教學部

期刊論文 (Journal Papers)

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• To-Cheng Wang*, (2025). Improved sampling scheme with adaptive backtracking and flexible resampling mechanisms for increased lot-disposition efficiency. Journal of Quality Technology, 57(4), 350-365. (SCIE, IF = 2.2, 29/167 = 17.36%, Statistics & Probability)
• To-Cheng Wang* (2025). Development of a cost-effective inspection scheme with adaptive lot-disposition mechanisms and a third-generation capability index. International Journal of Production Economics, 109714. (SCIE, IF = 10.0, 5/106 = 4.72%, Operations Research & Management Science)
• To-Cheng Wang, Wu, C. W., & Shu, M. H. (2025). Developing a failure-censored two-plan sampling system for product reliability validation under the Weibull distribution. Advanced Engineering Informatics, 67, 103584. (SCIE, IF = 9.9, 4/175 = 2.29%, Engineering, Multidisciplinary)
• Shu, M. H., Sun, I. S., Yang, C. M., & To-Cheng Wang* (2025). Accelerated Life Testing and Reliability Estimation for Internet of Things-Based Smart Water Networks. Reliability Engineering & System Safety, 111705. (SCIE, IF = 11.0, 2/106 = 1.89%, Operations Research & Management Science)
• Lee, A. H., To-Cheng Wang, & Wu, C. W. (2025). Development of an adaptive inspection scheme for lot disposition in high-yield quality verification. Computers & Industrial Engineering, 111621. (SCIE, IF: 6.7, 21/170 = 12.35%, Computer Science, Interdisciplinary Applications)
• Wu, C. W., & To-Cheng Wang* (2025). Constructing generalized quick-switch sampling systems for sentencing product lots with larger-the-better or smaller-the-better type quality characteristics. Journal of the Operational Research Society, https://doi.org/10.1080/01605682.2025.2547838. (SSCI/SCIE, IF = 2.7, 39/106 = 36.79%, Operations Research & Management Science)
• To-Cheng Wang*, (2025). Construction of an integrated sampling plan with adaptable backtracking and resampling mechanisms based on a process capability index. Quality and Reliability Engineering International. DOI: 10.1002/qre.3805. (SCIE, IF = 2.3, 48/90 = 53.33%, Engineering, Multidisciplinary)
• To-Cheng Wang*, (2025). Constructing a cloud-computing tool of single sampling plan based on process capability indices for product acceptance determination. The International Journal of Advanced Manufacturing Technology, 138(3), 1323-1334. DOI: 10.1007/s00170-025-15582-z. (SCIE, IF: 2.9, 36/84= 42.86%, Automation & Control Systems).
• To-Cheng Wang*, (2025). Designing variable flexible sampling systems for verifying harmful microorganisms in food. Food Control, 168, 110839. DOI: 10.1016/j.foodcont.2024.110839. (SCIE, IF = 5.6, 24/173 = 13.87%, Food Science & Technology)
• To-Cheng Wang*, Chien-Wei Wu, and Hung-Yi Wang, (2025). Developing generalized quick-switch sampling systems for high-yield product verification. Computers & Industrial Engineering, 111202. DOI: 10.1016/j.cie.2025.111202. (SCIE, IF: 6.7, 21/170 = 12.35%, Computer Science, Interdisciplinary Applications)
• Chien-Wei Wu, To-Cheng Wang*, and Rou-Hui Chen. (2025). Development of acceptance sampling plans under time-truncated life test for verifying product reliability using Weibull-percentile lifetimes. Reliability Engineering & System Safety, 261, 111062. DOI: 10.1016/j.ress.2025.111062. (SCIE, IF = 9.4, 4/106 = 3.77%, Operations Research & Management Science)
• To-Cheng Wang, and Chien-Wei Wu (2025). Adaptive sampling system with quick-switching mechanism indexed by lifetime performance for product reliability verification. Annals of Operations Research, DOI: 10.1007/s10479-025-06555-2. (SCIE, IF = 4.4, 23/106 = 21.70%, Operations Research & Management Science)
• Chien-Wei Wu and To-Cheng Wang*, (2025). Development of a cost-effective adaptive sampling system considering process yield and quality loss. Operational Research, 25(2), DOI: 10.1007/s12351-025-00945-x. (SCIE, IF = 2.3, 42/106 = 39.62%, Operations Research & Management Science)
• To-Cheng Wang, and Chien-Wei Wu (2024). Optimal design of an integrated inspection scheme with two adjustable sampling mechanisms for lot disposition. Advanced Engineering Informatics, 62, 102845. DOI: 10.1016/j.aei.2024.102845. (SCIE, IF = 8.0, 4/181 = 2.21%, Engineering, Multidisciplinary)
