一、可拓学相关的国内期刊论文列表（核心期刊为主）

[1] 刘音,马吉燕,陈森,吴海凤,王昊宇,胡文静.基于G1-熵权法的高校化工实验室多级可拓评价[J].实验技术与管理,2022,39(03):268-272.

[2] 张霞,何南.综合评价方法分类及适用性研究[J].统计与决策,2022,38(06):31-36.

[3] 王飞,谭征,张锦川,张荣献,王威.基于物元模型的古建筑木结构健康诊断与安全评价研究[J].林产工业,2022,59(03):55-60.

[4] 张博,王照利,雷方隽.基于层次分析法和物元分析法的森林资源质量评价——以延川县为例[J].西北林学院学报,2022,37(02):208-215.

[5] 张广泽,陈国庆,王哲威,王栋,裴本灿.川藏铁路雅安至昌都段高陡危岩发育特征与快速评价[J].工程科学与技术,2022,54(02):30-40.

[6] 王美月,宋婧馨,陈为东.学术虚拟社区社会化交互质量的物元可拓评价与敏感性分析[J].情报科学,2022,40(03):166-173+192.

[7] 何杜博,黄栋.基于改进EAHP的装备采购供应链质量绩效评价[J].运筹与管理,2022,31(02):148-154.

[8] 任君豪,王心义,王麒,王俊智,张波,郭水涛.基于多方法的煤层底板突水危险性评价[J].煤田地质与勘探,2022,50(02):89-97.

[9] 张栩静,汪永超,毛凯宁,周涛,李汶俊.基于EAHP的发动机再制造评价与应用[J].组合机床与自动化加工技术,2022(02):151-154+160.

[10] 柯丽华,张莹,李全明,李振涛,叶义成,王其虎,胡南燕.基于Spearman-EAHP变权灰云聚类模型的尾矿库安全评价[J].矿冶工程,2022,42(01):5-9.

[11] 崔文祥,靳春玲,贡力,刘晶晶,苏旸.基于物元可拓模型的黄河兰州段突发水污染安全评价[J].水土保持通报,2022,42(01):166-172.

[12] 曾盼盼,陶涛,陈星艳,尹志远,张叙俊,宋玲,袁园.TRIZ与可拓学理论在办公椅设计中的应用研究[J].家具与室内装饰,2022,29(02):36-40.

[13] 李宇佳,陈为东.学术微信公众号用户体验效果及优化策略研究[J].现代情报,2022,42(02):117-129.

[14] 张国兴,王涵.基于PSR模型的黄河流域中心城市水生态文明建设评价[J].生态经济,2022,38(02):211-216+222.

[15] 刘冠权,王越,奚浩,王志远.基于改进物元可拓模型的PC构件质量风险评价[J].混凝土,2022(01):161-166.

[16] 王孟飞,左其亭,胡长虹,王永起,姜龙,张志卓.基于物元可拓模型的沙颍河流域水资源可持续利用评价[J].华北水利水电大学学报(自然科学版),2022,43(01):18-25.

[17] 赵林淯.基于物元可拓分析法的节水型社会建设评价研究[J].华北水利水电大学学报(自然科学版),2022,43(01):76-81.

[18] 李东印,孙凯旋,王伸,王祖洸,张旭和.基于熵权-可拓理论的智能化综采工作面安全评价[J].河南理工大学学报(自然科学版),2022,41(03):1-9.

[19] 周恩泽,黄勇,向谆,罗颖婷,魏瑞增,向坤轩,周游.基于物元可拓的输电线路山火风险评估模型[J].南方电网技术,2022,16(01):145-154.

[20] 鞠萍华,许文林,谷豪东,冉琰.机械产品关键质量特性综合识别方法[J].组合机床与自动化加工技术,2022(01):71-75.

[21] 吴嘉健,杨春燕.基于可拓流模型和第三创造法的产品创新设计研究[J].机械设计,2022,39(01):146-153.

[22] 张豪,钱超.基于可拓理论的梁板式码头耐久性评价[J].浙江工业大学学报,2022,50(01):90-94.

[23] 吴波,黄惟,陈辉浩,许杰,吴兵兵.基于熵权-可拓理论的瓦斯隧道施工安全风险评估[J].中国科技论文,2022,17(01):99-104.

[24] 王兴隆,陈仔燕,刘岩.基于组合赋权法的空管监视信息质量评估[J].中国安全科学学报,2022,32(01):41-50.

[25] 王洪德,魏梓桐,马云东.隧道衬砌结构病害风险优度评价[J].辽宁工程技术大学学报(自然科学版),2022,41(02):103-108.

