Enterprise AI Analysis
TreePS: Tree-Based Positioning in Forests Using Map Matching and Co-Registration of Lidar-Derived Stem Locations
Artificial intelligence (AI), cloud computing, robotics, automation, and remote sensing technologies are all contributing to digital transformation in forestry. Improving on low-accuracy Global Navigation Satellite Systems (GNSS) positioning affected by multipath error and interception under forest canopies is critical for integrating smart and digital technologies into equipment in forest operations. In an era where lidar-derived individual tree locations are now increasingly available in digital forest inventories, a possible alternative approach to positioning resources such as people or equipment accurately could be to match locally-measured tree positions and attributes in the forest with an existing global reference map based on prior remote sensing missions, effectively using the trees themselves as satellites to circumvent the need for GNSS-based positioning. We evaluated a lidar-based alternative to GNSS positioning using predicted tree positions from local terrestrial laser scanning (TLS) matched with a global stem map derived from prior airborne laser scanning (ALS), a methodology we refer to as TreePS. The horizontal error of the TreePS system was estimated using 154 permanent single-tree inventory plots on the University of Idaho Experimental Forest with two different workflows based on two common R packages (lidR v. 4.3.0, FORTLS v. 1.6.2) using either spatial coordinates or spatial plus stem DBH predicted using one or both segmentation routines and a custom matching algorithm. Mean TreePS error using lidR for below and above-canopy segmentation had mean error of 1.04 and 2.04 m with 93.5% and 91.6% of plots with viable match solutions on spatial and spatial plus DBH matching. The second workflow with both FORTLS (TLS point cloud) and lidR (ALS point cloud) had errors of 1.09 and 2.67 m but only 57.9% and 54.2% of plots with solutions using spatial and spatial plus DBH, respectively. There is room for improvement in the matching algorithm but the TreePS methodology and similar feature-matching solutions may be useful for below-canopy positioning of equipment, people or other resources under dense forests and other GNSS-degraded environments to help advance smart and digital forestry.
Executive Impact: At a Glance
This research introduces TreePS, a novel lidar-based positioning system for forestry, offering an alternative to traditional GNSS in dense forest environments. By matching local terrestrial laser scanning (TLS) tree positions with global airborne laser scanning (ALS) stem maps, TreePS aims to provide accurate positioning for equipment and personnel. The study evaluated two workflows (lidR and FORTLS) and found mean horizontal errors ranging from 1.04 m (lidR, spatial only) to 2.67 m (FORTLS, spatial plus DBH). While initial accuracy is lower than high-end RTK GNSS, TreePS offers a promising solution for smart forestry by leveraging existing digital forest inventory data to overcome GNSS limitations, with potential for improved accuracy and faster processing times in future iterations.
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Deep Analysis & Enterprise Applications
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1.04m
Mean TreePS Horizontal Error (lidR, spatial only)
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Plots with viable matches (lidR, spatial only)
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Permanent Single-Tree Inventory Plots
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Stems identified (lidR TLS)
TreePS Workflow Overview
TLS Local Tree Positions
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ALS Global Stem Map
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Kabsch Algorithm Alignment
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Custom Matching Algorithm
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Trilateration for Position
| Feature | lidR Workflow (Tree Top) | FORTLS Workflow (DBH) |
|---|---|---|
| Segmentation Basis | Tree Tops (ALS & TLS) | DBH (TLS) & Tree Tops (ALS) |
| Mean Horizontal Error (Spatial Only) | 1.04m | 1.09m |
| Mean Horizontal Error (Spatial + DBH) | 2.04m | 2.67m |
| Plots with Viable Matches (Spatial Only) | 93.5% | 57.9% |
| Plots with Viable Matches (Spatial + DBH) | 91.6% | 54.2% |
| Primary Strength | Consistent Segmentation Method | DBH-centric TLS data |
The University of Idaho Experimental Forest Deployment
The TreePS system was evaluated across 154 permanent single-tree inventory plots on the University of Idaho Experimental Forest. Local TLS scans were collected using a Leica BLK 360, averaging 21.8 million points per plot. Global ALS data, funded by FEMA, were clipped to a 15m radius around each plot. This dual-source approach, integrating high-density TLS with broader ALS coverage, provided a robust testing ground for the map-matching algorithm, demonstrating its potential in diverse forest stand conditions.
Takeaway: The UIEF deployment validated the TreePS concept's feasibility in real-world forest settings, highlighting the importance of high-quality, multi-source lidar data for accurate positioning.
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Your Implementation Roadmap
Implementing TreePS is a strategic journey. Here’s a typical phased approach to integrate this advanced positioning technology into your forestry operations.
Phase 1: Data Acquisition & Pre-processing
Collection and normalization of local TLS data and integration with existing global ALS stem maps.
Phase 2: Algorithm Customization & Training
Refinement of map-matching algorithms, including spatial and DBH weighting, using proprietary forest inventory data.
Phase 3: Pilot Deployment & Validation
Trial implementation of TreePS on a representative subset of operations, assessing accuracy and user feedback.
Phase 4: Full-Scale Integration & Optimization
Deployment across all relevant equipment and personnel, with continuous monitoring and algorithm fine-tuning.
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