How to cite this paper
Kumar, A., Baweja, S & Barak, M. (2015). Stochastic behavior of a cold standby system with maximum repair time.Decision Science Letters , 4(4), 569-578.
Refrences
Barak, A. K., & Barak, M. S. (2013). Reliability modelling of a cloud with arrival time of the server subject to maximum operation and repair times. Indian Journal of Science, 3(6), 6-10.
Barak, A., & Malik, S. C. (2014). Reliability Measure of a Standby System with Arrival Time of the Server Subject to Maximum Operation and Repair Time. IJSSST, 14(5), 55-62.
Cao, J., & Wu, Y. (1989). Reliability analysis of a two-unit cold standby system with a replaceable repair facility. Microelectronics Reliability, 29(2), 145-150.
Chander, S. (2005). Reliability models with priority for operation and repair with arrival time of the server. Pure and Applied Mathematika Sciences, 61(1-2), 9-22.
Goel, L. R., & Sharma, S. C. (1989). Stochastic analysis of a 2-unit standby system with two failure modes and slow switch. Microelectronics Reliability, 29(4), 493-498.
Gopalan, M. N., & Nagarwalla, H. E. (1985). Cost-benefit analysis of a one-server two-unit cold standby system with repair and preventive maintenance. Microelectronics Reliability, 25(2), 267-269.
Gopalan, M. N., & Bhanu, K. S. (1995). Cost analysis of a two unit repairable system subject to on-line preventive maintenance and/or repair. Microelectronics Reliability, 35(2), 251-258.
Jin, X., Li, L., & Ni, J. (2009). Option model for joint production and preventive maintenance system. International Journal of Production Economics, 119(2), 347-353.
Kumar, A., & Malik, S. C. (2012). Reliability modeling of a computer system with priority to s/w replacement over h/w replacement subject to MOT and MRT. International Journal of Pure and Applied Mathematics, 80(5), 693-709.
Kumar, A., & Malik, S. C. (2012). Stochastic modeling of a computer system with priority to PM over S/W replacement subject to maximum operation and repair Times. International Journal of Computer Applications, 43(3), 27-34.
Kumar, A., Malik, S. C., & Barak, M. S. (2012). Reliability modelling of a computer system with independent H/W and S/W failures subject to maximum operation and repair times. International Journal of Mathematical Archive (IJMA) ISSN 2229-5046, 3(7).
Kumar, A., & Malik, S. (2015). Reliability measures of a computer system with priority to PM over the H/W repair activities subject to MOT and MRT. Management Science Letters, 5(1), 29-38.
Malik, S. C., & Nandal, P. (2010). Cost-analysis of stochastic models with priority to repair over preventive maintenance subject to maximum operation time, edited book, learning manual on modeling, optimization and their applications. Optimization and Their Applications.
Kumar, A., & Malik, S. C. (2011). Profit analysis of a computer system with Priority to software replacement over hardware repair subject to maximum operation and repair times. International Journal of Engineering Science and Technology (IJEST), 3(10), 7452-7468.
Malik, S. C. & Gitanjali (2012). Cost-benefit analysis of a parallel system with arrival time of the server and maximum repair time. International Journal of Computer Applications, 46(5),39-44.
Malik, S. C., & Munday, V. J. (2014). Stochastic modelling of a computer system with hardware redundancy. International Journal of Computer Applications, 89(7), 26-30.
Mahmoud, M. A. W., & Moshref, M. E. (2010). On a two-unit cold standby system considering hardware, human error failures and preventive maintenance. Mathematical and Computer Modelling, 51(5), 736-745.
Mokaddis, G. S., El-Sherbeny, M. S., & Al-Esayeh, E. (2008). Human error and partial hardware failure modeling of parallel and standby redundant system. The Journal of Mathematics & Computer Science, 19(2), 141-152.
Mokaddis, G. S., El-Sherbeny, M. S., & Al-Esayeh, E. (2008). A dissimilar two-unit parallel system with common-cause failure and preventive maintenance. The Journal of Mathematics & Computer Science, 19(2), 153-167.
Moghaddass, R., Zuo, M. J., & Qu, J. (2011). Reliability and availability analysis of a repairable-out-of-system with repairmen subject to shut-off rules. Reliability, IEEE Transactions on, 60(3), 658-666.
Osaki, S., & Asakura, T. (1970). A two-unit standby redundant system with repair and preventive maintenance. Journal of Applied Probability, 641-648.
Kapur, P. K., & Kapoor, K. R. (1974). A two-unit warm standby system with repair and preventive maintenance. Indian Journal Pure Applied Mathematics (pp. 13-27).
Singh, S. K., & Agrafiotis, G. K. (1995). Stochastic analysis of a two-unit cold standby system subject to maximum operation and repair time. Microelectronics Reliability, 35(12), 1489-1493.
Wu, Q., & Wu, S. (2011). Reliability analysis of two-unit cold standby repairable systems under Poisson shocks. Applied Mathematics and Computation, 218(1), 171-182.
Chandrasekhar, P., Natarajan, R., & Yadavalli, V. S. S. (2004). A study on a two unit standby system with Erlangian repair time. Asia-Pacific Journal of Operational Research, 21(03), 271-277.