[26] [2]王伟,刘丹娜,王兴,高成梁,夏炜燕.黏性土冻胀风险可拓评价方法研究[J].控制理论与应用,2022,39(05):897-905.

[27] 杜红兵,贾曼,王汉滋,杜晖.民用航空器驾驶舱机组应急处置能力评估[J].安全与环境学报,2022,22(03):1387-1393.

[28] 王磊,牛耘依,孟娜,赵锋,礼晓飞,曹靖航.考虑调峰与储能特性的抽蓄电站服务电网综合评价[J].电网与清洁能源,2022,38(05):135-142.

[29] 商保利,吕超,张宇.可拓理论在催泪弹烟幕扩散效能评估中的应用[J].火力与指挥控制,2022,47(04):150-154.

[30] 邵良杉,张佳琦,于保才,白廷海.基于TF-熵权法的矿井通风系统可靠性可拓评价[J].中国安全生产科学技术,2022,18(04):106-112.

[31] 王环波,杨鹏年,刘全明,杜明亮,彭亮.基于遥感与可拓层次分析的水盐时空分异特征研究[J].农业机械学报,2022,53(06):370-379.

[32] 尚志海,梁立锋,陈宝怡,曹泳茵,王小花,戴鑫儒,董锡豪.基于物元可拓模型的珠江三角洲雾霾灾害风险评价[J].生态科学,2022,41(03):149-155.

[33] 张娇艳,贡力,贾治元,李义强,康春涛.基于改进物元可拓模型的水工混凝土耐久性影响因素分析[J].硅酸盐通报,2022,41(05):1617-1626.

[34] 王金凤,徐正强,冯立杰,李康.基于多维空间专利地图及可拓学的技术创新路径识别与评价[J].科技管理研究,2022,42(08):8-17.

[35] 郝伟,韦丽,陶泽,王金辉.除冰盐与冻融环境下在役混凝土桥梁耐久性评估[J].安全与环境学报,2022,22(03):1207-1216.

[36] 高玉琴,吴迪,刘海瑞,RonaldIGJ,朱洁.城市化影响下区域水资源承载力评价[J].水利水电科技进展,2022,42(03):1-8.

[37] 赵彬,边坡稳定性评价的组合赋权博弈论云化物元模型[J].矿业研究与开发,2022,42(06):60-67.

[38] 刘翔,王训洪,黄敦杰,易泽邦.基于博弈论-物元模型的露天矿山土地复垦为草地潜力评价[J].矿业研究与开发,2022,42(04):147-152.

[39] 李兴森,许立波,刘海涛,汪培庄.因素空间与可拓学的互补性分析及问题处理融合模型[J].智能系统学报,2022,(05):1-9.

[40] 徐冰杰,赵小矛.整体厨柜材质情感设计的可拓模型及评价研究[J].家具与室内装饰,2022,29(06):1-6.

[41] 刘贤鹏,闫尉深,刘畅,王志杰,杜逸文,徐海岩.基于交叉熵权可拓模型的公路螺旋隧道运营风险评估研究[J].公路,2022,67(07):280-288.

[42] 罗秀云,张雁,杨天宇,余朋里,杨成.基于组合赋权法沥青路面性能的物元评价模型[J].公路,2022,67(07):408-413.

[43] 方国华,陆洋洋,叶晓晶,廖涛.基于改进物元分析法的岸线开发利用风险评估[J].水利水电科技进展,2022,42(04):1-6+20.

[44] 张明睿,施伟峰.面向系统层级的城市轨道交通供电设备健康状态评估研究[J].城市轨道交通研究,2022,25(07):170-174+179.

[45] 吴梦成,孙燕,刘倩.基于改进云物元的山东省城市生态安全评价及贡献度分析[J].科学技术与工程,2022,22(20):8986-8994.

[46] 汪洪波,王春阳,高含,徐世寒.基于FFUKF路面附着系数估计的汽车牵引力控制[J].力学学报,2022,54(07):1866-1879.

[47] 马慧敏,贾丽平.“数字丝绸之路”背景下数字经济合作对策研究——以东南亚国家为例[J].国际经济合作,2022(04):14-25+92.

[48] 高聪蕊,马春利.现代中原文化图文设计可拓语义转译研究——以马街书会为例[J].包装工程,2022,43(14):425-433.

[49] 李宗坤,莫向明,葛巍,王特.基于变权集对–可拓耦合模型的溃坝后果综合评价[J].工程科学与技术,2022,54(05):64-71.

[50] 石振武,冷冰晶.基于PSR物元模型的煤炭资源城市生态修复评价[J].矿业研究与开发,2022,42(07):149-154.

