一、可拓学相关的国内期刊论文列表(核心期刊为主为主)
[1]王丰,顾佼佼,林瑜,孙江.3级优度评估的联合作战方案优选方法研究[J].现代防御技术,2019,47(02):116-121+136
[2]白仲航,张敏.TRIZ第2类标准解的可拓变换表示及应用研究[J].机械设计,2019,36(05):122-127
[3]江帆,卢浩然,戴杰涛,刘征.TRIZ与可拓学的关系研究[J].广州大学学报(自然科学版),2019,18(06):53-58
[4]赵亚男,陶涛.办公椅扶手壳体感性设计的可拓模型构建[J].林产工业,2019,46(01):62-65
[5]田卫明.层次可拓法在层状围岩隧道风险评估中的应用[J].工业安全与环保,2019,45(09):68-71+40
[6]任英丽,王子跃.产品意象仿生设计中的耦合逻辑研究[J].机械设计,2019,36(08):130-134
[7]曹安,汪晶晶,苏洋,唐洪松.城市社会林业可持续发展能力评价指标体系构建及应用研究[J].林业经济,2019,41(01):104-111
[8]高智慧,邹广天.城市住宅建筑立面色彩设计的可拓数据挖掘研究[J].数学的实践与认识,2019,49(09):441-540
[9]田涛,薛惠锋.城镇化背景下广州市水安全评价研究[J].人民黄河,2019,41(1):51-57
[10]赵红艳,李桥兴,吴俊芳.大健康旅游产业融合发展的可拓创意及评价--以贵州省为例[J].广东工业大学学报,2019,36(3):1-7,15
[11]沈铭.大学生创新创业能力评价体系的研究--基于粗糙可拓复合理论[J].技术经济与管理研究,2019,(7):23-28
[12]王丰.导弹武器系统参数性能指标的可拓数据挖掘[J].智能系统学报,2019,14(03):560-565
[13]陈庆,高燕,朱煜珣,袁泉.地铁建设运营期的地质风险可拓评估模型研究[J].中山大学学报(自然科学版),2019,58(05):49-58
[14]陈彦光,陈海群,高崇阳.电力建设工程施工过程风险的可拓优度评价[J].安全与环境工程,2019,26(02):105-110
[15]李丽琴,陈少晖.动力机制视角下PPP模式推广的省域匹配度研究--基于各省市的可拓模型[J].福建江夏学院学报,2019,9(04):16-24
[16]沈铭.多层次-可拓专利价值分析评价方法的研究--基于国知局专利价值分析指标体系[J].科技管理研究,2019,39(02):180-186
[17]王丰,顾佼佼,徐宇茹.多指标可拓预测方法在航空装备技术保障质量预测中的应用[J].兵器装备工程学报,2019,40(01):47-50
[18]黄伟,郭兆蕊,华亮亮.多主体利益协调的区域综合能源系统综合评价[J].电力建设,2019,40(04):81-89
[19]王丰,林瑜,农元苑.反舰导弹类型的Bayes-可拓识别模型[J].航天控制,2019,37(03):13-17+30
[20]刘志强,刘广.分布式驱动电动汽车稳定性控制仿真与试验[J].汽车工程,2019,41(07):792-799
[21]顾琳燕,唐虹,高强,张士兵,孙进,陆岁岁.缝制参数对芳纶电子织物性能的影响[J].上海纺织科技,2019,47(01):9-11
[22]严家萌,庞超逸,许立波.复杂社会网络节点重要性可拓聚类动态分析方法[J].计算机应用与软件,2019,36(07):76-82
[23]陈斯歆.各从其类,归结化一:中医术语翻译的可拓逻辑[J].辽宁中医药大学学报,2019,21(04):188-191
[24]张红,邹立.供应链金融背景下的企业信用风险评价研究[J].现代商业,2019(22):163-165
[25]王艳萍,冯正强.供应链视角下林下经济产品质量安全预警模型研究[J].中南林业科技大学学报,2019,39(05):138-144
[26]王娜娜,刘巍,仇金龙.关于航空客座率的不相容问题的研究[J].广东工业大学学报,2019,36(02):9-13
[27]卢梅,杨佳兴.轨道交通项目战略合作分包商培育与选择[J].土木工程与管理学报,2019,36(03):85-91+106
[28]郑明贵,文唯,杨欣.海外矿山并购项目层面风险评价[J].黄金科学技术,2019,27(04):598-608
[29]余华芬,潘骁骏,顾春墚,胡潭高.杭州市2016年夏季高温热害风险评价与制图[J].杭州师范大学学报(自然科学版),2019,18(06):651-660
[30]朱金善,黄成,马野.航道水域的船舶夜航环境风险评价[J].安全与环境学报,2019,19(01):43-48
[31]高扬,余青鹏.航空维修工程对外委托单位安全风险管理评价[J].中国民航大学学报,2019,37(01):17-21+33
[32]翟慧敏,程启先,李佳惠,李书覃,张迁,张向敏.鹤壁市海绵城市绩效评价模型构建与应用[J].信阳师范学院学报(自然科学版),2019,32(04):590-594
[33]蒋代,华敏,潘旭海,蒋军成.化工园区储罐多米诺效应的脆弱性评估[J].中国安全科学学报,2019,29(04):177-182
[34]王丰,顾佼佼,林瑜.积累N次主动变换的传导知识挖掘[J].智能系统学报,2019,14(05):1035-1039
[35]颜会哲,马利华,张文斌,张娇.基于AHM-MEET的分布式能源发电项目后评价研究[J].数学的实践与认识,2019,49(17):287-292
[36]徐得潜,卫尤澜.基于AHM-可拓评价法的城市雨水管道风险评估[J].水电能源科学,2019,37(09):92-95
[37]张立恒.基于AHP-熵权法的我国区域科技创新可拓学评价模型及实证研究[J].工业技术经济,2019,38(08):130-136
[38]王晓玲,戴林瀚,吕鹏, 等.基于DSR-可拓云的渗流安全综合评价研究[J].天津大学学报,2019,52(1):52-61
[39]李耀华,张海峰,魏启东.基于EAHP-FCE方法的民机修理级别确定模型[J].工程设计学报,2019,26(05):544-551
[40]马维海,曾繁慧.基于F-AHP和物元模型的水利PPP项目风险研究[J].数学的实践与认识,2019,49(19):80-90
[41]梁蕊,赵亮.基于 G1 权重法和物元分析法 LNG 储备站后评价[J].煤气与热力,2019,39(07):35-40+46:
[42]鲁佳慧,唐德善.基于PSR和物元可拓模型的水资源承载力预警研究[J].水利水电技术,2019,50(01):58-64
[43]牛国成,胡贞,胡冬梅.基于SVM与物元信息熵的变压器健康度分析与预测[J].湖南大学学报(自然科学版),2019,46(08):91-97
[44]江帆,卢浩然,陈玉梁,祁肖龙.基于TRIZ与可拓学的可变面积方桌设计[J].广东工业大学学报,2019,36(04):108-112
[45]江帆,陈玉梁,陈江栋,卢浩然,祁肖龙.基于TRIZ与可拓学的盘类铸件打磨方案设计[J].广东工业大学学报,2019,36(02):20-25
[46]刘仕兵,仇智圣,马志方.基于变权物元可拓模型的接触网健康状态综合评价[J].华东交通大学学报,2019,36(01):125-132
[47]李喜香,刘书斌,黄清杰,陈二林,马晓辉,张志瑞,张明明,杨晓玲.基于变异系数的模糊物元模型评价不同产地大黄药材质量[J].中国中医药信息杂志,2019,26(08):76-82
[48]贡力,路瑞琴,靳春玲,吴梦娟.基于博弈-改进可拓理论的寒冷地区长距离 明渠冬季运行安全评价[J].自然灾害学报,2019,28(06)::81-92
[49]钟里密,谢全敏,罗忆.基于博弈-可拓理论的隧道围岩稳定性评价[J].中国安全生产科学技术,2019,15(01):56-61
[50]张威,张庆年.基于博弈论的高速公路路面性能物元可拓评价模型研究[J].公路,2019,64(02):233-238
[51]胡俊.基于材料体验的产品创新设计方法研究[J].包装工程,2019,40(22):119-124
[52]姜安民,董彦辰,张晓波.基于层次分析-可拓模型的公路隧道施工风险评估[J].数学的实践与认识,2019,49(11):297-305
[53]张云峰.基于层次分析法--可拓理论的泥石流危险性评价[J].山西建筑,2019,45(16):75-76
[54]宋平原.基于层次可拓模型的隧道洞口段风险评估[J].公路,2019,64(05):292-296
[55]吴洁,吕品,姜鹏鹏.基于动态权重的矸石山滑坡灾害预警模型[J].中北大学学报(自然科学版),2019,40(06):549-553
[56]张龙,吴荣真,雷兵,周建民.基于多尺度熵的滚动轴承故障可拓智能识别[J].噪声与振动控制,2019,39(06):200-205
[57]李辉山,王思莹.基于多级可拓的砖木结构古建筑安全性评价[J].工程管理学报,2019,33(02):81-85
[58]石瑛莉.基于多级可拓理论的幕墙工程施工风险评价[J].建筑技术开发,2019,46(07):132-134
[59]段金娟,张峰,周鑫.基于非遗和可拓语义的服务产品设计[J].图学学报,2019,40(04):783-789
[60]韩维,李正阳,苏析超.基于改进ANP和可拓理论的航空保障系统效能评估[J].兵器装备工程学报,2019,40(08):100-105+197
[61]李世辉,葛玉峰,王如玉.基于改进变权物元可拓模型的碳信息披露质量评价[J].统计与决策,2019(21):57-61
[62]逯玉兰.基于改进的可拓层次分析法的电能质量综合评估[J].软件,2019,40(05):16-20
[63]王乾,马非,夏杨于雨,刘鹏.基于改进的可拓学模型的城市道路隧道交通安全评价[J].隧道建设(中英文),2018,38(S2):169-175.
