Abstract
The significant advantage of the complex resistivity method is to reflect the abnormal body through multi-parameters, but its inversion parameters are more than the resistivity tomography method. Therefore, how to effectively invert these spectral parameters has become the focused area of the complex resistivity inversion. An optimized BP neural network (BPNN) approach based on Quantum Particle Swarm Optimization (QPSO) algorithm was presented, which was able to improve global search ability for complex resistivity multi-parameter nonlinear inversion. In the proposed method, the nonlinear weight adjustment strategy and mutation operator were used to enhance the optimization ability of QPSO algorithm. Implementation of proposed QPSO-BPNN was given, the network had 56 hidden neurons in two hidden layers (the first hidden layer has 46 neurons and the second hidden layer has 10 neurons) and it was trained on 48 datasets and tested on another 5 synthetic datasets. The training and test results show that BP neural network optimized by the QPSO algorithm performs better than the BP neural network without initial optimization on the inversion training and test models, and the mean square error distribution is better. At the same time, a double polarized anomalous bodies model was also used to verify the feasibility and effectiveness of the proposed method, the inversion results show that the QPSO-BP algorithm inversion clearly characterizes the anomalous boundaries and is closer to the values of the parameters.
Highlights
IntroductionIn the inversion of electrical resistivity tomography, the neural network has become one of the most widely used complete nonlinear inversion methods because of its strong nonlinear mapping ability and easy construction
An optimized BP neural network (BPNN) approach based on Quantum Particle Swarm Optimization (QPSO) algorithm was presented, which was able to improve global search ability for complex resistivity multi-parameter nonlinear inversion
We propose a complex resistivity nonlinear inversion algorithm based on QPSO-BP algorithm to try to solve the multi-parameter nonlinear inversion problem
Summary
In the inversion of electrical resistivity tomography, the neural network has become one of the most widely used complete nonlinear inversion methods because of its strong nonlinear mapping ability and easy construction. Dai Qian-Wei et al Completed the Nonlinear inversion for electrical resistivity tomography based on chaotic DE-BP algorithm, and the results show that the proposed method has better performance in stability and accuracy and higher imaging quality than least-square inversion [4]. Based on the above research experience, this paper introduces the optimized neural network to solve the multi-parameters inversion problem of the complex resistivity method and constructs a nonlinear mapping network between apparent complex resistivity and inversion parameters. We propose a complex resistivity nonlinear inversion algorithm based on QPSO-BP algorithm to try to solve the multi-parameter nonlinear inversion problem
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