Litcius/Paper detail

Low-cost 3D scanning systems for cultural heritage documentation

Q Gautier, Thomas G. Garrison, Ferrill Rushton, Nicholas Bouck, Eric Lo, Peter Tueller, Curt Schurgers, Ryan Kastner

2020Journal of Cultural Heritage Management and Sustainable Development29 citationsDOI

Abstract

Purpose Digital documentation techniques of tunneling excavations at archaeological sites are becoming more common. These methods, such as photogrammetry and LiDAR (Light Detection and Ranging), are able to create precise three-dimensional models of excavations to complement traditional forms of documentation with millimeter to centimeter accuracy. However, these techniques require either expensive pieces of equipment or a long processing time that can be prohibitive during short field seasons in remote areas. This article aims to determine the effectiveness of various low-cost sensors and real-time algorithms to create digital scans of archaeological excavations. Design/methodology/approach The authors used a class of algorithms called SLAM (Simultaneous Localization and Mapping) along with depth-sensing cameras. While these algorithms have largely improved over recent years, the accuracy of the results still depends on the scanning conditions. The authors developed a prototype of a scanning device and collected 3D data at a Maya archaeological site and refined the instrument in a system of natural caves. This article presents an analysis of the resulting 3D models to determine the effectiveness of the various sensors and algorithms employed. Findings While not as accurate as commercial LiDAR systems, the prototype presented, employing a time-of-flight depth sensor and using a feature-based SLAM algorithm, is a rapid and effective way to document archaeological contexts at a fraction of the cost. Practical implications The proposed system is easy to deploy, provides real-time results and would be particularly useful in salvage operations as well as in high-risk areas where cultural heritage is threatened. Originality/value This article compares many different low-cost scanning solutions for underground excavations, along with presenting a prototype that can be easily replicated for documentation purposes.

Topics & Concepts

LidarDocumentationCultural heritageComputer scienceExcavationPhotogrammetryPoint cloudRemote sensingLaser scanningRangingTotal stationArchaeologyArtificial intelligenceGeographyTelecommunicationsCartographyOpticsProgramming languageLaserPhysics3D Surveying and Cultural HeritageRobotics and Sensor-Based LocalizationRemote Sensing and LiDAR Applications