• To-Cheng Wang and Chien-Wei Wu, (2024). Development of a generalised dual sampling system with a flexible decision-rule-transformation mechanism. Advanced Engineering Informatics, 62, 102588. DOI: 10.1016/j.aei.2024.102588. (SCIE, IF = 8.0, 4/181 = 2.21%, Engineering, Multidisciplinary)
• Chien-Wei Wu, Ming-Hung Shu, To-Cheng Wang*, and Yen-Lun Chen (2024). Integrating capability index and generalized rule-switching mechanism for enhanced quick-switch sampling systems. International Journal of Production Economics, 276, 109366. DOI: 10.1016/j.ijpe.2024.109366. (SCIE, IF = 9.8, 6/69 = 8.70%, Engineering, Industrial)
• To-Cheng Wang* and Ming-Hung Shu, (2024). A modified reliability acceptance sampling plan with warranty return rate consideration under Weibull‐distributed accelerated lifetime data. Quality and Reliability Engineering International, 40, 1780–1794. DOI: 10.1002/qre.3491. (SCIE, IF = 2.3, 48/90 = 53.33%, Engineering, Multidisciplinary)
• To-Cheng Wang and Yu-Ju Hung, (2024). Gamification of learning aviation knowledge for improving the efficiency of flight training. The International Journal of Aerospace Psychology, DOI: 24721840.2024.2358763. (SSCI, IF = 1.3, 72/83 = 86.10%, Psychology, Applied)
• Amy H. I. Lee, Chien-Wei Wu, To-Cheng Wang*, and Ming-Han Kuo, (2024). Construction of acceptance sampling schemes for exponential lifetime products with progressive type II right censoring. Reliability Engineering & System Safety, 243, 109843. DOI: 10.1016/j.ress.2023.109843. (SCIE, IF = 8.1, 8/86 = 18.70%, Operations Research & Management Science)
• Chien-Wei Wu, Ming-Hung Shu, and To-Cheng Wang*, (2024). Optimal design of variables switch-based sampling scheme for verifying Weibull distributed product lifetimes. Journal of Applied Statistics, DOI: 10.1080/02664763.2024.2360589. (SCIE, IF = 1.5, 58/125 = 46.00%, Statistics & Probability)
• To-Cheng Wang*, (2023). Developing a Flexible and Efficient Dual Sampling System for Food Quality and Safety Validation. Food Control, 145, 109483. DOI: 10.1016/j.foodcont.2022.109483. (SCIE, IF = 6.0, 24/142 = 16.90%, Food Science & Technology)
• To-Cheng Wang* and Ming-Hung Shu, (2023). Development of an Adaptive Sampling System Based on a Process Capability Index with Flexible Switching Mechanism. International Journal of Production Research, 61, 7233–7247. DOI: 10.1080/00207543.2022.2147236. (SCIE, IF = 9.2, 5/86 = 5.81%, Operations Research & Management Science)
• Chien-Wei Wu, Ming-Hung Shu, and To-Cheng Wang*, (2023). An adaptive lot-traceability sampling plan for Weibull distributed lifetime with warranty return rate consideration and a smart information system. Annals of Operations Research, DOI:10.1007/s10479-023-05438-8 (SCIE, IF = 4.8, 21/86 = 24.42%, Operations Research & Management Science)
• Chien-Wei Wu, Ming-Hung Shu, and To-Cheng Wang*, (2023). Designing a variables two-plan sampling system with adjustable acceptance criteria for lot disposition. Quality Engineering, DOI: 10.1080/08982112.2023.2251571. (SCIE, IF: 2.0, 34/125 = 27.20%, Statistics & Probability)
• Chien-Wei Wu, Ming-Hung Shu, Bi-Min Hsu, and To-Cheng Wang*, (2023). Designing a variables two-plan sampling system with adjustable acceptance criteria for lot disposition. European Journal of Industrial Engineering, DOI: 10.1504/EJIE.2025.10059660. (SCIE, IF: 1.0, 47/50 = 93.00%, Engineering, Industrial)
• Ming-Hung Shu, To-Cheng Wang*, and Bi-Min Hsu, (2023). International article Integrated green-and-quality inspection schemes for green product quality with six-sigma yield assurance and risk management. Quality and Reliability Engineering International. DOI: 10.1002/qre.3381. (SCIE, IF = 2.3, 48/90 = 53.33%, Engineering, Multidisciplinary)
• Shih-Wen Liu, Zih-Huei Wang, and To-Cheng Wang*, (2023). Developing a Cost-Efficient Dual Sampling System for Lot Disposition by Considering Process Yield and Quality Loss. Quality Engineering, 35(2), 267–278. DOI: 10.1080/08982112.2022.2124381. (SCIE, IF: 2.0, 34/125 = 27.20%, Statistics & Probability)
• To-Cheng Wang*, (2022). Developing an Adaptive Sampling System Indexed by Taguchi Capability with Acceptance-Criterion-Switching Mechanism. The International Journal of Advanced Manufacturing Technology, 122, 2329–2342. DOI: 10.1007/s00170-022-09996-2. (SCIE, IF: 3.4, 29/65 = 44.62%, Automation & Control Systems).
