An Optimized and Efficient Routing Protocol Application for IoV

An Optimized and Efficient Routing Protocol Application for IoV

IoV is the latest application of VANET and is the alliance of Internet and IoT. With the rapid progress in technology, people are searching for a traffic environment where they would have maximum collaboration with their surroundings which comprise other vehicles. It has become a necessity to find s...

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Veröffentlicht in:Mathematical problems in engineering 2021-05, Vol.2021, p.1-32, Article 9977252
Hauptverfasser: Afzal, Kiran, Tariq, Rehan, Aadil, Farhan, Iqbal, Zeshan, Ali, Nouman, Sajid, Muhammad
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Artificial intelligence
Communication
Cybercrime
Efficiency
Emergency vehicles
Engineering
Engineering, Multidisciplinary
Infrastructure
Internet
Internet of Things
Mathematics
Mathematics, Interdisciplinary Applications
Mobile ad hoc networks
Network security
Nodes
Optimization
Parameters
Performance evaluation
Physical Sciences
Protocol
Route optimization
Routing (telecommunications)
Science & Technology
Technology
Traffic congestion
Unmanned aerial vehicles
Vehicles
Wireless networks
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Zusammenfassung:IoV is the latest application of VANET and is the alliance of Internet and IoT. With the rapid progress in technology, people are searching for a traffic environment where they would have maximum collaboration with their surroundings which comprise other vehicles. It has become a necessity to find such a traffic environment where we have less traffic congestion, minimum chances of a vehicular collision, minimum communication delay, fewer communication errors, and a greater message delivery ratio. For this purpose, a vehicular ad hoc network (VANET) was devised where vehicles were communicating with each other in an infrastructureless environment. In VANET, vehicles communicate in an ad hoc manner and communicate with each other to deliver messages, for infotainment purposes or for warning other vehicles about emergency scenarios. Unmanned aerial vehicle- (UAV-) assisted VANET is one of the emerging fields nowadays. For VANET’s routing efficiency, several routing protocols are being used like optimized link state routing (OLSR) protocol, ad hoc on-demand distance vector (AODV) routing protocol, and destination-sequenced distance vector (DSDV) protocol. To meet the need of the upcoming era of artificial intelligence, researchers are working to improve the route optimization problems in VANETs by employing UAVs. The proposed system is based on a model of VANET involving interaction with aerial nodes (UAVs) for efficient data delivery and better performance. Comparisons of traditional routing protocols with UAV-based protocols have been made in the scenario of vehicle-to-vehicle (V2V) communication. Later on, communication of vehicles via aerial nodes has been studied for the same purpose. The results have been generated through various simulations. After performing extensive simulations by varying different parameters over grid sizes of 300 × 1500 m to 300 × 6000 m, it is evident that although the traditional DSDV routing protocol performs 14% better than drone-assisted destination-sequenced distance vector (DA-DSDV) when we have number of sinks equal to 25, the performance of drone-assisted optimized link state routing (DA-OLSR) protocol is 0.5% better than that of traditional OLSR, whereas drone-assisted ad hoc on-demand distance vector (DA-AODV) performs 22% better than traditional AODV. Moreover, if we increase the number of sinks up to 50, it can be clearly seen that the DA-AODV outperforms the rest of the routing protocols by up to 60% (either tradition
ISSN:1024-123X
1563-5147
DOI:10.1155/2021/9977252