符修文

发布时间:2020-11-17浏览次数:6035

技术职务博士,物流工程学院副院长,副教授,硕士生导师,

邮箱: xwfu@shmtu.edu.cn

工作电话021-38282605

教育背景

2021 –至今:在站博士后 武汉理工大学船舶与海洋工程博士后流动站

2013 -2016:博士 武汉理工大学机械电子工程专业(导师:李文锋教授)

2014 -2015:公派联合培养 意大利卡拉布里亚大学(导师:IEEE fellow Giancarlo Fortino

2010 -2013:硕士 武汉理工大学机械电子工程专业(导师:李文锋教授)

2005 -2009:学士 河南科技大学机械电子工程专业

研究领域:物联网、无人系统、复杂网络建模与优化、系统可靠性与管理。

个人成果简介:连续入选美国斯坦福大学与爱思唯尔联合发布2022年度与2023年度全球前2%顶尖科学家榜单(计算机与通信技术领域)。发表学术论文70余篇,其中以第一作者/通信作者在《IEEE Transactions on Reliability》、《IEEE Internet of Things Journal》、《ACM Transactions on Internet Technology 》、《Reliability Engineering and System Safety》、《Information Fusion》等重要SCI期刊发表论文40余篇,其中ESI高被引论文5(含热点论文3),单篇最高影响因子13.71,累计影响因子超165,相关论文工作被引用1800余次(数据源:Google Scholar)。在《计算机学报》、《通信学报》、《计算机研究与发展》等重要中文期刊发表论文10余篇。出版物联网相关学术专著1部。授权国家发明专利3项。担任SCI期刊《Sustainability》与《Frontiers in Sensors》编委。近年来承担了国家自然科学基金、上海自然科学基金面上项目、教育部人文社科研究项目、中国博士后基金、上海科技创新行动计划软科学研究项目等多项课题,作为主要研究人员参与了多个与智慧港口资源调度、港口信息化相关的国家自然科学基金、国家重点研发计划、上海科技创新行动计划重点项目。所指导多名研究生赴国内知名高校攻读计算机相关博士学位。

科研项目

[1]     教育部人文社科研究项目,主持(2023年)

[2]     上海自然科学基金面上项目,主持(2023年)

[3]     上海市科技创新行动计划软科学研究项目,主持(2022年)

[4]     中国博士后科学基金面上项目,主持(2021年)

[5]     国家自然科学基金青年基金项目,主持(2019年)

[6]     上海市科委科技创新行动计划重点项目,技术负责人(2019年)

[7]     上海高校青年教师培养资助计划,主持(2017年)

学术兼职:

[1]     SCI期刊《Sustainability》编委

[2]     国际期刊《Frontiers in Sensors》编委

[3]     中国系统工程学会物流系统工程第三届专业委员会委员

[4]     现代港口物流国家级虚拟仿真实验教学中心副主任

学术专著

[1]     李文锋,符修文. 工业无线传感器网络抗毁性关键技术研究,华中科技大学出版社 (21.6万字)

代表性论文

[1]     Xiuwen Fu, Xiaojie Xu, Wenfeng Li. Cascading failure resilience analysis and recovery of automotive manufacturing supply chain networks considering enterprise roles. Physica A: Statistical Mechanics and its Applications, 2023. (JCR 2, IF:3.3)

[2]     Shengqi Kang (2022级研究生), Xiuwen Fu. Blockchain-enabled infection sample collection system using  two-echelon drone-assisted mechanism. Drones, 2024. (JCR 2, IF:4.8)

[3]     Xiuwen Fu, Qing Li, Wenfeng Li. Modeling and analysis of industrial IoT reliability to cascade failures: An information-service coupling perspective. Reliability Engineering & System Safety, 2023. (JCR 1, IF:8.1)

[4]     Xiuwen Fu, Xiong Huang. Collaborative Relay for Achieving Long-term and Low-AoI Data Collection in UAV-aided IoT Systems. Vehicular Communications, 2023. (JCR 2, IF:6.7)

