English

Deep Neural Networks for Optimal Team Composition

Social and Information Networks 2019-08-22 v1 Physics and Society

Abstract

Cooperation is a fundamental social mechanism, whose effects on human performance have been investigated in several environments. Online games are modern-days natural settings in which cooperation strongly affects human behavior. Every day, millions of players connect and play together in team-based games: the patterns of cooperation can either foster or hinder individual skill learning and performance. This work has three goals: (i) identifying teammates' influence on players' performance in the short and long term, (ii) designing a computational framework to recommend teammates to improve players' performance, and (iii) setting to demonstrate that such improvements can be predicted via deep learning. We leverage a large dataset from Dota 2, a popular Multiplayer Online Battle Arena game. We generate a directed co-play network, whose links' weights depict the effect of teammates on players' performance. Specifically, we propose a measure of network influence that captures skill transfer from player to player over time. We then use such framing to design a recommendation system to suggest new teammates based on a modified deep neural autoencoder and we demonstrate its state-of-the-art recommendation performance. We finally provide insights into skill transfer effects: our experimental results demonstrate that such dynamics can be predicted using deep neural networks.

Keywords

Cite

@article{arxiv.1805.03285,
  title  = {Deep Neural Networks for Optimal Team Composition},
  author = {Anna Sapienza and Palash Goyal and Emilio Ferrara},
  journal= {arXiv preprint arXiv:1805.03285},
  year   = {2019}
}
R2 v1 2026-06-23T01:49:03.092Z