陈守煜的代表性成就
1. 《可变模型集理论与模型及其应用》,大连理工大学出版社,2009
2. 《水资源与防洪系统可变模糊集理论与方法》,大连理工大学出版社,2005
3. 《复杂水资源系统优化模糊识别理论与应用》,吉林大学出版社,2002
4. 《工程模糊集理论与应用》,国防工业出版社,1998
5. 《工程水文水资源系统模糊集分析理论与实践》,大连理工大学出版社,1998
6. 《系统模糊决策理论与应用》,大连理工大学出版社,1994
7. 《水文水资源系统模糊识别理论》,大连理工大学出版社,1992
8. 《模糊水文学与水资源系统模糊优化原理》,大连理工大学出版社,1990 1. 大禹水利科学技术二等奖,2012,(第一完成单位,第一完成人)
2. 高等学校科研成果就科技进步奖二等奖,2008,(第一完成单位,第一完成人)
3. 高等学校科学技术奖自然科学奖二等奖,2007,(第一完成单位,第一完成人)
4. 辽宁省政府自然科学奖二等奖,2003,(第一完成单位,第一完成人)
5. 中国高校科学技术二等奖,2001,(第一完成单位,第一完成人)
6. 辽宁省科技进步二等奖,1999,(第一完成单位,第一完成人)
7. 国家教育部科技进步二等奖,1998,(第一完成单位,第一完成人) [1] 陈守煜.质量互变定理用于识别可拓学与集对分析的基础性错误.黑龙江大学工程学报,2014,01:1-4.
[2] 陈守煜,薛志春,李敏,祝雪萍.城市洪涝易损性评价可变集方法.中国科学:技术科学,2013,12:1320-1327.
[3] 陈守煜.基于可变集的水资源系统可持续发展态势预测原理与方法.大连理工大学学报,2013,01:108-113.
[4] 陈守煜.水资源系统可变集评价原理与方法.水利学报,2013,02:134-142.
[5] 陈守煜,薛志春,李敏.洪水分类的可变集原理与方法.中国科学:技术科学,2013,11:1202-1207.
[6] 陈守煜.可变集—可变模糊集的发展及其在水资源系统中的应用.数学的实践与认识,2012,01:92-101.
[7] 陈守煜.可变集及水资源系统优选决策可变集原理与方法.水利学报,2012,09:1066-1074.
[8] 陈守煜,王子茹.基于对立统一与质量互变定理的水资源系统可变模糊评价新方法.水利学报,2011,03:253-261+270.
[9] 陈守煜.基于可变模糊集的辩证法三大规律数学定理及其应用.大连理工大学学报,2010,05:838-844.
[10] 陈守煜.质量互变定理的两种表示——兼论集对分析中介不确定性.辽宁工程技术大学学报(自然科学版),2010,05:724-728.
[11] 陈守煜.基于辩证法三大规律数学定理的系统评价理论、模型与方法——兼论集对分析及其评价方法.黑龙江大学工程学报,2010,04:11-16.
[12] 陈守煜.可变模糊聚类及模式识别统一理论与模型.大连理工大学学报,2009,02:307-312.
[13] 陈守煜.基于可变模糊集的质变与量变定理——兼论集对分析.数学的实践与认识,2009,11:195-201.
[14] 陈守煜,李敏,王淑英.可变模糊聚类迭代模型合理性分析与应用检验.大连理工大学学报,2009,06:932-936.
[15] 陈守煜,袁晶瑄,李亚伟.基于可变模糊集的模糊聚类迭代模型及其应用.大连理工大学学报,2008,06:881-886.
[16] 陈守煜.可变模糊集合理论与可变模型集.数学的实践与认识,2008,18:146-153.
[17] 陈守煜.可变模糊集量变与质变判据模式及其应用.系统工程与电子技术,2008,10:1879-1882.
[18] 陈守煜.可变模糊集合理论——兼论可拓学的数学与逻辑错误.大连理工大学学报,2007,04:618-624.
[19] 陈守煜.《河图》与八卦关系的试验证验——易学研究的重要突破.大连理工大学学报(社会科学版),2007,03:1-6.
[20] 陈守煜,袁晶瑄.可变模糊集模型及论可拓方法用于水科学的错误.水资源保护,2007,06:1-6.
[21] 陈守煜,李敏.基于可变模糊集理论的水资源可再生能力评价模型.水利学报,2006,04:431-435.
[22] 陈守煜,胡吉敏.地下水资源承载能力评价模糊可变模型与方法.水资源保护,2006,06:1-5.
[23] 陈守煜,李庆国.一种新的模糊聚类神经网络及其在水资源评价中的应用.水利学报,2005,06:662-666.
[24] 陈守煜.可变模糊集理论的哲学基础.大连理工大学学报(社会科学版),2005,01:53-57.
[25] 陈守煜.工程可变模糊集理论与模型——模糊水文水资源学数学基础.大连理工大学学报,2005,02:308-312.
[26] 陈守煜.模糊聚类循环迭代理论与模型.模糊系统与数学,2004,02:57-61.
[27] 陈守煜,韩晓军,王建明,伏广涛.模糊聚类、识别、优选统一理论与循环迭代模型.大连理工大学学报,2004,06:883-886.
[28] 陈守煜.21世纪水资源开发利用的河海协同原理.大连理工大学学报,2003,06:697-700.
