Abstract
Studies on spatial coding and episodic memory typically involve recordings of hippocampal place cell activity while rodents navigate in mazes. Linear place fields serve as reduced representations of the activity of place cells, revealing their spatial preference along the tracks of the maze. Sometimes, the experimental designs include complex mazes with irregular geometries and one or more decision points. Unfortunately, in such complex mazes, the production of linear place fields becomes a non-trivial problem. Here, I present a MATLAB toolbox which implements a graph-theoretic approach for the efficient production of linear place fields in a variety of complex mazes.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Email address: christoforos.papasavvas{at}ncl.ac.uk (Christoforos A. Papasavvas)
Introduction slightly revised