Millimeter-wave communication system is expected to overcome the global bandwidth shortage because it has a larger bandwidth allocation, which can be translated to provide data transfer rates beyond 100 Gigabits per second. To support theses high data rates, the 5G specific filters are designed based on Chebyshev transfer function to produce the best rejection level at the stopbands The evidence shows that design technique based on Chebyshev transfer function is not suitable to design a filter for 5G implementation, due to high sensitivity to manufacturing errors.
Papers:
C. Chrisostomidis, S. Lucyszyn, "On the theory of chainedfunction filters", IEEE Trans. Microw. Theory Tech., vol. 53, pp. 3142-3151, Oct. 2005.
T. S. Rappaport, S. Sun, R. Mayzus, H. Zhao, Y. Azar, K. Wang, et al., "Millimeter Wave Mobile Communications for 5G Cellular: It Will Work!" IEEE Access, vol. 1, pp. 335-349, 2013.
S. K. Agrawal and K. Sharma, "5G millimeter wave (mmWave) communications," in 2016 3rd International Conference on Computing for Sustainable Global Development (INDIACom), 2016, pp. 3630-3634.
C. Chrisostomidis, S. Lucyszyn, "Seed function combination selection for chained function filters", IET Microw., Antennas and Propagation, vol. 4, pp. 799-807, Jun. 2010.
M. Guglielmi and G. Connor, "Chained function filters," IEEE Microwave and Guided Wave Letters, vol. 7, pp. 390- 392, 1997.
Orthogonal MIMO Channel design, I can do more than 1000X1000 MIMO
There are many issues should be clearly addressed and specific. Please clarify, sir.
One important aspect is the software and hardware configuration, to assure the best quality of service provision, as well as, proper resilient security at minimum cost.
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