Selection of Alternative under the Framework of Single-Valued Neutrosophic Sets
release_rev_90e040b8-bf2e-4777-ab85-34bbfbb2a3be
by
M. Sarwar Sindhu, Tabasam Rashid, Agha Kashif
Abstract
The multiple criteria decision making (MCDM) problems indicate the alternatives which have more
or less resemblance to each other. An important mathematical tool used by decision-makers (DMs) to quantify these resemblances is the similarity measure (SM). SM is a powerful tool that measures the resemblance
more accurately. Mostly, fuzzy sets (FSs) and its extensions handle the vague and uncertain information by
considering the membership, non-membership, and indeterminacy degrees whose sum always lies in the interval
[0, 1]. However, single-valued neutrosophic sets (SVNSs) and interval-valued neutrosophic sets (IVNSs) have
information whose sum is bounded in [0, 3]. In the present work, we extended the SM presented by William and
Steel for SVNSs and IVNSs by using the concept of Euclidean distance. The weights of criteria indicate much
influence for the selection of the best alternative, sometimes DMs feel hesitation to allocate the weights to the
criteria. We applied the linear programming (LP) model to evaluate the weights of the criteria to reduce the
hesitancy. Later on, SM is utilized to establish an MCDM model for the selection of the best option. Moreover,
the Spearman's rank correlation coefficient is implemented to analyze the ranking order. Finally, a medical
diagnosis example is illustrated for the feasibility and effectiveness of the proposed model.
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