Systems Engineering and Electronics ›› 2022, Vol. 44 ›› Issue (9): 2832-2839.doi: 10.12305/j.issn.1001-506X.2022.09.17
• Systems Engineering • Previous Articles Next Articles
Wenming ZHOU1,*, Dekang CUI1, Jingyi ZHOU2, Mingming ZHANG3, Anshi ZHU1
Received:
2021-04-27
Online:
2022-09-01
Published:
2022-09-09
Contact:
Wenming ZHOU
CLC Number:
Wenming ZHOU, Dekang CUI, Jingyi ZHOU, Mingming ZHANG, Anshi ZHU. Hybrid algorithm for evaluation of support capability of storage and supply base[J]. Systems Engineering and Electronics, 2022, 44(9): 2832-2839.
Table 2
Loading and unloading support results of support materials for small-scale and low-intensity storage and supply base"
排队 | 等待队列长/(台/小时) | 排队长/(台/小时) | 等待时长/h | 停留时间/h | 装载完成数量 | x5 |
排队1 | 0.576 5 | 1.078 9 | 1.382 5 | 2.587 3 | 5 | 0.863 6 |
排队2 | 0.025 5 | 0.483 7 | 0.061 1 | 1.160 0 | 12 | 0.863 6 |
排队3 | 0.030 8 | 0.239 3 | 0.073 8 | 0.573 8 | 25(26) | 0.863 6 |
排队4 | 0.005 4 | 0.283 4 | 0.013 0 | 0.679 7 | 17(22) | 0.863 6 |
排队5 | 0.051 8 | 0.623 0 | 0.124 2 | 1.494 0 | 10 | 0.863 6 |
排队6 | 0.085 1 | 0.363 1 | 0.204 1 | 0.870 7 | 7(17) | 0.863 6 |
Table 4
Loading and unloading support of support materials for small-scale and low-intensity storage and supply base"
排队 | 等待队列长/(台/小时) | 排队队长/(台/小时) | 等待时长/h | 停留时间/h | 装载完成数量 | x5 |
排队1 | 0.202 0 | 0.445 7 | 0.048 4 | 1.068 8 | 14 | 0.965 9 |
排队2 | 0.025 5 | 0.483 7 | 0.061 1 | 1.160 0 | 12 | 0.965 9 |
排队3 | 0.030 8 | 0.239 3 | 0.073 8 | 0.573 8 | 25(26) | 0.965 9 |
排队4 | 0.005 4 | 0.283 4 | 0.013 0 | 0.679 7 | 17(22) | 0.965 9 |
排队5 | 0.051 8 | 0.623 0 | 0.124 2 | 1.494 0 | 10 | 0.965 9 |
排队6 | 0.085 1 | 0.363 1 | 0.204 1 | 0.870 7 | 7(17) | 0.965 9 |
Table 6
Loading and unloading support results of support materials of medium scale and medium intensity storage and supply base"
排队 | 等待队列长/(台/小时) | 排队队长/(台/小时) | 等待时长/h | 停留时间/h | 装载完成数量 | x5 |
排队1 | 0.576 5 | 1.078 9 | 1.382 5 | 2.587 3 | 3 | 0.578 5 |
排队2 | 0.044 3 | 0.590 5 | 0.089 2 | 1.188 1 | 9 | 0.578 5 |
排队3 | 0.002 6 | 0.251 1 | 0.005 2 | 0.505 2 | 21 | 0.578 5 |
排队4 | 0.021 6 | 0.270 1 | 0.043 4 | 0.543 4 | 18(20) | 0.578 5 |
排队5 | 0.092 3 | 0.773 2 | 0.185 8 | 1.555 6 | 7 | 0.578 5 |
排队6 | 0.246 7 | 0.660 8 | 0.496 3 | 1.329 7 | 8 | 0.578 5 |
1 | HUA H , NAN Z Q , WANG S Q . Logistics support[M]. Beijing: Chinese Encyclopedia Publishing House, 2007. |
2 | 唐梦妮, 董鹏, 余鹏. 后方仓库管理保障能力评估指标体系设计[J]. 火力与指挥控制, 2019, 44 (11): 51- 57. |
TANG M N , DONG P , YU P . Establishment of warehouse management and wupport capability evaluation indicator system[J]. Fire Control and Command Control, 2019, 44 (11): 51- 57. | |
3 |
谢鑫鹏, 张大鹏, 任聪, 等. 车辆器材仓库收发能力评估[J]. 物流技术, 2019, 38 (10): 137- 140.
doi: 10.3969/j.issn.1005-152X.2019.10.026 |
XIE X P , ZHANG D P , REN C , et al. Evaluation of inbound and outbound capability of vehicle equipment warehouse[J]. Logistics Technology, 2019, 38 (10): 137- 140.
