姓     名：李文锋

性     别：男

职称/职务：教授

学位/学历：博士/研究生

联系方式：liwf@whut.edu.cn

个人简历：郑州轻工业大学工学学士，华中科技大学工学硕士，武汉理工大学工学博士。瑞典皇家工学院自治系统研究中心访问学者，新泽西理工大学、纽约大学、新南威尔士大学访问教授。

研究方向：智慧物流技术及装备；物流自动化与物联网技术；物流供应链仿真与规划；智能制造；智慧港口；多式联运；人机交互与行为分析

主要教学科研成果：主持项目包括国家自然科学基金项目、科技部科技支撑计划项目、国家重点科技专项、国家国际科技合作项目、科技部科技人员服务企业项目等，学术论文发表在多家顶级学术期刊，获国际发明专利4项，国家发明专利30余项，撰写专著9部。获省部级科技进步奖特等奖2项、一等奖4项、二等奖7项、三等奖1项。主编国家十四五规划教材《物流系统建模与仿真》，物流系统建模与仿真为国家一流本科课程.

近年来获得的主要科技奖励包括：集装箱海铁公多式联运数智服务关键技术及装备研发与应用，2024年度辽宁省科技进步奖一等奖；面向海公铁多式联运的数智服务技术集成系统与装备研制，2024年度中国交通运输协会科学技术奖科技进步特等奖；面向化工品公铁联运的全链式数智服务技术与系统装备，2024年中国物流与采购联合会科学技术奖科技进步一等奖；全自动化集装箱码头智能管控系统（A-TOS），2023年青岛市科学技术进步奖特等奖；水-铁-公集装箱无人化高效转运成套关键技术及工程应用，2021年中铁建科学技术奖二等奖；大型物流中心高效安全与智能化协同关键技术、成套装备及其应用，2017年湖北省科技进步奖二等奖。

近年来授权的主要发明专利：一种基于MIMO机制的港口水平运输装备实时调度方法及系统；一种自动化码头堆场在场集装箱一键归并转方法及系统；一种双AGV柔性协同搬运系统；一种港口智能水平运输车辆的纵横向控制方法与系统；一种火车中心站多轨道吊无冲突作业调度优化方法；一种基于数字孪生的轨道式集装箱起重机虚实交互监测控制系统及方法；一种轨道式集装箱起重机虚实交互监测控制系统及方法；多式联运集装箱数字化关联与高精度定位追踪系统；基于透视坐标变换的条码矫正方法、装置和电子设备；一种针对组合式集装箱的货物三维装箱方法；一种基于图像的多目标分割识别方法及系统。

主要科研项目：国家自然科学基金项目：MIMO驱动的集装箱码头水平运输弹性化调控机理与方法；中国工程院战略研究与咨询课题：我国一流海洋港口建设创新驱动战略的政策环境分析；国家自然科学基金面上项目：多式联运港口的移动装备分布柔性生产多目标智能调度研究；十三五国家重点研发计划项目课题：多式联运智能集成技术与装备研发—多式联运智能运载装备及支撑技术；十三五国家重点研发计划项目子课题：多式联运智能集成技术与装备研发—自动化转运接驳装备及支撑技术；海南省自然科学基金创新研究团队项目：面向重型海洋装备制造的生产-物流资源智能协同与多目标动态调度；企业横向项目:机器人组装智能车间规划；中国残联研究课题残疾人辅助器具专项研究课题：一种智能手杖-轮椅系统；国家自然科学基金项目：基于移动智能体调度的混杂工业无线传感器网络抗毁性研究；国家十二五科技支撑计划课题:农副产品区域物流信息服务集成平台研发与应用示范。

学术兼职：湖北省有突出贡献的中青年专家，教育部高等学校物流管理与工程类教学指导委员会委员，中国“双法”研究会多式联运分会副主任委员，中国指挥与控制学会智慧物流与供应链管理专业委员会常务委员，中国人工智能学会智能制造专业委员会常务委员，中国机械工程学会机器人分会委员，中国机械工程学会大数据与智能系统分会委员，中国物流学会常务理事，中国系统工程学会港航经济专委会常务委员，武汉机械设计与传动学会理事长，湖北省机械工程学会机械设计与传动专业委员会主任委员，国际智能制造联盟学术委员会委员，湖北省智能制造联盟委员。IEEE高级会员，IEEE SMC武汉Chapter负责人。

近年来发表的主要学术论文：

1) Fu X, Qin M, Pace P, Savaglio C, Li W, Fortino G. Generative AI-Driven Digital Twin in the Manufacturing Internet of Things: a Comprehensive Survey[J]. IEEE Internet of Things Journal, 2026.

