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浙江大学学报(工学版)
浙江大学学报(工学版)  2022, Vol. 56 Issue (12): 2358-2366    DOI: 10.3785/j.issn.1008-973X.2022.12.005
机械工程     
面向多域协同的复杂产品再设计模块主从识别
邱凯1(),苏建宁2,*(),张书涛2,张志鹏1,刘世锋1
1. 兰州理工大学 机电工程学院,甘肃 兰州 730050
2. 兰州理工大学 设计艺术学院,甘肃 兰州 730050
Leader-follower identification of complex product redesign modules for multi-domain collaboration
Kai QIU1(),Jian-ning SU2,*(),Shu-tao ZHANG2,Zhi-peng ZHANG1,Shi-feng LIU1
1. School of Mechanical and Electronical Engineering, Lanzhou University of Technology, Lanzhou 730050, China
2. School of Design Art, Lanzhou University of Technology, Lanzhou, 730050, China
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摘要:

为了在多主体参与、多需求共存条件下有效识别复杂产品再设计中各模块的主从关系,提升再设计效能,构建包括认知域、需求域及模块域的多域协同评价方法. 基于认知域中不同认知主体的情感需求及物理需求,完成设计需求域的建立. 结合模糊评价及相对偏好分析,获取需求域映射的各模块域间映射重要度. 考虑模块间的关联关系,提出模糊设计结构矩阵理论与DEMATEL结合,获取各模块的域内相关重要度. 运用合作博弈思维建立结合域间映射重要度及域内相关重要度的综合评价模型,识别各模块的主从关系. 相较于从单一角度进行模块重要度分析模式,所提方法的评价结果更为客观、全面、准确. 以CKA6180数控机床为例,验证多域协同的模块主从关系评价方法的有效性与可行性.
关键词: 复杂产品再设计多域协同产品模块主从识别综合评价模型    
Abstract:

A multi-domain collaborative evaluation method including cognitive domain, demand domain and module domain was constructed, in order to effectively identify the master-slave relationship of each module in complex product redesign under the condition of multi-agent participation and multi-demand coexistence, and to improve the efficiency of redesign. The design requirements domain was established based on the emotional and physical needs of different cognitive subjects in the cognitive domain. Combined with the fuzzy evaluation and the relative preference analysis, the inter-domain mapping importance of each module for the requirement domain mapping was obtained. Considered the connection relationship among modules, a fuzzy design structure matrix combined with DEMATEL was proposed to obtain the intra-domain correlation importance of each module. Using the cooperative game method, a comprehensive evaluation model was established, which combined the inter-domain mapping importance and the intra-domain correlation importance to identify the master-slave relationship of each module. Compared with the module importance analysis mode from a single perspective, the method obtained more objective, comprehensive and accurate evaluation results. Taking the CKA6180 CNC machine tool as an example, the effectiveness and feasibility of the multi-domain collaborative evaluation method were verified.
Key words: complex product redesign    multi-domain collaboration    product module    leader-follower identification    comprehensive evaluation model
收稿日期: 2021-12-31 出版日期: 2023-01-03
CLC:  TB 472  
基金资助: 国家自然科学基金资助项目(52165033);甘肃省自然科学基金资助项目(20JR10RA168);甘肃省教育厅优秀研究生 “创新之星”资助项目(2021CXZX-445)
通讯作者: 苏建宁     E-mail: Qiukai@email.cn;sujn@lut.edu.cn
作者简介: 邱凯(1992—),男,博士生,从事产品创新设计研究. orcid.org/0000-0003-2071-4425. E-mail: Qiukai@email.cn
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引用本文:

邱凯,苏建宁,张书涛,张志鹏,刘世锋. 面向多域协同的复杂产品再设计模块主从识别[J]. 浙江大学学报(工学版), 2022, 56(12): 2358-2366.

Kai QIU,Jian-ning SU,Shu-tao ZHANG,Zhi-peng ZHANG,Shi-feng LIU. Leader-follower identification of complex product redesign modules for multi-domain collaboration. Journal of ZheJiang University (Engineering Science), 2022, 56(12): 2358-2366.

