Abstract
The analytical hierarchy method for phased mission system is presented to construct the time super-network model. The means of network structure reconfiguration are analyzed to improve the reliability including survivability and the invulnerability of the time super-network model for phased mission system. The effects of the reliability of the time super-network by applying network structure reconfiguration are compared. Experiment results show that the survivability and the invulnerability of the network increase as the increasing of the connectivity between new functional unit and others.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Xing, L., Dugan, J.B.: Analysis of generalized phased-mission system reliability, performance, and sensitivity. IEEE Trans. Reliab. 51(2), 199–211 (2002)
Esary, J.D., Ziehms, H.: Reliability analysis of phased missions. Int. J. Reliab. Qual. Saf. Eng. 02(4), 213–236 (1975)
Bechta Dugan, J.: Automated analysis of phased-mission reliability. IEEE Trans. Reliab. 40(1), 45–52 (1991)
Hua, Y., Kui, W.: Reliability analysis of phased-mission system using markov approach. J. Weapon. Equip. Eng. 37(6), 92–96 (2016)
Yu, H., Wu, X.: A Petri net software for mission reliability evaluation of PMS. In: Control and Decision Conference, pp. 6040–6044 (2015)
Olmez, A.E.: Mission centric reliability analysis of C4ISR architectures using Petri Nets. In: IEEE International Conference on Systems, Man and Cybernetics, vol. 1, pp. 587–592 (2003)
Alsafi, Y., Vyatkin, V.: Ontology-based reconfiguration agent for intelligent mechatronic systems in flexible manufacturing. Robot. Comput. Integr. Manuf. 26(4), 381–391 (2010)
Lee, C., Liu, C., Mehrotra, S., Bie, Z.: Robust distribution network reconfiguration. IEEE Trans. Smart. Grid. 6(2), 836–842 (2015)
Sedighizadeh, M., Esmaili, M., Esmaeili, M.: Application of the hybrid big bang-big crunch algorithm to optimal reconfiguration and distributed generation power allocation in distribution systems. Energy 76, 920–930 (2014)
Amanulla, B., Chakrabarti, S., Singh, S.N.: Reconfiguration of power distribution systems considering reliability and power loss. IEEE Trans. Power. Deliv. 27(2), 918–926 (2012)
Kavousi-Fard, A., Niknam, T.: Multi-objective stochastic distribution feeder reconfiguration from the reliability point of view. Energy 64(1), 342–354 (2014)
Szczodrak, M., Gnawali, O., Carloni, L.P.: Dynamic reconfiguration of wireless sensor networks to support heterogeneous applications. In: IEEE International Conference on Distributed Computing in Sensor Systems, vol. 19, pp. 52–61 (2013)
Ma, R., Zhu, J., Yang, M.: Reliability analysis of military communication network based on improved clustering survivability. Ordnance Ind. Autom. 31(6), 54–57 (2012)
Ma, R., Zhu, J., Yang, M.: Analysis on reliability and nodal importance of military communication network based on invulnerability. Ordnance Ind. Autom. 31(10), 44–59 (2012)
Acknowledgements
This work has been supported by the National Natural Science Foundation of China (61,503,011).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Wu, Y., Yao, J. & Liu, B. A reliability analysis method of network structure reconfiguration for phased mission system. Cluster Comput 22 (Suppl 4), 9415–9423 (2019). https://doi.org/10.1007/s10586-018-2222-z
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10586-018-2222-z