In this paper, we analyzed a numerical evaluation of the performance of MIMO radio systems in the LTE network environment. Downlink physical layer of the OFDM-MIMO based radio interface is considered for system model and a theoretical analysis of the bit error rate of the two space-time codes (SFBC 2×1 and FSTD 4×2 codes are adopted by the LTE norm as a function of the signal to noise ratio. Analytical
expressions are given for transmission over a Rayleigh channel without spatial correlation which is then compared with Monte-Carlo simulations. Further evaluated channel capacity and simulation results show throughput almost reaches the capacity limit
%0 Journal Article
%1 ppoornima2017performance
%A P. Poornima, G. Laxminarayana
%A Rao, D. Srinivas
%D 2017
%E Meghanathan, Natarajan
%J International Journal of Computer Networks & Communications (IJCNC)
%K Block Capacity, Channel Coding Downlink, LTE MIMO, OFDM, Spate Throughput. and time
%N 5
%P 55-69
%R 10.5121/ijcnc.2017.9505
%T Performance Analysis of Channel Capacity and Throughput of LTE Downlink System
%U http://airccse.org/journal/ijc2017.html
%V 9
%X In this paper, we analyzed a numerical evaluation of the performance of MIMO radio systems in the LTE network environment. Downlink physical layer of the OFDM-MIMO based radio interface is considered for system model and a theoretical analysis of the bit error rate of the two space-time codes (SFBC 2×1 and FSTD 4×2 codes are adopted by the LTE norm as a function of the signal to noise ratio. Analytical
expressions are given for transmission over a Rayleigh channel without spatial correlation which is then compared with Monte-Carlo simulations. Further evaluated channel capacity and simulation results show throughput almost reaches the capacity limit
@article{ppoornima2017performance,
abstract = {In this paper, we analyzed a numerical evaluation of the performance of MIMO radio systems in the LTE network environment. Downlink physical layer of the OFDM-MIMO based radio interface is considered for system model and a theoretical analysis of the bit error rate of the two space-time codes (SFBC 2×1 and FSTD 4×2 codes are adopted by the LTE norm as a function of the signal to noise ratio. Analytical
expressions are given for transmission over a Rayleigh channel without spatial correlation which is then compared with Monte-Carlo simulations. Further evaluated channel capacity and simulation results show throughput almost reaches the capacity limit},
added-at = {2017-10-20T02:03:21.000+0200},
author = {P. Poornima, G. Laxminarayana and Rao, D. Srinivas},
biburl = {https://www.bibsonomy.org/bibtex/2e0ffe00f5c163fbe78d9a1f3d7b5f170/laimbee},
doi = {10.5121/ijcnc.2017.9505},
editor = {Meghanathan, Natarajan},
interhash = {d607702773ea3c60c9cc02f97396c8a9},
intrahash = {e0ffe00f5c163fbe78d9a1f3d7b5f170},
issn = {09749322},
journal = {International Journal of Computer Networks & Communications (IJCNC)},
keywords = {Block Capacity, Channel Coding Downlink, LTE MIMO, OFDM, Spate Throughput. and time},
language = {English},
month = {September},
number = 5,
pages = {55-69},
timestamp = {2017-10-20T02:03:21.000+0200},
title = {Performance Analysis of Channel Capacity and Throughput of LTE Downlink System},
url = {http://airccse.org/journal/ijc2017.html},
volume = 9,
year = 2017
}