• To-Cheng Wang*, (2022). Generalized variable quick-switch sampling as a novel method for improving sampling efficiency of food products. Food Control, 135, 108841. DOI: 10.1016/j.foodcont.2022.108841. (SCIE, IF = 6.0, 24/142 = 16.90%, Food Science & Technology)
• To-Cheng Wang, and Ming-Hung Shu, (2022). Optimum Design of Generalized Adaptive Sampling Plan for Solid Supplier-Buyer Purchasing Partnership with Yield-Driven Validation. Expert Systems with Applications, 203(1), 117388. DOI: 10.1016/j.eswa.2022.117388. (SCIE, IF: 8.5, 23/275 = 8.36%, Engineering, Electrical & Electronic)
• To-Cheng Wang, Bi-Min Hsu, and Ming-Hung Shu, (2022). An Integrated Quick-Switch Sampling System Based on a Process Capability Index for Constructing a Solid Supplier-Buyer Relationship. International Journal of Production Research. 60(21), 6413–6429. DOI: 10.1080/00207543.2021.1991598. (SCIE, IF = 9.2, 5/86 = 5.81%, Operations Research & Management Science)
• To-Cheng Wang, Chien-Wei Wu, Bi-Min Hsu, and Ming-Hung Shu, (2022). An Integrated Failure-Censored Sampling Scheme for Lifetime-Performance Verification and Validation under a Weibull Distribution. Quality Engineering, 34(1), 82–95. DOI: 10.1080/08982112.2021.2003815. (SCIE, IF = 2.0, 34/125 = 27.20%, Statistics & Probability)
• To-Cheng Wang, Jan-Yee Kung, Bi-Min Hsu, and Ming-Hung Shu, (2022). Modified Quick-Switch-Based Sampling Inspection System with Six-Sigma Yield Considerations for Economically Filtering Unreliable Suppliers. International Journal of Advanced Manufacturing Technology, 119, 6693–6705. DOI: 10.1007/s00170-021-08210-z. (SCIE, IF = 3.4, 29/65 = 44.62%, Automation & Control Systems)
• To-Cheng Wang, Chien-Wei Wu and Ming-Hung Shu, (2022). A variables-type multiple-dependent-state sampling plan based on the lifetime performance index under a Weibull distribution. Annals of Operations Research, 311, 381–399. DOI: 10.1007/s10479-020-03655-z. (SCIE, IF = 4.8, 21/86 = 24.42%, Operations Research & Management Science)
• To-Cheng Wang, Bi-Min Hsu, and Ming-Hung Shu, (2022). Quick-Switch Inspection Scheme Based on the Overall Process Capability Index for Modern Industrial Web-based Processing Environment. Applied Stochastic Models in Business and Industry, 38(5), 847–861. DOI: 10.1002/asmb.2667. (SCIE, IF: 1.4, 66/125 = 52.80%, Statistics & Probability)
• Ming-Hung Shu, To-Cheng Wang*, and Bi-Min Hsu, (2022). Generalized Quick-Switch Sampling Systems Indexed by Taguchi Capability with Record Traceability. Computers and Industrial Engineering, 172, 108577. DOI: 10.1016/j.cie.2022.108577. (SCIE, IF: 7.9, 17/110 = 15.45%, Computer Science, Interdisciplinary Applications)
• Chih-Wei Hsu, Jui-Han Lu, To-Cheng Wang, Jui-Chan Huang, and Ming-Hung Shu, (2022). Industrial Internet of Things on Integrated Preventive Maintenance and Enterprise-Resource-Planning Systems: A Case Study of Fastener Forming Manufacturing Processes. Proceedings of the Institution of Mechanical Engineers Part B-Journal of Engineering Manufacture, DOI: 10.1177/09544054221116703. (SCIE, IF: 2.759, 64/137 = 46.72%)
• Wen-Kai K Hsu, Ming-Hung Shu, Yu-Che Liu, and To-Cheng Wang*, (2022). Risk Management of Safety for the Flight Training in Air Forces. Aerospace, 9(10), 558. DOI: 10.3390/aerospace9100558. (SCIE, IF: 2.6, 8/34 = 23.53%, Engineering, Aerospace)
