Marine Electromagnetic Studies of Seafloor Resources and Tectonics

“…CSEM techniques can be divided into two groups depending on the domain in which collected data is interpreted: time domains (TDEM) or frequency domains (FDEM). In the case of oil prospecting, marine CSEM surveys are done predominantly using FDEM [12], [16]. In marine CSEM, also referred as seabed logging [11], a deep-towed electric dipole transmitter is used to produce a low frequency EM signal (primary field) which interacts with the electrically conductive Earth and induces eddy currents that become sources of a new EM signal (secondary field).…”

Section: Methodsmentioning

confidence: 99%

“…Figure 1 978-1-4799-7639-3/15/$31.00 c 2015 IEEE depicts the marine CSEM. Marine CSEM is nowadays a well-known geophysical prospecting tool in the offshore environment and a commonplace in industry, examples of that can be found in [7], [9], [16], [21], [25]. …”

Section: Methodsmentioning

confidence: 99%

Parallel and numerical issues of the edge finite element method for 3D controlled-source electromagnetic surveys

Castillo-Reyes

Puente

Puzyrev

et al. 2015

2015 International Conference on Computing Systems and Telematics (ICCSAT)

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Abstract-This paper deals with the most relevant parallel and numerical issues that arise when applying the Edge Element Method in the solution of electromagnetic problems in exploration geophysics. In this sense, in recent years the application of land and marine controlled-source electromagnetic (CSEM) surveys has gained tremendous interest among the offshore exploration community. This method is especially significant in detecting hydrocarbon in shallow/deep waters. On the other hand, in Finite Element Methods for solving electromagnetic field problems, the use of Edge Elements has become very popular. In fact, Edge Elements are often said to be a cure to many difficulties that are encountered (particularly eliminating spurious solutions) and are claimed to yield accurate results. CSEM, linear vectorial edge basis functions and its implementation on unstructured tetrahedral meshes are discussed. The use of it's kind of discretisation enables the representation of complex geological structures and allows local refinement in order to improve the solution's accuracy. A parallel shared memory approach is proposed to meet the high computational cost of EM modeling. Performance results and an convergence study are presented in order to validate our numerical method.

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“…In conductive media, acoustic and optical transmissions are preferred [13], however, in low frequencies, EM waves can propagate fairly far in conductive media, having enough information scattered back to the sensors. New techniques are currently being developed [10], allowing the use EM imaging to study structures and resources under seawater. These techniques can be also applied in national defence systems, as in ship signature identification, mine sweeping, and mining counter-measures.…”

Section: Introductionmentioning

confidence: 99%

Feature Extraction of Structures in Sea Water Using Self-Organizing Maps and Electromagnetic Waves

Silva

Batista

Albuquerque

2016

Tend. Mat. Apl. Comput.

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ABSTRACT. The use of Self-Organizing Map (SOM) algorithm for feature extraction and dimensionality reduction applied to underwater object detection with Low Frequency Electromagnetic Waves is presented. Computer simulation is used to generate a direct model for the study region, and a Self Organizing Map Algorithm is used to fit the data and return a similar model, with smaller dimensionality and same characteristics. Results show that virtual sensors are created by the SOM algorithm with consistent predictions, filling the resolution gap of the input data. These results are useful for fastening decision making algorithms by reducing the number of inputs to a group of significant data.

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Marine Electromagnetic Studies of Seafloor Resources and Tectonics

Cited by 98 publications

References 121 publications

Parallel goal-oriented adaptive finite element modeling for 3D electromagnetic exploration

Parallel goal-oriented adaptive finite element modeling for 3D electromagnetic exploration

Parallel and numerical issues of the edge finite element method for 3D controlled-source electromagnetic surveys

Feature Extraction of Structures in Sea Water Using Self-Organizing Maps and Electromagnetic Waves

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