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- Title
Discovery of hierarchical representations for efficient planning.
- Authors
Tomov, Momchil S.; Yagati, Samyukta; Kumar, Agni; Yang, Wanqian; Gershman, Samuel J.
- Abstract
We propose that humans spontaneously organize environments into clusters of states that support hierarchical planning, enabling them to tackle challenging problems by breaking them down into sub-problems at various levels of abstraction. People constantly rely on such hierarchical presentations to accomplish tasks big and small—from planning one's day, to organizing a wedding, to getting a PhD—often succeeding on the very first attempt. We formalize a Bayesian model of hierarchy discovery that explains how humans discover such useful abstractions. Building on principles developed in structure learning and robotics, the model predicts that hierarchy discovery should be sensitive to the topological structure, reward distribution, and distribution of tasks in the environment. In five simulations, we show that the model accounts for previously reported effects of environment structure on planning behavior, such as detection of bottleneck states and transitions. We then test the novel predictions of the model in eight behavioral experiments, demonstrating how the distribution of tasks and rewards can influence planning behavior via the discovered hierarchy, sometimes facilitating and sometimes hindering performance. We find evidence that the hierarchy discovery process unfolds incrementally across trials. Finally, we propose how hierarchy discovery and hierarchical planning might be implemented in the brain. Together, these findings present an important advance in our understanding of how the brain might use Bayesian inference to discover and exploit the hidden hierarchical structure of the environment. Author summary: Human planning is hierarchical. Whether planning something simple like cooking dinner or something complex like a trip abroad, we usually begin with a rough mental sketch of the goals we want to achieve ("go to Spain, then go back home"). This sketch is then progressively refined into a detailed sequence of sub-goals ("book flight", "pack luggage"), sub-sub-goals, and so on, down to the actual sequence of bodily movements that is much more complicated than the original plan. Efficient planning therefore requires knowledge of the abstract high-level concepts that constitute the essence of hierarchical plans. Yet how humans learn such abstractions remains a mystery. In this study, we show that humans spontaneously form such high-level concepts in a way that allows them to plan efficiently given the tasks, rewards, and structure of their environment. We also show that this behavior is consistent with a formal model of the underlying computations, thus grounding these findings in established computational principles and relating them to previous studies of hierarchical planning. We believe our results pave the way for future studies to investigate the neural algorithms that support this essential cognitive ability.
- Subjects
SPAIN; MOVEMENT sequences; LEARNING; COGNITIVE ability; PACKING luggage; HUMAN behavior models; MENTAL foramen
- Publication
PLoS Computational Biology, 2020, Vol 16, Issue 4, p1
- ISSN
1553-734X
- Publication type
Article
- DOI
10.1371/journal.pcbi.1007594