TY - JOUR
T1 - Semihypergroup-based graph for modeling international spread of COVID-n in social systems
AU - Firouzkouhi, N.
AU - Ameri, R.
AU - Amini, Abbas
AU - Bordbar, H.
PY - 2022
Y1 - 2022
N2 - Graph theoretic techniques have been widely applied to model many types of links in social systems. Also, algebraic hypercompositional structure theory has demonstrated its systematic application in some problems. Influenced by these mathematical notions, a novel semihypergroup-based graph (SBG) of (Formula presented.) is constructed through the fundamental relation (Formula presented.) on (Formula presented.) where semihypergroup H is appointed as the set of vertices and E is addressed as the set of edges on SBG. Indeed, two arbitrary vertices x and y are adjacent if (Formula presented.) The connectivity of graph G is characterized by (Formula presented.) whereby the connected components SBG of G would be exactly the elements of the fundamental group (Formula presented.) Based on SBG, some fundamental characteristics of the graph such as complete, regular, Eulerian, isomorphism, and Cartesian products are discussed along with illustrative examples to clarify the relevance between semihypergroup H and its corresponding graph. Furthermore, the notions of geometric space, block, polygonal, and connected components are introduced in terms of the developed SBG. To formulate the links among individuals/countries in the wake of the COVID (coronavirus disease) pandemic, a theoretical SBG methodology is presented to analyze and simplify such social systems. Finally, the developed SBG is used to model the trend diffusion of the viral disease COVID-n in social systems (i.e., countries and individuals).
AB - Graph theoretic techniques have been widely applied to model many types of links in social systems. Also, algebraic hypercompositional structure theory has demonstrated its systematic application in some problems. Influenced by these mathematical notions, a novel semihypergroup-based graph (SBG) of (Formula presented.) is constructed through the fundamental relation (Formula presented.) on (Formula presented.) where semihypergroup H is appointed as the set of vertices and E is addressed as the set of edges on SBG. Indeed, two arbitrary vertices x and y are adjacent if (Formula presented.) The connectivity of graph G is characterized by (Formula presented.) whereby the connected components SBG of G would be exactly the elements of the fundamental group (Formula presented.) Based on SBG, some fundamental characteristics of the graph such as complete, regular, Eulerian, isomorphism, and Cartesian products are discussed along with illustrative examples to clarify the relevance between semihypergroup H and its corresponding graph. Furthermore, the notions of geometric space, block, polygonal, and connected components are introduced in terms of the developed SBG. To formulate the links among individuals/countries in the wake of the COVID (coronavirus disease) pandemic, a theoretical SBG methodology is presented to analyze and simplify such social systems. Finally, the developed SBG is used to model the trend diffusion of the viral disease COVID-n in social systems (i.e., countries and individuals).
UR - https://hdl.handle.net/1959.7/uws:77371
U2 - 10.3390/math10234405
DO - 10.3390/math10234405
M3 - Article
SN - 2227-7390
VL - 10
JO - Mathematics
JF - Mathematics
IS - 23
M1 - 4405
ER -