教授,博士生导师
教育经历
2013.06,加拿大萨斯喀切温大学,机械工程系,哲学博士
2006.03,东北大学,系统工程专业,工学博士
2001.07,东北大学,自动化专业,工学学士
工作经历
2023.4-至今,东北大学,信息科学与工程学院,教授,博士生导师
2014.3-2023.3,香港大学,工业与制造系统工程系,助理教授,讲师
2013.11-2014.02,华东理工大学,机械工程学院,教授,博士生导师
2011.11-2013.11,日本东京大学,系统创新系,博士后研究员
2007.12-2011.11,加拿大萨斯喀切温大学,机械工程系,副研究员
2006.08-2006.12,加拿大萨斯喀切温大学,机械工程系,访问学者
2006.04-2007.11,东北大学,信息科学与工程学院,讲师
研究方向
1.服务系统工程(交通,医疗,金融等)
2.弹复性工程
3.建模与优化
项目(Selected)
1.Guangdong Special support Talent Program-Innovation and Entrepreneurship Leading Team (2019BT02S593),Digital twin based control mechanism for integrated production and logistics, Co-I, 2019-2024
2.国家自然科学基金面上项目,71571156 紧急情况下的弹性交通系统的需求重组,PI, 2016-2019
3.香港研究资助局, RGC Theme-based Research Scheme (T32-101/15-R), Safety, Reliability, and Disruption Management of High Speed Rail and Metro Systems,可靠性和故障管理, Co-I, 2016-2020
4.State Key Laboratory of Synthetical Automation for Process Industries of China (PAL-N201802), Resilient network system analysis using percolation theory, PI, 2018-2019.
5. URC, Seed Fund for Basic Research, (Grant No. 201611159213) A novel resilience measurement approach for transportation systems considering different emergency levels and integrated recovery strategy, PI, 2017-2018.
6.URC, Seed Fund for Basic Research, (Grant No. 201409159015) Demand Management for Resilient Service System, PI, 2014-2016.
7. State Key Laboratory of Synthetical Automation for Process Industries of China, (Grant No. PAL-N201505), Key Issues in Resilient Service Systems, PI, 2014-2016
8.JSPS (Japan Society for the Promotion of Science),Towards Resilient and Robust Networked Service Systems, PI, 2011-2013
9.NSERC Strategic Project Grant, Resilient Physical Systems: Towards a New Paradigm for Systems Design and Control, Active PI, 2007-2011.
10.NSERC/PSPEC, Networked Critical Infrastructure Systems: Modeling and Simulation; Project leader and coordinator, 2005-2008.
11. Bao Steel Corp. of China, Purchasing Strategies and Models, PI, 2006-2007
学术成果
专著或教材
1.Wang D.W., Wang J.W., Wang H.F., Zhang R.Y. and Guo Z., Intelligent Optimization Method, High Education Press (China), 2007.
期刊论文
1.Wang H., Yan Q., and Wang J.W.* (2023). Blockchain-secured multi-factory production with collaborative maintenance using Q learning-based optimisation approach, International Journal of Production Research,61 (11), 3685-3702.
2.Zhang S., Wang H.F., Li G. and Wang J.W. (2023). Modeling of the resilient supply chain system from a perspective of production design changes, Frontiers of Engineering Management, 1-11.
3.Zou C, Wang J.W., Cheng Y. (2023). Critical Department Analysis for Large-Scale Outpatient Systems. IEEE Transactions on Computational Social Systems, doi:10.1109/TCSS.2022.3212121.
4.Wang J.W., Gao Y.$ and Cheng Y. (2022). On time-dependent critical platforms and tracks in metro systems, Transportation Science, 56 (4), 953-971.
5.Zou C. Y,. Wang J.W. and Cheng Y. (2023). The impact of the variability of patient flow and service time on the efficiency of large-scale outpatient systems, IEEE Transactions on Computational Social Systems, 10(3): 1230-1240.
