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Main Authors: Cerioli, Adamo, Lee, Edward D., Servedio, Vito D. P.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.13213
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author Cerioli, Adamo
Lee, Edward D.
Servedio, Vito D. P.
author_facet Cerioli, Adamo
Lee, Edward D.
Servedio, Vito D. P.
contents Strategic decision-making requires balancing immediate opportunities against long-term objectives: a tension fundamental to competitive environments. We investigate this trade-off in chess by analyzing the dynamics of human and AI gameplay through a network-based metric that quantifies piece-to-piece interactions. Our analysis reveals that elite AI players sustain substantially higher levels of strategic tension for longer durations than top human grandmasters. We find that cumulative tension scales with algorithmic complexity in AI systems and increases linearly with skill level (Elo rating) in human play. Longer time controls are associated with higher tension in human games, reflecting the additional strategic complexity players can manage with more thinking time. The temporal profiles reveal contrasting approaches: highly competitive AI systems tolerate densely interconnected positions that balance offensive and defensive tactics over extended periods, while human players systematically limit tension and game complexity. These differences have broader implications for understanding how artificial and biological systems navigate complex strategic environments and for the deployment of AI in high-stakes competitive scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2508_13213
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle AI sustains higher strategic tension than humans in chess
Cerioli, Adamo
Lee, Edward D.
Servedio, Vito D. P.
Artificial Intelligence
Strategic decision-making requires balancing immediate opportunities against long-term objectives: a tension fundamental to competitive environments. We investigate this trade-off in chess by analyzing the dynamics of human and AI gameplay through a network-based metric that quantifies piece-to-piece interactions. Our analysis reveals that elite AI players sustain substantially higher levels of strategic tension for longer durations than top human grandmasters. We find that cumulative tension scales with algorithmic complexity in AI systems and increases linearly with skill level (Elo rating) in human play. Longer time controls are associated with higher tension in human games, reflecting the additional strategic complexity players can manage with more thinking time. The temporal profiles reveal contrasting approaches: highly competitive AI systems tolerate densely interconnected positions that balance offensive and defensive tactics over extended periods, while human players systematically limit tension and game complexity. These differences have broader implications for understanding how artificial and biological systems navigate complex strategic environments and for the deployment of AI in high-stakes competitive scenarios.
title AI sustains higher strategic tension than humans in chess
topic Artificial Intelligence
url https://arxiv.org/abs/2508.13213