References
- Almoghathawi, Y., Barker, K., & Albert, L. A. (2019). Resilience-driven restoration model for interdependent infrastructure networks. Reliability Engineering & System Safety, 185, 12–23.
- Armstrong, M. J., & Atkins, D. R. (1996). Joint optimization of maintenance and inventory policies for a simple system. IIE Transactions, 28(5), 415–424.
- Brezavscek, A., & Hudoklin, A. (2003). Joint optimization of block-replacement and periodic-review spare-provisioning policy. IEEE Transactions on Reliability, 52(1), 112–117.
- Carroll, J., McDonald, A., & McMillan, D. (2016). Failure rate, repair time and unscheduled O&M cost analysis of offshore wind turbines. Wind Energy, 19(6), 1107–1119.
- Cha, J. H., Mi, J., & Yun, W. Y. (2008). Modelling a general standby system and evaluation of its performance. Applied Stochastic Models in Business and Industry, 24(2), 159–169.
- Chen, L.-M., & Sapra, A. (2013). Joint inventory and pricing decisions for perishable products with two-period lifetime. Naval Research Logistics, 60(5), 343–366.
- Cho, D. I., & Parlar, M. (1991). A survey of maintenance models for multi-unit systems. European Journal of Operational Research, 51(1), 1–23.
- Cobbaert, K., & Van Oudheusden, D. (1996). Inventory models for fast moving spare parts subject to “sudden death” obsolescence. International Journal of Production Economics, 44(3), 239–248.
- Crabtree, C. J., Zappalá, D., & Hogg, S. I. (2015). Wind energy: UK experiences and offshore operational challenges. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 229(7), 727–746.
- Deb, S., Ghosh, D., & Mohanta, D. K. (2016, March). Reliability analysis of PV cell, wind turbine and diesel generator by using bayesian network. 2016 international conference on electrical, electronics, and optimization techniques (ICEEOT) (pp. 2714–2719). Chennai, India: IEEE.
- Ellis, J., Fisher, D., Longstaff, T., Pesante, L., & Pethia, R. (1997). Report to the president’s commission on critical infrastructure protection. (Tech. Rep.). Carnegie- Mellon Univ Pittsburgh PA Software Engineering Inst.
- Elsayed, E. A. (2012). Reliability engineering (Vol. 88). Hoboken, NJ: Wiley.
- Ferdinand, R., Monti, A., & Labusch, K. (2018). Determining spare part inventory for offshore wind farm substations based on FMEA analysis. 2018 IEEE PES innovative smart grid technologies conference europe (ISGT-europe) (pp. 1–6). Sarajevo, Bosnia and Herzegovina: IEEE.
- Finkelstein, M. (1999). Wearing-out of components in a variable environment. Reliability Engineering & System Safety, 66(3), 235–242.
- Finkelstein, M. (2007). On statistical and information-based virtual age of degrading systems. Reliability Engineering & System Safety, 92(5), 676–681.
- Gasser, P., Lustenberger, P., Cinelli, M., Kim, W., Spada, M., Burgherr, P., … Sun, T.-Y. (2019). A review on resilience assessment of energy systems. Sustainable and Resilient Infrastructure.
- Guo, H., Watson, S., Tavner, P., & Xiang, J. (2009). Reliability analysis for wind turbines with incomplete failure data collected from after the date of initial installation. Reliability Engineering & System Safety, 94(6), 1057–1063.
- Heick, R. (2018). Application close-up: The key role of energy storage backup power for wind turbine pitch control. Retrieved from https://www.maxwell.com/blog/energy-storage-backup-power-wind-turbine-pitch-control
- Hollnagel, E., Woods, D. D., & Leveson, N. (2006). Resilience engineering: Concepts and precepts. Aldershot: Ashgate Publishing, Ltd.
- Hosseini, S., Barker, K., & Ramirez-Marquez, J. E. (2016, January). A review of definitions and measures of system resilience. Reliability Engineering & System Safety, 145, 47–61.
- Huang, R., Meng, L., Xi, L., & Liu, C. R. (2008). Modeling and analyzing a joint optimization policy of block-replacement and spare inventory with random-leadtime. IEEE Transactions on Reliability, 57(1), 113–124.
- Hurricane Sandy Rebuilding Task Force. (2013). Hurricane sandy rebuilding strategy, stronger communities–A resilient region. Washington DC: US Department of Housing and Urban Development.
- Jia, G., Tabandeh, A., & Gardoni, P. (2017). Life-cycle analysis of engineering systems: Modeling deterioration, instantaneous reliability, and resilience. In P. Gardoni (Ed.), Risk and reliability analysis: Theory and applications (pp. 465–494). Springer.
- Karagiannis, G. M., Chondrogiannis, S., Krausmann, E., & Turksezer, Z. I. (2017). Power grid recovery after natural hazard impact. Science for Policy report by the Joint Research Centre (JRC), European Union.
- Kim, J.-S., Shin, K.-C., & Yu, H.-K. (1996). Optimal algorithm to determine the spare inventory level for a repairable-item inventory system. Computers & Operations Research, 23(3), 289–297.
