AN EFFICIENT SECURE CHANNEL CODING SCHEME BASED ON POLAR CODES
Abstract
Security challenges brought regarding by the up and coming 5G period ought to be paid attention to. Code-based cryptography use troublesome issues in coding hypothesis and is one of the principle strategies empowering cryptographic primitives in postquantum scenario. Polar codes are another class of mistake amending straight square codes, whose generator lattice is determined by the information on transmission channel parameters, code length and code measurement. In addition, in regards to computational security, it is accepted that an aggressor with a limited handling power has boundless access to the transmission media. In the paper, we propose a helpful coding plan utilizing polar codes. We present the agreeable coding plans with intensify forward (AF) mode and translate forward (DF) mode, individually. By numerical reproductions, we look at the presentation of the proposed plans utilizing polar codes with those plans utilizing low thickness equality check (LDPC) codes under similar conditions. The reproduction results show that the exhibition of the proposed plans with AF and DF modes has been improved significantly compared with those using LDPC codes. We also study the distance factor on the performance of the cooperative communication system.