Bertics, A., Chrastil, E., Miolane, N., & Carlson, J.
Abstract
Navigation is inherently dynamic. It involves learning the environment, as well as positions in and trajectories through it, and then executing a path to reach a target. Spatial navigation skills vary significantly among individuals. But what differentiates a good navigator from a bad one, or an easy-to-navigate path from a hard one? Studies have analysed exploration and navigation using static quantitative measures, e.g., location tallies or distance traveled. However, static metrics are inherently limited for characterisation of dynamic behaviours. To fill this gap, we introduce the Flow Tree, a novel data structure, which tracks a group of trajectories (different people or the same person over time). This is a discrete adaptation of the Reeb graph, a mathematical structure from topology, computed from multiple trajectories. Each divergence in trajectory is captured as a node, encoding variability of the collection. We apply the Flow Tree to a behavioural dataset of 100 humans exploring and then navigating a small, closed-form maze in virtual reality, where the Flow Tree encodes navigation path difficulty, based on the trials used to encode it. We (1) define the Flow Tree and the algorithm used to calculate it, (2) show that Flow Trees predict path difficulty better than static metrics, and (3) apply the Flow Tree to predict individual success. We (4) introduce a hypothesis testing framework using Flow Trees to quantitatively differentiate between strategies of the best navigators and those of the worst.
Citation
Bertics, A., Chrastil, E., Miolane, N., & Carlson, J. (2025). Flow Tree: A dynamical classifier for quantifying navigation paths and strategies. Science Communications Worldwide. doi:10.57736/9e75-0316
BibTeX
@article{10.57736/9e75-0316, author = {Abby Bertics and Elizabeth Chrastil and Nina Miolane and Jean Carlson}, doi = {10.57736/9e75-0316}, journal = {Science Communications Worldwide}, title = {Flow Tree: A dynamical classifier for quantifying navigation paths and strategies}, url = {https://www.world-wide.org/cosyne-25/flow-tree-dynamical-classifier-quantifying-24e1cd30}, year = {2025} }
