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中文部分:
柯煇耀,可靠度保証-工程與管理技術之應用,臺北市:中華民國品質學會,2008。
楊善國,可靠度工程概論,臺北市:全華圖書股份有限公司,2008。
英文部分:
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Abedzadeh, S., Roozbahani, A., & Heidari, A., 2020. “Risk Assessment of Water Resources Development Plans Using Fuzzy Fault Tree Analysis”, Water Resources Management, 34 (8), 2549-2569.
Akay, H., & Koçyiğit, M. B., 2020. “Flash flood potential prioritization of sub-basins in an ungauged basin in Turkey using traditional multi-criteria decision-making methods”, Soft Computing, 1-13.
Ang, A. H. S., De Leon, D., & Fan, W., 2021. “Optimal reliability-based design of complex structural systems”, Structural Safety, 90, 102048.
Badalpur, M., & Nurbakhsh, E., 2019. “An application of WASPAS method in risk qualitative analysis: a case study of a road construction project in Iran”, International Journal of Construction Management, 1-9.
Bai, B., Li, Z., & Zhang, J. Y., 2019. “Failure Rate Prediction and Reliability Assessment of RV Reducer”, International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering, 364-371.
Bhattacharyya, S. K., & Cheliyan, A. S., 2019. “Optimization of a subsea production system for cost and reliability using its fault tree model”, Reliability Engineering & System Safety, 185, 213-219.
Butnicu, D., & Neacsu, D. O., 2019. “A Case Study for Reliability Evaluation of an External Computer Power Supply”, Electric Power Components and Systems, 47 (4-5), 444-455.
Cables, E., Lamata, M. T., & Verdegay, J. L., 2016. “RIM-reference ideal method in multicriteria decision making”, Information Sciences, 337, 1-10.
Catelani, M., Ciani, L., & Venzi, M., 2018. “Failure modes, mechanisms and effect analysis on temperature redundant sensor stage”, Reliability Engineering & System Safety, 180, 425-433.
Chakraborty, S., Zavadskas, E. K., & Antucheviciene, J., 2015. “Applications of WASPAS method as a multi-criteria decision-making tool”, Economic Computation and Economic Cybernetics Studies and Research, 49 (1), 5-22.
Chin, K. S., Wang, Y. M., Poon, G. K. K., & Yang, J. B., 2009. “Failure mode and effects analysis by data envelopment analysis”, Decision Support Systems, 48 (1), 246-256.
Chiu, M. C., & Hsieh, M. C., 2016. “Latent human error analysis and efficient improvement strategies by fuzzy TOPSIS in aviation maintenance tasks”, Applied ergonomics, 54, 136-147.
Crews, J. H., Mattson, M. G., & Buckner, G. D., 2011. “Multi-objective control optimization for semi-active vehicle suspensions”, Journal of sound and Vibration, 330 (23), 5502-5516.
Cu, X. P., Vintr, Z., Popela, M., & Tran, C. V., 2019. “Using Accelerated Reliability Testing to Predict Reliability of Electronic Components in Combat Vehicles”, Proceedings of the International Conference on Military Technologies, 1-6.
da Costa, M. A. B., Brandão, A. L. T., Santos Jr, J. G., Pinto, J. C., & Nele, M., 2020. “Quantitative FTA using Monte Carlo analyses in a pharmaceutical plant”, European Journal of Pharmaceutical Sciences, 146, 1-13.
Das, S., Dhalmahapatra, K., & Maiti, J., 2020. “Z-number integrated weighted VIKOR technique for hazard prioritization and its application in virtual prototype based EOT crane operations”, Applied Soft Computing, 94, 1-13.
de Almeida, A. T., Alencar, M. H., Garcez, T. V., & Ferreira, R. J. P., 2017. “A systematic literature review of multicriteria and multi-objective models applied in risk management”, IMA Journal of Management Mathematics, 28 (2), 153-184.
Dong, Y., Fu, Z., Stankovski, S., Wang, S., & Li, X., 2020. “Nutritional Quality and Safety Traceability System for China’s Leafy Vegetable Supply Chain Based on Fault Tree Analysis and QR Code”, IEEE Access, 8, 161261-161275.
Ebeling, C. E., 2019. “An Introduction to Reliability and Maintainability Engineering”, In Waveland Press.
Elerath, J. G., & Pecht, M., 2011. “IEEE 1413: A standard for reliability predictions”, IEEE Transactions on Reliability, 61 (1), 125-129.
