About the Book
Introduction.- Fundamentals of intelligent decision-making techniques.- An intelligent decision-making framework for production planning and control.- An intelligent optimization model for order scheduling at factory level.- A bi-level intelligent optimization model for assembly line scheduling with flexible operation assignment.- A bi-level multi-parent genetic optimization model for flexible assembly line balancing with work-sharing and workstation revisiting.- An evolution strategy-based multi-objective optimization model for order planning with multiple production departments.- A multi-objective memetic optimization model for order planning with uncertainties.- A harmony search-based hybrid intelligent model for order planning with learning effects.- An RFID-and-cloud-based intelligent decision support system architecture for production monitoring and scheduling.- A neural network-based forecasting model for univariate sales forecasting.- An extreme learning machine-based intelligent decision-making model for multivariate sales forecasting.- Conclusion.
About the Author: Zhaoxia Guo
Research Areas
Production scheduling and optimization, Sales forecasting, Decision support systems, Computational intelligence
Education
09/2004-08/2007, Ph.D, The Hong Kong Polytechnic University, Hong Kong
09/2000-03/2003, M.Sc. in Control Theory and Control Engineering, Donghua University, Shanghai, China
09/1996-06/2000, Bachelor in Automatic Control, Donghua University, Shanghai, China
Working Experience
2012.09- Present, Associate Professor, Business School, Sichuan University, China
2013.12- 2014.12, Honorary associate, University of Wisconsin-Madison, US
2008.12-2012.08, Postdoctoral fellow, The Hong Kong Polytechnic University, Hong Kong
2007.09-2008.11, IT/System In Charge, Genexy Company Limited, Hong Kong
2003.3-2004.8, Assistant lecturer, Donghua University, China
Awards
2nd Prize in IMB Innovation Award 2009 (Category: Research and Development), Awarded by The European Commission of the Industry Research, IMB 2009 World of Textile Processing, German, 3rd Awardee
Gold Award in Most Innovative Use of EPC/RFID, Hong Kong RFID Awards 2012, Hong Kong, 2nd Awardee
Professional Activities
Editorial member, International Journal of Engineering Mathematics, Advanced Engineering Technology and Application;
Member, International Institute of Forecasters, Association for Information Systems;
The 10th IEEE International Conference on Industrial Informatics (INDIN 2012), Session Chair;
Invited reviewer: Applied Mathematical Modeling, Applied Soft Computing, Computers & Industrial Engineering, European Journal of Operational Research, IEEE Transactions on Automation Science and Engineering, IEEE Transactions on Industrial Informatics, IEEE Transactions on Neural Networks, Information Sciences, International Journal of Advanced Manufacturing Technology, International Journal of Production Research, Neural Computing and Applications, Textile Research Journal, etc.
Research Projects (Selected)
On Supply Chain Scheduling Integrating Production and Distribution Operations and its Hybrid Intelligent Decision-making Models, Sponsored by the National Natural Science Foundation of China (2014-2016), Principal Investigator
Modeling and Optimization for Integrated Scheduling of Production and Transportation in MTO supply chain, Sponsored by the Research Funds for Outstanding Youth Scholars of Sichuan University (2014-2016), Principal Investigator
Development of Index System for Low-carbon Logistics Evaluation, Sponsored by the Key Logistics Research Project of Sichuan Province (2014-2015), Co-investigator
Development of a Decision-making Model for Dynamic Supply Chain Network optimization, Sponsored by Fundamental Research Funds for the Central Universities of China (2013-2015), Principal Investigator.
Hybrid Intelligent System for Product demand Forecasting in Apparel Supply Chains, Sponsored by Postdoctoral Fellowship Fund of HKPolyU (2010-2012), Applicant.
Development of a Fashion Sales Forecasting Decision Support System for Retailing, Sponsored by HKRITA and 4 Apparel Retail Companies, (2008-2010), Project Manager
Publications (Selected)
Monographs
[1]Wong W.K., Guo Z.X., Leung S.Y.S. (2013), Optimizing decision making in the apparel supply chain using artificial intelligence (AI): From production to retail, Woodhead Publishing Limited, Cambridge, UK
[2]Wong W.K., Guo Z.X. (2014), Fashion supply chain management using radio frequency identification (RFID) technologies, Woodhead Publishing Limited, Cambridge, UK
Journal Papers
[3]Guo Z.X., Yang C., Wang, W. and Yang J.. (2015) "Harmony search-based multi-objective optimization model for multi-site order planning with multiple uncertainties and learning effects", Computers & Industrial Engineering, In Press, DOI: 10.1016/j.cie.2015.01.023.
[4]Guo Z.X., Ngai EWT, Yang C., and Liang XD. (2015) "An RFID-based intelligent decision support system architecture for production monitoring and scheduling in a distributed manufacturing environment", International Journal of Production Economics. 159: 16-28.
[5]Guo Z. X., Wong W.K. and Guo C. (2014). "A cloud-based intelligent decision-making system for order tracking and scheduling in apparel manufacturing". International Journal of Production Research. 52(4): 1100-1115.
[6]Wong W. K., Guo Z. X. and Leung S. Y. S. (2014). "Intelligent multi-objective decision-making model with RFID technology for production planning". International Journal of Production Economics. 147, Part C, 647-658
[7]Guo, Z.X., Wong W.K., and Leung S. Y. S. (2013). A hybrid intelligent model for order allocation planning in make-to-order manufacturing. Applied Soft Computing, 13(3): 1376-1390.
