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EAGE2016.bib
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@Book{Aki1980,
Title = {Quantitative seismology: Theory and methods},
Author = {Aki K. and Richards P.G.},
Publisher = {W.N. Freeman and Co.},
Year = {1980},
Volume = {Volume 1},
File = {:/Users/bartuka/Downloads/Papers/interpretacao/quantitative.seismology.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Book{Allen2006,
Title = {Basin Analysis - Principles and Applications},
Author = {Philip A. Allen and John R. Allen},
Publisher = {Blackwell Publishing Ltd},
Year = {2006},
Number = {2},
Volume = {Second Edition},
File = {:Downloads/Papers/geologia/Allen2006.pdf:PDF},
Keywords = {geologia, bacias},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Unpublished{Berryman1990,
Title = {Nonlinear Inversion and Tomography},
Author = {Berryman, J. G.},
Note = {Borehole Seismic Tomography - Developed from a Series of Lectures},
Month = {July 9-39},
Year = {1990},
File = {:Downloads/Papers/inversao/Berryman1990.pdf:PDF},
Keywords = {inversion, tomography},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Book{Boggs2009,
Title = {Petrology of Sedimentary Rocks},
Author = {Boggs, S.},
Publisher = {Cambridge University Press},
Year = {2009},
Series = {Petrology of Sedimentary Rocks},
File = {:geologia/Petrology_of_Sedimentary_Rocks_Second_Edition.pdf:PDF},
ISBN = {9780521897167},
Lccn = {2009289261},
Owner = {bartuka},
Timestamp = {2015.09.22},
Url = {https://books.google.com.br/books?id=fCSnHTJBTrcC}
}
@Article{Bortfeld1961,
Title = {Approximations to the reflection and transmission coefficients of plane longitudinal and transverse waves*},
Author = {Bortfeld, R.},
Journal = {Geophysical Prospecting},
Year = {1961},
Number = {4},
Pages = {485--502},
Volume = {9},
Abstract = {The reflection and transmission coefficients for vertical incidence can be very closely approximated by computing the direct-reflected and the direct-transmitted portion for transition layers, and letting the thickness approach zero. The same procedure can then be applied to the general case of oblique incidence, which yields approximate values of the respective coefficients, including those of the converted waves. The approximate values compare well with the exact values calculated by Muskat and Meres (1940).These approximations might be adequate for all cases occurring in reflection seismic prospecting. They can also be used, possibly even more profitably, for the derivation of some rules governing the reflection process. The influence of Poisson's ratio can be read more or less directly from the approximate formulas. All converted waves depend primarily on the ratio of the shear velocities.},
Doi = {10.1111/j.1365-2478.1961.tb01670.x},
File = {Approximations to the reflection and transmission coefficients:/Users/bartuka/Downloads/Papers/interpretacao/bortfeld1961.pdf:PDF},
ISSN = {1365-2478},
Keywords = {approximations, reflection coefficient},
Owner = {bartuka},
Publisher = {Blackwell Publishing Ltd},
Timestamp = {2015.09.19},
Url = {http://dx.doi.org/10.1111/j.1365-2478.1961.tb01670.x}
}
@Article{Buland2003,
Title = {Joint AVO inversion, wavelet estimation and noise-level estimation using a spatially coupled hierarchical Bayesian model},
Author = {Buland, Arild and Omre, Henning},
Journal = {Geophysical Prospecting},
Year = {2003},
Number = {6},
Pages = {531--550},
Volume = {51},
