Perfecting the advanced 2D multi electrode electrical exploration method

In this paper, the authors continue systematically presenting and supplementing the results obtained after the study, namely the finalization and renaming of the AMES method into the Advanced 2D Multi-electrode Electrical Exploration (AMEE) method, including MC array, data collecting and processing, and testing on theoretical model and practical application to confirm the superiority of this method. | VNU Journal of Science: Mathematics – Physics, Vol. 34, No. 3 (2018) 90-103 Perfecting the Advanced 2D Multi-electrode Electrical Exploration Method Vu Duc Minh1,*, Do Anh Chung1,2 1 VNU University of Science, 334 Nguyen Trai, Hanoi, Vietnam Institute for Ecology and Works Protection, Vietnam Academy for Water Resources, 171 Tay Son, Dong Da, Hanoi, Vietnam 2 Received 26 September 2018, Accepted 30 September 2018 Abstract: The Advanced Multi-electrode Electrical Sounding method (AMES) proposed by us was introduced at VNU. Journal of Mathematics-Physics, No. 31 (3), 2015. However, the published results are mostly focused on the symmetric MC array and tested on a theoretical model. In this paper, the authors continue systematically presenting and supplementing the results obtained after the study, namely the finalization and renaming of the AMES method into the Advanced 2D Multi-electrode Electrical Exploration (AMEE) method, including MC array, data collecting and processing, and testing on theoretical model and practical application to confirm the superiority of this method. Keywords: MC array, Control File, Advanced 2D Multi-electrode Exploration. 1. Background As we all know, with the aim of increasing the efficiency of constant-current electrical exploration methods in general, constant-current electrical sounding methods in particular, a system of Improved Electrical Sounding methods (IES) was successfully proposed in 2001 [1, 2]. The automatic multi-electrode array along the line and multi-channel multi-electrode automatic array allows the traditional quad-electrode array to be more flexible with more continuous data collecting to improve productivity as well as quality and reliability of the information obtained. Therefore, the Improved 1D Electrical Sounding method is rapidly replaced by the Multi-electrode Electrical Exploration (MEE) method, especially in complex environmental conditions. Continuing researching on the improvement of the method when

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