Adaptive Learning in Weighted Network Games

Péter Bayer; P. Jean-Jacques Herings; Ronald Peeters; Frank Thuijsman

doi:10.26481/umagsb.2017025

Adaptive Learning in Weighted Network Games

Péter Bayer, P. Jean-Jacques Herings, Ronald Peeters, Frank Thuijsman

Research output: Working paper / Preprint › Working paper

1479 Downloads (Pure)

Abstract

This paper studies adaptive learning in the class of weighted network games. This class of games includes applications like research and development within interlinked firms, crime within social networks, the economics of pollution, and defense expenditures within allied nations. We show that for every weighted network game, the set of pure Nash equilibria is non-empty and, generically, finite. Pairs of players are shown to have jointly profitable deviations from interior Nash equilibria. If all interaction weights are either non-negative or non-positive, then Nash equilibria are Pareto inefficient. We show that quite general learning processes converge to a Nash equilibrium of a weighted network game if every player updates with some regularity.

Original language	English
Publisher	Maastricht University, Graduate School of Business and Economics
DOIs	https://doi.org/10.26481/umagsb.2017025
Publication status	Published - 24 Oct 2017

Publication series

Series	GSBE Research Memoranda
Number	025

JEL classifications

c72 - Noncooperative Games
d74 - "Conflict; Conflict Resolution; Alliances"
d83 - "Search; Learning; Information and Knowledge; Communication; Belief"
d85 - Network Formation and Analysis: Theory
h41 - Public Goods

Keywords

Networks
Learning
Public Goods
Potential Games

Access to Document

10.26481/umagsb.2017025

RM17025Final published version, 499 KB

Cite this

@techreport{fc63325c32094438810850e93b054308,

title = "Adaptive Learning in Weighted Network Games",

abstract = "This paper studies adaptive learning in the class of weighted network games. This class of games includes applications like research and development within interlinked firms, crime within social networks, the economics of pollution, and defense expenditures within allied nations. We show that for every weighted network game, the set of pure Nash equilibria is non-empty and, generically, finite. Pairs of players are shown to have jointly profitable deviations from interior Nash equilibria. If all interaction weights are either non-negative or non-positive, then Nash equilibria are Pareto inefficient. We show that quite general learning processes converge to a Nash equilibrium of a weighted network game if every player updates with some regularity.",

keywords = "Networks, Learning, Public Goods, Potential Games",

author = "P{\'e}ter Bayer and Herings, {P. Jean-Jacques} and Ronald Peeters and Frank Thuijsman",

year = "2017",

month = oct,

day = "24",

doi = "10.26481/umagsb.2017025",

language = "English",

series = "GSBE Research Memoranda",

publisher = "Maastricht University, Graduate School of Business and Economics",

number = "025",

address = "Netherlands",

type = "WorkingPaper",

institution = "Maastricht University, Graduate School of Business and Economics",

}

TY - UNPB

T1 - Adaptive Learning in Weighted Network Games

AU - Bayer, Péter

AU - Herings, P. Jean-Jacques

AU - Peeters, Ronald

AU - Thuijsman, Frank

PY - 2017/10/24

Y1 - 2017/10/24

N2 - This paper studies adaptive learning in the class of weighted network games. This class of games includes applications like research and development within interlinked firms, crime within social networks, the economics of pollution, and defense expenditures within allied nations. We show that for every weighted network game, the set of pure Nash equilibria is non-empty and, generically, finite. Pairs of players are shown to have jointly profitable deviations from interior Nash equilibria. If all interaction weights are either non-negative or non-positive, then Nash equilibria are Pareto inefficient. We show that quite general learning processes converge to a Nash equilibrium of a weighted network game if every player updates with some regularity.

AB - This paper studies adaptive learning in the class of weighted network games. This class of games includes applications like research and development within interlinked firms, crime within social networks, the economics of pollution, and defense expenditures within allied nations. We show that for every weighted network game, the set of pure Nash equilibria is non-empty and, generically, finite. Pairs of players are shown to have jointly profitable deviations from interior Nash equilibria. If all interaction weights are either non-negative or non-positive, then Nash equilibria are Pareto inefficient. We show that quite general learning processes converge to a Nash equilibrium of a weighted network game if every player updates with some regularity.

KW - Networks

KW - Learning

KW - Public Goods

KW - Potential Games

U2 - 10.26481/umagsb.2017025

DO - 10.26481/umagsb.2017025

M3 - Working paper

T3 - GSBE Research Memoranda

BT - Adaptive Learning in Weighted Network Games

PB - Maastricht University, Graduate School of Business and Economics

ER -