Remote Sensing, Vol. 17, Pages 3888: A Comparative Analysis of Low-Cost Devices for High-Precision Diameter at Breast Height Estimation

Greenberg November 30, 2025 in News - 1 Minute

Remote Sensing, Vol. 17, Pages 3888: A Comparative Analysis of Low-Cost Devices for High-Precision Diameter at Breast Height Estimation

Remote Sensing doi: 10.3390/rs17233888

Authors:
Jozef Výbošťok
Juliána Chudá
Daniel Tomčík
Julián Tomaštík
Roman Kadlečík
Martin Mokroš

Forestry is essential for environmental sustainability, biodiversity conservation, carbon sequestration, and renewable resource management. Traditional methods for forest inventory, particularly the manual measurement of diameter at breast height (DBH), are labor-intensive and prone to error. Recent advancements in proximal sensing, including lidar and photogrammetry, have paved the way for more efficient approaches, yet high costs remain a barrier to widespread adoption. This study investigates the potential of close-range photogrammetry (CRP) using low-cost devices, such as smartphones, cameras, and specialized handheld laser scanners (Stonex and LIVOX prototype), to generate 3D point clouds for accurate DBH estimation. We compared these devices by assessing their agreement and efficiency when compared to conventional methods in diverse forest conditions across multiple tree species. Additionally, we analyze factors influencing measurement errors and propose a comprehensive decision-making framework to guide technology selection in forest inventory. The results show that the lowest-cost devices and photogrammetric methods achieved the highest agreement with the conventional (caliper-based) measurements, while mobile applications were the fastest and least expensive but also the least accurate. Photogrammetry provided the most accurate DBH estimates (error &asymp; 0.7 cm) but required the highest effort; handheld laser scanners achieved an average accuracy of about 1.5 cm at substantially higher cost, while mobile applications were the fastest and least expensive but also the least accurate (3&ndash;3.5 cm error). The outcomes of this research aim to facilitate more accessible, reliable, and sustainable forest management practices.

Source link

Jozef Výbošťok www.mdpi.com

Greenberg

Learn More →

Related Posts

Genes, Vol. 16, Pages 1427: Characterization of the Mitochondrial Genome of Cavariella salicicola: Insight into the Codon Usage Bias and Phylogenetic Implications in Aphidinae

Sustainability, Vol. 17, Pages 10715: How Events Empower the Countryside: A Study of Rural Household Livelihoods in Traditional Villages of Ethnic Mountainous Areas Influenced by Guizhou&rsquo;s &ldquo;Village Super League&rdquo;

Algorithms, Vol. 18, Pages 759: Compact Models for Some Cluster Problems on Node-Colored Graphs

Greenberg

Sustainability, Vol. 17, Pages 10715: How Events Empower the Countryside: A Study of Rural Household Livelihoods in Traditional Villages of Ethnic Mountainous Areas Influenced by Guizhou’s “Village Super League”