Self-Confirming Price Prediction for Bidding in Simultaneous Ascending Auctions

MacKie-Mason, Jeffrey K.; Osepayshvili, Anna; Wellman, Michael P.; Reeves, Daniel M.

Self-Confirming Price Prediction for Bidding in Simultaneous Ascending Auctions

Olivier Armantier, Jean-Pierre Florens, and Jean-Francois Richard, EMPIRICAL GAME-THEORETIC MODELS: CONSTRAINED EQUILIBRIUM AND SIMULATIONS, TECHNICAL REPORT, State University of New York at Stonybrook, 2000

9 Pages Posted: 27 Mar 2007

See all articles by Jeffrey K. MacKie-Mason

Jeffrey K. MacKie-Mason

UC Berkeley; University of Michigan

Anna Osepayshvili

University of Michigan at Ann Arbor - School of Information

Michael P. Wellman

University of Michigan - Computer Science and Engineering

Daniel M. Reeves

University of Michigan at Ann Arbor

Abstract

Simultaneous ascending auctions present agents with the exposure problem: bidding to acquire a bundle risks the possibility of obtaining an undesired subset of the goods. Auction theory provides little guidance for dealing with this problem. We present a new family of decisiontheoretic bidding strategies that use probabilistic predictions of final prices. We focus on selfconfirming price distribution predictions, which by definition turn out to be correct when all agents bid decision-theoretically based on them. Bidding based on these is provably not optimal in general, but our experimental evidence indicates the strategy can be quite effective compared to other known methods.

Suggested Citation: Suggested Citation

MacKie-Mason, Jeffrey K. and Osepayshvili, Anna and Wellman, Michael P. and Reeves, Daniel M., Self-Confirming Price Prediction for Bidding in Simultaneous Ascending Auctions. Olivier Armantier, Jean-Pierre Florens, and Jean-Francois Richard, EMPIRICAL GAME-THEORETIC MODELS: CONSTRAINED EQUILIBRIUM AND SIMULATIONS, TECHNICAL REPORT, State University of New York at Stonybrook, 2000, Available at SSRN: https://ssrn.com/abstract=974919