[64]周剑,罗添允,李智勇,陈刚,俞蕙,朱建全.基于改进可拓层次分析的停电影响综合评估[J].电力系统保护与控制,2019,47(03):31-38
[65]耿志伟,薛伟,王海滨,张华超,郭德禹.基于改进物元可拓法的东北林区贮木场火险评估[J].中国安全科学学报,2019,29(06):90-96
[66]聂兴信,张婧静.基于改进物元可拓理论的露天矿山安全生产风险等级评定[J].安全与环境学报,2019,19(04):1140-1148
[67]赵杰,罗志军,赵弯弯,赵越,宋聚.基于改进物元可拓模型的鄱阳湖区耕地土壤重金属污染评价[J].农业环境科学学报,2019,38(03):521-533
[68]刘巍,李彤阳,高红.基于共轭对分析方法的生产线精益改善研究[J].广东工业大学学报,2019,36(02):43838
[69]曾欣平,吕伟,刘丹.基于供应链和可拓物元模型的乳制品企业食品质量安全风险预警研究[J].安全与环境工程,2019,26(03):145-151
[70]崔传峰,王俊豪,崔志超,潘国营.基于灰色可拓模型的洮河下游泥石流易发性评价[J].中国地质灾害与防治学报,2019,30(06):40-48
[71]张文林,成思源,杨雪荣.基于基元理论的改进功能分析方法研究[J].广东工业大学学报,2019,36(01):44119
[72]孙浩,王林峰,翁其能.基于集对-可拓层次法的富水隧道围岩安全风险评价[J].重庆理工大学学报(自然科学),2019,33(09):80-85
[73]卢梅,杨佳兴.基于绩效评价的水利水电工程战略合作分包商选择[J].水电能源科学,2019,37(06):132-136
[74]袁飞,董小蕾,王亚超.基于可拓方法的高速公路维修设备管理安全评估建模[J].机械设计与制造工程,2019,48(10):114-118
[75]赵林峰,陈无畏,王俊,从光好,谢有浩.基于可拓滑模线控转向控制策略研究[J].机械工程学报,2019,55(02):126-134
[76]刘华,张丽勇.基于可拓理论的EPC合同的技术性评价[J].建筑技术,2019,50(05):633-636
[77]贾进章,王枫潇,董铭鑫,胡竞文.基于可拓理论的LNG加气站安全评价[J].安全与环境学报,2019,19(02):365-370
[78]胡金富.基于可拓理论的边坡稳定性评价[J].中国锰业,2019,37(01):15-18
[79]邱钰峻,但鹏飞,郭斌.基于可拓理论的山区铁路枢纽土质高陡边坡稳定性评价[J].铁道建筑技术,2019,(5):43993
[80]程学庆,赖宏智,黄唯,王鑫.基于可拓评价法的高效能货物运输社会效益分析[J].铁道经济研究,2019(03):38-42
[81]刘华云,耿旭.基于可拓评价法的公共部门绩效评估:适用性、主要步骤及应用[J].系统科学学报,2020(01):88-92
[82]李运杰,谢胜,王泽阳, 等.基于可拓评价模型的海绵城市建设综合效益评价研究[J].给水排水,2019,45(12):70-76
[83]蔡英凤,臧勇,孙晓强,陈小波,陈龙.基于可拓切换控制方法的智能车辆车道保持系统研究[J].中国公路学报,2019,32(06):43-52
[84]李娜,刘巍,高红.基于可拓突变级数法的经济增长综合评价研究[J].广东工业大学学报,2019,36(03):44058
[85]朱丽芳,王珍琴,刘洋.基于可拓物元模型的城市土地综合承载力评价[J].国土资源科技管理,2019,36(03):89-105
[86]周静,高波.基于可拓学的城市交通拥堵治理有效性研究[J].综合运输,2019,41(03):42-47.
[87]王剑,郭鹏,党宁.基于可拓学的大型复杂航空飞行器效费权衡研究[J].航空工程进展,2019,10(04):505-513
[88]吴丹红,张美霞,张汉斌,吴立.基于可拓学的地铁车站深基坑施工安全评价[J].安全与环境学报,2019,19(03):761-766
[89]宋小强,罗凤娥,杨丰宁,CHEN Zhengwei.基于可拓学的航空公司应急事件处置能力评估模型研究[J].综合运输,2019,41(01):47-52+109.
[90]刘益民,曹勇,刘辉,李冉,孙鹏.基于可拓学的热力站运行效果评价方法研究[J].暖通空调,2019,49(09):124-127
[91]马艳霞,郑云水,马兵, 等.基于可拓学的铁路信号系统安全风险评价[J].控制工程,2019,26(3):525-531
[92]江帆,张春良,萧仲敏,刘镇章,吴青凤.基于可拓学的研究生创新能力培养模式研究[J].教学研究,2019,42(02):31-35
[93]何丛颖,王建庆,毋谨超, 等.基于可拓学的有居民海岛开发利用等级评价[J].海洋学研究,2019,37(2):57-61
[94]刘成浩,高常青,杨波,孙世峰.基于可拓学与仿生学的板壳结构设计[J].济南大学学报(自然科学版),2019,33(04):283-288
[95]蔡英凤,秦顺琪,臧勇,孙晓强,陈龙.基于可拓优度评价的智能汽车横向轨迹跟踪控制方法[J].汽车工程,2019,41(10):1189-1196
[96]陈林,牟凤云,李梦梅.基于可拓云模型的区域生态安全预警模型及应用--以垫江县为例[J].科学技术与工程,2019,19(35):402-408
[97]徐存东,姚志鹏,李振,朱兴林,王铭岩,王燕.基于模糊层次分析法的混凝土结构耐久性等级评估模型及应用[J].水电能源科学,2019,37(03):95-99
[98]李仔浩,杨春燕.基于逆向设计的产品可拓创意生成方法[J].机械设计,2019,36(12):127-133
[99]冯丽莹,孙泽秋,梁晓阳,曹海涛,朱永靖.基于欧式贴近度的悬挂器坐挂失效模糊物元分析[J].数学的实践与认识,2019,49(14):270-276
[100]董娜,张宁,熊峰, 等.基于熵权可拓理论的施工成本管理绩效评价[J].重庆交通大学学报(自然科学版),2019,38(2):51-58,78
[101]张梦雨,杨高升.基于熵权可拓理论的施工工种安全评价研究[J].武汉理工大学学报(信息与管理工程版),2019,41(03):235-240
[102]陈蓉芳,姜安民,董彦辰,倪佳,李旋.基于熵权可拓模型的深大基坑施工风险评估[J].数学的实践与认识,2019,49(02):311-320
[103]张娜,徐东强.基于熵权可拓物元理论的高速公路隧道围岩分级研究[J].河北工业大学学报,2019,48(04):84-90
[104]刘兵,李晓璐,张彭,朱广宇.基于熵权可拓物元模型的城市轨道交通线路运营风险评价[J].中国安全生产科学技术,2019,15(12):175-181
[105]李波,汪永超,李强,吴爱强.基于熵权可拓学的数控机床综合评价与应用研究[J].组合机床与自动化加工技术,2019(06):149-152+156.
