A Developed Realistic Urban Road Traffic in Erbil City Using Bi-directionally Coupled Simulations

المؤلفون

  • Saad Talib Hasoon College of Information Technology, University of Babylon - Iraq
  • Muhammed A. Mahdi College of Information Technology, University of Babylon - Iraq

DOI:

https://doi.org/10.25212/lfu.qzj.2.2.03

الكلمات المفتاحية:

VANETs, IoVs, IVC, SUMO, VEINS, and Bidirectionally Coupled Simulations

الملخص

Internet of Vehicles (IoV) is increasingly brought to light last years. It has an impact to improve the transportation system in smart cities. It is a big umbrella of VANET. IoV has contributed in changing the transportation system since the emergence of smart
vehicles. Due to Internet service availability data can smoothly be  shared among vehicles. There are three scenarios to utilize the IoV services; these are urban, rural and highway scenarios. One of the main challenges in IoVs is how to simulate Inter Vehicles Communication (IVC) in a realistic simulation. This paper will present a proposed realistic urban traffic simulation in Erbil city using bi-directionally coupled simulations. A real map of the city has been involved to simulate the traffic of vehicles; while the Simulation of Uraban MObility (SUMO) is used to simulate the road traffics, its output would be used as input to the VEhicle In Network Simulation (VEINS) framework to simulate the network under OMNeT++ environment. On the other hand, data is shared  between vehicles and roadsides to test the simulation. The results of the simulation have been analyzed in the last stage.

التنزيلات

بيانات التنزيل غير متوفرة بعد.

المراجع

Botta, A., et al., Integration of Cloud computing and Internet of Things: A survey. Future Generation Computer Systems, 2016. 56: p. 684-700.

Avinash Devare, et al., A Survey on Internet of Things for Smart Vehicles. IJRSET, 2016. 5(2).

Keertikumar, M., M. Shubham, and R.M. Banakar. Evolution of IoT in smart vehicles: An overview. in 2015 International Conference on Green Computing and Internet of Things (ICGCIoT). 2015.

Rawat, D.B. and G. Yan, Infrastructures in vehicular communications: Status, challenges and perspectives. IGI Global, 2010.

Al-Sultan, S., et al., A comprehensive survey on vehicular Ad Hoc network. Journal of Network and Computer Applications, 2014. 37: p. 380-392.

Rahimian, P., et al. Using a virtual environment to study the impact of sending traffic alerts to texting pedestrians. in Virtual Reality (VR), 2016 IEEE. 2016. IEEE.

Sommer, C., R. German, and F. Dressler, Bidirectionally coupled network and road traffic simulation for improved IVC analysis. IEEE Transactions on Mobile Computing, 2011. 10(1): p. 3-15.

Martinez, F.J., et al., A survey and comparative study of simulators for vehicular ad hoc networks (VANETs). Wireless Communications and Mobile Computing, 2011. 11(7): p. 813-828.

Sebastian, N.V. and T. Jeyaprakash, Appraising Vehicular ADHOC Networks Routing Protocols Using NS2. 2014.

Hassan, A., VANET simulation. 2009, Högskolan i Halmstad/Sektionen för Informationsvetenskap, Data-och Elektroteknik (IDE).

Alwakeel, A.M., Implementations Of The DTM, DADCQ And SLAB VANET Broadcast Protocols For The Ns-3 Simulator. 2016, FLORIDA ATLANTIC UNIVERSITY.

Shanshan, W. and Z. Chunxiao. NetLogo Based Model for VANET Behaviors Dynamic Research. in Intelligent System Design and Engineering Applications (ISDEA), 2013 Third International Conference on. 2013. IEEE.

Hasson, S.T. and Z.Y. Hasan, Simulating Road Modeling Approach’s in Vanet Environment Using Net Logo. Research Journal of Applied Sciences, 2016. 11(10): p. 1130-1136.

Su, Y., H. Cai, and J. Shi. An improved realistic mobility model and mechanism for VANET based on SUMO and NS3 collaborative simulations. in Parallel and Distributed Systems (ICPADS), 2014 20th IEEE International Conference on. 2014. IEEE.

Poonia, R.C. and D. Bhargava, A Review of Coupling Simulator for Vehicular Ad-hoc Networks. 2016.

Sun, J., Y. Yang, and K. Li, Integrated coupling of road traffic and network simulation for realistic emulation of connected vehicle applications. Simulation, 2016. 92(5): p. 447-457.

Openstreetmap. [cited 2017 7th Feb. ]; Available from: www.openstreetmap.org.

VEINS. [cited 2017 8th Feb. ]; Available from: http://veins.car2x.org/documentation/.

التنزيلات

منشور

2021-01-24

كيفية الاقتباس

Saad Talib Hasoon, & Muhammed A. Mahdi. (2021). A Developed Realistic Urban Road Traffic in Erbil City Using Bi-directionally Coupled Simulations . QALAAI ZANIST JOURNAL, 2(2), 27–34. https://doi.org/10.25212/lfu.qzj.2.2.03

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