Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform

During the last 50 years there has been a lot of effort to obtain subsurface structures on the oil and gas exploration. Some of them even if they are based on the mathematical formulation of the phenomenon, were not easily implemented due to the lack of computational power. Nevertheless, the problem...

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Autores:: Paniagua Castrillón, Juan Guillermo

Tipo de recurso:

Fecha de publicación:: 2018

Institución:: Universidad EAFIT

Repositorio:: Repositorio EAFIT

Idioma:: spa

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dc.title.spa.fl_str_mv	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
title	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
spellingShingle	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform Ondículas TEORÍA ELECTROMAGNÉTICA SISMOLOGÍA PETROLOGÍA CORTEZA TERRESTRE Seismic migration Imaging condition Reverse time migration Wavelet transform
title_short	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
title_full	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
title_fullStr	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
title_full_unstemmed	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
title_sort	Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform
dc.creator.fl_str_mv	Paniagua Castrillón, Juan Guillermo
dc.contributor.advisor.spa.fl_str_mv	Quintero Montoya, Olga Lucía
dc.contributor.author.none.fl_str_mv	Paniagua Castrillón, Juan Guillermo
dc.subject.spa.fl_str_mv	Ondículas
topic	Ondículas TEORÍA ELECTROMAGNÉTICA SISMOLOGÍA PETROLOGÍA CORTEZA TERRESTRE Seismic migration Imaging condition Reverse time migration Wavelet transform
dc.subject.lemb.spa.fl_str_mv	TEORÍA ELECTROMAGNÉTICA SISMOLOGÍA PETROLOGÍA CORTEZA TERRESTRE
dc.subject.keyword.spa.fl_str_mv	Seismic migration Imaging condition Reverse time migration Wavelet transform
description	During the last 50 years there has been a lot of effort to obtain subsurface structures on the oil and gas exploration. Some of them even if they are based on the mathematical formulation of the phenomenon, were not easily implemented due to the lack of computational power. Nevertheless, the problem is not only the algorithmic complexity but also, the uncertainty reduction of the scalar field that is obtained after the mathematical modeling and inversion procedures. Specifically, this thesis deals with the well known Reverse time migration (RTM) procedure, which is basically the two-way wave equation migration that is able to generate models with both great structural and velocity complexities, problems arise when the construction of subsurface models take into account seismic signals recorded on the surface. The data is mapped into the subsurface using the acoustic wave equation and the models obtained contain uncertainties that affect their subsequent interpretation. In order to reduce these uncertainties, we seek to improve the algorithm used in RTM before and after the generation of the final model looking for uncertainty reduction and improved scalar fields. We propose a set of strategies of extracting information from the seismic signals in order to obtain characteristics that allow a better and more refined representation of the subsurface structure model. Integral transforms are developed for this purpose. Inspired on the concept of information retrieval from data, we developed a signal procedure algorithm to determine in time-scale domain, the main features of the traveler wave in order to relate temporarily the inherent physics phenomena, locate complex structures by pointing the velocity field singularities due to the main changes on the frequency content revealed within the scalogram obtained by Gaussian wavelet family. Later on, a wavefield separation for the scalar field calculation is proposed based on the same principle and we called it Time Scale Wavefield Separation (TSWS). The space defined by Source wave propagation is decomposed on the subspaces and the analysis in time-domain time-scale of the subset of the wavefield is performed by selecting special features extracted by Wavelet Transform Modulus Maxima (WTMM) and a numerical algorithm is introduced for massive data [1]. Consequently, a Depth Scale Wavefield Separation (DSWS) is developed to the Receiver Wavefield separation by extracting the depth-domain scale-domain features of the relevant information of the reverse traveler wave [2]. Finally and taking into account the need for the proper structure definition for drilling purposes, we introduced the Laguerre Gauss Transform as final part of the Zero lag cross correlation imaging condition (ZL-CC-IC-LG) and provide a useful transformation of the final real scalar field into a complex scalar field with properties of spatial features enhancement.
publishDate	2018
dc.date.issued.none.fl_str_mv	2018
dc.date.available.none.fl_str_mv	2019-07-17T21:12:06Z
dc.date.accessioned.none.fl_str_mv	2019-07-17T21:12:06Z
dc.type.eng.fl_str_mv	doctoralThesis info:eu-repo/semantics/doctoralThesis
