Bush D, Burgess N. (2014). A hybrid oscillatory interference/continuous attractor network model of grid cell firing. The Journal of neuroscience : the official journal of the Society for Neuroscience. 34 [PubMed]

• Hybrid oscillatory interference / continuous attractor NN of grid cell firing (Bush & Burgess 2014) [Model]

Castro L, Aguiar P. (2014). A feedforward model for the formation of a grid field where spatial information is provided solely from place cells. Biological cybernetics. 108 [PubMed]

• Grid cells from place cells (Castro & Aguiar, 2014) [Model]

D'Albis T, Kempter R. (2017). A single-cell spiking model for the origin of grid-cell patterns. PLoS computational biology. 13 [PubMed]

• A single-cell spiking model for the origin of grid-cell patterns (D'Albis & Kempter 2017) [Model]

Rennó-Costa C, Tort ABL. (2017). Place and Grid Cells in a Loop: Implications for Memory Function and Spatial Coding. The Journal of neuroscience : the official journal of the Society for Neuroscience. 37 [PubMed]

• Place and grid cells in a loop (Rennó-Costa & Tort 2017) [Model]

Solanka L, van Rossum MC, Nolan MF. (2015). Noise promotes independent control of gamma oscillations and grid firing within recurrent attractor networks. eLife. 4 [PubMed]

• Noise promotes independent control of gamma oscillations and grid firing (Solanka et al 2015) [Model]

Soman K, Chakravarthy S, Yartsev MM. (2018). A hierarchical anti-Hebbian network model for the formation of spatial cells in three-dimensional space. Nature communications. 9 [PubMed]

• Hierarchical anti-Hebbian network model for the formation of spatial cells in 3D (Soman et al 2019) [Model]

Urdapilleta E, Si B, Treves A. (2017). Selforganization of modular activity of grid cells. Hippocampus. 27 [PubMed]

• Development of modular activity of grid cells (Urdapilleta et al 2017) [Model]

Wernle T et al. (2018). Integration of grid maps in merged environments. Nature neuroscience. 21 [PubMed]