Delineating and Reconstructing 3D Forest Fuel Components and Volumes with Terrestrial Laser Scanning

Xi, Zhouxin; Chasmer, Laura; Hopkinson, Chris

doi:10.3390/rs15194778

Remote Sensing

2023

DOI: 10.3390/rs15194778

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Delineating and Reconstructing 3D Forest Fuel Components and Volumes with Terrestrial Laser Scanning

Zhouxin Xi,

Laura Chasmer,

Chris Hopkinson

Abstract: Predictive accuracy in wildland fire behavior is contingent on a thorough understanding of the 3D fuel distribution. However, this task is complicated by the complex nature of fuel forms and the associated constraints in sampling and quantification. In this study, twelve terrestrial laser scanning (TLS) plot scans were sampled within the mountain pine beetle-impacted forests of Jasper National Park, Canada. The TLS point clouds were delineated into eight classes, namely individual-tree stems, branches, foliage… Show more

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Cited by 6 publications

References 111 publications

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Artificial Intelligence and Terrestrial Point Clouds for Forest Monitoring

Kulicki,

Cabo,

Trzciński

et al. 2024

Curr. For. Rep.

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Purpose of Review This paper provides an overview of integrating artificial intelligence (AI), particularly deep learning (DL), with ground-based LiDAR point clouds for forest monitoring. It identifies trends, highlights advancements, and discusses future directions for AI-supported forest monitoring. Recent Findings Recent studies indicate that DL models significantly outperform traditional machine learning methods in forest inventory tasks using terrestrial LiDAR data. Key advancements have been made in areas such as semantic segmentation, which involves labeling points corresponding to different vegetation structures (e.g., leaves, branches, stems), individual tree segmentation, and species classification. Main challenges include a lack of standardized evaluation metrics, limited code and data sharing, and reproducibility issues. A critical issue is the need for extensive reference data, which hinders the development and evaluation of robust AI models. Solutions such as the creation of large-scale benchmark datasets and the use of synthetic data generation are proposed to address these challenges. Promising AI paradigms like Graph Neural Networks, semi-supervised learning, self-supervised learning, and generative modeling have shown potential but are not yet fully explored in forestry applications. Summary The review underscores the transformative role of AI, particularly DL, in enhancing the accuracy and efficiency of forest monitoring using ground-based 3D point clouds. To advance the field, there is a critical need for comprehensive benchmark datasets, open-access policies for data and code, and the exploration of novel DL architectures and learning paradigms. These steps are essential for improving research reproducibility, facilitating comparative studies, and unlocking new insights into forest management and conservation.

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Artificial Intelligence and Terrestrial Point Clouds for Forest Monitoring

Kulicki,

Cabo,

Trzciński

et al. 2024

Curr. For. Rep.

View full text Add to dashboard Cite

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Supervised terrestrial to airborne laser scanner model calibration for 3D individual-tree attribute mapping using deep neural networks

Xi,

Hopkinson,

Chasmer

2024

ISPRS Journal of Photogrammetry and Remote Sensing

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The impact of leaf-wood separation algorithms on aboveground biomass estimation from terrestrial laser scanning

Chen,

Verbeeck,

Terryn

et al. 2025

Remote Sensing of Environment

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Delineating and Reconstructing 3D Forest Fuel Components and Volumes with Terrestrial Laser Scanning

Cited by 6 publications

References 111 publications

Artificial Intelligence and Terrestrial Point Clouds for Forest Monitoring

Artificial Intelligence and Terrestrial Point Clouds for Forest Monitoring

Supervised terrestrial to airborne laser scanner model calibration for 3D individual-tree attribute mapping using deep neural networks

The impact of leaf-wood separation algorithms on aboveground biomass estimation from terrestrial laser scanning

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