Time between inspections optimization for technical object with time delay

Jodejko-Pietruczuk, A.; Nowakowski, T.; Werbińska-Wojciechowska, S.

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Tytuł artykułu

Time between inspections optimization for technical object with time delay

Autorzy

Jodejko-Pietruczuk A. , Nowakowski T. , Werbińska-Wojciechowska S.

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Abstrakty

In the presented paper, authors are concerned with a single-element system liable to costly failure. Failure is taken here to mean a breakdown or catastrophic event, after which the system is unusable until repaired or replaced. The mathematical modelling of maintenance decisions for such a system is provided with the use of delay-time and delay-time analysis. The directions for further research work are defined.

Słowa kluczowe

delay-time modelling single-unit system

Wydawca

Polskie Towarzystwo Bezpieczeństwa i Niezawodności

Czasopismo

Journal of Polish Safety and Reliability Association

Rocznik

2013

Tom

Vol. 4, No. 1

Strony

35--42

Opis fizyczny

Bibliogr. 45 poz., rys.

Twórcy

autor

Jodejko-Pietruczuk A.

Wroclaw University of Technology, Wroclaw, Poland

autor

Nowakowski T.

Wroclaw University of Technology, Wroclaw, Poland

autor

Werbińska-Wojciechowska S.

Wroclaw University of Technology, Wroclaw, Poland

Bibliografia

[1] Alzubaidi, H.J. (1993). Maintenance modelling of a major hospital complex. PhD thesis, University of Salford, Salford.
[2] Attia, A.F. (1997). Estimation of the reliability function using the delay-time models. Microelectronics Reliability 37, 2, 323-327.
[3] Baker, R.D. & Christer, A.H. (1994). Review of delay-time OR modelling of engineering aspects of maintenance. European Journal of Operational Research 73, 407-422.
[4] Baker, R.D. & Wang, W. (1992). Estimating the delay-time distribution of faults in repairable machinery from failure data. IMA Journal of Mathematics Applied in Business & Industry 3, 259-281.
[5] Cerone, P. (1991). On a simplified delay time model of reliability of equipment subject to inspection monitoring. Journal of the Operational Research Society 42, 6, 505-511.
[6] Cho, I.D. & Parlar, M. (1991). A survey of maintenance models for multi-unit systems. European Journal of Operational Research 51, 123.
[7] Christer, A.H. (2002). A Review of Delay Time Analysis for Modelling Plant Maintenance. in: Stochastic Models in Reliability and Maintenance, Osaki S. (ed.), Springer.
[8] Christer, A.H. (1999). Developments in delay time analysis for modelling plant maintenance. Journal of the Operational Research Society 50, 1120-1137.
[9] Christer, A.H. (1987). Delay-time model of reliability of equipment subject to inspection monitoring. Journal of the Operational Research Society 38, 4, 329-334.
[10] Christer, A.H. (1982). Modelling inspection policies for building maintenance. Journal of the Operational Research Society 33, 723-732.
[11] Christer, A.H. & Redmond, D.F. (1992). Revising models of maintenance and inspection. International Journal of Production Economics 24, 227-234.
[12] Christer, A.H. & Redmond, D.F. (1990). A recent mathematical development in maintenance theory. IMA Journal of Mathematics Applied in Business and Industry 2, 97-108.
[13] Christer, A.H. & Waller, W.M. (1987). A Descriptive model of capital plant replacement. Journal of the Operational Research Society 38, 6, 473-477.
[14] Christer, A.H. & Waller, W.M. (1984). Reducing production downtime using delay-time analysis. Journal of the Operational Research Society 35, 6, 499-512.
[15] Christer, A.H. & Waller W.M. (1984b). An operational research approach to planned maintenance: modelling P.M. for a vehicle fleet. Journal of the Operational Research Society 35, 11, 967-984.
[16] Christer, A.H. & Wang, W. (1992). A model of condition monitoring of a production plant. International Journal of Production Research 30, 9, 2199-2211.
[17] Christer, A.H., Wang, W., Choi, K. & Van der Duyn Schouten, F.A. (2001). The robustness of the semi-Markov and delay time single component inspection models to the Markov assumption. IMA Journal of Management Mathematics 12, 75-88.
[18] Christer, A.H. & Whitelaw, J. (1983). An operational research approach to breakdown maintenance: problem recognition. Journal of the Operational Research Society 34, 11, 1041-1052.
[19] Dekker, R.& Scarf, P.A. (1998). On the impact of optimisation models in maintenance decision making: the state of the art. Reliability Engineering and System Safety 60, 111-119.
