Enseignant

Linda ZHANG

Linda ZHANG
Full Professor
Ph.D.in Industrial Engineering - Nanyang Technological University
Filière : Operations Management
Membre du LEM
Formation
  • 2012 : HDR, Management Sciences, Economics, University of Paris 13, France
  • 2007 : Ph.D.in Industrial Engineering, Nanyang Technological University, Singapore
  • 1998 : Bachelor in Industrial Engineering, Tianjin University, China
Expériences Professionnelles
Expérience académique :
  • 2014 - 2014, Visiting Professor, University of Science and Technology of China, Hefei, China
  • 2014 - 2014, Visiting Professor of Operations Management, Singapore Management University, , Singapore
  • 2014 - 2014, Visiting Professor, University of Science and Technology of China, , China
  • 2012 - maintenant, Full professor, IÉSEG School of Management, Lille, France
  • 2011 - 2012, Associate professor, IÉSEG School of Management, Paris, France
  • 2011 - 2011, Visiting scholar, Ecole des Mines d'Albi, Albi, France
  • 2011 - maintenant, Honorary faculty member, RMIT Univeristy, Melbourne, Australia
  • 2010 - 2010, Visiting scholar, University of Vaasa, Vaasa, Finland
  • 2007 - 2011, Assistant professor, University of Groningen, Groningen, Netherlands
  • 2006 - 2007, Adjunct lecturer, Singapore Management University, Singapore, Singapore
Expérience en entreprise :
  • 2000 - 2002, Industrial engineer, STS Microelectronics Co., Shenzhen, China
  • 1998 - 2000, Industrial engineer, Celestica, Dongguan, China
Prix Scientifiques et Awards
Awards
  • 2018 : IEOM Distinguished Service Award, The IEOM Society International
  • 2014 : Best Paper Award, The 4th International Conference on Industrial Engineering & Engineering Management (IEOM 2014), January 7-9, 2014, Bali, Indonesia
  • 2013 : Outstanding Paper Award , The 2013 IEEE International Conferences on Industrial Engineering and Engineering Management (IEEM), December 10 – 13, 2013, Bangkok, Thailand
  • 2010 : Outstanding Paper Award (100 US dollars)for paper: Solving production configuration based on constraint satisfaction., The 2010 IEEE International Conferences on Industrial Engineering and Engineering Management (IEEM)
  • 2010 : A Feature Article in Oct 2009 for paper: A tree unification approach to constructing generic processes, IIE Transactions, 2009, 41(10), 916-929., IIE Transactions
  • 2010 : Honorary scholarship (2500 Euros), University of Groningen
  • 2010 : Grant for overseas visit (5000 Euros), University of Groningen
  • 2010 : IEEE Technology Management Council Singapore Chapter Best Student Paper Award 2009/2010 (1000 SG dollars) for paper: Supply chain configuration with coordinated product, process and logistics decision: An approach based on Petri nets, International Journal of Production Research, 2009, 47(23), 6681-6706., IEEE Technology Management Council Singapore Chapter
  • 2010 : Grant for exploration of collaboration opportunities with Finnish universities (750 Euros), University of Groningen
  • 2008 : Best Paper Award. Paper: A colored timed Petri nets approach to reconfigurable manufacturing systems modeling, The 12th World Multi-Conference on Systemics, Cybernetics and Informatics: WMSCI 2008
  • 2007 : Emerald LiteratiNetwork Highly Recommended Award for paper: Development of an online quality information system for e-manufacturing, Journal of Manufacturing Technology Management, 2007, 18(1), 36-53., Journal of Manufacturing Technology Management
Articles publiés dans des revues à comité de lecture
  • Zhang L., (2018). Supplier selection and performance evaluation for formulating supplier selection strategy by MCDM-based approach , International Journal of Business Excellence, TBA TBA.
  • Zhang L., (2018). Procurement risk management under uncertainty: A review, Industrial Management and Data Systems, 118 (7) 1547-1754. .
  • Zhang L., Narkhede B.E., Chaple A.P., (2017). Evaluating lean manufacturing barriers: An interpretive process, Journal of Manufacturing Technology Management, 28 (8) 1086-1114. .
Afficher tout
  • Hong Z, Chu C, Zhang L., Yu Y, (2017). Optimizing an emission trading scheme for local governments: A Stackelberg game model and hybrid algorithm, International Journal of Production Economics, 193 172-182.
  • Zhang L., Lee C., Zhang S., (2016). An integrated model for strategic supply chain design: Formulation and ABC-based solution approach, Expert Systems with Applications, 52 39-49.
  • Zhang L., Jiang N., Yu Y., (2015). Optimizing cooperative advertising, profit sharing, and inventory policies in a VMI supply chain: A Nash bargaining model and hybrid algorithm, IEEE Transactions on Engineering Management, 62 (4) 449-461.
  • Hao J., Yu Y., Zhang L., (2015). Optimal design of a 3D compact storage system with the I/O port at the lower midpoint of the storage rack, International Journal of Production Research, 53 (17) 5153-5173.
  • Zhang L., (2015). A literature review on multitype platforming and framework for future research, International Journal of Production Economics, 168 1-12.