[51] 刘凯,金旭东,侯敬伟.装配式项目建筑工人参与安全教育主动性综合评价[J].建筑经济,2022,43(S1):804-810.

[52] 翟晨孜,郭小东,王威.基于改进物元可拓模型的木结构古建筑地震风险评估[J/OL].太原理工大学学报:1-12.（网络首发）

[53] 张耀龙,阮拥军,赵陆昊,黄义松,郭宇荣.基于可拓云的合成旅装备保障能力评估方法研究[J/OL].现代防御技术:1-10 .（网络首发）

[54] 毕傲睿,沈超,朱洪云,张永成,江松.基于直觉模糊信息的地下储气库安全性可拓评价模型研究[J].安全与环境工程,2022,29(04):172-180.

[55] 田水承,高玲,范彬彬,孙雯,赵钊颖,蔡欣甫.基于WSR方法论的煤矿突发事件应急管理能力评价[J].西安科技大学学报,2022,42(04):647-654.

[56] 宁静,周杰,周芳琪.基于变权物元模型的黑土区土壤侵蚀风险评价[J].江苏农业科学,2022,50(15):203-209.

[57] 武兰珍,钱琛,苗开元,李景,王玉才,张燕.兰州市水资源安全评价研究[J/OL].安全与环境学报:1-12 .（网络首发）

[58] 詹敏,王铮,赵燕伟,任设东,汪磊.基于产品参数基元网络的变更传播路径优化[J].计算机集成制造系统,2022,28(08):2545-2556.

[59] 黄鸣宇,王鹏宇,张庆平,李亚平,姚良忠,廖思阳.计及调节性能及经济性的需求响应资源参与电网调频综合评价[J].武汉大学学报(工学版),2022,55(08):822-832.

[60] 陈诗昊,全世豪,李冬阳,王德超,朴成道.基于改进优度评价-AHP法的加工中心可靠性分析[J].机床与液压,2022,50(15):201-206.

[61] 王伟,马鹏达,高剑,于华海.多年冻土区原油管道地基土融沉等级可拓云评价[J/OL].油气储运:1-11 .（网络首发）

[62] 乔木,周宗红,李岳峰,李晋,刘剑.基于主客观赋权-物元可拓模型优选岩爆倾向性预测方法[J].有色金属工程,2022,12(08):119-130.

[63] 付晓莉,聂丽梅,杨树峰,仝小冬.基于可拓学的平衡训练仪感性设计研究[J].机械设计与研究,2022,38(04):186-191.

[64] 鞠伟轶,吴洁,谢逢豪,邢志祥.基于组合赋权-可拓云理论的铁路客站火灾风险评估[J/OL].铁道标准设计:1-8 .（网络首发）

[65] 王铭,翟越,汪铁楠,谢怡帆,王儒豪.基于序关系-熵权-独立性权-可拓云的内涝风险评价[J].人民长江,2022,53(08):30-35.

[66] 葛标标,杨春燕,汤龙.几何效应的可拓知识表示研究[J/OL].智能系统学报：1-10 .（网络首发）

[67] 常绪华,罗乾坤.基于改进博弈论采空区煤自燃危险性可拓评价[J].矿业安全与环保,2022,49(04):211-218.

[68] 张科学,闫星辰,何满潮,陈学习,孙健东,李东,王晓玲,亢磊,杨海江,朱俊傲,吴永伟.基于ANP-MEA模型的智能化开采工作面适应性评价研究[J/OL].采矿与岩层控制工程学报:1-9 .（网络首发）

[69] 李凤廷,何应娇,王林.食物应急活性概念建构、测度方法和实证分析[J/OL].中国流通经济:1-10 .（网络首发）

[70] 马慧敏,贾丽平.新发展格局下中非农业合作风险评价与合作对策研究[J].世界农业,2022(09):40-52.

[71] 高玉琴,李媛媛,高见,杜承霖,张鸣,武娟.虚拟水影响下区域水资源承载力评价[J].水利水电科技进展,2022,42(05):22-27+77.

[72] 郭文强,张新宇,黎泉.客船治安防控能力成熟度评价方法[J].中国航海,2022,45(03):26-32.

[73] 赵聪聪,刘玉梅,赵颖慧,白杨,施继红.基于MMFE和可拓k-medoids聚类的轴承性能退化评估[J].振动与冲击,2022,41(17):123-130+159.

[74] 陈欣,郑智江,刘文龙,吕传振,李林蔚.基于AHP的地震信息系统安全评价方法研究[J].震灾防御技术,2022,17(03):599-605.

