An approach to $$(\mu ,\nu ,\omega )$$-single-valued neutrosophic submodules

Abstract

AbstractDealing with erroneous, unexpected, susceptible, flawed, vulnerable, and intricate information is simplified with the use of a single-valued neutrosophic set (svns). This is because of the fact that these types of information are more sensitive to error. This is due to the fact that these particular kinds of information are more prone to error. The ideas of fuzzy sets and intuitionistic fuzzy sets have both undergone further development as a direct result of the development of this new theory. In svns, indeterminacy is quantified in a way that is both obvious and unambiguous, and truth membership, indeterminacy membership, and falsity membership are all completely independent of one another. In algebraic analysis, certain binary operations can be thought of as interacting with algebraic modules. These modules are intricate and ubiquitous structures. There are many different applications for modules to be used in. Modules find use in an extremely wide variety of different kinds of businesses and market segments. We investigate the idea of$$(\mu ,\nu ,\omega )$$(μ,ν,ω)-svns and relate it to$$(\mu ,\nu ,\omega )$$(μ,ν,ω)-single-valued neutrosophic module and$$(\mu ,\nu ,\omega )$$(μ,ν,ω)-single-valued neutrosophic submodule, respectively. The goals of this research are to comprehend the algebraic structures of a$$(\mu ,\nu ,\omega )$$(μ,ν,ω)-single-valued neutrosophic submodule of a classical module and enhance the legitimacy of this technique by discussing numerous essential aspects. Both of these goals will be accomplished through the course of this study. The strategies that we have developed in this manuscript are more generalizable than those that have been utilized in the past. These strategies include fuzzy sets, intuitionistic fuzzy sets, and neutrosophic sets.