[20] Frostig, E. (2003). Comparison of maintenance policies with monotone failure rate distributions. Applied Stochastic Models in Business and Industry 19, 51-65.
[21] Guo, R., Ascher, H. & Love, E. (2001). Towards practical and synthetical modelling of repairable systems. Economic Quality Control16, 2, 147-182.
[22] Guo, R., Ascher, H. & Love, E. (2000). Generalized models of repairable systems a survey via stochastic processes formalism.ORiON16, 2, 87-128.
[23] Jia, X. & Christer, A.H. (2002). A periodic testing model for a preparedness system with a defective state. IMA Journal of Management Mathematics 13, 39-49.
[24] Jodejko-Pietruczuk, A. & WerbińskaWojciechowska, S. (2012). A delay-time model with imperfect inspections for multi-unit systems. Journal of KONBiN 3, 157-172.
[25] Jodejko-Pietruczuk, A. & WerbińskaWojciechowska, S. (2012). Economical effectiveness of Delay Time approach using in Time-Based maintenance modelling. Proc. of PSAM 11 & ESREL 2012 Conference, 25-29 June 2012, Helsinki, Finland.
[26] Jodejko-Pietruczuk, A. & WerbińskaWojciechowska, S. (2012). Analysis of BlockInspection Policy parameters from economical and availability point of view. Proc. of PSAM 11 & ESREL 2012 Conference, 25-29 June 2012, Helsinki, Finland.
[27] Jodejko-Pietruczuk, A. & WerbińskaWojciechowska, S. (2012). Influence of delay time parameter estimation on Block Inspection Policy economical and reliability results. article prepared for ACME Journal.
[28] Lee, Ch. (1999).Applications of Delay Time Theory to Maintenance Practice of Complex Plant. PhD thesis, University of Salford, Salford.
[29] Mazzuchi, T.A., van Noortwijk, J.M. & Kallen, M.J. (2007). Maintenance optimization, Technical Report, TR-2007-9.
[30] Nowakowski, T. & Werbińska-Wojciechowska, S. (2012). Developments of time dependencies modeling concepts, Advances in safety, reliability and risk management. Proc. of the European Safety and Reliability Conference, ESREL 2011, Troyes, France, 18-22 September 2011/ eds. Bérenguer Ch., Grall A., Guedes Soares C., Leiden: CRC Press/Balkema, 832-838.
[31] Okumura, S. (1997). An Inspection Policy for Deteriorating Processes Using Delay-Time Concept. International Transactions in Operational Research 4, 5-6, 365-375.
[32] Okumura, S., Jardine, A.K.S. & Yamashina, H. (1996). An inspection policy for a deteriorating single-unit system characterized by a delay-time model. International Journal of Production Research 34, 9, 2441-2460.
[33] Ozekici, S. (1996). Reliability and Maintenance of Complex Systems. NATO ASI Series, Series F: Computer and Systems Sciences, Vol. 154, Springer.
[34] Pillay, A., Wang, J., Wall, A.D. & Ruxton, T. (2001). A maintenance study of fishing vessel equipment using delay-time analysis. Journal of Quality in Maintenance Engineering 7, 2, 118-127.
[35] Redmond, D.F. (1997). Delay Time Analysis in Maintenance. PhD thesis, University of Salford, Salford.
[36] Thomas, L.C. (1986). A survey of maintenance and replacement models for maintainability and reliability of multi-item systems. Reliability Engineering 16, 297-309.
[37] Valdez-Flores, C.& Feldman, R. (1989). A survey of preventive maintenance models for stochastically deteriorating single-unit systems. Naval Research Logistics 36, 419-446.
[38] Wang, W. (2012). An overview of the recent advances in delay-time-based maintenance modelling. Reliability Engineering and System Safety106, 165-178.
[39] Wang, W. (2008). Delay time modelling. In: Complex system maintenance handbook. Kobbacy, K. A. H. & Prabhakar Murthy, D. N. (eds.). Springer.
[40] Wang, W. (2003). A delay time based approach for risk analysis of maintenance activities. Journal of the Safety and Reliability Society 23, 1, 103-113.
[41] Wang, H. (2002). A survey of maintenance policies of deteriorating systems. European Journal of Operational Research 139, 469-489.
[42] Wang, W. & Christer, A.H. (1997). A modelling procedure to optimize component safety inspection over a finite time horizon. International Quality and Reliability Engineering 13, 217-224.
[43] Werbińska-Wojciechowska, S. (2012). Problems of logistics systems modelling with the use of DTA approach. Logistics and Transport 2, 63-74.
[44] Yamashina, H. & Otani, S. (2001). Costoptimized maintenance of the elevator – single unit case. Journal of Quality in Maintenance Engineering 7, 1, 49.
[45] Zhao, J., Chan, A.H.C., Roberts, C. & Madelin, K.B. (2007). Reliability evaluation and optimisation of imperfect inspections for a component with multi-defects. Reliability Engineering and Systems Safety 92, 65-73.

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Bibliografia

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