Abstract = {The main objective of the AVO inversion is to obtain posterior distributions for P-wave velocity, S-wave velocity and density from specified prior distributions, seismic data and well-log data. The inversion problem also involves estimation of a seismic wavelet and the seismic-noise level. The noise model is represented by a zero mean Gaussian distribution specified by a covariance matrix. A method for joint AVO inversion, wavelet estimation and estimation of the noise level is developed in a Bayesian framework. The stochastic model includes uncertainty of both the elastic parameters, the wavelet, and the seismic and well-log data. The posterior distribution is explored by Markov-chain Monte-Carlo simulation using the Gibbs' sampler algorithm. The inversion algorithm has been tested on a seismic line from the Heidrun Field with two wells located on the line. The use of a coloured seismic-noise model resulted in about 10% lower uncertainties for the P-wave velocity, S-wave velocity and density compared with a white-noise model. The uncertainty of the estimated wavelet is low. In the Heidrun example, the effect of including uncertainty of the wavelet and the noise level was marginal with respect to the AVO inversion results.},
File = {:Downloads/Papers/inversao/buland2003.pdf:PDF},
ISSN = {1365-2478},
Owner = {b4rtuk4},
Publisher = {Blackwell Publishing Ltd},
Timestamp = {2015.09.20},
}
@Article{Buland2003a,
Title = {Bayesian linearized AVO inversion},
Author = {Buland, Arild and Omre, Henning},
Journal = {Geophysics},
Year = {2003},
Number = {1},
Pages = {185-198},
Volume = {68},
Doi = {10.1190/1.1543206},
Eprint = {
http://dx.doi.org/10.1190/1.1543206
},
File = {:avo/bayesian.linearized.avo.inversion.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23},
}
}
@Article{castagna1993avo,
Title = {AVO analysis-tutorial and review},
Author = {Castagna, John P and Backus, MM},
Journal = {Offset-dependent reflectivity: theory and practice of AVO analysis},
Year = {1993},
Pages = {3--36},
File = {:avo/avo.analysis.tutorial.and.principles.pdf:PDF},
Owner = {bartuka},
Publisher = {SEG, Tulsa, OK},
Timestamp = {2015.09.22}
}
@Article{Castagna1985,
Title = {Relationships between compressional-wave and shear-wave velocities in clastic silicate rocks},
Author = {Castagna, J. P. and Batzle, M. L. and Eastwood, Raymond L.},
Journal = {Geophysics},
Year = {1985},
Number = {4},
Pages = {571-581},
Volume = {50},
Abstract = {New velocity data in addition to literature data derived from sonic log, seismic, and laboratory measurements are analyzed for clastic silicate rocks. These data demonstrate simple systematic relationships between compressional and shear wave velocities. For water-saturated clastic silicate rocks, shear wave velocity is approximately linearly related to compressional wave velocity and the compressional-to-shear velocity ratio decreases with increasing compressional velocity. Laboratory data for dry sandstones indicate a nearly constant compressional-to-shear velocity ratio with rigidity approximately equal to bulk modulus. Ideal models for regular packings of spheres and cracked solids exhibit behavior similar to the observed water-saturated and dry trends. For dry rigidity equal to dry bulk modulus, Gassmann's equations predict velocities in close agreement with data from the water-saturated rock.},
Doi = {10.1190/1.1441933},
Eprint = {http://geophysics.geoscienceworld.org/content/50/4/571.full.pdf+html},
File = {:Downloads/Papers/avo/Castagna1985.pdf:PDF},
Owner = {b4rtuk4},
Timestamp = {2015.09.20},
Url = {http://geophysics.geoscienceworld.org/content/50/4/571.abstract}
}
@Book{Cerveny2001,
Title = {Seismic Ray Theory},
Author = {Cerveny, Vlastislav},
Publisher = {Cambridge University Press},
Year = {2001},
Volume = {1},
File = {:Downloads/Papers/sismica/Cerveny2001.pdf:PDF},
Keywords = {ray, theory, seismic},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Book{Chapman2004,
Title = {Fundamentals of Seismic Wave Propagation},
Author = {Chapman, C.},
Publisher = {Cambridge University Press},
Year = {2004},
File = {:Downloads/Papers/sismica/Chapman2004.pdf:PDF},
ISBN = {9781139451635},
Owner = {bartuka},
Timestamp = {2015.09.19},
Url = {https://books.google.com.br/books?id=W-Ou1Yqz2t0C}
}
@InProceedings{Chipperfield1995,
