The paper investigates the minimum number of maximal independent set queries required to reconstruct the edges of a hidden graph. The key findings are:
Randomized adaptive algorithms need at least Ω(Δ^2 log(n/Δ) / log Δ) queries to reconstruct n-vertex graphs of maximum degree Δ with success probability at least 1/2.
Randomized non-adaptive algorithms need at least Ω(Δ^2 log(n/Δ)) queries to reconstruct n-vertex graphs of maximum degree Δ with success probability at least 1/2. This matches the upper bound of O(Δ^2 log n) for Δ ≤ n^(1-ε) where ε > 0 is fixed.
Deterministic non-adaptive algorithms require at least Ω(Δ^3 log n / log Δ) queries to reconstruct n-vertex graphs of maximum degree Δ. This nearly matches the upper bound of O(Δ^3 log n) from prior work.
The proofs relate the problem to cover-free families, for which the authors also provide improved lower bounds. The key idea is to consider graphs with a large clique and an independent set, where maximal independent set queries reveal little information.
Til et andet sprog
fra kildeindhold
arxiv.org
Vigtigste indsigter udtrukket fra
by Lukas Michel... kl. arxiv.org 04-05-2024
https://arxiv.org/pdf/2404.03472.pdfDybere Forespørgsler