Looking deeper into the algorithms underlying human planning

Ionatan Kuperwajs; Evan M. Russek; Marcelo G. Mattar; Wei Ji Ma; Thomas L. Griffiths

doi:10.1016/j.tics.2025.06.006

Looking deeper into the algorithms underlying human planning

Ionatan Kuperwajs
, Evan M. Russek
, Marcelo G. Mattar
, Wei Ji Ma
, Thomas L. Griffiths

Research output: Contribution to journal › Review article › peer-review

1 Scopus citations

Abstract

Humans possess a remarkable ability to form sophisticated multi-step plans even in complex environments. In this review article, we consider efforts that attempt to characterize the mechanisms underlying human planning using a computational framework, primarily focusing on methods that search a tree of possible solutions. These studies range from experimental probes for heuristics that people employ while thinking ahead to normative models for reducing the computational costs of planning. Additionally, we examine the recent successes of artificial intelligence in the domain of planning and how these innovations can be applied to better understand human sequential decision-making. As examples, we highlight this approach in two tasks that require planning many steps into the future, namely 4-in-a-row and chess.

Original language	English (US)
Pages (from-to)	149-161
Number of pages	13
Journal	Trends in Cognitive Sciences
Volume	30
Issue number	2
DOIs	https://doi.org/10.1016/j.tics.2025.06.006
State	Published - Feb 2026

All Science Journal Classification (ASJC) codes

Neuropsychology and Physiological Psychology
Experimental and Cognitive Psychology
Cognitive Neuroscience

Keywords

artificial intelligence
computational modeling
planning
sequential decision-making

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10.1016/j.tics.2025.06.006

Cite this

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title = "Looking deeper into the algorithms underlying human planning",

abstract = "Humans possess a remarkable ability to form sophisticated multi-step plans even in complex environments. In this review article, we consider efforts that attempt to characterize the mechanisms underlying human planning using a computational framework, primarily focusing on methods that search a tree of possible solutions. These studies range from experimental probes for heuristics that people employ while thinking ahead to normative models for reducing the computational costs of planning. Additionally, we examine the recent successes of artificial intelligence in the domain of planning and how these innovations can be applied to better understand human sequential decision-making. As examples, we highlight this approach in two tasks that require planning many steps into the future, namely 4-in-a-row and chess.",

keywords = "artificial intelligence, computational modeling, planning, sequential decision-making",

author = "Ionatan Kuperwajs and Russek, \{Evan M.\} and Mattar, \{Marcelo G.\} and Ma, \{Wei Ji\} and Griffiths, \{Thomas L.\}",

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year = "2026",

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doi = "10.1016/j.tics.2025.06.006",

language = "English (US)",

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T1 - Looking deeper into the algorithms underlying human planning

AU - Kuperwajs, Ionatan

AU - Russek, Evan M.

AU - Mattar, Marcelo G.

AU - Ma, Wei Ji

AU - Griffiths, Thomas L.

PY - 2026/2

Y1 - 2026/2

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AB - Humans possess a remarkable ability to form sophisticated multi-step plans even in complex environments. In this review article, we consider efforts that attempt to characterize the mechanisms underlying human planning using a computational framework, primarily focusing on methods that search a tree of possible solutions. These studies range from experimental probes for heuristics that people employ while thinking ahead to normative models for reducing the computational costs of planning. Additionally, we examine the recent successes of artificial intelligence in the domain of planning and how these innovations can be applied to better understand human sequential decision-making. As examples, we highlight this approach in two tasks that require planning many steps into the future, namely 4-in-a-row and chess.

KW - artificial intelligence

KW - computational modeling

KW - planning

KW - sequential decision-making

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Looking deeper into the algorithms underlying human planning

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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