Efficient receiver methods for coded systems under channel uncertainty

Fonseca dos Santos, André

January 2010

Zugl.: Dresden, Techn. Univ., Diss., 2010

Comparison of LDPC Block and LDPC Convolutional Codes based on their Decoding Latency

Hassan, Najeeb ul, Lentmaier, Michael, Fettweis, Gerhard P.

11 February 2013

We compare LDPC block and LDPC convolutional codes with respect to their decoding performance under low decoding latencies. Protograph based regular LDPC codes are considered with rather small lifting factors. LDPC block and convolutional codes are decoded using belief propagation. For LDPC convolutional codes, a sliding window decoder with different window sizes is applied to continuously decode the input symbols. We show the required Eb/N0 to achieve a bit error rate of 10 -5 for the LDPC block and LDPC convolutional codes for the decoding latency of up to approximately 550 information bits. It has been observed that LDPC convolutional codes perform better than the block codes from which they are derived even at low latency. We demonstrate the trade off between complexity and performance in terms of lifting factor and window size for a fixed value of latency. Furthermore, the two codes are also compared in terms of their complexity as a function of Eb/N0. Convolutional codes with Viterbi decoding are also compared with the two above mentioned codes.

Bitfehlerrate

Block-Codes

Komplexitätstheorie

Faltungscodes

Decodierung

Iterative Decodierung

Sonderforschungsbereich 912

Hochadaptive Energieeffiziente Systeme

HAEC

Bit error rate

Block codes

Complexity theory

Convolutional codes

Decoding

Iterative decoding

Collaborative Research Centre 912

ddc:620

ddc:621.3

rvk:ZN 6045

Comparison of LDPC Block and LDPC Convolutional Codes based on their Decoding Latency

Hassan, Najeeb ul, Lentmaier, Michael, Fettweis, Gerhard P.

January 2012

We compare LDPC block and LDPC convolutional codes with respect to their decoding performance under low decoding latencies. Protograph based regular LDPC codes are considered with rather small lifting factors. LDPC block and convolutional codes are decoded using belief propagation. For LDPC convolutional codes, a sliding window decoder with different window sizes is applied to continuously decode the input symbols. We show the required Eb/N0 to achieve a bit error rate of 10 -5 for the LDPC block and LDPC convolutional codes for the decoding latency of up to approximately 550 information bits. It has been observed that LDPC convolutional codes perform better than the block codes from which they are derived even at low latency. We demonstrate the trade off between complexity and performance in terms of lifting factor and window size for a fixed value of latency. Furthermore, the two codes are also compared in terms of their complexity as a function of Eb/N0. Convolutional codes with Viterbi decoding are also compared with the two above mentioned codes.

info:eu-repo/classification/ddc/620

ddc:620

info:eu-repo/classification/ddc/621.3

ddc:621.3