MAIN RESULT: We assume utility exhibits strategic complementarities. We show: Membership in larger k-core implies higher actions in equilibrium Higher.

Slides:

Advertisements

Similar presentations

The role of compatibility in the diffusion of technologies in social networks Mohammad Mahdian Yahoo! Research Joint work with N. Immorlica, J. Kleinberg,

Advertisements

On the Local and Global Price of Anarchy of Graphical Games Oren Ben-Zwi Ronen Oren Ben-ZwiAmir Ronen Amir Ronen.

Inefficiency of equilibria, and potential games Computational game theory Spring 2008 Michal Feldman TexPoint fonts used in EMF. Read the TexPoint manual.

M9302 Mathematical Models in Economics Instructor: Georgi Burlakov 3.1.Dynamic Games of Complete but Imperfect Information Lecture

Price Of Anarchy: Routing

This Segment: Computational game theory Lecture 1: Game representations, solution concepts and complexity Tuomas Sandholm Computer Science Department Carnegie.

Stackelberg -leader/follower game 2 firms choose quantities sequentially (1) chooses its output; then (2) chooses it output; then the market clears This.

Congestion Games with Player- Specific Payoff Functions Igal Milchtaich, Department of Mathematics, The Hebrew University of Jerusalem, 1993 Presentation.

M9302 Mathematical Models in Economics Instructor: Georgi Burlakov 2.5.Repeated Games Lecture

Negotiation A Lesson in Multiagent System Based on Jose Vidal’s book Fundamentals of Multiagent Systems Henry Hexmoor SIUC.

How Bad is Selfish Routing? By Tim Roughgarden Eva Tardos Presented by Alex Kogan.

Coalition Formation and Price of Anarchy in Cournot Oligopolies Joint work with: Nicole Immorlica (Northwestern University) Georgios Piliouras (Georgia.

Algorithmic Game Theory - Basic Solution Concepts and Computational Issues Éva Tardos and Vijay V. Vazirani Presentation Reiknirit, rökfræði og reiknanleiki.

An Introduction to Game Theory Part II: Mixed and Correlated Strategies Bernhard Nebel.

Department of Computer Science, University of Maryland, College Park, USA TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.:

Algorithmic and Economic Aspects of Networks Nicole Immorlica.

Beyond selfish routing: Network Formation Games. Network Formation Games NFGs model the various ways in which selfish agents might create/use networks.

1 Computing Nash Equilibrium Presenter: Yishay Mansour.

AWESOME: A General Multiagent Learning Algorithm that Converges in Self- Play and Learns a Best Response Against Stationary Opponents Vincent Conitzer.

Rationality and information in games Jürgen Jost TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAA A A A AAA Max Planck.

Potential games, Congestion games Computational game theory Spring 2010 Adapting slides by Michal Feldman TexPoint fonts used in EMF. Read the TexPoint.

Algorithms and Economics of Networks Abraham Flaxman and Vahab Mirrokni, Microsoft Research.

Network Formation Games. Netwok Formation Games NFGs model distinct ways in which selfish agents might create and evaluate networks We’ll see two models:

Computing Equilibria Christos H. Papadimitriou UC Berkeley “christos”

Network Formation Games. Netwok Formation Games NFGs model distinct ways in which selfish agents might create and evaluate networks We’ll see two models:

Linear Codes for Distributed Source Coding: Reconstruction of a Function of the Sources -D. Krithivasan and S. Sandeep Pradhan -University of Michigan,

Price of Anarchy Bounds Price of Anarchy Convergence Based on Slides by Amir Epstein and by Svetlana Olonetsky Modified/Corrupted by Michal Feldman and.

Computing Equilibria Christos H. Papadimitriou UC Berkeley “christos”

Mechanisms for Making Crowds Truthful Andrew Mao, Sergiy Nesterko.

History-Dependent Graphical Multiagent Models Quang Duong Michael P. Wellman Satinder Singh Computer Science and Engineering University of Michigan, USA.

1 A unified approach to comparative statics puzzles in experiments Armin Schmutzler University of Zurich, CEPR, ENCORE.

Introduction 1 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAA A.

When rate of interferer’s codebook small Does not place burden for destination to decode interference When rate of interferer’s codebook large Treating.

Fluid Limits for Gossip Processes Vahideh Manshadi and Ramesh Johari DARPA ITMANET Meeting March 5-6, 2009 TexPoint fonts used in EMF. Read the TexPoint.

