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  • 标题:Graph Pricing Problem on Bounded Treewidth, Bounded Genus and k-Partite Graphs
  • 本地全文:下载
  • 作者:Parinya Chalermsook ; Shiva Kintali ; Richard J. Lipton
  • 期刊名称:Chicago Journal of Theoretical Computer Science
  • 印刷版ISSN:1073-0486
  • 出版年度:2013
  • 卷号:2013
  • 出版社:MIT Press ; University of Chicago, Department of Computer Science
  • 摘要:

    Consider the following problem. A seller has infinite copies of $n$ products represented by nodes in a graph. There are $m$ consumers, each has a budget and wants to buy two products. Consumers are represented by weighted edges. Given the prices of products, each consumer will buy both products she wants, at the given price, if she can afford to. Our objective is to help the seller price the products to maximize her profit.

    This problem is called graph vertex pricing (GVP) problem and has resisted several recent attempts despite its current simple solution. This motivates the study of this problem on special classes of graphs. In this paper, we study this problem on a large class of graphs such as graphs with bounded treewidth, bounded genus and $k$-partite graphs.

    We show that there exists an FPTAS for GVP on graphs with bounded treewidth. This result is also extended to an FPTAS for the more general single-minded pricing problem. On bounded genus graphs we present a PTAS and show that GVP is NP-hard even on planar graphs.

    We study the Sherali-Adams hierarchy applied to a natural Integer Program formulation that $(1+\epsilon)$-approximates the optimal solution of GVP. Sherali-Adams hierarchy has gained much interest recently as a possible approach to develop new approximation algorithms. We show that, when the input graph has bounded treewidth or bounded genus, applying a constant number of rounds of Sherali-Adams hierarchy makes the integrality gap of this natural LP arbitrarily small, thus giving a $(1+\epsilon)$-approximate solution to the original GVP instance.

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