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SIGECOM
2005
ACM
2005
ACM
ICE: an iterative combinatorial exchange
We present the first design for a fully expressive iterative combinatorial exchange (ICE). The exchange incorporates a tree-based bidding language that is concise and expressive for CEs. Bidders specify lower and upper bounds on their value for different trades. These bounds allow price discovery and useful preference elicitation in early rounds, and allow termination with an efficient trade despite partial information on bidder valuations. All computation in the exchange is carefully optimized to exploit the structure of the bid-trees and to avoid enumerating trades. A proxied interpretation of a revealed-preference activity rule ensures progress across rounds. A VCG-based payment scheme that has been shown to mitigate opportunities for bargaining and strategic behavior is used to determine final payments. The exchange is fully implemented and in a validation phase. Categories and Subject Descriptors: I.2.11 [Artificial Intelligence]: Distributed Artificial Intelligence; J.4 [Co...
Real-time TrafficBounds Allow Price | Iterative Combinatorial Exchange | SIGECOM 2005 | Useful Preference Elicitation |
| Added | 26 Jun 2010 |
| Updated | 26 Jun 2010 |
| Type | Conference |
| Year | 2005 |
| Where | SIGECOM |
| Authors | David C. Parkes, Ruggiero Cavallo, Nick Elprin, Adam I. Juda, Sébastien Lahaie, Benjamin Lubin, Loizos Michael, Jeffrey Shneidman, Hassan Sultan |
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