Network Economics: two examples Marc Lelarge (INRIA-ENS) SIGMETRICS, London June 14, 2012.

Beyond Routing Games: Network (Formation) Games. Network Games (NG) NG model the various ways in which selfish users (i.e., players) strategically interact.

The Power of the Defender M. Gelastou  M. Mavronicolas  V. Papadopoulou  A. Philippou  P. Spirakis §  University of Cyprus, Cyprus § University of.

6.853: Topics in Algorithmic Game Theory Fall 2011 Constantinos Daskalakis Lecture 11.

1 The Price of Defense M. Mavronicolas , V. Papadopoulou , L. Michael ¥, A. Philippou , P. Spirakis § University of Cyprus, Cyprus  University of Patras.

Coordination with Local Information Munther Dahleh Alireza Tahbaz-Salehi, John Tsitsiklis Spyros Zoumpouli.

Equilibria in Network Games: At the Edge of Analytics and Complexity Rachel Kranton Duke University Research Issues at the Interface of Computer Science.

On Non-Cooperative Location Privacy: A Game-theoreticAnalysis

Information Theory for Mobile Ad-Hoc Networks (ITMANET): The FLoWS Project Competitive Scheduling in Wireless Networks with Correlated Channel State Ozan.

Beyond selfish routing: Network Games. Network Games NGs model the various ways in which selfish agents strategically interact in using a network They.

Beyond selfish routing: Network Games. Network Games NGs model the various ways in which selfish users (i.e., players) strategically interact in using.

© 2009 Ilya O. Ryzhov 1 © 2008 Warren B. Powell 1. Optimal Learning On A Graph INFORMS Annual Meeting October 11, 2009 Ilya O. Ryzhov Warren Powell Princeton.

Improved Equilibria via Public Service Advertising Maria-Florina Balcan TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.:

Repeated Game Modeling of Multicast Overlays Mike Afergan (MIT CSAIL/Akamai) Rahul Sami (University of Michigan) April 25, 2006.

Coordination and Learning in Dynamic Global Games: Experimental Evidence Olga Shurchkov MIT The Economic Science Association World Meeting 2007.

M9302 Mathematical Models in Economics Instructor: Georgi Burlakov 0.Game Theory – Brief Introduction Lecture

O N THE O PTIMAL P LACEMENT OF M IX Z ONES : A G AME -T HEORETIC A PPROACH Mathias Humbert LCA1/EPFL January 19, 2009 Supervisors: Mohammad Hossein Manshaei.

Asymptotic Analysis for Large Scale Dynamic Stochastic Games Sachin Adlakha, Ramesh Johari, Gabriel Weintraub and Andrea Goldsmith DARPA ITMANET Meeting.

Double Coordination in Small Groups Luigi Mittone, Matteo Ploner, Ivan Soraperra Computable and Experimental Economics Laboratory – University of Trento,

On the Difficulty of Achieving Equilibrium in Interactive POMDPs Prashant Doshi Dept. of Computer Science University of Georgia Athens, GA Twenty.

Network Formation Games. NFGs model distinct ways in which selfish agents might create and evaluate networks We’ll see two models: Global Connection Game.

M9302 Mathematical Models in Economics Instructor: Georgi Burlakov 2.1.Dynamic Games of Complete and Perfect Information Lecture

Network Formation Games. NFGs model distinct ways in which selfish agents might create and evaluate networks We’ll see two models: Global Connection Game.

Information Design: A unified Perspective cn

Nash Equilibrium: P or NP?

Regime change Ec 517 October 2, 2017.

Information Design: A unified Perspective Prior information

For modeling conflict and cooperation Schwartz/Teneketzis

Convergence, Targeted Optimality, and Safety in Multiagent Learning

Game Theory in Wireless and Communication Networks: Theory, Models, and Applications Lecture 2 Bayesian Games Zhu Han, Dusit Niyato, Walid Saad, Tamer.