Ericson, C. A., & Ll, C., 1999. “Fault tree analysis”, Proceedings of the System Safety Conference, Orlando, Florida, 1, 1-9.
Fattahi, R., & Khalilzadeh, M., 2018. “Risk evaluation using a novel hybrid method based on FMEA, extended MULTIMOORA, and AHP methods under fuzzy environment”, Safety Science, 102, 290-300.
Fidan, M. A., Gürgül, U., & Akın, Z. E., 2020. “FMEA-FMECA the Application of Analysis on Electronic Circuit”, Proceedings of the International Conference on Electrical and Electronics Engineering, 17-22.
Ghorabaee, M. K., Zavadskas, E. K., Amiri, M., & Esmaeili, A., 2016. “Multi-criteria evaluation of green suppliers using an extended WASPAS method with interval type-2 fuzzy sets”, Journal of Cleaner Production, 137, 213-229.
Ghoushchi, S. J., Yousefi, S., & Khazaeili, M., 2019. “An extended FMEA approach based on the Z-MOORA and fuzzy BWM for prioritization of failures”, Applied Soft Computing, 81, 1-13.
Gul, M., Yucesan, M., & Celik, E., 2020. “A manufacturing failure mode and effect analysis based on fuzzy and probabilistic risk analysis”, Applied Soft Computing, 96, 1-12.
Gupta, G., & Mishra, R. P., 2017. “A failure mode effect and criticality analysis of conventional milling machine using fuzzy logic: case study of RCM”, Quality and reliability engineering international, 33 (2), 347-356.
Gupta, S., Soni, U., & Kumar, G., 2019. “Green supplier selection using multi-criterion decision making under fuzzy environment: A case study in automotive industry” Computers & Industrial Engineering, 136, 663-680.
He, Y., Yan, X., Chu, D., Lu, X. Y., & Wu, C., 2016. “A probabilistic prediction model for the safety assessment of HDVs under complex driving environments”, IEEE Transactions on Intelligent Transportation Systems, 18 (4), 858-868.
Huang, J., Li, Z. S., & Liu, H. C., 2017. “New approach for failure mode and effect analysis using linguistic distribution assessments and TODIM method, Reliability Engineering & System Safety, 167, 302-309.
Huang, J., You, J. X., Liu, H. C., & Song, M. S., 2020a. “Failure mode and effect analysis improvement: A systematic literature review and future research agenda”, Reliability Engineering & System Safety, 199, 1-12.
Huang, W., Liu, Y., Zhang, Y., Zhang, R., Xu, M., De Dieu, G. J., ... & Shuai, B., 2020b. “Fault Tree and Fuzzy DS Evidential Reasoning combined approach: An application in railway dangerous goods transportation system accident analysis”, Information Sciences, 520, 117-129.
Kesuma, P. A., Rohman, M. A., & Arif Prastyanto, C., 2020. “Analysing the root cause of the damage risk in heavy vehicles to reduce traffic congestion”, International Journal of Construction Management, 1-12.
Kumar, A., Aswin, A., & Gupta, H., 2020. “Evaluating green performance of the airports using hybrid BWM and VIKOR methodology”, Tourism Management, 76, 1-16.
Liu, F., & Liu, P., 2019. “Reliability Prediction Of An Unmanned Ground Vehicular Computer Based Parts Count Method”, Proceedings of the International Conference on Unmanned Systems, 536-541.
Liu, H. C., 2016. “FMEA using uncertainty theories and MCDM methods”, In FMEA using uncertainty theories and MCDM methods, 13-27.
Liu, H. C., Chen, X. Q., Duan, C. Y., & Wang, Y. M., 2019. “Failure mode and effect analysis using multi-criteria decision making methods: A systematic literature review”, Computers & Industrial Engineering, 135, 881-897.
Liu, H. C., Liu, L., & Liu, N., 2013. “Risk evaluation approaches in failure mode and effects analysis: A literature review”, Expert Systems with Applications, 40 (2), 828-838.
Liu, H. C., Liu, L., Bian, Q. H., Lin, Q. L., Dong, N., & Xu, P. C., 2011. “Failure mode and effects analysis using fuzzy evidential reasoning approach and grey theory”, Expert Systems with Applications, 38 (4), 4403-4415.
Liu, H. C., You, J. X., Li, P., & Su, Q., 2016. “Failure mode and effect analysis under uncertainty: An integrated multiple criteria decision making approach”, IEEE Transactions on Reliability, 65 (3), 1380-1392.
