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ON WEIGHTED K-OUT-OF-N SYSTEMS WITH STATISTICALLY DEPENDENT COMPONENT LIFETIMES

Published online by Cambridge University Press:  14 June 2016

Xiaohu Li ,
Yinping You  and
Rui Fang
Xiaohu Li
Affiliation:
Department of Mathematical Sciences, Stevens Institute of Technology, Hoboken, NJ 07030, USA E-mail: mathxhli@hotmail.com; xiaohu.li@stevens.edu.
Yinping You
Affiliation:
School of Mathematical Sciences, Huaqiao University, Quanzhou, Fujian 362021, China
Rui Fang
Affiliation:
Department of Mathematics, Shantou University, Shantou, Guangdong 515063, China
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Abstract

For the weighted k-out-of-n system with statistically dependent component lifetimes, we have a discussion on the system performance through investigating the ordering properties of the total system weight with respect to component weight vector. Applications of the present ordering results to signature of coherent systems are presented as well.

Information

Type
Research Article
Information
Probability in the Engineering and Informational Sciences , Volume 30 , Issue 4 , October 2016 , pp. 533 - 546
Copyright
Copyright © Cambridge University Press 2016 

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References

1. Ball, M.O., Hagstrom, J.N., & Provan, J.S. (1995). Threshold reliability of networks with small failure sets. Networks 25: 101115.CrossRefGoogle Scholar
2. Boland, P.J. (2001). Signatures of indirect majority systems. Journal Applied Probability 38: 597603.CrossRefGoogle Scholar
3. Boland, P.J., El-Newehi, E., & Proschan, F. (1994). Application of the hazard rate ordering in reliability and order statistics. Journal Applied Probability 31: 180192.Google Scholar
4. Cai, J. & Wei, W. (2014). Some new notions of dependence with applications in optimal allocation problems. Insurance: Mathematics and Economics 55: 200209.Google Scholar
5. Cai, J. & Wei, W. (2015). Notions of multivariate dependence and their applications in optimal portfolio selections with dependent risks. Journal of Multivariate Analysis 138: 156169.Google Scholar
6. Chen, Y. & Yang, Q. (2005). Reliability of two-stage weighted k-out-of-n systems with components in common. IEEE Transactions on Reliability 54: 431440.Google Scholar
7. Da, G., Zheng, B., & Hu, T. (2012). On computing signatures of coherent systems. Journal of Multivariate Analysis 103: 142150.CrossRefGoogle Scholar
8. Denuit, M., Dhaene, J., Goovaerts, M., & Kaas, R. (2005). Actuarial Theory for Dependent Risks. New York: John Wiley & Sons.Google Scholar
9. Ding, Y., Zuo, M.J., Lisnianski, A., & Li, W. (2010). A framework for reliability approximation of multi-state weighted k-out-of-n systems. IEEE Transactions on Reliability 59: 297308.Google Scholar
10. Eryilmaz, S. (2013). Mean instantaneous performance of a system with weighted components that have arbitrarily distributed lifetimes. Reliability Engineering and System Safety 119: 290293.Google Scholar
11. Eryilmaz, S. (2015). Mean time to failure of weighted k-out-of-n: G systems. Communications in Statistics – Simulation and Computing 44: 27052713.Google Scholar
12. Eryilmaz, S. (2015). Capacity loss and residual capacity in weighted k-out-of-n: G systems. Reliability Engineering and System Safety 136: 140144.Google Scholar
13. Eryilmaz, S. & Bozbulut, A.R. (2014). An algorithmic approach for the dynamic reliability analysis of non-repairable multi-state weighted k-out-of-n system. Reliability Engineering and System Safety 131: 6165.Google Scholar