[75] 杜岩,白云飞,张晓勇,谢谟文,马国星.基于多种风险因素的矸石山边坡风险评价[J].工程力学,2022,39(10):249-256.

[76] 李学锋,段善达,李和群,蒋夏施,黄绪兴.基于FTA-AHP-可拓学的作业触电事故安全分析与评价[J/OL].安全与环境学报:1-9 .（网络首发）

[77] 姜吉坤,刘紫君,顾志恒,李春阳.基于变权物元可拓模型的装配式建筑吊装施工安全风险评价[J/OL].武汉大学学报(工学版):1-13 .（网络首发）

[78] 陈星伊,高屹,程忠庆.多级可拓模型在建设项目质量管理评价中的应用[J/OL].济南大学学报(自然科学版),2023(05):1-9 .（网络首发）

[79] 张子琦,焦菊英,陈同德,陈玉兰,林红,徐倩,程玉卓,赵文婷.拉萨河流域中下游洪积扇土壤养分评价[J/OL].植物营养与肥料学报:1-18 .（网络首发）

[80] 陈美,檀润华,曹国忠,林聪慧,刘刚.可拓与TRIZ融合辅助设计思维过程研究[J].包装工程,2022,43(20):169-178.

[81] 杨朝义,柯超,羊劲松,周鹏超,沙有财,吴益平.基于模糊RES-可拓学理论的岩体质量评价与预测——以普朗铜矿区为例[J].安全与环境工程,2022,29(06):122-131.

[82] 郑祖芳,郭林涵,王静雯.楚漆器文化因子在城市家具设计中的应用[J].林产工业,2022,59(12):53-57.

[83] 刘琳琳,蔡煜渲,段金娟.基于可拓语义的大运河文化创意产品设计研究[J].包装工程,2022,43(24):262-268+301.

[84] 牛莉霞,胡天龙.基于可拓云模型的辽宁省水资源承载力评价[J/OL].长江科学院院报:1-9.(网络首发)

[85] 张宇帆,朱莹莹,陈奕洁,田国行.基于PSR与物元可拓模型的韧性理念下城市河流健康评价研究[J/OL].水土保持通报:1-10.(网络首发)

[86] 史佳枫,李伟,朱延涛,徐利福.基于模糊可拓层次分析的梯级水库群安全评价[J].人民长江,2022,53(12):228-234.

[87] 李千静,成思源,杨雪荣,陈斌.基于可拓创新方法的个性化产品设计研究[J].包装工程,2022,43(22):87-94.

[88] 游颖,彭宁,程浩,杨智勇.FDM打印机模块化设计过程评价[J].机械设计,2022,39(11):40-47.

[89] 于志刚,成思源,杨雪荣.基于用户需要与功能融合的已有产品创新设计[J].机床与液压,2022,50(20):106-112.

[90] 周子英,黄毅.基于可拓云模型的精准扶贫绩效评价[J].统计与决策,2022,38(20):67-71.

[91] 何鑫,余明辉,陈小齐.珠江三角洲地形不均匀变化对区域闸群适应性影响研究[J].泥沙研究,2022,47(06):66-73.

[92] 禹洪波,刘永波,黄滔滔,吴舟,罗远国,陈晓,熊炜,袁旭峰.基于可拓云模型与模糊贴近度的电能质量评估研究[J].智慧电力,2022,50(10):23-29+52.

[93] 程江洲,冯梦婷,李欣,冯馨以,闫冉阳,张晓瑀.基于组合赋权逼近理想解排序法—物元可拓模型的农业园区综合能源系统评价[J].科学技术与工程,2022,22(29):12892-12899.

[94] 王丹,梁靖涵.装配式建筑施工风险评价模型构建及应用[J].中国安全科学学报,2022,32(10):69-75.

[95] 王美慧,唐德善,尚静.基于组合权重-物元分析模型的水利改革效果评价[J].人民黄河,2022,44(10):84-88+116.

[96] 吴丹红,吴立,闫天俊,何瑞冰,谢玲丽,董道军.基于EAHP模型的市政隧道原位二扩四爆破效果评价[J/OL].地质科技通报:1-9.(网络首发)

[97] 秦雅琴,李国鑫,赵仕林,谢济铭,刘拥华.基于驾驶模拟试验的山区公路交通安全设施组合效用研究[J/OL].安全与环境学报:1-11.(网络首发)

[98] 张志成,苏晓成,刘志峰,张荣轩,杨尚朴.基于压力-状态-响应理论的水闸退役决策评价[J/OL].济南大学学报(自然科学版):1-9.(网络首发)

[99] 李啸然,陈昕.基于组合赋权的煤矿作业人员行为安全状态界定及评估研究[J/OL].矿业科学学报:1-9.(网络首发)

[100] 陈翔,程硕,赵万忠,王春燕,蒋睿.基于可拓决策法的车辆自适应避撞控制方法研究[J/OL].力学学报:1-10.(网络首发)

二、可拓学相关的英文论文列表（SCI，EI为主）

[1] Lan X, Ding G, Dai Q, et al. Assessing the degree of soil erosion in karst mountainous areas by extenics[J]. CATENA, 2022, 209: 105800.