Title = {The MATLAB genetic algorithm toolbox},
Author = {Chipperfield, AJ and Fleming, PJ},
Booktitle = {Applied control techniques using MATLAB, IEE Colloquium on},
Year = {1995},
Organization = {IET},
Pages = {10--1},
File = {:algoritmo.genetico/genetic.algorithm.toolbox.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23}
}
@Book{Claerbout1976,
Title = {Fundamentals of geophysical data processing: with applications to petroleum prospecting},
Author = {Claerbout, J.F.},
Publisher = {McGraw-Hill},
Year = {1976},
Series = {International series in the earth and planetary sciences},
File = {:Downloads/Papers/sismica/Claerbout1985.pdf:PDF},
ISBN = {9780070111172},
Lccn = {75022013},
Owner = {bartuka},
Timestamp = {2015.09.19},
Url = {https://books.google.com.br/books?id=-kq4AAAAIAAJ}
}
@Article{DavidBeasley1993,
Title = {An overview of Genetic Algorithms: Part 1, Fundamentals},
Author = {David Beasley, David R. Bull and Ralph R. Martin},
Journal = {University Computing},
Year = {1993},
Number = {2},
Pages = {58-69},
Volume = {15},
File = {:Downloads/Papers/inversao/Beasley1993.pdf:PDF},
Keywords = {inversion, genetic, fundamentals},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Article{Gardner1974,
Title = {Formation velocity and density; the diagnostic basics for stratigraphic traps},
Author = {Gardner, G. H. F. and Gardner, L. W. and Gregory, A. R.},
Journal = {Geophysics},
Year = {1974},
Number = {6},
Pages = {770-780},
Volume = {39},
Abstract = {A multiplicity of factors influence seismic reflection coefficients and the observed gravity of typical sedimentary rocks. Rock velocity and density depend upon the mineral composition and the granular nature of the rock matrix, cementation, porosity, fluid content, and environmental pressure. Depth of burial and geologic age also have an effect.Lithology and porosity can be related empirically to velocity by the time-average equation. This equation is most reliable when the rock is under substantial pressure, is saturated with brine, and contains well-cemented grains. For very low porosity rocks under large pressures, the mineral composition can be related to velocity by the theories of Voigt and Reuss.One effect of pressure variation on velocity results from the opening or closing of microcracks. For porous sedimentary rocks, only the difference between overburden and fluid pressure affects the microcrack system. Existing theory does not take into account the effect of microcrack closure on the elastic behavior of rocks under pressure or the chemical interaction between water and clay particles.The theory of Gassmann can be used to calculate the effect of different saturating fluids on the P-wave velocity of porous rocks. The effect may be large enough in shallow, recent sediments to permit gas sands to be distinguished from water sands on seismic records. At depths greater than about 6000 ft, however, the reflection coefficient becomes essentially independent of the nature of the fluid.Data show the systematic relationship between velocity and density in sedimentary rocks. As a result, reflection coefficients can often be estimated satisfactorily from velocity information alone.},
Doi = {10.1190/1.1440465},
Eprint = {http://geophysics.geoscienceworld.org/content/39/6/770.full.pdf+html},
File = {:interpretacao/Gardner_1974_Formation_velocity_and_density_the_diagnostic_basics_for_stratigraphic_traps.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22},
Url = {http://geophysics.geoscienceworld.org/content/39/6/770.abstract}
}
@Book{Geyer1959,
Title = {Lessons in Seismic Computing},
Author = {Geyer, R.},
Editor = {Richard A. Geyer},
Publisher = {Society of Exploration Geophysicists},
Year = {1959},
Doi = {10.1190/1.9781560802563},
Eprint = {http://library.seg.org/doi/pdf/10.1190/1.9781560802563},
File = {:sismica/Slotnick1986.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22},
