Frequency dependent seismic reflection analysis: a path to new direct hydrocarbon indicators for deep water reservoirs

Yoo, Seung Chul

02 June 2009

To better study frequency related effects such as attenuation and tuning, we developed a frequency dependent seismic reflection analysis. Comprehensive tests on full waveform synthetics and observations from the Teal South ocean bottom seismic (OBS) data set confirmed that normal moveout (NMO) stretch could distort both frequency and amplitude information severely in shallow events and far offset traces. In synthetic tests, our algorithm recovered amplitude and frequency information ac-curately. This simple but robust target oriented NMO stretch correction scheme can be used on top of an existing seismic processing flow for further analyses. By combining the NMO stretch correction, spectral decomposition, and crossplots of am-plitude versus offset (AVO) attributes, we tested the frequency dependent workflow over Teal south and Ursa field data sets for improved reservoir characterization. As expected from NMO stretch characteristics, low frequencies have been less affected while mid and high frequency ranges were affected considerably. In seismic attribute analysis, the AVO crossplots from spectrally decomposed prestack data confirmed the improved accuracy and effectiveness of our workflow in mid and high frequency regions. To overcome poor spectral decomposition results due to low signal to noise ratio (S/N) in the Teal South application, we also implemented a substack scheme that stacks adjacent traces to increase S/N ratio while reducing the amount of data to process and increasing the accuracy of the spectral decomposition step. Synthetic tests verified the effectiveness of this additional step. An application to the Ursa, Gulf of Mexico, deep water data set showed significant improvement in high frequency data while correcting biased low frequency information.

attenuation

AVO

DHI

NMO

stretch

spectral decomposition

AVO attributes

Frequency dependent seismic reflection analysis: a path to new direct hydrocarbon indicators for deep water reservoirs

Yoo, Seung Chul

02 June 2009

To better study frequency related effects such as attenuation and tuning, we developed a frequency dependent seismic reflection analysis. Comprehensive tests on full waveform synthetics and observations from the Teal South ocean bottom seismic (OBS) data set confirmed that normal moveout (NMO) stretch could distort both frequency and amplitude information severely in shallow events and far offset traces. In synthetic tests, our algorithm recovered amplitude and frequency information ac-curately. This simple but robust target oriented NMO stretch correction scheme can be used on top of an existing seismic processing flow for further analyses. By combining the NMO stretch correction, spectral decomposition, and crossplots of am-plitude versus offset (AVO) attributes, we tested the frequency dependent workflow over Teal south and Ursa field data sets for improved reservoir characterization. As expected from NMO stretch characteristics, low frequencies have been less affected while mid and high frequency ranges were affected considerably. In seismic attribute analysis, the AVO crossplots from spectrally decomposed prestack data confirmed the improved accuracy and effectiveness of our workflow in mid and high frequency regions. To overcome poor spectral decomposition results due to low signal to noise ratio (S/N) in the Teal South application, we also implemented a substack scheme that stacks adjacent traces to increase S/N ratio while reducing the amount of data to process and increasing the accuracy of the spectral decomposition step. Synthetic tests verified the effectiveness of this additional step. An application to the Ursa, Gulf of Mexico, deep water data set showed significant improvement in high frequency data while correcting biased low frequency information.

attenuation

AVO

DHI

NMO

stretch

spectral decomposition

AVO attributes

Kortikale Demyelinisierung bei entzündlichen, neoplastischen und metabolischen ZNS-Erkrankungen / Cortical demyelination in inflammatory, neoplastic and metabolic CNS deseases

Wozniak, Jadwiga Zyta

27 November 2018

No description available.

610

MS

ADEM

NMO

PML

demyelination

syphilis

TBC

extrapontine myelinolysis

SSPE

Medizin (PPN619874732)