[2] Sun S, Ma Y, Wei D, et al. Performance Evaluation of Truss Structure via Cloud Matter Element Fusion[J]. Journal of Performance of Constructed Facilities, 2022, 36(2): 04022007.

[3] Sun Y, Sun H, Li D, et al. Copper oxide nanoparticles removal by coagulation and optimization by matter–element analysis model[J]. Journal of Environmental Chemical Engineering, 2022, 10(1): 107096.

[4] Liu Y, Su D, Duan Q, et al. Recommendations for Refined Preventive Maintenance Management of Concrete Bridges in China Based on Environmental Risk Zoning[J]. Transportation Research Record, 2022: 03611981211067978.

[5] Li K, Yan X, Han Y, et al. Many-objective optimization based path planning of multiple UAVs in oilfield inspection[J]. Applied Intelligence, 2022: 1-16.

[6] Wu S. Research on Toy Design for Special Children Based on Sensory Integration Training, DS Theory, and Extenics: Taking Physical Toys for ADHD Children as an Example[J]. Scientific Programming, 2022, 2022.

[7] Zhang Z. Bearing Fault Diagnosis Based on Refined Composite Multi‐Scale Dispersion Entropy and Extenics[J]. IEEJ Transactions on Electrical and Electronic Engineering, 2022, 17(3): 479-485.

[8] Wu H, Song H, Zhang Y. Study on the Evaluation Method of Aircraft Ergonomics Defect Consequence During Flight Test[C]//International Conference on Man-Machine-Environment System Engineering. Springer, Singapore, 2021: 671-680.

[9] Jiang P, Liu Z, Zhang L, et al. Advanced traffic congestion early warning system based on traffic flow forecasting and extenics evaluation[J]. Applied Soft Computing, 2022: 108544.

[10] Hao S, Qiao Z, Zhao L, et al. AHP Matter Element Model for Expressway Service Quality Evaluation[C]//2021 International Conference on Big Data undefinedytics for Cyber-Physical System in Smart City. Springer, Singapore, 2022: 541-547.

[11] Wang X, Zheng W, Tian W, et al. Groundwater hydrogeochemical characterization and quality assessment based on integrated weight matter-element extension analysis in Ningxia, upper Yellow River, northwest China[J]. Ecological Indicators, 2022, 135: 108525.

[12] Li M, Gao T, Wang J, et al. A Performance undefinedysis Model for Corporate Human Resource Management Based on Extenics Theory[J]. Discrete Dynamics in Nature and Society, 2022, 2022.

[13] Sun F, Li C. A comprehensive evaluation method and application of shield tunnel structure health based on variable weight theory[J]. International Journal of Structural Integrity, 2022 (ahead-of-print).

[14] Wang Q. Research on security risk assessment mechanism of important event based on multi-source data[J]. Scientific Reports, 2022, 12(1): 1-10.

[15] Wang J, Chen J, Guo H. Research on Design Innovation Method Based on Extenics Compound-Element[J]. Procedia Computer Science, 2022, 199: 977-983.

[16] Liang K, Xiao-qing C, Hui L. Quality evaluation system of engineering cost education curriculum based on data clustering[J]. EAI Endorsed Transactions on Scalable Information Systems, 2022: e45-e45.

[17] Zhan Z, Xu W, Xu L, et al. BIM-Based Green Hospital Building Performance Pre-Evaluation: A Case Study[J]. Sustainability, 2022, 14(4): 2066.

[18] Wang J, Tang M, Wang H. Research on the Design of Intelligent Recycling System for Cosmetics Based on Extenics[J]. Procedia Computer Science, 2022, 199: 937-945.

[19] Gwo A E, Huang K, Pi H, et al. Extension Psychology & Counseling Based on Extenics[J]. Procedia Computer Science, 2022, 199: 845-851.

[20] Zhou Y, Zhou H. Research on the quality evaluation of innovation and entrepreneurship education of college students based on extenics[J]. Procedia Computer Science, 2022, 199: 605-612.

