Identification Method of Time-varying Neural Dynamics System Based on Chebyshev Polynomial Expansion

A polynomial expansion and system identification technology, applied in the field of time-varying neural dynamics system identification algorithms, can solve the problems of adaptive algorithm convergence defect, time-varying system parameter result estimation delay, etc., and achieves fast calculation speed, simple method and convergence. fast effect

Active Publication Date: 2017-12-12
BEIHANG UNIV
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Problems solved by technology

However, if the parameters of the time-varying system change too fast, the estimation of the parameters of the time-varying system will be delayed due to the convergence defect of the adaptive algorithm.

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  • Identification Method of Time-varying Neural Dynamics System Based on Chebyshev Polynomial Expansion
  • Identification Method of Time-varying Neural Dynamics System Based on Chebyshev Polynomial Expansion
  • Identification Method of Time-varying Neural Dynamics System Based on Chebyshev Polynomial Expansion

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Embodiment Construction

[0025] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0026] The purpose of the present invention is to provide a new time-varying identification method based on polynomial expansion to solve the problem of time-varying system identification for neurodynamic systems, so as to be able to accurately and quickly track changes in kernel functions.

[0027] According to an embodiment of the present invention, a time-varying neurodynamic system identification method based on Chebyshev polynomial expansion is proposed. The time-varying parameters are expanded on a set of orthogonal bases, and the identification problem of the time-varying parameters is transformed into a time-invariant parameter estimation problem in the linear combination estimated by the known orthogonal functions and system inputs and outputs, and then the time-varying parameters are estimated using the time-varying parameter...

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Abstract

The invention proposes a time-varying neurodynamic system identification method based on Chebyshev polynomial expansion. This method first uses Volterra series to characterize the time-varying nervous system composed of simulated input and output spike sequences, and expresses the feedforward and feedback kernel functions with different Volterra kernels; then, uses Laguerre basis functions to expand the time-varying Volterra kernel , to obtain the time-varying generalized Laguerre–Volterra model; then, use Chebyshev polynomials to expand the time-varying parameters of the time-varying generalized Laguerre–Volterra model, and transform the time-varying model into a time-invariant model; finally, use the forward orthogonal The regression algorithm selects meaningful model items, and uses the generalized linear fitting algorithm to estimate the time-invariant parameters, and then obtains the time-varying parameters and the original time-varying kernel function through reverse solution. Compared with the existing adaptive filtering technology, this method has better tracking ability for strong non-stationary nervous system signals, can realize accurate tracking of time-varying system kernel functions, and model neural systems, especially for massive high The systematic modeling of three-dimensional data provides a new research method, which is of great significance for revealing the complex neural dynamics mechanism of the brain's information processing.

Description

technical field [0001] The invention provides a time-varying neurodynamic system identification algorithm based on Chebyshev polynomial expansion, which provides a new analysis method for time-varying system identification facing spike sequence signals, and belongs to the field of system identification. Background technique [0002] The nervous system is a dynamic system, and the underlying mechanism of neuron spike activity exhibits time-varying characteristics. This time-varying may be extremely slow, but its changes cannot be ignored as time accumulates. Therefore, using a time-invariant model to analyze the potential mechanism of neuron spiking activity obviously cannot obtain long-term stable and reliable results. Analyzing the potential time-varying laws of neurons, and developing time-varying system modeling and identification applications of neuron spike sequences have gradually attracted the attention of researchers. [0003] Most of the time-varying system modelin...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B13/04
Inventor 李阳徐颂王旭东
Owner BEIHANG UNIV
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