, A Comparison of Visualization Techniques for Models Created from Airborne Laser Scanned Data, Archaeological Prospection, vol.19, pp.41-48, 2012.
, As far as the laser can reach?: laminar analysis of LiDAR detected structures as a powerful instrument for archaeological heritage management, Europae Archaeologia Consilium (EAC), pp.161-171, 2011.
, Regional-scale archaeological remote sensing in the age of big data: automated site discovery vs. brute force methods, Adv. Archaeol. Pract, pp.222-233, 2014.
, A generic toolkit for the visualization of archaeological features on airborne lidar elevation data, Archaeological Prospection, vol.18, issue.4, pp.279-289, 2011.
, The use of LiDAR in understanding the ancient Maya landscape: Caracol and Western Belize, Adv. Archaeol. Pract, vol.2, issue.3, pp.147-160, 2014.
, with the new, out with the old? Auto-extraction for remote sensing archaeology, vol.8532, pp.26-27, 2012.
, The Light Fantastic: Using Aiborne Lidar in Archaeological Survey, p.45, 2009.
, Voyage d'Auvergne. Chez Eugène Onfroy, 1788.
, Using pattern recognition to search LIDAR data for archeological sites, The World is in Your Eyes. CAA2005. Computer Applications and Quantitative Methods in Archaeology. Proceedings of the 33rd Conference, pp.245-254, 2005.
, The potential of airborne LiDAR for detection of archaeological features under woodland canopies, Antiquity, vol.79, pp.648-660, 2005.
, Visualisation of LiDAR terrain models for archaeological feature detection, Antiquity, vol.82, pp.470-479, 2008.
, Advancement in Automatic Monitoring and Detection of Archaeological Sites Using a Hybrid Process of Remote Sensing, GIS Techniques and a Shape Detection Algorithm, Remote Sensing for Science, Education and Natural and Cultural Heritage, ARSeL, 2010.
, Openness as vizualisation technique for interpretative mapping of airborne LiDAR derived, Digital Terrain Models. Remote Sensing, vol.5, pp.6427-6442, 2013.
, Full-waveform airborne laser scanning as a tool for archaeological reconnaissance, From Space to Place, 2. International Conference on Remote Sensing in Archaeology, pp.99-106, 2006.
, Interpreting Archaeological Topography. Airborne Laser Scanning, 3D Data and Ground Observation, vol.5, pp.32-50, 2013.
, Archaeological prospection of forested areas using full-waveform airborne laser scanning, J. Archaeol. Sci, vol.35, issue.4, pp.882-893, 2008.
, Archaeological trace extraction by a local directional active contour approach, Pattern Recognition, vol.45, pp.3427-3438, 2012.
, Uncovering Archaeological Landscapes at Angkor Using LiDAR, Poceedings of the National Academy of Science, vol.110, pp.12595-12600, 2013.
, An introduction to ROC analysis, Pattern Recognition Letters, vol.27, pp.861-874, 2006.
, Automatic detection of small spherical lesions using multi-scale approach in 3D medical images, International conference on image processing (ICIP), pp.1158-1152, 2013.
, Semi-automatic detection of linear archaeological traces fromorthorectified aerial images, International Journal of Applied Earth Observation and Geoinformation, vol.26, pp.458-463, 2014.
, Reconstructing the ancient Chaîne de Puys cultural landscape (Auvergne, France) through Landscape Archaeology and airborne LIDAR data: the LIDARCHEO Projet, 2013.
, Archaeomophological approaches and LIDAR data analysis to study a hidden mid-mountain cultural Landscape. The study case of Puy-de, 2014.
, La vie pastorale dans les montagnes du Centre de la France, Recherches historiques et archéologiques. Bulletin historique et scientifique de l'Auvergne, vol.91, pp.199-358, 1983.
, Le lidar: une technique de détection au service de l'archéologie. Techniques de l'Ingenieur, p.215, 2014.
, LiDAR-derived Local Relief Models -a new tool for archaeological prospection, Archaeological Prospection, vol.17, pp.67-72, 2010.
, Revealing Celtic fields from LiDAR data using Kriging based filtering, Proceedings of the ISPRS Commission V Symposium 'Image Engineering and Vision Metrology, vol.XXXVI, pp.25-27, 2006.
, Calculation of hydrologically sound digital elevation models, Third International Symposium on Spatial Data Handling, 1988.
, Rediscovering the lost archaeological landscape of southern New England using airborne light detection and ranging (LiDAR), Journal of Archaeological Science, vol.43, pp.9-20, 2014.
