The Utility of Image-Based Point Clouds for Forest Inventory: A Comparison with Airborne Laser Scanning

White, Joanne C.; Wulder, Michael A.; Vastaranta, Mikko; Coops, Nicholas C.; Pitt, Doug; Woods, Murray

doi:10.3390/f4030518

Cited by 276 publications

(237 citation statements)

References 50 publications

Supporting

Mentioning

226

Contrasting

Unclassified

Order By: Relevance

“…Although the DTM has a specific high vertical accuracy (RMSE Z =0.04 m), its accuracy in forested areas may be lower. It is well known that the DTM of forested areas created with classic photogrammetric methods has a lower accuracy because of the ground being obscured by vegetation (Järndstedt et al 2012, White et al 2013. As it shown in Figure 2, the accuracy assessment of DTM was conducted based on 15 ground control points, and most of them (11) were located in non-forested areas.…”

Section: Discussionmentioning

confidence: 99%

“…The previously mentioned LiDAR technology, which uses laser pulses to penetrate the forest canopy to the ground, allows for the acquisition of dense and accurate ground elevation data. Therefore, the DTM generated from LiDAR data is of higher accuracy than the DTM generated from photogrammetric methods (Vega & St-Onge 2008, White et al 2013). However, the visual interpretation of forest attributes, such as tree species, health status, and maturity, cannot currently be estimated from LiDAR data (White et al 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, the DTM generated from LiDAR data is of higher accuracy than the DTM generated from photogrammetric methods (Vega & St-Onge 2008, White et al 2013). However, the visual interpretation of forest attributes, such as tree species, health status, and maturity, cannot currently be estimated from LiDAR data (White et al 2013). To utilise the advantages of each method, the option to combine photogrammetry and LiDAR for forest inventory purposes has attracted the attention of many researchers (Popescu et al 2004, StOnge et al 2004, 2008, Holmgren et al 2008, Bohlin et al 2012, Nurminen et al 2013.…”

Section: Discussionmentioning

confidence: 99%

“…The same 'photoLiDAR' approach was later used by to estimate tree height growth. Currently, the only advantage of choosing photogrammetric DTM over LiDAR DTM is the lower image acquisition cost in relation to LiDAR data acquisition (White et al 2013). …”

Section: Discussionmentioning

confidence: 99%

See 3 more Smart Citations

Estimation of the mean tree height of forest stands by photogrammetric measurement using digital aerial images of high spatial resolution

et al. 2015

View full text Add to dashboard Cite

. Estimation of the mean tree height of forest stands by photogrammetric measurement using digital aerial images of high spatial resolution. Ann. For. Res. 58(1): 125-143.Abstract. Tree height is one of the more fundamental measurements in forest inventories. In addition to classical field measurements, tree height may be estimated by remote sensing methods, such as by photogrammetric measurements of aerial images. Since it has been found and generally accepted that the extraction of forest and tree data from classical analogue aerial photographs has certain limitations, especially in the densely canopied forests, the usefulness of photogrammetric-based forest inventory in many countries remains a controversial issue. Therefore, this paper focuses on investigating the possibility of applying digital photogrammetric method to estimate mean stand height. Photogrammetric stereo-measurements of tree height were conducted on colour infrared images of high spatial resolution (ground sample distance -GSD -of 30 cm and 10 cm) using a digital photogrammetric workstation. The height of each tree within 183 sample plots (14 subcompartments) were calculated as the difference between the tree top elevations determined with the aerial images and the corresponding tree bottom elevations determined from the digital terrain model. To compare the photogrammetric-and field-estimated mean stand heights, the mean plot heights were calculated for both photogrammetric and field estimates of tree heights. Repeated measurements using ANOVA testing did not reveal a statistically significant difference (p > 0.05) between the field-estimated and photogrammetric-estimated mean stand heights using the 30 cm and 10 cm GSD digital aerial images. Deviations of the mean stand heights estimated using the images of both spatial resolutions were similar to the field-estimated heights. Using the 30 cm images the deviations of the photogrammetrically estimated mean stand height amounted to 0.35 m (1.59%) on average, whereas using the 10 cm images the deviations amounted to 0.31 m (1.41%) compared to the field estimation. Therefore, it can be concluded that the 30 cm GSD aerial images allow for the photogrammetric measurement of mean stand heights with accuracy similar to 10 cm GSD aerial images. In addition, 30 cm GSD aerial images are more favourable financially since the same area of interest could be covered with a considerably smaller number of images than of the 10 cm GSD aerial images.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

