一、可拓学相关的国内期刊论文列表(核心期刊为主)
[1] 郑学召,董贝贝,童鑫,等.应急救援装备保障能力评估模型[J].中国安全科学学报,2025,35(01):194-201.
[2] 李杰,赵军,李英华,等.基于区域灾害系统理论的城市安全生产风险评估[J].中国安全生产科学技术,2025,21(01):23-30.
[3] 陈哲,张春红,温庆忠.云南高原湿地生态安全评价及其影响因素分析[J/OL].湿地科学,1-11.
[4] 张雨晨,董希斌,曲杭峰,等.基于图神经网络的林分空间结构优化研究[J/OL].森林工程,1-15.
[5] 白兴易,昝酉洋,白睿昇.中原地区炙烤炊具形态事理的可拓性设计研究[J].包装工程,2025,46(04):302-313+324.
[6] 陶雪峰,石必明,岳基伟,等.物元可拓理论对废弃矿井瓦斯资源开发潜力研究[J/OL].煤炭科学技术,1-12.
[7] 陈志敏,刘宝莉,徐江涛.考虑含石量的冰碛体围岩剪切特性及分级研究[J].现代隧道技术,2025,62(01):38-47.
[8] 潘洋.城市轨道交通混合编组方案综合评价研究[J].铁道运输与经济,2025,47(02):180-189.
[9] 江友华,朱浩,江相伟,等.基于多源信息融合的变压器在线监测系统设计与软件开发[J].计算机应用与软件,2025,42(02):48-53+80.
[10] 董传富,罗晓庆,程卫,等.基于熵权-三角模糊物元可拓方法的烟草物流分拣工艺风险评价[J].安全与环境工程,2025,32(02):124-132.
[11] 樊燕燕,马茗,刘轩谷.青藏高原富水冰碛隧道施工安全韧性评价方法[J/OL].铁道科学与工程学报,1-14.
[12] 瞿英,李晨旭,张斌,等.高校实验室安全韧性评价及障碍因子诊断[J].实验技术与管理,2025,42(03):219-225.
[13] 李涛,张宏,徐鑫,等.青藏高原公路低生态影响评价与决策方法研究[J/OL].生态学报,2025,(08):1-17.
[14] 邓雅元,侯晓磊,武春丽,等.西北干旱荒漠区排矸场植被模式生态恢复效果评价[J].测绘科学,2025,50(01):180-192.
[15] 徐丽君,王煦.壮族织锦花鸟纹样感性因子提取及创新衍生设计[J].包装工程,2025,46(02):273-283.
[16] 罗娟,陈戈,程书强.基于博弈论组合赋权模糊物元模型的渭河流域陕西段可持续性评价研究[J/OL].水生态学杂志,1-15.
[17] 唐弋超,郭晓军,陈代谢,等.基于超网络与云物元模型的“卡脖子”技术甄别研究——以激光器领域为例[J/OL].情报理论与实践,1-12.
[18] 韩文,余照阳,刘飞,等.基于熵权法改进的模糊贝叶斯网络瓦斯爆炸危险性评估[J].煤矿安全,2025,56(01):52-61.
[19] 高志方,倪颖洁,彭定洪.中小企业绿色创新能力评价的HF物元可拓方法[J].生态经济,2025,41(04):79-86+95.
[20] 蔡森,郑文辉.黄河流域水资源利用与粮食产业协同发展研究[J].区域经济评论,2025,(01):114-120.
[21] 刘德发,刘泽权,李兴森.开放性问题求解的完备性知识网络研究[J].广东工业大学学报,2025,42(01):87-96.
[22] 荣侠,陆温翰,郑丽琴.基于可拓符号学的十字牌科元素家具创新设计[J].家具与室内装饰,2025,32(01):31-37.
[23] 林华建,江帆,谢宝山,等.基于资源分析和可拓创新方法的家用小型电梯低碳创新设计[J].广东工业大学学报,2025,42(01):97-106.
[24] 王体春,夏天,费叶琦.融合卷积深度置信网络与可拓神经网络的齿轮故障诊断方法[J/OL].计算机集成制造系统,1-27.
二、可拓学相关的英文论文列表(SCI,EI为主)
[1] Peng H, Zhang J, Wang X, et al. A Novel Vulnerability Evaluation Model of a Public Service Building Based on Structural Equation Modeling and Matter-Element Extension[J]. Buildings, 2025, 15(6): 948.
