Method for accurately estimating post-earthquake relaxation time in colored noise

A technology of relaxation time and colored noise, which is applied in the field of crustal movement analysis, can solve problems such as dependence on initial values, difficulty in calculating relaxation time, and inability to use linear least squares estimation, so as to avoid a large number of errors, improve adaptability, and iterate The effect of frequency reduction

Pending Publication Date: 2022-03-11
HENAN POLYTECHNIC UNIV
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Problems solved by technology

[0002] The relaxation time parameter in the post-earthquake deformation model is nonlinearly related to the observations, and linear least squares estimation cannot be used
The result of the conventional nonlinear least squares estimation depends on the initial value, and the simple nonlinear least squares method cannot solve the relaxation time problem
On the other hand, there is a large amount of colored noise in the continuous GNSS time series, which will bring great difficulties to the calculation of relaxation time

Method used

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  • Method for accurately estimating post-earthquake relaxation time in colored noise
  • Method for accurately estimating post-earthquake relaxation time in colored noise
  • Method for accurately estimating post-earthquake relaxation time in colored noise

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Embodiment Construction

[0045] Such as figure 1 As shown, the present invention proposes a method for accurately estimating the post-earthquake relaxation time in colored noise, comprising the following steps:

[0046] 1) Choose the combination of white noise and flicker noise, and use the maximum likelihood technique to estimate the pre-earthquake signal, so as to obtain the pre-earthquake signal. Among them, the pre-earthquake signal includes the initial value of the station position, the velocity of the GNSS station, the periodic signal, the step item, etc. There are already mature software available for this part, such as CATS and Hector software.

[0047] 2) Delete the pre-earthquake signal of the post-earthquake GNSS time series.

[0048] 3) Using pre-earthquake noise parameters to establish a stochastic model of post-earthquake GNSS time series. Among them, the pre-earthquake noise parameter is the ratio between different noise types calculated by using the pre-earthquake GNSS time series i...

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Abstract

The invention discloses a method for accurately estimating post-earthquake relaxation time in colored noise, which comprises the following steps of: selecting a combination of white noise and flicker noise, estimating a pre-earthquake GNSS (Global Navigation Satellite System) time sequence by using a maximum likelihood technology, and acquiring a pre-earthquake signal; pre-earthquake signals in the GNSS time sequence after the earthquake are deleted; and constructing a random model of the post-earthquake GNSS time sequence. Setting a damping factor lambda according to actual needs; calculating the amplitude Al, Ae and x2 (X) of post-earthquake deformation by using a linear least square method; calculating normal matrixes N and L, and calculating Al, Ae and x2 (X + delta X) by using a linear least square method; and when the number of iterations of x2 (X + delta X) is reduced to the negligible degree of lambda, iteration is stopped. According to the method, the accuracy of the initial value is not required, the interference of colored noise can be solved, the adaptability of the algorithm is remarkably improved, the result of estimating the relaxation time is basically not influenced by the initial value, and a large number of errors carried by signal extraction are effectively avoided.

Description

technical field [0001] The invention belongs to the field of crustal movement analysis, in particular to a method for accurately estimating relaxation time after an earthquake in colored noise. Background technique [0002] The relaxation time parameter in the post-earthquake deformation model is nonlinearly related to the observations, so it cannot be estimated by linear least squares. The result of the conventional nonlinear least squares estimation depends on the initial value, and the simple nonlinear least squares method cannot solve the relaxation time problem. On the other hand, there is a large amount of colored noise in the continuous GNSS time series, which will bring great difficulties to the calculation of relaxation time. [0003] Usually colored noise in GNSS time series is modeled as a combination of white noise and flicker noise (Zhang et al. 1997; Mao et al. 1995; Williams 2004; Langbein 2008; Andrei et al. 2018; Li et al. 2019; He et al. 2019). The ratio ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/20G06F17/16G01V1/30G01V1/36G06F119/10
CPCG06F30/20G06F17/16G01V1/36G01V1/307G06F2119/10G01V2210/63G01V2210/34
Inventor 任安康徐克科
Owner HENAN POLYTECHNIC UNIV
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