See 2 more Smart Citations

Estimation of the mean tree height of forest stands by photogrammetric measurement using digital aerial images of high spatial resolution

et al. 2015

View full text Add to dashboard Cite

show abstract

“…Laser scanning-based applications have been widely studied (e.g., [5][6][7]) and are already in operational use [8][9][10][11][12]. Airborne laser scanning (ALS) has been used to estimate forest structural parameters from single trees (e.g., tree species, height (H), diameter-at-breast height (dbh) and volume (v)) to area levels (stand-level mean characteristics) [13][14][15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Estimation of the Timber Quality of Scots Pine with Terrestrial Laser Scanning

Kankare

Joensuu

Holopainen

et al. 2014

Forests

Self Cite

View full text Add to dashboard Cite

Preharvest information on the quality of Scots pine (Pinus sylvestris) timber is required by the forest industry in Nordic countries, due to the strong association between the technical quality and product recovery of this species in particular. The objective of this study was to assess the accuracy of estimating external quality attributes and classifying the quality of mature Scots pine trees by terrestrial laser scanning (TLS). The tree quality was estimated using a random forest approach, based on both field and TLS measurements of stem diameters, tree height and branch heights. The relative root mean squared errors of the TLS measurements for tree height, diameter, diameter at 6 m and the lowest living and OPEN ACCESSForests 2014, 5 1880 dead branch height were 7.1%, 5.9%, 8.9%, 9.6% and 42.9%, respectively. The highest errors of the branch heights were caused by the shadowing effect in the point cloud data. The quality classes were estimated accurately, based on both (field and TLS measured) tree attributes. Trees were classified with 95.0% and 83.6% accuracy into three operationally-important quality classes and with 87.1% and 76.4% accuracy into five classes using, field or TLS measurements, respectively. The obtained quality classification results were promising. The enhanced tree quality information could have a significant effect on planning forest management procedures, wood supply chains and optimizing the flow of raw materials. To fully integrate tree quality measurements in operational forestry, the methods used should be fully automated.

show abstract

Leveraging explainable machine learning models to assess forest health: A case study in Hainan, China

Li,

He,

Ahmad

et al. 2023

Ecology and Evolution

View full text Add to dashboard Cite

Global forest area has declined over the past few years, forest quality has declined, and ecological and environmental events have increased with climate change and human activity. In the context of ecological civilization, forest health issues have received unprecedented attention. By improving forest health, forests can better perform their ecosystem service functions and promote green development. This study was carried out in the WuZhi Shan area of Hainan Tropical Rainforest National Park. We employed a decision tree algorithm, a machine learning technique, for our modeling due to its high accuracy and interpretability. The objective weighted method using criteria of importance through intercriteria correlation (CRITIC) was used to determine forest health classes based on survey and experimental data from 132 forest samples. The results showed that species diversity is the most important metric to measure forest health. An interpretable decision tree machine learning model was proposed to incorporate forest health indicators, providing up to 90% accuracy in the classification of forest health conditions. The model demonstrated a high degree of effectiveness, achieving an average precision of 90%, a recall of 67%, and an F1 score of 70.2% in predicting forest health. The interpretable decision tree classification results showed that breast height diameter is the most important variable in classifying the health status of both primary and secondary forests. This study highlights the importance of using interpretable machine learning methods for the decision‐making process. Our work contributes to the scientific underpinnings of sustainable forest development and effective conservation planning.

show abstract

The Utility of Image-Based Point Clouds for Forest Inventory: A Comparison with Airborne Laser Scanning

Cited by 276 publications

References 50 publications

Estimation of the mean tree height of forest stands by photogrammetric measurement using digital aerial images of high spatial resolution

Estimation of the mean tree height of forest stands by photogrammetric measurement using digital aerial images of high spatial resolution

Estimation of the Timber Quality of Scots Pine with Terrestrial Laser Scanning

Leveraging explainable machine learning models to assess forest health: A case study in Hainan, China

Contact Info

Product

Resources

About