A Reliable LoRa-based Vehicle-to-Vehicle Communication System

Al-Shammaa, Ameer A.; Al-Hadrawi, Doaa H.

doi:0.24138/jcomss-2025-0058

Journal of Communications Software and Systems, Vol. 21 No. 4, 2025.

Original scientific paper

https://doi.org/0.24138/jcomss-2025-0058

A Reliable LoRa-based Vehicle-to-Vehicle Communication System

Ameer A. Al-Shammaa ; University of Kufa, Iraq *
Doaa H. Al-Hadrawi ; University of Kufa, Iraq

* Corresponding author.

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page 414-426

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cite

APA 6th Edition

Al-Shammaa, A.A. & Al-Hadrawi, D.H. (2025). A Reliable LoRa-based Vehicle-to-Vehicle Communication System. Journal of Communications Software and Systems, 21 (4), 414-426. Retrieved from https://hrcak.srce.hr/336754

MLA 8th Edition

Al-Shammaa, Ameer A. and Doaa H. Al-Hadrawi. "A Reliable LoRa-based Vehicle-to-Vehicle Communication System." Journal of Communications Software and Systems, vol. 21, no. 4, 2025, pp. 414-426. https://hrcak.srce.hr/336754. Accessed 26 May 2026.

Chicago 17th Edition

Al-Shammaa, Ameer A. and Doaa H. Al-Hadrawi. "A Reliable LoRa-based Vehicle-to-Vehicle Communication System." Journal of Communications Software and Systems 21, no. 4 (2025): 414-426. https://hrcak.srce.hr/336754

Harvard

Al-Shammaa, A.A., and Al-Hadrawi, D.H. (2025). 'A Reliable LoRa-based Vehicle-to-Vehicle Communication System', Journal of Communications Software and Systems, 21(4), pp. 414-426. Available at: https://hrcak.srce.hr/336754 (Accessed 26 May 2026)

Vancouver

Al-Shammaa AA, Al-Hadrawi DH. A Reliable LoRa-based Vehicle-to-Vehicle Communication System. Journal of Communications Software and Systems [Internet]. 2025 [cited 2026 May 26];21(4):414-426. Available from: https://hrcak.srce.hr/336754

IEEE

A.A. Al-Shammaa and D.H. Al-Hadrawi, "A Reliable LoRa-based Vehicle-to-Vehicle Communication System", Journal of Communications Software and Systems, vol.21, no. 4, pp. 414-426, 2025. [Online]. Available: https://hrcak.srce.hr/336754. [Accessed: 26 May 2026]

Abstract

Communication reliability in vehicular networks depends critically on system architecture and wireless technology. This paper develops a reliable LoRa-based vehicle-to-vehicle (RL-V2V) system employing finished frame passing, an innovative method where transmitters broadcast explicit event-termination packets to eliminate idle channel occupancy after event reporting. Our infrastructure-free design uses direct machine-to-machine communication, avoiding LoRaWAN’s gateway dependency. An experimental investigation using vehicular testbeds quantified LoRa’s maximum reliable range under varying parameters: spreading factor (SF), transmission power (TP), packet delivery ratio (PDR), and received signal strength indication (RSSI). Results demonstrate that configuring TP=20 dBm and SF=12 enables communication up to 2.45 km (in low traffic conditions), with RSSI ≥ −77 dBm, ensuring link reliability. The system achieves 71–100% PDR at ≤ 50 km/h, demonstrating 23% superior reliability to LoRaWAN in mobility scenarios. Finished frame passing further reduces channel contention by 37%, enabling efficient channel reuse by other vehicles. While suited for non-latency-critical events (e.g., hazard warnings), the approach tolerates sub-second delays.

Keywords

LoRa radio; RL-V2V; finished frame passing; V2V communication; Intelligent transport; VANET

Hrčak ID:

336754

URI

https://hrcak.srce.hr/336754

Publication date:

20.10.2025.

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Journal of Communications Software and Systems, Vol. 21 No. 4, 2025.

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