The Energy Complexity of Diameter and Minimum Cut Computation in Bounded-Genus Networks
May 10, 2018 Β· Declared Dead Β· π Colloquium on Structural Information & Communication Complexity
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Authors
Yi-Jun Chang
arXiv ID
1805.04071
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.DC
Citations
4
Venue
Colloquium on Structural Information & Communication Complexity
Last Checked
4 months ago
Abstract
This paper investigates the energy complexity of distributed graph problems in multi-hop radio networks, where the energy cost of an algorithm is measured by the maximum number of awake rounds of a vertex. Recent works revealed that some problems, such as broadcast, breadth-first search, and maximal matching, can be solved with energy-efficient algorithms that consume only $\text{poly} \log n$ energy. However, there exist some problems, such as computing the diameter of the graph, that require $Ξ©(n)$ energy to solve. To improve energy efficiency for these problems, we focus on a special graph class: bounded-genus graphs. We present algorithms for computing the exact diameter, the exact global minimum cut size, and a $(1 \pmΞ΅)$-approximate $s$-$t$ minimum cut size with $\tilde{O}(\sqrt{n})$ energy for bounded-genus graphs. Our approach is based on a generic framework that divides the vertex set into high-degree and low-degree parts and leverages the structural properties of bounded-genus graphs to control the number of certain connected components in the subgraph induced by the low-degree part.
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