[21] Tao W, Wenjie L. Research on The Generation of Extension Strategy for The Transformation of Residential Buildings in Baoshui Village, Fangshan District, Beijing[J]. Procedia Computer Science, 2022, 199: 1377-1384.

[22] Wang J, Guo H, Chen J. Research on Extension Innovation Model in the Creation Process of Service Design[J]. Procedia Computer Science, 2022, 199: 992-999.

[23] Jiang P, Liu Z, Zhang L, et al. Advanced traffic congestion early warning system based on traffic flow forecasting and extenics evaluation[J]. Applied Soft Computing, 2022, 118: 108544.

[24] Gal I A, Ciocîrlan A C, Vlădăreanu L. The Hybrid Position/Force Walking Robot Control Using Extenics Theory and Neutrosophic Logic Decision[J]. Sensors, 2022, 22(10): 3663.

[25] Li H, Lu L, Yang L. Study on the extension evaluation of smart logistics distribution of fresh agricultural products based on the perspective of customers[J]. Journal of Intelligent & Fuzzy Systems, 2022 (Preprint): 1-12.

[26] Tang J, Wang D, Ye W, et al. Safety risk assessment of air traffic control system based on the game theory and the cloud matter element analysis[J]. Sustainability, 2022, 14(10): 6258.

[27] Chu B, Lin L, Ye Y, et al. Research on comprehensive benefit evaluation of photovoltaic power generation based on matter element extension model[C]//International Conference on Optoelectronic Materials and Devices (ICOMD 2021). SPIE, 2022, 12164: 78-83.

[28] Zhang J, Zhao H, Li Z, et al. Evaluation of greenness of green buildings based on carbon emissions[J]. Kybernetes, 2022 (ahead-of-print).

[29] Zhang H, Wang Q, Gao J, et al. A model of flight safety situation evaluation based on fuzzy matter-element[C]//Sixth International Conference on Electromechanical Control Technology and Transportation (ICECTT 2021). SPIE, 2022, 12081: 260-268.

[30] Li X, Zhang Z, Jim C Y, et al. Owner-based benefit evaluation of BIM applications in China's engineering projects[J]. Engineering, Construction and Architectural Management, 2022 (ahead-of-print).

[31] Zhang Y, Niu J, Zhang S, et al. Comparative study on the gastrointestinal-and immune-regulation functions of Hedysari Radix Paeparata Cum Melle and Astragali Radix Praeparata cum Melle in rats with spleen-qi deficiency, based on fuzzy matter-element analysis[J]. Pharmaceutical Biology, 2022, 60(1): 1237-1254.

[32] Gao J, Zhang H, Wang Q, et al. Safety risk evaluation of aviation system based on fuzzy evidential reasoning method[C]//Sixth International Conference on Electromechanical Control Technology and Transportation (ICECTT 2021). SPIE, 2022, 12081: 896-905.

[33] Liu J, Lu Y. Research on the evaluation of China's photovoltaic policy driving ability under the background of carbon neutrality[J]. Energy, 2022, 250: 123809.

[34] Ren W, Chen D, Tarimo C S, et al. A study on the current state and equity level of social participation ability among older adults in Henan Province, China[J]. BMC geriatrics, 2022, 22(1): 1-14.

[35] Li X, Zeng J, Liu H, et al. Intelligent Problem Solving Model and its Cross Research Directions Based on Factor Space and Extenics[J]. Annals of Data Science, 2022: 1-16.

[36] Zhang Z. Bearing Fault Diagnosis Based on Refined Composite Multi‐Scale Dispersion Entropy and Extenics[J]. IEEJ Transactions on Electrical and Electronic Engineering, 2022, 17(3): 479-485.

[37] Li B, Zhang K, Liu B, et al. Budget performance evaluation of weapon R and D projects based on cloud matter-element model[C]//2nd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2022). SPIE, 2022, 12259: 736-740.

[38] Li C, Li B. Evaluating the Credit of New Energy Power Generation Enterprises in Power Market Based on Fuzzy Best-Worst and Improved Matter-Element Extension Method[J]. Bingkang and zhao, huiru, Evaluating the Credit of New Energy Power Generation Enterprises in Power Market Based on Fuzzy Best-Worst and Improved Matter-Element Extension Method.

[39] Liu D. Measurement of Entropy Evaluation Method and Matter-Element undefinedysis Model[J]. Mobile Information Systems, 2022, 2022.

[40] Jiang Y, Zhao Z, Xiao Y, et al. Identifying the habitat quality of Scutellaria baicalensis based on baicalin content using the fuzzy matter element model[J]. Ecological Indicators, 2022, 141: 109033.

