Title :
Improved Bounds on the Finite Length Scaling of Polar Codes
Author :
Goldin, Darina ; Burshtein, David
Author_Institution :
Sch. of Electr. Eng., Tel-Aviv Univ., Tel-Aviv, Israel
Abstract :
Improved upper bounds on the blocklength required to communicate over binary-input channels using polar codes, below some given error probability, are derived. For that purpose, an improved bound on the number of non-polarizing channels is obtained. The main result is that the blocklength required to communicate reliably scales at most as O((I(W ) - R)-5.702), where R is the code rate and I(W ) is the symmetric capacity of the channel W. The results are then extended to polar lossy source coding at rate R of a source with symmetric distortion-rate function D(·). The blocklength required scales at most as O((D0)-5.702), where D0 is the maximal allowed gap between the actual average (or typical) distortion and D(R).
Keywords :
error statistics; source coding; error probability; finite length scaling; improved upper bounds; nonpolarizing channels; polar codes; polar lossy source coding; symmetric capacity; symmetric distortion-rate function; Channel capacity; Decoding; Error probability; Random variables; Reliability; Upper bound; Zinc; Channel polarization; gap to capacity; polar codes; rate-distortion;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2014.2359197
