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Improving performance metrics in WBANs with a dynamic next beacon interval and superframe duration scheme.
Heliyon
March 2024
Department of Computer Science, Faculty of Computer Science & Engineering, Al-Ahgaff University, Mukalla, Yemen.
Article Synopsis
- The growth of networking and communication technologies has led to increased interest in Wireless Body Area Networks (WBANs) for both medical and non-medical applications, especially for remote patient monitoring.
- WBAN performance issues arise during synchronization and data transmission due to varying traffic loads, causing delays, energy waste, and potential data loss in time-sensitive scenarios.
- The proposed Dynamic Next Beacon Interval and Superframe Duration Scheme (DNBISD) uses a fuzzy logic approach to adapt synchronization parameters, improving data transmission efficiency, delivery ratios, and energy consumption in WBANs.