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BULANIK AMAÇ PROGRAMLAMA YARDIMI İLE OPTIMUM KAYNAK TAHSİSATI : YÜKSEK EĞİTİM SİSTEMİ UYGULAMASI

IMPLEMENTATION OF OPTIMUM RESOURCE ALLOCATION BY FUZZY GOAL PROGRAMMING : THE CASE OF HIGHER EDUCATION SYSTEM

Journal Name:

  • Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi

Publication Year:

  • 2003

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
The Goal Programming, which is using to solve the multiple objective decision problems, has wide and great potential among other methods targeting maximization or minimization of goals. The main aim of the goal programming is to minimize the biases from each objective, instead of optimization of goals. Goal Programming algorithms, as originally developed by Charnels, attempts to achieve as many of these goals possible by minimizing deviation variables from the goal levels, depending on their relative weights. This minimization process has been forming in two categories, which involves preemptive and weighted techniques. In this study, Fuzzy Goal Programming has used to determine optimum allocation of education equipment such as computer and laptop to the faculty members and officers at different level of positions.
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Abstract (Original Language): 
Çok amaçlı karar problemlerinin çözümü için kullanılan Amaç Programlama , enbüyükleme veya enküçükleme maksadı ile kullanılan diğer metodlar arasında daha kapsamlı ve büyük potansiyele sahiptir. Amaç programlamanın esas gayesi, hedeflerin optimizasyonu yerine, hedeflerden sapmaları enküçüklemektir. Charnels tarafından geliştirilen Amaç Programlama, farklı önem seviyelerine sahip birden çok amacın, minumum sapmalarla, aynı anda gerçekleşmesini hedeflemektedir. Bu enküçükleme tekniği, önceliklendirme ve ağırlıklandırma olmak üzere iki kategoride uygulanmaktadır. Bu çalışmada, Bulanık Amaç Programlama tekniği, bir fakültede çalışan personele dağıtılması düşünülen bilgisayar,yazıcı, tarayıcı gibi eğitim araçlarının, bütçe ve makine sayısı kısıtları dikkate alınarak, en iyi tahsisini belirlemek için kullanılmıştır.
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  • Turkish

REFERENCES

References: 

Chih-Sheng L., Ching- Gung, W. 1997. Fuzzy Goal Programming Approach for Water Quality Management in a River Basin, Fuzzy Sets and Systems 89, 181-192.
Hannan, E. L. 1981. Linear Programming with multiple fuzzy goals, Fuzzy Sets and Systems 6,
235-248.
Hasiao-Fan W., Ching-Chun F. 1997. A
Generalization of Fuzzy Goal Programming With Preemptive Structure, Computers Operations
Research, Vol. 24, No: 9, pp.819-828.
Jong Soon, K., Kyu-Seung, W. 1998. The Tolerance Approach to the Fuzzy Goal Programming Problems with Unbalanced Triangular Membership Function, European Journal of Operational Research 107, 614¬624.
Koo et al., 1991. (Alınmıştır). Ni-Bin C., S. F.
Wang, A. 1997. Fuzzy Goal Programming Approach for The Optimal Planning of Metropolitan Solid Waste Management Systems, European Journal Of Operational Research 99, 303-321. Liang-Hsuan C., Feng-Chou T. 2001. Fuzzy Goal Programming with Different Importance and Priorities, Theory and Methodology, European Journal of Operational Research 133, 548-556. M. Arenas P., A. Bilbao T., M. V. Rodriguez, U. 2001. A Fuzzy Goal Programming Approach to Portfolio Selection, European Journal of Operational Research 133, 287-297.
Narasimhan, R. 1980. Goal Programming in Fuzzy Environment, Decision Sciences 11, 325-336. Ni-Bin C., S. F. Wang, A. 1997. Fuzzy Goal Programming Approach for The Optimal Planning of Metropolitan Solid Waste Management Systems, European Journal Of Operational Research 99, 303¬321.
Para, M., Terol, A., Uria, M. 2000. (Alınmıştır). Liang-Hsuan C., Feng-Chou T. 2001. Fuzzy Goal Programming with Different Importance and Priorities, Theory and Methodology, European Journal of Operational Research 133, 548-556.
Roy, T. K. and Maiti, M. 1998. Multi-Objective Inventory Models of Deteriorating Items With Some Constraints in a Fuzzy Environment, Computer Operations Research, Vol. 25, No.12, pp. 1085,
1095.
Young-Jou L., Ching-L. H.1994. Fuzzy Multiple Objective Decision Making, Springer-Verlag New York.

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