Abstract:
Earthquakes and tsunamis could damage infrastructure-based communication. Such situations preclude IoT-based health monitoring. Thus, resilient health monitoring frameworks are needed to monitor health without relying on communication platforms.
In emergencies or disaster-prone areas, Wireless Body Sensor Network (WBSN)-based health monitoring using Vehicular Ad-hoc Network (VANET) could transmit patients’ health information to the nearest ambulance or hospital.
Emergency treatment of injured patients within a set time can reduce casualties. Time-critical VANET health monitoring applications require a stable and efficient routing algorithm. Over time, researchers proposed many routing solutions to reduce critical application delay.
This project proposed a Weighted Geographical Routing (W-GeoR) for VANET’s health monitoring applications that prioritizes next-hop node selection for faster vital signs dissemination in urban traffic environments after disasters.
Traffic mobility, inter-vehicle distances, speed differences, communication link expiration time, channel quality, and proximity factors were used to select the best next-hop node. W-GeoR is tested in SUMO-0.32 and NS-3.23 post-disaster scenarios. W-GeoR outperforms current protocols in simulations.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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