论文信息 - On the lifetime behavior of a discrete time shock model

On the lifetime behavior of a discrete time shock model

In this article, we study a shock model in which the shocks occur according to a binomial process, i.e. the interarrival times between successive shocks follow a geometric distribution with mean 1/p. According to the model, the system fails when the time between two consecutive shocks is less than a prespecified level. This is the discrete time version of the so-called @d-shock model which has been previously studied for the continuous case. We obtain the probability mass function and probability generating function of the system's lifetime. We also present an extension of the results to the case where the shock occurrences are dependent in a Markovian fashion.

Serkan Eryilmaz

[1] Allan Gut. Cumulative shock models , 1990 .

[2] Zehui Li,et al. Life behavior of [delta]-shock model , 2007 .

[3] Serkan Eryilmaz,et al. Generalized δ-shock model via runs , 2012 .

[4] G. J. Wang,et al. A shock model with two-type failures and optimal replacement policy , 2005, Int. J. Syst. Sci..

[5] F. Mallor,et al. Shocks, runs and random sums , 2001, Journal of Applied Probability.

[6] Jian-Ming Bai,et al. Generalized Shock Models Based on a Cluster Point Process , 2006, IEEE Transactions on Reliability.

[7] J. Shanthikumar,et al. A class of correlated cumulative shock models , 1985 .

[8] Peng Zhao,et al. Reliability Analysis on the $\delta$-Shock Model of Complex Systems , 2007, IEEE Transactions on Reliability.

[9] Charalambos A. Charalambides,et al. Enumerative combinatorics , 2018, SIGA.

[10] Serkan Eryilmaz,et al. On the mean and extreme distances between failures in Markovian binary sequences , 2011, J. Comput. Appl. Math..