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.
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