Dorian Kodelja scite author profile

Evolution of cooperation and competition can appear when multiple adaptive agents share a biological, social, or technological niche. In the present work we study how cooperation and competition emerge between autonomous agents that learn by reinforcement while using only their raw visual input as the state representation. In particular, we extend the Deep Q-Learning framework to multiagent environments to investigate the interaction between two learning agents in the well-known video game Pong. By manipulating the classical rewarding scheme of Pong we show how competitive and collaborative behaviors emerge. We also describe the progression from competitive to collaborative behavior when the incentive to cooperate is increased. Finally we show how learning by playing against another adaptive agent, instead of against a hard-wired algorithm, results in more robust strategies. The present work shows that Deep Q-Networks can become a useful tool for studying decentralized learning of multiagent systems coping with high-dimensional environments.

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Multiagent Cooperation and Competition with Deep Reinforcement Learning

Tampuu¹,

Matiisen²,

Kodelja³

et al. 2015

Preprint

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Exploiting a More Global Context for Event Detection Through Bootstrapping

Kodelja

Besançon

Ferret

2019

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Dynamic Cross-Sentential Context Representation for Event Detection

Kodelja

Besançon

Ferret

2021

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Dorian Kodelja

Multiagent cooperation and competition with deep reinforcement learning

Multiagent Cooperation and Competition with Deep Reinforcement Learning

Exploiting a More Global Context for Event Detection Through Bootstrapping

Dynamic Cross-Sentential Context Representation for Event Detection

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