6.Zhou Y.M.$, Li S., and Wang J.W.* (2021). Modeling stochastic behaviour of road networks with disruptions using percolation theory, IEEE Transactions on Intelligent Transportation Systems, 23 (8), 13230-13241.
7.Cheng Y., Wang J.W. and Wang Y.$ (2020). A User-based Rebalancing Strategy to Free-floating Bike Sharing Systems: A Bidding Model, Transportation Research Part E, 154:102438.
8.Wang J.W.* and Wang Y$.(2021). A Two-stage Incentive Mechanism for Rebalancing Free-floating Bike Sharing Systems: Considering User Preference, Transportation Research Part F: Psychology and Behaviour, 82:54-69.
9.Song M.Y$. and Wang J.W.* (2021). Domain modelling of the financial system, Enterprise Information Systems, 16 (4), 589-605.
10.Gao Y.$ and Wang J.W.* (2021). A resilient assessment framework for urban transportation systems, International Journal of Production Research,59(7): 2177-2192.
11.Gao Y.$, Wang J.W.*, Gao S$ and Cheng Y. (2021). An integrated robust design and robust control strategy using the genetic algorithm, IEEE Transactions on Industrial Informatics, 17(12): 8378-8386.
12.Gao Y.$, Wang J.W.*, Gao S$ and Ding J.L. (2020). A General Integrated Design and Control Strategy Considering System Decomposition with Application to A Rocket Flight Attitude Control System, IEEE/ASME Transactions on Mechatronics, 25(6): 2657-2666.
13.Fu Y., Wang H., Wang J.W. and Pu X. (2021). Multi-Objective Modelling and Optimization for Scheduling a Stochastic Hybrid Flow Shop with Maximizing Processing Quality and Minimizing Total Tardiness, IEEE Systems Journal, 15 (3), 4696-4707.
14.Liang R.C., Wang J.W., Huang M. and Jiang Z.Z. (2020). Truthful auctions for e-market logistics service procurement with quantity discounts, Transportation Research Part B:Methodological, 133:165-180.
15.Das D. N.$, R. Sewani, J.W. Wang*, and M.K. Tiwari (2021). Synchronized Truck and Drone Routing in Package Delivery Logistics, IEEE Transactions on Intelligent Transportation Systems, 22 (9), 5772-5782.
16.De A.$, Wang J.W.* and Tiwari M. (2020). Hybridizing Basic Variable Neighborhood Search with Particle Swarm Optimization for Solving Sustainable Ship Routing and Bunker Management Problem, IEEE Transactions on Intelligent Transportation Systems, 21(3): 986-997.
17.Zhang R.Y., Guo J.M. and Wang J.W.* (2020), A time-dependent Electric Vehicle Routing Problem with Congestion Tolls, IEEE Transactions on Engineering Management, 69 (4), 861-873.
18.Zhang R.Y.$, Wang D.S. and Wang J.W.* (2021). Multi-trailer drop-and-pull container drayage problem. IEEE Transactions on Intelligent Transportation Systems, 22 (9), 5708-5720.
19.Mandal J., Goswami A., Wang J.W. and Tiwari M.K (2020). Optimization of variable speed for batches to minimize supply chain cost under uncertain demand, Information Sciences, 515:26-43.
20.Ray A., De A., Mondal S. and Wang J.W.* (2021). Selection of Best Buyback Strategy for Original Equipment Manufacturer and Independent Remanufacturer – Game Theoretic Approach, International Journal of Production Research, 59 (18), 5495-5524.
21.Liang Z.C.$, Wang J.W., and Lai K.K. (2020). Dependence Structure Analysis and VaR Estimation Based on China’s and International Gold Price: A Copula Approach, International Journal of Information Technology & Decision Making, 19(1): 169-193.
22.Wang J.W., Liang Z.C.$ and Lai K.K.(2020). Deviations between China's and international gold price: role of fundamentals, contagion and financial shocks, Applied Economics, 52(3):305-316.
