Spatial navigation combined with the Internet of Vehicles (IoV) can benefit researchers working on intelligent transportation systems (ITS). In reality, a variety of factors determine a vehicle's speed, including its characteristics, the vehicle-position connection, and certain unspoken components. The IoV-CRA, or Internet of Values clustering and routing algorithm, is proposed in this paper. It combines the vehicle's traveling parameters, affiliation matrix, and inferred variables to better grasp the implications of fascinating uses of the vehicle's posture and expected affiliation characteristics. It proposes a routing system that takes into account automobiles' current locations to improve their detection and prediction capabilities. Following that, we may compute the vehicle's distance using its expected path. Caching and vehicle range are both standardized by transmission options and traffic data transmission capabilities. According to numerical analysis, the suggested method outperforms the alternatives in the following metrics: a low re-clustering time study of 45 ms, an average end-to-end delay ratio of 1410 ms, and an excellent packet delivery ratio of 80%.
Improving Internet of Vehicles Intelligent Transportation Systems with Clustering-based Routing
24.04.2025
531840 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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