[106]许东阳,任永泰,邓朝,成琨.基于熵权-物元的水土资源生态安全探析[J].中国环境监测,2019,35(06):102-109
[107]谢雄刚,王潞欧,陈刘瑜,李维翔,赵先伟.基于熵权物元可拓的煤层突出危险性评价[J].安全与环境学报,2019,19(06):1869-1875
[108]裴兴旺,李慧民,李文龙,孟海,李轩.基于熵权物元可拓的桥梁检测作业危险性评价[J].中国安全科学学报,2019,29(08):42-48
[109]赵永芳,张凌云,于丽雅.基于熵权物元可拓模型的冲击地压安全评价[J].煤矿安全,2019,50(06):213-218
[110]李希建,华攸金,陈刘瑜.基于熵权物元可拓模型的煤矿安全评价及其应用[J].矿业研究与开发,2019,39(09):93-99
[111]尚婷,盛启锦,白婧荣.基于熵权物元模型的隧道-互通路段安全评价[J].科学技术与工程,2019,19(12):333-338
[112]李涛,王辉明,胡宗琪.基于熵权-正态云模型的沥青路面使用性能评价[J].土木工程与管理学报,2019,36(04):190-196
[113]李博,郑琴,宁立进,韩健,朱彤.基于设计过程基因的设计过程仿生优化[J].机械设计,2019,36(06):53-63
[114]郑震霆,杨春燕.基于事元理论的机械运动系统行为知识表示研究[J].广东工业大学学报,2019,(6):1-8,23
[115]谢尊贤,李艳艳,吴晓茹,王芳,王薇.基于物元多级可拓模型的档案馆火灾安全风险评价[J].安全与环境学报,2019,19(01):21-28
[116]李志荣,朱金善,朱景林,黄成.基于物元法的船舶定线制实施后水域通航安全评价[J].安全与环境工程,2019,26(05):181-186
[117]高玉琴,刘云苹,叶柳,黄显峰,胡玉胜.基于物元分析法的泵站管理现代化评价研究[J].水资源与水工程学报,2019,30(04):124-130
[118]陈道贵.基于物元分析和组合权重的原地浸矿技术适用性评价模型[J].稀土,2019,40(04):32-39
[119]王景巍,薛伟,张华超,郭德禹,王海滨.基于物元可拓法的长白落叶松人工林采伐迹地火险等级评价[J].西部林业科学,2019,48(05):113-118
[120]张雷,仕玉治,刘海娇,李福林.基于物元可拓理论的水库初始水权分配研究[J].中国人口·资源与环境,2019,29(03):110-117
[121]甘卫华,付晨,仲任,陈云.基于物元可拓模型的"共享云冷库"运营风险评估[J].科技管理研究,2019,39(24):210-216
[122]邱礼球.基于物元可拓模型的改扩建隧道施工安全风险评估[J].隧道建设(中英文),2018,38(S2):25-30
[123]徐康,马泽宇,潘苏锋,黄燕伟,张慧颖.基于物元可拓模型的航空公司运行效率提升研究[J].航空计算技术,2019,49(05):75-78
[124]孙威虎,邹浩.基于物元可拓模型的农产品分销网络效率评价[J].物流技术,2019,38(08):68-72
[125]张仕元,李连博,赵延鹏,李昕泽.基于物元理论的罗源湾水域船舶定线制评价研究[J].江苏科技大学学报(自然科学版),2019,33(04):43836
[126]杨振宏,张梦洁,马悦,赵双静.基于物元模型的滑行类大型游乐设施安全评价[J].安全与环境学报,2019,19(06):2056-2062
[127]牛国成,胡贞,胡冬梅.基于物元信息熵的生产线健康度评估及预测[J].计算机集成制造系统,2019,25(07):1639-1646
[128]姚干勤,薛澄岐.基于相似案例的产品可拓重构设计方法[J].包装工程,2019,40(14):119-127+161
[129]徐存东,王荣荣,程慧,连海东,龚雪文,刘璐瑶,王燕.基于遥感数据分析干旱区人工绿洲灌区的水盐时空分异特征[J].农业工程学报,2019,35(02):80-89
[130]光辉,祁术洪.基于有序加权算子赋权的基坑工程项目管理绩效可拓评价研究[J].建筑技术,2019,50(06):719-722
[131]王亮.基于证据理论和直觉模糊集的作战方案评价方法[J].舰船电子工程,2019,39(09):157-161
[132]杨静雅,孙林夫,吴奇石.基于综合赋权和可拓理论的协作企业优选[J].计算机系统应用,2019,28(04):18-24
[133]虞未江,贾超,狄胜同,李康,袁涵.基于综合权重和改进物元可拓评价模型的地下水水质评价[J].吉林大学学报(地球科学版),2019,49(02):539-547
[134]赵辉,屈微璐,邱玮婷,王玥.基于组合赋权法与可拓物元的海绵城市PPP项目运作方式选择研究[J].科技管理研究,2019,39(06):200-206
[135]陈无畏,王晓,谈东奎,林澍,孙晓文,谢有浩.基于最小能耗的电动汽车横摆稳定性灰色预测可拓控制研究[J].机械工程学报,2019,55(02):156-167
[136]卢家海,李爱云.集对分析与可拓学耦合在节水灌溉后评价中的应用[J].水科学与工程技术,2019(06):1-4.
[137]林越,刘廷章,曾福庚.计及可拓理论与聚类算法的变压器异常状态检测[J].合肥工业大学学报(自然科学版),2019,42(09):1175-1180+1185
[138]王丰,顾佼佼,王蓉.舰船综合电力系统设备故障的贝叶斯-可拓诊断模型[J].兵器装备工程学报,2019,40(02):189-193
[139]丁恒,杨涛,郑小燕,张卫华,张雨.交通拥堵区边界入口可拓提升控制[J].东南大学学报(自然科学版),2019,49(04):781-787
[140]王运森,郑贵平,李元辉,吴钦正.金属矿山岩体质量评价方法进展与展望[J].中国矿业,2019,28(08):149-153
[141]白惠婷,刘玉春,赵晗,王一喆.京津冀城郊农业园区水资源利用效率评价方法及实例[J].中国农村水利水电,2019(10):84-92
[142]邓梦燕,李中华,刘青松,纪海龙.开放式教学模式下学业可拓评价的研究[J].高等理科教育,2019(02):47-52
[143]汪洪波,夏志,陈无畏.考虑人机协调的基于转向和制动可拓联合的车道偏离辅助控制[J].机械工程学报,2019,55(04):135-147
[144]王珺,董海艳,郭旭.考虑设备兼容性的电能质量综合评价方法[J].电工技术,2019(23):9-11+15.