Zhang, Y. L., & Wang, G. J. (2009). A geometric process repair model for a repairable cold standby system with priority in use and repair. Reliability Engineering & System Safety, 94(11), 1782-1787.
Barak, A., & Malik, S. C. (2014). Reliability Measure of a Standby System with Arrival Time of the Server Subject to Maximum Operation and Repair Time. IJSSST, 14(5), 55-62.
Cao, J., & Wu, Y. (1989). Reliability analysis of a two-unit cold standby system with a replaceable repair facility. Microelectronics Reliability, 29(2), 145-150.
Chander, S. (2005). Reliability models with priority for operation and repair with arrival time of the server. Pure and Applied Mathematika Sciences, 61(1-2), 9-22.
Goel, L. R., & Sharma, S. C. (1989). Stochastic analysis of a 2-unit standby system with two failure modes and slow switch. Microelectronics Reliability, 29(4), 493-498.
Gopalan, M. N., & Nagarwalla, H. E. (1985). Cost-benefit analysis of a one-server two-unit cold standby system with repair and preventive maintenance. Microelectronics Reliability, 25(2), 267-269.
Gopalan, M. N., & Bhanu, K. S. (1995). Cost analysis of a two unit repairable system subject to on-line preventive maintenance and/or repair. Microelectronics Reliability, 35(2), 251-258.
Jin, X., Li, L., & Ni, J. (2009). Option model for joint production and preventive maintenance system. International Journal of Production Economics, 119(2), 347-353.
Kumar, A., & Malik, S. C. (2012). Reliability modeling of a computer system with priority to s/w replacement over h/w replacement subject to MOT and MRT. International Journal of Pure and Applied Mathematics, 80(5), 693-709.
Kumar, A., & Malik, S. C. (2012). Stochastic modeling of a computer system with priority to PM over S/W replacement subject to maximum operation and repair Times. International Journal of Computer Applications, 43(3), 27-34.
Kumar, A., Malik, S. C., & Barak, M. S. (2012). Reliability modelling of a computer system with independent H/W and S/W failures subject to maximum operation and repair times. International Journal of Mathematical Archive (IJMA) ISSN 2229-5046, 3(7).
Kumar, A., & Malik, S. (2015). Reliability measures of a computer system with priority to PM over the H/W repair activities subject to MOT and MRT. Management Science Letters, 5(1), 29-38.
Malik, S. C., & Nandal, P. (2010). Cost-analysis of stochastic models with priority to repair over preventive maintenance subject to maximum operation time, edited book, learning manual on modeling, optimization and their applications. Optimization and Their Applications.
Kumar, A., & Malik, S. C. (2011). Profit analysis of a computer system with Priority to software replacement over hardware repair subject to maximum operation and repair times. International Journal of Engineering Science and Technology (IJEST), 3(10), 7452-7468.
Malik, S. C. & Gitanjali (2012). Cost-benefit analysis of a parallel system with arrival time of the server and maximum repair time. International Journal of Computer Applications, 46(5),39-44.
Malik, S. C., & Munday, V. J. (2014). Stochastic modelling of a computer system with hardware redundancy. International Journal of Computer Applications, 89(7), 26-30.
Mahmoud, M. A. W., & Moshref, M. E. (2010). On a two-unit cold standby system considering hardware, human error failures and preventive maintenance. Mathematical and Computer Modelling, 51(5), 736-745.
Mokaddis, G. S., El-Sherbeny, M. S., & Al-Esayeh, E. (2008). Human error and partial hardware failure modeling of parallel and standby redundant system. The Journal of Mathematics & Computer Science, 19(2), 141-152.
Mokaddis, G. S., El-Sherbeny, M. S., & Al-Esayeh, E. (2008). A dissimilar two-unit parallel system with common-cause failure and preventive maintenance. The Journal of Mathematics & Computer Science, 19(2), 153-167.
Moghaddass, R., Zuo, M. J., & Qu, J. (2011). Reliability and availability analysis of a repairable-out-of-system with repairmen subject to shut-off rules. Reliability, IEEE Transactions on, 60(3), 658-666.
Osaki, S., & Asakura, T. (1970). A two-unit standby redundant system with repair and preventive maintenance. Journal of Applied Probability, 641-648.
Kapur, P. K., & Kapoor, K. R. (1974). A two-unit warm standby system with repair and preventive maintenance. Indian Journal Pure Applied Mathematics (pp. 13-27).
Singh, S. K., & Agrafiotis, G. K. (1995). Stochastic analysis of a two-unit cold standby system subject to maximum operation and repair time. Microelectronics Reliability, 35(12), 1489-1493.
Wu, Q., & Wu, S. (2011). Reliability analysis of two-unit cold standby repairable systems under Poisson shocks. Applied Mathematics and Computation, 218(1), 171-182.
Chandrasekhar, P., Natarajan, R., & Yadavalli, V. S. S. (2004). A study on a two unit standby system with Erlangian repair time. Asia-Pacific Journal of Operational Research, 21(03), 271-277.
Zhang, Y. L., & Wang, G. J. (2009). A geometric process repair model for a repairable cold standby system with priority in use and repair. Reliability Engineering & System Safety, 94(11), 1782-1787.