doi: 10.3969/j.issn.1005-152X.2019.10.026 |
|
4 |
梁展. 军用车辆装备维修器材仓储管理研究[J]. 物流技术, 2017, 36 (10): 146- 150.
doi: 10.3969/j.issn.1005-152X.2017.10.029 |
LIANG Z . Study on service parts warehousing management of military vehicle equipment[J]. Logistics Technology, 2017, 36 (10): 146- 150.
doi: 10.3969/j.issn.1005-152X.2017.10.029 |
|
5 | 王嫣, 韩庆田, 张毅. 基于层次分析法的仓库航材保障能力评估研究[J]. 价值工程, 2015, 15 (4): 8- 10. |
WANG Y , HAN Q T , ZHANG Y . Study on aerial material support ability evaluation of storage based on AHP[J]. Value Engineering, 2015, 15 (4): 8- 10. | |
6 | 王毅. 美军保障基地建设特点探析[J]. 海军学术研究, 2018, 29 (5): 86- 88. |
WANG Y . Analysis on the characteristics of the construction of the US army support base[J]. Naval Academic Research, 2018, 29 (5): 86- 88. | |
7 | 蒋丽华, 牛牧天. 海军基地物流服务需求特征探究[J]. 海军学术研究, 2018, 29 (6): 73- 75. |
JIANG L H , NIU M T . Research on the characteristics of logistics service demand in naval base[J]. Naval Academic Research, 2018, 29 (6): 73- 75. | |
8 | 蒋丽华, 牛牧天. 美国海军基地物流与供应链的运作机制[J]. 海军学术研究, 2018, 29 (8): 80- 83. |
JIANG L H , NIU M T . Opereation mechanism of logistics and supply chain in US naval base[J]. Naval Academic Research, 2018, 29 (8): 80- 83. | |
9 | 赵德龙, 王宾, 高波, 等. 军事物流基地装卸力量建设探讨[J]. 仓储管理与技术, 2018, (3): 3- 6. |
ZHAO D L , WANG B , GAO B , et al. Discussion on the construction of loading and unloading force of military logitics base[J]. Warehouse Management and Technology, 2018, (3): 3- 6. | |
10 | 于殿祥, 张子昂, 鞠小林. 加强综合性投送基地力量体系"四化"建设[J]. 长缨, 2019, (2): 53- 54. |
YU D X , ZHANG Z A , JU X L . Strengthen the construction of the "four modernizations"of the comprehensive delivery base force system[J]. Chang Ying, 2019, (2): 53- 54. | |
11 | 郭立卿, 王锐淇, 王妙春. 储供基地野营战储物资逆向流转系统组织架构探析[J]. 仓储管理与技术, 2018, (5): 7- 8. |
GUO L Q , WANG R Q , WANG M C . Analysis on the organizational structure of the reverse circulation system of storage and supply base camping battle[J]. Warehouse Management and Technology, 2018, (5): 7- 8. | |
12 | 张磊, 连尧, 丁大侃. 一体化军队储供基地和战役仓库智能安防系统建设研究[J]. 仓储管理与技术, 2020, (1): 19- 22. |
ZHANG L , LIAN Y , DING D K . Research on the construction of intelligent security system of integrated army storage and supply bases and battle warehouses[J]. Warehouse Management and Technology, 2020, (1): 19- 22. | |
13 | 乐惠宁, 程甘霖. 提高储供基地机械化信息化水平之我见[J]. 仓储管理与技术, 2019, (1): 26- 28. |
LE H N , CHENG G L . My views on improving the level of mechanization and informatization of storage and supply bases[J]. Warehouse Management and Technology, 2019, (1): 26- 28. | |
14 | 王华林, 张大卫. 无人智能化储供基地建设探讨[J]. 仓储管理与技术, 2019, (5): 23- 26. |
WANG H L , ZHANG D W . Discussion on the construction of unmanned intelligent storage and supply base[J]. Warehouse Management and Technology, 2019, (5): 23- 26. | |
15 | 张梦得, 戴明强. 海军装备仓库存储优化方法研究[J]. 兵工自动化, 2017, 36 (1): 71- 75. |
ZHANG M D , DAI M Q . Study on navy equipment warehouse storage optimum method[J]. Ordnance Industry Automation, 2017, 36 (1): 71- 75. | |
16 | 孙长水, 方云金, 宋瑞华. 对建设快速高效的战储物资储供基地建设的思考[J]. 仓储管理与技术, 2015, (1): 9- 11. |
SUN C S , FANG Y J , SONG R H . Thoughts on the construction of fast and efficient war storage material storage and supply base[J]. Warehouse Management and Technology, 2015, (1): 9- 11. | |
17 | 张建东, 荀烨. 基于德尔菲-熵权值综合赋权的仓库物资保障能力模糊评估模型研究[J]. 物流技术, 2019, 38 (10): 145- 149. |
ZHANG J D , XUN Y . Research on fuzzy evaluation model of warehouse material support capability based on Delphi-entropy weight comprehensive weighting[J]. Logistics Technology, 2019, 38 (10): 145- 149. | |
