算法利用信道估计冲击响应的长度小于循环前缀长度的原理,滤除了循环前缀码长度以外的噪声,循环前缀内的估计值仍存在噪声,结合传统DFT信道估计算法,提出了一种短波OFDM系统的基于DFT的改进信道估计算法,此算法首先进行传统的DFT信道估计算法,滤除部分噪声信号。再根据信道脉冲响应的幅值选取幅值最大的Ng/2个信号作为有用信号,然后用DFT得到的估计值的平均值替换其余Ng/2个信号,最后得到基于DFT改进算法的信道估计信号。仿真结果表明该算法性能有很大提高。 相似文献
5.
6.
7.
8.
9.
10.
11.
精确的信道估计是提高多输入多输出正交频分复用(MIMO-OFDM,Multiple Input Multiple Output-Orthogonal Frequency Division Multiplexing)系统性能的关键,针对现有的信道估计算法的不足,提出了一种基于DFT的最小二乘(LS,Least Square)信道估计算法,利用噪声方差设定一个门限进行阈值,进一步消除噪声干扰,充分利用了时变无线信道中时域和频域的相关性,改善了信道估计的性能。为验证其有效性进行了仿真。仿真结果表明,在慢时变信道环境下,改进方法可以进一步提高信道估计的精度,同时保持了较低的复杂度。 相似文献
12.
Kameyama H. Miyajima T. Zhi Ding 《IEEE transactions on circuits and systems. I, Regular papers》2008,55(3):851-860
In multicarrier systems, when the order of a channel impulse response is larger than the length of the cyclic prefix (CP), there is a significant performance degradation due to interblock interference (IBI). This paper proposes a blind-channel shortening method in which the equalizer parameter vector is formed by the noise subspace of the received signal correlation matrix so that the output power is maximized. The proposed method can not only shorten the effective channel impulse response to within the CP length but also maximize the output signal-to-interference-and-noise ratio while eliminating the IBI. We point out that the performance depends on the choice of a decision delay and propose a simple method for determining the appropriate delay. We propose both a batch algorithm and an adaptive algorithm and show by simulation that they are superior to the conventional algorithms. 相似文献
13.
In this paper, we describe two novel channel estimation technologies for orthogonal frequency-division multiplexing mobile communication systems using cluster discriminant analysis for sparse multipath channels. The least-squares estimator has a merit of low complexity and simple structure; however one of its drawbacks is that it does not take into consideration the effect of noise. Conventional DFT-based channel estimator improved its performance by suppressing time domain noise, but it does not completely suppress the noise. In order to overcome this disadvantage, we propose two novel channel estimation algorithms for Orthogonal frequency division multiplexing systems based on cluster analysis and discriminant analysis. The cluster analysis can be used to cluster residual noise. Discriminant analysis can distinguish the noise and channel taps in time domain. Computer simulation demonstrates the performance of the proposed algorithms in terms of bit error rate and mean square error performance. 相似文献
14.
为了解决非采样间隔信道的冲激响应能量泄漏和低信噪比下高斯白噪声的干扰问题,采用一种将小波去噪技术与改进的基于DFT的估计方法相结合的LTE上行系统信道估计的新方法。仿真结果表明,基于部分加权估计的时间窗函数的正确选择能有效地改善原有方法在高信噪比下的地板效应,与小波去噪结合能有效提高低信噪比下的信道估计性能。 相似文献
15.
本文提出了4G OFDM移动通信系统中一种新型的自适应信道估计方法.利用信道冲激响应的最重要分量,本自适应信道估计方法能有效地降低子载波间干扰和高斯白噪声的影响.根据性能仿真结果比较,本方法在MSE、BER上表现优于变换域插值、时域插值方法. 相似文献
16.
Low-complexity windowed discrete Fourier transform (DFT)-based minimum mean square error (MMSE) channel estimators are proposed and analyzed for both the interpolation and noninterpolation cases for orthogonal frequency-division multiplexing (OFDM) mobile communications systems. In the proposed method, the frequency domain data windowing is used to reduce the aliasing errors for the interpolation case and get better noise filtering performance for the noninterpolation case. The time domain MMSE weighting is also used to suppress the channel noise for both cases. Moreover, the optimal generalized Hanning window shape is searched to minimize the channel estimation mean square error (MSE). Analysis and simulation results show that the proposed method performance is close to the optimal MMSE estimator and is much better than the direct DFT-based estimator for both cases. Compared with the optimal MMSE estimator, however, the computation load of the proposed method can be significantly reduced because the IDFT/DFT transforms can be implemented with the fast algorithms IFFT/FFT 相似文献
17.
18.
在正交频分复用(Orthogonal Frequency Division Multiplexing,OFDM)系统中,传统的离散傅里叶变换(Discrete Fourier Transform,DFT)信道估计算法对循环前缀之内的噪声没有得到抑制,只是抑制了循环前缀之外的噪声.以循环前缀之外的噪声点的能量值来设置阈值对于循环前缀之内噪声的滤除不是很理想,为此本文通过将循环前缀内外的样本点分别排序,分别选取其中一部分样本能量值的平均值,并乘以适当系数,以两部分和作为一种新的时域阈值来抑制噪声.仿真结果表明,本文改进的算法能很好地抑制循环前缀之内的噪声,保留了有效的信号,误码率和均方误差均比得到进一步的降低. 相似文献
19.
A time-domain based channel estimation for OFDM system with pilot-data multiplexed scheme is investigated. As an approximation to linear minimum mean square estimator (LMMSE), a time-domain based channel estimation is proposed where intra-symbol time-averaging and most significant channel taps selection are applied. The relation and differences of the proposed method to DFT-based LMMSE methods are discussed. The performances of the proposed method, DFT-based LMMSE method and the methods of Chini, Wu, El-Tanany and Mahmoud (see IEEE Trans. on Broadcasting, vol.44, no.1, p.2-11, 1998) and of Yeh and Lin (see IEEE Trans. on Broadcasting, vol.45, no.4, p.400-409, 1999) are evaluated in multipath fading channels. The simulation results show that proposed method achieves almost the same performance as DFT-based LMMSE method and better BER performance than the other methods while keeping less complexity 相似文献