Inversão de dados sísmicos de reflexão a partir da curva do tempo de trânsito

PENHA, Lidiane Nazaré Monteiro

January 2007

Submitted by Cleide Dantas (cleidedantas@ufpa.br) on 2014-09-23T11:46:42Z No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_InversaoDadosSismicos.pdf: 9047067 bytes, checksum: 81c978f59e97e716df5d90a593c7766b (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2014-09-29T13:47:29Z (GMT) No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_InversaoDadosSismicos.pdf: 9047067 bytes, checksum: 81c978f59e97e716df5d90a593c7766b (MD5) / Made available in DSpace on 2014-09-29T13:47:29Z (GMT). No. of bitstreams: 2 license_rdf: 23898 bytes, checksum: e363e809996cf46ada20da1accfcd9c7 (MD5) Dissertacao_InversaoDadosSismicos.pdf: 9047067 bytes, checksum: 81c978f59e97e716df5d90a593c7766b (MD5) Previous issue date: 2007 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A presente Dissertação de Mestrado tem como objetivo o estudo do problema de inversão sísmica baseada em refletores planos para arranjo fonte-comum (FC) e ponto-médiocomum (PMC). O modelo direto é descrito por camadas homogêneas, isotrópicas com interfaces plano-horizontais. O problema é relacionado ao empilhamento NMO baseado na otimização da função semblance, para seções PMC corrigidas de sobretempo normal (NMO). O estudo foi baseado em dois princípios. O primeiro princípio adotado foi de combinar dois grupos de métodos de inversão: um Método Global e um Método Local. O segundo princípio adotado foi o de cascata, segundo a teoria Wichert-Herglotz-Bateman, que estabelece que para conhecer uma camada inferior tem-se que conhecer primeiro a camada superior (dissecação). A aplicação do estudo é voltada à simulação sísmica de Bacia Sedimentar do Solimões e de Bacia Marinha para se obter uma distribuição local 1D de velocidades e espessuras para a subsuperfície em horizontes alvo. Sendo assim, limitamos a inversão entre 4 e 11 refletores, uma vez que na prática a indústria limita uma interpretação realizada apenas em número equivalente de 3 a 4 refletores principais. Ressalta-se que este modelo é aplicável como condição inicial ao imageamento de seções sísmicas em regiões geologicamente complexas com variação horizontal suave de velocidades. Os dados sintéticos foram gerados a partir dos modelos relacionados a informações geológicas, o que corresponde a uma forte informação a priori no modelo de inversão. Para a construção dos modelos relacionados aos projetos da Rede Risco Exploratório (FINEP) e de formação de recursos humanos da ANP em andamento, analisamos os seguintes assuntos relevantes: (1) Geologia de bacias sedimentares terrestre dos Solimões e ma rinha (estratigráfica, estrutural, tectônica e petrolífera); (2) Física da resolução vertical e horizontal; e (3) Discretização temporal-espacial no cubo de multi-cobertura. O processo de inversão é dependente do efeito da discretização tempo-espacial do campo de ondas, dos parâmetros físicos do levantamento sísmico, e da posterior reamostragem no cubo de cobertura múltipla. O modelo direto empregado corresponde ao caso do operador do empilhamento NMO (1D), considerando uma topografia de observação plana. O critério básico tomado como referência para a inversão e o ajuste de curvas é a norma 2 (quadrática). A inversão usando o presente modelo simples é computacionalmente atrativa por ser rápida, e conveniente por permitir que vários outros recursos possam ser incluídos com interpretação física lógica; por exemplo, a Zona de Fresnel Projetada (ZFP), cálculo direto da divergência esférica, inversão Dix, inversão linear por reparametrização, informações a priori, regularização. A ZFP mostra ser um conceito út il para estabelecer a abertura da janela espacial da inversão na seção tempo-distância, e representa a influência dos dados na resolução horizontal. A estimativa da ZFP indica uma abertura mínima com base num modelo adotado, e atualizável. A divergência esférica é uma função suave, e tem base física para ser usada na definição da matriz ponderação dos dados em métodos de inversão tomográfica. A necessidade de robustez na inversão pode ser analisada em seções sísmicas (FC, PMC) submetida a filtragens (freqüências de cantos: 5;15;75;85; banda-passante trapezoidal), onde se pode identificar, comparar e interpretar as informações contidas. A partir das seções, concluímos que os dados são contaminados com pontos isolados, o que propõe métodos na classe dos considerados robustos, tendo-se como referência a norma 2 (quadrados- mínimos) de ajuste de curvas. Os algoritmos foram desenvolvidos na linguagem de programação FORTRAN 90/95, usando o programa MATLAB para apresentação de resultados, e o sistema CWP/SU para modelagem sísmica sintética, marcação de eventos e apresentação de resultados. / The present Masters Thesis had for objective the study of the seismic inversion problem based on flat reflectors for common-source (SC) and common- mid-point (CMP) gathers. The forward model is described by homogeneous, isotropic, plane horizontal layers. The problem is related to the NMO stack based on the optimization of the semblance function, for CMP sections corrected for moveout time. The study was based on two principles. The first principle adopted was the combination of two groups of inversion methods: A global and a local method. The second principle adopted was stripping according to the Wichert-Herglotz-Bateman theory, that establishes that to know a lower layer it is necessary to know first the upper layer. The application of the study aims at the seismic simulation of the terrestrial Solimões and marine sedimentary basins to obtain a 1D distribution of velocity and layer thicknesses of the subsurface of target horizons. In this sense, we limited the inversion experiments to 4 to 11 reflectors, once in practice the industry limits the interpretations to be to about one same number of 3 to 4 main reflectors. Stands out that this model is applicable as initial condition to the imaging of seismic sections in geologically complex regions wit h slow lateral variation of velocities. The synthetic data was produced based on geological information that corresponds to strong a priori information for the inversion model. For the construction of models related to the projects in progress, we analyzed the following relevant subjects: (1) Geology of sedimentary basins terrestrial Solimões and marine (stratigraphy, structural, tectonics and petroliferous); (2) Physics of the vertical and horizontal seismic resolution; and (3) Temporal-spatial discretization of the multi-coverage cube. The inversion process is dependent on the discretization of the wave field in time-space, on the physical parameters of the seismic survey, and of further on the resampling in the multiple coverage cube. The direct model us ed corresponds to the case of the NMO (1D) stack operator, considering a flat observation topography. The basic criterion taken as reference for the inversion and curve fit is the norm 2 (quadratic). The inversion using the simple present model is computational attractive for being fast, and convenient for allowing several other techniques be included with a logical physical interpretation; e.g., the Fresnel projected zone (ZFP), the direct calculation of the spherical divergence, Dix inversion, linear inversion by reparametrization, a priori information, and regularization. The ZFP shows to be a useful concept to establish the aperture of the spatial inversion window in the time-distance section. The ZFP represents the influence of the data in the horizontal resolution. The estimative of the ZFP indicates a minimum aperture based on an adopted model. The spherical divergence is a smooth function, and it has physical basis to be used in the definition of a data weight matrix for tomographic inversion methods. The necessity of robustness in the inversion can be analyzed in seismic sections (CS and CMP) submitted to filtering (corners frequencies: 5; 15; 75; 85; pass-band trapezoidal), where one can identify, compare and interpret the information contained. From the sections, we conclude that the data are contaminated with isolated points, what proposes methods in the class considered as robust having as reference the norm 2 (least-square) of curve fitting. The development of the algorithms used the FORTRAN 90/95 programming language, the program MATLAB for presentation of results; and the package CWP/SU for synthetic seismic modeling, picking of events and presentation of results.

