层析速度图像的径向基函数人工神经网络

2011 International Conference on Communications, Computing and Control Applications (CCCA) Pub Date : 2011-03-03 DOI:10.1109/CCCA.2011.6031441

Nouredine Djarfour, Jalal Farahtia, K. Baddari, Tahar Aifa

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引用次数: 3

摘要

地震层析成像可以用来约束对地球速度结构的估计。这类问题通常是非线性的，高维的，具有复杂的搜索空间，可能充斥着许多局部极小值，并导致不规则的目标函数。本文研究了径向基函数人工神经网络(RBF-ANN)在层析速度重建中的性能及其应用。该结构的优点是易于通过反向传播算法进行训练，而不会陷入局部最小值。运行一个充分的交叉验证测试，以确保网络在新数据集上的性能。该网络在综合资料中的应用表明，反演地震速度剖面是有效的。利用代数重建技术(ART)共轭梯度(CG)与两种经典方法进行了对比重建。结果表明，径向基函数人工神经网络的重建质量明显提高。

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Tomographic velocity images by radial basis function artificial neural network

The seismic tomography can be used to constrain estimates of the Earth's velocity structure. This kind of problem is usually known to be non-linear, high-dimensional, with a complex search space which may be riddled with many local minima, and results in irregular objective functions. We investigate here the performance and the application of a radial basis function artificial neural network (RBF-ANN) type, in the tomographic velocity reconstruction. The proposed structure has the advantage of being easily trained by means of a back-propagation algorithm without getting stuck in local minima. An adequate cross-validation test is run to ensure the performance of the network on new data sets. The application of such a network to synthetic data shows that the inverted seismic velocity section was efficient. A comparative reconstruction with tow classical methods was performed using Algebraic Reconstruction Technique (ART) Conjugate Gradient (CG). The results clearly show improvements of the quality of the reconstruction obtained by radial basis function artificial neural network.

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2011 International Conference on Communications, Computing and Control Applications (CCCA)

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