Authors: Dilek Özdemir, Gül Tekin Temur

Abstract:

In Supply Chain Management (SCM), strengthening partnerships with suppliers is a significant factor for enhancing competitiveness. Hence, firms increasingly emphasize supplier evaluation processes. Supplier evaluation systems are basically developed in terms of criteria such as quality, cost, delivery, and flexibility. Because there are many variables to be analyzed, this process becomes hard to execute and needs expertise. On this account, this study aims to develop an expert system on supplier evaluation process by designing Artificial Neural Network (ANN) that is supported with Data Envelopment Analysis (DEA). The methods are applied on the data of 24 suppliers, which have longterm relationships with a medium sized company from German Iron and Steel Industry. The data of suppliers consists of variables such as material quality (MQ), discount of amount (DOA), discount of cash (DOC), payment term (PT), delivery time (DT) and annual revenue (AR). Meanwhile, the efficiency that is generated by using DEA is added to the supplier evaluation system in order to use them as system outputs.

Keywords: Artificial Neural Network (ANN), DataEnvelopment Analysis (DEA), Supplier Evaluation System.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1329216

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References:

[1] J. Wu, G. Liu and C. Yu, "The study on agile supply chain-based supplier selection and evaluation," 2008 International Symposium on Information Science and Engineering, pp. 280-285, 2008.
[2] J. G. Wacker, "A theoretical model of manufacturing lead times and their relationship to a manufacturing goal hierarchy," Decision Sciences, vol. 27, no. 3, pp. 483-517, 1996.
[3] M. Kumaraswamy, E. Palaneeswaran and P. Humphreys, "Selection matters - in construction supply chain optimization," International Journal of Physical Distribution & Logistics Management, vol. 30, no. 7, 2000.
[4] S. Zeng, A. C. Mitchell, J. S. Benjamin and J. Sairamesh, "A supplier performance evaluation solution for proactive supplier quality management," IEEE International Conference on E-Business Engineering, 2008.
[5] S. Wei, J. Zhang and Z. Li, "A supplier-selecting system using a neural network," IEEE International Conference on Intelligent Processing Systems, Beijing, China, October 28-31, 1997.
[6] K. L. Choy and W. B. Lee, "A generic tool for the selection and management of supplier relationships in an outsourced manufacturing environment: the application of cased based reasoning," Logistics Information Management, vol. 15, pp. 235-253, 2002.
[7] P. Tang, J. Lu and Z. Zhao, "Evaluation and selection of supplier based on improved grey relation analysis," Wireless Communications, Networking and Mobile Computing (WiCOM), 4th International Conference. 2008.
[8] Q. Li, "A fuzzy neural network based multi-criteria decision making approach for outsourcing supplier evaluation," Industrial Electronics and Applications, 3rd IEEE Conference (ICIEA), 2008.
[9] K.L. Choy, W.B. Lee and C.W. Lau, "A knowledge-based supplier intelligence retrieval system for outsource manufacturing," Knowledge- Based Systems, vol. 18, pp. 1-17, 2005.
[10] B. H. Pang, "A method of suppliers evaluation and choice based on AHP and fuzzy theory," Proceedings of the Seventh International Conference on Machine Learning and Cybernetics, Kunming, 12-15 July 2008.
[11] E. Koskivaara, "Neural networks in analytical review procedures," Managerial Auditing Journal, vol. 19, no. 2, pp. 191-223, 2004.
[12] K.L. Choy, W.B. Lee and V. Lob, "Design of an intelligent supplier relationship management system: a hybrid case based neural network approach," Expert Systems with Applications, vol. 24, pp. 225-237, 2003.
[13] S. Kahraman, O. Gunaydin, M. Alber and M. Fener, "Evaluating the strength and deformability properties of misis fault breccia using artificial neural networks," Expert Systems with Applications, vol. 36, pp. 6874-6878, 2009.
[14] P. Gupta and N. K. Sinha, "An improved approach for nonlinear system identification using neural networks," Journal of the Franklin Institute, vol. 336, no. 4, pp. 721-734. 1999.
[15] J. Johnson and P. Picton, "Mechatronics: Designing Intelligent Machines: Concepts in Artificial Intelligence", Butterworth-Heinemann. 1995.
[16] T.C. Tang and L.C. Chi, "Neural networks analysis in business failure prediction of Chinese importers: A between-countries approach" Expert Systems with Applications, vol. 29, pp. 244-255, 2005.
[17] A. Costa and R. N. Markellos, "Evaluating public transport efficiency with neural network models", Transpn Res. C., vol. 5, no 5, pp. 301-312, 1997
[18] M. Norman and B. Stoker, "Data envelopment analysis the analysis of performance", John Wiley & Sons, Chichester, 1991
[19] S. C. Hu, Y. K. Chung and Y. S. Chen, "Using hopfield neural networks to solve DEA problems" CIS 2008.
[20] D. Wu, Z. Yang and L. Liang, "Using DEA-neural network approach to evaluate branch efficiency of a large Canadian bank," Expert System with Applications, pp.108-115, 2006.
[21] N. S. Chauhan, P. K. J. Mohapatra and K. P. Pandey, "Improving energy productivity in paddy production through benchmarking-An application of data envelopment analysis", Energy Conversion and Management, vol 47, pp. 1063-1085, 2006
[22] R. Madlener, C. H. Antunes and L. C. Dias, "Assessing the performance of biogas plants with multi-criteria and data envelopment analysis," European Journal of Operations Research, vol 197, pp.1084-1094, 2009.
[23] S. Wang, "Adaptive non-parametric efficiency frontier analysis: a neural-network-based model," Computers and Operations Research, vol 30, pp. 279-295, 2003.
[24] D. Santin, F. J. Delgado and A. Valino, "The measurement of technical efficiency: a neural network approach," Applied Economics, vol. 36, pp. 627-635, 2004.
[25] H. Liao, B. Wang and T. Weyman-Jones, "Neural network based models for efficiency frontier analysis: an application to east asian economies- Growth Decomposition," Global Economic Review, vol. 36, no. 4, pp. 361-384, 2007.
[26] A. Emrouznejad and E. Shale, "A combined neural network and DEA for measuring efficiency of large scale datasets", Computers & Industrial Engineering, vol. 56, pp. 249-254, 2009.
[27] P. C. Pendharkar and J. A. Rodger, "Technical efficiency-based selection of learning cases to improve forecasting accuracy of neural networks under monotonicity assumption," Decision Support Systems, vol. 36, pp. 117-136, 2003.
[28] C. Wu, X. Chen and Y. Yang, "Decision-making modeling method based on artificial neural network and data envelopment analysis", International Geoscience and Remote Sensing Symposium Proceedings: Science for Society: Exploring and Managing a Changing Planet, IGARSS, 2004.
[29] H. C. Liao, "A data envelopment analysis method for optimizing multiresponse problem with censored data in the Taguchi method," Computers & Industrial Engineering, vol. 46, pp. 817-835, 2004.