NDN4IVC: Um Arcabouço para Simulação e Experimentação de Aplicações em Redes Veiculares de Dados Nomeados
Abstract
This paper presents a customized framework (NDN4IVC) for simulating and testing intelligent transportation systems and applications in vehicular named data networking (V-NDN). The project uses two popular simulators in the literature for VANET simulation, a network simulator based on discrete events (Ns-3), with ndnSIM module installed, and Sumo, a simulator for urban mobility. NDN4IVC allows bidirectional communication between Sumo and Ns-3 and integrates the NDN stack and the NFD (NDN Forwarding Daemon) code. The project also brings together a comprehensive set of codes, models, functionalities, and technologies to improve proposals and protocols in V-NDN.References
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Vodafone Chair (2019). A ns3 module for bidirectional coupling with sumo. https://github.com/vodafone-chair/ns3-sumocoupling. Acesso: 15/05/21.
Wegener, A., Piórkowski, M., Raya, M., Hellbrück, H., Fischer, S., and Hubaux, J.-P. (2008). Traci: An interface for coupling road traffic and network simulators. In 11th Communications and Networking Simulation Symposium, page 155–163.
Grassi, G., Pesavento, D., Pau, G., Vuyyuru, R., Wakikawa, R., and Zhang, L. (2014). Vanet via named data networking. In 2014 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), pages 410–415.
Jain, R. (1991). The art of computer systems analysis - techniques for experimental design, measurement, simulation, and modeling. Wiley professional computing. Wiley.
Khelifi, H., Luo, S., Nour, B., Moungla, H., Faheem, Y., Hussain, R., and Ksentini, A. (2020). Named data networking in vehicular ad hoc networks: State-of-the-art and challenges. IEEE Communications Surveys Tutorials, 22(1):320–351.
Martinez, F. J., Toh, C. K., Cano, J.-C., Calafate, C. T., and Manzoni, P. (2009). A survey and comparative study of simulators for vehicular ad hoc networks (VANETs). Wireless Communications and Mobile Computing, 11(7):813–828.
NDN Project (2016). Namespace-based scope control. https://redmine.named-data.net/projects/nfd/wiki/ScopeControl. Acesso 15/05/21.
NDN Project (2021). Named data networking official repositories. https://github.com/named-data. Acesso: 10/05/21.
Peixoto, M., Maia, A., Mota, E., Rangel, E., Costa, D., Turgut, D., and Villas, L. (2021). A traffic data clustering framework based on fog computing for vanets. Vehicular Communications, 31:100370.
Rondon, L. B., Immich, R., Filho, G. P. R., Venâncio Neto, A., Leone Maciel Peixoto, M., and Villas, L. A. (2020). Towards improved vehicular information-centric networks by efficient caching discovery. Vehicles, 2(3):453–467.
Vodafone Chair (2019). A ns3 module for bidirectional coupling with sumo. https://github.com/vodafone-chair/ns3-sumocoupling. Acesso: 15/05/21.
Wegener, A., Piórkowski, M., Raya, M., Hellbrück, H., Fischer, S., and Hubaux, J.-P. (2008). Traci: An interface for coupling road traffic and network simulators. In 11th Communications and Networking Simulation Symposium, page 155–163.
Published
2021-08-16
How to Cite
ARAUJO, Guilherme B.; PEIXOTO, Maycon L. M.; SAMPAIO, Leobino N..
NDN4IVC: Um Arcabouço para Simulação e Experimentação de Aplicações em Redes Veiculares de Dados Nomeados. In: DEMO SESSION - BRAZILIAN SYMPOSIUM ON COMPUTER NETWORKS AND DISTRIBUTED SYSTEMS (SBRC), 39. , 2021, Uberlândia.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2021
.
p. 41-48.
ISSN 2177-9384.
DOI: https://doi.org/10.5753/sbrc_estendido.2021.17152.
