A Bayesian alternative for aoristic analyses in archaeology

IF 1.5 3区地球科学 0 ARCHAEOLOGY

Archaeometry Pub Date : 2024-05-16 DOI:10.1111/arcm.12984

Enrico R. Crema

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Abstract

Aoristic analysis is often used to handle chronological uncertainties of datasets where scientific dates (e.g., ¹⁴C and OSL) are unavailable, and observations are described by association to archaeological periods or phases. Although several advances have been made over the last 2 decades, the basic principle of this approach remains fundamentally the same. Temporal windows of analyses are first divided into regularly sized time blocks, and probability weight is assigned to each of these for every observation. Weights are then aggregated by time block, and the resulting vector of summed probabilities is interpreted as a curve representing changes in the intensity over time of a particular phenomenon. This paper reviews the basic principles and assumptions of aoristic analyses in archaeology, highlighting several issues with its application and interpretation, advocating for a Bayesian alternative implemented via baorista, a new package written in R statistical computing language. The robustness of the proposed solution is evaluated through a series of experiments based on simulated datasets, which showcase key advantages over aoristic analysis. Two specific solutions are considered: a parametric approach where data are fitted to specific growth models and a nonparametric approach that allows for the visualisation of the changing frequencies of events, accounting for sampling error and the peculiarities of archaeological periodisation.

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考古学先验分析的贝叶斯替代方法

在无法获得科学日期（如 14C 和 OSL）的情况下，追溯分析通常用于处理数据集的年代不确定性，并通过与考古时期或阶段的关联来描述观测结果。尽管在过去 20 年中取得了一些进展，但这一方法的基本原理从根本上说是相同的。首先将分析的时间窗口划分为大小有规律的时间块，并为每个观测值分配概率权重。然后按时间块对权重进行汇总，得出的概率总和向量被解释为一条曲线，代表特定现象的强度随时间的变化。本文回顾了考古学中先验分析的基本原理和假设，强调了其应用和解释中的几个问题，并主张通过用 R 统计计算语言编写的新软件包 baorista 实现贝叶斯替代方法。通过一系列基于模拟数据集的实验，对所提出解决方案的稳健性进行了评估，这些实验展示了与先验分析相比的主要优势。我们考虑了两种具体的解决方案：一种是将数据拟合到特定增长模型中的参数方法，另一种是考虑到抽样误差和考古学时期划分的特殊性，允许事件频率变化可视化的非参数方法。

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来源期刊

Archaeometry 地学-地球科学综合

CiteScore

3.60

自引率

12.50%

发文量

105

审稿时长

6 months

期刊介绍： Archaeometry is an international research journal covering the application of the physical and biological sciences to archaeology, anthropology and art history. Topics covered include dating methods, artifact studies, mathematical methods, remote sensing techniques, conservation science, environmental reconstruction, biological anthropology and archaeological theory. Papers are expected to have a clear archaeological, anthropological or art historical context, be of the highest scientific standards, and to present data of international relevance. The journal is published on behalf of the Research Laboratory for Archaeology and the History of Art, Oxford University, in association with Gesellschaft für Naturwissenschaftliche Archäologie, ARCHAEOMETRIE, the Society for Archaeological Sciences (SAS), and Associazione Italian di Archeometria.