• DocumentCode
    1712091
  • Title

    Frugal Mechanism Design via Spectral Techniques

  • Author

    Chen, Ning ; Elkind, Edith ; Gravin, Nick ; Petrov, Fedor

  • Author_Institution
    Sch. of Phys. & Math. Sci., Nanyang Technol. Univ., Singapore, Singapore
  • fYear
    2010
  • Firstpage
    755
  • Lastpage
    764
  • Abstract
    We study the design of truthful mechanisms for set systems, i.e., scenarios where a customer needs to hire a team of agents to perform a complex task. In this setting, frugality [2] provides a measure to evaluate the "cost of truthfulness", that is, the overpayment of a truthful mechanism relative to the "fair" payment. We propose a uniform scheme for designing frugal truthful mechanisms for general set systems. Our scheme is based on scaling the agents\´ bids using the eigenvector of a matrix that encodes the interdependencies between the agents. We demonstrate that the r-out-of-k-system mechanism and the √-mechanism for buying a path in a graph [18] can be viewed as instantiations of our scheme. We then apply our scheme to two other classes of set systems, namely, vertex cover systems and k-path systems, in which a customer needs to purchase k edge-disjoint source-sink paths. For both settings, we bound the frugality of our mechanism in terms of the largest eigenvalue of the respective interdependency matrix. We show that our mechanism is optimal for a large subclass of vertex cover systems satisfying a simple local sparsity condition. For k-path systems, our mechanism is within a factor of k + 1 from optimal; moreover, we show that it is, in fact, optimal, when one uses a modified definition of frugality proposed in [10]. Our lower bound argument combines spectral techniques and Young\´s inequality, and is applicable to all set systems. As both r-out-of-k systems and single path systems can be viewed as special cases of k-path systems, our result improves the lower bounds of [18] and answers several open questions proposed in [18].
  • Keywords
    financial management; matrix algebra; multi-agent systems; set theory; √-mechanism; Young´s inequality; edge-disjoint source-sink paths; fair payment; frugal mechanism design; frugal truthful mechanisms; frugality; general set systems; k-path systems; local sparsity condition; matrix eigenvector; overpayment; r-out-of-k-system mechanism; respective interdependency matrix; single path systems; spectral techniques; vertex cover systems; Benchmark testing; Eigenvalues and eigenfunctions; Electronic commerce; Equations; Mechanical factors; Nash equilibrium; Stability analysis;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Foundations of Computer Science (FOCS), 2010 51st Annual IEEE Symposium on
  • Conference_Location
    Las Vegas, NV
  • ISSN
    0272-5428
  • Print_ISBN
    978-1-4244-8525-3
  • Type

    conf

  • DOI
    10.1109/FOCS.2010.77
  • Filename
    5671350