[145]黎国栋,吴永明.可燃固体废弃物气化炉的可拓创新设计[J].装备制造技术,2019(10):67-72
[146]李仔浩,杨春燕,李文军.可拓创新方法在发电机创新设计中的应用[J].广东工业大学学报,2020,37(01):1-6.
[147]张秀芳.可拓创新方法在企业成本控制中的应用[J].财会通讯,2019(23):83-90
[148]陈艳,李浩琪,吕云翔,柴访.可拓法在地铁施工安全风险评价中的应用[J].数学的实践与认识,2019,49(14):132-139
[149]严家萌,许立波,李兴森,庞超逸,董瑞辰.可拓聚类的科教人际网络节点重要性动态分析方法[J].智能系统学报,2019,14(05):915-921
[150]朱弘扬,丁怡,柴华金,李升.可拓逻辑和可拓思维对决策树算法的分析与优化[J].广东工业大学学报,2019,36(02):31-36
[151]鄞汉藩,周彦,陆碧虹,钟兵,陈亮,黄盼,韩丽平,林娜.可拓学共轭理论在专利资源分析中的运用[J].广东工业大学学报,2019,36(03):16-24+67
[152]陈伟.可拓学理论在查利水库岩体质量分级中应用[J].山西建筑,2019,45(06):44-46
[153]李文军,杨春燕,汤龙,张文英,钟建华.可拓学中相关关系的变换方法研究[J].智能系统学报,2019,14(04):619-626
[154]刘硕,崔崇立,李雷勇.库存航材管理质量的可拓性评价[J].物流技术,2019,38(08):132-136
[155]施端阳,胡冰,彭树铭,王国超.雷达装备保障性可拓评估方法研究[J].现代防御技术,2019,47(06):113-118+125
[156]易湘斌,张玲,张继林,李宝栋,焦爱胜.绿色制造工艺优化的物元可拓评价[J].制造业自动化,2019,41(01):118-121
[157]胡明茂,孙煜,龚青山,吴岳敏.面向低碳低成本的磨削参数多目标优化动态模型[J].制造技术与机床,2019(08):30-36
[158]李联辉,许冠英,高阳,毛春雷,王宏光.面向绿色制造的产品加工工艺规划方案评估[J].中国机械工程,2019,30(17):2100-2107
[159]孙辉,吕健,寸文哲.面向设计过程的情境建模与研究[J].包装工程,2019,40(04):227-233
[160]李兴森,许立波,刘海涛.面向问题智能处理的基元-因素空间模型研究[J].广东工业大学学报,2019,36(01):1-9.
[161]董娜,张萌.面向综合管廊PPP项目的全面后评价体系[J].华侨大学学报(自然科学版),2019,40(04):494-502
[162]李艳艳,高敏华,孜比布拉·司马义.民族自治区土地生态安全时空动态评价--以宁夏回族自治区为例[J].西北师范大学学报(自然科学版),2019,55(04):107-117
[163]王双,李志平,辛倩,顾兆军.模糊综合评价法的整体安全评估[J].现代电子技术,2019,42(11):82-86
[164]张斌龙,刘建刚,戴妙林,张伟,彭大伟.南欧江五级电站碾压混凝土坝渗流性态综合评价[J].三峡大学学报(自然科学版),2019,41(03):11-15.
[165]唐莲,刘子西,齐娅荣.宁夏水资源安全综合评价[J].安全与环境学报,2019,19(05):1810-1816
[166]曹蕊.区域高新技术产业持续创新能力评价--以福州市为例[J].技术与创新管理,2019,40(02):195-202
[167]郝德亮,安永林,李佳豪,岳健,曾贤臣,周进.融合AHP法-PC法-可拓法的两阶段隧道风险评估[J].矿业工程研究,2019,34(03):38-45
[168]刘晓敏,程广驰,李娇蓉,陈亮.融合仿生学与可拓学的自清洁玻璃创新设计[J].中国工程机械学报,2019,17(04):323-328+334
[169]赵燕伟,朱芬,桂方志,任设东,谢智伟,徐晨.融合可拓关联函数的密度峰值聚类算法[J].小型微型计算机系统,2019,40(12):2512-2518
[170]刘晓敏,李娇蓉,陈亮,程广驰.融合可拓学与多层次知识建模的仿生原型获取[J].机械工程学报,2019,55(21):150-160
[171]王欢,凡超文,韩长玉.弱膨胀土膨胀性判别与分级方法研究[J].河南大学学报(自然科学版),2019,49(02):235-241
[172]许立波,李兴森,郭研.三参数区间数下非线性可拓关联度决策方法[J].控制与决策,2019,34(10):2203-2212
[173]姜屯华,李桥兴,吴俊芳.社区医院商业模式的可拓创新研究[J].广东工业大学学报,2019,36(04):99-107
[174]吴勇,周珊.土地整理项目的生态环境影响评价--以南充市S镇为例[J].西南石油大学学报(社会科学版),2019,21(04):37-42
[175]臧晶,李成华,田野.卫星遥感农业监测系统中实例检索算法研究[J].宇航学报,2019,40(11):1358-1366
[176]王丰,顾佼佼.武器系统效能分析提高的可拓策略思路方法生成研究[J].指挥控制与仿真,2019,41(01):60-63
[177]林贵杰,刘晓敏,闫盛青,程广驰.物场分析的可拓方法研究[J].机械制造与自动化,2019,48(03):115-119
[178]王红梅.物元模型分析下农产品冷链物流运输质量评估[J].计算机仿真,2019,36(12):396-400
[179]任永泰,许东阳,成琨.物元模型在水土资源生态安全评价中的应用[J].北方园艺,2019(04):191-197
[180]丁怡,朱弘扬.物元相关网在企业联盟合作模式选择中的应用[J].科技创新导报,2019,16(28):156-162
[181]王引兄,郝伟,崔晶晶.西北干寒地区在役混凝土梁桥可靠性评价[J].铁道科学与工程学报,2019,16(11):2766-2774
[182]袁平,刘艳彬,李兴森.乡村旅游公共交通供给的可拓创新研究[J].广东工业大学学报,2019,36(02):14-19
[183]卜晓阳,赵郭燚,陈鹏,王宗伟,金鹏,武鹏,汪莉,郑悦,梁作放.新电改背景下供电服务质量综合评价--基于熵权物元可拓模型的分析[J].价格理论与实践,2019(03):147-150
[184]刘聪,何平.新能源集中接入配电网可拓层次评估仿真[J].计算机仿真,2019,36(11):49-53
[185]焦庆龙,徐达.性能试验阶段装甲车辆维修性定性指标综合评价[J].火力与指挥控制,2019,44(07):21-26
[186]张凯,陈寿根,霍晓龙,谭信荣.岩溶地区隧道涌水风险的可拓评价模型及应用[J].现代隧道技术,2019,56(04):89-96
[187]任设东,赵燕伟,洪欢欢,桂方志,谢智伟.一种面向低碳设计的多属性相似实例检索方法[J].机械工程学报,2019,55(01):149-159
[188]张启龙,许杰,高斌,李进,龚宁.以抑制管柱结垢腐蚀为目标的注水井水源选择方法研究及应用[J].表面技术,2019,48(11):290-296+311
[189]高新勤,荆彦臻,王雪萍,原欣.云制造模式下面向加工设备的服务聚类与初选方法[J].计算机集成制造系统,2019(3):703-713
[190]李福海,靳贺松,余泳江,胡志明,王奕彬.再生混凝土粗骨料的质量分级优选评价[J].西南交通大学学报,2019,54(04):793-800+815
[191]洪闯,李贺,彭丽徽, 等.在线健康咨询平台信息服务质量的物元模型及可拓评价研究[J].数据分析与知识发现,2019,3(8):41-52
[192]艾祖斌,张晨曦,曾兆文,曹振生,孙永超.长大深埋隧道未开挖段岩爆灾害风险评估[J].中国安全生产科学技术,2019,15(08):168-173
[193]田山山,田莉,赖延年,赵媛劼,魏朗,周文财.针对营运班线的公路客运安全管理水平评价研究[J].重庆理工大学学报(自然科学),2019,33(07):253-260
[194]任崇强.中国经济适应性能力综合评价、协调机制及其调控措施[J].经济问题探索,2019(04):36-45
[195]任崇强,孙东琪,翟国方,李宇.中国省域经济脆弱性的综合评价及其空间差异分析[J].经济地理,2019,39(01):37-46
[196]熊婷,王湛,田勇,万莉莉.终端区运行效能综合评价方法[J].科技管理研究,2019,39(12):64-70
[197]张钰.众创空间可持续发展的熵权可拓综合评价研究--以东部10省市为例[J].现代商业,2019(31):46-48.
