论文信息 - Detection of a low‐relief 18th‐century British siege trench using LiDAR vegetation penetration capabilities at Fort Beauséjour–Fort Cumberland National Historic Site, Canada

Detection of a low‐relief 18th‐century British siege trench using LiDAR vegetation penetration capabilities at Fort Beauséjour–Fort Cumberland National Historic Site, Canada

Airborne Light Detection and Ranging (LiDAR), a remote sensing data collection technique, has many applications in the field of archaeology, including aiding in the planning of field campaigns, mapping features beneath forest canopy, and providing an overview of broad, continuous features that may be indistinguishable on the ground. LiDAR was used to create a high-resolution digital elevation model (DEM) in a heavily vegetated area at Fort Beausejour–Fort Cumberland National Historic Site, Canada. Previously undiscovered archaeological features were mapped that were related to the siege of the fort in 1755. Features that could not be distinguished on the ground or through aerial photography were identified by overlaying hillshades of the DEM created with artificial illumination from various angles. LiDAR provides accurate digital topographic models with the additional benefit of mapping vertical surfaces in accurate detail below the forest canopy. © 2009 Wiley Periodicals, Inc.

[1] Colin Shell,et al. Exploring the loughcrew landscape: a new airborne approach , 2004 .

[2] B. Devereux,et al. Woodland vegetation and its implications for archaeological survey using LiDAR , 2007 .

[3] Tim Webster,et al. Mapping subtle structures with light detection and ranging (LIDAR): flow units and phreatomagmatic rootless cones in the North Mountain Basalt, Nova Scotia , 2006 .

[4] A. Cliff,et al. The potential of airborne lidar for detection of archaeological features under woodland canopies , 2005, Antiquity.

[5] Simon Crutchley,et al. Light detection and ranging (lidar) in the Witham Valley, Lincolnshire: an assessment of new remote sensing techniques , 2006 .

[6] W. W. Carson,et al. Accuracy of a high-resolution lidar terrain model under a conifer forest canopy , 2003 .

[7] Aloysius Wehr,et al. Airborne laser scanning—an introduction and overview , 1999 .

[8] S. Crutchley,et al. New light on an ancient landscape: lidar survey in the Stonehenge World Heritage Site , 2005, Antiquity.

[9] Ian Barnes,et al. Aerial remote‐sensing techniques used in the management of archaeological monuments on the British Army's Salisbury Plain Training Area, Wiltshire, UK , 2003 .

[10] S. Prince,et al. LiDAR for Archaeological Landscape Analysis: A Case Study of Two Eighteenth-Century Maryland Plantation Sites , 2006, American Antiquity.

[11] R. Bewley. Aerial survey for archaeology , 2003 .