Fuzzy Anp Approach for New Application Greenhouse Location Selection a Case in Iran
-
3078
Downloads
-
4546
Views
Authors
Nahid Rezaeiniya
- Firoozkooh Branch, Islamic Azad University, Firoozkooh, Iran, Department of industrial Engineering.
Abdolhamid Safaei Ghadikolaei
- Mazandaran University, Faculty of industry management.
Javad Mehri-tekmeh
- University of Tabriz, Tabriz, Iran, Department of mathematics.
Hamidreza Rezaeiniya
- Firoozkooh Branch, Islamic Azad University, Firoozkooh, Iran, Department of industrial Management.
Abstract
Selection of the most appropriate location for investor is an important problem which requires assessment and analysis of several factors. The greenhouse locating has become one of the most important problems for investors; it is a complicated problem and a decision under a variety of factors. The selection of a location among alternative locations is a multi-criteria decision-making problem including both quantitative and qualitative criteria. In this paper, we describe the research and development of hybrid FMCDM methods for greenhouse locating in Iran. Analytic network process gave us a flexibly structure for greenhouse locating, this structure found the relative weights of criteria and ranked the alternatives too.
Share and Cite
ISRP Style
Nahid Rezaeiniya, Abdolhamid Safaei Ghadikolaei, Javad Mehri-tekmeh, Hamidreza Rezaeiniya, Fuzzy Anp Approach for New Application Greenhouse Location Selection a Case in Iran, Journal of Mathematics and Computer Science, 8 (2014), no. 1, 1 - 20
AMA Style
Rezaeiniya Nahid, Ghadikolaei Abdolhamid Safaei, Mehri-tekmeh Javad, Rezaeiniya Hamidreza, Fuzzy Anp Approach for New Application Greenhouse Location Selection a Case in Iran. J Math Comput SCI-JM. (2014); 8(1):1 - 20
Chicago/Turabian Style
Rezaeiniya, Nahid, Ghadikolaei, Abdolhamid Safaei, Mehri-tekmeh, Javad, Rezaeiniya, Hamidreza. "Fuzzy Anp Approach for New Application Greenhouse Location Selection a Case in Iran." Journal of Mathematics and Computer Science, 8, no. 1 (2014): 1 - 20
Keywords
- Analytic network process (ANP)
- Fuzzy logic
- Locating
- Greenhouse.
MSC
References
-
[1]
A. F. Guneri, I. M. Cengiz, S. Seker, A fuzzy ANP approach to shipyard location selection, Expert Systems with Applications, 36 (2009), 7992-7999.
-
[2]
S. Jaafarnia, M. Homaei, Comprehensive and illustrated guide, Greenhouse cultivation of cucumbers and tomatoes, 7rd ed., Iran green agriculture school, (in Persian). , (2009), 2-10
-
[3]
M. Hasandokht, Greenhouse management (greenhouse product technologies), 1st ed., Marze danesh publication, (in Persian), (2005), 31-35
-
[4]
H. Mollahoseini, M. Seylsepur, Greenhouse production management, 1st ed., sarva publication, (in Persian) (2008)
-
[5]
S. Önüt, S. Karar, E. Tugba, A hybrid fuzzy MCDM approach to machine tool selection , Journal of Intelligent Manufacturing, 19 (2008), 443-453.
-
[6]
P. Weber, D. Chapman, Location Intelligence: An Innovative Approach to Business Location Decision-making, Transactions in GIS, 15(3) (2011), 309-328.
-
[7]
I. Kaya, Multi criteria Location Selection of Wastewater Treatment Plant by Fuzzy Analytic Hierarchy Process, Journal of Multiple-Valued Logic and Soft Computing, 17(4) (2011), 305-320.
-
[8]
S. Önüt, S. Soner, Transshipment site selection using the AHP and TOPSIS approaches under fuzzy environment, Waste Management, 28 (2008), 1552–1559.
-
[9]
M. H. Vahidnia, A. A. Alesheikh, A. Alimohammadi, Hospital site selection using fuzzy AHP and its derivatives, Journal of Environmental Management, 90 (2009), 3048–3056.
-
[10]
M. S. Kuo, Optimal location selection for an international distribution center by using a new hybrid method, Expert Systems with Applications, 38 (2011), 7208–7221.
-
[11]
T. Y. Chou, C. L. Hsu, M. C. Chen, A fuzzy multi-criteria decision model for international tourist hotels location selection, International Journal of Hospitality Management , 27 (2008), 293–301.
-
[12]
S. Önüt, T. Efendigil, S. S. Kara, A combined fuzzy MCDM approach for selecting shopping center site: An example from Istanbul, Turkey, Expert Systems with Applications, 37 (2010), 1973-1980.
-
[13]
T. Özcan, N. Çelebi, E. Şakir, Comparative analysis of multi-criteria decision making methodologies and implementation of a warehouse location selection problem, Expert Systems with Applications, 38(8), 9773-9779 (2011)
-
[14]
G. Banias, C. Achillas, C. Vlachokostas, N. Moussiopoulos, S. Tarsenis, Assessing multiple criteria for the optimal location of a construction and demolition waste management facility, Building and Environment, 45(10) (2010), 2317-2326.
