陈志聪
副教授系(中心)秘书
硕导资格: 电路与系统(学硕),电子信息与通信工程(专硕)
研究方向: 智能监测与故障诊断、机器学习、无线传感器网络、光伏发电、结构健康监测
学术成果: 主持/参与国家自然基金项目3项、省部级项目近10项,发表SCI/EI论文10余篇。
联系方式: zhicong.chen@fzu.edu.cn, 15806065152
个人简历:
2014年01月-至今 : 福州大学,物理与信息工程学院,电子科学与技术系,副教授
2011年11月-2013年12月: 意大利帕维亚大学,工程学院,博士后
2008年10月-2011年10月: 意大利帕维亚大学,工程学院,博士研究生
2005年09月-2008年07月: 厦门大学,电子工程系,硕士研究生
2001年09月-2005年07月: 厦门大学,物理系,本科生

Masters Supervisor: Circuits and Systems, Electronic information and communication engineering
Research Directions: Intelligent monitoring and fault diagnosis, Machine learning, wireless sensors networks, photovoltaic systems, structural health monitoring
Research Outcome: PI/Key participant of 3 NSF projects, more than 10 provincial projects, publish more than ten SCI/EI papers
Contact: zhicong.chen@fzu.edu.cn, 15806065152
Resume:
2014.01 - Now : Associate Professor, Department of Electronic Science and Technology, College of Physics and Information Engineering, Fuzhou University, China
2011.11 - 2013.12: Postdoctor, Faculty of Engineering, University of Pavia, Italy
2008.10 - 2011.10: Ph.D. student, Faculty of Engineering, University of Pavia, Italy
2005.09 - 2008.07: Master Student, Department of Electronic Engineering, Xiamen University, China
2001.09 - 2005.07: Bachelor Student, Department of Physics, Xiamen University, China

 
 
科研项目(Research project)  
161601127基于MR-MC链状无线传感器网络的SHM批量异构数据汇集机制研究22.8国家自然科学基金委2017年01月-2019年12月1 
22016H6012基于无线智能传感器网络的光伏阵列健康监测系统研发40万福建省科技厅2016年04月-2019年04月1 
3830020应用于光伏发电健康监测的无线智能传感器及网络40万福建省经信委2016年01月-2017年12月1 
4JA14038基于WSN和FNN的光伏阵列失配监测与故障诊断研究4.5万福建省教育厅2014年10月-2016年12月1 
5XRC-1404面向结构健康监测的无线传感器网络关键技术研究10万校人才基金2014年03月- 2017年03月1 
 
科技论著(Scientific treatise)  
1Intelligent fault diagnosis of photovoltaic arrays based on optimized kernel extreme learning machine and I-V characteristicsApplied Energy (2017)ElsevierSCI1
2Parameters identification of photovoltaic models using hybrid adaptive Nelder-Mead simplex algorithm based on eagle strategyApplied Energy 182 (2016) 47–57ELSEVIERSCI1
3Energy efficiency strategy for a general real-time wireless sensor platformSmart Structures and Systems, Vol. 14, No. 4 (2014) 617-641techno-pressSCI独立撰编写
4In-Situ Validation of a Wireless Data Acquisition System by Monitoring a Pedestrian BridgeAdvances in Structural Engineering Vol. 18 No. 1, 2015Multi-Science Publishing Co. LtdSCI1
5A low-noise, real-time, wireless data acquisition system for structural monitoring applicationsStruct. Control Health Monit. 2014; 21:1118–1136John Wiley & Sons, Ltd.SCI1
6An Intelligent Fault Diagnosis Approach for PV Array Based on SA-RBF Kernel Extreme Learning MachineEnergy Procedia, 2017ELSEVIEREI2
7A GA-SSO Based Intelligent Channel Assignment Approach for MR-MC Wireless Sensors NetworksMIWAI 2016, LNAI 10053, pp. 304–311, 2016.SpringerEI2
8A Population Classification Evolution Algorithm for the Parameter Extraction of Solar Cell ModelsInternational Journal of Photoenergy Volume 2016Hindawi Publishing CorporationSCI3
9Parameters extraction of solar cell models using a modified simplified swarm optimization algorithmSolar Energy 144 (2017) 594–603ELSEVIERSCI其它
10An active mass damper system for structural control using real-time wireless sensorsStruct. Control Health Monit. 2012; 19:758–767John Wiley & Sons, Ltd.SCI2
11A multi-channel wireless connection system for structural health monitoring applicationsStruct. Control Health Monit. 2011; 18:588–600John Wiley & Sons, Ltd.SCI2
12On-line Monitoring and Fault Diagnosis of PV Array Based on BP Neural Network Optimized by Genetic AlgorithmMIWAI 2015, LNAI 9426, pp. 102–112, 2015.SpringerEI2
13Synergy of monitoring and securitySmart Structures and Systems, Vol. 17, No. 5 (2016) 743-751techno-pressSCI2
14Energy harvesting and power management of wireless sensors for structural control applications in civil engineeringSmart Structures and Systems, Vol. 10, No. 3 (2012) 299-312techno-pressSCI3
 
授权专利(Authorized patent)  
1一种分布式光伏组串及组件IV特性曲线在线测量系统实用新型专利2017-04-12福州大学1