Accurate Path Integration in Continuous Attractor Network Models of Grid Cells
University of California, Santa Barbara · Harvard University · +2 more institutions
Abstract
Grid cells in the rat entorhinal cortex display strikingly regular firing responses to the animal's position in 2-D space and have been hypothesized to form the neural substrate for dead-reckoning. However, errors accumulate rapidly when velocity inputs are integrated in existing models of grid cell activity. To produce grid-cell-like responses, these models would require frequent resets triggered by external sensory cues. Such inadequacies, shared by various models, cast doubt on the dead-reckoning potential of the grid cell system. Here we focus on the question of accurate path integration, specifically in continuous attractor models of grid cell activity. We show, in contrast to previous models, that…
Citation impact
- FWCI
- 6.43
- Percentile
- 100%
- References
- 53
Authors
2Topics & keywords
- Path integration
- Attractor
- Computer science
- Aperiodic graph
- Grid
- Boundary (topology)
- Control theory (sociology)
- Mathematics