二、可拓学相关的英文论文列表(SCI,EI为主)
[1] Chen Q,Cai J,Rong Y . Comprehensive Assessment of Transformer Insulation Condition Based on Extension Theory[J]. IOP Conference Series Earth and Environmental Science, 2019, 218(1):012069.
[2] Gao N,Du Y,Zhao Y . Real-time Human Corneal Images Processing undefinedysis of Placido Disk Corneal Topography Using Extenics[J]. Procedia Computer Science, 2019, 162:383-391.
[3] Gu P F,Xi W,Ye W P,et al. Extenics matter-element analysis on dilemma problem in HMI design of nuclear power plant[J]. Nuclear Engineering and Design, 2019, 350(AUG.):176-181.
[4] Han Y,Li K,Ge F . Multiple Fault Diagnosis for Sucker Rod Pumping Systems Based on Matter Element undefinedysis with F-statistics[C]//2019 IEEE 8th Data Driven Control and Learning Systems Conference (DDCLS). IEEE, 2019.
[5] Han, Han; Li, Huimin; Zhang, Kaize (2019). Urban Water Ecosystem Health Evaluation Based on the Improved Fuzzy Matter-Element Extension Assessment Model: Case Study from Zhengzhou City, China. Mathematical Problems in Engineering, 2019, 1–14. al. Risk assessment for construction of urban rail transit projects[J] . Safety Science, 2019, 118:583-594.
[6] Li H,Shang J,Shen Z,et al. Research on Network Level Pavement Maintenance Decision-Making Based on Matter-Element Model[C] // 19th COTA International Conference of Transportation Professionals. 2019.
[7] Lianhui L I,Guanying X U,Gao Y,et al. Evaluation of Product Process Planning Schemes for Green Manufacturing. China Mechanical Engineering, 2019.
[8] Liu G,Ran D,Feng Z,et al. Site selection of LNG terminal based on cloud matter element model and principal component analysis[J]. MATEC Web of Conferences, 2019, 272(3):01027.
[9] Liu R Y,Wang J J,Li R . Study on Accident Impact Situation Cluster undefinedysis[C]// 19th COTA International Conference of Transportation Professionals. 2019.
[10] Liu Y ,Tang C A ,Wang P Y,et al. Study on Disease Mechanism and Theoretical Quantification Method of Tunnel Structure[J]. Advances in Civil Engineering, 2019, 2019(10):1-14.
[11] Luan X,Cheng L ,Song Y,et al. Performance evaluation and alternative optimization model of light rail transit network projects: A real case perspective[J]. Canadian Journal of Civil Engineering, 2019, 46(9):836-846.
[12] Luo, Zhenhua; Zeng, Li; Pan, Haize; Hu, Qijun; Liang, Bo; Han, Jianqiang (2019). Research on Construction Safety Risk Assessment of New Subway Station Close-Attached Undercrossing the Existing Operating Station. Mathematical Problems in Engineering, 2019, 1–20.
[13] Ma L,X Cong. Social stability risk assessment of NIMBY major projects by OWA, matter-element, and cloud model[J] . Journal of Intelligent and Fuzzy Systems, 2019, 36(3):2545-2556.
[14] Meng J,Xu R,Li D,et al. Combining the Matter-Element Model With the Associated Function of Performance Indices for Automatic Train Operation Algorithm[J]. IEEE Transactions on Intelligent Transportation Systems, 2019.
[15] Niu G,Zhen H U,Dongmei H U . undefinedysis and Prediction of Transformer Health Index Based on SVM and Matter Element Information Entropy[J]. Journal of Hunan University(Natural Sciences), 2019.
[16] Pan W J,Ren J,Wang R D . Air Traffic Management Process Quality Assessment Model Based on Improved Fuzzy Matter Element undefinedysis[J]. Journal of Physics: Conference Series, 2019, 1187(5):052069 (9pp).
[17] Q. Wang and S. Li, "Shale gas industry sustainability assessment based on WSR methodology and fuzzy matter-element extension model: The case study of China," Journal of Cleaner Production,2019,226,336-348.
[18] Seyedmohammadi J,Sarmadian F,Jafarzadeh A A,et al. Development of a model using matter element, AHP and GIS techniques to assess the suitability of land for agriculture[J]. Geoderma, 2019, 352:80-95.
[19] Shen Geoffrey Q. P, A. Mohamed and W. Yaowu, Operation and maintenance performance evaluation of PPP project in urban underground comprehensive pipe gallery[J],ICCREM 2019. Innovative Construction Project Management and Construction Industrialization. 2019, 355-61.
[20] Song D,Yang M,Bai H,et al. A Comprehensive Evaluation Model of Power Market Operation Efficiency Based on Extension Cloud Theory[J]. Energy Procedia, 2019, 156:302-309.
[21] Song Z, Zhang J, Xiao X,et al. Multi-energy combined peak dispatching system synthetic benefit evaluation based on variable weight theory and matter-element extension model[J ]. International Journal of Energy Sector Management, 2019, 13(3):713-725.
[22] Sui Z, Hou T, Duan L,et al. Research on optimization of Production Workshop Layout Based on Extension Particle Swarm optimization[C]. 2019 Chinese Control Conference (CCC), 2019,2228-33.
[23] Tan, Zhongfu; Tan, Qingkun; Ju, Liwei; Yang, Shenbo; Cheng, Huangfu; Ma, Jiale (2019). Trend undefinedysis and Comprehensive Evaluation of Green Production Principal Component of Thermal Power Unit Based on ANP-MEEM Model. Discrete Dynamics in Nature and Society, 2019, 1–11.
[24] Vladareanu L, Vladareanu V, Melinte O,et al. Mobile Robots Applied on Virtual and Real Environments[C]. 2019 22nd International Conference on Control Systems and Computer Science (CSCS). 2019,610-15.
[25] Wang C P, Fan S D, Yao Y N . Evaluation Method for Multivariate and Three-dimensional of Oil Port Equipment Management Effectiveness[C] 2019 5th International Conference on Transportation Information and Safety (ICTIS), 1369-76, 2019.
[26] Wang Q, Li S, Li R . Evaluating water resource sustainability in Beijing, China: Combining PSR model and matter-element extension method[J]. Journal of Cleaner Production, 2019, 206(PT.1-1156):171-179.
[27] Wang Q, Li S, Li R . Evaluating water resource sustainability in Beijing, China: Combining PSR model and matter-element extension method[J]. Journal of Cleaner Production, 2019, 206(PT.1-1156):171-179.
[28] Wang T, Ma J, Wang D,et al. Extenics: A new approach for the Design, Reconstruction and Renewal of Traditional Villages[J]. Procedia Computer Science, 2019, 162:908-915.
[29] Wang W, Lyu S, Y Zhang, et al. A Risk Assessment Model of Coalbed Methane Development Based on the Matter-Element Extension Method[J]. Energies, 2019, 12(20):3931-.
[30] Wang X,Yu H,Peng L,et al. Seepage Safety Assessment of Concrete Gravity Dam Based on Matter-Element Extension Model and FDA[J]. Energies, 2019, 12(3):502.