14. Faghih-Roohi, S., Xie, M., Ng, K.M., & Yam, R.C.M. (2014). Dynamic availability assessment and optimal component design of multi-state weighted k-out-of-n systems. Reliability Engineering and System Safety 123: 5762.Google Scholar
15. Kaas, R., Van Heerwaarden, A.E., & Goovaerts, M.J. (1994). Ordering of Actuarial Risks. Education Series. Amsterdam: Caire Google Scholar
16. Kochar, S., Mukerjee, H., & Samaniego, F.J. (1999). The ‘signature’ of a coherent system and its application to comparison among systems. Naval Research Logistics 46: 507523.3.0.CO;2-D>CrossRefGoogle Scholar
17. Kuo, W. & Zuo, M.J. (2003). Optimal Reliability Modeling: Principles and Applications. New York: John Wiley & Sons.Google Scholar
18. Levitin, G. (2013). Multi-state vector k-out-of-n systems. IEEE Transactions on Reliability 62: 648657.Google Scholar
19. Li, H. & Li, X. (2013). Stochastic Orders in Reliability and Risk. New York: Springer.Google Scholar
20. Li, W. & Zuo, M.J. (2008). Reliability evaluation of multi-state weighted k-out-of-n systems. Reliability Engineering and System Safety 93: 160167.CrossRefGoogle Scholar
21. Li, W. & Zuo, M.J. (2008). Optimal design of multi-state weighted k-out-of-n systems based oncomponent design. Reliability Engineering and System Safety 93: 16731681.CrossRefGoogle Scholar
22. Li, X. & You, Y. (2015). Permutation monotone functions of random vector with applications in financial and actuarial risk management. Advances in Applied Probability 47: 270291.CrossRefGoogle Scholar
23. Marshall, A.W., Olkin, I., & Arnold, B.C. (2011). Inequalities: theory of majorization and its applications, 2nd edition. New York: Springer.Google Scholar
24. Navarro, J. & Eryilmaz, S. (2007). Mean residual lifetimes of consecutive k-out-of-n systems. Journal Applied Probability 44: 8298.Google Scholar
25. Navarro, J. & Rychlik, T. (2007). Reliability and expectation bounds for coherent systems with exchangeable components. Journal of Multivariate Analysis 98: 102113.CrossRefGoogle Scholar
26. Navarro, J., Samaniego, F.J., Balakrishnan, N., & Bhattacharya, D. (2008). On the application and extension of system signatures in engineering reliability. Naval Research Logistics 55: 313327.Google Scholar
27. Navarro, J., Samaniego, F.J. & Balakrishnan, N. (2010). The joint signature of coherent systems with shared components. Journal Applied Probability 47: 235253.Google Scholar
28. Rushdi, A.M. (1990). Threshold systems and their reliability. Microelectron Reliability 30: 299312.CrossRefGoogle Scholar
29. Samaniego, F.J. (1985). On closure of the IFR class under formation of coherent systems. IEEE Transactions on Reliability 34: 6972.Google Scholar
30. Samaniego, F.J. & Shaked, M. (2008). Systems with weighted components. Statistics and Probability Letters 78: 815823.CrossRefGoogle Scholar
31. Shaked, M. & Shanthikumar, J.G. (2007). Stochastic Orders. New York: Springer.Google Scholar
32. Wu, J.S. & Chen, R.J. (1994). An algorithm for computing the reliability of a weighted k-out-of-n system. IEEE Transactions on Reliability 43: 327328.Google Scholar
33. Wu, J.S. & Chen, R.J. (1994). Efficient algorithms for k-out-of-n & consecutive weighted k-out-of-n:F system. IEEE Transactions on Reliability 43: 650655.Google Scholar
34. Xie, M. & Pham, H. (2005). Modeling the reliability of threshold weighted voting systems. Reliability Engineering and System Safety 87: 5363.Google Scholar
35. You, Y. & Li, X. (2014). Optimal capital allocations to interdependent actuarial risks. Insurance: Mathematics and Economics 57: 104113.Google Scholar
36. You, Y. & Li, X. (2015). Functional characterizations of bivariate weak SAI with applications. Insurance: Mathematics and Economics 64: 225231.Google Scholar