基本信息

  

  姓       名:王荣喜

  学       位:工学博士
  单       位:

    机械工程学院

    机械制造系统工程国家重点实验室

     中国西部质量科学与技术研究院

主要任职

1、SCI期刊评审专家

(1) Knowledge-based systems (IF:5.101);

(2) ISA Transactions (IF:4.343)

(3) IEEE Access (IF: 4.098);

(4) Journal of Intelligent Manufacturing (IF:3.535);

(5) Computers & Industrial Engineering (IF:3.518);

(6) IEEE Transactions on Reliability (IF:2.888);

(7) Soft Computing (IF:2.784);

(8) Chinese Journal of Aeronautics (IF:2.095);

(9) Chemical Physics Letters (IF:1.901);

(10) Journal of Ambient Intelligence & Humanized Computing(IF:1.91)

(11) Quality and Reliability Engineering International (IF:1.409)

(12) Mathematical Problems in Engineering (IF:1.179)

(13) Journal of Systems and Control Engineering (IF:1.166);

2、TPC委员

International Workshop on Materials Science and Mechanical Engineering (IWMSME) TPC成员。

联系方式

个人主页:

 http://www.researcherid.com/rid/P-4721-2017

 http://orcid.org/0000-0001-5958-0642

 https://www.researchgate.net/profile/Wang_Rongxi

电话:

       029-82663726

邮箱:

       rongxiwang@163.com  

       wangrongxi@xjtu.edu.cn

办公地址:

       西安交通大学 兴庆校区 科学馆 241

站点计数器
学术成果

[33]  Fault recognition using an ensemble classifier based on Dempster–Shafer Theory. Pattern Recognition, 2020(99): 107079. (Indexed by SCI and EI, IF:5.898)

[32]  A Dilated Convolution Network Based LSTM Model for Multi-step Prediction of Chaotic Time-series. Computational and Applied Mathematics, 2020, 39:30. (Indexed by SCI and EI, IF:1.26)

[31]   An Artificial Immune and Incremental Learning Inspired Novel Framework for Performance Pattern Identification of Complex Electromechanical Systems. Science China-Technological Sciences, 2020, 63(1): 1-13. (Indexed by SCI and EI, IF:2.18)

[30]  Comprehensive Reliability Evaluation of Multi-State Complex Electromechanical Systems Based on Similarity of Cloud Models. Quality and Reliability Engineering International, 2020. (Indexed by SCI and EI, IF:1.604)

[29]  Probabilistic Model-Checking Based Reliability Analysis for Failure Correlation of Multi-State Systems. Quality Engineering, 2019. (Indexed by SCI and EI, IF:1.626)

[28]  Reliability Prediction for GIL Equipment Based on Multilayer Directed and Weighted Network and Failure Propagation. IEEE Transactions on Reliability, 2019. (Indexed by SCI and EI, IF:2.888)

[27]   Classification of weld defects based on the analytical hierarchy process and Dempster–Shafer evidence theory. Journal of Intelligent Manufacturing, 2019.30(4): p. 2013-2024. (Indexed by SCI and EI, IF:3.035)

[26]   A novel framework for the reliability modelling of repairable multistate complex mechanical systems considering propagation relationships. Quality and Reliability Engineering International, 2019. 35(1): 84-98. (Indexed by SCI and EI, IF:1.604)

[25]  Data fusion combined with echo state network for multivariate time series prediction in complex electromechanical system. Computational & Applied Mathematics, 2018. 37(5): p. 5920-5934. (Indexed by SCI and EI, IF:0.863)

[24]    Failure mode and effects analysis using Dempster-Shafer theory and TOPSIS method: Application to the gas insulated metal enclosed transmission line (GIL)Applied Soft Computing, 2018. 70: p. 633-647. (Indexed by SCI and EI, IF:3.541)

[23]    An information transfer based novel framework for fault root cause tracing of complex electromechanical systems in the processing industry. Mechanical Systems and Signal Processing, 2018. 101: p. 121-139. (Indexed by SCI and EI, IF:4.116)

[22]    Analysis of multifractality of multivariable coupling relationship of complex electromechanical system in process industry. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 2017.231(6): p. 1085-1100. (Indexed by SCI and EI, IF:1.448)

[21]    Failure Mode and Effects Analysis by Using the House of Reliability-Based Rough VIKOR Approach. IEEE Transactions on Reliability, 2018.67(1): p. 230-248. (Indexed by SCI and EI, IF:2.790)