Url = {http://library.seg.org/doi/abs/10.1190/1.9781560802563}
}
@Book{Goldberg1989,
Title = {Genetic Algorithms in Search, Optimization and Machine Learning},
Author = {Goldberg, David E.},
Publisher = {Addison-Wesley Longman Publishing Co., Inc.},
Year = {1989},
Address = {Boston, MA, USA},
Edition = {1st},
ISBN = {0201157675},
Owner = {bartuka},
Timestamp = {2015.09.22}
}
@Article{GuilhermeVasquez2001,
Title = {Calibrating some rock physics relations to Brazilian Rocks in the Lab},
Author = {Guilherme Vasquez, L�cia Dillon e Raquel Velloso},
Journal = {7th International Congress of the Brazilian Geophysical Society},
Year = {2001},
File = {:interpretacao/calibrating.some.rock.physics.brazilian.rocks.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22}
}
@Article{Hampson2005,
Title = {Simultaneous inversion of pre-stack seismic data},
Author = {Dan Hampson and Brian Russell},
Journal = {CSEG National Convention},
Year = {2005},
File = {:Downloads/Papers/inversao/Hampson2005.pdf:PDF},
Owner = {b4rtuk4},
Timestamp = {2015.09.20}
}
@Book{Haupt2004,
Title = {Practical genetic algorithms},
Author = {Haupt, Randy L and Haupt, Sue Ellen},
Publisher = {John Wiley \& Sons},
Year = {2004},
File = {:algoritmo.genetico/practical.genetic.algorithm.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23}
}
@Article{Haupt2007,
Title = {Genetic algorithms and their applications in environmental sciences},
Author = {Haupt, Sue Ellen and RANDY, L HAUPT},
Journal = {Advanced Methods for Decision Making and Risk Management in Sustainability Science. Nova Science Publishers, New York},
Year = {2007},
Pages = {183--196},
File = {:algoritmo.genetico/genetic.algorithm.environmenta.sciences.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23}
}
@book{Holland1975,
title={Adaptation in natural and artificial systems: an introductory analysis with applications to biology, control, and artificial intelligence},
author={Holland, J.H.},
isbn={9780472084609},
lccn={lc74078988},
url={https://books.google.com.br/books?id=JE5RAAAAMAAJ},
year={1975},
publisher={University of Michigan Press}
}
@Book{Huygens1690,
Title = {Trait{\'e} de la lumi{\`e}re: o{\`u} sont expliqu{\'e}es les causes de ce qui luy arrive dans la reflexion, \& dans la refraction, et particuli{\`e}rement dans l'{\'e}trange refraction du Cristal d'Islande},
Author = {Huygens, C.},
Publisher = {Pierre Vander Aa},
Year = {1690},
File = {:sismica/huygens1690.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22},
Url = {https://books.google.com.br/books?id=No8PAAAAQAAJ}
}
@Article{Knott1899,
Title = {Reflection and refraction of elastic waves with seismological applications},
Author = {Knott, C. G.},
Journal = {Philosophical Magazine},
Year = {1899},
Pages = {64-97},
Volume = {48},
Keywords = {reflection
reflection, coefficient},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@Book{Lowrie2007,
Title = {Fundamentals of Geophysics},
Author = {Lowrie, W.},
Publisher = {Cambridge University Press},
Year = {2007},
File = {:Downloads/Papers/basics/Lowrie2007.pdf:PDF},
ISBN = {9781139465953},
Owner = {bartuka},
Timestamp = {2015.09.19},
Url = {https://books.google.com.br/books?id=h2-NjUg4RtEC}
}
@Article{Mallick1995,
Title = {Model based inversion of amplitude variations with offset data using a genetic algorithm},
Author = {Subhashis Mallick},
Journal = {Geophysics},
Year = {1995},
Number = {4},
Pages = {939-954},
Volume = {60},
Eprint = {
http://dx.doi.org/10.1190/1.1443860
},
File = {:Downloads/Papers/inversao/Mallick1995.pdf:PDF},
Owner = {b4rtuk4},
Timestamp = {2015.09.20},
}
@Article{Mitchell1995,
Title = {Genetic algorithms: An overview},
Author = {Mitchell, Melanie},
Journal = {Complexity},
Year = {1995},
Number = {1},
Pages = {31--39},
Volume = {1},
Doi = {10.1002/cplx.6130010108},
File = {:algoritmo.genetico/ga-tutorial.pdf:PDF},
ISSN = {1099-0526},
Owner = {bartuka},
