Conceitos essenciais
The authors provide tight upper and lower bounds on the genus of the pancake graph Pn, the burnt pancake graph BPn, and the undirected generalized pancake graph Pm(n).
Resumo
The paper focuses on determining the genus, which is the minimum orientable surface in which a graph can be embedded without edge crossings, for various prefix-reversal graphs.
Key highlights:
- The authors provide a tighter upper bound for the genus of the pancake graph Pn compared to the previously known bound.
- They establish the first known lower and upper bounds for the genus of the burnt pancake graph BPn and the undirected generalized pancake graph Pm(n).
- The bounds are shown to be asymptotically tight, with the genus of Pm(n) being Θ(mnnn!) for all m ≥ 1 and n ≥ 2.
- The proofs rely on finding appropriate rotation systems (Edmonds' permutation technique) where certain cycles in the graphs become boundaries of regions in a 2-cell embedding.
- The authors also provide algorithms to label the vertices of Pn and BPn in a way that facilitates the construction of the rotation systems.
- Conjectures are made about the precise genus values for the specific cases of P4 and BP3.
Estatísticas
If n > 3, then γ(Pn) ≤ n! (3n - 10) / 12 + 1.
If n > 2, then γ(BPn) ≥ 2^(n-4) (3n - 8) n! + 1.
If n ≥ 3, then γ(BPn) ≤ 2^(n-4) (4n - 9) n! + 1.
If n > 1 and m ≥ 3, then γ(Pm(n)) ≥ 1/2 m^(n-1) ((m-2)n - m) n! + 1 for m ∈ {3, 4, 5}, and γ(Pm(n)) ≥ 1/6 m^n (2n - 3) n! + 1 for m ≥ 6.
If m ≥ 3 and n ≥ 2, then γ(Pm(n)) ≤ 1/2 m^(n-1) (mn - m - n) n! + 1 for m even, and γ(Pm(n)) ≤ 1/2 m^(n-1) (2mn - 2m - n - 1) n! + 1 for m odd.
Citações
"If n > 3, then γ(Pn) ≤ n! (3n - 10) / 12 + 1."
"If n ≥ 3, then γ(BPn) ≤ 2^(n-4) (4n - 9) n! + 1."
"γ(Pm(n)) is Θ(mnnn!) for all m ≥ 1 and n ≥ 2."