2025 Winton-Schaad Prescribed Burn: LiDAR Data Directory

This directory contains a structured collection of laser scanning data for the 2025 Winston-Schaad Prescribed Burn study site. It provides a multi-scale structural record by integrating ground-level Terrestrial Laser Scanning (TLS) data with landscape-scale Airborne Laser Scanning (ALS) data.The directory is organized into specific sub-folders to support different stages of the research workflow:Full Project Archive (.zip): A single compressed file containing the entire directory structure and all associated resources for offline use.ALS Directory: Aerial LiDAR data providing the topographic and landscape-level baseline.Original TLS Directory: Raw, high-resolution terrestrial scans (.ptx) in their original sensor coordinate system.Transformations Directory: Georeferencing parameters and matrices used to align terrestrial scans to the global ALS coordinate system.Aligned TLS Directory: Processed terrestrial point clouds (.laz) that have been spatially corrected and are ready for integrated analysis.Merged & Subsampled Products: Site-wide point clouds, including a performance-optimized 1mm subsampled version for high-efficiency modeling.Description created in assistance with Gemini.

Data and Resources

Full Site Archive (.zip)
Complete Project Bundle. Contains the entire directory structure, including...
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ALS/Landscape Context
Regional aerial LiDAR providing the topographic baseline for the study area.
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Original TLS (Raw)
High-density raw scanner output (.ptx) in local coordinate space; best for...
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Transformations
Mathematical parameters used to shift ground scans into the global coordinate...
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Aligned & Merged Clouds
The primary analysis products. Includes individual georeferenced scans.
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Subsampled Analysis Cloud
A performance-optimized version of the merged site data, decimated to 1mm...
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Site-Wide Merged Point Cloud
The primary 3D output for the study site. This file represents the complete...
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Burn Unit Directory
This directory contains georeferenced vector boundaries defining the specific...
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Additional Info

Field	Value
Last Updated	March 11, 2026, 06:31 (UTC)
Created	March 11, 2026, 03:37 (UTC)
creationMethod	<p>Individual terrestrial laser scans (TLS) were aligned to a georeferenced airborne LiDAR (ALS) baseline using Cloud-to-Cloud (C2C) registration. The resulting point clouds were merged, spatially filtered to a 1mm subsampled density, and compressed into LAZ format for analysis.</p>
dataAuthType	public
dataType	LAZ, PTX, TXT
datasetPageUrl	https://wifire-data.sdsc.edu/nc/s/ucca-winton-schaad
issueDate	2026-01-23
lang	en
lastUpdateDate	2026-01-25
ndp_creator_md5	e22ccfac8fe6a68759e60ced39f231b9
pocEmail	wifire@sdsc.edu
pocName	UC Climate Action (UCCA) Project Team at San Diego Supercomputer Center, UC San Diego
purpose	<p>To quantify fine-scale vegetation architecture and surface fuel characteristics. This directory facilitates "scaling up" ground-level observations (TLS) to landscape-level management units (ALS), allowing for the modeling of fire behavior, carbon sequestration, and habitat complexity.</p><p><br></p><p><strong><em>Purpose statement created in assistance with Gemini</em></strong>.</p>
status	submitted
theme	["geospatial-science","forest-ecology"]
updateFreq	As needed
uploadType	dataset