[2] Gui F, Zhou J, Sun X, et al. An Extenics-TRIZ integrated RFPS model for different object of design requirements[J]. PloS one, 2025, 20(1): e0316138.
[3] Sun Z, Xu S, Jiang J. Carbon Emission Reduction Assessment of Ships in the Grand Canal Network Based on Synthetic Weighting and Matter-Element Extension Model[J]. Sustainability, 2025, 17(1): 349.
[4] Chen Y, Yang S, Yu J, et al. Climate Change Risk Assessment of Coastal Airports from the Perspective of Adaptation[J]. Sustainable Futures, 2025: 100482.
[5] Zheng J, Lei H, Lu Y, et al. Comprehensive Performance Evaluation of Insulation Materials for Low-Carbon Renovation of Enclosure Structures in Old Communities Based on Cloud Model and Matter–Element Extension Method[J]. Sustainability, 2025, 17(5): 1907.
[6] Guo H, Jia S, Wang M, et al. Construction and Empirical Analysis of ESCO Risk Early Warning Model for Energy-Saving Retrofit Project of Existing Buildings Based on Cloud Matter Element Theory in China[J]. Energies (19961073), 2025, 18(6).
[7] Zhou Y, Huang W. Environmental Vulnerability Assessment of Rainstorm Waterlogging Disaster in Underground Railway[J]. Polish Journal of Environmental Studies, 2025, 34(1): 977-983.
[8] Chen Q, Li C, Lu L, et al. Optimization of Fresh Produce Supply Chain Resilience Capacity: An Extension Strategy Generation Method[J]. Symmetry, 2025, 17(2): 272.
[9] Yu Z, Yang S, Ren C, et al. Research on Reconstruction Factor Model of Old Residential Area Based on Multi-Modal Data Fusion[J]. Tehnički vjesnik, 2025, 32(1): 88-97.
[10] Liang C, Chen S, Liu C, et al. Active components unveiling and pharmacodynamic research on Valeriana jatamansi jones for ameliorating ulcerative colitis based on pharmacokinetics and network pharmacology[J]. Journal of Ethnopharmacology, 2025, 341: 119299.
[11] Mu D, Zuo Z, Mao C, et al. Assessment of Urban Rail Transit System Resilience Based on a Cloud Matter-Element Model[J]. Journal of Transportation Engineering, Part A: Systems, 2025, 151(2): 04024110.
[12] Fu L, Fan J, Shi X, et al. Concealed morphology construction and stability evaluation of two butted-well horizontal salt caverns gas storage[J]. Energy, 2025, 317: 134499.
[13] Li J, Ma L B, Liu J Z, et al. Advanced matter-element extension model and machine learning for source-specific probabilistic health risk assessment of heavy metals/metaloids in soil-rose systems in Kushui, Northwest China[J]. Ecological Indicators, 2025, 170: 113017.
[14] Ding X, Hu H, Hu Y, et al. Identification and precise control of disaster-causing hazards in metro operation and maintenance: A new method for improving metro operation safety based on data mining[J]. Computers & Industrial Engineering, 2025: 110899.
[15] Zhang Y, Cai B, Ahmed S, et al. A resilience-driven emergency maintenance operation scheme optimization method based on risk[J]. Reliability Engineering & System Safety, 2025, 254: 110630.
[16] Li Y, Liu C, Wang Y, et al. Benefit comprehensive evaluation for pumped storage power station boosting rural revitalization in the surrounding areas in China[J]. Renewable Energy, 2025, 238: 121895.
[17] Liang B, Zhu S, Long H, et al. Driving risk assessment in exit areas of highway tunnels based on driving behavior characteristics: Methods and case studies[J]. Tunnelling and Underground Space Technology, 2025, 157: 106354.
[18] Tian Z, Liu L, Ji X, et al. Dynamic performance assessment of offshore wind structures based on root morphology model[J]. Ocean Engineering, 2025, 315: 119824.
[19] Peijian J, Haohao Q, Pengzhen F, et al. Evaluating Regional Emergency Response Capabilities Using Entropy Weight and Matter-Element Extension Theory[J]. International Journal of Critical Infrastructure Protection, 2025: 100763.
[20] Guo W, Liu Y, Li Y. Precision mechanical manufacturing and product appearance VR design based on environmental thermal energy control[J]. Thermal Science and Engineering Progress, 2025, 57: 103124.
(数据来自中国知网、万方、SCI、SSCI、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)
