Sharma, V.Arya, R.K.Kumar, S.2026-02-052021Computers and Electrical Engineering, 2021, 95, , pp. -457906https://doi.org/10.1016/j.compeleceng.2021.107377https://idr.nitk.ac.in/handle/123456789/23044This paper presents a robust channel encoding scheme under adaptive modulation and coding for a massive machine type communication device in 5G new radio. For the very first time, mode-selection and distance statistics algorithms have been simultaneously evaluated, in which together it provides the closest approximation of efficient adaptive modulation and coding with robust transmission. The prediction of optimum adaptive modulation and coding is based on the analysis of uplink packet using distance statistics, and downlink packet using mode-selection mechanism. The performance of 5G new radio by incorporating OFDM subcarrier has been evaluated using analytical as well as simulation approach. Mode-selection algorithm has been considered to predict the environmental condition under a fading channel while the distance statistics provide feedback of the previously transmitted channel condition. The result of both the approaches provide a better bit error rate for adaptive modulation & coding profile under 1/4, 1/18, 1/16 and 1/32 cyclic prefix. © 20215G mobile communication systemsApproximation algorithmsEncoding (symbols)Fading (radio)Fading channelsOrthogonal frequency division multiplexingSignal encodingTelemetering equipment5g new radioAdaptive modulation and codingChannel encodingDistance statisticEncoding schemesMode selectionOrthogonal frequency-division multiplexingPhysical layersRobust transmissionBit error rate