Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /

Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /

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In summary, Bayesian methods are already seen by many as an essential tool to aid in formal chronology building in archaeology. At present, most researchers use packages like OxGal and BGal to make use of such tools and typically see them as radiocarbon calibration tools (indeed both are described as such on their own WWW welcome pages). On reflection, however, I think that it is clear that these packages offer more than just calibration, they are modest Bayesian chronological data interpretation environments. Given this observation, and the fact that the current tools are built on a sound foundation offlexible and scalable theory,I think that we are in a good position to move towards fully integrated tools for Bayesian chronology building. All of the current and planned research projects outlined above will contribute to the extension of the framework in one way or another. Since such work is motivated by a desire to provide practical solutions to real, current and pressing issues associated with chronology building, I feel sure that we can look forward to many more years of fast moving, productive and practical research in Bayesian chronology building. References Ammerman, A. J. and Cavalli-Sforza, 1. L. (1971). Measurement of the rate of spread of early farming in Europe. Man , 6, 674-688. Ammerman, A. J. and Cavalli-Sforza, 1. L. (1984). The Neolithic transition and the genetics of populations in Europe. Princeton University Press, Princeton. Anderson, A. , Allingham, B. and Smith, I. (1996a).

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Main Authors: Buck, Caitlin E. editor., Millard, Andrew R. editor., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: London : Springer London : Imprint: Springer, 2004
Subjects:Statistics., Geology., Paleontology., Bioinformatics., Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.,
Online Access:http://dx.doi.org/10.1007/978-1-4471-0231-1
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id KOHA-OAI-TEST:209418
record_format koha
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Statistics.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
Geology.
Paleontology.
Bioinformatics.
spellingShingle Statistics.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
Geology.
Paleontology.
Bioinformatics.
Buck, Caitlin E. editor.
Millard, Andrew R. editor.
SpringerLink (Online service)
Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
description In summary, Bayesian methods are already seen by many as an essential tool to aid in formal chronology building in archaeology. At present, most researchers use packages like OxGal and BGal to make use of such tools and typically see them as radiocarbon calibration tools (indeed both are described as such on their own WWW welcome pages). On reflection, however, I think that it is clear that these packages offer more than just calibration, they are modest Bayesian chronological data interpretation environments. Given this observation, and the fact that the current tools are built on a sound foundation offlexible and scalable theory,I think that we are in a good position to move towards fully integrated tools for Bayesian chronology building. All of the current and planned research projects outlined above will contribute to the extension of the framework in one way or another. Since such work is motivated by a desire to provide practical solutions to real, current and pressing issues associated with chronology building, I feel sure that we can look forward to many more years of fast moving, productive and practical research in Bayesian chronology building. References Ammerman, A. J. and Cavalli-Sforza, 1. L. (1971). Measurement of the rate of spread of early farming in Europe. Man , 6, 674-688. Ammerman, A. J. and Cavalli-Sforza, 1. L. (1984). The Neolithic transition and the genetics of populations in Europe. Princeton University Press, Princeton. Anderson, A. , Allingham, B. and Smith, I. (1996a).
format Texto
topic_facet Statistics.
Geology.
Paleontology.
Bioinformatics.
Statistics.
Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.
Geology.
Paleontology.
Bioinformatics.
author Buck, Caitlin E. editor.
Millard, Andrew R. editor.
SpringerLink (Online service)
author_facet Buck, Caitlin E. editor.
Millard, Andrew R. editor.
SpringerLink (Online service)
author_sort Buck, Caitlin E. editor.
title Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
title_short Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
title_full Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
title_fullStr Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
title_full_unstemmed Tools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries /
