Reliable broadcasting for safety services in dense infrastructureless peer-aware communications

Reliable broadcasting for safety services in dense infrastructureless peer-aware communications

•We propose an RRB scheme to provide reliable broadcasting for safety services in a PACNET.•The proposed broadcast transmissions are analyzed using a discrete-time Markov chain model.•A simulation is performed using OPNET modeler to prove the performance of the proposed scheme. The IEEE 802.15.8 pro...

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Bibliographic Details
Published in:Reliability engineering & system safety Vol. 193; p. 106655
Main Authors: Dao, Nhu-Ngoc, Vu, Duc-Nghia, Masood, Arooj, Na, Woongsoo, Cho, Sungrae
Format: Journal Article
Language:English
Published: Barking Elsevier Ltd 01-01-2020
Elsevier BV
Subjects:
Algorithms
Assurance services
Broadcasting
Computer simulation
Emergency exits
Energy efficiency
Frames
IEEE 802.15.8
Infrastructureless peer-aware communication
Reliability engineering
Reliable broadcast
Safety
Safety service
Simulation analysis
Infrastructureless peer-aware communication
IEEE 802.15.8
Reliable broadcast
Safety service
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Description
Summary:•We propose an RRB scheme to provide reliable broadcasting for safety services in a PACNET.•The proposed broadcast transmissions are analyzed using a discrete-time Markov chain model.•A simulation is performed using OPNET modeler to prove the performance of the proposed scheme. The IEEE 802.15.8 project has introduced peer-aware communication (PAC) as a promising technology enabling high-quality proximity services in dense infrastrutureless ad hoc environments. PAC applications cover a variety of high-assurance services, especially those related to safety such as hazard alerts, emergency exit guidance, and relative position in cases where networking facilities have been destroyed or unavailable. To support these services effectively, PAC must overcome the massive device density to provide a reliable broadcast protocol for rapidly disseminating urgent information across the entire network. As such, we propose a reliable rumor broadcast (RRB) scheme for safety services in a dense infrastructureless PAC network. The proposed RRB scheme takes advantage of neighboring relations among PAC devices (PDs) to broadcast rumor abstract information instead of transmitting heavy broadcast frames. The broadcast frames are only forwarded based on requests from neighboring PDs. In the RRB scheme, rumor frames aim to reduce the broadcasting overhead, while the use of neighboring relations ensures reliable communications across the entire network. Simulation analysis demonstrates that the proposed RRB scheme achieves outstanding performance compared with that of existing algorithms in terms of overhead reduction and energy efficiency while maintaining a better transmission reliability improvement.
ISSN:0951-8320
1879-0836
DOI:10.1016/j.ress.2019.106655