[1]齐小刚,方魁,宋卫星,等.装备维修保障资源配置综述[J].智能系统学报,2022,17(2):221-232.[doi:10.11992/tis.202109010]
 QI Xiaogang,FANG Kui,SONG Weixing,et al.Summary of equipment maintenance support resource configuration[J].CAAI Transactions on Intelligent Systems,2022,17(2):221-232.[doi:10.11992/tis.202109010]
点击复制

装备维修保障资源配置综述

参考文献/References:
[1] 雷宁, 曹继平, 王连锋, 等. 装备维修备件资源优化配置研究[J]. 飞航导弹, 2020(3): 84–87,96
[2] WANG Xinxin. Research on the division of internal responsibilities and the rationalization of personnel allocation in financial departments[J]. Finance and market, 2020, 5(4): 276.
[3] CHEN Wenjie, GUO Hainan, TSUI K L. A new medical staff allocation via simulation optimization for an emergency department in Hong Kong[J]. International journal of production research, 2020, 58(19): 6004–6023.
[4] WANG Kun. Research on application of FMECA in missile equipment maintenance decision[J]. IOP conference series:materials science and engineering, 2018, 317: 012037.
[5] 石磊昊, 陈军, 叶振祺, 等. 基于排队论的油料装备维修保障人员需求分析[J]. 指挥控制与仿真, 2019, 41(1): 136–140
SHI Leihao, CHEN Jun, YE Zhenqi, et al. Requirement analysis of POL equipment maintenance personnel based on queuing Theory[J]. Command control & simulation, 2019, 41(1): 136–140
[6] BANDI C, TRICHAKIS N, VAYANOS P. Robust multiclass queuing theory for wait time estimation in resource allocation systems[J]. Management science, 2019, 65(1): 152–187.
[7] 谷玉波, 贾云献. 基于维修任务的维修人员预测模型[J]. 火力与指挥控制, 2013, 38(11): 107–110
GU Yubo, JIA Yunxian. A study on maintenance task based maintenance manpower prediction Model[J]. Fire control & command control, 2013, 38(11): 107–110
[8] KIM S W, YOON B K. A study on the optimal allocation of maintenance personnel in the naval ship maintenance system[J]. Journal of the Korea academia-industrial cooperation society, 2015, 16(3): 1853–1862.
[9] 张怀强, 卢远超, 王孟. 混合遗传算法的战时舰艇伴随保障人员优化配置[J]. 火力与指挥控制, 2019, 44(4): 37–43
ZHANG Huaiqiang, LU Yuanchao, WANG Meng. Optimal allocation of crew support in wartime ships based on hybrid genetic Algorithm[J]. Fire control & command control, 2019, 44(4): 37–43
[10] 余仁波, 徐廷学, 李田科. 飞航导弹使用与维修任务分析及保障资源的确定[J]. 飞航导弹, 2011(2): 20–23
[11] 王雄伟, 陈春良, 曹艳华, 等. 基于维修任务的基本维修单元确定方法[J]. 装甲兵工程学院学报, 2017, 31(2): 25–29
WANG Xiongwei, CHEN Chunliang, CAO Yanhua, et al. Method of determining basic maintenance unit based on maintenance task[J]. Journal of academy of armored force engineering, 2017, 31(2): 25–29
[12] 伊洪冰, 张爱民, 宫丽. 基于最小维修单元的战时车辆装备维修力量需求测算[J]. 军事交通学院学报, 2016, 18(2): 29–32
YI Hongbing, ZHANG Aimin, GONG Li. Demand calculation of wartime vehicle equipment maintenance power based on minimum maintenance unit[J]. Journal of military transportation university, 2016, 18(2): 29–32
[13] 吴同晗, 陈春良, 丁苹, 等. 战时维修保障人员数量确定方法[J]. 装甲兵工程学院学报, 2018, 32(5): 33–36
WU Tonghan, CHEN Chunliang, DING Ping, et al. Method of determining quantity of wartime maintenance support Personnel[J]. Journal of academy of armored force engineering, 2018, 32(5): 33–36
[14] 吴同晗, 张仕新, 陈春良, 等. 基于能力需求的维修保障人员专业种类确定方法[J]. 兵工自动化, 2018, 37(6): 73–77
WU Tonghan, ZHANG Shixin, CHEN Chunliang, et al. Method of maintenance support staff specialties type determining based on requirement of ability[J]. Ordnance industry automation, 2018, 37(6): 73–77
[15] 李奇倚, 王磊. 基于决策树和模型树的作业工时估计方法[J]. 计算机集成制造系统, 2018, 24(2): 309–320
LI Qiyi, WANG Lei. Man-hour estimation method based on decision tree and model tree[J]. Computer integrated manufacturing systems, 2018, 24(2): 309–320
[16] WANG Tiening, YU Shuangshuang, LI Ning, et al. Coordinative allocation model and method of equipment maintenance materiel[C]//2016 Eighth International Conference on Advanced Computational Intelligence. Chiang Mai, Thailand, 2016: 29-35.
