Bandit learning in concave N-player games

Mario Bravo; David Stuart Leslie; Panayotis Mertikopoulos

Bandit learning in concave N-player games

Mario Bravo, David Stuart Leslie, Panayotis Mertikopoulos

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Conference contribution/Paper › peer-review

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Abstract

This paper examines the long-run behavior of learning with bandit feedback in non-cooperative concave games. The bandit framework accounts for extremely low-information environments where the agents may not even know they are playing a game; as such, the agents' most sensible choice in this setting would be to employ a no-regret learning algorithm. In general, this does not mean that the players' behavior stabilizes in the long run: no-regret learning may lead to cycles, even with perfect gradient information. However, if a standard monotonicity condition is satisfied, our analysis shows that no-regret learning based on mirror descent with bandit feedback converges to Nash equilibrium with probability 1. We also derive an upper bound for the convergence rate of the process that nearly matches the best attainable rate for single-agent bandit stochastic optimization.

Original language	English
Title of host publication	NeurIPS Proceedings
Pages	5661-5671
Number of pages	11
Publication status	Published - 2/12/2018
Event	Thirty-second Conference on Neural Information Processing Systems - Palais des Congres de Montreal, Montreal, Canada Duration: 2/12/2018 → 8/12/2018 https://nips.cc/Conferences/2018

Conference

Conference	Thirty-second Conference on Neural Information Processing Systems
Abbreviated title	NeurIPS 2018
Country/Territory	Canada
City	Montreal
Period	2/12/18 → 8/12/18
Internet address	https://nips.cc/Conferences/2018

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BravoLeslieMertikopoulosNIPS2018.pdfAccepted author manuscript, 308 KBLicence: CC BY-NC: Creative Commons Attribution-NonCommercial 4.0 International License

https://proceedings.neurips.cc/paper/2018/hash/47fd3c87f42f55d4b233417d49c34783-Abstract.html

Cite this

@inproceedings{855b74bce7654edcaf66804c812947e4,

title = "Bandit learning in concave N-player games",

abstract = "This paper examines the long-run behavior of learning with bandit feedback in non-cooperative concave games. The bandit framework accounts for extremely low-information environments where the agents may not even know they are playing a game; as such, the agents' most sensible choice in this setting would be to employ a no-regret learning algorithm. In general, this does not mean that the players' behavior stabilizes in the long run: no-regret learning may lead to cycles, even with perfect gradient information. However, if a standard monotonicity condition is satisfied, our analysis shows that no-regret learning based on mirror descent with bandit feedback converges to Nash equilibrium with probability 1. We also derive an upper bound for the convergence rate of the process that nearly matches the best attainable rate for single-agent bandit stochastic optimization.",

author = "Mario Bravo and Leslie, {David Stuart} and Panayotis Mertikopoulos",

year = "2018",

month = dec,

day = "2",

language = "English",

isbn = "9781-5108-84472",

pages = "5661--5671",

booktitle = "NeurIPS Proceedings",

note = "Thirty-second Conference on Neural Information Processing Systems, NeurIPS 2018 ; Conference date: 02-12-2018 Through 08-12-2018",

url = "https://nips.cc/Conferences/2018",

}

TY - GEN

T1 - Bandit learning in concave N-player games

AU - Bravo, Mario

AU - Leslie, David Stuart

AU - Mertikopoulos, Panayotis

PY - 2018/12/2

Y1 - 2018/12/2

N2 - This paper examines the long-run behavior of learning with bandit feedback in non-cooperative concave games. The bandit framework accounts for extremely low-information environments where the agents may not even know they are playing a game; as such, the agents' most sensible choice in this setting would be to employ a no-regret learning algorithm. In general, this does not mean that the players' behavior stabilizes in the long run: no-regret learning may lead to cycles, even with perfect gradient information. However, if a standard monotonicity condition is satisfied, our analysis shows that no-regret learning based on mirror descent with bandit feedback converges to Nash equilibrium with probability 1. We also derive an upper bound for the convergence rate of the process that nearly matches the best attainable rate for single-agent bandit stochastic optimization.

AB - This paper examines the long-run behavior of learning with bandit feedback in non-cooperative concave games. The bandit framework accounts for extremely low-information environments where the agents may not even know they are playing a game; as such, the agents' most sensible choice in this setting would be to employ a no-regret learning algorithm. In general, this does not mean that the players' behavior stabilizes in the long run: no-regret learning may lead to cycles, even with perfect gradient information. However, if a standard monotonicity condition is satisfied, our analysis shows that no-regret learning based on mirror descent with bandit feedback converges to Nash equilibrium with probability 1. We also derive an upper bound for the convergence rate of the process that nearly matches the best attainable rate for single-agent bandit stochastic optimization.

M3 - Conference contribution/Paper

SN - 9781-5108-84472

SP - 5661

EP - 5671

BT - NeurIPS Proceedings

T2 - Thirty-second Conference on Neural Information Processing Systems

Y2 - 2 December 2018 through 8 December 2018

ER -