Title :
Capacity Approximation of Massive MIMO with Optimal Successive Group Decoding System
Author :
Abu-Ella, Omar ; Elmusrati, Mohammed
Author_Institution :
Fac. of Technol., Univ. of Vaasa, Vaasa, Finland
Abstract :
Because of the crucial importance of the group decoding techniques to achieve higher data rates, and also since the massive MIMO expected to be a promising key 5G wireless technology, we aim in this paper to consider the problem of formulating the achieved capacity of the massive MIMO optimal successive group decoding (OSGD) system. To the best of the authors knowledge there is neither exact nor approximate closed-form expression describes the achieved capacity of the massive MIMO OSGD system, Therefore, in this paper we obtain a simple closed-form expression allows for tight approximation for the achieved capacity of the massive MIMO OSGD system. In addition to that we produce an accurate approximation formula describes the rate outage probability of this system. Numerical results is used to show the validation of the proposed formulas.
Keywords :
5G mobile communication; MIMO communication; approximation theory; decoding; group codes; probability; telecommunication network reliability; 5G wireless technology; closed-form expression; massive MIMO OSGD system; massive MIMO capacity approximation; optimal successive group decoding system; outage probability; Antennas; Approximation methods; Decoding; MIMO; Receivers; Signal to noise ratio; Transmitters; 4G; 5G; Massive MIMO; capacity; effective capacity; group decoding; interference mitigation; large-scale MIMO; next generation networks; outage probability;
Conference_Titel :
Next Generation Mobile Apps, Services and Technologies (NGMAST), 2014 Eighth International Conference on
Conference_Location :
Oxford
Print_ISBN :
978-1-4799-5072-0
DOI :
10.1109/NGMAST.2014.13
