How to cite this paper
Kakkar, M., Chitkara, A & Bhatti, J. (2015). Reliability analysis of two unit parallel repairable industrial system.Decision Science Letters , 4(4), 525-536.
Refrences
Barron, Y., Frostig, E., & Levikson, B. (2006). Analysis of r-out- of- n systems with several repairmen, exponential life times and phase type repair times: an algorithmic approach. European Journal of Operational Research, 169(1), 202-225.
Bazovsky, I. (2004). Reliability Theory and Practice. Dover Publication Inc., New York.
Birolini, A. (2007). Reliability engineering (Vol. 5). Berlin: Springer.
Bulama, L., Yusuf, I., & Bala, S. I. (2013). Stochastic modeling and analysis of some reliability characteristics of a repairable warm standby system. Applied Mathematical Sciences, 7(118), 5847-5862.
Bhatti, J., Chitkara, A., & Bhardwaj, N. (2011). Profit analysis of two unit cold standby system with two types of failure under inspection policy and discrete distribution. International Journal of Science and Engineering Research, 2(2), 1-7.
Chen, Y. S., Pan, C. C., & Yang, W. N. (2008). Optimum inspection policies of reliability analysis for quantal-response product with Weibull lifetime components. International Journal of Quality & Reliability Management, 25(4), 436-450.
Goyal, A., Taneja, G., & Singh, D. V. (2010). Economic comparative study between two models for sulphated juice pump systems working seasonally and having different configurations. International Journal of Engineering Science and Technology, 2(9), 4501-4510.
Gupta, S., & Gupta, S. K. (2013). Stochastic analysis of a reliability model of one-unit system with post inspection, post repair, preventive maintenance and replacement. International Journal of Mechanical Engineering and Robotics Research, 2(2), 178-188.
Gupta, S., & Gupta, S. K. (2013). Optimization of cost maintenance and replacement for one-unit system reliability model with post repair. International Journal of Mechanical Engineering and Robotics Research, 2(4), 154-169.
Gupta, R., & Taneja, G. (2014). A reliability model on a cement grinding system with failure in its nine components, Arya Bhatta Journal of Mathematics and Informatics, 6(2), 239-246.
Hong, H. P. (1997). Reliability analysis with nondestructive inspection. Structural Safety, 19(4), 383-395.
Kakkar, M., Chitkara, A. K., & Bhatti, J. (2014). Probability analysis of a complex system working in a sugar mill with repair equipment failure and correlated life time. Mathematical Journal of Interdisciplinary Sciences, 1(1), 57-66.
Kakkar, M., Chitkara, A., & Bhatti, J. (2013). Reliability analysis of two dissimilar parallel unit oil delivering system with preventive maintenance and correlated lifetime. International Journal of Scientific and Engineering Research, 4(5), 1059-1063.
Kakkar, M., Chitkara, A. K., & Bhatti, J. (2013). Probability analysis of a cold standby unit system with slow switching and correlated appearance and disappearance of repairman. International Journal of Engineering Research and Technology 2(2).
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, 3(7) 2229-5046.
Krishna, H., & Malik, M. (2009). Reliability estimation in maxwell distribution with type-ii censored data. International Journal of Quality & Reliability Management, 26(2), 184-195.
Li, W., Alfa, A. S., & Zhao, Y. Q. (1998). Stochastic analysis of a repairable system with three units and two repair facilities. Microelectronics Reliability, 38(4), 585-595.
Meeker, W.Q., & Escober L.A. (1998). Statistical Methods for Reliability Data. John Wiley and Sons, Canada.
Narang, R., & Sharma, U. (2012). Profit analysis of a two unit standby oil delivering system with off line repair facility when priority is given to partially failed unit over the completely failed unit for repair and system having a provision of switching over to another system. International Journal of Scientific and Engineering Research, 3(3), 125-129.
Parashar, B., & Taneja, G. (2007). Reliability and profit evaluation of a plc hot standby system based on a master-slave concept and two types of repair facilities. IEEE Transactions on Reliability, 56(3), 534-539.