链接本文:

https://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2022.12.005        https://www.zjujournals.com/eng/CN/Y2022/V56/I12/2358

图 1  复杂产品的多域映射
评价信息 TFN
很强(VH) (0.75, 1.00, 1.00)
较强(H) (0.50, 0.75, 1.00)
较弱(L) (0.25, 0.50, 0.75)
很弱(VL) (0, 0.25, 0.50)
无(N) (0, 0, 0.25)
表 1  三角模糊数对应数值表
St $\hat z$
S1 S2 S3
S1 0 r r
S2 0 0 r
S3 r 0 0
表 2  模块间模糊关联关系
图 2  CKA6180数控机床
图 3  CKA6180数控机床功能模块分解
序号 模块名称 说明
加工模块S1 核心加工部分,根据技术保密需求仅展示床身
防护模块S2 保护机床整体及加工人员,防止加工废料飞溅;分为前防护和后防护
观察模块S3 观察加工状态
集屑模块S4 搜集加工废料并进行清洁处理
操控模块S5 机床操作系统
标识模块S6 企业标识及产品型号信息,主要位于机床的正面防护罩
吊装模块S7 支撑机床的吊装过程
检修模块S8 维护检修机床核心加工部位
警示模块S9 警示灯一般安装在机床顶部,警示标贴及说明一般张贴在机床的正面防护罩上
照明模块S10 位于后防护罩;照明加工空间
? 封装模块S11 辅助机床形成密闭空间,一般位于机床下部
? 电控模块S12 主要为加工及操控的线路排布、集成
表 3  CKA6180数控机床的功能模块说明表
图 4  数控机床研究样本集
RK ωM ωG
简洁的 0.076 0.087
现代的 0.140 0.060
科技的 0.146 0.094
沉稳的 0.055 0.171
精致的 0.121 0.112
大气的 0.124 0.079
个性的 0.077 0.093
机械感的 0.054 0.136
厚重的 0.078 0.067
协调的 0.129 0.101
表 4  用户及设计师情感需求权重
${R_\alpha } $ $ \tilde \mu _\alpha ^R $ $ \hat \mu _\alpha ^R $
R1 (0.594, 0.844, 1.000) 0.691
R2 (0.375, 0.625, 0.875) 0.505
R3 (0.656, 0.906, 1.000) 0.735
R4 (0.344, 0.594, 0.844) 0.475
R5 (0.250, 0.500, 0.750) 0.386
R6 (0.438, 0.688, 0.938) 0.564
R7 (0.563, 0.813, 0.969) 0.661
R8 (0.094, 0.344, 0.594) 0.237
R9 (0.344, 0.594, 0.844) 0.475
R10 (0.094, 0.344, 0.594) 0.237
表 5  设计需求重要度评价结果
${R_\alpha } $ ${\tilde \eta _t} $
S1 S2 S3 S12
R1 (0.000, 0.130, 0.302) (0.432, 0.604, 0.691) (0.238, 0.410.0.583) (0.000, 0.151, 0.324)
R2 (0.095, 0.205, 0.331) (0.300, 0.426, 0.505) (0.126, 0.252, 0.379) (0.016, 0.142, 0.268)
R3 (0.046, 0.230, 0.414) (0.506, 0.690, 0.735) (0.345, 0.529, 0.712) (0.046, 0.207, 0.391)
R4 (0.015, 0.205, 0.303) (0.163, 0.282, 0.401) (0.341, 0.460, 0.475) (0.000, 0.000, 0.119)
$\vdots $ $\vdots $ $\vdots $ $\vdots $ $\vdots $ $\vdots $
R10 (0.022, 0.074, 0.133) (0.126, 0.185, 0.237) (0.067, 0.126, 0.185) (0.015, 0.074, 0.133)
表 6  设计需求映射的功能模块重要度模糊评价
St $\widetilde z$
S1 S2 S3 S4 S5 S10 S11 S12
S1 0 0.134 0.145 0.111 0.103 0.070 0.042 0.039
S2 0.184 0 0.131 0.111 0.070 0.089 0.123 0.039
S3 0.134 0.111 0 0.031 0.059 0.081 0.022 0.022
S4 0.192 0.167 0.039 0 0.042 0.014 0.089 0.022
S5 0.164 0.100 0.089 0.081 0 0.078 0.022 0.059
$ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $ $ \vdots $
S10 0.167 0.153 0.142 0.031 0.089 0 0.081 0.031
S11 0.123 0.156 0.164 0.164 0.039 0.070 0 0.047
S12 0.123 0.089 0.033 0.033 0.156 0.042 0.061 0
表 7  功能模块关联关系标准化矩阵
St Jt Lt Nt
S1 6.427 3.707 10.134
S2 5.404 4.271 9.675
S3 4.142 2.746 6.888
S4 3.276 3.067 6.343
S5 3.828 3.726 7.554
S6 1.481 1.794 3.275
S7 1.408 2.623 4.031
S8 3.631 3.152 6.783
S9 2.425 3.474 5.899
S10 2.819 3.920 6.739
S11 2.823 3.840 6.663
S12 1.903 3.248 5.151
表 8  功能模块间的自相关关系
图 5  数控机床模块重要度对比关系图
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