2) Guo W, Crainic T G, Gendreau M, Li W, Rei W. Operational Planning for Multi-modal Multi-stakeholder Transportation Systems with Shared Capacities[M]. CIRRELT, 2025.

3) Guo W, Crainic T G, Gendreau M, Li W, Rei W. Dynamic Shipment-to-service Matching for Interurban Synchromodal Transport Systems with Shared Resources[M]. Bureau de Montreal, Université de Montreal, 2025.

4) Zhou J, Wu H, Weng H, et al. Optimization of Engineering Vehicle Scheduling in Shipbuilding and Repair Yards Based on the Dual-Cycle Strategy[J]. Logistics, 2025, 9(4): 163.

5) Su Y, Yu Q, Xia X, Li W, He L, Yang T. NLOS Identification and Error Compensation Method for UWB in Workshop Scene[J]. Sensors, 2025, 25(21): 6555.

6) 陈帅杰, 李文锋, 贺利军, 等. 基于贝叶斯最大熵分析的高维多目标优化方法[J]. 控制理论与应用, 2025, 42(8): 1669-1680.

7) Chen S, Li W, Pace P, et al. Many-Objective Computation Offloading in Vehicular Edge Computing Using Bayesian and Incremental Learning Methods[J]. IEEE Internet of Things Journal, 2025, 12(20): 42678-42692.

8) Zhang Q, Li W, Cai L, et al. A Rigid Body Consensus-Based Collaborative Control Framework for Dual AGVs in Smart Port[J]. IEEE Internet of Things Journal, 2025, 12(13): 25182-25196.

9) 李文锋, 张强, 钟志航, 等. 考虑耦合特性的港口 AGV 横纵向分层控制[J]. 机械工程学报, 2025, 61(14): 383-396.

10) Li W, Dotoli M, Li X, et al. Guest Editorial: Smart Coordination for Logistics Operational Control in Manufacturing Under the Evolution Trend of Digital Economy[J]. IEEE Transactions on Automation Science and Engineering, 2025, 22: 7281-7283.

11) Zhang Q, Li W, Guo L, et al. Collaborative transport strategy for dual AGVs in smart ports: enhancing docking accuracy in no-load formations[J]. Journal of Marine Science and Engineering, 2025, 13(1): 81.

12) Li G, Li W, He L, et al. A niching differential evolution with Hilbert curve for multimodal multi-objective optimization[J]. Swarm and Evolutionary Computation, 2025, 95: 101952.

13) Li W, Zhong L, He L, Guo W. Integrated scheduling in sea–rail intermodal terminals with flexible transshipment routes, Swarm and Evolutionary Computation, 2025, 93: 101852. 

14) Chen S,Li W,Sun J,Pace P,He L,Fortino G. An Efficient Collaborative Task Offloading Approach Based on Multi-Objective Algorithm in MEC-Assisted Vehicular Networks. IEEE Transactions on Vehicular Technology, 74(7), 2025: 11249-11263.

15）Li W, Zhou J, Jiang S, Wang C, Yang A. Human-Following Control Method Based on Adaptive Recurrent PID Controller With Self-Tuning Filter. IEEE Transactions on Human-Machine Systems, 2024.

16） Li W, Yang A, Zhou J, Zhu Y. NLOS Occlusion Recognition Method to Improve UWB Spatial Sensing. IEEE Internet of Things Journal, June, 2024, 11(19): 31715-31729.

17） Li W,Fan H, Cai L, Guo W, Wu Z, Yang P. Digital twin-driven proactive-reactive scheduling framework for port multi-equipment under a complex uncertain environment. Simul. Model. Pract. Theory, 2024, 136, 103011.

18） Li W, Cai L, He L, Guo W. Scheduling techniques for addressing uncertainties in container ports: a systematic literature review, Applied Soft Computing, 162,2024, 111820. 

19） Yang L, Wang Z, Li W, Wan C, Tao Z. An evidential reasoning-based approach for risk assessment of intermodal transport of smart containers. International Journal Shipping and Transport Logistics, 18(4), 2024, 403-430.

