1 |
N. Yang, K. Chen, and Y. Liu, "Towards Efficient NDN Framework for Connected Vehicle Applications," in IEEE Access, Vol.8, pp.60850-60866, 2020.
DOI
|
2 |
R. Tizvar and M. Abbaspour, "CCVNet: A Modified Content-Centric Approach to Enable Multiple Types of Applications in Vehicular Networks," Wireless Pers Commun, Vol.113, pp.139-166, 2020.
DOI
|
3 |
G. Xylomenos, "Survey of Information-Centric Networking Research," IEEE Communications Survey and Tutorials, Vol.16, No.2, pp.1024-1049, 2014.
DOI
|
4 |
V. Jacobson, D. Smetters, J. Thornton, M. Plass, N. Briggs, and R. Braynard, "Networking Named Content," in Proc, ACM CoNEXT, Dec. 2009.
|
5 |
M. Lee and T. Atkison, "VANET applications: Past, present, and future, Vehicular Communications," Vol.28, p.100310, 2021.
DOI
|
6 |
X. Wang and X. Wang, "Vehicular Content-Centric Networking Framework," IEEE Systems Journal, Vol.13, No.1, pp.519-529, 2019.
DOI
|
7 |
R. Tizvar and M. Abbaspour, "A density-aware probabilistic interest forwarding method for content-centric vehicular networks," Vehicular Communications, Vol.23, 2020.
|
8 |
L. Wang, R. Wakikawa, R. Kuntz, R. Vuyyuru, and L. Zhang, "Data naming in vehicle-to-vehicle communications," in Proc, IEEE INFOCOM NOMEN Workshop, Mar. 2012.
|
9 |
X. Yu, R. Coutinho, A. Boukerche, and A. Loureirol, "A distance-based interest forwarding protocol for vehicular information-centric networks," in Proc. IEEE PIMRC, Oct. 2017.
|
10 |
Z. Su, Y. Hui, and Q. Yang, "The Next Generation Vehicular Networks: A Content-Centric Framework," IEEE Wireless Communications, Vol.24, No.1, pp.60-66, 2017.
DOI
|
11 |
http://www.nsnam.org
|
12 |
H. Maryam, A. Wahid, and M. Shah, "Mitigating broadcast storm in interest/data packet forwarding in vehicular content centric networking," in Proc, IEEE ComTech, Apr. 2017.
|
13 |
S. Bouk, S. Ahmed, D. Kim, K. Park, Y. Eun, and J. Lloret, "LAPEL: Hop Limit Based Adaptive PIT Entry Lifetime for Vehicular Named Data Networks," IEEE Transactions on Vehicular Technology, Vol.67, No.7, pp.5546-5557, 2018.
DOI
|
14 |
D. Kim, Y. Velasco, W. Wang, R. Uma, R. Hussain, and S. Lee, "A New Comprehensive RSU Installation Strategy for Cost-Efficient VANET Deployment," IEEE Transactions on Vehicular Technology, Vol.66, No.5, 2017.
|
15 |
H. S. Jeong, Y. C. Shen, J. H. paul, and J. T. Oh, "A comprehensive survey on vehicular networking for safe and efficient driving in smart transportation: A focus on systems, protocols, and applications," Vehicular Communications, Vol.31, p.100334, 2021.
|
16 |
H. I. Abbasi, R. C. Voicu, J. A. Copeland and Y. Chang, "Towards Fast and Reliable Multihop Routing in VANETs," in IEEE Transactions on Mobile Computing, Vol.19, No.10, pp.2461-2474, 2020.
DOI
|
17 |
P. Mutalik, S. Nagaraj, J. Vedavyas, R. V. Biradar, and V. G. C. Patil, "A comparative study on AODV, DSR and DSDV routing protocols for Intelligent Transportation System (ITS) in metro cities for road traffic safety using VANET route traffic analysis (VRTA)," 2016 IEEE International Conference on Advances in Electronics, Communication and Computer Technology (ICAECCT), pp.383-386, 2016.
|
18 |
C. V. Durga, G. Chakravarthy, and B. Alekya, "Efficient Data Dissemination in VANETs: Urban Scenario," 2018 International Conference on Inventive Research in Computing Applications (ICIRCA), pp.891-896, 2018.
|
19 |
www.car-2-car.org.
|
20 |
U. Lee, J. Park, J. Yeh, G. Pau, and M. Gerla, "CodeTorrent: Content Distribution using Network Coding in VANET," in Proc. ACM MobiShare, Sep. 2006.
|
21 |
P. Li. T. Zhang, C. Huang, X. Chen, and B. Fu, "RSU-Assisted Geocast in Vehicular Ad Hoc Networks," IEEE Wireless Communications, Vol.24. No.1, 2017.
|