Enhanced QoS Routing Protocol for an Unmanned Ground Vehicle, Based on the ACO Approach

Enhanced QoS Routing Protocol for an Unmanned Ground Vehicle, Based on the ACO Approach

Improving models for managing the networks of firefighting unmanned ground vehicles in crowded areas, as a recommendation system (RS), represented a difficult challenge. This challenge comes from the peculiarities of these types of networks. These networks are distinguished by the network coverage a...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 23; no. 3; p. 1431
Main Authors: Ali, Ali M, Ngadi, Md Asri, Sham, Rohana, Al Barazanchi, Israa Ibraheem
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 28-01-2023
MDPI
Subjects:
ACO
Adaptation
Efficiency
firefighting UGV
Internet of Things
Mathematical optimization
Optimization
QoS
Quality of service
Quality of service architectures
Routing (telecommunications)
Sensors
Social networks
Traffic accidents
Traffic congestion
Unmanned ground vehicles
V2X
VANET
Vehicles
VANET
RS
QoS
firefighting UGV
ACO
V2X
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Summary:Improving models for managing the networks of firefighting unmanned ground vehicles in crowded areas, as a recommendation system (RS), represented a difficult challenge. This challenge comes from the peculiarities of these types of networks. These networks are distinguished by the network coverage area size, frequent network connection failures, and quick network structure changes. The research aims to improve the communication network of self-driving firefighting unmanned ground vehicles by determining the best routing track to the desired fire area. The suggested new model intends to improve the RS regarding the optimum tracking route for firefighting unmanned ground vehicles by employing the ant colony optimization technique. This optimization method represents one of the swarm theories utilized in vehicles ad-hoc networks and social networks. According to the results, the proposed model can enhance the navigation of self-driving firefighting unmanned ground vehicles towards the fire region, allowing firefighting unmanned ground vehicles to take the shortest routes possible, while avoiding closed roads and traffic accidents. This study aids in the control and management of ad-hoc vehicle networks, vehicles of everything, and the internet of things.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s23031431