Journal
WIRELESS PERSONAL COMMUNICATIONS
Volume 131, Issue 2, Pages 1249-1278Publisher
SPRINGER
DOI: 10.1007/s11277-023-10478-1
Keywords
Whale optimization algorithm; Online scheduling; Fiber wireless access networks (FiWi); Energy efficiency; Wavelength agile
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Integration of wireless frontend with optical backend leads to fiber wireless access networks, providing high bandwidth and flexibility. Energy efficiency is crucial in such networks and can be improved through multiplexing, scheduling, and optimized component placement. Our approach focuses on optimizing optical network units using whale optimization and implementing a novel online scheduling method for better energy efficiency and controlled delay. The proposed methodology shows superior energy efficiency and delay performance compared to existing approaches.
Integration of wireless frontend with optical backend leads to the fiber wireless access network, which provides high bandwidth and flexibility. Energy efficiency in such networks is very crucial and can be achieved by implementing multiplexing, scheduling and optimized components placement. Our prime objective is to improve energy efficiency. Architecture has wavelength agile and radio agile multiplexing at backend and frontend respectively. Firstly, we optimize optical network units using whale optimization and secondly, a novel online scheduling is implemented to obtain better energy efficiency with controlled delay. Proposed methodology shows better energy efficiency and delay performance compare to existing approaches.
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