This paper aims to present the application of a new tool for the identification and analysis of crop-marks in archaeological contexts. Multispectral drone remote sensing, which is currently mainly used in agronomic contexts, has been shown to guarantee great advantages and opportunities in the archaeological field, both from an economic and scientific point of view, in identifying the presence of archaeological evidence not visible to the human eye. The use of multispectral cameras makes it possible to record the electromagnetic response of plants in the field of near infrared waves, allowing for the detection of particular anomalies in the subsoil that prevent the homogeneous growth of vegetation. By processing the data recorded through the use of different vegetation indices, it is possible to distinguish any anomalies related to anthropogenic buried remains. Drones offers enormous advantages to archaeological practitioners, significantly reducing flight costs, allowing repeated applications of techniques and also the possibility of flying at significantly lower altitudes than aircrafts in order to obtain higher detail images. The experimental application of this technique on a portion of the Campetti area at the site of the ancient Etruscan center of Veii has shown how, even with a single flight performed slightly later than the ideal time frame for application, it was possible to detect a considerable amount of particularly significant traces from the point of view of the archaeological analysis of the site. The possibility of integrating this new methodology with different techniques (survey with surface collection of materials, targeted excavation tests, analysis of the subsoil with geophysical investigation methods, use of thermal sensors), alongside precise planning, clearly represents a significant advance in the cognitive potential for archaeological research.
Novità dall'area urbana di Veio. Telerilevamento multispettrale da drone e indici di vegetazione: nuovi strumenti per l'identificazione dei crop-mark dall'area di Campetti
Marco Pacifici
2020-01-01
Abstract
This paper aims to present the application of a new tool for the identification and analysis of crop-marks in archaeological contexts. Multispectral drone remote sensing, which is currently mainly used in agronomic contexts, has been shown to guarantee great advantages and opportunities in the archaeological field, both from an economic and scientific point of view, in identifying the presence of archaeological evidence not visible to the human eye. The use of multispectral cameras makes it possible to record the electromagnetic response of plants in the field of near infrared waves, allowing for the detection of particular anomalies in the subsoil that prevent the homogeneous growth of vegetation. By processing the data recorded through the use of different vegetation indices, it is possible to distinguish any anomalies related to anthropogenic buried remains. Drones offers enormous advantages to archaeological practitioners, significantly reducing flight costs, allowing repeated applications of techniques and also the possibility of flying at significantly lower altitudes than aircrafts in order to obtain higher detail images. The experimental application of this technique on a portion of the Campetti area at the site of the ancient Etruscan center of Veii has shown how, even with a single flight performed slightly later than the ideal time frame for application, it was possible to detect a considerable amount of particularly significant traces from the point of view of the archaeological analysis of the site. The possibility of integrating this new methodology with different techniques (survey with surface collection of materials, targeted excavation tests, analysis of the subsoil with geophysical investigation methods, use of thermal sensors), alongside precise planning, clearly represents a significant advance in the cognitive potential for archaeological research.File | Dimensione | Formato | |
---|---|---|---|
Materazzi_:Novita_2021.pdf
non disponibili
Dimensione
5.2 MB
Formato
Adobe PDF
|
5.2 MB | Adobe PDF | Visualizza/Apri Richiedi una copia |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.