[41] Zhang Z, Fu G. Bearing Fault Detection Based on Improved Multiscale Dispersion Entropy and Single Value Classification[J]. IEEE Sensors Journal, 2022, 22(16): 15825-15833.

[42] Li W, Suh C, Xu X, Song Z. Extenics enhanced axiomatic design procedure for AI applications[J]. Artificial Intelligence for Engineering Design, undefinedysis and Manufacturing, 2022, 36, e23, 1-22.

[43] Li Q, Zhou J, Feng J. Safety Risk Assessment of Highway Bridge Construction Based on Cloud Entropy Power Method[J]. Applied Sciences, 2022, 12(17): 8692.

[44] Lu L, Hu S, Ren Y, et al. Research on Extension Design of Emergency Cold Chain Logistics from the Perspective of Carbon Constraints[J]. Sustainability, 2022, 14(15): 9083.

[45] Zhou K, Gao L. Constructing a Risk Assessment Framework for Building Integrated Photovoltaic (BIPV) Projects from the Perspective of Four-Dimensional Risk[J]. Journal of Mathematics, 2022, 2022(3): 1-17.

[46] Chen A, Wu M, Shen D, et al. Developing a Decision Support Evaluation Model Based on the Matter Element undefinedysis Method to Optimize the Environmental Flows in Dammed Rivers[J]. Water, 2022, 14(18): 2905.

[47] Luo Z, Zhao J, Qi S, et al. Evaluation of Soil Pollution by Potential Toxic Elements in Cultivated Land in the Poyang Lake Region Based on an Improved Matter–Element Extension Model[J]. Forests, 2022, 13(9): 1445.

[48] Dong Y, Chen Q, Ding W, et al. State Evaluation and Fault Prediction of Protection System Equipment Based on Digital Twin Technology[J]. Applied Sciences, 2022, 12(15): 7539.

[49] Li L, Kong D, Liu Q, et al. Comprehensive Identification of Surface Subsidence Evaluation Grades of Mines in Southwest China[J]. Mathematics, 2022, 10(15): 2664.

[50] Wei R, Chen S, Zhang S, et al. An AHP-ME-Based Vehicle Crash Prediction Model considering Driver Intention and Real-Time Traffic/Road Condition[J]. Mathematical Problems in Engineering, 2022, 2022(03): 1-11.

[51] Zhang K, Wang L, Liu J, et al. Resilience Capacity Evaluation for the Safety Management System of Power Grid Enterprise Based on AHP-MEE Model[J]. Mathematical Problems in Engineering, 2022, 2022(12): 1-15.

[52] Sun L, Liu Q, He L. The Conduction Method based on Intermediary Fusion Can Expand the Innovation of Computer Aided Architectural Design[C]//2022 IEEE 2nd International Conference on Electronic Technology, Communication and Information (ICETCI), 2022, 1325-1328.

[53] Hao S, Shan H, Wang J. Study on Vulnerability Evaluation of Emergency Logistics System Based on DPSIR and Fuzzy Matter-Element Model[C]//2022 International Conference on Management Engineering, Software Engineering and Service Sciences (ICMSS), 2022, 146-152.

[54] Liu W, Guo L, Kou Y, et al. New Energy Power Generation Enterprise Credit Evaluation Based on Fuzzy Best-Worst and Improved Matter-Element Extension Method[J]. Mathematical Problems in Engineering, 2022, 2022(07): 1-12.

[55] Cao Y, Li H, Xie Z, et al. Evaluation Model of Telemedicine Service Quality Based on Machine Sensing Vision[J]. EAI Endorsed Trans Perv Health Technology, 2022, 8(3): e5.

[56] Wu F, Huang J, Peng D, et al. Comprehensive Risk Evaluation of International Wind Farm Project in Intertidal Area Under EPC Mode Based on Matter-Element Extension Theory. In: Kolhe, M.L. (eds) Renewable Energy Systems in Smart Grid. Lecture Notes in Electrical Engineering. Springer, Singapore, 2022, 938, 33-43.

[57] Li Jinfeng,Wu Xiuheng,Zhang Xuemin,Song Zhenghe,Li Wenjuan. Design of distributed hybrid electric tractor based on axiomatic design and Extenics[J]. Advanced Engineering Informatics,2022,54.

[58] Xu Jian,Wang Haiying,Li Zhi. Evaluation of the Provincial Carbon Neutrality Capacity of the Middle and Lower Yellow River Basin based on the Entropy Weight Matter-Element Model[J]. Energies,2022,15(20).

[59] Li Qingfu,Fan Chuangshi. Evaluation of Hydraulic-Tunnel-Lining Durability Based on ANP and Cloud-Model-Improved Matter–Element Theory[J]. Sustainability,2022,14(19).

