350 rub
Journal Electromagnetic Waves and Electronic Systems №8 for 2017 г.
Article in number:
Variants of use error correcting codes in ARQ/FEC hybrid system
Type of article: scientific article
UDC: 004.725.2
Authors:

E.O. Karpukhin – Ph. D. (Eng.), Associate Professor, Moscow Aviation Institute (National Research University); Senior Research Scientist, Design Information Technologies Center of RAS (Odintsovo, Moscow region) E-mail: ret1987@yandex.ru

K.V. Meshavkin – Student, Moscow Aviation Institute (National Research University) E-mail: meshavkin1996@gmail.com

Abstract:

Three perspective correcting codes in ARQ/FEC hybrid system was reviewed on application level. Simulation modelling of ARQ/FEC hybrid system show that network code and extended parity code are superior to Reed-Solomon code in terms of assembly time by application services and in terms of packet processing intensity. Also, network code and extended parity code are not making significant overhead costs when adding redundant packets. Assembly time of extended parity code and network code varies from 2 to 9 ms against 20 ms for Reed-Solomon code. Data processing intensity of extended parity code and network code is more than 20 Mbits/s against less than 10 Mbits/s for Reed-Solomon code.

Pages: 43-50
References
  1. Kruk E.A., Malichenko D.A. Raschet zaderzhki pri ispol'zovanii kodirovaniya na transportnom urovne seti peredachi danny'x // Izvestiya VUZov. Ser. Priborostroenie. 2013. T. 56. № 8. S. 45−51.
  2. Karpuxin E.O., Britvin N.V. Primenenie transportnogo kodirovaniya dlya umen'sheniya vremeni sborki danny'x na priemnoj storone // E'lektrosvyaz'. 2016. № 10. S. 46−50.
  3. Karpuxin E.O., Gasanov E'.O., Solodovnikov V.I. Sposob upravleniya dostavkoj setevy'x paketov na storone poluchatelya dlya povy'sheniya e'ffektivnosti informaczionnogo vzaimodejstviya v telekommunikaczionny'x sistemax // Sistemy' vy'sokoj dostupnosti. 2014. T. 10. № 2. S. 33−37.
  4. Karpuxin E.O., Karnakov V.V. Primenenie korrektiruyushhix kodov v sistemax ARQ/FEC na transportnom i prikladnom urovnyax // Trudy' mezhd. konf. «Informaczionny'e texnologii v nauke, obrazovanii i upravlenii» (IT+S&E). 2016. S. 207−211.
  5. Audrius Jurgelionis, Jukka-Pekka Laulajainen, Matti Hirvonen, Alf Inge Wang. An Empirical Study of NetEm Network Emulation Functionalities // The 20th International Conference on Computer Communications and Networks (ICCCN). 2011.
  6. Karpuxin E.O. Variant ARQ/FEC sistemy' dlya protivodejstviya blokirovkam paketov v ocheredyax na priemnoj storone // Informaczionny'e texnologii i vy'chislitel'ny'e sistemy'. 2016. № 4. S. 5−12.
  7. Toke Høiland-Jørgensen, Bengt Ahlgren, Per Hurtig, Anna Brunstrom. Measuring Latency Variation in the Internet // The 12th International Conference on Emerging Networking Experiments and Technologies. 2016. P. 473−480.
Date of receipt: 2 ноября 2017 г.