Future Internet, Journal Year: 2025, Volume and Issue: 17(1), P. 37 - 37
Published: Jan. 15, 2025
The Internet of Things (IoT) represents a rapidly growing field, where billions intelligent devices are interconnected through the Internet, enabling seamless sharing data and resources. These smart typically employed to sense various environmental characteristics, including temperature, motion objects, occupancy, transfer their values nearest access points for further analysis. exponential growth in sensor availability deployment, powered by recent advances fabrication, has greatly increased complexity IoT network architecture. As market these sensors grows, so does problem ensuring that networks meet high requirements availability, dependability, flexibility, scalability. Unlike traditional networks, systems must be able handle massive amounts generated frequently-used resource-constrained devices, while efficient dependable communication. This puts constraints on design IoT, mainly terms required reliability, To this end, work considers deploying technology distributed edge computing enable applications over dense with announced requirements. proposed depends at two levels: multiple fog computing. structure increases scalability, model energy nodes introduced. An energy-offloading method is considered manage energy, efficiently. developed was evaluated using testbed. Heterogeneous evaluation scenarios metrics were considered. achieved higher efficiency 19%, resource utilization 54%, latency 86%, reduced congestion 92% compared networks.
Language: Английский