- Kumar, R., & Gardoni, P. (2014). Renewal theory-based life-cycle analysis of deteriorating engineering systems. Structural Safety, 50, 94–102.
- Lochbaum, D. (2015). Nuclear power(less) plants - union of concerned scientists. Retrieved from https://allthingsnuclear.org/dlochbaum/nuclear-powerless-plant
- Louit, D., Pascual, R., Banjevic, D., & Jardine, A. K. (2011). Optimization models for critical spare parts inventories—A reliability approach. Journal of the Operational Research Society, 62(6), 992–1004.
- Morshedlou, N. (2018). Adaptive and restorative capacity planning for complex infrastructure networks: Optimization algorithms and applications (Doctoral dissertation). University of Oklahoma, Norman, OK.
- Mrowca, B. (2011). Emergency diesel generator failure review 1999-2001 (Tech.455739529654500 Rep.), Rockville, MD (US): Information Systems Laboratories. Retrieved from http://www.nrc.gov/nrr/oversight/assess/faqs by id.pdf
- Nelson, W. B. (2009). Accelerated testing: Statistical models, test plans, and data analysis (Vol. 344). Hoboken, NJ: Wiley.
- Nguyen, T. K., Yeung, T. G., & Castanier, B. (2013). Optimal maintenance and replacement decisions under technological change with consideration of spare parts inventories. International Journal of Production Economics, 143(2), 472–477.
- NoordzeeWind. (2010, November). Operation report 2009 (Report No. OWEZ R 000 20101112). Egmond aan Zee, Netherlands: NoordzeeWind. Retrieved from https://www.noordzeewind.nl/nl nl/kennis/bedrijfsvoering.html
- Rausch, M., & Liao, H. (2010). Joint production and spare part inventory control strategy driven by condition based maintenance. IEEE Transactions on Reliability, 59(3), 507–516.
- Ross, S. M. (2014). Introduction to probability models. Boston, MA: Academic press.
- Ruiz, C., Luo, H., Liao, H., & Xie, W. (2020). Component replacement and reordering policies for spare parts experiencing two-phase on-shelf deterioration. IISE Transactions, 52(1), 75–90.
- Sanchez-Silva, M., Klutke, G.-A., & Rosowsky, D. V. (2011). Life-cycle performance of structures subject to multiple deterioration mechanisms. Structural Safety, 33(3), 206–217.
- Sarker, R., & Haque, A. (2000). Optimization of maintenance and spare provisioning policy using simulation. Applied Mathematical Modelling, 24(10), 751–760.
- Schroeder, J. A. (2015). Analysis of loss-of-offsite-power events 1998–2013 (Report). Idaho Falls, ID (US): Idaho National Lab. (INL).
- Sharma, N., Tabandeh, A., & Gardoni, P. (2018). Resilience analysis: A mathematical formulation to model resilience of engineering systems. Sustainable and Resilient Infrastructure, 3(2), 49–67.
- Sung, C.-K., Sheu, S.-H., Hsu, T.-S., & Chen, Y.-C. (2013). Extended optimal replacement policy for a two-unit system with failure rate interaction and external shocks. International Journal of Systems Science, 44(5), 877–888.
- Tian, Z., Jin, T., Wu, B., & Ding, F. (2011). Condition based maintenance optimization for wind power generation systems under continuous monitoring. Renewable Energy, 36(5), 1502–1509.
- Tracht, K., Westerholt, J., & Schuh, P. (2013). Spare parts planning for offshore wind turbines subject to restrictive maintenance conditions. Procedia Cirp, 7, 563–568.
- Van Volkenburg, C., Montgomery, N., Banjevic, D., & Jardine, A. (2014). The effect of deterioration on spare parts holding. 2014 reliability & maintainability symposium (pp. 1–6). Colorado Springs, CO: IEEE.
- Wang, H. (2002). A survey of maintenance policies of deteriorating systems. European Journal of Operational Research, 139(3), 469–489.
- Wang, W., & Syntetos, A. A. (2011). Spare parts demand: Linking forecasting to equipment maintenance. Transportation Research Part E: Logistics and Transportation Review, 47(6), 1194–1209.
- White House. (2013). Presidential policy directive/PPD-21: Critical infrastructure security and resilience. Washington, DC: Office of the Press Secretary. [Administration of Barack Obama]. Washington, DC.
- Yodo, N., & Wang, P. (2016). Engineering resilience quantification and system design implications: A literature survey. Journal of Mechanical Design, 138(11), 111408.
- Yodo, N., & Wang, P. (2018). A control-guided failure restoration framework for the design of resilient engineering systems. Reliability Engineering & System Safety, 178, 179–190.
- Youn, B. D., Hu, C., & Wang, P. (2011). Resilience-driven system design of complex engineered systems. Journal of Mechanical Design, 133(10), 101011.
- Yun, W. Y., & Cha, J. H. (2010). Optimal design of a general warm standby system. Reliability Engineering & System Safety, 95(8), 880–886.
- Zio, E. (2009). Reliability engineering: Old problems and new challenges. Reliability Engineering & System Safety, 94(2), 125–141.