[5]     Mingyuan Ren (2021级研究生), Xiuwen Fu, Pasquale Pace, et al. Collaborative Data Acquisition for UAV-Aided IoTs based on Time-Balancing Scheduling. IEEE Internet of Things Journal, 2023. (JCR 1区,IF:10.6)

[6]     Xiuwen Fu, Pasquale Pace, Gianluca Aloi, et al. Tolerance Analysis of Cyber-Manufacturing Systems to Cascading Failures. ACM Transactions on Internet Technology, 2023. (CCF B类,JCR 3, IF:3.989)

[7]     Xiuwen Fu, Qiongshan Pan. AoI-Energy-Aware Collaborative Data Collection in UAV-enabled Wireless Powered Sensor Networks. IEEE Sensors Journal, 2023. (JCR 2, IF:4.3)

[8]     Xiong Huang (2021级研究生), Xiuwen Fu. Fresh data collection for UAV-assisted IoTs based on aerial collaborative relay. IEEE Sensors Journal, 2023. (JCR 2, IF:4.3)

[9]     Qiongshan Pan (2021级研究生), Xiuwen Fu. Fresh data collection for UAV-assisted IoTs based on proximity-remote region collaboration. Ad Hoc Networks, 2023. (JCR 2, IF:4.8)

[10]  Xiaojie Xu (2020级研究生), Xiuwen Fu. Analysis on Cascading Failures of Directed–Undirected Interdependent Networks with Different Coupling Patterns. Entropy, 2023. (JCR 3, IF:2.7)

[11]  Xiuwen Fu, Ye Wang. Analysis on Cascading Reliability of Edge-Assisted Internet of Things. Reliability Engineering & System Safety, 2022. (JCR 1, IF:6.188)

[12]  Xiuwen Fu, Pasquale Pace, Gianluca Aloi, et al. Toward robust and energy-efficient clustering wireless sensor networks: A double-stage scale-free topology evolution modelComputer Networks, 2021. (JCR 2, IF:4.474)

[13]  Xiuwen Fu, Pasquale Pace, Gianluca Aloi, et al. Cascade Failures Analysis of Internet of Things under Global/Local Routing ModeIEEE Sensor Journal, 2021. (JCR 2, IF:3.301)

[14]  Xiuwen Fu, Ye Wang, Yongsheng Yang, et al. Lightweight Fault Detection Strategy for Wireless Sensor Networks Based on Trend Correlation. IEEE Access, 2020. (JCR 2, IF:4.031)

[15]  Xiuwen Fu, Yongsheng Yang. Analysis on Invulnerability of Wireless Sensor Networks based on Cellular Automata. Reliability Engineering & System Safety, 2021. (JCR 1, IF:4.463)

[16]  Xiuwen Fu, Yongsheng Yang. Modeling and analyzing cascading failures for Internet of Things.Information Sciences, 2021. (JCR 1, IF:5.59)

[17]  Xiuwen Fu, Yongsheng Yang. Exploring the Impact of Node Mobility on Cascading Failures in Spatial Networks. Information Sciences, 2021. (JCR 1, IF:5.59)

[18]  Xiuwen Fu, Yongsheng Yang, and Octavian Postolache. Cascading Failures Analysis of Wireless Sensor Networks with Varying Routing Schemes. IEEE Sensors Journal, 2021. (JCR 2, IF:3.29)

[19]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Modeling and optimizing the cascading robustness of multisink wireless sensor networks. IEEE Transactions on Reliability, 2020. (JCR 2, IF:3.17)

[20]  Xiuwen Fu, Xiaolin He. Energy-balanced data collection with path-constrained mobile sink in wireless sensor networks. AEU-International Journal of Electronics and Communications, 2020. (JCR 2, IF:2.89)

[21]  Xiuwen Fu, Pasquale Pace, Gianluca Aloi, et al. Environment-fusion multipath routing protocol for wireless sensor networks. Information Fusion, 2020. (JCR 1, IF:13.71, ESI高被引)

[22]  Xiuwen Fu, Pasquale Pace, Gianluca Aloi, et al. Topology optimization against cascading failures on wireless sensor networks using a memetic algorithm. Computer Networks , 2020. (JCR 2区,IF:3.14, ESI高被引)

