Learning Grid Cells as Vector Representation of Self-Position Coupled with Matrix Representation of Self-Motion
October 12, 2018 ยท Declared Dead ยท ๐ International Conference on Learning Representations
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Authors
Ruiqi Gao, Jianwen Xie, Song-Chun Zhu, Ying Nian Wu
arXiv ID
1810.05597
Category
stat.ML: Machine Learning (Stat)
Cross-listed
cs.LG,
cs.NE
Citations
44
Venue
International Conference on Learning Representations
Last Checked
4 months ago
Abstract
This paper proposes a representational model for grid cells. In this model, the 2D self-position of the agent is represented by a high-dimensional vector, and the 2D self-motion or displacement of the agent is represented by a matrix that transforms the vector. Each component of the vector is a unit or a cell. The model consists of the following three sub-models. (1) Vector-matrix multiplication. The movement from the current position to the next position is modeled by matrix-vector multiplication, i.e., the vector of the next position is obtained by multiplying the matrix of the motion to the vector of the current position. (2) Magnified local isometry. The angle between two nearby vectors equals the Euclidean distance between the two corresponding positions multiplied by a magnifying factor. (3) Global adjacency kernel. The inner product between two vectors measures the adjacency between the two corresponding positions, which is defined by a kernel function of the Euclidean distance between the two positions. Our representational model has explicit algebra and geometry. It can learn hexagon patterns of grid cells, and it is capable of error correction, path integral and path planning.
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