Comunicação Robusta para Disseminação de Eventos Dinâmicos em Redes Táticas Apoiada em Grafos Temporais
Abstract
Tactical Networks act in the diffusion of actions of command and control, frequent events disseminated among the diverse members of the network to carry out coordinated actions. Composed of devices with heterogeneous computational resources where the intermittent connections, scalability and application in environments without infrastructure characterize a dynamic structure susceptible to communication failures over time, preventing the realization of coordination tasks. This paper presents a mechanism to support the dissemination of events in Tactical Networks in order to guarantee a greater robustness in the synchronization of the actions of command and control in urban environments. The mechanism is based on Local Bridges of graphs to identify and select nodes in conditions to act in the dissemination of events according to the local dynamics of the network. Results show the robustness of the proposed mechanism to deal with the dynamicity of the structure and the devices, providing efficiency in the diffusion of actions in urban scenarios.
References
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Gao, W. (2016). Exploiting deployment information for social-aware contact prediction at the tactical edge. In Military Communications Conference (MILCOM), pages 594–599. IEEE.
Gielow, F., Jakllari, G., Nogueira, M., and Santos, A. (2015). Data similarity aware dynamic node clustering in wireless sensor networks. Ad Hoc Networks, 24:29–45.
Gielow, F., Nogueira, M., and Santos, A. (2014). Data similarity aware dynamic nodes clustering for supporting management operations. In Network Operations and Management Symposium (NOMS), pages 1–8. IEEE.
Grönkvist, J., Komulainen, A., Sterner, U., and Uppman, U. (2016). Dynamic scheduling for cooperative broadcasting in tactical ad hoc networks. In Military Communications Conference (MILCOM), pages 1034–1040. IEEE.
Holzhauer, N. D., Milligan, J. R., and Soule, N. B. (2016). A hybrid P2P and pub/sub messaging system for decentralized Information Management. In Military Communications Conference (MILCOM), pages 1016–1021. IEEE.
Hwang, W., Cho, Y.-r., Zhang, A., and Ramanathan, M. (2006). Bridging centrality: identifying bridging nodes in scale-free networks. In The 12th ACM SIGKDD international conference on Knowledge discovery and data mining, pages 20–23.
Keränen, A., Ott, J., and Kärkkäinen, T. (2009). The ONE Simulator for DTN Protocol Evaluation. In SIMUTools ’09: Proceedings of the 2nd International Conference on Simulation Tools and Techniques, New York, NY, USA. ICST.
Kurdziel, M. T. (2014). Cyber threat model for tactical radio networks. In Wireless Sensing, Localization, and Processing IX, volume 9103, page 910305. International Society for Optics and Photonics.
Li, X.-J. and Yang, G.-H. (2017). Graph theory-based pinning synchronization of stochastic complex dynamical networks. IEEE transactions on neural networks and learning systems, 28(2):427–437.
Lima, M. N., dos Santos, A. L., and Pujolle, G. (2009). A survey of survivability in mobile ad hoc networks. IEEE Communications Surveys and Tutorials, 11(1):66–77.
Macker, J. P. (2016). An improved local bridging centrality model for distributed network analytics. In Military Communications Conference (MILCOM), pages 600–605. IEEE.
Martínez, V., Berzal, F., and Cubero, J.-C. (2017). A survey of link prediction in complex networks. ACM Computing Surveys (CSUR), 49(4):69.
Mercer, L., Kuperman, G., Hunter, A., and Proulx, B. (2016). Large scale over-the-air testing of group centric networking. In Military Communications Conference (MILCOM), pages 1273–1278. IEEE.
Moore, S., Amin, R., Ripplinger, D., Mehta, D., and Cheng, B.-N. (2016). Performance evaluation of a disruption tolerant network proxy for tactical edge networks. In Military Communications Conference (MILCOM), pages 964–969. IEEE.
Ogundele, T. J., Chow, C.-Y., and Zhang, J.-D. (2017). Eventrec: Personalized event recommendations for smart event-based social networks. In International Conference on Smart Computing (SMARTCOMP), pages 1–8. IEEE.
Purushotham, S. and Kuo, C.-C. J. (2016). Personalized group recommender systems for location-and event-based social networks. ACM Transactions on Spatial Algorithms and Systems (TSAS), 2(4):16.
Reina, D., Coca, J. M. L., Askalani, M., Toral, S., Barrero, F., Asimakopoulou, E., Sotiriadis, S., and Bessis, N. (2014). A survey on ad hoc networks for disaster scenarios. In International Conference on Intelligent Networking and Collaborative Systems (INCoS), pages 433–438. IEEE.
Tang, Y., Qian, F., Gao, H., and Kurths, J. (2014). Synchronization in complex networks and its application–a survey of recent advances and challenges. Annual Reviews in Control, 38(2):184–198.
Verma, S., Kawamoto, Y., Fadlullah, Z. M., Nishiyama, H., and Kato, N. (2017). A survey on network methodologies for real-time analytics of massive IoT data and open research issues. IEEE Communications Surveys & Tutorials, 19(3):1457–1477.
Zhang, Z.-K., Liu, C., Zhan, X.-X., Lu, X., Zhang, C.-X., and Zhang, Y.-C. (2016). Dynamics of information diffusion and its applications on complex networks. Physics Reports, 651:1–34.
Published
2018-10-25
How to Cite
SCHMITT, Diego Milhomem; CARRERO, Marcos Aurélio; SANTOS, Aldri.
Comunicação Robusta para Disseminação de Eventos Dinâmicos em Redes Táticas Apoiada em Grafos Temporais. In: BRAZILIAN SYMPOSIUM ON CYBERSECURITY (SBSEG), 18. , 2018, Natal.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2018
.
p. 210-223.
DOI: https://doi.org/10.5753/sbseg.2018.4254.
