Fuzzy Nonlinear Programming for Production Inventory Based on Statistical Data

Lily Lin; Huey-Ming Lee

doi:10.20965/jaciii.2016.p0005

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JACIII Vol.20 No.1 pp. 5-12

doi: 10.20965/jaciii.2016.p0005

(2016)

Paper:

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Fuzzy Nonlinear Programming for Production Inventory Based on Statistical Data

Lily Lin^* and Huey-Ming Lee^**

^*Department of International Business, China University of Technology
56, Section 3, Hsing-Lung Road, Taipei 116, Taiwan

^**Department of Information Management, Chinese Culture University
55 Hwa-kang Road, Yang-Ming-Shan, Taipei 11114, Taiwan

Received:

December 29, 2013

Accepted:

April 8, 2015

Online released:

January 19, 2016

Published:

January 20, 2016

Keywords:

interval-valued fuzzy number, confidence interval, nonlinear programming

Abstract

The purpose of this study is to develop a crisp nonlinear method of programming to address production inventory problems based on both production inventory and conditions. In addition, we use a statistical confidence interval to derive level (1-β, 1-α) interval-valued fuzzy numbers, in order to solve problems in nonlinear programming for production inventory in the fuzzy sense.

Cite this article as:

L. Lin and H. Lee, “Fuzzy Nonlinear Programming for Production Inventory Based on Statistical Data,” J. Adv. Comput. Intell. Intell. Inform., Vol.20 No.1, pp. 5-12, 2016.

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References

[1] L.A. Zadeh, “Fuzzt sets,” Information and Control, Vol.8, pp. 338-353, 1965.
[2] G. Bojadziev and M. Bojadziev, “Fuzzy Logic for Business, Management,” World Scientific Publishing Co., 1997.
[3] H.-J. Zimmermann, “Fuzzy Set Theory and Its Applications,” 4^th Ed., Kluwer Academic Publishers, Boston/Dordrecht/London, 2001.
[4] H.-M. Lee and J. Chiang, “Fuzzy production inventory based on signed distance,” J. of Information Science and Engineering, Vol.23, pp. 1939-1953, 2007.
[5] H.-M. Lee and J.-S. Yao, “Economic production quantity for fuzzy demand quantity and fuzzy production quantity,” European J. of Operation Research, Vol.109, pp. 203-211, 1998.
[6] D.-C. Lin and J.-S. Yao, “Fuzzy economic production for production inventory, “ Fuzzy Sets and Systems, Vol.111, pp. 465-495, 2000.
[7] D. Dufois and H. Prade, “System of linear fuzzy constraints,” Fuzzy Sets and Systems, Vol.13, pp. 1-10, 1982.
[8] H. Tanaka and K. Asal, “Fuzzy linear programming problem with fuzzy numbers,” Fuzzy Sets and Systems, Vol.13, pp. 1-10, 1984.
[9] M. B. Gorzalezany, “A method of inference in approximate reasion based on interval-valued fuzzy sets,” Fuzzy Sets and Systems, Vol.21, pp. 1-17, 1987.
[10] P. S. Mann, “Statistics for Business and Economics,” John Wiley & Sons, Inc., New York, 1995.
[11] A. Kaufmann and M. M. Gupta, “Introduction to Fuzzy Arithmetic Theory and Application,” Van Nostrand Reinhold New York, 1991.
[12] H.-M. Lee C.-F. Fuh and J.-S. Su, “Fuzzy parallel system reliability analysis based on level (λ,ρ) interval-valued fuzzy numbers,” Int. J. of Innovative Computing, Information and Control, Vol.8, No.8, pp. 5703-5713, 2012.
[13] J.-S. Yao and K. Wu, “Ranking fuzzy numbers based on decomposition principle and signed distance,” Fuzzy Sets and Systems, Vol.116, pp. 275-288, 2000.
[14] F.-S. Budnick, D. Mcleavey, and R. Mjena, “Principles of operations research for management,” IRWIN, 1988.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] L.A. Zadeh, “Fuzzt sets,” Information and Control, Vol.8, pp. 338-353, 1965.

[2] [2] G. Bojadziev and M. Bojadziev, “Fuzzy Logic for Business, Management,” World Scientific Publishing Co., 1997.

[3] [3] H.-J. Zimmermann, “Fuzzy Set Theory and Its Applications,” 4^th Ed., Kluwer Academic Publishers, Boston/Dordrecht/London, 2001.

[4] [4] H.-M. Lee and J. Chiang, “Fuzzy production inventory based on signed distance,” J. of Information Science and Engineering, Vol.23, pp. 1939-1953, 2007.

[5] [5] H.-M. Lee and J.-S. Yao, “Economic production quantity for fuzzy demand quantity and fuzzy production quantity,” European J. of Operation Research, Vol.109, pp. 203-211, 1998.

[6] [6] D.-C. Lin and J.-S. Yao, “Fuzzy economic production for production inventory, “ Fuzzy Sets and Systems, Vol.111, pp. 465-495, 2000.

[7] [7] D. Dufois and H. Prade, “System of linear fuzzy constraints,” Fuzzy Sets and Systems, Vol.13, pp. 1-10, 1982.

[8] [8] H. Tanaka and K. Asal, “Fuzzy linear programming problem with fuzzy numbers,” Fuzzy Sets and Systems, Vol.13, pp. 1-10, 1984.

[9] [9] M. B. Gorzalezany, “A method of inference in approximate reasion based on interval-valued fuzzy sets,” Fuzzy Sets and Systems, Vol.21, pp. 1-17, 1987.

[10] [10] P. S. Mann, “Statistics for Business and Economics,” John Wiley & Sons, Inc., New York, 1995.

[11] [11] A. Kaufmann and M. M. Gupta, “Introduction to Fuzzy Arithmetic Theory and Application,” Van Nostrand Reinhold New York, 1991.

[12] [12] H.-M. Lee C.-F. Fuh and J.-S. Su, “Fuzzy parallel system reliability analysis based on level (λ,ρ) interval-valued fuzzy numbers,” Int. J. of Innovative Computing, Information and Control, Vol.8, No.8, pp. 5703-5713, 2012.

[13] [13] J.-S. Yao and K. Wu, “Ranking fuzzy numbers based on decomposition principle and signed distance,” Fuzzy Sets and Systems, Vol.116, pp. 275-288, 2000.

[14] [14] F.-S. Budnick, D. Mcleavey, and R. Mjena, “Principles of operations research for management,” IRWIN, 1988.

Fuzzy Nonlinear Programming for Production Inventory Based on Statistical Data

Lily Lin* and Huey-Ming Lee**

Lily Lin^* and Huey-Ming Lee^**