2007年7月本科畢業於中國科學技術大學少年班光信息科學與技術專業;2011年10月畢業於新加坡國立大學工業與系統工程系,獲得博士學位。2012年1月進入北京科技大學經濟管理學院,2014年7月破格晉升為副教授。 主要研究領域為系統可靠性分析,最佳化,以及系統的保護和維修策略。已發表近40篇SCI期刊論文,主持或參與5項國家自然科學基金,一項教育部博導基金,一項博士後面上資助,和五項中央高校基本科研業務費。 彭銳副教授還擔任以下期刊的匿名評審人: Reliability Engineering & System Safety, IEEE Transactions on Reliability, IIE Transactions, International Journal of System Sciences, Computers & Industrial Engineering, Mathematical problems in Engineering, Applied Stochastic models in business and industry。
基本介紹
- 中文名:彭銳
- 國籍:中國
- 職業:北京科技大學東凌經濟管理學院副教授
- 畢業院校:新加坡國立大學、中國科技大學
- 主要成就:列入2018年安全,風險,可靠性和質量領域中國高被引學者名單。
教育經歷
2003年9月-2007年7月 中國科學技術大學少年班 理學學士
主要科研項目
[1]《含有溫儲備元件的複雜多態多階段系統的可靠性研究》,國家自然科學基金面上項目(71671016),起止時間為2017年1月至2020年12月
[4]《複雜工程系統維修與備件管理研究》,中央高校基本科研業務費(FRF-MP-13-009A),起止時間為2013年1月至2013年12月。
[5]《考慮故障覆蓋的溫備份系統可靠性模型》,中央高校基本科研業務費(FRF-TP-13-026A),起止時間為2013年1月至2013年12月。
[1]《預測和基於狀態預測的複雜工程系統健康管理》,國家自然科學基金重點項目(70972120),起止時間為2013年1月至2017年12月,由王文彬教授主持。
[2]《基於狀態預測的複雜工程系統維修管理》,教育部博士學科點專項科研基金,起止時間為2013年1月至2015年12月,由王文彬教授主持。
[3]《先進生產系統的組織仿真建模理論及組織策略最佳化》,中央高校基本科研業務費,起止時間為2013年1月至2013年12月,由張曉冬教授主持。
[4]《人群健康管理和壽命疾病風險評估》,國家自然科學基金重大國際合作項目(71420107023),起止時間為2015年1月至2019年12月,由王文彬教授主持。
代表性著作
- Peng, R., Levitin, G., Xie, M., Ng, S.H., Defending simple series and parallel systems with imperfect false targets, Reliability Engineering & System Safety, 95(6), 679-688, 2010.
2. Peng, R., Levitin, G., Xie, M., Ng, S.H., Optimal defense of single object with imperfect false targets, Journal of the Operational Research Society, 62(1), 134-141, 2011.
3. Peng, R., Xie, M., Ng, S.H., Levitin, G., Element maintenance and allocation for linear consecutively connected systems, IIE Transactions, 44(11), 964-973, 2012.
4. Peng, R., Mo, H. D., Xie, M., Levitin, G., 2013. Optimal structure of multi-state systems with multi-fault coverage. Reliability Engineering and System Safety 119,18-25.
5. Peng, R., Li, Y.F., Zhang, J.G., Li, X., 2015. A risk-reduction approach for optimal software release time determination with the delay incurred cost. International Journal of Systems Science 46 (9), 1628-1637.
6. Peng, R., Zhai, Q.Q., Xing, L.D., Yang, J., 2014. Reliability of demand-based phased-mission systems subject to fault level coverage. Reliability Engineering and System Safety 121,18-25.
7. Peng, R., Guo, Li, Levitin, G., MO, H.D., Wang, W.B., 2014. Maintenance versus individual and overarching protections for parallel systems. Quality Technology and Quantitative Management 11 (3), 353-362.
8. Peng, R., Li, Y.F., Zhang, W.J., Hu, Q.P. Testing effort dependent software reliability model for imperfect debugging process considering both detection and correction. Reliability Engineering and System Safety, v 126, p 37-43, June 2014
9. Wang, W., Zhao F, Peng R. A Preventive maintenance model with a two-level inspection policy based on a three-stage failure process. Reliability Engineering and System Safety, 121, 207-220, 2014.
10. Zhai, Q.Q., Peng, R., Xing, L.D., Yang, J., 2015. Reliability of demand-based warm standby systems subject to fault level coverage. Applied Stochastic Models in Business and Industry 31 (3), 380-393.
11. QingqingZhai, Rui Peng*, L. Xing, and Jun Yang, 2013. " BDD-based Reliability Evaluation of k-out-of-(n+k) Warm Standby Systems Subject to Fault-Level Coverage," Journal of Risk and Reliability ,227(5):540-548.
12. Li, Y.F., Peng, R.* Availability modeling and optimization of dynamic multi-state series-parallel systems with random reconfiguration. Reliability Engineering and System Safety, v 127, p 47-57, July 2014.
13. Zhai, Q.Q., Yang, J., Peng, R., Zhao, Y, 2015. A study of optimal component order in a general 1-out-of-n warm standby system. IEEE Transactions on Reliability 64 (1): 349-358.
