Title :
ATENA: A Broadcast-Storm-Aware Solution for Highway Environments
Author :
Akabane, A.T. ; Madeira, Edmundo R. M. ; Villas, Leandro A.
Author_Institution :
Univ. Estadual de Campinas (UNICAMP), Campinas, Brazil
Abstract :
The fast growth of ad hoc wireless communication, combined with advances of vehicular technology, has allowed the appearing of a new communication paradigm known as VANETs (Vehicular Ad Hoc Networks). This new communication paradigm is enabling to exploit the mobility of vehicles to disseminate information that can be: traffic jam, congested area, and eventual accident. We have focused on a broadcast protocol over VANETs to efficiently disseminate the information among the vehicles within an Area of Interest (AoI). The proposal of our broadcast protocol -ATENA- is to eliminate the broadcast storm problem and maximize data dissemination with short delays and low overhead. ATENA was compared with five well-known protocols from literature: DBRS, DV-CAST, SRD, Flooding, and AID. It shows, through the simulation, that our proposal has performed better than other five protocols, outperforming them in different scenarios in all the evaluations carried out.
Keywords :
data communication; protocols; radio broadcasting; vehicular ad hoc networks; AID; ATENA; Area of Interest; DBRS; DV-CAST; Flooding; SRD; VANET; accident; ad hoc wireless communication; broadcast protocol; broadcast storm problem; broadcast-storm-aware solution; communication paradigm; data dissemination; delays; highway environments; traffic jam; vehicles mobility; vehicular ad hoc networks; Distributed Bragg reflectors; Floods; Protocols; Road transportation; Vehicles; Vehicular ad hoc networks; Broadcasting Protocol; Data Dissemination; Vehicle-to-Vehicle; Vehicular Ad Hoc Networks;
Journal_Title :
Latin America Transactions, IEEE (Revista IEEE America Latina)
DOI :
10.1109/TLA.2014.6827870