23.Zhang R.Y., Huang C. and Wang J.W. (2020). A novel mathematical model and a large neighborhood search algorithm for container drayage operations with multi-resource constraints, Computers & Industrial Engineering. 139:106143.
24.Yu Y$., Wang S., Wang J.W., and Huang M. (2019), A Branch-and-Price Algorithm for the Heterogeneous Fleet Green Vehicle Routing Problem with Time Windows, Transportation Research Part B:Methodological, 122:511-527.
25.Zhou Y.M.$, Wang J.W.* and Yang H. (2019). Resilience of transportation systems – concepts and comprehensive review, IEEE Transactions on Intelligent Transportation Systems, 20(12):4246-4276.
26.Wang Y.$ and Wang J.W.* (2019). Measuring and maximizing resilience of transportation systems for emergency evacuation, IEEE Transactions on Engineering Management, 67 (3), 603-613.
27.Wang Y. and Wang J.W.* (2019). Integrated reconfiguration of both supply and demand for evacuation planning, Transportation Research Part E:Logistics and Transportation Review, 130:82-94.
28.De A.$, Wang J.W.* and Tiwari M. (2019). Fuel bunker management strategies within sustainable container shipping operation considering disruption and recovery policies, IEEE Transactions on Engineering Management, 68 (4), 1089-1111.
29.Sun W., Yu Y.$, Wang J.W.*(2019), Heterogeneous green pickup and delivery problems: formulation and exact solution,Transportation Research Part E:Logistics and Transportation Review, 125:181-202.
30.Zhou Y.M.$, Wang J.W.* and Huang G.Q. (2019). Efficiency and robustness of weighted air transport networks, Transportation Research Part E:Logistics and Transportation Review, 122:14-26.
31.Zhou Y.M.$, Wang J.W.* and Sheu B-J. (2019). On Connectivity of Post-Earthquake Road Networks, Transportation Research Part E:Logistics and Transportation Review, 123:1-16.
32.Wang J.W., Zhou Y.M.$ and Huang G.Q. (2019). Alternative pair in the airport network, Transportation Research Part A: Policy and Practice, 124: 408-418.
33.Yu Y.$, Wu Y.T. and Wang J.W.* (2019). Bi-objective green ride-sharing problem: model and exact method, International Journal of Production Economics, 208: 472-482.
34.Sun W., Yu Y.$, Qi L., Wang J.W.* and Guan Y. (2020). Reducing the Total Tardiness by Seru Production: Model, Exact and Cooperative Coevolution Solutions, International Journal of Production Research, 58(21): 6441-6452.
35.Wang H.F., Huang M. and Wang J.W. (2019). An effective metaheuristic algorithm for flowshop scheduling with deteriorating jobs, Journal of Intelligent Manufacturing, 30(7):2733-2742.
36.Wang J.W., Wang H.F.$, Zhou Y.M.$, Wang Y.$ and Zhang W.J. (2019). On an integrated approach to resilient transportation systems in emergency situations. Natural computing, 18(4):815-823.
37.Fu Y.P., Wang H.F.$., Huang M. and Wang J.W.* (2019). A decomposition based multiobjective genetic algorithm with adaptive multipopulation strategy for flowshop scheduling problem. Natural Computing, 18(4):757-768.
38.Li Q.$, Wang J.W., Ni J., Chu L.K. and Li C.D. (2019). The optimal time to make a risky investment under a permanent exit option, Journal of Intelligent Manufacturing, 30(7): 2669-2680.
39.He Z.G., Guo Z.X. and Wang J.W.* (2019). Integrated scheduling of production and distribution operations in a global MTO supply chain, Enterprise Information Systems,13(4):490-514.
40.Gao F. Wang J.W.* and Wang S.Q. (2019). Understanding knowledge workers' job performance: a perspective of online and offline communication networks, Enterprise Information Systems, 13(1): 107-131.
41.Wang J.W., Yu Y$. and Tang J.F. (2018), Compensation and profit distribution for cooperative green pickup and delivery problem, Transportation Research Part B:Methodological, 113:54-69.