[17] 孙笑, 宋卫星, 班利明, 等. 复杂人力资源约束下的抢占式维修工序调度[EB/OL]. 控制与决策. (2021-01-06)[2021-05-17].https://doi.org/10.13195/j.kzyjc.2020.1250.
SUN Xiao, SONG Weixing, BAN liming, et al. Preemptive maintenance scheduling under complex human resource constraints [EB/OL]. Control and decision. (2021-01-06)[2021-05-17].https://doi.org/10.13195/j.kzyjc.2020.1250.
[18] MA Zhiqiang, HE Zhengwen, WANG Nengmin, et al. A genetic algorithm for the proactive resource-constrained project scheduling problem with activity splitting[J]. IEEE transactions on engineering management, 2019, 66(3): 459–474.
[19] 李岩, 陈云翔, 蔡忠义, 等. 战时军用飞机维修保障人员数量确定方法[EB/OL]. 火力与指挥控制. (2020-09-27) [2021-06-02].https://kns.cnki.net/kcms/detail/14.1138.TJ.20200925.1042.020.html.
LI Yan, CHEN Yunxiang, CAI Zhongyi, et al. Method for determining the number of maintenance and support personnel of military aircraft in wartime [EB/OL]. Firepower and command and control. (2020-09-27) [2021-06-02].https://kns.cnki.net/kcms/detail/14.1138.TJ.20200925.1042.020.html.
[20] 杨春辉, 张烁炜, 胡涛. 基于系统动力学的舰船装备维修保障体系演化仿真分析[J]. 中国舰船研究, 2021, 16(3): 86–95
YANG Chunhui, ZHANG Shuowei, HU Tao. Simulation analysis of warship equipment maintenance and support system evolution based on system dynamic[J]. Chinese journal of ship research, 2021, 16(3): 86–95
[21] 张宏远, 王志杰, 胡紫城, 等. 基于免疫算法的装备维修人员调配方法[J]. 兵工自动化, 2019, 38(7): 72–77
ZHANG Hongyuan, WANG Zhijie, HU Zicheng, et al. Deployment method of equipment maintenance personnel based on immune algorithm[J]. Ordnance industry automation, 2019, 38(7): 72–77
[22] 陈永龙, 王玉泉, 李世英. 使用保障资源的确定方法探讨[J]. 装甲兵工程学院学报, 2003(3): 59–62
CHEN Yonglong, WANG Yuquan, LI Shiying. Research on establishment techniques for operational support resources[J]. Journal of armored force engineering institute, 2003(3): 59–62
[23] LOZANO S, DOBADO D, LARRA?ETA J, et al. Modified fuzzy C-means algorithm for cellular manufacturing[J]. Fuzzy sets and systems, 2002, 126(1): 23–32.
[24] YIN Yong, YASUDA K. Similarity coefficient methods applied to the cell formation problem: a taxonomy and review[J]. International journal of production economics, 2006, 101(2): 329–352.
[25] HUH W T, JANAKIRAMAN G. On the optimal policy structure in serial inventory systems with lost sales[J]. Operations research, 2010, 58(2): 486–491.
[26] 吕瑞, 孙林夫. 面向产业链云服务平台的分布式备件库存协同控制方法与软件工具研究[J]. 计算机工程与科学, 2017, 39(10): 1812–1818
LV Rui, SUN Linfu. Research on distributed spare parts inventory collaborative control method and software tool for industry chain cloud service platform[J]. Computer engineering and science, 2017, 39(10): 1812–1818
[27] 吕志彤, 宁兆宇, 皮湛恩. 基于网络的随船器材全资可视化系统的研究[J]. 中国修船, 2011(4): 44–46
LYU Zhitong, NING Zhaoyu, PI Zhanen. Research on visualization system of ship equipment based on network[J]. China ship repair, 2011(4): 44–46
[28] 吕志彤, 皮湛恩, 宁兆宇. 基于射频技术的随船器材收发和消耗采集终端的研究[J]. 中国修船, 2010(4): 29–31
LYU Zhitong, PI Zhanen, NING Zhaoyu. Research on receiving, transmitting and consuming acquisition terminal of ship equipment based on RF technology[J]. China ship repair, 2010(4): 29–31
[29] JIANG Yuchen, SHI Cong, SHEN Siqian. Service level constrained inventory systems[J]. Production and operations management, 2019, 28(9): 2365–2389.
[30] GU T, LI S, LI J, et al. Research on two-level inventory optimization algorithm for repairable spare parts based on improved differential evolution[C]//International Conference on Bio-Inspired Computing: Theories and Applications. Singapore, 2019: 341?354.