• To-Cheng Wang, Ming-Hung Shu, Bi-Min Hsu, and Chih-Wei Hsu, (2022). Adjustable Variables Multiple-Dependent-State Sampling Plans Based on a Process Capability Index. Journal of the Operational Research Society, 73(12), 2626–2639. DOI: 10.1080/01605682.2021.2007805. (SCIE/SSCI, IF = 3.6, 30/86 = 34.88%, Operations Research & Management Science)
• Ming-Hung Shu, Chien-Wei Wu, Bi-Min Hsu, and To-Cheng Wang*, (2022). Standardized Lifetime-Capability and Warranty Return Rate-based Suppliers Qualification and Selection with Accelerated Weibull-Life Type II Testing Data. Communications in Statistics – Theory and Methods, 51(23), 8186–8204. DOI: 10.1080/03610926.2021.1890124. (SCIE, IF = 0.8, 107/125 = 85.60%, Statistics & Probability)
• To-Cheng Wang, Ming-Hung Shu, and I-Sheng Sun, (2022). Development of Quick Switch Sampling System Based on Overall Production Process Yield. Journal of Quality, 29(5), 399–411. DOI: 10.6220/joq.202210_29(5).0003. (EI)
• To-Cheng Wang, Ming-Hung Shu, Bi-Min Hsu, Yi-Cheng Huang, Pei-Chun Fang, and I-Sheng Sun, (2022). R-Shiny Interactive App for Inferencing Accelerated Life Testing of Electronic Water Meters. Journal of Quality. 29(6), 502–518. DOI: 10.6220/joq.202212_29(6).0004. (EI)
• To-Cheng Wang, Chien-Wei Wu, Bi-Min Hsu and Ming-Hung Shu, (2021). Process-capability-qualified adjustable multiple-dependent state sampling plan for a long-term supplier–buyer relationship. Quality and Reliability Engineering International, 37(2), 583–597. DOI: 10.1002/qre.2750. (SCIE, IF = 3.007, 35/92 = 38.04%, Engineering, Multidisciplinary)
• Ming-Hung Shu, To-Cheng Wang*, and Bi-Min Hsu, (2021). An Integrated Supplier-Buyer Lots Sampling Plan with Quality Traceability Based on Process Loss Restricted Consideration. IEEE Access, 9, 102687–102699. DOI: 10.1109/ACCESS.2021.3095932. (SCIE, IF = 3.476, 105/276 = 38.04%, Engineering, Electrical & Electronic)
• Ming-Hung Shu, Chien-Wei Wu, Bi-Min Hsu, and To-Cheng Wang*, (2021). Lifetime Performance-qualified Sampling System under a Weibull Distribution with Failure-censoring. Quality Engineering, 33(3), 404–416. DOI: 10.1080/08982112.2021.1874014. (SCIE, IF = 2.286, 36/125 = 28.80%, Statistics & Probability)
• Bi-Min Hsu, To-Cheng Wang and Ming-Hung Shu, (2020). Lot-dependent sampling plans for qualifying long-term production capability with a one-sided specification. Computers and Industrial Engineering, 146, 106583. DOI: 10.1016/j.cie.2020.106583. (SCIE, IF: 5.431, 21/111 = 18.92%, Computer Science, Interdisciplinary Applications)
• Bi-Min Hsu, Ming-Hung Shu and To-Cheng Wang*, (2020). Variables adjustable multiple dependent state sampling plans with a loss-based capability index. International Journal of Advanced Manufacturing Technology, 107, 2163–2175. DOI: 10.1007/s00170-020-05137-9. (SCIE, IF = 3.226, 30/63 = 47.62%, Automation & Control Systems)

研討會論文 (Conference Papers)

• To-Cheng Wang*, 2025, 8. "Development of an inspection scheme for verifying product reliability in the modern manufacturing industry" 2025 The 10th International Conference on Precision Machinery and Manufacturing Technology (ICPMMT 2025), Melbourne, Australia.
