Document Type : Original Article
Department of civil engineering,Guangzhou University,Guangzhou, China
Department o civil engineering, Guangzhou University, Guangzhou, China
Department of Civil Engineering,Guangzhou University,Guangzhou,China
Department of Mathematics and Information Science, Guangzhou University, Guangzhou,China
A B S T R A C T
Linear Programming as a practical technique for solving optimization problems with linear objective functions and linear constraint plays an essential role in mathematical programming. Most of the real-world problems are included in inconsistent and astute uncertainty. That's why the optimal solution can't be found easily. The Neutrosophic theory, as an extension of fuzzy set theory, is a powerful instrument to handle inconsistent, indeterminate, and incomplete information. This paper presents an applied approach for solving Interval Neutrosophic Integer Programming problems. By using the proposed approach, we can handle both incomplete and indeterminate data. In this respect, using a ranking function, we present a technique to convert the Interval Neutrosophic Integer Programming problem into a crisp model and then solve it by standard methods.