22 research outputs found
Nouvelles strat茅gies de concat茅nation de codes s茅ries pour la r茅duction du seuil d鈥檈rreur dans le contr么le de parit茅 脿 faible densit茅 et dans les turbo codes produits
Get PDFThis paper presents a novel multiple serial code concatenation (SCC) strategy to combat the error-floor problem in iterated sparse graph-based error correcting codes such as turbo product-codes (TPC) and low-density parity-check (LDPC) codes. Although SCC has been widely used in the past to reduce the error-floor in iterative decoders, the main stumbling block for its practical application in high-speed communication systems has been the need for long and complex outer codes. Alternative, short outer block codes with interleaving have been shown to provide a good tradeoff between complexity and performance. Nevertheless, their application to next-generation high-speed communication systems is still a major challenge as a result of the careful design of long complex interleavers needed to meet the requirements of these applications. The SCC scheme proposed in this work is based on the use of short outer block codes. Departing from techniques used in previous proposals, the long outer code and interleaver are replaced by a simple block code combined with a novel encoding/decoding strategy. This allows the proposed SCC to provide a better tradeoff between performance and complexity than previous techniques. Several application examples showing the benefits of the proposed SCC are described. Particularly, a new coding scheme suitable for high-speed optical communication is introduced.Fil: Morero, Dami谩n Alfonso. Universidad Nacional de Cordoba. Facultad de Ciencias Exactas, Fisicas y Naturales; ArgentinaFil: Hueda, Mario Rafael. Universidad Nacional de Cordoba. Facultad de Ciencias Exactas, Fisicas y Naturales; Argentina. Consejo Nacional de Investigaciones Cient铆ficas y T茅cnicas. Centro Cient铆fico Tecnol贸gico Conicet - C贸rdoba; Argentin
Evaluation of Channel Coding Methods for Next Generation Mobile Communication Standards
Get PDFLa codificaci贸n de canales es crucial para los sistemas de comunicaci贸n m贸vil, y los sistemas de comunicaci贸n inal谩mbrica 5G han decidido utilizar los c贸digos LDPC como esquema de codificaci贸n para sus canales de datos y los c贸digos Polares como esquema de codificaci贸n para sus canales de control. Este estudio se centra en los fundamentos de los c贸digos LDPC y los c贸digos Polares, especialmente los nuevos c贸digos polares, explicando en detalle sus caracter铆sticas de polarizaci贸n y las t茅cnicas de decodificaci贸n recursiva. Tambi茅n se estudia las especificaciones de dise帽o relacionadas con estos dos esquemas de codificaci贸n de canales en 5G. Mediante simulaciones, se compara el rendimiento del nuevo esquema de codificaci贸n de canales inal谩mbricos 5G con el de los c贸digos Turbo a diferentes longitudes de bloque y tasas de c贸digo, y se extraen conclusiones relevantes para demostrar la aplicabilidad del esquema de codificaci贸n de canales 5G NR.Channel coding is essential for mobile communication systems, and the 5G wireless standardization committees decided to use LDPC codes as the coding scheme of its data channel and Polar codes as the coding scheme of its control channel. This study focuses on the fundamentals of LDPC codes and Polar codes, especially the emerging Polar codes, with detailed explanations of their polarization characteristics and recursive decoding techniques. It is also focused on the design specification related to these two channel coding schemes in 5G. The performance of the 5G New Radio channel coding scheme is compared with that of LTE Turbo codes at different block lengths and code rates through simulations, and relevant conclusions are drawn to demonstrate the suitability of the 5G NR channel coding scheme.Grado en Ingenier铆a en Sistemas de Telecomunicaci贸
