Learning Cohesive Behaviors Across Scales for Semi-Cooperative Agents

Autor/innen

  • Reid Sawtell
  • Sarah Kitchen Michigan Tech Research Institute
  • Timothy Aris
  • Christopher McGroarty

DOI:

https://doi.org/10.32473/flairs.37.1.135590

Abstract

The development of automated opponents in video games has been part of game development since the very beginning of the field. The advent of modern AI approaches such as reinforcement learning has opened the door to a wide variety of flexible and adaptive AI opponents. However, challenges in producing realistic opponents persist, namely scalability and
generalizability. Scalability is of particular importance when many individual opponents are required to act cohesively
over long distances, but this makes learning more difficult. This paper presents a novel architecture applying graph convolutional layers in a U-net with custom pooling operators in order to achieve learning across scales. League play reinforcement learning was used to train competitive agents in a navigation mesh environment.

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Veröffentlicht

2024-05-13

Zitationsvorschlag

Sawtell, R., Kitchen, S., Aris, T., & McGroarty, C. (2024). Learning Cohesive Behaviors Across Scales for Semi-Cooperative Agents . The International FLAIRS Conference Proceedings, 37(1). https://doi.org/10.32473/flairs.37.1.135590

Ausgabe

Bd. 37 (2024): Vol. 37 (2024): Proceedings of FLAIRS-37

Rubrik

Special Track: Artificial Intelligence in Games, Serious Games, and Multimedia

Lizenz

Copyright (c) 2024 Reid Sawtell, Sarah Kitchen, Timothy Aris, Christopher McGroarty

Creative-Commons-Lizenz
Dieses Werk steht unter der Lizenz Creative Commons Namensnennung - Nicht-kommerziell 4.0 International.