Download PDFOpen PDF in browserApplication of LiDAR Technology in Remote Sensing of Subterranean Archaeological FeaturesEasyChair Preprint 1424813 pages•Date: August 1, 2024AbstractLight Detection and Ranging (LiDAR) technology has emerged as a transformative tool in the field of remote sensing, offering unprecedented capabilities in the detection and analysis of subterranean archaeological features. This abstract explores the application of LiDAR technology in uncovering and documenting hidden archaeological sites, structures, and artifacts beneath the Earth's surface. By utilizing airborne or ground-based LiDAR systems, researchers can generate high-resolution, three-dimensional representations of landscapes, which reveal subtle topographic variations and anomalies indicative of buried features. This non-invasive approach enhances the efficiency and accuracy of archaeological surveys, reduces the need for extensive excavation, and preserves site integrity. The integration of LiDAR data with Geographic Information Systems (GIS) further augments its analytical potential, allowing for detailed spatial analysis and interpretation of archaeological contexts. The paper reviews case studies demonstrating the effectiveness of LiDAR in diverse geographical settings and highlights its potential for advancing archaeological research, heritage management, and conservation efforts. As LiDAR technology continues to evolve, its application in subterranean archaeology promises to unlock new dimensions of understanding about past human activities and cultural landscapes. Keyphrases: Application of LiDAR Technology, Technology, computing
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