Optimizing payments in dominant-strategy mechanisms for multi-parameter domains
Optimizing payments in dominant-strategy mechanisms for multi-parameter domains
In AI research, mechanism design is typically used to allocate tasks and resources to agents holding private information about their values for possible allocations. In this context, optimizing payments within the Groves class has recently received much attention, mostly under the assumption that agent’s private information is single-dimensional. Our work tackles this problem in multi-parameter domains. Specifically, we develop a generic technique to look for a best Groves mechanism for any given mechanism design problem. Our method is based on partitioning the spaces of agent values and payment functions into regions, on each of which we are able to define a feasible linear payment function. Under certain geometric conditions on partitions of the two spaces this function is optimal. We illustrate our method by applying it to the problem of allocating heterogeneous items.
978-1-57735-568-7
1347-1354
Dufton, Lachlan
07c06fcf-cdb8-4410-87f5-0c2ca1a2749d
Naroditskiy, Victor
8881263c-ee85-49f2-b658-99c31b490e1d
Polukarov, Maria
bd2f0623-9e8a-465f-8b29-851387a64740
Jennings, Nicholas R.
ab3d94cc-247c-4545-9d1e-65873d6cdb30
2012
Dufton, Lachlan
07c06fcf-cdb8-4410-87f5-0c2ca1a2749d
Naroditskiy, Victor
8881263c-ee85-49f2-b658-99c31b490e1d
Polukarov, Maria
bd2f0623-9e8a-465f-8b29-851387a64740
Jennings, Nicholas R.
ab3d94cc-247c-4545-9d1e-65873d6cdb30
Dufton, Lachlan, Naroditskiy, Victor, Polukarov, Maria and Jennings, Nicholas R.
(2012)
Optimizing payments in dominant-strategy mechanisms for multi-parameter domains.
Twenty-Sixth AAAI Conference on Artificial Intelligence (AAAI-12), Toronto, Canada.
22 Jul 2012.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
In AI research, mechanism design is typically used to allocate tasks and resources to agents holding private information about their values for possible allocations. In this context, optimizing payments within the Groves class has recently received much attention, mostly under the assumption that agent’s private information is single-dimensional. Our work tackles this problem in multi-parameter domains. Specifically, we develop a generic technique to look for a best Groves mechanism for any given mechanism design problem. Our method is based on partitioning the spaces of agent values and payment functions into regions, on each of which we are able to define a feasible linear payment function. Under certain geometric conditions on partitions of the two spaces this function is optimal. We illustrate our method by applying it to the problem of allocating heterogeneous items.
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Published date: 2012
Venue - Dates:
Twenty-Sixth AAAI Conference on Artificial Intelligence (AAAI-12), Toronto, Canada, 2012-07-22 - 2012-07-22
Organisations:
Agents, Interactions & Complexity
Identifiers
Local EPrints ID: 337239
URI: http://eprints.soton.ac.uk/id/eprint/337239
ISBN: 978-1-57735-568-7
PURE UUID: ebd7d99d-c628-4dcd-94c6-59e0b7d0ef61
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Date deposited: 20 Apr 2012 06:36
Last modified: 14 Mar 2024 10:51
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Contributors
Author:
Lachlan Dufton
Author:
Victor Naroditskiy
Author:
Maria Polukarov
Author:
Nicholas R. Jennings
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