absolute and relative dating examples - Uranium lead dating artifact trackback uri closed

In April 2014 I published a guest article about statistical methods applicable to radiocarbon dating, which criticised existing Bayesian approaches to the problem.

uranium lead dating artifact trackback uri closed-84

It is this nonlinearity that causes the difficulties I focussed on.

Both the radiocarbon determination and the calibration curve are uncertain, but errors in them are random and in practice can be combined.

A calibration program is used to derive estimated calendar age probability density functions (PDFs) and uncertainty ranges from a radiocarbon determination.

The standard calibration program Ox Cal that I concentrated on uses a subjective Bayesian method with a prior that is uniform over the entire calibration period, where a single artefact is involved.

Calendar age uncertainty ranges for an artefact whose radiocarbon age is determined (subject to measurement error) can be derived from the resulting posterior PDFs.

They can be constructed either from one-sided credible intervals (finding the values at which the cumulative distribution function (CDF) – the integral of the PDF – reaches the two uncertainty bound probabilities), or from highest probability density (HPD) regions containing the total probability in the uncertainty range.In the subjective Bayesian paradigm, probability represents a purely personal degree of belief.That belief should reflect existing knowledge, updated by new observational data.However, even if that body of knowledge is common to two people, their probability evaluations are not required to agree,[2] and may for neither of them properly reflect the knowledge on which they are based.I do not regard this as a satisfactory paradigm for scientific inference.I advocated taking instead an objective Bayesian approach, based on using a computed “noninformative prior” rather than a uniform prior.

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