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چکیده
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Integrated supplier selection and order allocation is a complex problem that is important for both
designing and operating supply chains. It becomes especially complicated when quantity discounts
are considered at the same time. Under such circumstances, most studies often formulate the problem
as a Multi-Objective Linear Programming problem (MOLP), and then transform it to a Mixed
Integer Programming problem (MIP) to handle the inherited multi-objectives, simultaneously. But,
objectives are not of equal importance and in this approach scaling and subjective weighting often
are not considered. In addition, some of the studies that use weighting method to solve the MOLP,
usually ignore to normalize the coefficients. However, as different coefficients have different units
such as cost or number coefficients, so weighted summation will be meaningless. Furthermore, in
most of the studies only quantitative criteria are considered in mathematical model. But, the importance
of some qualitative criteria persuade decision maker to consider other affective criteria as
well as cost. In this study, in order to ease the problem and to obtain a more reasonable compromised
solution for order allocating among suppliers, an integration of analytical hierarchy process
and linear integer and multi-objective programming is proposed. The large number of criteria and
attributes are employed in this problem and they are employed in a comprehensive model to solve
the multi-objective problem and to find the most preferred non dominated solutions by considering
decision maker’s (DM) preferences. Some illustrative examples are solved using LINGO and the
results are compared. The sensitivity analysis and comparing the results with one of the well-known
studies in the literature has demonstrated the flexibility and efficiency of the proposed model to
deal with large
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