Approximating the smallest k-edge connected spanning subgraph by LP-rounding

Approximating the smallest k-edge connected spanning subgraph by LP-rounding

The smallest k‐ECSS problem is, given a graph along with an integer k, find a spanning subgraph that is k‐edge connected and contains the fewest possible number of edges. We examine a natural approximation algorithm based on rounding an LP solution. A tight bound on the approximation ratio is 1 + 3/...

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Veröffentlicht in:Networks 2009-07, Vol.53 (4), p.345-357
Hauptverfasser: Gabow, Harold N., Goemans, Michel X., Tardos, Éva, Williamson, David P.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithmics. Computability. Computer arithmetics
Applied sciences
approximation algorithms
Computer science
control theory
systems
Computer systems and distributed systems. User interface
edge connectivity
Exact sciences and technology
Flows in networks. Combinatorial problems
graph connectivity
Information retrieval. Graph
linear program
LP-rounding
MAX SNP-hardness
network design
Operational research and scientific management
Operational research. Management science
Software
Theoretical computing
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Zusammenfassung:The smallest k‐ECSS problem is, given a graph along with an integer k, find a spanning subgraph that is k‐edge connected and contains the fewest possible number of edges. We examine a natural approximation algorithm based on rounding an LP solution. A tight bound on the approximation ratio is 1 + 3/k for undirected graphs with k > 1 odd, 1 + 2/k for undirected graphs with k even, and 1 + 2/k for directed graphs with k arbitrary. Using iterated rounding improves the first upper bound to 1 + 2/k. On the hardness side we show that for some absolute constant c > 0, for any integer k ≥ 2 (k ≥ 1), a polynomial‐time algorithm approximating the smallest k‐ECSS on undirected (directed) multigraphs to within ratio 1 + c/k would imply P = NP. © 2008 Wiley Periodicals, Inc. NETWORKS, 2009
ISSN:0028-3045
1097-0037
DOI:10.1002/net.20289