A constant factor approximation algorithm for generalized min-sum set cover

N. Bansal; A. Gupta; R. Krishnaswamy

A constant factor approximation algorithm for generalized min-sum set cover

N. Bansal
, A. Gupta
, R. Krishnaswamy

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

43 Citaten (Scopus)

1 Downloads (Pure)

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Consider the following generalized min-sum set cover or multiple intents re-ranking problem proposed by Azar et al. (STOC 2009). We are given a universe of elements and a collection of subsets, with each set S having a covering requirement of K(S). The objective is to pick one element at a time such that the average covering time of the sets is minimized, where the covering time of a set S is the first time at which K(S) elements from it have been selected. There are two well-studied extreme cases of this problem: (i) when K(S) = 1 for all sets, we get the min-sum set cover problem, and (ii) when K(S) = |S| for all sets, we get the minimum-latency set cover problem. Constant factor approximations are known for both these problems. In their paper, Azar et al. considered the general problem and gave a logarithmic approximation algorithm for it. In this paper, we improve their result and give a simple randomized constant factor approximation algorithm for the generalized min-sum set cover problem.

Originele taal-2	Engels
Titel	Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010)
Redacteuren	M. Charikar
Uitgeverij	Society for Industrial and Applied Mathematics (SIAM)
Pagina's	1539-1545
ISBN van geprinte versie	978-0-898717-01-3
Status	Gepubliceerd - 2010
Extern gepubliceerd	Ja

Publicatie series

Naam	Proceedings in Applied Mathematics
Volume	135

Citeer dit

Bansal, N., Gupta, A., & Krishnaswamy, R. (2010). A constant factor approximation algorithm for generalized min-sum set cover. In M. Charikar (editor), Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010) (blz. 1539-1545). (Proceedings in Applied Mathematics; Vol. 135). Society for Industrial and Applied Mathematics (SIAM).

Bansal, N. ; Gupta, A. ; Krishnaswamy, R. / A constant factor approximation algorithm for generalized min-sum set cover. Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010). redacteur / M. Charikar. Society for Industrial and Applied Mathematics (SIAM), 2010. blz. 1539-1545 (Proceedings in Applied Mathematics).

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title = "A constant factor approximation algorithm for generalized min-sum set cover",

abstract = "Consider the following generalized min-sum set cover or multiple intents re-ranking problem proposed by Azar et al. (STOC 2009). We are given a universe of elements and a collection of subsets, with each set S having a covering requirement of K(S). The objective is to pick one element at a time such that the average covering time of the sets is minimized, where the covering time of a set S is the first time at which K(S) elements from it have been selected. There are two well-studied extreme cases of this problem: (i) when K(S) = 1 for all sets, we get the min-sum set cover problem, and (ii) when K(S) = |S| for all sets, we get the minimum-latency set cover problem. Constant factor approximations are known for both these problems. In their paper, Azar et al. considered the general problem and gave a logarithmic approximation algorithm for it. In this paper, we improve their result and give a simple randomized constant factor approximation algorithm for the generalized min-sum set cover problem.",

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Bansal, N, Gupta, A & Krishnaswamy, R 2010, A constant factor approximation algorithm for generalized min-sum set cover. in M Charikar (reds.), Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010). Proceedings in Applied Mathematics, vol. 135, Society for Industrial and Applied Mathematics (SIAM), blz. 1539-1545.

A constant factor approximation algorithm for generalized min-sum set cover. / Bansal, N.; Gupta, A.; Krishnaswamy, R.
Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010). reds. / M. Charikar. Society for Industrial and Applied Mathematics (SIAM), 2010. blz. 1539-1545 (Proceedings in Applied Mathematics; Vol. 135).

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

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AU - Gupta, A.

AU - Krishnaswamy, R.

PY - 2010

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N2 - Consider the following generalized min-sum set cover or multiple intents re-ranking problem proposed by Azar et al. (STOC 2009). We are given a universe of elements and a collection of subsets, with each set S having a covering requirement of K(S). The objective is to pick one element at a time such that the average covering time of the sets is minimized, where the covering time of a set S is the first time at which K(S) elements from it have been selected. There are two well-studied extreme cases of this problem: (i) when K(S) = 1 for all sets, we get the min-sum set cover problem, and (ii) when K(S) = |S| for all sets, we get the minimum-latency set cover problem. Constant factor approximations are known for both these problems. In their paper, Azar et al. considered the general problem and gave a logarithmic approximation algorithm for it. In this paper, we improve their result and give a simple randomized constant factor approximation algorithm for the generalized min-sum set cover problem.

AB - Consider the following generalized min-sum set cover or multiple intents re-ranking problem proposed by Azar et al. (STOC 2009). We are given a universe of elements and a collection of subsets, with each set S having a covering requirement of K(S). The objective is to pick one element at a time such that the average covering time of the sets is minimized, where the covering time of a set S is the first time at which K(S) elements from it have been selected. There are two well-studied extreme cases of this problem: (i) when K(S) = 1 for all sets, we get the min-sum set cover problem, and (ii) when K(S) = |S| for all sets, we get the minimum-latency set cover problem. Constant factor approximations are known for both these problems. In their paper, Azar et al. considered the general problem and gave a logarithmic approximation algorithm for it. In this paper, we improve their result and give a simple randomized constant factor approximation algorithm for the generalized min-sum set cover problem.

M3 - Conference contribution

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T3 - Proceedings in Applied Mathematics

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BT - Proceedings 21st Annual ACM-SIAM Symposium on Discrete Algorithms (SODA'10, Austin TX, USA, January 17-19, 2010)

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A constant factor approximation algorithm for generalized min-sum set cover

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