论文信息 - Neural Model Approach to the Basic Law of Psychophysics

Neural Model Approach to the Basic Law of Psychophysics

Stevens’ law, which is one of the well-known psychophysical laws, suggests that the perceived intensity R of a biological system is proportional to the power of the stimulus strength I, R ∝ In. In order to realize a self-sustainable system that adapts to changes of the environment, it is important to understand the neural mechanism behind this law. Here, we propose a new neural scheme based on the shunting short-term memory (STM) model with the physiological properties of the nervous system, and examine the relation between the neural system and Stevens’ law through computer simulations of the firing rate f with respect to the stimulus strength I. The simulations showed that the feedback-inputting connectivity plays an important role in reproducing the n > 1 and n < 1 cases of Stevens’ law.

[1] Eric L. Schwartz,et al. Computing with the Leaky Integrate-and-Fire Neuron: Logarithmic Computation and Multiplication , 1997, Neural Computation.

[2] Syozo Yasui. On the square root intensity coding at the level of cone photoreceptors , 1992, Vision Research.

[3] Wulfram Gerstner,et al. Spiking Neuron Models: An Introduction , 2002 .

[4] Robert L. Harvey,et al. Neural network principles , 1994 .

[5] O. Kinouchi,et al. Intensity coding in two-dimensional excitable neural networks , 2004, q-bio/0409032.

[6] Vincent Pluvinage,et al. Evidence for a power law intensity code in the coupled cones of the turtle , 1990, Vision Research.

[7] Wulfram Gerstner,et al. Spiking Neuron Models , 2002 .

[8] Stephen Grossberg,et al. Nonlinear neural networks: Principles, mechanisms, and architectures , 1988, Neural Networks.

[9] A. Hodgkin,et al. A quantitative description of membrane current and its application to conduction and excitation in nerve , 1990 .