Competitive Advantages:
Reduce signal degeneration at hardware & maximize energy efficiency, Minimize interference to improve rates & reliability, Backward compatible with LTE, forward compatible beyond 5G.
A system and method for frame structure compliant adaptive extensionless windowing that maximizes fair proportional network capacity in the download. Gains are provided by emulating the multipath multiple access channel to the base station to calculate almost-optimum transmitter windowing durations prior to transmission and using the variance of received symbols using different window durations to allow the user equipment nodes to estimate optimal receiver windowing durations without calculations requiring further knowledge about the network. USF researchers have invented a novel algorithm that utilizes adaptive CP windowing and CP alignment signals to jointly suppress the interference caused to the network, increase the energy efficiency, reduce quantization noise and eliminate received interference. Capacity of the wireless channel is maximized for all devices sharing the network regardless of their received power, maximizing overall network capacity. This algorithm is backward compatible with the legacy LTE and Wi-Fi structures, but its importance becomes prominent in 5G and beyond wireless cellular networks.
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