AI Article Synopsis
- Infants develop cognitive skills by learning to differentiate their motor behaviors based on specific contexts, utilizing structures known as task sets or internal models.
- This ability to identify and adapt actions according to the current situation is a significant advancement in cognitive development, allowing children to effectively learn how to learn.
- The proposed model features a dual system for learning and evaluating task sets, incorporating reinforcement learning for task acquisition and an evaluation system to assess performance, demonstrated through neural simulations and robotic experiments.
Article Abstract
During development, infants learn to differentiate their motor behaviors relative to various contexts by exploring and identifying the correct structures of causes and effects that they can perform; these structures of actions are called task sets or internal models. The ability to detect the structure of new actions, to learn them and to select on the fly the proper one given the current task set is one great leap in infants cognition. This behavior is an important component of the child's ability of learning-to-learn, a mechanism akin to the one of intrinsic motivation that is argued to drive cognitive development. Accordingly, we propose to model a dual system based on (1) the learning of new task sets and on (2) their evaluation relative to their uncertainty and prediction error. The architecture is designed as a two-level-based neural system for context-dependent behavior (the first system) and task exploration and exploitation (the second system). In our model, the task sets are learned separately by reinforcement learning in the first network after their evaluation and selection in the second one. We perform two different experimental setups to show the sensorimotor mapping and switching between tasks, a first one in a neural simulation for modeling cognitive tasks and a second one with an arm-robot for motor task learning and switching. We show that the interplay of several intrinsic mechanisms drive the rapid formation of the neural populations with respect to novel task sets.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3804924 | PMC |
| http://dx.doi.org/10.3389/fpsyg.2013.00771 | DOI Listing |
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