Lo, H. W., & Liou, J. J., 2018. “A novel multiple-criteria decision-making-based FMEA model for risk assessment”, Applied Soft Computing, 73, 684-696.
Lo, H. W., Liou, J. J., Huang, C. N., & Chuang, Y. C., 2019. “A novel failure mode and effect analysis model for machine tool risk analysis”, Reliability Engineering & System Safety, 183, 173-183.
Lo, H. W., Shiue, W., Liou, J. J., & Tzeng, G. H., 2020. “A hybrid MCDM-based FMEA model for identification of critical failure modes in manufacturing”, Soft Computing, 1-13.
Mardani, A., Nilashi, M., Zakuan, N., Loganathan, N., Soheilirad, S., Saman, M. Z. M., & Ibrahim, O., 2017. “A systematic review and meta-Analysis of SWARA and WASPAS methods: Theory and applications with recent fuzzy developments”, Applied Soft Computing, 57, 265-292.
Mardani, A., Saraji, M. K., Mishra, A. R., & Rani, P., 2020. “A novel extended approach under hesitant fuzzy sets to design a framework for assessing the key challenges of digital health interventions adoption during the COVID-19 outbreak”, Applied Soft Computing, 96, 1-14.
Marhavilas, P. K., Tegas, M. G., Koulinas, G. K., & Koulouriotis, D. E., 2020. “A Joint Stochastic/Deterministic Process with Multi-Objective Decision Making Risk-Assessment Framework for Sustainable Constructions Engineering Projects—A Case Study”, Sustainability, 12 (10), 1-21.
Memari, A., Dargi, A., Jokar, M. R. A., Ahmad, R., & Rahim, A. R. A., 2019. “Sustainable supplier selection: A multi-criteria intuitionistic fuzzy TOPSIS method”, Journal of Manufacturing Systems, 50, 9-24.
Mohammadnazar, H., Pulkkinen, M., & Ghanbari, H., 2019. “A root cause analysis method for preventing erratic behavior in software development: PEBA”, Reliability Engineering & System Safety, 191, 1-22.
Moon, B., & Yuan, H., 2019. “Research on dynamic characteristics and reliability of a new heavy duty tractor”, Journal of Advanced Mechanical Design Systems, and Manufacturing, 13(1), 1-15.
Moon, I. D., Yoon, H. S., & Oh, C. Y., 2006. “A flexible multi-body dynamic model for analyzing the hysteretic characteristics and the dynamic stress of a taper leaf spring”, Journal of mechanical science and technology, 20 (10), 1638-1645.
O’Halloran, B. M., Hoyle, C., Tumer, I. Y., & Stone, R. B., 2019. “The early design reliability prediction method”, Research in Engineering Design, 30 (4), 489-508.
Pamucar, D., Chatterjee, K., & Zavadskas, E. K., 2019. “Assessment of third-party logistics provider using multi-criteria decision-making approach based on interval rough numbers”, Computers & Industrial Engineering, 127, 383-407.
Pamučar, D., Sremac, S., Stević, Ž., Ćirović, G., & Tomić, D., 2019. “New multi-criteria LNN WASPAS model for evaluating the work of advisors in the transport of hazardous goods”, Neural Computing and Applications, 31 (9), 5045-5068.
Peeters, J. F. W., Basten, R. J., & Tinga, T., 2018. “Improving failure analysis efficiency by combining FTA and FMEA in a recursive manner”, Reliability Engineering & System Safety, 172, 36-44.
Peyghami, S., Wang, Z., & Blaabjerg, F., 2020. “A Guideline for Reliability Prediction in Power Electronic Converters”, IEEE Transactions on Power Electronics, 35, 10958-10968.
Pokorádi, L., & Ványi, G., 2018. “Sensitivity Investigation of Failure Mode and Effect Analysis”, In Vehicle and Automotive Engineering, 497-502.
Priftis, A., Boulougouris, E., Turan, O., & Atzampos, G., 2020. “Multi-objective robust early stage ship design optimisation under uncertainty utilising surrogate models”, Ocean Engineering, 197, 106850.
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Shu, X., Yang, W., Guo, Y., Wei, K., Qin, B., & Zhu, G., 2020. “A reliability study of electric vehicle battery from the perspective of power supply system”, Journal of Power Sources, 451, 1-11.
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Wu, Y., Zhang, B., Wu, C., Zhang, T., & Liu, F., 2019. “Optimal site selection for parabolic trough concentrating solar power plant using extended PROMETHEE method: A case in China”, Renewable Energy, 143, 1910-1927.
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