[31] Wei H,Yang Z . Comprehensive Evaluation of Energy System in Characteristic Towns Based on Matter-element Extension Model[C]. Proceedings of 2019 IEEE PES Innovative Smart Grid Technologies Europe, 2019, 8905530.
[32] X Wu, Liu S,Sun Y,et al. Ecological security evaluation based on entropy matter-element model: A case study of Kunming city, southwest China[J] . Ecological Indicators, 2019, 102(JUL.):469-478.
[33] Xiang Y, Cui Y,Weiyao, et al. A study on the construction of evaluative system of Smart City based on entropy-weighted matter-element modelmethod[J]. Concurrency and computation: practice and experience, 2019, 31(9):e5010.1-e5010.10.
[34] Yao L, Lu S . Early-warning of socioeconomic-traffic resource-environment compound system carrying capacity in Yangtze River Economic Belt[J] . Iop Conference, 2019, 227(5):052057.
[35] Yao S, Li X, Liu C,et al. Quantitative Assessment of Impact of the Proposed Poyang Lake Hydraulic Project (China) on the Habitat Suitability of Migratory Birds[J]. Water, 2019, 11(8):1639.
[36] Zhang K, Shen J, H Han, et al. Urban River Health undefinedysis of the Jialu River in Zhengzhou City Using the Improved Fuzzy Matter-Element Extension Model[J] . Water, 2019, 11(6):1190.
[37] Zhang K, Zheng W, Xu C,et al. An Improved Extension System for Assessing Risk of Water Inrush in Tunnels in Carbonate Karst Terrain[J] . KSCE Journal of Civil Engineering, 2019,23(5), 2049-64.
[38] Zhao S, Zhang L, Hou L,et al. Method on condition assessment of pitch system based on fuzzy matter-element analysis[J ]. IOP Conference Series: Materials Science and Engineering, 2019, 592:012092.
[39] undefinedysis of distributed database access path prediction based on recurrent neural network in internet of things[J]. Concurrency and Computation: Practice and Experience, 2019.
[40] Feng-Chang, Gu, Hung-Cheng, et al. A Fractional Fourier Transform-Based Approach for Gas-Insulated Switchgear Partial Discharge Recognition[J ].Journal of Electrical Engineering & Technology, 2019, 14(5):2073–2084.
[41] Junhong, Huan, Donghui, et al. Safety-state evaluation model based on structural entropy weight–matter element extension method for ancient timber architecture:[J].Advances in Structural Engineering, 2019, 23(6):1087-1097.
[42] Tian, Fu, Su, et al. Classifying and Predicting Salinization Level in Arid Area Soil Using a Combination of Chua's Circuit and Fractional Order Sprott Chaotic System[J]. Sensors, 2019, 19(20):4517-.
[43] Yan, Song, Hongwei, et al. Power System Risk Research Based on Entropy Weight Matter Element Extension Model[J] . IOP Conference Series: Earth and Environmental Science, 2019, 242(2):22005-22005.
[44] Zhao, Shuangxi, Zhang, et al. Method on condition assessment of pitch system based on fuzzy matter-element analysis[C ]// 第二届制造技术,材料和化学工程国际学术会议(MTMCE 2019).
[45] Z. Huikai and M. Lianguang, "Effect Evaluation of Real Estate Marketing Planning Course Teaching Reform System Based on Multidimensional Extension Matter Element Model," 2019 11th International Conference on Measuring Technology and Mechatronics Automation (ICMTMA), 2019, 753-759,
[46] Sui Z, Hou T, Duan L,et al. Research on optimization of Production Workshop Layout Based on Extension Particle Swarm optimization[C]. 2019 Chinese Control Conference (CCC), 2019,2228-33.
[47] LIU Hongxin,ZHOU Xingyu,JIA Ru,FU Lulu.Design and Reuse Technology of Mechanical Soybean Seed-metering Device Based on CBR[J].Transactions of the Chinese Society for Agricultural Machinery,2019,50(7):39-50.
[48] H Han, H Li, Zhang K . Urban Water Ecosystem Health Evaluation Based on the Improved Fuzzy Matter-Element Extension Assessment Model: Case Study from Zhengzhou City, China[J]. Mathematical Problems in Engineering, 2019, 7502342.
[49] Zhou, Congcong; Ma, Quandang; Jiang, Yujie, Risk assessment study in the port water area based on entropy weight and matter-element model, Proceedings of the International Offshore and Polar Engineering Conference, 2019,(3), 3830-3835.
[50] Ou B, Gong A, He C,et al. Dynamic evaluation of water source safety based on fuzzy extension model[J]. Membrane Water Treatment, 2019, 10(2):149-154.
[51] Liu Wei, Li Tong-yang, Gao Hong. A Lean Improvement Research Based on Conjugate Pair undefinedysis Method[J]. Journal of Guangdong University of Technology, 2019, 36(02): 1-8.
[52] Quan X . A matter-element method for risk identification of technology innovation[J]. International Journal of System Assurance Engineering & Management, 2018, 9(3):1-13.
[53] Yuan Ping, Liu Yan-bin, Li Xing-sen. A Study of Rural Tourist Public Transport Service Supply Innovation Based on Extenics[J]. Journal of Guangdong University of Technology, 2019, 36(02): 14-19.
[54] Niu G, Zhen H U, Dongmei H U . undefinedysis and Prediction of Transformer Health Index Based on SVM and Matter Element Information Entropy. Journal of Hunan University(Natural Sciences), 2019.
[55] Yang Y, Shao M H . Application of Matter Element Extension Model in the Design of Pet Nail Clippers[C]// IEEE International Conference on Advanced Manufacturing. 2019.
[56] Meng J, Xu R, Li D,et al. Combining the Matter-Element Model With the Associated Function of Performance Indices for Automatic Train Operation Algorithm[J]. IEEE Transactions on Intelligent Transportation Systems, 2019.
[57] Chen, Qunjing; Cai, Jinding; Ye, Rong (2019). Comprehensive Assessment of Transformer Insulation Condition Based on Extension Theory. IOP Conference Series: Earth and Environmental Science, 218(), 012069–.
[58] Chen, Qunjing; Cai, Jinding; Ye, Rong (2019). Comprehensive Assessment of Transformer Insulation Condition Based on Extension Theory. IOP Conference Series: Earth and Environmental Science, 218(), 012069–.
[59] Wang F,Xu Z ,Pan W, et al. Construction and Application of Groundwater Environmental Health Assessment Model Based on Entropy Weight and Fuzzy Matter Element[J]. IOP Conference Series Earth and Environmental Science, 2020, 446:052043.
[60] Z. Huikai and M. Lianguang, "Effect Evaluation of Real Estate Marketing Planning Course Teaching Reform System Based on Multidimensional Extension Matter Element Model," 2019 11th International Conference on Measuring Technology and Mechatronics Automation (ICMTMA), 2019, pp. 753-759
[61] Qiang X, Rh B, Cm B,et al. Evaluation of urban taxi-carpooling matching schemes based on entropy weight fuzzy matter-element[J]. Applied Soft Computing, 81.
[62] Zhang W, Wang Z, Shao J,et al. Evaluation on the Stability of Vertical Mine Shafts below Thick Loose Strata Based on the Comprehensive Weight Method and a Fuzzy Matter-Element undefinedysis Model[J]. Geofluids, 2019, 2019(7):1-15.
[63] Liu R, Li X, Chen S . Extension undefinedysis of Manufacturing Cost and Construction of basic-elements Model - ScienceDirect[J]. Procedia Computer Science, 2019, 162:156-165.
[64] Chen S, Li X, Liu R,et al. Extension data mining method for improving product manufacturing quality[J]. Procedia Computer Science, 2019, 162:146-155.
[65] How to disseminate Core Socialist Values Online: A New Method Based on Extenics[J]. Procedia Computer Science, 2019, 162:139-145.
[66] Zhao S, Zhang L, Hou L,et al. Method on condition assessment of pitch system based on fuzzy matter-element analysis[C]// 第二届制造技术,材料和化学工程国际学术会议(MTMCE 2019).
