- Poster presentation
- Open Access
Two-dimensional patterns in neural fields subject to finite transmission speed
© Nichols et al; licensee BioMed Central Ltd. 2014
- Published: 21 July 2014
- Firing Rate
- Linear Analysis
- Neural Population
- Spike Propagation
- Spatiotemporal Change
This work analyzes and implements finite axonal transmission speeds in two-dimensional neural populations. The biological significance of this is found in the rate of spatiotemporal change in voltage across neuronal tissue, which can be attributed to phenomena such as delays in spike propagation within axons, neurotransmitter activation and the time courses of neuron polarization and refraction. The authors build upon the finite transmission speed work in .
Linear analysis about a spatially homogeneous resting state of the neural population dynamics is performed. The analyses of the resulting analytical expressions guide the parameter selection for simulations. For simulation, computation of the transmission-delayed convolution between the kernel and firing rates is performed with a fast Fourier transform as in .
The Neural Field Simulator  is used to simulate the activity of the field. We extended the simulator by the implementation of a large class of kernels reflecting global excitation, global inhibition, local excitation-lateral inhibition and local inhibition-lateral excitation. Moreover, we extended the tools by an automatic root finder to compute stationary states and an automatic root finder of the characteristic equation of the linear dynamics. These latter features facilitate the user to perform the linear analysis. Further adjustments to the simulator include a provision to modify neural field variables online while simulations are ongoing and three-dimensional displays of disparate parts of the neural field, such as the external input, kernel and firing rate.
This work is funded by the European Research Council for support under the European Union's Seventh Framework Programme (FP7/2007-2013), ERC grant agreement No. 257253 (MATHANA project).
- Hutt A, Rougier N: Activity spread and breathers induced by finite transmission speeds in two-dimensional neural fields. Physical Review E: Statistical, Nonlinear, and Soft Matter Physics. 2010, 82 (5): R055701-10.1103/PhysRevE.82.055701.View ArticleGoogle Scholar
- Nichols EJ, Hutt A: Neural field simulator: fast computation and 3D-visualization. Twenty Second Annual Computational Neuroscience Meeting, Paris, France. 2013, 14: 179-10.1186/1471-2202-14-S1-P179.Google Scholar
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