[23]  Xiuwen Fu, Yongsheng Yang. Modeling and analysis of cascading node-link failures in multi-sink wireless sensor networks. Reliability Engineering & System Safety, 2020. (JCR 1, IF:4.463, ESI高被引)

[24]  Xiuwen Fu, Yongsheng Yang, and Octavian Postolache. Sustainable multipath routing protocol for multi-sink wireless sensor networks in harsh environments. IEEE Transactions on Sustainable Computing, 2020. (JCR 2, IF:4.3)

[25]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Modeling cascading failures for wireless sensor networks with node and link capacity. IEEE Transaction on Vehicular Technology, 2019. (JCR 2, IF:5.339)

[26]  Xiuwen Fu, Yongsheng Yang, and Octavian Postolache. Invulnerability of clustering wireless sensor networks against cascading failures. IEEE Systems Journal, 2018. (JCR 1, IF:4.463)

[27]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Exploring the invulnerability of wireless sensor networks against cascading failures. Information Sciences, 2019. (JCR 1, IF:5.524)

[28]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Modeling and analyzing cascading dynamics of the clustered wireless sensor network. Reliability Engineering & System Safety, 2019. (JCR 1, IF:4.039)

[29]  Xiuwen Fu, Giancarlo Fortino, Wenfeng Li, et al. Message forwarding for WSN-Assisted Opportunistic Network in disaster scenarios. Journal of Network and Computer Applications,  2019. (JCR 1, IF:5.273)

[30]  Xiuwen Fu, Yongsheng Yang, and Haiqing Yao. Analysis on invulnerability of wireless sensor network towards cascading failures based on coupled map lattice. Complexity, 2018. (JCR 1, IF:2.591)

[31]  Xiuwen Fu, Giancarlo Fortino, Wenfeng Li, et al. WSNs-assisted opportunistic network for low-latency message forwarding in sparse settings. Future Generation Computer Systems 2019. (JCR 2, IF:5.768, ESI高被引)

[32]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Modeling and analyzing the cascading invulnerability of wireless sensor networks. IEEE Sensors Journal,  2019. (JCR 2, IF:3.076)

[33]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Sink convergence cascading model for wireless sensor networks with different load-redistribution schemes. Complexity, 2019. (JCR 1, IF:2.591)

[34]  Xiuwen Fu, Haiqing Yao, and Yongsheng Yang. Cascading failures in wireless sensor networks with load redistribution of links and nodes. Ad Hoc Networks, 2019. (JCR 2, IF:3.49)

[35]  Xiuwen Fu, Giancarlo Fortino, Wenfeng Li. A utility-oriented routing scheme for interest-driven community-based opportunistic networks. Journal of Universal Computer Science, 2014. (JCR 4, IF:1.04)

[36]  He, Xiaolin2018级研究生), Xiuwen Fu*, and Yongsheng Yang. Energy-efficient trajectory planning algorithm based on multi-objective PSO for the mobile sink in wireless sensor networks.IEEE Access, 2019. (JCR 2, IF:4.031)

[37]  Ye Wang2019级研究生), Xiuwen Fu*, Yongsheng Yang, et al. Analysis on cascading robustness of energy-balanced scale-free wireless sensor networks. AEU-International Journal of Electronics and Communications, 2021. (JCR 2, IF:3.183)

[38]  符修文,杨勇生.一种工业无线传感器网络抗毁性仿真平台.系统仿真学报, 2019.

[39]  符修文,杨勇生,姚海庆.基于趋势相关性的传感器网络故障检测算法.华中科技大学学报(自然科学版), 2018.

[40]  符修文,李文锋.基于局域世界的无线传感器网络分簇演化模型.通信学报,2015.

[41]  符修文,李文锋.无线消防报警网络抗毁性分析与提升方法.中国安全科学学报,2014.

[42]  李文锋,符修文.无线传感器网络抗毁性.计算机学报,2015.

[43]  符修文,李文锋,段莹.分簇无线传感器网络级联失效抗毁性研究.计算机研究与发展,2016

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