Title :
DCT and VQ based limited feedback in spatially-correlated massive MIMO systems
Author :
Pan Cao ; Jorswieck, Eduard
Author_Institution :
Commun. Lab., Tech. Univ. Dresden, Dresden, Germany
Abstract :
We consider the limited feedback problem in a multi-cell spatially-correlated massive MIMO frequency division duplexing (FDD) system. The very high dimension of massive MIMO channels makes the limited feedback schemes in traditional MIMO inefficient. This motivates us to explore a novel approach to reduce the feedback overhead in two stages: 1) The original channel vector is sparsified in the spatial frequency domain by the discrete cosine transform (DCT); 2) Since empirical normality tests imply the large DCT coefficients approximately satisfies Gaussian distribution, the large DCT coefficients can be further compressed by vector quantization (VQ). By this DCT and VQ based limited feedback approach, a very high dimensional channel vector can be indicated by only an index with the analyzable distortion. Numerical simulations also illustrate its effectiveness.
Keywords :
Gaussian distribution; MIMO communication; discrete cosine transforms; frequency division multiplexing; numerical analysis; wireless channels; DCT coefficients; FDD system; Gaussian distribution; MIMO channels; VQ; channel vector; discrete cosine transform; limited feedback; massive MIMO frequency division duplexing; numerical simulations; spatial frequency domain; spatially correlated massive MIMO systems; vector quantization; Arrays; Correlation; Discrete cosine transforms; Downlink; MIMO; Quantization (signal); Vectors;
Conference_Titel :
Sensor Array and Multichannel Signal Processing Workshop (SAM), 2014 IEEE 8th
Conference_Location :
A Coruna
DOI :
10.1109/SAM.2014.6882397
