On the 3‐Local Profiles of Graphs

Abstract: For a graph G, let pi(G),i=0,...,3 be the probability that three distinct random vertices span exactly i edges. We call (p0(G),...,p3(G)) the 3‐local profile of G. We investigate the set scriptS3⊂double-struckR4 of all vectors (p0,...,p3) that are arbitrarily close to the 3‐local profiles of arbitrarily large graphs. We give a full description of the projection of S3 to the (p0,p3) plane. The upper envelope of this planar domain is obtained from cliques on a fraction of the vertex set and complements of such g… Show more

“…It is not difficult to see that this question is equivalent to the problem of minimizing given , which is analogous to an interesting question about graphs: Let , given how small can be? (This question is stated in its general form in though it was probably posed earlier.) Razborov's recent solution for was a major achievement in local graph theory.…”

“…In the present article we add some piece to what is known about 3 . At this writing even 3 is not yet fully understood (but see [11,16]). The state of our knowledge of l for l ≥ 4 is really very limited, though some work already exists, e.g., [7,8,12,13,[17][18][19].…”

Graphs with Few 3‐Cliques and 3‐Anticliques are 3‐Universal

“…It is not difficult to see that this question is equivalent to the problem of minimizing given , which is analogous to an interesting question about graphs: Let , given how small can be? (This question is stated in its general form in though it was probably posed earlier.) Razborov's recent solution for was a major achievement in local graph theory.…”

“…In the present article we add some piece to what is known about 3 . At this writing even 3 is not yet fully understood (but see [11,16]). The state of our knowledge of l for l ≥ 4 is really very limited, though some work already exists, e.g., [7,8,12,13,[17][18][19].…”

Graphs with Few 3‐Cliques and 3‐Anticliques are 3‐Universal

“…Not only is nonconvex, it is even computationally infeasible to derive a description of its convex hull (see ). Our understanding of the sets is rather fragmentary (e.g., ). Flag algebras are a major tool in such investigations.…”

On the Local Profiles of Trees

“…The feasible region for fixed densities ρ 123 versus ρ 321 is the same as the feasible region for triangle density x = d ( K 3 , G ) versus anti‐triangle density of graphons . Let C be the line segment for , D the x ‐axis from to x = 1, and E the y ‐axis from to y = 1.…”

“…To see that is also the feasible region for 123 versus 321 density of permutons, an argument much like the one above for 12 versus 123 can be (and was, by ) given. Permutons realizing various boundary points are illustrated in Figure ; they correspond to the extremal graphons described in . The rest are filled in by parameterization and a topological argument (essentially Theorem above, once we add an extra spike poking into R from the dimple to continuously interpolate between the two permutons at the dimple).…”

Permutations with fixed pattern densities