Publisher = {Wiley Subscription Services, Inc., A Wiley Company},
Timestamp = {2015.09.23},
Url = {http://dx.doi.org/10.1002/cplx.6130010108}
}
@InBook{Ostrander1982,
Title = {Plane wave reflection coefficients for gas sands at nonnormal angles of incidence},
Author = {W. J. Ostrander},
Chapter = {123},
Pages = {216-218},
Year = {1982},
Booktitle = {SEG Technical Program Expanded Abstracts 1982},
Doi = {10.1190/1.1826898},
Eprint = {http://library.seg.org/doi/pdf/10.1190/1.1826898},
File = {:Downloads/Papers/interpretacao/Ostrander1982.pdf:PDF},
Owner = {b4rtuk4},
Timestamp = {2015.09.20},
Url = {http://library.seg.org/doi/abs/10.1190/1.1826898}
}
@InProceedings{Pencheva2009,
Title = {Modelling of a stochastic universal sampling selection operator in genetic algorithms using generalized nets},
Author = {Pencheva, Tania and Atanassov, Krassimir and Shannon, Anthony},
Booktitle = {Proceedings of the Tenth International Workshop on Generalized Nets, Sofia},
Year = {2009},
Pages = {1--7},
File = {:algoritmo.genetico/modelling.of.a.stochastic.universal.sampling.selection.operator.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23}
}
@Article{Porsani2000,
Title = {Fitness functions, genetic algorithms and hybrid optimization in seismic waveform inversion},
Author = {Porsani, Milton J and Stoffa, Paul L and Sen, Mrinal K and Chunduru, Raghu K},
Journal = {Journal of Seismic Exploration},
Year = {2000},
Number = {2},
Pages = {143--164},
Volume = {9},
File = {:algoritmo.genetico/fitness.funcitons.genetic.algorithm.in.seismic.waveform.inversion.pdf:PDF},
Owner = {bartuka},
Publisher = {GEOPHYSICAL PRESS 14 RUE DU PRADO, 34170 CASTELNAU-LE-LEZ, FRANCE},
Timestamp = {2015.09.23}
}
@Article{R.McQ.1979,
Title = {Seismic Stratigraphy-applications to hydrocarbon exploration. American Association of Petroleum Geologists, Memoir 26. vii + 516 pp. Tulsa, Oklahoma.},
Author = {R. Mc Q.,null},
Journal = {Geological Magazine},
Year = {1979},
Month = {11},
Pages = {491--491},
Volume = {116},
Doi = {10.1017/S0016756800044526},
File = {:avo/seismic.stratigraphy.applications.to.hydrocarbon.pdf:PDF},
ISSN = {1469-5081},
Issue = {06},
Numpages = {1},
Owner = {bartuka},
Timestamp = {2015.09.23},
Url = {http://journals.cambridge.org/article_S0016756800044526}
}
@MastersThesis{Rosa1976,
Title = {Extraction of elastic parameters using seismic reflection aamplitude with offset variations},
Author = {Luiz Romanelli Rosa},
School = {University of Houston},
Year = {1976},
Owner = {bartuka},
Timestamp = {2015.09.22}
}
@InBook{Russell2012,
Title = {Making sense of all that AVO stuff!},
Author = {Brian Russell},
Chapter = {31},
Pages = {1-4},
Publisher = {ASEG Extended Abstracts},
Year = {2012},
Booktitle = {ASEG Extended Abstracts 2012: 22nd Geophysical Conference},
Doi = {10.1071/ASEG2012ab109},
Eprint = {http://library.seg.org/doi/pdf/10.1071/ASEG2012ab109},
File = {:avo/making.sense.of.all.that.avo.stuff.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23},
Url = {http://library.seg.org/doi/abs/10.1071/ASEG2012ab109}
}
@InBook{Russell2001,
Title = {The AVO modelling volume},
Author = {Brian H Russell and Laurence R. Lines and Keith W. Hirsche and Janusz Peron and Daniel P. Hampson},
Chapter = {120},
Pages = {1-4},
Year = {2001},
Booktitle = {ASEG Extended Abstracts 2001: 15th Geophysical Conference},
Doi = {10.1071/ASEG2001ab121},
Eprint = {http://library.seg.org/doi/pdf/10.1071/ASEG2001ab121},
File = {:avo/the.avo.modelling.volume.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23},
Url = {http://library.seg.org/doi/abs/10.1071/ASEG2001ab121}
}
@Other{Sadjadi2004,
Title = {Comparison of fitness scaling functions in genetic algorithms with applications to optical processing},