[60] Shaojun Li, Zhihao Kuang, Yaxun Xiao, Zhibin Qiao, Wenbin Yang. Rockburst tendency prediction based on an integrating method of combination weighting and matter-element extension theory: A case study in the Bayu Tunnel of the Sichuan-Tibet Railway[J]. Engineering Geology,2022,308.

[61] Fu Qiang,Sun Yurou,Wang Lei. Risk Assessment of Import Cold Chain Logistics Based on Entropy Weight Matter Element Extension Model: A Case Study of Shanghai, China[J]. International Journal of Environmental Research and Public Health,2022,19(24).

[62] Chen Hang,Wu Wei,Cao Li,Zhou Xiaode,Guo Rentai,Nie Liwei,Shang Wenxing. Source undefinedysis and Contamination Assessment of Potentially Toxic Element in Soil of Small Watershed in Mountainous Area of Southern Henan, China[J]. International Journal of Environmental Research and Public Health,2022,19(20).

[63] Yang Yingjuan,Hu Haiqing,Xue Huifeng. Water Security Comprehensive Evaluation Model based on Comprehensive Weight and Improved Matter-Element[J].Revista Internacional De Contaminacion Ambiental,2022,38.243-254.

[64] Lu Pengzhen,Zhou Yutao,Wu Ying,Li Dengguo. Risk assessment of complex footbridge based on Dempster–Shafer evidence theory using Fuzzy matter–element method[J]. Applied Soft Computing Journal,2022,131.

[65] Zhenhua Luo, Juntao Guo, Jianqiang Han, Yuhong Wang.Research on the construction safety risk assessment of prefabricated subway stations in China[J]. Engineering, Construction and Architectural Management,2022

[66] Dai Hongbin,Huang Guangqiu,Zeng Huibin,Yu Rongchuan. Haze Risk Assessment Based on Improved PCA-MEE and ISPO-LightGBM Model[J]. Systems,2022,10(6).

[67] Luo Zhenhua,Wang Fanglin,Pan Haize,Li Lin,Dai Miao. Evaluation and Improvement Strategy of Tourism Industrial Park Competitiveness from the Perspective of New Urbanization: Case Study of the Suining Tourism Industrial Park[J]. Journal of Urban Planning and Development,2022,148(4).

[68] Hao Tengteng, Zheng Xin, Wang Huiyu,Xu Kaili,Yu Yanwu. Development of a method for weight determination of disaster-causing factors and quantitative risk assessment for tailings dams based on causal coupling relationships[J].Stoch Environ Res Risk Assess,2022.

[69] Wen Yuanyao,You Tiange,Xu Yihan,Lin Shuhui,Ning Jing,You Xuemin,Xiao Yanglan. Comprehensive Evaluation of the Level of Water Ecological Civilization Construction in the Min River Basin, China[J]. Sustainability,2022,14(23).

[70] Tang Pei,Yang Ruiqi,Ni Xiaohua,Zhao Haojie,Xu Fei. Research on a lightweight unmanned sightseeing vehicle frame based on multi-condition and multi-objective optimization[J]. Advances in Mechanical Engineering,2022,14(10).

[71] Shi Chuan,Ma Jinyuan,Wu Houkai,Luo Juan,Liu Yue,Li Kun,Zhou Yuexi,Wang Kaijun. Evaluation of pH regulation in carbohydrate-type municipal waste anaerobic co-fermentation: Roles of pH at acidic, neutral and alkaline conditions.[J]. The Science of the total environment,2022,853.

[72] Cheng Zhizhong,Li Daming,Li Yuhu,Huang Zhicheng,Qiao Lihong. Construction and Implementation of Matter-Element Matching Model for Research and Development Tasks and Resources[J]. Procedia CIRP,2022,109.

[73] M. Wang, S. Chen and X. Gan.ATC System Operation Safety Assessment Based on Fuzzy Matter Element undefinedysis[C]//2022 IEEE 5th International Conference on Information Systems and Computer Aided Education (ICISCAE), 2022, pp. 32-36.

[74] W. Jinyu, L. Zhe, L. Yun, M. Gaojun, Q. Congcong and L. Yang.The Safety Evaluation Model of Transmission Line Considering Meteorological Factor[C]//2022 4th International Conference on Power and Energy Technology (ICPET), 2022, pp. 70-76.

（数据来自中国知网、万方、SCI、EI等数据资源系统，统计可能有遗漏。中国人工智能学会可拓学专委会会员如有补充或需要原文学习，请联系卢老师：extenics@vip.163.com）