[31] GU Tao, LI Sujian, KOU Zhenzhen, et al. Hybrid optimisation algorithm for solving the multi-level spare parts inventory optimisation problem[J]. IET collaborative intelligent manufacturing, 2020, 2(1): 14–21.
[32] JIA Xinian, SHI Jiaming, WANG Gong, et al. Study on optimal inventory strategy for worn spare parts on the Chinese space station[C]//2016 11th International Conference on Reliability, Maintainability and Safety. Hangzhou, China, 2016: 1-5.
[33] CHEN Yukun, GAO Qi, SU Xiaobo, et al. Research on optimization of spare parts inventory policy considering maintenance priority[J]. International journal of system assurance engineering and management, 2018, 9(6): 1336–1345.
[34] OZKAN E, VAN HOUTUM G J. Joint inventory and scheduling control in a repair facility [EB/OL]. SSRN electronic journal. (2021-02-11)[2021-05-17].https://papers.ssrn.com/sol3/papers.cfm?abstract_id=3784144.
[35] FENG Yunwen, TIAN Jing, XUE Xiaofeng, et al. Spare parts allocation of amphibious aircraft based on hybrid two-level repair[J]. IOP conference series:materials science and engineering, 2021, 1043(2): 022056.
[36] LIU Weimiao, LIU Kanglin, DENG Tianhu. Modelling, analysis and improvement of an integrated chance-constrained model for level of repair analysis and spare parts supply control[J]. International journal of production research, 2020, 58(10): 3090–3109.
[37] XIA Jun, FENG Yunwen, XUE Xiaofeng, et al. Multi-echelon inventory allocation of multi-indenture spare parts considering maintenance ratio[J]. IOP conference series:materials science and engineering, 2020, 715(1): 012047.
[38] ZANG Yao, GAO Jindong, XING Zongyi, et al. Inventory management model of metro vehicle repairable spare parts based on METRIC[C]//2017 36th Chinese Control Conference. Dalian, China, 2017: 2956-2960.
[39] SI Zexiang, ZHANG Tong, SUO Haokun. Efficient multi-level inventory optimization algorithm based on marginal analysis[C]//2020 IEEE 9th Joint International Information Technology and Artificial Intelligence Conference. Chongqing, China, 2020: 1068-1074.
[40] LIU Yuchang, FENG Yunwen, XUE Xiaofeng, et al. Joint optimization of level of repair analysis and civil aircraft inventory system based on PSO algorithm[J]. IOP conference series:materials science and engineering, 2019, 538(1): 012061.
[41] FUNG R Y K, MA X, LAU H C W. (T, S) policy for coordinated inventory replenishment systems under compound Poisson demands[J]. Production planning & control, 2001, 12(6): 575–583.
[42] 张建荣, 于永利, 张柳, 等. 基于定周期策略的多品种维修器材联合订购模型[J]. 火力与指挥控制, 2012, 37(9): 112–116
ZHANG Jianrong, YU Yongli, ZHANG Liu, et al. Joint order model of multi-items maintenance spare parts based on periodic policy[J]. Fire control & command control, 2012, 37(9): 112–116
[43] WANG Yadong, SHI Quan. Improved dynamic PSO-based algorithm for critical spare parts supply optimization under (T, S) inventory policy[J]. IEEE access, 2019, 7: 153694–153709.
[44] BALINTFY J L. On a basic class of multi-item inventory problems[J]. Management science, 1964, 10(2): 287–297.
[45] LU Xiaobo, QU Changzheng, LV X, et al. Inventory decision model of unanimous ordering policy with multi-item maintenance materials[C]//2012 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering. Chengdu, China, 2012: 396?399.
[46] 张建荣, 于永利, 张柳, 等. 维修器材联合订货的库存决策模型[J]. 系统工程与电子技术, 2013, 35(1): 109–112
ZHANG Jianrong, YU Yongli, ZHANG Liu, et al. Inventory decision model of joint ordering policy with maintenance materials[J]. Systems engineering and electronics, 2013, 35(1): 109–112
[47] LI Jiying, JI Zhihong. Joint replenishment problem of military aircraft consumptive items under resource constraint[C]//2017 8th International Conference on Mechanical and Aerospace Engineering. Prague, Czech Republic, 2017: 786?790.
[48] MOON I K, CHA B C, LEE C U. The joint replenishment and freight consolidation of a warehouse in a supply chain[J]. International journal of production economics, 2011, 133(1): 344–350.
[49] KASPI M, ROSENBLATT M J. On the economic ordering quantity for jointly replenished items[J]. International journal of production research, 1991, 29(1): 107–114.
