Sistemas MIMO con un elevado número de antenas
clave para la 5G inalámbrica
DOI:
https://doi.org/10.18041/entramado.2015v11n2.22240%20Palabras clave:
5G, MIMO de gran escala, MIMO masivo, FD-MIMO, comunicaciones inalámbricasResumen
La demanda de altas velocidades y capacidades en comunicación inalámbrica de datos, con tráfico creciente de servicios como el video de alta definición, las videollamadas y la sincronización de fotos y videos del móvil, plantea un reto que se entiende resuelto con el trabajo que se está haciendo para la 5G inalámbrica. Una estrategia que se presenta en este marco, es el uso de un gran número de antenas, por lo que es necesario cuanto antes conocer y estar preparado para este nuevo paradigma. Este artículo hace una revisión de las tecnologías que tienen el foco de atención en la actualidad y que se enmarcan en la denominación MIMO de gran escala, entre los que se encuentran MIMO masivo y MIMO de dimensiones completas.
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Referencias
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11. DATTA, T., SRINIDHI, N., CHOCKALINGAM, A., y SUNDAR, B. A Hybrid RTS-BP Algorithm for Improved Detection of Large-MIMO M-QAM Signals. In: IEEE National Conference on Communication. (28-23, enero: Bangalore, India). Proceedings. 2011. p. 103-107
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18. JOSE, J., ASHIKHMIN, A., MARZETTA, T., y VISHWANATH, S. Pilot Contamination and Precoding in Multi-Cell TDD Systems. In: IEEE Transactions on Wireless Communications. Junio, 2011. vol. 10, no. 8, p. 2640-2651.
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21. KAPETANOVIC, D., ZHENG, G., y RUSEK, F. Physical layer security for massive MIMO: An overview on passive eavesdropping and active attacks. In: IEEE Communications Magazine. Junio, 2015. vol. 53, no. 6, p. 21-27
22. KARJALAINEN, J., NEKOVEE, M., BENN, H., KIM, W., PARK, J., y SUNGSOO, H. Challenges and opportunities of mm-wave commu- nication in 5G networks. In: 9th International Conference on Cog- nitive Radio Oriented Wireless Networks and Communications (CROWNCOM). (2-4, junio: Oulu, Finlandia) Proceedings. 2014. p. 372-376.
23. KIM, Y., JI, H., LEE, H., LEE, J., NG, B. y ZHANG, J. Evolution beyond LTE-advanced with Full Dimension MIMO. In: IEEE International Con- ference on Communications Workshops (ICC).(9-13, junio: Budapest, Hungría) Proceedings. 2013. p. 111-115
24. KIM, Y., JI, H., LEE, J., NAM, Y., NG, B., TZANIDIS, I. y ZHANG, J. Full dimension MIMO (FD-MIMO): The next evolution of MIMO in LTE systems. In: IEEE Wireless Communications. Abril, 2014. vol. 21, no. 2, p. 90-100
25. KUMAR, A., CHANDRASEKARAN, S., CHOCKALINGAM, A., y SUNDAR, B. Near-Optimal Large-MIMO Detection Using Randomi- zed MCMC and Randomized Search Algorithms. In: IEEE International Conference on Communications (ICC). (5-9, junio: Kyoto, Japón) Pro- ceedings. 2011. p. 1-5
26. LARSSON, E. G. MIMO detection methods: How they work. In: IEEE Signal Processing Magazine. Mayo, 2009. vol. 26, no. 3, p. 91-95
27. LARSSON, E. G., EDFORS, O., TUFVESSON, F., y MARZETTA, T. L. Massive MIMO for Next Generation Wireless Systems. In: IEEE Com- munications Magazine. Febrero, 2014. vol. 52, no. 2, p. 186-195
28. LI, P. y MURCH, R. D. Multiple Output Selection-LAS Algorithm in Large MIMO Systems. In: IEEE Communications Letters. Mayo, 2010. vol. 14, no. 5, p. 399-401
29. LI, Y., XIN, Y., DONG, M., XU, G., ZHANG, J., KIM, Y., y LEE, J. Imple- mentation of full-dimensional MIMO (FD-MIMO) in LTE. In: Confe- rence on Signals, Systems and Computers. (3-6, noviembre: Pacific Grove, Estados Unidos) Proceedings. 2013. p. 998-1003
30. LU, L., LI, G., SWINDLEHURST, A., ASHIKHMIN, A., y RUI, Z. An Overview of Massive MIMO: Benefits and Challenges. In: IEEE Journal of Selected Topics in Signal Processing. Abril, 2014. vol. 8, no. 5, p. 742 - 758.
31. LUTHER, E. 5G Massive MIMO Testbed: From Theory to Reality. Na- tional Instruments Corporation. Mayo, 2015. Disponible en http:// www.ni.com/white-paper/52382/en/
32. MARZETTA, T. Noncooperative Cellular Wireless with Unlimited Numbers of Base Station Antennas. In: IEEE Transactions on Wireless Communications. Octubre, 2010. vol. 9, no. 11, p. 3590-3600
33. MARZETTA, T. Massive MIMO: An Introduction. In: Bell Labs Technical Journal. Marzo, 2015. vol. 20, p. 11-22
34. MARZETTA, T., y ASHIKHMIN, A. Beyond LTE: Hundreds of Base Sta- tion Antennas! In: IEEE Communication Theory Workshop (CTW). (10-12, mayo: Cancún, México) 2010.
35. MEHMOOD, Y., AFZAL, W., AHMAD, F., y YOUNAS, U. Large scaled multi-user MIMO system so called massive MIMO systems for future wireless communication networks. In: 19th International Conference on Automation and Computing (ICAC). (13-14, septiembre: Londres, Reino Unido) Proceedings. 2013. p. 1-4
36. MEHMOOD, Y., HAIDER, N., AFZAL, W., y YOUNAS, U. Impact of Massive MIMO systems on future M2M communication. In: IEEE Ma- laysia International Conference on Communications (MICC). (26-28, noviembre: Kuala Lumpur, Malasia) Proceedings. 2013. p. 534-537
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2015-06-01
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Sistemas MIMO con un elevado número de antenas: clave para la 5G inalámbrica. (2015). Entramado, 11(2), 250-261. https://doi.org/10.18041/entramado.2015v11n2.22240