42.Zhou Y.M.$ and Wang J.W.* (2018). Critical link analysis for urban transportation networks, IEEE Transactions on Intelligent Transportation Systems, 19(2):402-415.
43.Xu G.Y.$, Wang J.W., Huang G.Q. and Chen C-H (2018). Data-driven resilient fleet management for cloud asset-enabled urban flood control, IEEE Transactions on Intelligent Transportation Systems,19(6):1827-1838.
44.Wang J.W., Dou R. L., Muddada R.R. and Zhang W.J. (2018). Management of a holistic supply chain network for proactive resilience: theory and case study, Computers & Industrial Engineering, 125:668-677.
45.Zhou Y.M.$, and Wang J.W.* (2018). Efficiency of complex networks under failures and attacks: a percolation approach, Physica A: Statistical Mechanics and its Applications, 512:658-664.
46.Fu Y., Ding J.L.$, Wang H.F.$ and Wang J.W.* (2018), Two-objective stochastic flow-shop scheduling with deteriorating and learning effect in Industry 4.0-based manufacturing system, Applied Soft Computing, 68:847-855.
47.Yu Y.$, Wang J.W.*, Ke Ma and Sun W. (2018). Seru system balancing: definition, formulation and solution, Computers & Industrial Engineering, 122:318-325.
48.Li Q.$, Niu B.Z., Chu L.K., Ni J. and Wang J.W. (2018). Buy now and price later: supply contracts with time-consistent mean-variance financial hedging, European Journal of Operational Research, 268(2): 582-595.
49.Zhou Y.M.$, Sheu J-B, and Wang J.W.* (2017). Robustness assessment of urban road network with consideration of multiple hazard events, Risk Analysis, 37(8):1477-1494.
50.Yu Y.$, Lou Q., Tang J., Wang J.W.* and Yue X. (2017), An exact decomposition method to save trips in cooperative pickup and delivery based on scheduled trips and profit distribution, Computers & Operations Research, 87:245-257.
51.Wang H. F.$, Fu Y.P., Huang M., Huang G.Q. and Wang J.W.* (2017). A NSGA-II based memetic algorithm for multiobjective parallel non-identical flowshop scheduling problem, Computers & Industrial Engineering, 113:185-194.
52.Yu Y. $, Tang J.F., Sun W., Yin Y. and Wang J.W.* (2017). Line-hybrid seru system conversion: models, complexities, properties, solutions and insights, Computers & Industrial Engineering, 103: 282-299.
53.Yu Y. $, Sun W., Tang J.F., Kaku I. and Wang J.W.* (2017). Line-seru conversion towards reducing worker(s) without increasing makespan: models, exact and meta-heuristic solutions. International Journal of Production Research, 55(10):2990-3007.
54.Wang H.F.$ , Fu Y. P., Huang M., G.Q. Huang and Wang J.W.* (2017). A hybrid evolutionary algorithm with adaptive multi-population strategy for multi-objective Optimization Problems. Soft Computing, 21(20): 5975-5987.
55.Wang J.W., Muddada R.R., Wang H.F.$, Ding J.L.$, Lin Y. and Zhang W.J. (2016), Towards a resilient holistic supply chain network system: concept, review and future direction, IEEE Systems Journal, 10(2): 410-421.
56.Yu Y.$, Tang J., Li J., Sun W. and Wang J.W. (2016). Reducing carbon emission of pickup and delivery using integrated scheduling, Transportation Research Part D:Transport and Environment, 47:237-250.
57.Ding J. L.$, Wang H.T., Li Q.B. and Wang J.W. (2017). An online learning neural network ensembles with random weights for regression of sequential data stream. Soft Computing, 21, 5919–5937.
58.Zhou Y.M.$, Huang H.C. Ding J.L., Wang H.F., Chen Y. and Wang J.W. * (2016). Modelling Chlorophyll a concentration affected by artificial upwelling in Qiangdao Lake. IEEE journal of oceanic engineering, 41(4):960-969.
