1. bookVolume 20 (2019): Issue 3 (June 2019)
Journal Details
License
Format
Journal
eISSN
1407-6179
First Published
20 Mar 2000
Publication timeframe
4 times per year
Languages
English
Open Access

Experimental Characterization of Routing Protocols in Urban Vehicular Communication

Published Online: 26 Jun 2019
Volume & Issue: Volume 20 (2019) - Issue 3 (June 2019)
Page range: 229 - 241
Journal Details
License
Format
Journal
eISSN
1407-6179
First Published
20 Mar 2000
Publication timeframe
4 times per year
Languages
English

1. Ahmad, I., Noor, R., Ali, I., Imran, M. and Vasilakos, A. (2017) Characterizing the role of vehicular cloud computing in road traffic management. International Journal of Distributed Sensor Networks, 13(5), 1-5. DOI: 10.1177/155014771770872810.1177/1550147717708728Open DOISearch in Google Scholar

2. Alam, M., Ferreira, J. and Fonseca, J. (2016) Intelligent Transportation Systems: Dependable Vehicular Communication for Improved Road Safety. Switzerland: Springer.Search in Google Scholar

3. Al-Karaki, J. and Kamal, A. (2004) Routing techniques in wireless sensor networks: a survey. IEEE Wireless Communications, 11(6), 6-21. DOI: 10.1109/MWC.2004.136889310.1109/MWC.2004.1368893Open DOISearch in Google Scholar

4. Bitam, S., Mellouk, A. and Zeadally, S. (2015) VANET-cloud: a generic cloud computing model for vehicular Ad Hoc networks. IEEE Wireless Communications, 22(1), 96-102. DOI: 10.1109/MWC.2015.705472410.1109/MWC.2015.7054724Open DOISearch in Google Scholar

5. Boban, M., Kousaridas, A., Manolakis, K., Eichinger, J. and Xu, W. (2018) Connected Roads of the Future: Use Cases, Requirements, and Design Considerations for Vehicle-to-Everything Communications. IEEE Vehicular Technology Magazine, 13(3), 110-123. DOI: 10.1109/MVT.2017.277725910.1109/MVT.2017.2777259Open DOISearch in Google Scholar

6. Daniels, R., Yeh, E. and Heath, R. (2018) Forward Collision Vehicular Radar with IEEE 802.11: Feasibility Demonstration through Measurements. IEEE Transactions on Vehicular Technology, 67(2), 1404-1410. DOI:10.1109/TVT.2017.275858110.1109/TVT.2017.2758581Open DOISearch in Google Scholar

7. Dimitrakopoulos, G. and Demestichas, P. (2010) Intelligent Transportation Systems. IEEE Vehicular Technology Magazine, 5(1), 77-84. DOI: 10.1109/MVT.2009.935537.10.1109/MVT.2009.935537Open DOISearch in Google Scholar

8. Faezipour, M., Nourani, M., Saeed, A. and Addepalli, S. (2012). Progress and challenges in intelligent vehicle area networks. Communications of the ACM, 55(2), 90-100. DOI: 10.1145/2076450.207647010.1145/2076450.2076470Search in Google Scholar

9. Husain, A., Kumar, B. and Doegar, A. (2011) Performance evaluation of routing protocols in vehicular ad hoc networks. International Journal of Internet Protocol Technology, 6(1), 38-41. DOI: 10.1504/IJIPT.2011.04061310.1504/IJIPT.2011.040613Open DOISearch in Google Scholar

10. Kaiwartya, O., Abdullah, A., Cao, Y., Altameem, A., Prasad, M., Lin, C. and Liu, X. (2016) Internet of Vehicles: Motivation, Layered Architecture, Network Model, Challenges, and Future Aspects. IEEE Access, 4, 5356-5363. DOI:10.1109/ACCESS.2016.260321910.1109/ACCESS.2016.2603219Search in Google Scholar

11. Kumari, P., Choi, J., Gonzalez-Prelcic, N. and Heath, R. (2018) IEEE 802.11ad-Based Radar: An Approach to Joint Vehicular Communication-Radar System. IEEE Transactions on Vehicular Technology, 67(4), 3012-3019. DOI: 10.1109/TVT.2017.277476210.1109/TVT.2017.2774762Open DOISearch in Google Scholar