Método de reflexão sísmica

Inversão (Geofísica)

Bacias sedimentares

Empilhamento NMO

Rio Solimões (Bacia do Amazonas)

Bacia marinha

Amazonas - Estado

Modélisation statistique de tenseurs d'ordre supérieur en imagerie par résonance magnétique de diffusion / Statistical modelling of high order tensors in diffusion weighted magnetic resonance imaging

Gkamas, Theodosios

29 September 2015

L'IRMd est un moyen non invasif permettant d'étudier in vivo la structure des fibres nerveuses du cerveau. Dans cette thèse, nous modélisons des données IRMd à l'aide de tenseurs d'ordre 4 (T4). Les problèmes de comparaison de groupes ou d'individu avec un groupe normal sont abordés, et résolus à l'aide d'analyses statistiques sur les T4s. Les approches utilisent des réductions non linéaires de dimension, et bénéficient des métriques non euclidiennes pour les T4s. Les statistiques sont calculées dans l'espace réduit, et permettent de quantifier la dissimilarité entre le groupe (ou l'individu) d'intérêt et le groupe de référence. Les approches proposées sont appliquées à la neuromyélite optique et aux patients atteints de locked in syndrome. Les conclusions tirées sont cohérentes avec les connaissances médicales actuelles. / DW-MRI is a non-invasive way to study in vivo the structure of nerve fibers in the brain. In this thesis, fourth order tensors (T4) were used to model DW-MRI data. In addition, the problems of group comparison or individual against a normal group were discussed and solved using statistical analysis on T4s. The approaches use nonlinear dimensional reductions, assisted by non-Euclidean metrics for T4s. The statistics are calculated in the reduced space and allow us to quantify the dissimilarity between the group (or the individual) of interest and the reference group. The proposed approaches are applied to neuromyelitis optica and patients with locked in syndrome. The derived conclusions are consistent with the current medical knowledge.

IRMd

Tenseur d'ordre supérieur

Test de permutation

Maladie NMO

LIS syndrome

Analyse statistique

Métrique non-euclidienne

Réduction de dimension non linéaire

DW-MRI

High order tensor

Non-Euclidean metric

Nonlinear dimension reduction

Statistical analysis

Permutation testing

NMO disease

LIS syndrome

621.38

006.6