Presented By Aaron Roth

Network Formation Games

The Public Goods Environment

Bayes Nash Implementation

Normal Form (Matrix) Games

Information, Incentives, and Mechanism Design

Presentation transcript:

MAIN RESULT: We assume utility exhibits strategic complementarities. We show: Membership in larger k-core implies higher actions in equilibrium Higher centrality measure implies higher actions in equilibrium If nodes don’t know network structure, largest equilibrium depends on edge perspective degree distribution HOW IT WORKS: We exploit monotonicity of the best response to prove our results: The best action for node i is increasing in its neighbor’s actions. ASSUMPTIONS AND LIMITATIONS: We study equilibria of a static game between nodes. The eventual goal is to understand dynamic network games. Payoff of agent i: Π i (x i, x j, x k ) = u(x i, x j +x k ) – c(x i ) Supermodular Network Games V. Manshadi and R. Johari This model assumed a static interaction between the nodes. Our end-of-phase goal is to develop dynamic game models of coordination on networks. The power of a node in a networked coordination system depends on its centrality (global properties) not just on its degree (a local property) A node’s actions can have significant effects on distant nodes. Centrality, coreness: Global measures of power of a node We characterize equilibria in terms of such global measures Local interaction does not imply weak correlation between far away nodes in cooperation settings. Centrality measures need to be used to quantify the effect of the network. IMPACT NEXT-PHASE GOALS ACHIEVEMENT DESCRIPTION STATUS QUO NEW INSIGHTS TexPoint fonts used in EMF. Read the TexPoint manual before you delete this box.: AAAAA A A A A A AA Supermodular games: Games where nodes have strategic complementarities Network (or graphical) games: Games where nodes interact through network structure … … i j k … … 1 … …

Motivation  This work studies a benchmark model for cooperation in networked systems.  We consider large systems where each player only interacts with a small number of other agents which are close to it. A network structure governs the interactions.  Graphical Games [Kearns et al. 02 ].  Network Games [Galeotti et al. 08].  The network structure has a significant effect on the equilibrium  For what networks can epidemics arise?  Graph theoretic conditions for a two action game [Morris 00].  How about more general games? (continuous action space, more general payoff functions, etc.)  Does the equilibrium solely depend on local graph properties?  What if the nodes do not know the entire network?

Model  N-person game, each player’s action space is [0,1].  graph G = (V,E) represents the interaction among nodes.  Node i’s payoff depends on its own action x i, and the aggregate actions of its neighbors ( ),  Node i’s payoff exhibits increasing differences in x i and x - i : if x i ¸ x i ’ and x i ¸ x - i, then  k-core of G is the largest induced subgraph in which all nodes have at least k neighbors.  Coreness of node i, Cor(i), is the largest core that node i belongs to.

Preliminaries  Define the largest best response (LBR) mapping as follows  Increasing differences property implies monotonicity in LBR  Game has a largest pure Nash equilibrium (LNE)  LNE is the fixed point of LBR initialized by all players playing 1  LNE is the Pareto preferred NE if i’s payoff is increasing in LNE LBR mapping

 We compare LBR dynamics and k-LBR mapping defined as  Time 0: Every player starts with playing 1,  A node i in k-core has at least k neighbors.  Time 1:,  At least k of i’s neighbors have at least k neighbors.  Time 2:,  both sides are monotonically decreasing.  Lower Bounding the LNE Theorem: There exist thresholds such that if cor(i) = k, then.

 A quadratic supermodular game  Game has a unique NE which depends on Bonacich centrality,  Given the adjacency matrix A,.  is a weighted sum of all walks from any other node to i.  Weights are exponentially decreasing in path length.  Centrality of i heavily depends on centrality of i’s neighbors. Coreness and Bonacich Centrality Lemma: if cor(i) = k, then

Incomplete Information  What if nodes do not know the entire network?  The NE prediction can be misleading  The LBR mapping takes too long to converge  Model this scenario by a Bayesian supermodular game of incomplete information  Nature chooses the degree independently from degree distribution (p 0, p 1, …, p R )  Each node knows its own degree and the degree distribution  Node i forms beliefs about the degree of its neighbors based on the edge perspective degree distribution (p’ 0, p’ 1, …, p’ R ) P’ 3 P’ 2 P’ 4

 Largest symmetric BNE (LBNE) exists for the defined game.  with probability distribution is first order stochastically dominated (FOSD) by with ( ) if  FOSD of edge perspective degree distributions is not equivalent to FOSD of degree distributions Monotonicity of LNE Proposition I: LBNE is monotone in degree, Proposition II: LBNE is monotone is edge perspective degree distribution

Summary and Future Work  Supermodular games on graphs were proposed as a benchmark model of cooperation in networked systems.  Largest Nash equilibrium was studied in games of complete and incomplete information about network.  Local interaction does not imply weak correlation between far away nodes in cooperation settings.  Centrality measures need to be used to quantify the effect of the network. Future Work:  Model assumed a static interaction between nodes; develop dynamic game models of coordination on networks.  Centrality measures are not easy to compute; approximate the centrality measures for real world networks such as sensor networks.