Title :
Multi-standard trellis-based FEC decoder
Author :
Dion, Jean ; Hamon, Marie-Helene ; Pénard, Pierre ; Arzel, Matthieu ; Jezequel, Michel
Author_Institution :
Orange Labs., France Telecom, Cesson-Sevigne, France
Abstract :
Nowadays wireless standards optimize their capacity thanks to techniques such as advanced Forward Error Correction (FEC) technologies like Low-Density Parity-Check and Turbo codes. Smartphone and Home automation are specific use cases where multi-standard architectures show great interest. Furthermore some standardized FEC can be interpreted as trellis codes. Trellis-based iterative algorithms are competitive to decode several codes. The goal detailed in this paper is to provide a multistandard decoder applied on 3GPP-LTE and IEEE802.11n codes. A state of the art of main decoding algorithms and on the selected codes is necessary to underline the decoding similarities and to design a trellis construction. An optimized trellis decoder followed by a common architecture are then studied and compared with existing solutions in term of performance, complexity and throughputs.
Keywords :
Long Term Evolution; forward error correction; iterative decoding; trellis codes; wireless LAN; 3GPP-LTE; IEEE802.11n codes; advanced forward error correction technology; decoding algorithms; home automation; low-density parity-check codes; multistandard architectures; multistandard trellis-based FEC decoder; smart phone; trellis-based iterative algorithms; Complexity theory; Decoding; Equations; Iterative decoding; Random access memory; Standards; 3GPP-LTE; Architecture; FEC decoding; IEEE802.11n; iterative decoding; trellis decoding;
Conference_Titel :
Design and Architectures for Signal and Image Processing (DASIP), 2012 Conference on
Conference_Location :
Karlsruhe
Print_ISBN :
978-1-4673-2089-4
Electronic_ISBN :
978-2-9539987-4-0
