Difficulties tracing and interpreting patterns in compositional data of metal artefacts. Why are the more complex methods not always useful?

0532915 - ARÚ 2021 CZ eng A - Abstrakt
Pajdla, P. - Danielisová, Alžběta - Bursák, Daniel - Strnad, L. - Trubač, J.
Difficulties tracing and interpreting patterns in compositional data of metal artefacts. Why are the more complex methods not always useful?
26th EAA Virtual Annual Meeting. Abstract book. Prague: European Association of Archaeologists, 2020 - (Kleinová, K.). s. 469. ISBN 978-80-907270-7-6.
[Virtual Annual Meeting of the European Association of Archaeologists /26./. 24.08.2020-30.08.2020, online]
Grant CEP: GA ČR(CZ) GA18-20096S
Institucionální podpora: RVO:67985912
Klíčová slova: chemical composition * lead isotopes * provenance analysis * unsupervised learning * Iron Age
Obor OECD: Archaeology
https://submissions.e-a-a.org/eaa2020/repository/preview.php?Abstract=3519

Element compositions and isotope signals of metal artefacts represent a nice example of what can be designated as large datasets, especially in terms of the substantial number of features. In archaeology, we usually want to get insights about the provenance of the artefacts, consistency of the studied assemblage in terms of raw materials and employed technology, the similarity with other available assemblages from the given period etc. In terms of machine learning, various unsupervised learning methods are of help here. Feature selection and dimensionality reduction are usually followed by the application of various clustering methods to find meaningful groups in the dataset. In the case study on a hoard of various artefacts from the La Tène period (4th – 1st century BC), we would like to illustrate some of the difficulties we faced while analysing the data by different unsupervised learning methods. The use of more complex statistical methods is not always leading to better interpretability of the results in archaeology terms. In our case, sticking to less complicated machine learning methods proved useful in interpreting the results both in archaeological and raw material provenance terms. The data analysis is implemented in an R environment ensuring reproducibility of the analysis.
Trvalý link: http://hdl.handle.net/11104/0311290