20） 李文锋,周敬龙,王其,蒋绍勇,贺利军.超宽带信号的非视距识别与测距误差抑制.控制与决策 39 (8), 2024, 2605-2612.

21） Cai L, Li W, Li H, Zhou B, He L, Guo W, Yang Z. Incorporation of energy-consumption optimization into multi-objective and robust port multi-equipment integrated scheduling. Transportation Research Part C, 166(2024) 104755.  

22） Fu X, Wang X, Huang X, Li W, Enhancing Intrusion Tolerance of Clustered Wireless Sensor Networks using a Double-Stage Scale-Free Topology Evolution Model. IEEE Sensors Journal, 2024, 24(16): 26716-26730.

23） 陈帅杰,李文锋,贺利军,等.基于贝叶斯最大熵分析的高维多目标优化方法[J/OL].控制理论与应用:1-13[2024-06-23].

24） L. Zhong, W. Li, K. Gao, L. He, Y. Zhou, “An Improved NSGAII for Integrated Container Scheduling Problems With Two Transshipment Routes”, IEEE Transactions on Intelligent Transportation Systems, 25(10), 2024, 14586-14599.

25） W Guo, Y Zhang, W Li, RR Negenborn, B Atasoy. Augmented Lagrangian relaxation-based coordinated approach for global synchromodal transport planning with multiple operators. Transportation Research Part E: Logistics and Transportation Review, 2024, 185: 103535.

26） Cong Gao, Wenfeng Li, Lijun He, Lingchong Zhong. A distance and cosine similarity-based fitness evaluation mechanism for large-scale many-objective optimization. Engineering Applications of Artificial Intelligence, July, 2024, 133(Part B): 108127, ISSN 0952-1976, https://doi.org/10.1016/j.engappai.2024.108127. 

27） 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, 2024, 634: 129478.

28） M Yu, X Liu, Z Xu, L He, W Li, Y Zhou. Automated rail-water intermodal transport container terminal handling equipment cooperative scheduling based on bidirectional hybrid flow-shop scheduling problem. Computers & Industrial Engineering 2023, 186: 109696

29） Lei Cai, Wenfeng Li, Bo Zhou, Huanhuan Li, Zaili Yang. Robust multi-equipment scheduling for U-shaped container terminals concerning double-cycling mode and uncertain operation time with cascade effects. Transportation Research Part C, 158(2024) 104447.  

30） Zhong L, He L, Li Y, Zhang Y, Zhou Y,Li W. Enhanced Multi-Objective Evolutionary Algorithm for Green Scheduling of Heterogeneous Quay Cranes Considering Cooperative Movement and Safety [J]. Journal of Marine Science and Engineering, 2023, 11(10): 1884

31） X. Fu, Q. Li, W. Li. Modeling and analysis of industrial IoT reliability to cascade failures: An information-service coupling perspective. RELIABILITY ENGINEERING & SYSTEM SAFETY. ISSN 0951-8320.

32） X. Fu, P. Pace, G. Aloi, A. Guerrieri, W. Li, G. Fortino. Tolerance Analysis of Cyber-Manufacturing Systems to Cascading Failures.ACM Transactions on Internet Technology. https://doi.org/10.1145/3579847

33） L. Cai, W. Guo, L. He, W. Li. Port Integrated Scheduling under Uncertain Operation Time and Cascade Effects: a Complex Network Structure Entropy Solution. Computers & Industrial Engineering, 182, 2023, 109435.

34） 李文锋, 杨文超, 罗国富. 基于群集一致性的生产-物流资源实时协同调度方法, 计算机集成制造系统, 2022, 28(9): 2953-2969 .

35） Lijun He, Raymond Chiong, Wenfeng Li. Energy-efficient open-shop scheduling with multiple automated guided vehicles and deteriorating jobs. Journal of Industrial Information Integration, 30, 2022, 100387, ISSN 2452-414X.

36） W Li, W. Zhang, C Gao*. A Historical-Trajectories-Based Map Matching Algorithm for Container Positioning and Tracking. Sensors. 2022 Apr 15;22(8):3057. doi: 10.3390/s22083057.

37） W. Li, S. Du, L. Zhong*, L. He. Multiobjective Scheduling for Cooperative Operation of Multiple Gantry Cranes in Railway Area of Container Terminal. IEEE Access, 10, 2022: 46772-46781.