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dc.type.local.spa.fl_str_mv	Tesis Doctoral
dc.type.hasVersion.eng.fl_str_mv	acceptedVersion
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dc.coverage.spatial.eng.fl_str_mv	Medellín de: Lat: 06 15 00 N degrees minutes Lat: 6.2500 decimal degrees Long: 075 36 00 W degrees minutes Long: -75.6000 decimal degrees
dc.publisher.spa.fl_str_mv	Universidad EAFIT
dc.publisher.program.spa.fl_str_mv	Doctorado en Ingeniería
dc.publisher.department.spa.fl_str_mv	Escuela de Ingeniería
dc.publisher.place.spa.fl_str_mv	Medellín
institution	Universidad EAFIT
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spelling	Quintero Montoya, Olga LucíaPaniagua Castrillón, Juan GuillermoDoctor in Engineeringjpaniagu@eafit.edu.coMedellín de: Lat: 06 15 00 N degrees minutes Lat: 6.2500 decimal degrees Long: 075 36 00 W degrees minutes Long: -75.6000 decimal degrees2019-07-17T21:12:06Z20182019-07-17T21:12:06Zhttp://repository.eafit.edu.co/handle/10784/13675551.22 P192During the last 50 years there has been a lot of effort to obtain subsurface structures on the oil and gas exploration. Some of them even if they are based on the mathematical formulation of the phenomenon, were not easily implemented due to the lack of computational power. Nevertheless, the problem is not only the algorithmic complexity but also, the uncertainty reduction of the scalar field that is obtained after the mathematical modeling and inversion procedures. Specifically, this thesis deals with the well known Reverse time migration (RTM) procedure, which is basically the two-way wave equation migration that is able to generate models with both great structural and velocity complexities, problems arise when the construction of subsurface models take into account seismic signals recorded on the surface. The data is mapped into the subsurface using the acoustic wave equation and the models obtained contain uncertainties that affect their subsequent interpretation. In order to reduce these uncertainties, we seek to improve the algorithm used in RTM before and after the generation of the final model looking for uncertainty reduction and improved scalar fields. We propose a set of strategies of extracting information from the seismic signals in order to obtain characteristics that allow a better and more refined representation of the subsurface structure model. Integral transforms are developed for this purpose. Inspired on the concept of information retrieval from data, we developed a signal procedure algorithm to determine in time-scale domain, the main features of the traveler wave in order to relate temporarily the inherent physics phenomena, locate complex structures by pointing the velocity field singularities due to the main changes on the frequency content revealed within the scalogram obtained by Gaussian wavelet family. Later on, a wavefield separation for the scalar field calculation is proposed based on the same principle and we called it Time Scale Wavefield Separation (TSWS). The space defined by Source wave propagation is decomposed on the subspaces and the analysis in time-domain time-scale of the subset of the wavefield is performed by selecting special features extracted by Wavelet Transform Modulus Maxima (WTMM) and a numerical algorithm is introduced for massive data [1]. Consequently, a Depth Scale Wavefield Separation (DSWS) is developed to the Receiver Wavefield separation by extracting the depth-domain scale-domain features of the relevant information of the reverse traveler wave [2]. Finally and taking into account the need for the proper structure definition for drilling purposes, we introduced the Laguerre Gauss Transform as final part of the Zero lag cross correlation imaging condition (ZL-CC-IC-LG) and provide a useful transformation of the final real scalar field into a complex scalar field with properties of spatial features enhancement.application/pdfspaUniversidad EAFITDoctorado en IngenieríaEscuela de IngenieríaMedellínOndículasTEORÍA ELECTROMAGNÉTICASISMOLOGÍAPETROLOGÍACORTEZA TERRESTRESeismic migrationImaging conditionReverse time migrationWavelet transformImproving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transformdoctoralThesisinfo:eu-repo/semantics/doctoralThesisTesis DoctoralacceptedVersionhttp://purl.org/coar/resource_type/c_db06Acceso abiertohttp://purl.org/coar/access_right/c_abf2LICENSElicense.txtlicense.txttext/plain; charset=utf-81748https://repository.eafit.edu.co/bitstreams/b7a7c4cb-5252-4786-9957-f13fc5764ebe/download8a4605be74aa9ea9d79846c1fba20a33MD51ORIGINALJuanGuillermo_PaniaguaCastrillon_2018.pdfJuanGuillermo_PaniaguaCastrillon_2018.pdfTrabajo de gradoapplication/pdf10520840https://repository.eafit.edu.co/bitstreams/73a36445-3954-49a5-ae16-e1bd4374c093/download73fb9534ff57b294d2a9dfbeb3c9213eMD5210784/13675oai:repository.eafit.edu.co:10784/136752020-03-25 13:23:03.07open.accesshttps://repository.eafit.edu.coRepositorio Institucional Universidad EAFITrepositorio@eafit.edu.co

Improving the seismic image in reverse time migration by analysis of wavefields via continuous wavelet transform

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