Abstract = {Many optical or image processing tasks reduce to the optimization of some set of parameters. Genetic algorithms can optimize these parameters even when the functions they map are fairly complicated, but they can only do so the point where the fitness functions they are given can differentiate between good results and the best result. This can occur when the optimal point is in a region (in a three dimensional example) such as a plateau, where all the surrounding points are of very nearly the same fitness. If there are multiple peaks in close proximity, all of nearly the same fitness but with very deep divides, the algorithm will have trouble 'hopping' from one to the other. One way to overcome these obstacles is to scale the fitness values given by the fitness function, thereby gently modifying the fitness function from the point of view of the algorithm, thus rewarding the more fit solutions to a higher precision than would naturally occur. Four such scaling methods will be compared based upon their handling of a sample set of optical processing data. Success will be determined by comparing the variance over time, selection pressure over time, and best of generation graphs.},
Author = {Sadjadi, Farzad},
Doi = {10.1117/12.563910},
File = {:algoritmo.genetico/comparison.fitness.scaling.functions.in.genetic.algorithm.pdf:PDF},
Journal = {Proc. SPIE},
Owner = {bartuka},
Pages = {356-364},
Timestamp = {2015.09.23},
Url = { http://dx.doi.org/10.1117/12.563910},
Volume = {5557},
Year = {2004}
}
@Article{Sen1992,
Title = {Rapid sampling of model space using genetic algorithms: examples from seismic waveform inversion},
Author = {Sen, Mrinal K and Stoffa, Paul L},
Journal = {Geophysical Journal International},
Year = {1992},
Number = {1},
Pages = {281--292},
Volume = {108},
File = {:algoritmo.genetico/rapid.sampling.of.model.space.genetic.algorithm.pdf:PDF},
Owner = {bartuka},
Publisher = {Oxford University Press},
Timestamp = {2015.09.23}
}
@Article{Shuey1985,
Title = {A simplification of the {Z}oeppritz equations},
Author = {R. T. Shuey},
Journal = {Geophysics},
Year = {1985},
Number = {4},
Pages = {609-614},
Volume = {50},
Eprint = {
http://dx.doi.org/10.1190/1.1441936
},
File = {:/Users/bartuka/Downloads/Papers/interpretacao/shuey1985.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.19},
}
@Article{Stoffa1991,
Title = {Nonlinear multiparameter optimization using genetic algorithms; inversion of plane-wave seismograms},
Author = {Stoffa, Paul L. and Sen, Mrinal K.},
Journal = {Geophysics},
Year = {1991},
Number = {11},
Pages = {1794-1810},
Volume = {56},
Abstract = {Seismic waveform inversion is one of many geophysical problems which can be identified as a nonlinear multiparameter optimization problem. Methods based on local linearization fail if the starting model is too far from the true model. We have investigated the applicability of 'Genetic Algorithms' (GA) to the inversion of plane-wave seismograms. Like simulated annealing, genetic algorithms use a random walk in model space and a transition probability rule to help guide their search. However, unlike a single simulated annealing run, the genetic algorithms search from a randomly chosen population of models (strings) and work with a binary coding of the model parameter set. Unlike a pure random search, such as in a 'Monte Carlo' method, the search used in genetic algorithms is not directionless. Genetic algorithms essentially consist of three operations, selection, crossover, and mutation, which involve random number generation, string copies, and some partial string exchanges. The choice of the initial population, the probabilities of crossover and mutation are crucial for the practical implementation of the algorithm. We investigated the effects of these parameters in the inversion of plane-wave seismograms in which a normalized crosscorrelation function was used as the objective or fitness function (E). We also introduce the concept of 'update' probability to control the influence of past generations. The