, Automated crater detection, a new tool for Mars cartography and chronology. Photogrammetric Engineering & Remote Sensing, vol.71, pp.1205-1217, 2005.
, Application of sky-view factor for the visualisation of historic landscape features in LiDAR-derived relief models, Antiquity, vol.85, pp.263-273, 2011.
, Determination of terrain models in wooded areas with airborne laser scanner data, ISPRS Journal of Photogrammetry and Remote Sensing, vol.53, pp.193-203, 1998.
, Automatic detection of circular depressions in digital elevation data in the search for potential Norwegian impact structures, Norwegian Journal of Geology, vol.87, pp.157-166, 2007.
, Flights into the past: full-waveform airborne laser scanning data for archaeological investigation, J. Archaeol. Sci, vol.38, issue.9, pp.2061-2070, 2011.
, Beyond modern landscape features: New insights in the archaeological area of Tiwanaku in Bolivia from satellite data, International Journal of Applied Earth Observation and Geoinformation, vol.26, pp.464-471, 2014.
, Airborne laser scanning of historical wood charcoal production sites -a new tool of kiln site anthropology at the landscape level. Saguntum Extra, vol.13, pp.23-24, 2012.
, On the airborne lidar contribution in archaeology: from site identification to landscape investigation, Laser Scanning, 2011.
, Airborne lidar survey of irrigated agricultural landscapes: an application of the slope contrast method, J. Archaeol. Sci, vol.38, pp.2141-2154, 2011.
, Lidar Investigation of Knockdhu Promontory and Its Environs, vol.21, pp.263-76, 2014.
, Interpreting Archaeological Topography: Lasers, 3D Data, Observation, Visualisation, and applications, 2013.
, Automatic Detection of Eggshell Defects Based on Machine Vision, Journal of Animal and Veterinary Advances, vol.7, issue.10, pp.1200-1203, 2008.
, Efficient Hough transform for automatic detection of cylinders in point clouds. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, vol.36, pp.60-65, 2005.
, Automated Crater Detection, A New Tool for Mars Cartography and Chronology, Photogrammetric Engineering & Remote Sensing, vol.71, pp.1205-1217, 2005.
, Relief Visualization Toolbox (RVT), 2015.
, Using airborne LiDAR in geoarchaeological contexts: Assessment of an automatic tool for the detection and the morphometric analysis of grazing archaeological structures, European Geosciences Union, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01116076
, Paysages et architecture rurale entre Dômes, Sancy et Artense. Cantons de Rochefort Montagne, 2001.
, A template-matching approach combining morphometric variables for automated mapping of charcoal kiln sites. Archaeological prospection, vol.22, pp.45-62, 2014.
, Pixel versus object -A comparison of strategies for the semi-automated mapping of archaeological features using airborne laser scanning data, Journal of Archaeological Science Reports, vol.5, pp.485-498, 2016.
, Residential patterning at Angkor Wat, Antiquity, vol.89, issue.348, pp.1439-1455, 2015.
, Visualization of Lidar-Derived Relief Models for Detection of Archaeological Features, Journal of Archaeological Science, vol.39, pp.3354-60, 2012.
URL : https://hal.archives-ouvertes.fr/halshs-00743691
, Automatic detection and tracking of human heads using an active stereo vision system, International Journal of Pattern Recognition and Artificial Intelligence, vol.14, pp.137-166, 2000.
, Automatic detection and characteristics extraction of archaeological structures using coupled Geographic Information System software and Scilab, th International SCILAB users conference SCILABTEC, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01112566
, Automatic detection of pit structures in airborne laser scanning data, Archaeol. Prospect, vol.19, issue.2, pp.103-121, 2012.
, Automatic detection of mound structures in airborne laser scanning data, J. Archaeol. Sci, vol.2, pp.69-79, 2015.
, Slope based filtering of laser altimetry data, Proceedings of the International Archives of Photogrammetry and Remote Sensing, vol.33, pp.935-942, 2000.
, Automatic extraction of lunar impact craters from Chang'E-1 satellite photographs, Physics, Mechanics & Astronomy, vol.55, issue.1, pp.162-169, 2012.
, A progressive morphological filter for removing nonground measurements from airborne LiDAR data, IEEE Trans. Geosci. Remote Sens, pp.872-882, 2003.
, An improved morphological filter for selecting relief points from a LIDAR point cloud in steep areas with dense vegetation, Institute of Anthropological and Spatial Studies, 2006.
, Sky-View Factor as a relief vizualisation technique. Remote sensing, vol.3, pp.398-415, 2011.
, Relief Visualization Toolbox, version 1.1, Manual, 2014.