论文信息 - MATLAB/OCTAVE TOOLS FOR THE VISUAL NEUROSCIENCE CLASS I: SIMULATING PHYSIOLOGICAL EXPERIMENTS IN MOTION SENSITIVE NEURONS

MATLAB/OCTAVE TOOLS FOR THE VISUAL NEUROSCIENCE CLASS I: SIMULATING PHYSIOLOGICAL EXPERIMENTS IN MOTION SENSITIVE NEURONS

The students of Visual Neuroscience have diverse backgrounds and are often not familiar with quantitative techniques. As a result, professors have problems to convey experimental and theoretical concepts that are mathematical in nature. Traditional (analytical) approaches used in physics or engineering are not appropriate for bio-oriented students. In this series of papers devoted to the Visual Neuroscience classroom we present a number of computational tools to help the students to learn-byplaying, as opposed to the classical analytical approach in physical sciences. In this work, we present tools for the simulation of neurophysiology experiments in the V1 and MT areas of cortex. Using linear models of V1 and MT cells as unknown black-boxes, the students measure the tuning properties of such systems by recording the responses they give to moving gratings or noise.

J. Malo | M. J. Luque | A. Díez-Ajenjo | M. C. García-Domene

[1] D J Heeger,et al. Model for the extraction of image flow. , 1987, Journal of the Optical Society of America. A, Optics and image science.

[2] Francesc J. Ferri,et al. Perceptual feedback in multigrid motion estimation using an improved DCT quantization , 2001, IEEE Trans. Image Process..

[3] Peter Dayan,et al. Theoretical Neuroscience: Computational and Mathematical Modeling of Neural Systems , 2001 .

[4] Valero Laparra,et al. Visual aftereffects and sensory nonlinearities from a single statistical framework , 2015, Front. Hum. Neurosci..

[5] Jesús Malo,et al. What motion information is perceptually relevant , 2010 .

[6] M. D. de Fez Sáiz,et al. TOOLS FOR GENERATING CUSTOMIZED VISUAL STIMULI IN VISUAL PERCEPTION LABORATORIES USING COMPUTER CONTROLLED MONITORS , 2013 .

[7] A J Ahumada,et al. Model of human visual-motion sensing. , 1985, Journal of the Optical Society of America. A, Optics and image science.

[8] Eero P. Simoncelli,et al. A model of neuronal responses in visual area MT , 1998, Vision Research.

[9] J. Malo,et al. Perceptually weighted optical flow for motion-based segmentation in MPEG-4 paradigm , 2000 .

[10] D. Bradley,et al. Velocity computation in the primate visual system , 2008, Nature Reviews Neuroscience.