combination of a low value of mutation probability ( approximately 0.01), a moderate value of the crossover probability ( approximately 0.6) and a high value of update probability ( approximately 0.9) are found to be optimal for the convergence of the algorithm. Further, we show that concepts from simulated annealing can be used effectively for the stretching of the fitness function which helps in the convergence of the algorithm. Thus, we propose to use exp (E/T) rather than E as the fitness function, where T (analogous to temperature in simulated annealing) is a properly chosen parameter which can change slowly with each generation. Also, by repeating the GA optimization procedure several times with different randomly chosen initial model populations, we derive 'a very good subset' of models from the entire model space and calculate the a posteriori probability density sigma (m) varies as exp (E(m)/T). The sigma (m)'s are then used to calculate a 'mean' model, which is found to be close to the true model.},
Eprint = {http://geophysics.geoscienceworld.org/content/56/11/1794.full.pdf+html},
File = {:algoritmo.genetico/Stoffa1991.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22},
}
@InBook{Verm1994,
Title = {Lithologic color‐coded sections by AVO crossplots},
Author = {Richard W. Verm and Fred J. Hiltemmn},
Chapter = {305},
Pages = {1092-1095},
Publisher = {Society of Exploration Geophysicists},
Year = {1994},
Booktitle = {SEG Technical Program Expanded Abstracts 1994},
Doi = {10.1190/1.1822706},
Eprint = {http://library.seg.org/doi/pdf/10.1190/1.1822706},
File = {:avo/lithologic.color.coded.section.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23},
Url = {http://library.seg.org/doi/abs/10.1190/1.1822706}
}
@Article{Vidale1988,
Title = {Finite-difference calculation of travel times},
Author = {Vidale, John},
Journal = {Bulletin of the Seismological Society of America},
Year = {1988},
Number = {6},
Pages = {2062--2076},
Volume = {78},
File = {:Downloads/Papers/waveform/1988_Vidale.pdf:PDF},
Owner = {b4rtuk4},
Publisher = {Seismological Society of America},
Timestamp = {2015.09.20}
}
@TechReport{Yang2003,
Title = {A basical study on two-point seismic ray tracing},
Author = {Wenzheng Yang},
Year = {2003},
Month = {December},
File = {:imageamento/basical.study.on.two.point.seismic.ray.tracing.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.22}
}
@Article{Young2005,
Title = {AVO analysis demystified},
Author = {Roger Young and Robert LoPiccolo},
Journal = {Rock Physics - E\&P},
Year = {2005},
Month = {October},
File = {:avo/avo.analysis.demystified.pdf:PDF},
Owner = {bartuka},
Timestamp = {2015.09.23}
}
@Article{Zoeppritz1919,
Title = {\"{U}ber {R}eflexion und {D}urchgang
seismischer {W}ellen durch {U}nstetigkeitsfl\"{a}chen},
Author = {Zoeppritz, Karl},
Journal = {Nachrichten von der K\"{o}niglichen Gesellschaft der Wissenschaften zu G\"{o}ttingen, Mathematisch-physikalische Klasse},
Year = {1919},
Pages = {66-84},
Volume = {VIIb},
Keywords = {zoeppritz, reflection coefficient},
Owner = {bartuka},
Timestamp = {2015.09.19}
}
@TechReport{iLab2015,
Title = {T\'ecnicas de Otimiza\c{c}\~ao },
Author = {iLab},
Publisher = {iLab Sistemas Especializados},
Year = {2015},
Owner = {bartuka},
Timestamp = {2015.09.23},
Url = {http://www.ilab.com.br/tecnicas.html}
}
@book{Slotnick1959,
author = {Slotnick, M. M.},
citeulike-article-id = {13895267},
citeulike-linkout-0 = {http://library.seg.org/doi/book/10.1190/1.9781560802563},
editor = {Geyer, Richard},
isbn = {978-1-56080-256-3},
journal = {Society of Exploration Geophysics},
keywords = {seismic},
posted-at = {2015-12-29 10:35:16},
priority = {0},
publisher = {Society of Exploration Geophysicists},
title = {{Lessons in Seismic Computing (Society of Exploration Geophysicists)}},
url = {http://library.seg.org/doi/book/10.1190/1.9781560802563},
volume = {1},
year = {1959}
}