Communications of the ACM
Breakthrough in Tackling Increasing Demand by IoT on Mobile Networks
A technique known as multicarrier-division duplex (MDD) allows a receiver in the network to be nearly free of self-interference in the digital domain by relying only on fast Fourier transform (FFT) processing.
Credit: University of Leicester (U.K.)
Computer scientists at the U.K.'s University of Leicester developed a technique to manage mobile network demand by multiple Internet of Things (IoT) devices using terahertz frequencies.
The multicarrier-division duplex (MDD) technique uses fast Fourier transform (FFT) processing to virtually eliminate self-interference among network receivers in the digital domain.
The technology optimizes subcarrier set assignment and the number of access point clusters to enhance communication quality.
Simulations based on real-world industrial settings demonstrated that the new technique outperforms existing technologies while reducing power consumption by 10%.
Said the University of Leicester's Huiyu Zhou, "With our proposed technology, 5G/6G systems require less energy consumption, have faster device selection, and less resource allocation. Users may feel their mobile communication is quicker, wider, and with reduced power demands."
From University of Leicester (U.K.)
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Abstracts Copyright © 2023 SmithBucklin, Washington, D.C., USA
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