Title :
Rateless wireless systems: Gains, approaches, and challenges
Author :
Mehran, F. ; Nikitopoulos, K. ; Xiao, P. ; Chen, Q.
Author_Institution :
Home of 5G Innovation Centre, Univ. of Surrey, Guildford, UK
Abstract :
State-of-the-art channel coding schemes promise data rates close to the wireless channel capacity. However, efficient link adaptation techniques are required in order to deliver such throughputs in practice. Traditional rate adaptation schemes, which are reactive and try to “predict” the transmission mode that maximizes throughput based on “transmission quality indicators”, can be highly inefficient in an evolving wireless ecosystem where transmission can become increasingly dynamic and unpredictable. In such scenarios, “rateless” link adaptation can be highly beneficial. Here, we compare popular rateless approaches in terms of gains and practicality in both traditional and more challenging operating scenarios. We also discuss challenges that need to be addressed to make such systems practical for future wireless communication systems.
Keywords :
adaptive modulation; automatic repeat request; channel capacity; channel coding; modulation coding; wireless channels; AMC; HARQ; adaptive modulation-and-coding; channel coding schemes; data rates; future wireless communication systems; hybrid automatic repeat request; rate adaptation schemes; rateless link adaptation; rateless wireless systems; throughput maximization; transmission mode prediction; transmission quality indicators; wireless channel capacity; AWGN channels; Automatic repeat request; Decoding; MIMO; Parity check codes; Throughput; Wireless communication; adaptive modulation and coding (AMC); hybrid automatic repeat request (HARQ); link adaptation; raptor code; rateless;
Conference_Titel :
Signal and Information Processing (ChinaSIP), 2015 IEEE China Summit and International Conference on
Conference_Location :
Chengdu
DOI :
10.1109/ChinaSIP.2015.7230505