[29] 陈守煜,伏广涛,王建明.复杂系统模糊模式识别动态规划模型研究.水科学进展,2002,06:689-695.
[30] 陈守煜.系统互补性决策思维渊源的论证.系统辩证学学报,2002,01:13-15.
[31] 陈守煜,张道军,伏广涛.基于数字化和模糊识别的一般评价理论与方法.辽宁工程技术大学学报(自然科学版),2002,01:114-117.
[32] 陈守煜.模糊模式识别交叉迭代模型与收敛性.大连理工大学学报,2001,03:264-267.
[33] 陈守煜.防洪调度系统半结构性决策理论与方法.水利学报,2001,11:26-33.
[34] 陈守煜.多目标决策系统模糊优选理论、模型与方法.华北水利水电学院学报,2001,03:136-140.
[35]陈守煜.可持续发展系统模糊识别评价理论、模型与应用.水电能源科学,2001,01:32-35.
[36] 陈守煜,张文国.汛期直接模糊统计试验与绝对隶属度稳定性分析.大连理工大学学报,2000,02:233-235.
[37] 陈守煜.防洪调度多目标决策理论与模型.中国工程科学,2000,02:49-54.
[38] 陈守煜.水库调洪数值-解析解法.大连理工大学学报,1996,(06):87-90
[39] 陈守煜.模糊优选理论与模型.模糊系统与数学,1990,02:87-91
[40] 陈守煜.模糊水文学.大连理工大学学报,1988,03:93-97 [1] Chen S Y, Xue Z C, Li M. Variable Sets principle and method for flood classification. ScienceChinaTechnological Sciences 2013,56(9):2343-2348
[2] Chen S Y, Xue Z C, Li M et al. Variable sets method for urban flood vulnerability assessment. ScienceChinaTechnological Sciences 2013,56(12):3129-3136
[3] Wang Wenchuan, Xu Dongmei, Chen Shouyu. Research advances and applications in water science of variable fuzzy set theory.Advances in Science and Technology of Water Resources, 2012,32(5):89-94
[4] Min Li, Shou-yu Chen. Fuzzy Variable Classified Method and Its Application in Basin Floods .Fuzzy Information and Engineering, 2010, 78:627-636
[5] Yu Guo, Wenlong Chen, Shouyu Chen. Application of System NCF Method to Ice Flood Prediction of the Yellow River. Fuzzy Information and Engineering, 2009, 54:404-419
[6] Chen Shouyu, Hu Jimin. Variable fuzzy engineering method of comprehensive evaluation and its application .Systems Engineering & Electronics,2008,30(8):1474-1477
[7] Chen Shouyu.Quantity change and quality change criterion models of variable fuzzy sets theory and their application.Systems Engineering and Electronics,2008,30(10):1879-82
[8] Shouyu Chen,Yu Guo. Variable fuzzy sets and its application in comprehensive risk evaluation for flood-control engineering system .Fuzzy Optimization and Decision Making, 2006, 5(2): 153-162
[9] Chen Shouyu, Guo Yu, Wang Dagang. Intelligent Forecasting Mode and Approach of Mid and Long Term Intelligent .Hydrological ForecastingEngineering science, 2006, 8(7):30-35
[10] Chen Shouyu, Hu Jimin.Variable fuzzy method and its application in parts recognition.Systems engineering & electronics,2006,28(9):1325-1328
[11] Min Li,Shou-yu Chen. Fuzzy Variable Classified Method and Its Application in Basin Floods. Computational Intelligence,Theory and Applications,2006,38:721-731
[12] Yu Guo, Wen-long Chen, Shou-yu Chen. Application of System NCF Method to Ice Flood Prediction of the Yellow River. Fuzzy Optimization and Decision Making,2006,2(5):153-162
[13] Wu Li,Guo Yu,Chen Shouyu,et al. Use of Variable Fuzzy Sets Methods for Desertification Evaluation. Computational Intelligence,Theory and Applications,2006,38:721-731
[14] Chen S Y , Ji H L. Fuzzy optimization neural network approach for ice forecast in the Inner Mongolia reach of the Yellow River .Hydrological Sciences Journal, 2005 50(2): 319~329
[15] Li Yawei, Chen Shouyu, Nie Xiangtian. Fuzzy pattern recognition approach to construction contractor selection .Fuzzy Optimization and Decision Making,2005,4(2):103-118
[16] Chen Shouyu,Hou Zhaocheng. Multicriterion decision making for flood control operations: Theory and applications .Journal of the American Water Resources Association,2004,40(1):67-76
[17] Liu Jinlu,Chen Shouyu. Second decision~making method of the fuzzy optimal model and its application .Journal of Systems Engineering and Electronics,2004,15(4):525-528
[18] Wang Jianming,Miao Xudong,Chen Shouyu. Battle alternative optimization model based on reliability of fuzzy judgment.Systems Engineering and Electronics,2004,26(12):1835-8
[19] Chen Shouyu,Fu Guangtao. A DRASTIC~based fuzzy pattern recognition methodology for groundwater vulnerability evaluation .Hydrological Sciences Journal,2003,48(2):211-220
[20] Chen Shouyu,Fu Guangtao,Wang Jianming,et al. Fuzzy optimum model of semi-structural decision for lecto type optimization of offshore platforms.China Ocean Engineering,2001,15(4): 453-466