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This book provides an introduction to recent developments in automated stratigraphic correlation of fossil data, using computer programs for ranking and scaling of stratigraphic events. Mainframes or microcomputers can be used to aid the stratigrapher during data inventory for a region or time period, for construction of a biozonation based on stratigraphic events, (such as the latest appearance datum of a fossil species), and for automated correlation. The book is intended for advanced geology students, research workers and teachers with a background in stratigraphy and an interest in using computer-based techniques for problem-solving.
Stratigraphic correlation is an essential process and is a prerequisite to several processes in the industry. It is a tedious and time-consuming work process that prevents geoscientists from performing other relevant tasks and becomes a bottleneck to other workflows. With the rapid growth in digital technology, the age of digital transformation becomes a key enabler to automate the correlation by applying the data analytic framework to formulate and solve the problem.
Reviews the current state-of-the-art of quantitative stratigraphic correlation. Divided into three main sections covering the theoretical aspects of qualitative stratigraphy, including the mathematical formalization of stratigraphic terms, biostratigraphy, and lithostratigraphy.
Many of the millions of medieval charters surviving in European archives and repositories were written without any reference to a date of issue. The proliferation of undated charters in England and Normandy indicates that the custom was especially peculiar to lands under Norman rule, but charters issued by major religious houses are often also undated. The DEEDS Project at the University of Toronto has developed a computerised methodology for dating charters, relying on analysis of vocabulary, syntax and formulae. In this volume an international group of scholars concerned with the problem of charter chronology consider the potential of the computerised methodology compared to other more traditional methods of dating, such as identification of names, changing in wording and address, and handwriting. Discussion also touches on regional differences in the production, use and distribution of charters, and on ways both manual and mechanical to date and analyse the content of large numbers of them. MICHAEL GERVERS is Director of the DEEDS Project at the University of Toronto, Canada. Contributors: MICHAEL GERVERS, RODOLFO FIALLOS, MARJORIE CHIBNALL, V�RONIQUE GAZEAU, BENOIT-MICHEL TOCK, NICHOLAS VINCENT, GEORGES DECLERCQ, ZSOLT HUNYADIR, ATTILA ZSOLDOS, MARIA HILLEBRANDT, TREVOR CHALMERS, LAZSLO VESZPR�MI, P.D.A. HARVEY, ANDRAS GRYNAEUS, JOZSEF PALFY
Stratigraphy & Timescales, Volume Six in the Advances in Sequence Stratigraphy series covers research in stratigraphic disciplines, including the most recent developments in the geosciences. This fully commissioned review publication aims to foster and convey progress in stratigraphy with its inclusion of a variety of topics, including Carbon isotope stratigraphy - principles and applications, Interpreting Phanerozoic d13C patterns as periodic glacio-eustatic sequences, Stable carbon isotopes in archaeological plant remains, Review of the Upper Ediacaran-Lower Cambrian Detrital Series in Central and North Iberia: NE Africa as possible Source Area, Calibrating d13C and d18O chemostratigraphic correlations across Cambrian strata of SW, and much more. Contains contributions from leading authorities in the field Informs and updates on all the latest developments in the field Aims to foster and convey progress in stratigraphy, including geochronology, magnetostratigraphy, lithostratigraphy, event-stratigraphy, and more
Celebrating Frits Agterberg’s half-century of publication activity in geomathematics, this volume’s 28 timely papers, written by his friends and colleagues, treat a variety of subjects of current interest, many of them also studied by Frits, including: spatial analysis in mineral resource assessment, quantitative stratigraphy, nonlinear multifractal models, compositional data analysis, time series analysis, image analysis, and geostatistics. Professor Agterberg published his first paper as a graduate student in 1958 and has since produced (and continues to publish) a steady stream of research papers on a wide variety of subjects of interest to geomathematical practitioners. Most of the papers included here address methodology and feature practical case studies, so that the book likely has broad appeal to those interested in mathematical geosciences, both to academic researchers seeking a comprehensive overview and also to practitioners of geomathematical approaches in industry.
Here is a state-of-the-art survey of artificial intelligence in modern exploration programs. Focussing on standard exploration procedures, the contributions examine the advantages and pitfalls of using these new techniques, and, in the process, provide new, more accurate and consistent methods for solving old problems. They show how expert systems can provide the integration of information that is essential in the petroleum industry when solving the complicated questions facing the modern petroleum geoscientist.