A Novel Method for Fuzzy Measure Identification
Fuzzy measure and Choquet integral are effective tools for handling complex multiple criteria decision making (MCDM) problems in which criteria are inter- dependent. The identification of a fuzzy measure requires the determination of 2n −2 values when the number of criteria is n. The complexity...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
Taiwan Fuzzy Systems Association
2011
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| Subjects: | |
| Online Access: | http://irep.iium.edu.my/4407/1/ijfs11-1-r-4-A_Novel_Method_for_Fuzzy_Measure_Identifi.pdf http://irep.iium.edu.my/4407/ |
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| Summary: | Fuzzy measure and Choquet integral are effective
tools for handling complex multiple criteria decision
making (MCDM) problems in which criteria are inter-
dependent. The identification of a fuzzy measure
requires the determination of 2n −2 values when
the number of criteria is n. The complexity of this
problem increases exponentially, which makes it
practically very difficult to solve. Many methods have
been proposed to reduce the number of values to be
determined including the introduction of new special
fuzzy measures like the λ -fuzzy measures. However,
manipulations of the proposed methods are difficult
from the aspects of high data complexity as well as
low computation efficiency. Thus, this paper proposed
a novel fuzzy measure identification method by
reducing the data complexity to n(n−1)/2 and enhancing
the computation efficiency by leveraging a
relatively small number of variables and constraints
for linear programming. The proposed method was
developed based on the evaluation of pair-wise additivity
degrees or interdependence coefficients between
the criteria. Depending on the information being
provided by decision-makers on the individual
density of each criterion, the fuzzy measure can be
constructed by solving a simple system of linear inequalities
or a linear programming problem. This
novel method is validated through a supplier selection
problem which occurs frequently in real-world
decision-making problems. Validation results demonstrate
that the newly-proposed method can model
real-world MCDM problems successfully. |
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