Potential and limitations of LiDAR altimetry in archaeological survey. Copper Age and Bronze Age settlements in southern Iberia

Potential and limitations of LiDAR altimetry in archaeological survey. Copper Age and Bronze Age settlements in southern Iberia is …
instance of (P31):
scholarly articleQ13442814

External links are
P356DOI10.1002/ARP.1869
P953full work available at URLhttp://dx.doi.org/10.1002/arp.1869
https://onlinelibrary.wiley.com/doi/pdf/10.1002/arp.1869

P50authorLeonardo García SanjuánQ47070988
P2093author name stringTimoteo Rivera Jiménez
Francisco Sánchez Díaz
P2860cites workUncovering archaeological landscapes at Angkor using lidarQ30542142
Airborne LiDAR, archaeology, and the ancient Maya landscape at Caracol, BelizeQ47849754
Ancient lowland Maya complexity as revealed by airborne laser scanning of northern GuatemalaQ57147756
Satellite Remote SensingQ58190381
Following the Roman Army between the Southern Foothills of the Cantabrian Mountains and the Northern Plains of Castile and León (North of Spain): Archaeological Applications of Remote Sensing and Geospatial ToolsQ105339306
LiDAR for Archaeological Landscape Analysis: A Case Study of Two Eighteenth-Century Maryland Plantation SitesQ106784768
Using LiDAR to detect cultural resources in a forested environment: an example from Isle Royale National Park, Michigan, USAQ106784771
Airborne lidar and historic environment recordsQ106784774
An observational and theoretical framework for interpreting the landscape palimpsest through airborne LiDARQ106784815
Counting with the invisible record? The role of LiDAR in the interpretation of megalithic landscapes in south‐western Iberia (Extremadura, Alentejo and Beira Baixa)Q106784824
Geoarchaeological Characterisation of Sites of Iberian and Roman Cordoba Using LiDAR Data AcquisitionsQ106784830
UAS-Based Archaeological Remote Sensing: Review, Meta-Analysis and State-of-the-ArtQ106784835
Combining Deep Learning and Location-Based Ranking for Large-Scale Archaeological Prospection of LiDAR Data from The NetherlandsQ106784836
Combined Detection and Segmentation of Archeological Structures from LiDAR Data Using a Deep Learning ApproachQ106784842
An approach to the automatic surveying of prehistoric barrows through LiDARQ112256187
Italy’s Hidden Hillforts: A Large-Scale Lidar-Based Mapping of SamniumQ112269377
Lidar survey of ancient Maya settlement in the Puuc region of Yucatan, MexicoQ112273314
Lidar reveals pre-Hispanic low-density urbanism in the Bolivian AmazonQ112557710
Revealing Archaeological Sites under Mediterranean Forest Canopy Using LiDAR: El Viandar Castle (husum) in El Hoyo (Belmez-Córdoba, Spain)Q113206399
Now You See It… Now You Don’t: Understanding Airborne Mapping LiDAR Collection and Data Product Generation for Archaeological Research in MesoamericaQ114149337
Archaeological Ground Point Filtering of Airborne Laser Scan Derived Point-Clouds in a Difficult Mediterranean EnvironmentQ114149343
LiDAR from drones employed for mapping archaeology - Potential, benefits and challengesQ114149350
Airborne laser scanning as a method for exploring long-term socio-ecological dynamics in CambodiaQ114149351
Documentation of Archaeology-Specific Workflow for Airborne LiDAR Data ProcessingQ114149354
Aerial remote-sensing techniques used in the management of archaeological monuments on the British Army's Salisbury Plain Training Area, Wiltshire, UKQ119410756
A Comparison of Visualization Techniques for Models Created from Airborne Laser Scanned DataQ119411702
The La Bastida fortification: new light and new questions on Early Bronze Age societies in the western MediterraneanQ126372278
P275copyright licenseCreative Commons Attribution 4.0 InternationalQ20007257
P6216copyright statuscopyrightedQ50423863
P433issue4
P921main subjectarchaeologyQ23498
P304page(s)525-544
P577publication date2022-06-16
P1433published inArchaeological ProspectionQ15760478
P1476titlePotential and limitations of LiDAR altimetry in archaeological survey. Copper Age and Bronze Age settlements in southern Iberia
P478volume29

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