Symmetries and optimal multi-dimensional mechanism design

Constantinos Daskalakis, Seth Matthew Weinberg

Research output: Chapter in Book/Report/Conference proceedingConference contribution

60 Scopus citations


We efficiently solve the optimal multi-dimensional mechanism design problem for independent additive bidders with arbitrary demands when either the number of bidders is held constant or the number of items is held constant. In the first setting, we need that each bidder's values for the items are sampled from a possibly correlated, item-symmetric distribution, allowing different distributions for each bidder. In the second setting, we allow the values of each bidder for the items to be arbitrarily correlated, but assume that the distribution of bidder types is bidder-symmetric. These symmetric distributions include i.i.d. distributions, as well as many natural correlated distributions. E.g., an item-symmetric distribution can be obtained by taking an arbitrary distribution, and "forgetting" the names of items; this could arise when different members of a bidder population have various sorts of correlations among the items, but the items are "the same" with respect to a random bidder from the population. For all ε > 0, we obtain a computationally efficient additive ε-approximation, when the value distributions are bounded, or a multiplicative (1-ε)-approximation when the value distributions are unbounded, but satisfy the Monotone Hazard Rate condition, covering a widely studied class of distributions in Economics. Our running time is polynomial in max{#items,#bidders}, and not the size of the support of the joint distribution of all bidders' values for all items, which is typically exponential in both the number of items and the number of bidders. Our mechanisms are randomized, explicitly price bundles, and in some cases can also accommodate budget constraints. Our results are enabled by several new tools and structural properties of Bayesian mechanisms, which we expect to find applications beyond the settings we consider here; indeed, there has already been follow-up research [Cai et al. 2012; Cai and Huang 2012] making use of our tools in both symmetric and non-symmetric settings. In particular, we provide a symmetrization technique that turns any truthful mechanism into one that has the same revenue and respects all symmetries in the underlying value distributions. We also prove that item-symmetric mechanisms satisfy a natural strong-monotonicity property which, unlike cyclic-monotonicity, can be harnessed algorithmically. Finally, we provide a technique that turns any given ε-BIC mechansism (i.e. one where incentive constraints are violated by ε) into a truly-BIC mechanism at the cost of O(√ε) revenue.

Original languageEnglish (US)
Title of host publicationEC '12 - Proceedings of the 13th ACM Conference on Electronic Commerce
Number of pages18
StatePublished - 2012
Externally publishedYes
Event13th ACM Conference on Electronic Commerce, EC '12 - Valencia, Spain
Duration: Jun 4 2012Jun 8 2012

Publication series

NameProceedings of the ACM Conference on Electronic Commerce


Other13th ACM Conference on Electronic Commerce, EC '12

All Science Journal Classification (ASJC) codes

  • Software
  • Computer Science Applications
  • Computer Networks and Communications


  • auction theory
  • multi-dimensional mechanism design
  • pricing
  • revenue optimization
  • symmetries


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