14. Xiao, H., Peng, R. Optimal allocation and maintenance of multi-state elements in series-parallel systems with common bus performance sharing. Computers and Industrial Engineering, v 72, n 1, p 143-151, June 2014.
15. Chiming Guo, Wenbin Wang, Bo Guo,Rui Peng,2013, Maintenance Optimization for SystemsWith Dependent Competing Risks Using a Copula Function, J. Maintenance and Reliability, 15(1),9-17,
16. Ola, T., Xing, L.D., Peng, R., Xie, M., 2014. Reliability of Warm-Standby Systems subject to Imperfect Fault Coverage. Journal of Risk and Reliability,228(6) 606–620.
17. Liu, X, Wang, W., Peng, R.*, 2015.Anintegratedproduction, inventory and preventive maintenance model for a multi-product production system. Reliability Engineering and System Safety 137 (may):76-86.
18. Zhao F, Wang W, Peng R., 2015. Delay-time-based preventive maintenance modeling for a production plant: a case study in a steel mill". Journal of the Operational Research Society66, (12), 2015-2024.
19. Liu, X., Wang, W., Peng, R.,2015. An Integrated Production and Delay-time based Preventive Maintenance Planning Model for a Multi-product Production System. Maintenance and Reliability ,17(2):215-221.
20. Li, Y., Peng, R.*, 2015.Service Reliability Modeling of Distributed Computing SystemswithVirusEpidemics. Applied mathematical Modelling 39, 5681-5692.
21. Xiao Hui, Peng R.*, Wang, W.B., Zhao, F., 2015. Optimal Element Loading for Linear Sliding Window Systems. Journal of Risk and Reliability 230 (1), 75-84.
22. Zhai, Q.Q., Xing, L. D., Peng, R., Yang, J., 2015. Multi-valued Decision Diagram-Based Reliability Analysis of k-out-of-n Cold Standby Systems Subject to Scheduled Backups. IEEE Transactions on Reliability,12/2015; 64(4):1310 - 1324.
23. Liu, X.J., Wang, W.B., Peng, R., 2015. A Delay-Time-Based Inspection Model for Parallel Systems.Journal of Risk and Reliability 229 (6), 556-567.
24. Li, P., Wang, W., Peng, R.*, 2016. Age-based Replacement Policy With Consideration of Production Wait Time. IEEE Transactions on Reliability 65 (1), 235-247.
25. Xiao, H., Peng, R., Levitin, G., 2015. Optimal replacement and allocation of multi-state elements ink-within-m-from-r/nsliding window systems.Applied Stochastic Models inBusiness and Industry 32 (2), 184-198.
26. Xiao, H., Shi, D.M., Ding, Y., Peng R., 2015. Optimal Loading and Protection of Multi-state Systems Considering Performance Sharing Mechanism. Reliability Engineering & System Safety 149, 88-95.
27. Peng, R., Zhai, Q., Levitin, G., 2016. Defending a single object against an attacker trying to detect a subset of false targets. Reliability Engineering & System Safety 149, 137-147.
28. Peng R., Zhai Q., Xing L., Yang J., 2016. Reliability analysis and optimal structure of series-parallel phased-mission systems subject to fault level coverage. IIE Transactions. 48 (8), 736-746.
29. Peng, R., Liu H., Xie M., 2016. A Study of Reliability of Multi-state Systems with Two Performance Sharing Groups. Quality & Reliability Engineering International. ,32(7):2623-2632
30. Yu Huan, Yang Jun, Peng, Rui, Zhao Yu., 2016. Linear multi-state consecutively-connected systems constrained by m consecutive and n total gaps. Reliability Engineering & Systems Safety 150, 35-43.
31. Wang, G., Peng, R., 2016.A generalized δ-shock model with two types of shocks.International Journal of Systems Science: Operations & Logistics. Forthcoming.
32. Zhai Qingqing, Ye Zhisheng, Peng, Rui, Wang Wenbin, 2016. Defense and Attack of Performance-Sharing Common Bus Systems. European Journal of Operational Research.256(3):962–975.
33. Wang, H., Wang, W., Peng, R.*, 2017.A two-phase inspection model for a single component system with three-stage degradation. Reliability Engineering & System Safety 158: 31-40.
34. Yang, L., Ma, X., Peng, R., Zhai, Q., Zhao, Y., 2017.A preventive maintenance policy based on dependent two-stage deterioration and external shocks. Reliability Engineering & Engineering Safety 160,201-211.
35. Peng, R., Xiao, H., Liu, H.Reliability of Multi-state Systems with a Performance Sharing Group of Limited Size. Reliability Engineering & System Safety. Forthcoming.
36. Hu, L., Su, Peng, Peng, R., Zhang, Z., 2017. Fuzzy Availability Assessment for Discrete Time Multi-State System under Minor Failures and Repairs by Using Fuzzy-transform. Eksploatacja i Niezawodnosc– Maintenance and Reliability 2,179-190.
37. Peng, R., Zhai, Q., 2017. Modeling of Software Fault Detection and Correction Processes with Fault Dependency. Eksploatacja i Niezawodnosc– Maintenance and Reliability. Forthcoming.
38. Wang, C., Xing, L., Peng, R., Pan, Z., 2017.Competing failure analysis in phased-mission systems with multiple functional dependence groups. Reliability Engineering & System Safety 164, 24-33.