Let be $G=(V,E)$, where $V=\{1,\ldots,n\}$ and $E=\{\{i,j\}\subset V;|i-j|\leq k\}$ and $k<n$.
For which values of $k\geq 2$, can we count explicitly the number of Hamiltonian paths in $G$ ?
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2 Answers
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S. Kitaev defines Path schemes $P(n,M)$ as graphs with vertex set $\{1,2,\dots,n\}$ and edges $(i,j)$ iff $|i-j|\in M$. Hamiltonian graphs on path schemes were mentioned in "On uniquely k-determined permutations" by S. Avgustinovich and S. Kitaev. The formula is not simple even in the case where $M=\{1,2\}$ (here), but I guess it depends on what kind of formula you are looking for.
answered Jun 18, 2010 at 19:00
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$\begingroup$ Hi Gjergji, thank you very much for the reply. The special case
$M={1,2}$is the most important for me right now. $\endgroup$– LeandroCommented Jun 18, 2010 at 22:02
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Explicit values for $k\leq 9$ and small $n$ are given in the OEIS:
k=2: http://oeis.org/A003274 (contains some references and a generating function)
answered Jun 29, 2010 at 1:54
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$\begingroup$ Hi Max, thank you for the information. $\endgroup$– LeandroCommented Jun 29, 2010 at 9:32