title_sort tools for constructing chronologies [electronic resource] : crossing disciplinary boundaries /
publisher London : Springer London : Imprint: Springer,
publishDate 2004
url http://dx.doi.org/10.1007/978-1-4471-0231-1
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spelling KOHA-OAI-TEST:2094182018-07-30T23:41:00ZTools for Constructing Chronologies [electronic resource] : Crossing Disciplinary Boundaries / Buck, Caitlin E. editor. Millard, Andrew R. editor. SpringerLink (Online service) textLondon : Springer London : Imprint: Springer,2004.engIn summary, Bayesian methods are already seen by many as an essential tool to aid in formal chronology building in archaeology. At present, most researchers use packages like OxGal and BGal to make use of such tools and typically see them as radiocarbon calibration tools (indeed both are described as such on their own WWW welcome pages). On reflection, however, I think that it is clear that these packages offer more than just calibration, they are modest Bayesian chronological data interpretation environments. Given this observation, and the fact that the current tools are built on a sound foundation offlexible and scalable theory,I think that we are in a good position to move towards fully integrated tools for Bayesian chronology building. All of the current and planned research projects outlined above will contribute to the extension of the framework in one way or another. Since such work is motivated by a desire to provide practical solutions to real, current and pressing issues associated with chronology building, I feel sure that we can look forward to many more years of fast moving, productive and practical research in Bayesian chronology building. References Ammerman, A. J. and Cavalli-Sforza, 1. L. (1971). Measurement of the rate of spread of early farming in Europe. Man , 6, 674-688. Ammerman, A. J. and Cavalli-Sforza, 1. L. (1984). The Neolithic transition and the genetics of populations in Europe. Princeton University Press, Princeton. Anderson, A. , Allingham, B. and Smith, I. (1996a).1 Bayesian Chronological Data Interpretation: Where Now? -- 2 Pragmatic Bayesians: a Decade of Integrating Radiocarbon Dates into Chronological Models -- 3 Bayesian Inference of Calibration Curves: Application to Archaeomagnetism -- 4 The Synchronization of Civilizations in the Eastern Mediterranean in the Second Millennium BC: Natural Science Dating Attempts -- 5 Applications of Formal Model Choice to Archaeological Chronology Building -- 6 Complicated Relations and Blind Dating: Formal Analysis of Relative Chronological Structures -- 7 Genealogies from Time-Stamped Sequence Data -- 8 Tephrochronology and its Application to Late Quaternary Environmental Reconstruction, with Special Reference to the North Atlantic Islands -- 9 Constructing Chronologies of Sea-Level Change from Salt-Marsh Sediments -- 10 A Framework for Analysing Fossil Record Data -- 11 Taking Bayes Beyond Radiocarbon: Bayesian Approaches to Some Other Chronometric Methods.In summary, Bayesian methods are already seen by many as an essential tool to aid in formal chronology building in archaeology. At present, most researchers use packages like OxGal and BGal to make use of such tools and typically see them as radiocarbon calibration tools (indeed both are described as such on their own WWW welcome pages). On reflection, however, I think that it is clear that these packages offer more than just calibration, they are modest Bayesian chronological data interpretation environments. Given this observation, and the fact that the current tools are built on a sound foundation offlexible and scalable theory,I think that we are in a good position to move towards fully integrated tools for Bayesian chronology building. All of the current and planned research projects outlined above will contribute to the extension of the framework in one way or another. Since such work is motivated by a desire to provide practical solutions to real, current and pressing issues associated with chronology building, I feel sure that we can look forward to many more years of fast moving, productive and practical research in Bayesian chronology building. References Ammerman, A. J. and Cavalli-Sforza, 1. L. (1971). Measurement of the rate of spread of early farming in Europe. Man , 6, 674-688. Ammerman, A. J. and Cavalli-Sforza, 1. L. (1984). The Neolithic transition and the genetics of populations in Europe. Princeton University Press, Princeton. Anderson, A. , Allingham, B. and Smith, I. (1996a).Statistics.Geology.Paleontology.Bioinformatics.Statistics.Statistics for Engineering, Physics, Computer Science, Chemistry and Earth Sciences.Geology.Paleontology.Bioinformatics.Springer eBookshttp://dx.doi.org/10.1007/978-1-4471-0231-1URN:ISBN:9781447102311

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