[67] Z. Song et al, "Multi-energy combined peak dispatching system synthetic benefit evaluation based on variable weight theory and matter-element extension model," International Journal of Energy Sector Management, vol. 13, (3), pp. 713-725, 2019.
[68] Han Y, Li K, Ge F . Multiple Fault Diagnosis for Sucker Rod Pumping Systems Based on Matter Element undefinedysis with F-statistics[C]// 2019 IEEE 8th Data Driven Control and Learning Systems Conference (DDCLS). IEEE, 2019.
[69] Yan, Song, Hongwei, et al. Power System Risk Research Based on Entropy Weight Matter Element Extension Model[J]. IOP Conference Series: Earth and Environmental Science, 2019, 242(2):22005-22005.
[70] Wang X, Y Zou, Wang Q,et al. Quantitative Evaluation of Karst Developmental Differences Based onImproved undefinedytic Hierarchy Process and Multidimensional Extension Matter Element Model[J]. Geofluids, 2019, 2019(1):1-12.
[71] X Xue, Zhang J, X Zhou. Reliability Evaluation of Water-Rich Loess Tunnel with Lining Crack Based on Extension Theory[J]. Advances in Civil Engineering, 2019, 2019(2):1-10.
[72] Y. Huang et al, "Research on grid supervision index system based on AHP and Multi-level Matter-element undefinedysis Model in China," IOP Conference Series. Materials Science and Engineering, vol. 677, (4), pp. 42022, 2019.
[73] Li H, Shang J, Shen Z,et al. Research on Network Level Pavement Maintenance Decision-Making Based on Matter-Element Model[C]// 19th COTA International Conference of Transportation Professionals. 2019.
[74] P. Wang, H. Wang and X. Chen, "Research on reliability comprehensive evaluation method of five-axis CNC machine tools based on AHP and extension theory," Journal of Engineering (Stevenage, England), vol. 2019, (23), pp. 8599-8603, 2019.
[75] Cai Z, Yang C . Research on the Extension Evaluation Model and Strategy Generation Method of Enterprise Service Quality[J]. Procedia Computer Science, 2018, 139:381-391.
[76] Xiao Q, Wan S, Lu F,et al. Risk Assessment for Engagement in Sharing Economy of Manufacturing Enterprises: A Matter–Element Extension Based Approach[J]. Sustainability, 2019, 11.
[77] Liu G, Ran D, Feng Z,et al. Site selection of LNG terminal based on cloud matter element model and principal component analysis[J]. MATEC Web of Conferences, 2019, 272(3):01027.
[78] Ma L, X Cong. Social stability risk assessment of NIMBY major projects by OWA, matter-element, and cloud model[J]. Journal of Intelligent and Fuzzy Systems, 2019, 36(3):2545-2556.
[79] Zhang K, Shen J, H Han, et al. Urban River Health undefinedysis of the Jialu River in Zhengzhou City Using the Improved Fuzzy Matter-Element Extension Model[J]. Water, 2019, 11(6):1190.
[80] Dawei, Song; Meng, Yang; Hongkun, Bai; Hujun, Li; Jiangbo, Wang; Jiani, Wang; Guangyu, Qin (2019). A Comprehensive Evaluation Model of Power Market Operation Efficiency Based on Extension Cloud Theory. Energy Procedia, 156(), 302–309.
[81] Zhang, Kaize; Shen, Juqin; Han, Han; Jia, Yizhen (2019). Urban River Health undefinedysis of the Jialu River in Zhengzhou City Using the Improved Fuzzy Matter-Element Extension Model. Water, 11(6), 1190–.
[82] Gu, Peng-fei; Xi, Wang; Ye, Wang-ping; Shi, Ji; Zhao, Jing (2019). Extenics matter-element analysis on dilemma problem in HMI design of nuclear power plant. Nuclear Engineering and Design, 350(), 176–181.
[83] Yuan, Ping; Zhao, Xiao-rui; Zeng, Shouzhen (2019). Extenics based Innovation of New Professional Farmer Cultivation under the Strategy of Rural Vitalization. Procedia Computer Science, 162(), 131–138.
[84] Liu, Shiliang; Li, Wenping (2019). Indicators sensitivity analysis for environmental engineering geological patterns caused by underground coal mining with integrating variable weight theory and improved matter-element extension model. Science of The Total Environment, 686(), 606–618.
[85] Jiang, Dai; Pan, Xu-Hai; Hua, Min; Mébarki, Ahmed; Jiang, Jun-Cheng (2019). Assessment of tanks vulnerability and domino effect analysis in chemical storage plants. Journal of Loss Prevention in the Process Industries, 60(), 174–182.
[86] Wang, Yumin; Ran, Weijian (2019). Comprehensive Eutrophication Assessment Based on Fuzzy Matter Element Model and Monte Carlo-Triangular Fuzzy Numbers Approach. International Journal of Environmental Research and Public Health, 16(10), 1769–.
[87] Tian,An-Hong;Fu,Cheng-Biao;Xiong,Hei-Gang;Yau,Her-Terng(2019). Innovative Intelligent Methodology for the Classification of Soil Salinization Degree Using a Fractional-Order Master-Slave Chaotic System. International Journal of Bifurcation and Chaos, 29(2), 1950026–.
[88] Guan, Xinjian; Qin, Haidong; Meng, Yu; Wu, Zening (2019). Comprehensive evaluation of water-use efficiency in China’s Huai river basin using a cloud–compound fuzzy matter element–entropy combined model. Journal of Earth System Science, 128(7), 179–.
[89] Yu, Zhiwei; Chen, Liming; Li, Xingsen (2019). How to disseminate Core Socialist Values Online: A New Method Based on Extenics. Procedia Computer Science, 162(), 139–145.
[90] Jiang, Ping; Li, Chen; Li, Ranran; Yang, Hufang (2018). An innovative hybrid air pollution early-warning system based on pollutants forecasting and Extenics evaluation. Knowledge-Based Systems, (), S0950705118305288–.
[91] Reinhardt, S.; Butschkow, C.; Geissler, S.; Dirnaichner, A.; Olbrich, F.; Lane, C.E.; Schröer, D.; Hüttel, A.K. (2019). Lab::Measurement—A portable and extensible framework for controlling lab equipment and conducting measurements. Computer Physics Communications, 234(), 216–222.
[92] ZhiGang, Tao; DongDong, Zhao; XiaoJie, Yang; JiaMin, Wang; Yu, Shu (2019). Evaluation of Open-Pit Mine Security Risk Based on FAHP-Extenics Matter-Element Model. Geotechnical and Geological Engineering, (), –.
[93] Song, Zongyun; Zhang, Jian; Xiao, XInli; Niu, Dongxiao (2019). Multi-energy combined peak dispatching system synthetic benefit evaluation based on variable weight theory and matter-element extension model. International Journal of Energy Sector Management, (), IJESM-08-2018-0004–.
[94] Wang, Xinyi; Zou, Yu; Wang, Qi; Liu, Xiaoman; Zhang, Pingqing; Li, Jianlin; Yao, Mengjie (2019). Quantitative Evaluation of Karst Developmental Differences Based on Improved undefinedytic Hierarchy Process and Multidimensional Extension Matter Element Model. Geofluids, 2019(), 1–12.
[95] Chen, Cha’o-Kuang; Li, Yu-Chung (2018). Intelligent real-time monitoring of Computer Numerical Control tool wear based on a fractional-order chaotic self-synchronization system. Journal of Low Frequency Noise, Vibration and Active Control, (), 146134841879050–.
[96] Dong, ; Wang, ; Liu, ; Ainiwaer, ; Nie, (2019). Operation Health Assessment of Power Market Based on Improved Matter-Element Extension Cloud Model. Sustainability, 11(19), 5470–.
[97] Xue, Xiaohui; Zhang, Jun; Zhou, Xinxing (2019). Reliability Evaluation of Water-Rich Loess Tunnel with Lining Crack Based on Extension Theory. Advances in Civil Engineering, 2019(), 1–10.