[8]Guo Z. X. and Wong W.K. (2013). A multivariate intelligent decision-making model for retail sales forecasting. Decision Support Systems. 55(1): 247-255. [9]Guo Z. X., Wong W.K., Zhi Li and Peiyu Ren (2013). Modeling and Pareto optimization of multi-objective order scheduling problems in production planning. Computers & Industrial Engineering, 64(4): 972-986.
[10]Guo, Z.X., Wong W.K., and Li Min (2012). Sparsely connected neural network-based time series forecasting. Information Sciences. 193(1): 54-71.
[11]Wong W.K., Leung S.Y.S., Guo Z.X. (2012). Feedback controlled particle swarm optimization and its application in time-series prediction. Expert Systems with Applications. 39(10): 8557-8572.
[12]Wong W.K., Leung S.Y.S., Guo Z.X., et al. (2012). Intelligent product cross-selling system with radio frequency identification technology for retailing. International Journal of Production Economics 135(1): 308-319.
[13]Guo, Z.X., Wong W.K., Leung S.Y.S. and Li Min (2011). "Applications of artificial intelligence in the apparel industry: A review". Textile Research Journal 81(18): 1871-1892.
[14]Wong W.K., Guo Z.X. and Leung S.Y.S. (2010). "Partially Connected Feedforward Neural Networks on Apollonian Networks." Physica A 389(22): 5298-5307.
[15]Wong W.K. and Guo Z.X. (2010). "A hybrid intelligent model for medium-term sales forecasting in fashion retail supply chains using extreme learning machine and harmony search algorithm." International Journal of Production Economics 128(2): 614-624.
[16]Wong W.K. and Guo Z.X. (2010). "A hybrid approach for packing irregular patterns using evolutionary strategies and neural network." International Journal of Production Research 48(20): 6061 - 6084.
[17]Guo, Z.X., Wong W.K., Leung S.Y.S. and Fan J.T. (2009). "Intelligent production control decision support system for flexible assembly lines." Expert Systems with Applications 36(3): 4268-4277.
[18]Guo Z.X., Wong W.K., et al. (2008). "Genetic optimization of order scheduling with multiple uncertainties." Expert Systems with Applications 35:1788-1801.
[19]Guo Z.X., Wong W.K., et al. (2008). "A genetic algorithm based optimization model for solving the flexible assembly line balancing problem with work-sharing and workstation revisiting." IEEE Transactions on Systems Man and Cybernetics Part C - Applications and Reviews 38(2):218-228.
[20]Guo Z.X., Wong W.K., et al. (2008). "A genetic-algorithm-based optimization model for scheduling flexible assembly lines." International Journal of Advanced Manufacturing Technology 36(1-2):156-168.
[21]Guo Z.X., Wong W.K., et al. (2006). "Mathematical model and genetic optimization for the job shop scheduling problem in a mixed- and multi-product assembly environment: A case study based on the apparel industry". Computers & Industrial Engineering 50(3), 202-219.
Conference Papers
[22]Yang C., Guo Z.X., and Liu L. (2014). Comparison Study on Algorithms for Vehicle Routing Problem With Time Windows. The 21st International Conference on Industrial Engineering and Engineering Management 2014 (IEEM 2014), Zhuhai, China.
[23]Yang Can, Ngai E.W.T., Guo Z.X.*, Luo, Li, An Information System Framework and Prototype for Collaborative and Standardized Chinese Liquor Production, 20th Americas Conference on Information Systems, AMCIS 2014, Savannah, GA, USA, 2014
[24]Guo Z.X., Chen L., and Yang J. (2014). An intelligent multi-objective optimization approach for multi-site order planning in MTO manufacturing. the World Congress on Engineering and Computer Science 2014, WCECS 2014, San Francisco, USA.
[25]Guo Z.X., Guo Chunxiang (2014), A Cloud-based Decision Support System Framework for Order Planning and Tracking, International Conference on Management Science and Engineering Management, Proceedings of the Seventh International Conference on Management Science and Engineering Management, Lecture Notes in Electrical Engineering 241, pp 85-98
[26]Guo Z.X., Yang Can (2013), Development of production tracking and scheduling system: A cloud-based architecture, 2013 International Conference on Cloud Computing and Big Data (CloudCom-Asia), 2013, Fuzhou, China
[27]Guo Z.X. (2013), An Intelligent Decision-making Model for Multivariate Demand Forecasting, Presented at the 33rd International Symposium on Forecasting, 23-26 June, Souel, Korea.
[28]Guo Z.X., Li M., Wong W.K. (2012). Intelligent multivariate sales forecasting using wrapper approach and neural networks, IEEE INDIN2012 - IEEE International Conference on Industrial Informatics, Beijing, China.
[29]Wong W.K., Guo Z.X. and Mok P.Y. (2012) A hybrid intelligent model for order allocation planning in make-to-order manufacturing. Proceedings of World Academy of Science, Engineering and Technology 2012, Paris, France.
[30]Guo, Z.X., Wong W.K. and Leung S.Y.S. (2011). "RFID-based intelligent production planning systems for apparel manufacturing", The Fiber Society 2011 Spring Conference, pp: 68-69. Hong Kong, China.