Integrated Geomatic Techniques for Georeferencing and Reconstructing the Position of Underground Archaeological Sites: The Case Study of the Augustus Sundial (Rome)

Valerio Baiocchi,Marta Baumgartner,Matteo Onori,Raffaella Brigante,Silvio Del Pizzo,Grazia Tosi,Salvatore Troisi,Francesca Giannone,Aurelio Stoppini,Fabio Radicioni

doi:10.3390/rs12244064

Abstract

A large part of the archaeological remains still to be discovered and excavated are not in remote and depopulated areas of the earth but are often beneath urban centres that have buried them with centuries of debris and later constructions. Excavating in these contexts is much more complex than digging in rural or sparsely inhabited areas because of the constraints imposed by existing buildings and infrastructure. It should also be considered that within an urbanised area, any archaeological remains are concentrated in the subsoil of the historic centre, which is, therefore, often surmounted by buildings that are more recent than the remains but historical as well, and thus, of considerable value and vulnerability. For this reason, an archaeological excavation in an urban area must be preceded by a real feasibility study, where the potential risks for the structures above are minimised and accurately quantified. In many situations, as in the case under study, the discovery of a small segment of a structure is the only clue to reconstruct the development of the remaining part still to be excavated, which may stretch tens or hundreds of metres away from the measurable part. As a consequence, an error of a few centimetres in the survey of the excavated part can lead to errors of metres in estimating the positions of the far parts still to be excavated, and this, in many cases, as in the one under study, must absolutely be avoided. In practice, high-precision geomatic surveys, in support of the archaeological and historical interpretation of the observable structures, will help to establish the exact locations to possibly continue the excavations, helping the accurate planning of the excavation itself. Here, we have shown how the various techniques, compared to each other, have made it possible to reconstruct the location of a short stretch (less than 7 m) of the Emperor Augustus’ Sundial, the only currently visible evidence of a scientific instrument of imposing dimensions (tens of metres in length and height) that served to define some of the characteristics of the calendar that we still use today. The portion of the sundial currently observable, according to the most reliable hypotheses, is located approximately at one end of a structure and extends for several tens of metres. The accurate positioning of the observable parts in a geodetic reference system will enable to identify with certainty the possible areas in which excavation may continue and will also allow to accurately reconstruct the principle of operation of the sundial through an approach that could be defined as “reverse engineering” of the scientific instrument itself. The aim of this work is to study and thus define the combination and integration of existing geomatic techniques for this specific field of application.

Highlights

Some of the most important archaeological remains in the world are found underground in urban centres with a high population density where the succession of demolitions and reconstructions in subsequent periods has caused the progressive burial of archaeological remains
Reference is made to a case of application consisting of the survey of a portion of the so-called “Augustus sundial” in the subsoil of Rome
The aim of this research is to evaluate various geomatic techniques for this specific field of application, among which the comparison between laser scanning techniques and photogrammetric techniques based on the more recent and less consolidated “structure from motion” (SFM) approach that is of particular interest [1]

Summary

Introduction

Some of the most important archaeological remains in the world are found underground in urban centres with a high population density where the succession of demolitions and reconstructions in subsequent periods has caused the progressive burial of archaeological remains. In the centre of Rome, a specific rule of the Papal State imposed for centuries determined that new buildings had to be built on Roman foundations where possible, and over the centuries this has further complicated the present investigation and recovery of Roman structures This stratification of building on buildings of different eras has, occurred in Rome or Italy and in many other European and non-European countries, such as Egypt, Peru and Mexico, to name but a few; specific procedures are of great interest. These procedures could allow for "surgical" interventions as circumscribed and limited as possible in urban areas. Reference is made to a case of application consisting of the survey of a portion of the so-called “Augustus sundial” in the subsoil of Rome

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