-
[15]
W. K. M. Brauers, E. K. Zavadskas, Multi objective optimization in local theory with a simulation for a department store, Transformations in Business & Economic, 7 (3) (2008), 163-183.
-
[16]
Z. Turskis, E. K. Zavadskas , A new fuzzy additive ratio assessment method (ARAS–F)Case study: the analysis of fuzzy multiple criteria in order to select the logistic centers location, Transport, 25(4) (2010), 423–432.
-
[17]
I. Radfar, S. H. Zolfani, N. Rezaeiniya, M. Shadifar, Using AHP- COPRAS-G method for forest roads locating, in 2nd IEEE International Conference on Emergency “Management and Management Sciences (ICEMMS)”, Beijing , (2011), 547-550.
-
[18]
E. K. Zavadskas, Z. Turskis, Multiple criteria decision making (MCDM) methods in economics: an overview, Technological and Economic Development of Economy , 17(2) (2011), 397–427.
-
[19]
C. L. Hwang, K. Yoon, Multiple Attribute Decision Making: A State of the Art Survey, In: Lecture Notes in Economics and Mathematical Systems 186, Springer-Verlag, Berlin (1981)
-
[20]
C. Zopounidis, M. Doumpos, Multi-criteria Decision Aid in Financial Decision Making: Methodologies and Literature Review, Journal of Multi-Criteria Decision Analysis, 11 (2002), 167–186.
-
[21]
J. Figueira, S. Greco, M. Ehrgott, Multiple Criteria Decision Analysis: State of the Art Surveys, Springer, New York (2005)
-
[22]
O. Kaplinski, L. Tupenaite, Review of the Multiple Criteria Decision Making Methods, Intelligent and Biometric Systems Applied in Modern Construction Economics, Transformations in Business & Economics, 10(1) (2011), 166–181.
-
[23]
O. Kapliński, J. Tamosaitiene, Game theory applications in construction engineering and management, Technological and Economic Development of Economy, 16(2) (2010), 348–363.
-
[24]
J. Tamosaitiene, L. Bartkiene, T. Vilutiene, The New Development Trend of Operational Research in Civil Engineering and Sustainable Development as a result of collaboration between German–Lithuanian–Polish Scientific Triangle, Journal of Business Economics and Management, 11(2) (2010), 316–340.
-
[25]
T. L. Saaty, Decision Making with Dependence and Feedback The Analytic Network Process, RWS Publications, Pittsburgh (1996)
-
[26]
T. L. Saaty, M. Takizawa, Dependence and independence: From linear hierarchies to nonlinear networks, European Journal of Operational Research, 26 (1686), 229 – 237.
-
[27]
C. Liang, Q. Li, Enterprise information system project selection with regard to BOCR, International Journal of Project Management, 26(8) (2007), 810-820.
-
[28]
S. Boran, K. Goztep, E. Yavuz, A Study On Election Of Personnel Based On Performance Measurement By Using Analytic Network Process (ANP), International Journal of Computer Science and Network Security, 8(4) (2008), 333-338.
-
[29]
M. Dagdeviren, I. Yuksel, M. Kurt, A fuzzy analytic network process (ANP) model to identify faulty behavior risk (FBR) in work system, Safety Science, 46 (2008), 771–783.
-
[30]
Z. Ayag, R. G. Ozdemir, A hybrid approach to concept selection through fuzzy analytic network process, Computers & Industrial Engineering, 56 (2009), 368–379.
-
[31]
H. R. Yazgan, Selection of dispatching rules with fuzzy ANP approach, The International Journal of Advanced Manufacturing Technology, 170 (2010), 2739-2747.
-
[32]
M. S. Kuo , Optimal location selection for an international distribution center by using a new hybrid method, Expert Systems with Applications, 38 (2011), 7208–7221.
-
[33]
T. L. Saaty, Fundamentals of the Analytic Network Process , ISAHP, Kobe, August, 12-14 (1999), 348-379.
-
[34]
T. L. Saaty, Making with Dependence and Feedback , 2nd edition, RWS Publication (2001)
-
[35]
T. L. Saaty, The Analytic Hierarchy Process, McGraw-Hill, New York (1980)
-
[36]
T. L. Saaty, Theory and Applications of the Analytic Network Process: Decision Making with Benefits, Opportunities, Costs, and Risks, RWS Publications, Pittsburg, PA, USA (2005)
-
[37]
L. A. Zadeh, Fuzzy sets, Information Control, 8 (1965), 338–353.
-
[38]
S. Önüt, S. Soner, Transshipment site selection using the AHP and TOPSIS approaches under fuzzy environment, Waste Management , 28 (2008), 1552–1559.
-
[39]
D. Y. Chang, Applications of extent analysis method on fuzzy AHP, European Journal of Operational Research, 95 (1996), 649–655.