[50] WANG Lin, QU Hui, LI Yanhui, et al. Modeling and optimization of stochastic joint replenishment and delivery scheduling problem with uncertain costs[J]. Discrete dynamics in nature and society, 2013, 2013: 1–12.
[51] ZENG Yurong, PENG Lu, ZHANG Jinlong, et al. An effective hybrid differential evolution algorithm incorporating simulated annealing for joint replenishment and delivery problem with trade credit[J]. International journal of computational intelligence systems, 2016, 9(6): 1001–1015.
[52] LI Chengyan, WANG Chuang. Joint replenishment and delivery problem with stochastic demand[C]//2015 4th International Conference on Computer Science and Network Technology. Harbin, China, 2015: 121?123.
[53] CARVAJAL J, CASTA?O F, SARACHE W, et al. Heuristic approaches for a two-echelon constrained joint replenishment and delivery problem[J]. International journal of production economics, 2020, 220: 107420.
[54] VAN HORENBEEK A, BURé J, CATTRYSSE D, et al. Joint maintenance and inventory optimization systems: a review[J]. International journal of production economics, 2013, 143(2): 499–508.
[55] RAHIMI-GHAHROODI S, AL HANBALI A, VLIEGEN I M H, et al. Joint optimization of spare parts inventory and service engineers staffing with full backlogging[J]. International journal of production economics, 2019, 212: 39–50.
[56] YAN Tao, LEI Yaguo, WANG Biao, et al. Joint maintenance and spare parts inventory optimization for multi-unit systems considering imperfect maintenance actions[J]. Reliability engineering & system safety, 2020, 202: 106994.
[57] 张巍, 姜大立, 苏秋月. 战时军事物流调运网络选址配置与物资分配[J]. 指挥与控制学报, 2019, 5(2): 99–106
ZHANG Wei, JIANG Dali, SU Qiuyue. Site selection and distribution of wartime military logistics transportation networks[J]. Journal of command and control, 2019, 5(2): 99–106
[58] QU Hui, WANG Lin, LIU Rui. A contrastive study of the stochastic location-inventory problem with joint replenishment and independent replenishment[J]. Expert systems with applications, 2015, 42(4): 2061–2072.
[59] RAOOFPANAH H, GHEZAVATI V. Extended hybrid tabu search and simulated annealing algorithm for location-inventory model with multiple products, multiple distribution centers and multiple capacity levels[J]. Production engineering, 2019, 13(6): 649–663.
[60] HABIBI F, ASADI E, SADJADI S J. Developing a location-inventory-routing model using METRIC approach in inventory policy[J]. Uncertain supply chain management, 2017: 337–358.
[61] SARAGIH N I, BAHAGIA S N, SUPRAYOGI, et al. A heuristic method for location-inventory-routing problem in a three-echelon supply chain system[J]. Computers & industrial engineering, 2019, 127: 875–886.
[62] GUO Hao, LI Congdong, ZHANG Ying, et al. A nonlinear integer programming model for integrated location, inventory, and routing decisions in a closed-loop supply chain[J]. Complexity, 2018, 2018: 1–17.
相似文献/References:
[1]齐小刚,张仲华,宋卫星,等.多中心维修任务分配研究现状[J].智能系统学报,2022,17(3):448.[doi:10.11992/tis.202109008]
 QI Xiaogang,ZHANG Zhonghua,SONG Weixing,et al.Research status of multicenter maintenance task assignment[J].CAAI Transactions on Intelligent Systems,2022,17():448.[doi:10.11992/tis.202109008]

备注/Memo

收稿日期:2021-09-06。
基金项目:装备预先研究领域基金项目(80904010301)
作者简介:齐小刚,教授,博士生导师,西安电子科技大学智慧信息空间联合技术创新中心(西安)主任,博士,中国计算机学会高级会员、中国自动化学会高级会员、中国指挥控制学会高级会员、中国运筹学会理事、陕西省运筹学会常务理事。主要研究方向为复杂系统建模与数据处理、联合资源分配与系统仿真。主持完成国家自然科学基金项目、十三五预研项目、装备预研基金(重点项目)、陕西省自然科学基金重点项目等30余项,获得军队和省部级科技进步二等奖1项、三等奖2项,省级教学成果奖一等奖2项。发表学术论文100余篇;方魁,学士,主要研究方向为装备保障,参与大数据装备保障研究课题1项;宋卫星,工程师,博士,主要研究方向为装备维修保障优化和智能算法设计。主持并参与军内科研项目近10项,获军队科技进步三等奖3项
通讯作者:齐小刚.E-mail:xgqi@xidian.edu.cn

更新日期/Last Update: 1900-01-01
Copyright @ 《 智能系统学报》 编辑部
地址:(150001)黑龙江省哈尔滨市南岗区南通大街145-1号楼 电话:0451- 82534001、82518134