Title :
Feedback Subsampling in Temporally-Correlated Slowly-Fading Channels using Quantized CSI
Author :
Makki, Behrooz ; Eriksson, Thomas
Author_Institution :
Dept. of Signals & Syst., Chalmers Univ. of Technol., Gothenburg, Sweden
Abstract :
This paper studies the problem of feedback subsampling in temporally-correlated wireless networks utilizing quantized channel state information (CSI). Under both peak and average power constraints, the system data transmission efficiency is studied in two scenarios. First, we focus on the case where the codewords span one fading block. In the second scenario, the throughput is determined for piecewise slowly-fading channels where the codewords are so long that a finite number of correlated gain realizations are experienced during each codeword transmission. Considering different temporal correlation conditions in both scenarios, substantial throughput increment is observed with feedback rates well below 1 bit per slot.
Keywords :
correlation methods; fading channels; radio networks; average power constraints; channel state information; codeword transmission; correlated gain; data transmission efficiency; feedback subsampling; finite number; peak power constraints; piecewise slowly-fading channels; quantized CSI; temporal correlation conditions; temporally-correlated wireless networks; throughput increment; Correlation; Encoding; Fading; Quantization (signal); Throughput; Tin; Transmitters; Feedback subsampling; HARQ feedback; adaptive power allocation; fast-fading channels; quantized CSI; temporally-correlated channels;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2013.042313.120167
