Title :
An improved channel estimation method for LTE PUSCH
Author :
Chong Ma ; Tao Peng ; Zhonghua He ; Muhua Chen
Author_Institution :
Wireless Signal Process. & Network Lab., Beijing Univ. of Posts & Telecommun., Beijing, China
Abstract :
The DFT-based channel estimation method is widely used in OFDM systems due to a good balance between computation complexity and performance. But this DFT-based method encounters degradation of performance caused by the energy leakage from non-sample locations of the multipath timing. To alleviate the leakage effect, a channel estimation method by adding virtual channel frequency response (VCFR) was proposed in [7]. However, this VCFR method cannot adapt to the complicated situations of the uplink reception for LTE Physical Uplink Shared Channel(PUSCH). Owing to the above issue, an improved method which adopts a novel frequency window function and a new noise reduction strategy is presented. The superiority of the proposed method over other VCFR channel estimation methods is verified in performance and flexibility to various multipath fading channels.
Keywords :
Long Term Evolution; OFDM modulation; channel estimation; computational complexity; discrete Fourier transforms; fading channels; frequency response; multipath channels; DFT-based channel estimation; LTE PUSCH; LTE physical uplink shared channel; OFDM systems; VCFR; computation complexity; energy leakage; frequency window function; improved channel estimation; multipath fading channels; multipath timing; noise reduction; nonsample locations; uplink reception; virtual channel frequency response; Channel estimation; Fading; Frequency response; Frequency-domain analysis; Noise; Noise reduction; OFDM; channel estimation; denoise strategy; frequency domain window function; virtual channnel frequency response;
Conference_Titel :
Communications and Networking in China (CHINACOM), 2014 9th International Conference on
DOI :
10.1109/CHINACOM.2014.7054258