12. Maratha, B., Sheltami, T. and Shakshuki, E. (2017) Performance Evaluation of Topology based Routing Protocols in a VANET Highway Scenario. International Journal of Distributed Systems and Technologies, 8(1), 34-41.10.4018/IJDST.2017010103Search in Google Scholar

13. Mendes, W., Pereira, F. and Cavalieri, D. (2018) A Hybrid Model based on Genetic Algorithm and Space-Filling Curve applied to Optimization of Vehicle Routes. Advances in Electrical and Computer Engineering, 18(3), 45-49. DOI: 10.4316/AECE.2018.0300710.4316/AECE.2018.03007Open DOISearch in Google Scholar

14. Najm, W., Sen, B., Smith, J. and Campbell, B. (2003) Analysis of Light Vehicle Crashes and Pre-Crash Scenarios Based on the 2000 General Estimates System. Washington DC, USA: U.S. Department of Transportation National Highway Traffic Safety Administration (DOT-VNTSC-NHTSA-02-04).Search in Google Scholar

15. Papadimitratos, P., La Fortelle, A., Evenssen, K., Brignolo, R. and Cosenza, S. (2009) Vehicular communication systems: Enabling technologies, applications, and future outlook on intelligent transportation. IEEE Communications Magazine, 47(11), 84-89. DOI: 10.1109/MCOM.2009.530747110.1109/MCOM.2009.5307471Open DOISearch in Google Scholar

16. Punia, D. and Kumar, R. (2018) Effect of Mobility in IoT Environment. In: Proceedings of the International Conference on Trends in Electronics and Informatics (ICOEI 2018). Tirunelveli, May 2018. Tamil Nadu: IEEE, pp.1534-1536.10.1109/ICOEI.2018.8553772Search in Google Scholar

17. Reina, D., Ruiz, P., Ciobanu, R., Toral, S., Dorronsoro, B. and Dobre, C. (2016) A Survey on the Application of Evolutionary Algorithms for Mobile Multihop Ad Hoc Network Optimization Problems. International Journal of Distributed Sensor Networks, 12(2), 5-9. DOI: 10.1155/2016/208249610.1155/2016/2082496Open DOISearch in Google Scholar

18. Sarkar, S. and Datta, R. (2016) An Adaptive Protocol for Stable and Energy-Aware Routing in MANETs. IETE Technical Review, 34(4), 353-360. DOI: 10.1080/02564602.2016.119296210.1080/02564602.2016.1192962Open DOISearch in Google Scholar

19. Uhlemann, E. (2017) Continued Dispute on Preferred Vehicle-to-Vehicle Technologies [Connected Vehicles]. IEEE Vehicular Technology Magazine, 12(3), 17-19. DOI: 10.1109/MVT.2017.271732410.1109/MVT.2017.2717324Open DOISearch in Google Scholar

20. Uhlemann, E. (2018) Time for Autonomous Vehicles to Connect [Connected Vehicles]. IEEE Vehicular Technology Magazine, 13(3), 10-13. DOI: 10.1109/MVT.2018.284834210.1109/MVT.2018.2848342Open DOISearch in Google Scholar

21. Xu, W., Zhou, H., Cheng, N., Lyu, F., Shi, W., Chen, J. and Shen, X. (2018) Internet of vehicles in big data era. IEEE/CAA Journal of Automatica Sinica, 5(1), 19-29. DOI: 10.1109/JAS.2017.751073610.1109/JAS.2017.7510736Open DOISearch in Google Scholar

22. Yasser, A., Zorkany, M., Abdel Kader, N. (2017) VANET routing protocol for V2V implementation: A suitable solution for developing countries. Cogent Engineering, 4(1), 9-24. DOI:10.1080/23311916.2017.136280210.1080/23311916.2017.1362802Open DOISearch in Google Scholar

23. Zhao, J., and Cao, G. (2008) VADD: Vehicle-Assisted Data Delivery in Vehicular Ad Hoc Networks. IEEE Transactions on Vehicular Technology, 57(3), 1914-1920. DOI: 10.1109/TVT.2007.90186910.1109/TVT.2007.901869Open DOISearch in Google Scholar

24. Zorzi, M. and Rao, R. (2003) Geographic random forwarding (geraf) for ad hoc and sensor networks: multihop performance. IEEE Transactions on Mobile Computing, 2(4), 341-346. DOI: 10.1109/TMC.2003.125564810.1109/TMC.2003.1255648Open DOISearch in Google Scholar

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