论文信息 - New Methods and Critical Aspects in Bayesian Mathematics for 14C Calibration

New Methods and Critical Aspects in Bayesian Mathematics for 14C Calibration

The probabilistic radiocarbon calibration approach, which largely has replaced the intercept method in 14C dating, is based on the so-called Bayes' theorem (Bayes 1763). Besides single-sample calibration, Bayesian mathematics also supplies tools for combining 14C results of many samples with independent archaeological information such as typology or stratigraphy (Buck et al. 1996). However, specific assumptions in the “prior probabilities”, used to transform the archaeological information into mathematical probability distributions, may bias the results (Steier and Rom 2000). A general technique for guarding against such a bias is “sensitivity analysis”, in which a range of possible prior probabilities is tested. Only results that prove robust in this analysis should be used. We demonstrate the impact of this method for an assumed, yet realistic case of stratigraphically ordered samples from the Hallstatt period, i.e. the Early Iron Age in Central Europe.

[1] J. W. Beck,et al. INTCAL98 Radiocarbon Age Calibration, 24,000–0 cal BP , 1998, Radiocarbon.

[2] T. Bayes. An essay towards solving a problem in the doctrine of chances , 2003 .

[3] Christopher Bronk Ramsey,et al. Radiocarbon Calibration and Analysis of Stratigraphy: The OxCal Program , 1995, Radiocarbon.

[4] L. M. M.-T.. Theory of Probability , 1929, Nature.

[5] J. van der Plicht,et al. ‘Wiggle Matching’ Radiocarbon Dates , 2001, Radiocarbon.

[6] James O. Berger,et al. A Catalog of Noninformative Priors , 1996 .

[7] C. D. Litton,et al. Bayesian Approach to Interpreting Archaeological Data , 1996 .

[8] Christopher Bronk Ramsey,et al. DEVELOPMENT OF THE RADIOCARBON CALIBRATION PROGRAM , 2001 .

[9] Christopher Bronk Ramsey,et al. Comment on ‘The Use of Bayesian Statistics for 14C Dates of Chronologically Ordered Samples: A Critical Analysis’ , 2000, Radiocarbon.

[10] James O. Berger. Statistical Decision Theory , 1980 .

[11] D Malakoff,et al. Bayes Offers a 'New' Way to Make Sense of Numbers , 1999, Science.

[12] C. D. Litton,et al. Theory of Probability (3rd Edition) , 1984 .

[13] James O. Berger,et al. An overview of robust Bayesian analysis , 1994 .

[14] Peter Steier,et al. The Use of Bayesian Statistics for 14C Dates of Chronologically Ordered Samples: A Critical Analysis , 2000, Radiocarbon.