• To-Cheng Wang*, 2025, 4. “Designing Variables Generalized Two Plan Sampling System for Product Reliability Verification” 2025 The 12th International Conference on Industrial Engineering and Applications (ICIEA 2025), Seoul, Korea.
• To-Cheng Wang*, 2025, 1. “Development of Variables Tightened-Normal-Tightened Sampling System Based on Lifetime Performance Index for Verifying Product Reliability” 2025 The 12th International Conference on Industrial Engineering and Applications (Europe) (ICIEA-EU 2025), Munich, Germany.
• To-Cheng Wang*, Chien-Wei Wu, and Ming-Hung Shu. 2024, 8. "Constructing a Variables Two-Plan Sampling System for Validation of Product Reliability" 2024 Asia Pacific International Symposium on Advanced Reliability and Maintenance Modeling (APARM 2024), Nagoya, Japan.
• To-Cheng Wang*, Yu-Chen Liu, and Zhang-Kai Huang, 2024, 5. “Developing adaptable and flexible variables two-plan sampling system.” 2024 The 22nd Conference on Precision Machinery and Manufacturing Technology (PMMT 2024), Pingtung, Taiwan.
• To-Cheng Wang*, Yu-Chen Liu, and Zhang-Kai Huang, 2024, 4. “A Novel sampling technology for verifying product reliability.” The 9th International Conference on Advanced Technology Innovation 2024 (ICATI2024), Kanazawa, Japan.
• To-Cheng Wang*, 2023, 12. "A Flexible Sampling System for Lot Disposition." 2023 Chinese Institute of Industrial Engineers Annual Conference, Taichung, Taiwan.
• To-Cheng Wang*, and Ming-Hung Shu. 2023, 4. “Switch-Based Reliability Sampling System for Verifying Product Reliability with Weibull Distributed Accelerated Lifetime Data.” 2023 IEEE 10th International Conference on Industrial Engineering and Applications (ICIEA 2023), Phuket, Thailand.
• To-Cheng Wang*, Ming-Hung Shu, and Chien-Wei Wu. 2022, 10. "An Adaptive Lot-Traceability Sampling Plan Qualified by Weibull Lifetime Capability with Warranty Return Rate Consideration and Development of Its Smart Information System."2022 Asia Pacific International Symposium on Advanced Reliability and Maintenance Modeling (APARM 2022), Hsinchu, Taiwan.
• To-Cheng Wang and Shih-Wen Liu*. 2022, 10. "Developing an Alterable Sampling Plan for Lot Determination by Considering Multiple Quality Characteristics."2022 Asia Pacific International Symposium on Advanced Reliability and Maintenance Modeling (APARM 2022), Hsinchu, Taiwan.
• To-Cheng Wang*, and Ming-Hung Shu, 2022, 5. "Development of a Qualified Lifetime Capacity Sampling Plan with Warranty Return Rate Under Weibull-Distributed Accelerated Lifetime Data in the Modern Manufacturing Industry."1st International Conference on Engineering Manufacture 2022 (EM 2022), Porto, Portugal.
• To-Cheng Wang*, and Shih-Wen Liu, 2022, 4. "Reliability Multiple Dependent State Sampling Plan with Accelerated Life Testing Data under Exponential Distribution." 2022 Conference on Applications of Innovation & Invention, Taichung, Taiwan.
• Min-Han Lin, To-Cheng Wang*, and Ming-Hung Shu, 2022, 2. "Improve the Transiliency in terms of Supply Chain Disruption during the Post-Pandemic." Southeast Decision Sciences Institute 2022, Jacksonville, United States of America.
• To-Cheng Wang*, 2022, 1. "Reliability Quick Switch Sampling System with Accelerated Life Testing Data under Exponential Distribution with Censoring." The 2022 9th International Conference on Industrial Engineering and Applications (ICIEA 2022-Europe), Barcelona, Spain.