[98] Zhang, Wenquan; Wang, Zaiyong; Shao, Jianli; Zhu, Xianxiang; Li, Wei; Wu, Xintao (2019). Evaluation on the Stability of Vertical Mine Shafts below Thick Loose Strata Based on the Comprehensive Weight Method and a Fuzzy Matter-Element undefinedysis Model. Geofluids, 2019(), 1–15.
[99] Xiao, Quan; Wan, Shanshan; Lu, Fucai; Li, Shun (2019). Risk Assessment for Engagement in Sharing Economy of Manufacturing Enterprises: A Matter–Element Extension Based Approach. Sustainability, 11(17), 4774–.
[100] Ma, Li; Cong, Xuhui (2019). Social stability risk assessment of NIMBY major projects by OWA, matter-element, and cloud model. Journal of Intelligent & Fuzzy Systems, 36(3), 2545–2556.
[101] Gao, Nan; Du, Yuxuan; Zhao, Yanwei (2019). Real-time Human Corneal Images Processing undefinedysis of Placido Disk Corneal Topography Using Extenics. Procedia Computer Science, 162(), 383–391.
[102] Huan, Junhong; Ma, Donghui; Wang, Wei; Guo, Xiaodong; Wang, Ziyi; Wu, Linchao (2019). Safety-state evaluation model based on structural entropy weight–matter element extension method for ancient timber architecture. Advances in Structural Engineering, (), 136943321988608–.
[103] Jiang, Ping; Li, Chen; Li, Ranran; Yang, Hufang (2018). An innovative hybrid air pollution early-warning system based on pollutants forecasting and Extenics evaluation. Knowledge-Based Systems, (), S0950705118305288–.
[104] Xiao, Quan; Wan, Shanshan; Lu, Fucai; Li, Shun (2019). Risk Assessment for Engagement in Sharing Economy of Manufacturing Enterprises: A Matter–Element Extension Based Approach. Sustainability, 11(17), 4774–.
[105] Liu, Gaolei; Dai, Ran; Zhang, Feng; Zhao, Yanpeng; Zhang, Chaoyue; Huang, Fucheng; Elkamel, A. (2019). Site selection of LNG terminal based on cloud matter element model and principal component analysis. MATEC Web of Conferences, 272(), 01027–.
[106] Li, Guang; Liu, Weitao (2019). Uncertainty undefinedysis of Water-Inrush from Floor Induced by Deep Mining. Geotechnical and Geological Engineering, 37(1), 317–325.
[107] iang, Ping; Li, Chen; Li, Ranran; Yang, Hufang (2018). An innovative hybrid air pollution early-warning system based on pollutants forecasting and Extenics evaluation. Knowledge-Based Systems, (), S0950705118305288–.
[108] Wei-jun, PAN; Jie, REN; Run-dong, WANG (2019). Air Traffic Management Process Quality Assessment Model Based on Improved Fuzzy Matter Element undefinedysis. Journal of Physics: Conference Series, 1187(5), 052069–.
[109] Yong, Xiang; Yan, Cui; Weiyao, ; Qiang, Xu (2018). A study on the construction of evaluative system of Smart City based on entropy-weighted matter-element model method. Concurrency and Computation: Practice and Experience, (), e5010–.
[110] Chen, Jianhong; Chen, Yi; Yang, Shan; Zhong, Xudong; Han, Xu; Li, Yang (2019). A prediction model on rockburst intensity grade based on variable weight and matter-element extension. PLOS ONE, 14(6), e0218525–.
[111] Wang, ; Lyu, ; Zhang, ; Ma, (2019). A Risk Assessment Model of Coalbed Methane Development Based on the Matter-Element Extension Method. Energies, 12(20), 3931–.
[112] Li, Shibo,Chen, Xingying,Yu, Kun.An Extension undefinedysis Program for Energy Conservation[J].Science of advanced materials,2019,11(3):403-408
[113] Lu S D,Sian H W, Wang M H,et al. Application of Extension Neural Network with Discrete Wavelet Transform and Parseval's Theorem for Power Quality undefinedysis[J]. Applied Sciences, 2019, 9(11):2228.
[114] Zhang K,Zheng W, Xu C,et al. An Improved Extension System for Assessing Risk of Water Inrush in Tunnels in Carbonate Karst Terrain[J]. KSCE Journal of Civil Engineering, 2019.
[115] Meng J,Xu R, Li D,et al. Combining the Matter-Element Model With the Associated Function of Performance Indices for Automatic Train Operation Algorithm[J]. IEEE Transactions on Intelligent Transportation Systems, 2019.
[116] Liu Q,Wang M,Zhou T,et al. A connection cloud model coupled with extenics for water eutrophication evaluation[J]. Earth Science Informatics, 2019(3).
[117] Yang Z, Lei H. FEther: An Extensible Definitional Interpreter for Smart-Contract Verifications in Coq[J]. Ieee Access, 2019, 7: 37770-37791.
[118] He ZJ, Zhu LJ. Asymptotic normality of extensible grid sampling[J]. Statistics and Computing, 2019, 29(1): 53-65.
[119] Hou FJ, Xie XK, Shi SS, Song SG, Bu L, Li LP, Zhou ZQ. Dynamic Optimization Classification Model for Submarine Tunnel Surrounding Rocks and Its Application in Engineering[J]. Journal of Coastal Research, 2019: 311-315.
[120] Wang XL, Yu HL, Lv P, Wang C, Zhang J, Yu J. Seepage Safety Assessment of Concrete Gravity Dam Based on Matter-Element Extension Model and FDA[J]. Energies, 12019, 12(3).
[121] Liu Y,Wang P Y,Wang S H,et al. Disease Mechanism and Theoretical Quantification Method of Tunnel Structure. Journal of Northeastern University(Natural Science), 2019.
[122] Xu LB, Li XS, Guo Y. Gauss-core extension dependent prediction algorithm for collaborative filtering recommendation[J]. Cluster Computing-the Journal of Networks Software Tools and Applications, 2019, 22: 11501-11511.
[123] Tian JS, Jiang ZH, Guo JC, Liu X. Efficiency of high-standard farmland development based on matter-element extension and topsis modeling[J]Applied Ecology and Environmental Research, 2019, 17(5): 11303-11316.
[124] Tao ZG, 2, 1, Yang XJ, 2, 1, Shu Y, 2. Evaluation of Open-Pit Mine Security Risk Based on FAHP-Extenics Matter-Element Model[J]. Geotechnical and Geological Engineering, 2020, 38(2): 1653-1667.
[125] Zhou YY, Wu LL. Extension Priority Evaluation Extension Model for Quality Evaluation of Innovation and Entrepreneurship Education[J]. Journal of Advanced Computational Intelligence and Intelligent Informatics, 2019, 23(2): 242-247.
[126] Zhao WZ, Fan ML, Wang CY, Jin ZL, Li YF. H-infinity/dextension stability control of automotive active front steering system[J]. Mechanical Systems and Signal Processing, 152019, 115: 621-636.
[127] Wang PA, Ren SY, Yang N. ATC Safety Assessment Based on Fuzzy Matter-element with Weighting by AHP and Entropy Method[J]. 2018 7th International Conference On Advanced Materials and Computer Science (icamcs 2018), 2019: 265-269.
[128] Liu Y, Gan XS, Yang N. Fuzzy Matter-element Safety Assessment of military ATC System Based on Combination Weighting[J]. 2018 7th International Conference On Advanced Materials and Computer Science (icamcs 2018), 2019: 270-273.
[129] Huan Liu.Early Warning Model for Dynamic Risk Management of Agricultural P2P Network Loan Platform and Its Application[J].Revista de la Facultad de Agronomia de la Universidad del Zulia,2019,36(5).
(数据来自中国知网、万方数据资源系统等,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,请联系李老师: extenics@vip.163.com)