Dear Colleagues,

This Special Issue is based on the 2022 International Conference on Metrology for Archaeology and Cultural Heritage, Special Session 13 | MetroArchaeo 2022 (metroarcheo.com).

The availability of high-resolution remote sensing and non-destructive testing techniques provides multiscale and multitemporal approaches in the study of ancient settlements and landscapes, the reconstruction of their development over centuries, and their preservation.

Research in both landscape archaeology and diagnosis conservation requires the integration of different techniques of high-resolution remote sensing: satellites (optical and radar data), aerial data (photos, IR and Lidar data) from airplanes and UAVs, ground (integration of different geophysical techniques, field walking, DGPS topographical surveys), and non-destructive testing. The Issue will introduce new field surveys, new approaches, and new integrations and analyses of geo-archaeological data for the study of the archaeological sites to enhance the knowledge of the investigated area related to historical reconstruction, production of tools for preventive archaeology, and preservation of archaeological and monumental heritage; for which, non-invasive diagnosis through micro-geophysics is very useful.

Topics:

• Satellite remote sensing for archaeology using optical and radar data: new perspectives, semiautomatic and automatic approaches for extracting cultural information, the study of the interconnection between environmental changes and dynamics of human frequentation;
• Aerial archaeology: from historical and traditional air photos to IR and Lidar data;
• Integration of ground remote sensing techniques (geophysical prospecting) and field walking and DGPS topographical surveys for the study of ancient settlements and landscapes;
• Integration of non-invasive methods for preservation and protection of monumental heritage (micro-geophysics);
• Integrated geophysical methods in archaeological sites;
• Ancient extreme events in the geo-archaeological record, such as floods, landslides, earthquakes, and tsunamis;
• Climatic and anthropogenic causes of ancient environmental and vegetational changes;
• Managing hillslope instability and soil erosion problems in the past;
• Application and integration of non-invasive EM methods (e.g., GPR, HSR, IR Thermography, etc.) in NDT for in situ analysis of ancient buildings.

Dr. Giovanni Leucci
Dr. Salvatore Piro
Prof. Dr. Nicola Masini
Dr. Sebastiano D’Amico
Guest Editors

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