MFog: Uma Arquitetura Resiliente em Névoa para Aplicações do Centro de Operações de Resposta a Desastres
Abstract
In disaster response operations it is necessary to use tactical and operational software. However, operations can take place in adverse locations with scarce Internet access resources. This limitation can cause problems in the services operation, since these applications are in the cloud. In this context, we propose an architecture that employ the concepts of fog computing, called MFog, focusing on the resilience of applications. A case study was carried out in a simulated environment, and the results showed the feasibility of the model to be applied in a disaster response Operations Center.References
Habibi, P., Farhoudi, M., Kazemian, S., Khorsandi, S., and Leon-Garcia, A. (2020). Fog computing: a comprehensive architectural survey. IEEE Access, 8:69105–69133.
Prokhorenko, V. and Babar, M. A. (2020). Architectural resilience in cloud, fog and edge systems: A survey. IEEE Access, 8:28078–28095.
Rosário, D., Schimuneck, M., Camargo, J., Nobre, J., Both, C., Rochol, J., and Gerla, M. (2018). Service migration from cloud to multi-tier fog nodes for multimedia dissemination with qoe support. Sensors, 18(2):329.
Santos, J., Wauters, T., Volckaert, B., and De Turck, F. (2019). Towards network-aware In 2019 IEEE resource provisioning in kubernetes for fog computing applications. Conference on Network Softwarization (NetSoft), pages 351–359. IEEE.
Velasquez, K., Abreu, D. P., Goncalves, D., Bittencourt, L., Curado, M., Monteiro, E., In 2017 IEEE and Madeira, E. (2017). Service orchestration in fog environments. 5th International Conference on Future Internet of Things and Cloud (FiCloud), pages 329–336. IEEE.
Prokhorenko, V. and Babar, M. A. (2020). Architectural resilience in cloud, fog and edge systems: A survey. IEEE Access, 8:28078–28095.
Rosário, D., Schimuneck, M., Camargo, J., Nobre, J., Both, C., Rochol, J., and Gerla, M. (2018). Service migration from cloud to multi-tier fog nodes for multimedia dissemination with qoe support. Sensors, 18(2):329.
Santos, J., Wauters, T., Volckaert, B., and De Turck, F. (2019). Towards network-aware In 2019 IEEE resource provisioning in kubernetes for fog computing applications. Conference on Network Softwarization (NetSoft), pages 351–359. IEEE.
Velasquez, K., Abreu, D. P., Goncalves, D., Bittencourt, L., Curado, M., Monteiro, E., In 2017 IEEE and Madeira, E. (2017). Service orchestration in fog environments. 5th International Conference on Future Internet of Things and Cloud (FiCloud), pages 329–336. IEEE.
Published
2021-11-16
How to Cite
SILVA, Marcos Francisco da; ARAUJO, Aleteia.
MFog: Uma Arquitetura Resiliente em Névoa para Aplicações do Centro de Operações de Resposta a Desastres. In: REGIONAL HIGH PERFORMANCE SCHOOL OF THE MIDWEST (ERAD-CO), 4. , 2021, Evento Online.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2021
.
p. 27-31.
DOI: https://doi.org/10.5753/eradco.2021.18420.
