Branch Mathematics and Statistics Faculty and Staff Publications
Document Type
Article
Publication Date
2023
Abstract
This paper explores the defects in fuzzy (hyper) graphs (as complex (hyper) networks) and extends the fuzzy (hyper) graphs to fuzzy (quasi) superhypergraphs as a new concept. We have modeled the fuzzy superhypergraphs as complex superhypernetworks in order to make a relation between labeled objects in the form of details and generalities. Indeed, the structure of fuzzy (quasi) superhypergraphs collects groups of labeled objects and analyzes them in the form of the part to part of objects, the part of objects to the whole group of objects, and the whole to the whole group of objects at the same time. We have investigated the properties of fuzzy (quasi) superhypergraphs based on any positive real number as valued fuzzy (quasi) superhypergraphs, considering the complement of valued fuzzy (quasi) superhypergraphs, the notation of isomorphism of valued fuzzy (quasi) superhypergraphs based on the permutations, and we have presented the isomorphic conditions of (self complemented) valued fuzzy (quasi) superhypergraphs. The concept of impact membership value of fuzzy (quasi) superhypergraphs is introduced in this study and it is applied in designing the real problem in the real world. Finally, the problem of business superhypernetworks is presented as an application of fuzzy valued quasi superhypergraphs in the real world.
Publication Title
Computer Modeling in Engineering & Sciences
Language (ISO)
English
Keywords
(Quasi) superhypergraph; valued fuzzy (quasi) superhypergraph; impact membership value; complex superhypernetwork
Recommended Citation
Hamidi, Mohammad; Florentin Smarandache; and Mohadeseh Taghinezhad. "Decision Making Based on Valued Fuzzy Superhypergraphs." Computer Modeling in Engineering & Sciences (2023). https://digitalrepository.unm.edu/math_fsp/608
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