18 | 龚杰, 雍歧东, 于力, 等. 基于云模型和层次分析法的油料保障能力评估[J]. 兵工自动化, 2018, 37 (1): 66- 69. |
GONG J , YONG Q D , YU L , et al. Evaluation of POL support ability based on cloud model and AHP[J]. Ordnance Industry Automation, 2018, 37 (1): 66- 69. | |
19 | 连云峰, 代冬升, 连光耀, 等. 基于模糊综合评判的后装保障能力评估[J]. 兵工自动化, 2020, 39 (11): 5- 9. |
LIAN Y F , DAI D S , LIAN G Y , et al. Logistics and equipment support capabilities evaluation based on fuzzy synthetic evaluation[J]. Ordnance Industry Automation, 2020, 39 (11): 5- 9. | |
20 | 徐吉辉, 谢文俊. 综合评价理论、方法与军事应用[M]. 北京: 国防工业出版社, 2014: 1- 50. |
XU J H , XIE W J . Comprehensive evaluation theory method and military application[M]. Beijing: National Defense Industry Press, 2014: 1- 50. | |
21 | 冯永敏. 后方车辆器材仓库保障能力评价研究[D]. 北京: 国防大学, 2019: 1-30. |
FENG Y M. Research on support ability evaluation of rear vehicle equipment warehouse[D]. Beijing: National Defense University Publishing House, 2019: 1-30. | |
22 | 周文明. 装备保障辅助决策建模与仿真[M]. 北京: 国防大学出版社, 2015: 150- 280. |
ZHOU W M . Modeling and simulation of auxiliary decision-making for equipment support[M]. Beijing: National Defense University Publishing House, 2015: 150- 280. | |
23 | 匡小平, 邓威, 李文禄. 基于灰色层次分析法的战储物资管理效能评价[J]. 军事交通学院学报, 2014, 16 (11): 55- 59. |
KUANG X P , DENG W , LI W L . Efficiency evaluation of war storage material management based on grey analytic hierarchy process[J]. Journal of Military Transportation University, 2014, 16 (11): 55- 59. | |
24 | 周庆忠, 田野, 熊彪. 联合后勤保障效能评价模型研究[J]. 物流技术, 2016, 35 (1): 173- 177. |
ZHOU Q Z , TIAN Y , XIONG B . Reaearch on evaluation model of joint logistics srpport effectiveness[J]. Logistics Technology, 2016, 35 (1): 173- 177. | |
25 | 廖爱红, 侯福均. 基于逼近理想点和层次分析法的城市安全评价[J]. 中国公共安全(学术版), 2009, 14 (1): 35- 39. |
LIAO A H , HOU F J . City security evaluating based on approximate ideal point and AHP[J]. China Public Security (Academy Edition), 2009, 14 (1): 35- 39. | |
26 | 任海泉. 军队指挥学[M]. 北京: 国防大学出版社, 2007: 296- 300. |
REN H Q . Science of military command decision[M]. Beijing: National Defence University Publishing House, 2007: 296- 300. | |
27 | 时和平, 韩桃. 基于模糊综合评判方法的装备维修人员保障能力评估[J]. 现代电子技术, 2008, 246 (1): 96- 98. |
SHI H P , HAN T . Evaluation in support ability of equipment maintenance personnel based on fuzzy comprehensive evaluation[J]. Modern Electronics Technology, 2008, 246 (1): 96- 98. | |
28 | 张建林. Matlab定量决策五大类问题-50个运作管理经典案例分析[M]. 北京: 电子工业出版社, 2013: 145- 148. |
ZHANG J L . Matlab five categories of problemsin quantitative decision-making and analysis of 50 classic cases of operation management[M]. Beijing: Publishing House of Electronics Industry, 2013: 145- 148. | |
29 | FREDERICK S. HILLER G, LIEBERMAN J. 运筹学导论[M]. 胡运权等, 译. 北京: 清华大学出版社, 2007: 783-787. |
FREDERICK S. HILLER G, LIEBERMAN J. Introduction to operation research[M]. HU Y Q, et al. Trans. Beijing: Tsinghua University Publishing House, 2007: 783-787. | |
30 | 谭守林, 闫双卡, 陈雪松. 基于指数法的巡航导弹作战效能评估模型[J]. 火力与指挥控制, 2010, 35 (5): 173- 179. |
TAN S L , YAN S K , CHEN X S . Fighting efficiency evaluation model of cruise missile based on index method[J]. Fire Control and Command Control, 2010, 35 (5): 173- 179. | |
31 | ZHOU W M, SHEN S W, XIA W X, et al. Hybrid algorithm for prediction of battlefield rescue capability of brigade medical aid station[C]//Proc. of the International Conference on Intelligent and Interactive Systems and Applications, 2018. |
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