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Main Authors: Duéñez-Guzmán, Edgar A., Sadedin, Suzanne, Wang, Jane X., McKee, Kevin R., Leibo, Joel Z.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.15815
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author Duéñez-Guzmán, Edgar A.
Sadedin, Suzanne
Wang, Jane X.
McKee, Kevin R.
Leibo, Joel Z.
author_facet Duéñez-Guzmán, Edgar A.
Sadedin, Suzanne
Wang, Jane X.
McKee, Kevin R.
Leibo, Joel Z.
contents Traditionally, cognitive and computer scientists have viewed intelligence solipsistically, as a property of unitary agents devoid of social context. Given the success of contemporary learning algorithms, we argue that the bottleneck in artificial intelligence (AI) progress is shifting from data assimilation to novel data generation. We bring together evidence showing that natural intelligence emerges at multiple scales in networks of interacting agents via collective living, social relationships and major evolutionary transitions, which contribute to novel data generation through mechanisms such as population pressures, arms races, Machiavellian selection, social learning and cumulative culture. Many breakthroughs in AI exploit some of these processes, from multi-agent structures enabling algorithms to master complex games like Capture-The-Flag and StarCraft II, to strategic communication in Diplomacy and the shaping of AI data streams by other AIs. Moving beyond a solipsistic view of agency to integrate these mechanisms suggests a path to human-like compounding innovation through ongoing novel data generation.
format Preprint
id arxiv_https___arxiv_org_abs_2405_15815
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A social path to human-like artificial intelligence
Duéñez-Guzmán, Edgar A.
Sadedin, Suzanne
Wang, Jane X.
McKee, Kevin R.
Leibo, Joel Z.
Artificial Intelligence
Machine Learning
68T05
I.2.6
Traditionally, cognitive and computer scientists have viewed intelligence solipsistically, as a property of unitary agents devoid of social context. Given the success of contemporary learning algorithms, we argue that the bottleneck in artificial intelligence (AI) progress is shifting from data assimilation to novel data generation. We bring together evidence showing that natural intelligence emerges at multiple scales in networks of interacting agents via collective living, social relationships and major evolutionary transitions, which contribute to novel data generation through mechanisms such as population pressures, arms races, Machiavellian selection, social learning and cumulative culture. Many breakthroughs in AI exploit some of these processes, from multi-agent structures enabling algorithms to master complex games like Capture-The-Flag and StarCraft II, to strategic communication in Diplomacy and the shaping of AI data streams by other AIs. Moving beyond a solipsistic view of agency to integrate these mechanisms suggests a path to human-like compounding innovation through ongoing novel data generation.
title A social path to human-like artificial intelligence
topic Artificial Intelligence
Machine Learning
68T05
I.2.6
url https://arxiv.org/abs/2405.15815