Pandey, D., Tyagi, S. K., & Jacob, M. (1995). Profit evaluation of a two-unit system with internal and external repairs, inspection and post repair. Microelectronics Reliability, 35(2), 259-264.
Proschan, F. (1965). Mathematical Theory of reliability.
Papageorgiou, E., & Kokolakis, G. (2010). Reliability analysis of a two-unit general parallel system with (n-2) warm standbys. European Journal of Operational Research, 201(3), 821-827.
Elsayed A. Elsayed (2012), Reliability Engineering, second Edition,Wiley Publications.
Rizwan, S. M., Chauhan, H., & Taneja, G. (2005). Stochastic analysis of systems with accident and inspection. Emirates Journal for Engineering Research, 10(2), 81-88.
Sinha, S. S. K., & Kale, B. K. (1980). Life testing and reliability estimation. Wiley Publications.
Sharma, A., Singh, J., & Kumar, K. (2010). Availability evaluation of an agricultural machine (a numerical approach). Mathematical Sciences, 3, 295-310.
Tuteja, R. K., & Malik, S. C. (1992). Reliability and profit analysis of two single-unit models with three modes and different repair policies of repairmen who appear and disappear randomly. Microelectronics Reliability, 32(3), 351-356.
Tuteja, R. K., Rizwan, S. M., & Taneja, G. (1999). A two server system with regular repairman who is not always available. In 3rd annual conference of isita and national symposium on statistics.
Taneja, G., Singh, D. V., & Minocha, A. (2007). Profit evaluation of 2-out-of-3 unit system for an ash handling plant wherein situation of system failure did not arise. Journal of Information and Optimization Sciences, 28(2), 195-204.
Tandon, U., & Taneja, G. (2013). Reliability modeling and profit analysis of an oil delivering system with a possibility of switching over to another system on normal payment. International Journal of Engineering Science & Technology, 5(6).
Wang, H., & Pham, H. (2006). Reliability and optimal maintenance. Springer Science & Business Media.
Yadavalli, V. S. S., Bekker, A., & Pauw, J. (2005). Bayesian study of a two-component system with common-cause shock failures. Asia-pacific Journal of Operational Research, 22(01), 105-119.
Bazovsky, I. (2004). Reliability Theory and Practice. Dover Publication Inc., New York.
Birolini, A. (2007). Reliability engineering (Vol. 5). Berlin: Springer.
Bulama, L., Yusuf, I., & Bala, S. I. (2013). Stochastic modeling and analysis of some reliability characteristics of a repairable warm standby system. Applied Mathematical Sciences, 7(118), 5847-5862.
Bhatti, J., Chitkara, A., & Bhardwaj, N. (2011). Profit analysis of two unit cold standby system with two types of failure under inspection policy and discrete distribution. International Journal of Science and Engineering Research, 2(2), 1-7.
Chen, Y. S., Pan, C. C., & Yang, W. N. (2008). Optimum inspection policies of reliability analysis for quantal-response product with Weibull lifetime components. International Journal of Quality & Reliability Management, 25(4), 436-450.
Goyal, A., Taneja, G., & Singh, D. V. (2010). Economic comparative study between two models for sulphated juice pump systems working seasonally and having different configurations. International Journal of Engineering Science and Technology, 2(9), 4501-4510.
Gupta, S., & Gupta, S. K. (2013). Stochastic analysis of a reliability model of one-unit system with post inspection, post repair, preventive maintenance and replacement. International Journal of Mechanical Engineering and Robotics Research, 2(2), 178-188.
Gupta, S., & Gupta, S. K. (2013). Optimization of cost maintenance and replacement for one-unit system reliability model with post repair. International Journal of Mechanical Engineering and Robotics Research, 2(4), 154-169.
Gupta, R., & Taneja, G. (2014). A reliability model on a cement grinding system with failure in its nine components, Arya Bhatta Journal of Mathematics and Informatics, 6(2), 239-246.
