Reliability of tomographic image to represent variation in stem wood properties assessed using confusion matrix metrics

The intrinsic benefits of the urban greenery are undeniable, but the lack of planning of the urban forestry has created a great liability for its population. To guarantee environmental preservation with risk reduction, one must invest in research that evaluates the accuracy of technological tools th...

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Published in:Wood science and technology 2022-05, Vol.56 (3), p.921-945
Main Authors: dos Reis, Mariana Nagle, Gonçalves, Raquel, Brazolin, Sergio, de Assis Palma, Stella Stopa, de Freitas Nuno Barros Pereira, Ricardo Gomes
Format: Article
Language:English
Subjects:
Accuracy
Biomedical and Life Sciences
Cavities
Ceramics
Composites
Confusion
Decision making
Density
Disks
Evaluation
Glass
Image quality
Inspection
Liability
Life Sciences
Machines
Manufacturing
Natural Materials
Original
Processes
Reliability analysis
Risk assessment
Risk management
Risk reduction
Stems
Stiffness
Tomography
Urban forests
Wood
Wood Science & Technology
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Summary:The intrinsic benefits of the urban greenery are undeniable, but the lack of planning of the urban forestry has created a great liability for its population. To guarantee environmental preservation with risk reduction, one must invest in research that evaluates the accuracy of technological tools that have been used in tree inspection, the results of which are used for the decision-making on urban tree management. One of these tools is ultrasonic tomography, frequently used to infer the internal condition of the stem. This research aimed to evaluate, using metrics (accuracy, precision, and sensitivity) of the confusion matrix, the quality of the image generated by tomography using conventional ultrasound equipment. For the study, disks of the species Cenostigma pluviosum (Sibipiruna) were used. They were analyzed considering different regions (heartwood and sapwood) and conditions (deterioration and cavities). Masks representative of these different regions and conditions of the wood were compared to tomographic images. In addition, average values ​​of density and stiffness obtained in each region and condition were also used to validate the representation indicated in the tomographic image. Although ultrasonic tomography does not represent exactly the position and size of the internal regions of the trunk (cavities, deteriorations, heartwood, and sapwood), the accuracy (greater than 85%) and coherence with density and stiffness were sufficient to indicate its suitability as support for tree risk assessment.
ISSN:0043-7719
1432-5225
DOI:10.1007/s00226-022-01386-x