Scleidorovich, Pablo and Fellous, Jean-Marc and Weitzenfeld, Alfredo (2022) Adapting hippocampus multi-scale place field distributions in cluttered environments optimizes spatial navigation and learning. Frontiers in Computational Neuroscience, 16. ISSN 1662-5188
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Abstract
Extensive studies in rodents show that place cells in the hippocampus have firing patterns that are highly correlated with the animal's location in the environment and are organized in layers of increasing field sizes or scales along its dorsoventral axis. In this study, we use a spatial cognition model to show that different field sizes could be exploited to adapt the place cell representation to different environments according to their size and complexity. Specifically, we provide an in-depth analysis of how to distribute place cell fields according to the obstacles in cluttered environments to optimize learning time and path optimality during goal-oriented spatial navigation tasks. The analysis uses a reinforcement learning (RL) model that assumes that place cells allow encoding the state. While previous studies have suggested exploiting different field sizes to represent areas requiring different spatial resolutions, our work analyzes specific distributions that adapt the representation to the environment, activating larger fields in open areas and smaller fields near goals and subgoals (e.g., obstacle corners). In addition to assessing how the multi-scale representation may be exploited in spatial navigation tasks, our analysis and results suggest place cell representations that can impact the robotics field by reducing the total number of cells for path planning without compromising the quality of the paths learned.
Item Type: | Article |
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Subjects: | Institute Archives > Medical Science |
Depositing User: | Managing Editor |
Date Deposited: | 27 Mar 2023 04:09 |
Last Modified: | 07 Feb 2024 04:15 |
URI: | http://eprint.subtopublish.com/id/eprint/1943 |