International Journal of Reciprocal Symmetry and Theoretical Physics

Peer Reviewed Article

Vol. 5 (2018)

Massive MIMO: Revolutionizing Wireless Communication through Massive Antenna Arrays and Beamforming

Published
13-03-2018

Abstract

Massive MIMO technology has become a paradigm-shifting advancement in wireless communication networks by utilizing large antenna arrays and advanced beamforming algorithms. With an emphasis on Massive MIMO's scalability, coverage enhancement, spectrum efficiency, system capacity boost, mobility and handover performance optimization, interference management, and coexistence capabilities, this study intends to investigate the potential of Massive MIMO in revolutionizing wireless communication. Using extensive analysis of extant literature and practical performance assessments, the research pinpoints crucial research obstacles and policy ramifications for the triumphant implementation and acceptance of Massive MIMO technology. Essential discoveries include the excellent rise in spectrum efficiency and system capacity, the scalability and coverage enhancement provided by Massive MIMO systems, and the efficacy of coexistence and interference management strategies. To fully realize the transformative potential of Massive MIMO technology and advance digital connectivity for all, policy implications such as spectrum allocation and regulation, support for research and development, infrastructure deployment and investment, standardization, interoperability, and digital inclusion are essential.

References

  1. Ali, E., Ismail, M., Nordin, R., Abdulah, N. F. (2017). Beamforming Techniques for Massive MIMO Systems in 5G: Overview, Classification, and Trends for Future Research. Frontiers of Information Technology & Electronic Engineering, 18(6), 753-772. https://doi.org/10.1631/FITEE.1601817
  2. Ande, J. R. P. K., Varghese, A., Mallipeddi, S. R., Goda, D. R., & Yerram, S. R. (2017). Modeling and Simulation of Electromagnetic Interference in Power Distribution Networks: Implications for Grid Stability. Asia Pacific Journal of Energy and Environment, 4(2), 71-80. https://doi.org/10.18034/apjee.v4i2.720
  3. El-khamy, S., Moussa, K., El-sherif, A. (2017). A Smart Multi-user Massive MIMO System for Next G Wireless Communications Using Evolutionary Optimized Antenna Selection. Telecommunication Systems, 65(2), 309-317. https://doi.org/10.1007/s11235-016-0232-9
  4. Goda, D. R. (2016). A Fully Analytical Back-gate Model for N-channel Gallium Nitrate MESFET's with Back Channel Implant. California State University, Northridge. http://hdl.handle.net/10211.3/176151
  5. Hassan, N., Fernando, X. (2017). Massive MIMO Wireless Networks: An Overview. Electronics, 6(3), 63. https://doi.org/10.3390/electronics6030063
  6. Khair, M. A. (2018). Security-Centric Software Development: Integrating Secure Coding Practices into the Software Development Lifecycle. Technology & Management Review, 3, 12-26. https://upright.pub/index.php/tmr/article/view/124
  7. Lonkeng, A. D., Zhuang, J. (2017). Two-Dimensional DOA Estimation Using Arbitrary Arrays for Massive MIMO Systems. International Journal of Antennas and Propagation, 2017. https://doi.org/10.1155/2017/6794920
  8. Mallipeddi, S. R., Goda, D. R., Yerram, S. R., Varghese, A., & Ande, J. R. P. K. (2017). Telemedicine and Beyond: Navigating the Frontier of Medical Technology. Technology & Management Review, 2, 37-50. https://upright.pub/index.php/tmr/article/view/118
  9. Maruta, K., Iwakuni, T., Ohta, A., Arai, T., Shirato, Y. (2016). First Eigenmode Transmission by High Efficient CSI Estimation for Multiuser Massive MIMO Using Millimeter Wave Bands. Sensors, 16(7), 1051. https://doi.org/10.3390/s16071051
  10. Wang, D., Zhang, Y., Wei, H., You, X., Gao, X. (2016). An Overview of Transmission Theory and Techniques of Large-scale Antenna Systems for 5G Wireless Communications. Science China. Information Sciences, 59(8), 081301. https://doi.org/10.1007/s11432-016-0278-5

Similar Articles

1-10 of 20

You may also start an advanced similarity search for this article.