  • Zhang L., (2014). Product configuration: A review of the state of the art and future research, International Journal of Production Research, 52 (21) 6381-6398.
  • Yu Y., Hong Z., Zhang L., Liang L., Chu C., (2013). Optimal Selection of Retailers for a Manufacturing Vendor in a Vendor Managed Inventory System, European Journal of Operational Research, 225 (2) 273-284.
  • Zhang L., Xu Q., Helo P., (2013). A knowledge-based system for process family planning, Journal of Manufacturing Technology Management, 24 (2) 174-196.
  • Zhang L., Vareilles E., Aldanondo M., (2013). Generic Bill of Functions, Materials and Operations for SAP2 Configuration, International Journal of Production Research, 51 (2) 465-478.
  • Wu D., Zhang L., Jiao J., Lu R., (2013). SysML-based design chain information modeling for sheet metal production reconfiguration, Journal of Intelligent Manufacturing, 24 (3) 575-596.
  • Zhang L., Jiao R., (2013). A Graph Rewriting System for Process Platform Planning, Decision Support Systems, 54 (2) 1174-1191.
  • Zhang L., Rodrigues B., (2013). A Petri net model of process platform-based production configuration, Journal of Manufacturing Technology Management, 24 (6) 873-904.
  • Zhang L., Xu Q., Helo P., (2012). A methodology integrating Petri nets and knowledge-based systems to support process family planning, International Journal of Production Research, 50 (12) 3192-3210.
  • Alblas A., Zhang L., Wortmann H., (2012). Representing function-technology platform based on the unified modeling language, International Journal of Production Research, 50 (12) 3236-3256.
  • Zhang L., Xu Q., Yu Y., Jiao R., (2012). Domain-based Production Configuration with Constraint Satisfaction, International Journal of Production Research, 50 (24) 7149-7166.
  • Lee C., Hu H., Lin D., Zhang L., (2011). Determining the throughput of a CONWIP system using adjusted ARM, Journal of Manufacturing Technology Management, Journal of Manufacturing Technology Management, 22 (7) 853-869.
  • Zhang L., Jiao J., Ma Q., (2010). Accountability-based order fulfillment process reengineering towards supply chain management: A case study at a semiconductor equipment manufacturer, Journal of Manufacturing Technology Management, 21 (4) 287-305.
  • Zhang L., Rodrigues B., (2010). Nested colored timed Petri nets for production configuration of product families, International Journal of Production Research, 48 (6) 1805-1833.
  • Zhang L., Rodrigues B., (2009). Modeling reconfigurable manufacturing systems with colored timed Petri nets, International Journal of Production Research, 47 (16) 4569-4591.
  • Zhang L., (2009). Modeling process platforms based on an object-oriented visual diagrammatic modeling language, International Journal of Production Research, 47 (16) 4413-4435.
  • Zhang L., Jiao J., (2009). Modeling production configuration based on nested colored object-oriented Petri nets with changeable structures, Journal of Intelligent Manufacturing, 20 (4) 359-378.
  • Zhang L., You X., Jiao J., Helo P., (2009). Supply chain configuration with coordinated product, process and logistics decision: An approach based on Petri nets, International Journal of Production Research, 47 (23) 6681-6706.
  • Jiao J., Zhang L., Pokharel S., (2007). Process platform planning for variety coordination from design to production in mass customization manufacturing, IEEE Transactions on Engineering Management, 54 (1) 112-129.
  • Jiao J., Pokharel S., Kumar A., Zhang L., (2007). Development of an online quality information system for e-manufacturing, Journal of Manufacturing Technology Management, 18 (1) 36-53.
  • Jiao J., Zhang L., Pokharel S., He Z., (2007). Identifying generic routings for product families in mass customization production based on text mining and tree matching, Decision Support Systems, 43 (3) 866-883.
  • Zhang L., Jiao J., Helo P.T., (2007). Process platform representation based on unified modeling language, International Journal of Production Research, 45 (2) 323-350.
  • Jiao J., Zhang L., Pokharel S., (2005). Coordinating product and process variety for mass customized order fulfillment, Production Planning and Control, 16 (6) 608-620.
  • Jiao J., Zhang L., Prasanna K., (2004). Process variety modeling for process configuration in mass customization: An approach based on object-oriented Petri nets with changeable structures, International Journal of Flexible Manufacturing Systems, 16 (4) 335-361.
Ouvrages
  • Zhang L., (2011) Process platforms and production configuration for mass customization: Basics, concepts and methods, VDM Verlag Dr. Müller.
Chapitres de livres
  • Zhang L., (2011), Planning process families with PROGRES , in: Operations Management Research and Cellular Manufacturing: Innovative Methods and Approaches .
  • Jiao J., Zhang L., (2008), Data mining applications of process platform formation for high variety production, in: Recent Advances in Data Mining of Enterprise Data: Algorithms and Applications.
  • Jiao J., Zhang L., Pokharel S., (2006), Process platform and production configuration for product families, in: Product Platform and Product Family Design: Methods and Applications.
Domaines de Recherche
  • Warehousing systems
  • Healthcare service design and management
  • The design and development of high value-added, customer driven products and the corresponding systems
Enseignement
Programme Grande Ecole :
  • Operations management strategy and company observation
IÉSEG