Towards an algebra of connectivity

1. Subdivisibility Towards an algebra of connectivity Thor Whalen, Mathematician, August 2003

3. H-subdivisions G H 1 2 1 2 4 3 4 3

4. H-linked G H 1 2 1 2 4 3 4 3

5. H-linked G H 3 2 1 2 1 4 4 3

6. H-linked G 1 4 2 H 3 2 1 3 2 1 2 3 1 4 4 3 4

7. H-linked: A generalization of connectivity H-linked means: H 3-connected 3-connected 3-connected 3-connected The H-linked concept can express: k-orderedness “k-linkedness” k-connectivity 2-linked etc… Ubiquity of cycles with prescribed and proscribed vertices Ubiquity of linear-forests 4-ordered

8. H-linked: A generalization of connectivity H-linked means: H 3-connected 3-connected 3-connected 3-connected The H-linked concept can express: k-orderedness “k-linkedness” k-connectivity 2-linked etc… Ubiquity of cycles with prescribed and proscribed vertices Ubiquity of linear-forests 4-ordered

9. H-linked: A generalization of connectivity H-linked means: H 3-connected 3-connected 3-connected 3-connected The H-linked concept can express: k-orderedness “k-linkedness” k-connectivity 2-linked etc… Ubiquity of cycles with prescribed and proscribed vertices Ubiquity of linear-forests 4-ordered

10. H1→ H2 A E N |G|≥N, G is H1-linked G is H2-linked. def H1is stronger than H2 Connectivity Strength 12k- 16k- 10k- 10k-

11. H2subgraph of H1 H1→ H2 Connectivity StrengthPoset Obvious fact: These all “mean” 3-connected!

12. : G→R μ Connectivity StrengthPoset μ-threshold for H1-linked There are H2-linked graphs that are not H1-linked X μ-threshold for H2-linked X

13. : G→R μ Connectivity StrengthPoset μ-threshold for H1-linked There are H2-linked graphs that are not H1-linked X μ-threshold for H2-linked X 4 1 2 x n-x-2-4-1 μ(G) = x

14. 4 -linked 1 2 Yes! x n-x-2-4-1 μ(G) = x Connectivity StrengthPoset μ-threshold for H1-linked X μ-threshold for H2-linked X

15. -linked No! Connectivity StrengthPoset μ-threshold for H1-linked X μ-threshold for H2-linked X -linked Yes!

16. Theorem: If |H1|=|H2|, with exception to subgraphs of a star; H1→H2 H2subgraph of H1 Connectivity StrengthPoset

17. customary property name min-degree threshold H n+k-2 k-connected 2 n+k/2-2 k-ordered 2 n+2k-3 k-linked 2 etc... Min-degree threshold for H-linkage For connected H, η(H) is the order of a maximal edge cut η(H) = 3 Ferrara, Gould, Tansey, Whalen n+η(H)-2 H-linked 2 Kostochka, Yu

18. 1 2 4 3 H-extendibility 1 A graph G is H-extendible if whenever G has an H-subdivision on S… 2 4 3

19. 1 2 4 3 H-extendibility 1 A graph G is H-extendible if whenever G has an H-subdivision on S… 2 … it has a spanning H-subdivision. 4 3

20. H-extendible expresses the “spanning property” in concepts such as… Suff. cond. implying extendibility H Hamiltonicity δ(G) ≥ n/2 Hamiltonian connectivity δ(G) ≥ (n+1)/2 Hamiltonian k-ordered К(G) ≥ 1+k/2 δ(G) ≥ n/2 Hamiltonian k-linked К(G) ≥ k+1 δ(G) ≥ (n+k)/2 etc... Min-degree threshold for H-extendibility A graph G is H-extendible if whenever G has an H-subdivision on S… … it has a spanning H-subdivision. Gould, Whalen Where… α(H) = vertex indep. number β(H) = edge indep. number ξ(H) = ρ(H)-1+ h1(H) + 2h0(H) (“rank” ρ(H) = |E(H)| - |H| + 1) К(G) ≥ 1+max(α(H), β(H)) δ(G) ≥ (n+ξ(H))/2 H-extendible

21. Further Research “H-pan-extendibility” (subdivisions of all sizes) Gould, Magnant, Powell, Wagner, Whalen “H-reducibility” (small subdivisions) Ore degree for H-linked graphs • More theorems about H-linked strength • Other sufficient conditions for H-linked graphs • Develop an appropriate “H-language” to encompass other graphical properties

22. { SH(G) = (1, 2, 3, 4), (2, 1, 3, 4), (2, 1, 3, 5), (2, 1, 4, 5), (2, 2, 4, 5), (3, 1, 4, 5), (3, 1, 4, 5), (3, 1, 4, 5), (4, 1, 3, 5), (4, 2, 5, 6), (5, 1, 4, 6), (5, 2, 3, 6), (6, 2, 3, 4), etc. -linked means 3 2 1 2 3 4 3 4 6 5 1 2 min degree at least 3 -linked means 3-connected and min degree at least 3 6 5 4 3 2 1 -linked means NOT graph is a forest } Gauging Linkage Fixed Vertices Free Vertices ,F) (H G “Neither (K5,Ø)-linked nor (K3,3,Ø)-linked” means graph is planar. {1,2,3,4,5,6} H

23. And now….Chalkboard discussions…

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