Abstract
Natural source Super Low Frequency(SLF) electromagnetic prospecting methods have become an increasingly promising way in the resource detection. The capacity estimation of the reservoirs is of great importance to evaluate their exploitation potency. In this paper, we built a signal-estimate model for SLF electromagnetic signal and processed the monitored data with adaptive filter. The non-normal distribution test showed that the distribution of the signal was obviously different from Gaussian probability distribution, and Class B instantaneous amplitude probability model can well describe the statistical properties of SLF electromagnetic data. The Class B model parameter estimation is very complicated because its kernel function is confluent hypergeometric function. The parameters of the model were estimated based on property spectral function using Least Square Gradient Method(LSGM). The simulation of this estimation method was carried out, and the results of simulation demonstrated that the LGSM estimation method can reflect important information of the Class B signal model, of which the Gaussian component was considered to be the systematic noise and random noise, and the Intermediate Event Component was considered to be the background ground and human activity noise. Then the observation data was processed using adaptive noise cancellation filter. With the noise components subtracted out adaptively, the remaining part is the signal of interest, i.e., the anomaly information. It was considered to be relevant to the reservoir position of the coalbed methane stratum.
Highlights
The passive Super Low Frequency (SLF) detection is a new remote sensing technique which explores the subsurface electrical structure utilizing the natural alternating electromagnetic field
We built a signal-estimate model for SLF electromagnetic signal and processed the monitored data with adaptive filter
The amplitude probability model can well describe the statistical properties of SLF electromagnetic data
Summary
The passive Super Low Frequency (SLF) detection is a new remote sensing technique which explores the subsurface electrical structure utilizing the natural alternating electromagnetic field. The paper provides a new way to extract the anomaly correlated with the coalbed methane with the prospecting method of Super-low frequency electromagnetic. To analyse the statistical property, the non-normal distribution test and the amplitude probability distribution curve of experimental data and probability distribution of Class B model fitting was done.
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