[20]    Interaction analysis-based information modeling of complex electromechanical systems in the processing industry. Proceedings of the Institution of Mechanical Engineers Part I-Journal of Systems and Control Engineering, 2017. 231(8): p. 638-651. (Indexed by SCI and EI, IF:1.051)

[19]    Evidence fusion-based framework for condition evaluation of complex electromechanical system in process industry. Knowledge-Based Systems, 2017. 124: p. 176-187. (Indexed by SCI and EI, IF:4.529)

[18]    Coupling analysis-based false monitoring information identification of production system in process industry. Science China-Technological Sciences, 2017. 60(6): p. 807-817. (Indexed by SCI and EI, IF:1.719)

[17]    种采用相空间重构的多源数据融合方法. 西安交通大学学报, 2016(08): p. 84-89. (Indexed by EI)

[16]   用聚类特征的基本概率分配生成方法及应用. 西安交通大学学报, 2016(10): p. 8-14. (Indexed by EI)

[15]   基于改进局部线性判别分析的化工系统状态监测方法. 计算机集成制造系统, 2016(04): p. 1097-1103. (Indexed by EI)

[14]   Complex network theory-based condition recognition of electromechanical system in process industry. Science China Technological Sciences, 2016. 59(4): p. 604-617. (Indexed by SCI and EI, IF:1.719)

[13]   Fault mode prediction based on decision tree. in 2016 IEEE Advanced Information Management, Communicates, Electronic and Automation Control Conference, IMCEC 2016, October 3, 2016 - October 5, 2016. 2016. Xi'an, China: Institute of Electrical and Electronics Engineers Inc. (Indexed by EI)

[12]   Data fusion based phase space reconstruction from multi-time series. International Journal of Database Theory and Application, 2015. 8(6): p. 101-110. (Indexed by EI)

[11]   Hilbert-Huang Transform Based Pseudo-Periodic Feature Extraction of Nonlinear Time Series. in Measuring Technology and Mechatronics Automation (ICMTMA), 2015 Seventh International Conference on. 2015. (Indexed by EI)

[10]   Bootstrap and maximum entropy based smal I-sample product lifetime probability distribution. in 15th IFAC Symposium on Information Control Problems in Manufacturing, INCOM 2015, May 11, 2015 - May 13, 2015. 2015. Ottawa, ON, Canada: IFAC Secretariat. (Indexed by EI)

[9]   Immune network based text clustering algorithm. in 13th ACIS International Conference on Software Engineering, Artificial Intelligence, Networking, and Parallel/Distributed Computing, SNPD 2012, August 8, 2012 - August 10, 2012. 2012. Kyoto, Japan: IEEE Computer Society. (Indexed by EI)

[8]   求解非线性问题的改进社会认知优化算法. 计算机工程, 2011(10): p. 170-172.

[7]   Control of chaotic systems by chaotic social cognitive optimization. ICIC Express Letters, 2011. 5(3): p. 693-699. (Indexed by EI)

[6]    Strategy of dynamic and static composition of Web service driven by QoS. Dongbei Daxue Xuebao/Journal of Northeastern University, 2011. 32(SUPPL.1): p. 146-150. (Indexed by EI)

[5]    The Web service selection based on the genetic algorithm. in 2011 International Conference on Computer Science and Service System, CSSS 2011, June 27, 2011 - June 29, 2011. 2011. Nanjing, China: IEEE Computer Society. (Indexed by EI)

[4]   QOS驱动的动静结合Web服务组合策略, in 第十七届全国网络与数据通信学术会议(NDCC2010)论文集. 2010: 秦皇岛. p. 395-398.

[3]   The application of ant colony algorithm in web service selection. in 2010 International Conference on Computational Intelligence and Software Engineering, CiSE 2010, December 10, 2010 - December 12, 2010. 2010. Wuhan, China: IEEE Computer Society. (Indexed by EI)

[2]    The research of Web service selection based on the Ant Colony Algorithm. in 2010 International Conference on Artificial Intelligence and Computational Intelligence, AICI 2010, October 23, 2010 - October 24, 2010. 2010. Sanya, China: IEEE Computer Society. (Indexed by EI)

[1]    The social cognitive optimization algorithm: Modifiability and application. in 2010 International Conference on E-Product E-Service and E-Entertainment, ICEEE2010, November 7, 2010 - November 9, 2010. 2010. Henan, China: IEEE Computer Society. (Indexed by EI)