1. Link stability based multipath routing and effective mobility prediction in cognitive radio enabled vehicular ad hoc network.
- Author
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Rashid, Sami AbdulJabbar, Hamdi, Mustafa Maad, AbdulElah, Aymen Jalil, Rajab, Yasir Jasim Ahmed, and Zaaile, Khalid AbdulHakeem
- Subjects
VEHICULAR ad hoc networks ,INTELLIGENT transportation systems ,MULTICASTING (Computer networks) ,COGNITIVE radio ,POWER spectra ,ENERGY consumption ,FORECASTING - Abstract
Vehicular ad hoc networks (VANETs) provide a robust infrastructure for intelligent transportation system (ITS) applications. VANET communication involves vehicle-to-vehicle and vehicle-to-infrastructure connections, primarily with roadside units (RSUs). Analyzing cognitive radio (CR)- VANET studies revealed two key performance issues: high energy consumption and latency. To address these challenges, we propose a novel approach: link stability and mobility prediction-based clustered CRVANETs, known as LMCCR-VANET. LMCCR-VANET consists of four main components: CR-VANET construction, clustering model, speed-based mobility prediction, and link-based multipath routing. Initially, we establish cluster-based CR-VANETs to analyze and mitigate spectrum scarcity and power utilization problems in VANETs. Mobility prediction evaluates vehicle speed variations and predictions. Finally, employing link stabilitybased multipath routing (LSMR) in conjunction with the fuzzy interference model and ad hoc on-demand multipath distance vector (AOMDV) routing protocol ensures stable and efficient routing. Experimental results showcase the superiority of LMCCR-VANET. It exhibits enhanced energy efficiency, delivery rates, reduced energy consumption, end-to-end latency, and routing overhead when compared to recent works such as SCCR-VANET, CFCRVANET, and MMCR-VANET. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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