Mathematics – Combinatorics
Scientific paper
2010-09-30
Mathematics
Combinatorics
17 pages, 4 figures
Scientific paper
We consider the geometric random (GR) graph on the $d-$dimensional torus with the $L_\sigma$ distance measure ($1 \leq \sigma \leq \infty$). Our main result is an exact characterization of the probability that a particular labeled cycle exists in this random graph. For $\sigma = 2$ and $\sigma = \infty$, we use this characterization to derive a series which evaluates to the cycle probability. We thus obtain an exact formula for the expected number of Hamilton cycles in the random graph (when $\sigma = \infty$ and $\sigma = 2$). We also consider the adjacency matrix of the random graph and derive a recurrence relation for the expected values of the elementary symmetric functions evaluated on the eigenvalues (and thus the determinant) of the adjacency matrix, and a recurrence relation for the expected value of the permanent of the adjacency matrix. The cycle probability features prominently in these recurrence relations. We calculate these quantities for geometric random graphs (in the $\sigma = 2$ and $\sigma = \infty$ case) with up to $20$ vertices, and compare them with the corresponding quantities for the Erd\"{o}s-R\'{e}nyi (ER) random graph with the same edge probabilities. The calculations indicate that the threshold for rapid growth in the number of Hamilton cycles (as well as that for rapid growth in the permanent of the adjacency matrix) in the GR graph is lower than in the ER graph. However, as the number of vertices $n$ increases, the difference between the GR and ER thresholds reduces, and in both cases, the threshold $\sim \log(n)/n$. Also, we observe that the expected determinant can take very large values. This throws some light on the question of the maximal determinant of symmetric $0/1$ matrices.
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