Mechanism Design with Partial Revelation

With the emergence of the Internet as a global structure for communication and interaction, many “business to consumer” and “business to business” applications have migrated online, thus increasing the need for software agents that can act on behalf of people, institutions or companies with private...

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Main Author: Hyafil, Nathanael
Other Authors: Boutilier, Craig
Format: Others
Language:en_ca
Published: 2008
Subjects:
Online Access:http://hdl.handle.net/1807/11113
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spelling ndltd-TORONTO-oai-tspace.library.utoronto.ca-1807-111132013-04-19T19:51:54ZMechanism Design with Partial RevelationHyafil, NathanaelMechanism DesignAuctions0984With the emergence of the Internet as a global structure for communication and interaction, many “business to consumer” and “business to business” applications have migrated online, thus increasing the need for software agents that can act on behalf of people, institutions or companies with private and often conflicting interests. The design of such agents, and the protocols (i.e., mechanisms) through which they interact, has therefore naturally become an important research theme. Classical mechanism design techniques from the economics literature do not account for the costs entailed with the full revelation of preferences that they require. The aim of this thesis is to investigate how to design mechanisms that only require the revelation of partial preference information and are applicable in any mechanism design context. We call this partial revelation mechanism design. Reducing revelation costs is thus our main concern. With only partial revelation, the designer has some remaining uncertainty over the agents’ types, even after the mechanism has been executed. Thus, in general, the outcome chosen will not be optimal with respect to the designer’s objective function. This alone raises interesting questions about which (part of the) information should be elicited in order to minimize the degree of sub-optimality incurred by the mechanism. But this sub-optimality of the mechanism’s outcome choice function has additional important consequences: most of the results in classical mechanism design which guarantee that agents will reveal their type truthfully to the mechanism rely on the fact that the optimal outcome is chosen. We must therefore also investigate if, and how, appropriate incentives can be maintained in partial revelation mechanisms. We start by presenting our own model for partial revelation mechanism design. Our second contribution is a negative one regarding the quasi-impossibility of implementing partial revelation mechanisms with exact incentive properties. The rest of the thesis shows, in different settings, how this negative result can be bypassed in various settings, depending on the designer's objective (e.g., social welfare, revenue...) and the interaction type (sequential or one shot). Finally, we study how the approximation of the incentive properties can be further improved when necessary, and in the process, introduce and proves the existence of a new equilibrium concept.Boutilier, Craig2008-032008-07-28T20:45:24ZNO_RESTRICTION2008-07-28T20:45:24Z2008-07-28T20:45:24ZThesis1467943 bytesapplication/pdfhttp://hdl.handle.net/1807/11113en_ca
collection NDLTD
language en_ca
format Others
sources NDLTD
topic Mechanism Design
Auctions
0984
spellingShingle Mechanism Design
Auctions
0984
Hyafil, Nathanael
Mechanism Design with Partial Revelation
description With the emergence of the Internet as a global structure for communication and interaction, many “business to consumer” and “business to business” applications have migrated online, thus increasing the need for software agents that can act on behalf of people, institutions or companies with private and often conflicting interests. The design of such agents, and the protocols (i.e., mechanisms) through which they interact, has therefore naturally become an important research theme. Classical mechanism design techniques from the economics literature do not account for the costs entailed with the full revelation of preferences that they require. The aim of this thesis is to investigate how to design mechanisms that only require the revelation of partial preference information and are applicable in any mechanism design context. We call this partial revelation mechanism design. Reducing revelation costs is thus our main concern. With only partial revelation, the designer has some remaining uncertainty over the agents’ types, even after the mechanism has been executed. Thus, in general, the outcome chosen will not be optimal with respect to the designer’s objective function. This alone raises interesting questions about which (part of the) information should be elicited in order to minimize the degree of sub-optimality incurred by the mechanism. But this sub-optimality of the mechanism’s outcome choice function has additional important consequences: most of the results in classical mechanism design which guarantee that agents will reveal their type truthfully to the mechanism rely on the fact that the optimal outcome is chosen. We must therefore also investigate if, and how, appropriate incentives can be maintained in partial revelation mechanisms. We start by presenting our own model for partial revelation mechanism design. Our second contribution is a negative one regarding the quasi-impossibility of implementing partial revelation mechanisms with exact incentive properties. The rest of the thesis shows, in different settings, how this negative result can be bypassed in various settings, depending on the designer's objective (e.g., social welfare, revenue...) and the interaction type (sequential or one shot). Finally, we study how the approximation of the incentive properties can be further improved when necessary, and in the process, introduce and proves the existence of a new equilibrium concept.
author2 Boutilier, Craig
author_facet Boutilier, Craig
Hyafil, Nathanael
author Hyafil, Nathanael
author_sort Hyafil, Nathanael
title Mechanism Design with Partial Revelation
title_short Mechanism Design with Partial Revelation
title_full Mechanism Design with Partial Revelation
title_fullStr Mechanism Design with Partial Revelation
title_full_unstemmed Mechanism Design with Partial Revelation
title_sort mechanism design with partial revelation
publishDate 2008
url http://hdl.handle.net/1807/11113
work_keys_str_mv AT hyafilnathanael mechanismdesignwithpartialrevelation
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