Remote sensing instruments are changing the nature of archaeological work. No longer are archaeological discoveries done by field work alone. Light Detection and Ranging, or LiDAR, optical imagery and different types of satellite data are giving opportunities for archaeological discoveries in areas which might be inaccessible to archaeologists. Different types of machine learning and deep learning methods are also being applied to remote sensing data, which enables automatic searches to large scale areas for detection of archaeological remains. In this thesis faster R-CNN object detection deep learning frameworks were used to train models and apply these to three types of archaeological remains. LiDAR based Digital Terrain Models were used ...
This paper presents an algorithm for large-scale automatic detection of burial mounds, one of the mo...
Among archaeologists using remote sensing there is tremendous potential for the use of deep learning...
International audienceUntil recently, archeological prospection using LiDAR data was based mainly on...
Remote sensing instruments are changing the nature of archaeological work. No longer are archaeologi...
The preservation and discoveries of ancient structures is an integral part in the understanding of e...
The manual analysis of remotely-sensed data is a widespread practice in local and regional scale arc...
Deep learning for automated detection of archaeological sites (objects) on remote sensing data is a ...
The documentation and protection of archaeological and cultural heritage (ACH) using remote sensing,...
While remote sensing data have long been widely used in archaeological prospection over large areas,...
Machine Learning-based workflows are being progressively used for the automatic detection of archaeo...
This communication article provides a call for unmanned aerial vehicle (UAV) users in archaeology to...
Computer-aided methods for the automatic detection of archaeological objects are needed to cope with...
In recent years, Deep Learning has proven to be an outstanding tool in the field of computer vision ...
Although the history of automated archaeological object detection in remotely sensed data is short,...
Creating a quantitative overview over the early Iron Age heritage of the Eurasian steppes is a diffi...
This paper presents an algorithm for large-scale automatic detection of burial mounds, one of the mo...
Among archaeologists using remote sensing there is tremendous potential for the use of deep learning...
International audienceUntil recently, archeological prospection using LiDAR data was based mainly on...
Remote sensing instruments are changing the nature of archaeological work. No longer are archaeologi...
The preservation and discoveries of ancient structures is an integral part in the understanding of e...
The manual analysis of remotely-sensed data is a widespread practice in local and regional scale arc...
Deep learning for automated detection of archaeological sites (objects) on remote sensing data is a ...
The documentation and protection of archaeological and cultural heritage (ACH) using remote sensing,...
While remote sensing data have long been widely used in archaeological prospection over large areas,...
Machine Learning-based workflows are being progressively used for the automatic detection of archaeo...
This communication article provides a call for unmanned aerial vehicle (UAV) users in archaeology to...
Computer-aided methods for the automatic detection of archaeological objects are needed to cope with...
In recent years, Deep Learning has proven to be an outstanding tool in the field of computer vision ...
Although the history of automated archaeological object detection in remotely sensed data is short,...
Creating a quantitative overview over the early Iron Age heritage of the Eurasian steppes is a diffi...
This paper presents an algorithm for large-scale automatic detection of burial mounds, one of the mo...
Among archaeologists using remote sensing there is tremendous potential for the use of deep learning...
International audienceUntil recently, archeological prospection using LiDAR data was based mainly on...