• To-Cheng Wang*, Ming-Hung Shu, and Bi-Min Hsu, 2021, 12. "Quick-Switch Inspection Scheme Based on the Overall Process Capability Index for Modern Industrial Web-based Processing Environment." The 2021 International Conference of Annual Meeting of the Operations Research Society of Taiwan 19th Conference on Sustainable Operation and Development, Taichung, Taiwan.
• Min-Han Lin, and To-Cheng Wang*, 2021, 11. "Solutions of Supply Chain Management in the Post-Pandemic." 2021 International Symposium of Quality Management (ISQM 2021), Taipei, Taiwan.
• 孫婉庭、柯國民、王拓程、謝志徹、蘇明鴻，2021年11月；「應用MIT App Inventor於自動詢報價 APP開發 —以化妝與保養品瓶罐供應商為例」；2021中國工業工程學會年會暨學術研討會；台南。
• 羅政樺、孫益生、王拓程、蘇明鴻，2021年11月；「運用大數據分析預測高性能塑膠之熱可塑彈性體之物性預測與驗證」；2021中國工業工程學會年會暨學術研討會；台南。
• I-Sheng Sun, To-Cheng Wang*, Ming-Hung Shu, and Bi-Min Hsu, 2021, 4. “Repetitive Group Reliability Sampling Plan Based on the Lifetime Performance Index with Accelerated Life Testing Data under Exponential Distribution.” 2021 IEEE 8th International Conference on Industrial Engineering and Applications (ICIEA 2021), Kyoto, Japan.
• To-Cheng Wang*, Ming-Hung Shu, and Bi-Min Hsu, 2021, 3. “Reliability Sampling Plans with Accelerated Life Testing Data under Exponential Distribution with Censoring.” The 10th International Conference on Manufacturing Engineering and Processes (ICMEP 2021), Singapore, Singapore.
• To-Cheng Wang*, Ming-Hung Shu, Bi-Min Hsu, and I-Sheng Sun, 2020, 11. “Development of Quick Switch Sampling System Based on Overall Production Process Yield.” The 56th Annual Conference of Chinese Society for Quality 2020 International Symposium of Quality Management (ISQM 2020), Kaohsiung, Taiwan.
• Hui-Wen Wang and To-Cheng Wang*, 2020, 8. “Explore the Impact of the COVID-19 on the Performance of Taiwan's Technology Industries by Slacks-based Measure Model.” 2020 4th International Conference on Applied Economics and Business (ICAEB 2020), Stockholm, Sweden.
• To-Cheng Wang*, Ming-Hung Shu, and Bi-Min Hsu, 2020, 4. “Development of Life-Capability Qualified Sampling Plans with Accelerated Weibull-Life Type II Testing Data.” 2020 IEEE 7th International Conference on Industrial Engineering and Applications (ICIEA 2020), Bangkok, Thailand.
• To-Cheng Wang*, Ming-Hung Shu, and Bi-Min Hsu, 2018, 10. “Investigation of Life Testing under a Weibull Distributed Data with Type-II Right Censoring.” The 7th Institute of Industrial and Systems Engineers Asian Conference Joint with 2018 Chinese Institute of Industrial Engineers Annual Conference, Taichung, Taiwan.

學術經歷

• 2023年國科會專題研究計畫主持人(三年期計畫)
• 2022年科技部專題研究計畫主持人
• 2021年科技部專題研究計畫主持人
• SCI國際期刊(Axioms)客座編輯
• SCI國際期刊(International Journal of Distributed Sensor Networks)客座編輯
• 國際研討會(2022 The 10th Asia Pacific International Symposium on Advanced Reliability and Maintenance Modeling)計劃委員
• 國際研討會(2025 IEEE 12th International Conference on Industrial Engineering and Applications (Europe))技術委員
• 國際研討會(2025 IEEE 12th International Conference on Industrial Engineering and Applications)技術委員
• 國際研討會(2025 8th International Conference on Mechanical Manufacturing and Industrial Engineering)技術委員
• 國際研討會(2023 IEEE 10th International Conference on Industrial Engineering and Applications)分場會議主持人
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• 國立成功大學航空太空工程研究所碩士學位口試委員
• 國立高雄科技大學工業工程與管理研究所碩士學位口試委員

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