发布时间:2018-07-10 浏览量:次
所在部门:十大赌博老品牌网站 系部:工业工程系 研究所:工业工程与先进制造研究所 职务:研究所副所长 E-Mail:faqun-qi@wzu.edu.cn qiqizhezhe@126.com 办公室:十大赌博老品牌网站南校区机电楼6-C507 | |
研究方向 | 1.系统可靠性方向: 系统可靠性建模 (System Reliability Modeling); 维修决策 (Maintenance Decision); 故障预测与健康管理 (Prognostics and Health Management); 2.智能制造方向: 离散制造系统调度(Discrete Manufacturing System Scheduling); |
基本介绍 | 綦法群,工学博士,副教授,硕士生导师。浙江临海人。2018年5月毕业于同济大学机械电子工程专业,获工学博士学位。2018年5月任十大赌博老品牌网站专任教师至今。近三年发表SCI/EI学术论文20余篇,其中可靠性领域国际TOP期刊《Reliability Engineering and System Safety》论文5篇、能源应用领域国际TOP期刊《Applied Energy》论文1篇、应用数学领域国际TOP期刊《Applied Mathematical Modelling》论文1篇、机械领域国内TOP期刊《机械工程学报》论文1篇。 |
主要工作经历 | 2018.5~2022.11 十大赌博老品牌网站,讲师 2022.12~至今 十大赌博老品牌网站,副教授 2020.9~至今 电子科技大学系统可靠性与安全性研究中心 博士后 |
获奖情况 | 2019年度十大赌博老品牌网站“优秀共产党员”称号; 2020年度十大赌博老品牌网站第十一届“最受学生喜爱的老师”称号; 2021年度十大赌博老品牌网站“青春温大”年度榜样人物称号; 2022年十大赌博老品牌网站“陈国同育人典范”奖; 2022年十大赌博老品牌网站优秀班主任; 2023年十大赌博老品牌网站优秀党务工作者; |
学术兼职 | 中国机械工程学会机械设计分会青年委员; 中国优选法统筹法与经济数学研究会工业工程分会理事; 中国运筹学会可靠性分会青年委员; 中国现场统计研究会可靠性工程分会理事; 国内、国际期刊评审人: 《Reliability Engineering and System Safety》;《Computers and Industrial Engineering》、《Quality and Reliability Engineering International》;《Applied Mathematical Modelling》;《IEEE Access》;《Ocean Engineering》;《Journal of Quality in Maintenance Engineering》;《Journal of Risk and Reliability》;《Computational and Applied Mathematics》;《计算机集成制造系统》、《长沙理工大学学报(自然科学版)》等国内外期刊。 |
学术成果 | 近三年部分代表性学术论文(2022年至2024年,*通讯作者): 1. Qi F*, Zhang A, Fu X, et al. Maintenance strategy for urban micro wind farm considering maintenance route and resource allocation. Applied Energy, 2024, 377: 124515. (SCI 一区, 国际Top) 2. Qi F*, Yang H, Wei L, et al. Preventive maintenance policy optimization for a weighted k-out-of-n: G system using the survival signature. Reliability Engineering and System Safety, 2024, 249:110247. (SCI 一区, 国际Top) 3. Qi F*, Huang M. Joint optimization of maintenance and spares inventory policy for a series-parallel system considering dependent failure processes. Reliability Engineering and System Safety, 2024, 247:110116. (SCI 一区, 国际Top) 4. Qi F, Wang Y, Wang X, et al. A novel condition‐based maintenance policy considering imperfect switching for warm standby systems. Quality and Reliability Engineering International, 2024, 40(3): 1148-1164. (SCI 三区) 5. Huang M, Qi F*, Wang L. Novel condition-based opportunistic maintenance policy for series systems with dependent competing failure processes, Journal of Risk and Reliability, 2024. (SCI 四区) 6. Qi F, Wang Y, Huang H. Optimal maintenance policy considering imperfect switching for a multi-state warm standby system. Quality and Reliability Engineering International, 2024, 40(5): 2423-2443. (SCI三区) 7. 綦法群, 胡琴, 张桉铭等. 考虑客户满意度的带缓冲串行系统维护决策. 机械工程学报, 2024, 60(13): 174-181. (EI, 国内Top期刊) 8. Qi F*, Wang Y. A condition-based maintenance policy considering batch sizes for warm standby systems with priority to repair. IEEE Transactions on Reliability, 2023. (SCI 二区, 国际权威) 9. Qi F*, Huang M. Optimal condition-based maintenance policy for systems with mutually dependent competing failure. Quality and Reliability Engineering International, 2023, 39(5): 1831-1847. (SCI 三区) 10. Hu Q, Qi F*. Maintenance policy optimization for buffered serial systems considering energy-saving based on dual time windows. Applied Mathematical Modelling, 2023. (SCI 二区,国际TOP) 11. Zhang N, Qi F*, Zhang C, et al. Joint optimization of condition-based maintenance policy and buffer capacity for a two-unit series system. Reliability Engineering and System Safety, 2022, 219: 108232. (SCI 一区,国际 TOP) 12. Zhang C, Qi F*, Zhang N, Zhou H, et al. Maintenance policy optimization for multi-component systems considering dynamic importance of components. Reliability Engineering and System Safety, 2022, 226: 108705. (SCI 一区, 国际Top) 13. Jiang R, Qi F*, Cao Y. Relation between aging intensity function and WPP plot and its application in reliability modelling. Reliability Engineering and System Safety, 2022, 229:108894. (SCI一区,国际Top) 14. Zhou H, Wang S, Qi F*, et al. Maintenance modeling and operation parameters optimization for complex production line under reliability constraints. Annals of Operations Research, 2022, 311(1):507-523. (SCI 三区) |