59.Wang H.F.$, Fu Y., Huang M. and Wang J.W.* (2016). Multiobjective optimisation design for enterprise system operation in the case of scheduling problem with deteriorating jobs, Enterprise Information Systems, 10(3): 268-285.
60.Ding J. L.$, Chai T. Y., Wang H. F.$, Wang J.W. * and Zheng X.P.(2016), An intelligent factory-wide optimal operation system for continuous production process, Enterprise Information Systems, 10(3): 286-302.
61.Wang J.W., Wang H.F.$, Ding J. L.$, Furuta K., Kanno T., Ip W.H. and Zhang W.J. (2016). On domain modelling of the service system with its application to enterprise information systems. Enterprise Information Systems, 10(1):1-16.
62.Wang J.W., Song M. Y.$, Zhou Y.M.$ and Ding J.L.$ (2015). Origin and development of resilience engineering: a perspective on safety engineering, Control Engineering of China, 22(4): 1-10. (invited paper)
63.Raj R., Wang J.W.*, Nayak A., Tiwari, M.K., Han B. Liu C. L. and Zhang W.J. (2015). Measuring resilience of supply chain systems using a survival model, IEEE Systems Journal, 9(2): 377-381.
64.Wang J.W., Wang H.F., Zhang, W.J., Ip W.H. and Furuta K. (2014). On a unified definition of the service system: what is its identity? IEEE Systems Journal, 8(3): 821-826.
65.Wang J.W., Liu D., Ip W.H., Zhang W.J. and Deters R. (2014). Integration of system-dynamics, aspect-programming, and objective-orientation in system information modeling, IEEE transactions on industrial informatics, 10(2): 847-853.
66.Wang J.W., Wang H.F., Zhang W.J., Ip W.H. and Furuta K. (2013), Evacuation planning based on the contraflow technique with consideration of evacuation priorities and traffic setup time, IEEE transactions on intelligent transportation systems, 14(1): 480-485.
67.Wang J.W., Wang H.F., Ip W.H., Furuta K., Kanno T. and Zhang W.J. (2013). Predatory search strategy based on swarm intelligence for continuous optimization problems, Mathematical Problems in Engineering, vol. 2013, Article ID 749256, 11 pages, 2013. doi:10.1155/2013/749256.
68.Wang J.W., Ip W.H., Muddada R.R., Huang J.L. and Zhang W.J. (2013), On Petri Net implementation of proactive resilient holistic supply chain networks,International Journal of Advanced Manufacturing Technology, 69(1-4):427-437.
69.Wang J.W., Ip W.H. and Zhang W.J. (2010). An integrated road construction and resource planning approach to the evacuation of victims from single source to multiple destinations, IEEE transactions on intelligent transportation systems, 11(2): 277-289.
70.Wang J.W., Gao F. and Ip W.H. (2010) Measurement of resilience and its application to enterprise information systems, Enterprise information systems, 4(2): 215-223.
71.Wang J.W., Wang D.W. (2008). Particle swarm optimization with a leader and followers. Progress in Natural Science, 18(11): 1437-1443.
72.Wang J.W., Wang D.W. (2005). Experiments and analysis on inertia weight in particle swarm optimization (in Chinese). Journal of Systems Engineering. 20(2): 194-198.
73.Wang J.W., Wang D.W. (2005). Particle swarm optimization with gradient acceleration (in Chinese). Control and Decision.19(11): 194-198.
74.Wang J.W.*, Xu S.X. and Xu G.Y.(2019), Editorial for special issue on “Intelligent decision making for service and manufacturing industries,” Journal of Intelligent Manufacturing, 31: 2089-2090.
75.Zhang W.J., Wang J.W. and Lin Y. (2019). Editorial for special issue on “Integrated Design and Operation Management for Enterprise Systems,” Enterprise Information Systems, 13(4):424-429.
76.Zhang W.J. and Wang J.W. (2016). Editorial for special issue on “Design theory and methodology for enterprise systems,” Enterprise Information Systems, 10 (3): 245-248.
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