38） Y. Zhou, Z. Fu, J. Zhang, W. Li*, C. Gao. A Digital Twin-Based Operation Status Monitoring System for Port Cranes. Sensors 2022, 22(9), 3216.

39） J.  Zhou, W. Li*, Q. Zhang, F. Xie and Q. Wang, "A Smart Walking Stick for Gait Analysis of Elderly and People With Disabilities," in IEEE Sensors Journal, vol. 22, no. 9, pp. 9035-9045, May 1, 2022, doi: 10.1109/JSEN.2022.3161992.

40） L. He, R. Chiong, W. Li*, G. S. Budhi, Y. Zhang. A multiobjective evolutionary algorithm for achieving energy efficiency in production environments integrated with multiple automated guided vehicles. Knowledge-based System. 243, May, 2022, 108315, ISSN 0950-7051, https://doi.org/10.1016/j.knosys.2022.108315.

41） L. He, Y. Cao, W. Li*, J. Cao, L. Zhong. Optimization of energy-efficient open shop scheduling with an adaptive multi-objective differential evolution algorithm. Applied Soft Computing, Vol. 118, 2022, 108459, ISSN 1568-4946.

42） L. Cai, W. Li*, Y. Luo, L. He. Real-time scheduling simulation optimisation of job shop in a production-logistics collaborative environment. International Journal of Production Research, 2023, 61(5):1373-1393. DOI: 10.1080/00207543.2021.2023777

43） L. He, R. Chiong, W. Li*, S. Dhakal, Y. Cao and Y. Zhang. Multiobjective Optimization of Energy-Efficient JOB-Shop Scheduling With Dynamic Reference Point-Based Fuzzy Relative Entropy. IEEE Transactions on Industrial Informatics, vol. 18, no. 1, pp. 600-610, Jan. 2022

44） 蔡磊，李文锋*，罗云。个性化定制车间生产-物流协同调度框架与算法研究。机械工程学报，Vol. 58，No. 7, 2022, 214-226.

45） 钟祾充，李文锋*，贺利军，张煜，周勇。集装箱码头混合零空闲柔性流水作业调度优化[J/OL]．计算机集成制造系统，2021,12,29。

46） 张煜，黄啟盛，李文锋.面向PI集装箱的组合适配装箱算法，大连海事大学学报，2021，1

47） X Fu*, W Li, Y Yang. Exploring the impact of node mobility on cascading failures in spatial networks. Information Sciences, 2021, 576: 140-156. 

48） Lijun He, Wenfeng Li, Raymond Chiong, Mehdi Abedi, Yulian Cao, Yu Zhang. Optimising the job-shop scheduling problem using a multi-objective Jaya algorithm. Applied Soft Computing, 2021, 107654.

49） L. Zhong, W. Li, B. Qian, L. He.  Improved discrete cuckoo‐search algorithm for mixed no-idle permutation flow shop scheduling with consideration of energy consumption. IET Collab. Intell. Manuf. 2021;1-11.

50） Wenfeng Li, Lijun He, Yulian Cao. Many-Objective Evolutionary Algorithm With Reference Point-Based Fuzzy Correlation Entropy for Energy-Efficient Job ShopScheduling With Limited Workers. IEEE Transaction on Cybernetics, Vol. 52, No. 10, Oct. 2022, 10721-10734.  2021.

51） Xiuwen Fu; Wenfeng Li; Yongsheng Yang; Octavian Postolache. Cascading Failures Analysis of Wireless Sensor Networks with Varying Routing Schemes. IEEE Sensors Journal, 2021, 21(8): 10193-10203.

52） Xiuwen Fu; Ye Wang; Wenfeng Li; Yongsheng Yang; Octavian Postolache. Lightweight Fault Detection Strategy for Wireless Sensor Networks Based on Trend Correlation. IEEE Access, 2021,9:9073-9083. 

53） Y. Luo, W. Li*, W.Yang, G. Fortino. A real-time edge scheduling and adjustment framework for highly customizable factories. IEEE Transactions on Industrial Informatics, 2021, 17(8): 5625-5634.

54） Xiuwen Fu*, Pasquale Pace, Gianluca Aloi, Wenfeng Li, Giancarlo Fortino, Toward robust and energy-efficient clustering wireless sensor networks: A double-stage scale-free topology evolution model. Computer Networks, V. 200, 2021, 108521, ISSN 1389-1286