mechanism design with strategic mediators moran feldman epfl joint work with: moshe babaioff,...
TRANSCRIPT
Mechanism Design with Strategic Mediators
Moran FeldmanEPFL
Joint work with: Moshe Babaioff, Microsoft ResearchMoshe Tennenholtz, Technion
2
Mechanism DesignMechanism
Players
Should make a global decision
Decision
Requirements(Approximately)
optimizes a global objective
Incentive compatible
3
Introducing Strategic Mediators
Mechanism
Mediators
PlayersPersonal welfare
Optimization Goal
Global welfare
Welfare of his players
In a federal country, the elected representative
of a state represents the global interests of the
state’s population.
4
Facility Location on a Line
• n clients are located along a line metric.• A facility should be placed on the line.• The cost of client is its distance from the facility.• The social cost is the total costs of all clients.• The optimal facility location is the median.• The median mechanism makes being truthful a dominant
strategy. [Moulin 1980]Summary:
1-competitivestrong incentive
compatibility concept
5
Adding Strategic Mediators
A B C D E
Location of E
?
Direct Revelation MechanismEach mediator reports the locations of all its clients.
Locations of B, D and E
Next ObjectiveChoosing an incentive compatibility concept
6
First Attempt – Dominant Strategy Truthful
• The mechanism:– Must locate the facility at the location of the
client to get any finite ratio.– Must accept the location reported by the
mediator, in case everyone is truthful.• If the client lies:
– The mediator must still report the right client location, i.e., he must alter the report of the client.
• Follows from the sequential nature of the problem – all entities share their objective.
7
Two-Sided IC
Definitions• Agent-Side IC mechanism: It is a
dominant strategy for an agent to be truthful assuming its mediator is truthful.
• Mediator-Side IC mechanism: It is a dominant strategy for a mediator to be truthful assuming its clients are truthful.
• A mechanism is Two-Sided IC if it is Agent-Side IC and Mediator-Side IC.
Stronger than requiring truthfulness to be an ex-post Nash equilibrium.
8
Weighted Median of Medians
• Calculate the median of the agents of every mediator. Pretend they all are located at this median.
• Locate the facility at the median of the resulting set.
2 3
TheoremThe above algorithm is Two-Sided IC and 3-competitive, which is the best possible deterministicly.
9
• Previous works implies: [Procaccia and Tennenholtz 2013 and Dekel et al. 2010]– 3-competitive, which is optimal deterministicly– Mediator-Side IC
• What can an agent achieve by lying?– At most, it has the power to push the median away.
• What can that do?
Analysis
Agent
Median of mediator
The median is unchanged.
The median can only move
away. No effect.Either has no effect or moves
the facility away.
10
Random AlgorithmReal agent locations:Locations after every agent is “moved” to the median of its mediator:
u1, u2 u3, u4, u5
Randomly select a location for the facility from the middle half of the agents:
u1 unun/4+1 u3n/4… ……
2 3
11
ResultThe above algorithm is Two-Sided IC and 2-competitive, which is the best possible.
Analysis Idea(A) For a central segment, in any solution about half of the
agents use it.(B) For an extreme segment, the virtual move of the agents
can make the segment only slightly more central. Hence, the facility remains on its right side.
(C) For other segments:• (A) applies partially, i.e., a mistake is not that bad.• (B) applies when the random facility location is chosen
near the other end.
12
Extensions• Generalizing the line
metric into a tree metric.– All the above results
generalize to tree metrics. The random algorithm is more involved.
• Multiple levels of mediators.– The competitive ratio is
exponential in the number of levels.
13
Open Problems• Extending the model:– Multiple facilities.– More general metrics.– Both have been studies without mediators
[Procaccia and Tennenholtz 2013, Lu et al. 2010].• Studying the impact of introducing strategic
mediators in other settings.
14