Bounds on the List Size of Successive Cancellation List Decoding
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Coskun, MC; Pfister, HD
Published in: SPCOM 2020 - International Conference on Signal Processing and Communications
July 1, 2020
Successive cancellation list decoding of polar codes provides very good performance for short to moderate block lengths. However, the list size required to approach the performance of maximum-likelihood decoding is still not well understood theoretically. This work identifies information-theoretic quantities that are closely related to this required list size. It also provides a natural approximation for these quantities that can be computed efficiently even for very long codes. Simulation results are provided for the binary erasure channel as well as the binary-input additive white Gaussian noise channel.
Duke Scholars
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SPCOM 2020 - International Conference on Signal Processing and Communications
DOI
Publication Date
July 1, 2020
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Coskun, M. C., & Pfister, H. D. (2020). Bounds on the List Size of Successive Cancellation List Decoding. In SPCOM 2020 - International Conference on Signal Processing and Communications. https://doi.org/10.1109/SPCOM50965.2020.9179593
Coskun, M. C., and H. D. Pfister. “Bounds on the List Size of Successive Cancellation List Decoding.” In SPCOM 2020 - International Conference on Signal Processing and Communications, 2020. https://doi.org/10.1109/SPCOM50965.2020.9179593.
Coskun MC, Pfister HD. Bounds on the List Size of Successive Cancellation List Decoding. In: SPCOM 2020 - International Conference on Signal Processing and Communications. 2020.
Coskun, M. C., and H. D. Pfister. “Bounds on the List Size of Successive Cancellation List Decoding.” SPCOM 2020 - International Conference on Signal Processing and Communications, 2020. Scopus, doi:10.1109/SPCOM50965.2020.9179593.
Coskun MC, Pfister HD. Bounds on the List Size of Successive Cancellation List Decoding. SPCOM 2020 - International Conference on Signal Processing and Communications. 2020.
Published In
SPCOM 2020 - International Conference on Signal Processing and Communications
DOI
Publication Date
July 1, 2020