TY - JOUR
AU - Florentin Smarandache,
AU - Mohammad Abobala,
TI - Operations with n-Refined Literal Neutrosophic Numbers using the Identification Method and the n-Refined AH-Isometry
PY - 2024/08/01
Y2 - 2024/10/04
JF - Neutrosophic Sets and Systems
JA - Neutrosophic Sets Syst.
VL - 70
SE - Article
UR - https://fs.unm.edu/nss8/index.php/111/article/view/4777
SP - 350-358
AB - If we know the determinate and sub-indeterminate part(s) of an argument a0+a1I1+a2I2+…+anIn how do we similarly find the determinate and sub-indeterminate part(s) of a function (or operation) of this argument f (a0+a1I1+a2I2+…+anIn)? The AH-Isometry is designed to do just that.The function f may be of one or more variables (arguments), it may also be some unary or n-ary operation. Real examples are presented in this paper of such arguments and functions. We now present for the first time the most general form, the n-Refined AH-Isometry.DOI: 10.5281/zenodo.13177462
ER -