Wyniki wyszukiwania

1

Universality for and in Induced-Hereditary Graph Properties

100%

Broere I., Heidema J.

Discussiones Mathematicae Graph Theory

|

2013

|

tom 33

|

nr 1

33-47

EN

The well-known Rado graph R is universal in the set of all countable graphs I, since every countable graph is an induced subgraph of R. We study universality in I and, using R, show the existence of 2 א0 pairwise non-isomorphic graphs which are universal in I and denumerably many other universal graphs in I with prescribed attributes. Then we contrast universality for and universality in induced-hereditary properties of graphs and show that the overwhelming majority of induced-hereditary properties contain no universal graphs. This is made precise by showing that there are 2(2א0 ) properties in the lattice K ≤ of induced-hereditary properties of which only at most 2א0 contain universal graphs. In a final section we discuss the outlook on future work; in particular the question of characterizing those induced-hereditary properties for which there is a universal graph in the property.

2

Universality in Graph Properties with Degree Restrictions

81%

Broere I., Heidema J., Mihók P.

Discussiones Mathematicae Graph Theory

|

2013

|

tom 33

|

nr 3

477-492

EN

Rado constructed a (simple) denumerable graph R with the positive integers as vertex set with the following edges: For given m and n with m < n, m is adjacent to n if n has a 1 in the m’th position of its binary expansion. It is well known that R is a universal graph in the set [...] of all countable graphs (since every graph in [...] is isomorphic to an induced subgraph of R). A brief overview of known universality results for some induced-hereditary subsets of [...] is provided. We then construct a k-degenerate graph which is universal for the induced-hereditary property of finite k-degenerate graphs. In order to attempt the corresponding problem for the property of countable graphs with colouring number at most k + 1, the notion of a property with assignment is introduced and studied. Using this notion, we are able to construct a universal graph in this graph property and investigate its attributes.

3

The Quest for A Characterization of Hom-Properties of Finite Character

81%

Broere I., Matsoha M. D. V., Heidema J.

Discussiones Mathematicae Graph Theory

|

2016

|

tom 36

|

nr 2

479-500

EN

A graph property is a set of (countable) graphs. A homomorphism from a graph G to a graph H is an edge-preserving map from the vertex set of G into the vertex set of H; if such a map exists, we write G → H. Given any graph H, the hom-property →H is the set of H-colourable graphs, i.e., the set of all graphs G satisfying G → H. A graph property P is of finite character if, whenever we have that F ∈ P for every finite induced subgraph F of a graph G, then we have that G ∈ P too. We explore some of the relationships of the property attribute of being of finite character to other property attributes such as being finitely-induced-hereditary, being finitely determined, and being axiomatizable. We study the hom-properties of finite character, and prove some necessary and some sufficient conditions on H for →H to be of finite character. A notable (but known) sufficient condition is that H is a finite graph, and our new model-theoretic proof of this compactness result extends from hom-properties to all axiomatizable properties. In our quest to find an intrinsic characterization of those H for which →H is of finite character, we find an example of an infinite connected graph with no finite core and chromatic number 3 but with hom-property not of finite character.

Ograniczanie wyników

3 Discussiones Mathematicae Graph Theory

3 Broere I.

3 Heidema J.

1 Matsoha M. D. V.

1 Mihók P.

1 2016

2 2013

Universality for and in Induced-Hereditary Graph Properties

Universality in Graph Properties with Degree Restrictions

The Quest for A Characterization of Hom-Properties of Finite Character