Hong, H. P. (1997). Reliability analysis with nondestructive inspection. Structural Safety, 19(4), 383-395.
Kakkar, M., Chitkara, A. K., & Bhatti, J. (2014). Probability analysis of a complex system working in a sugar mill with repair equipment failure and correlated life time. Mathematical Journal of Interdisciplinary Sciences, 1(1), 57-66.
Kakkar, M., Chitkara, A., & Bhatti, J. (2013). Reliability analysis of two dissimilar parallel unit oil delivering system with preventive maintenance and correlated lifetime. International Journal of Scientific and Engineering Research, 4(5), 1059-1063.
Kakkar, M., Chitkara, A. K., & Bhatti, J. (2013). Probability analysis of a cold standby unit system with slow switching and correlated appearance and disappearance of repairman. International Journal of Engineering Research and Technology 2(2).
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, 3(7) 2229-5046.
Krishna, H., & Malik, M. (2009). Reliability estimation in maxwell distribution with type-ii censored data. International Journal of Quality & Reliability Management, 26(2), 184-195.
Li, W., Alfa, A. S., & Zhao, Y. Q. (1998). Stochastic analysis of a repairable system with three units and two repair facilities. Microelectronics Reliability, 38(4), 585-595.
Meeker, W.Q., & Escober L.A. (1998). Statistical Methods for Reliability Data. John Wiley and Sons, Canada.
Narang, R., & Sharma, U. (2012). Profit analysis of a two unit standby oil delivering system with off line repair facility when priority is given to partially failed unit over the completely failed unit for repair and system having a provision of switching over to another system. International Journal of Scientific and Engineering Research, 3(3), 125-129.
Parashar, B., & Taneja, G. (2007). Reliability and profit evaluation of a plc hot standby system based on a master-slave concept and two types of repair facilities. IEEE Transactions on Reliability, 56(3), 534-539.
Pandey, D., Tyagi, S. K., & Jacob, M. (1995). Profit evaluation of a two-unit system with internal and external repairs, inspection and post repair. Microelectronics Reliability, 35(2), 259-264.
Proschan, F. (1965). Mathematical Theory of reliability.
Papageorgiou, E., & Kokolakis, G. (2010). Reliability analysis of a two-unit general parallel system with (n-2) warm standbys. European Journal of Operational Research, 201(3), 821-827.
Elsayed A. Elsayed (2012), Reliability Engineering, second Edition,Wiley Publications.
Rizwan, S. M., Chauhan, H., & Taneja, G. (2005). Stochastic analysis of systems with accident and inspection. Emirates Journal for Engineering Research, 10(2), 81-88.
Sinha, S. S. K., & Kale, B. K. (1980). Life testing and reliability estimation. Wiley Publications.
Sharma, A., Singh, J., & Kumar, K. (2010). Availability evaluation of an agricultural machine (a numerical approach). Mathematical Sciences, 3, 295-310.
Tuteja, R. K., & Malik, S. C. (1992). Reliability and profit analysis of two single-unit models with three modes and different repair policies of repairmen who appear and disappear randomly. Microelectronics Reliability, 32(3), 351-356.
Tuteja, R. K., Rizwan, S. M., & Taneja, G. (1999). A two server system with regular repairman who is not always available. In 3rd annual conference of isita and national symposium on statistics.
Taneja, G., Singh, D. V., & Minocha, A. (2007). Profit evaluation of 2-out-of-3 unit system for an ash handling plant wherein situation of system failure did not arise. Journal of Information and Optimization Sciences, 28(2), 195-204.
Tandon, U., & Taneja, G. (2013). Reliability modeling and profit analysis of an oil delivering system with a possibility of switching over to another system on normal payment. International Journal of Engineering Science & Technology, 5(6).
Wang, H., & Pham, H. (2006). Reliability and optimal maintenance. Springer Science & Business Media.
Yadavalli, V. S. S., Bekker, A., & Pauw, J. (2005). Bayesian study of a two-component system with common-cause shock failures. Asia-pacific Journal of Operational Research, 22(01), 105-119.