Simple Algorithms for Fully Dynamic Edge Connectivity
By: Yotam Kenneth-Mordoch, Robert Krauthgamer
Potential Business Impact:
Keeps computer networks working when things change.
In the fully dynamic edge connectivity problem, the input is a simple graph $G$ undergoing edge insertions and deletions, and the goal is to maintain its edge connectivity, denoted $\lambda_G$. We present two simple randomized algorithms solving this problem. The first algorithm maintains the edge connectivity in worst-case update time $\tilde{O}(n)$ per edge update, matching the known bound but with simpler analysis. Our second algorithm achieves worst-case update time $\tilde{O}(n/\lambda_G)$ and worst-case query time $\tilde{O}(n^2/\lambda_G^2)$, which is the first algorithm with worst-case update and query time $o(n)$ for large edge connectivity, namely, $\lambda_G = \omega(\sqrt{n})$.
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