Local Access to Sparse Connected Subgraphs Via Edge Sampling

07/10/2020
by   Rogers Epstein, et al.
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We contribute an approach to the problem of locally computing sparse connected subgraphs of dense graphs. In this setting, given an edge in a connected graph G = (V, E), an algorithm locally decides its membership in a sparse connected subgraph G^* = (V, E^*), where E^* ⊆ E and |E^*| = o(|E|). Such an approach to subgraph construction is useful when dealing with massive graphs, where reading in the graph's full network description is impractical. While most prior results in this area require assumptions on G or that |E'| ≤ (1+ϵ)|V| for some ϵ > 0, we relax these assumptions. Given a general graph and a parameter T, we provide membership queries to a subgraph with O(|V|T) edges using O(|E|/T) probes. This is the first algorithm to work on general graphs and allow for a tradeoff between its probe complexity and the number of edges in the resulting subgraph. We achieve this result with ideas motivated from edge sparsification techniques that were previously unused in this problem. We believe these techniques will motivate new algorithms for this problem and related ones. Additionally, we describe an efficient method to access any node's neighbor set in a sparsified version of G where each edge is deleted with some i.i.d. probability.

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