Tree Motion in Three Dimensions: Video-Based Reconstruction using a Calibrated Multi-Camera System
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Publicerad
Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
Tidskriftstitel
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Volymtitel
Utgivare
Sammanfattning
Wind-induced tree damage poses a significant risk in both managed forests and
urban environments. While computational models could improve how these risks
are assessed, their development and validation require reliable experimental data,
including spatially resolved measurements of tree motion. A low-cost, non-invasive
video-based method is presented for reconstructing time-resolved three-dimensional
tree motion from a calibrated three-camera system. Physically attached colour
markers are detected through image segmentation, initialised using triangulation
and tracked using an Extended Kalman Filter with a Singer acceleration model,
requiring no training data. The method was tested and validated in a controlled
motion-tracking experiment against an industrial robot arm and a terrestrial Li-
DAR scanner. It achieves sub-centimetre accuracy with point-wise variation close
to the limit set by the camera resolution. The method produced reproducible threedimensional
trajectories and relatively consistent frequency estimates wherever the
markers remained sufficiently visible when it was applied to pull-and-release experiments
on a spruce, pine and birch tree. The reconstructed motion revealed locationdependent
dynamics, with stem and branch features showing different apparent
frequencies and decay behaviour. Branch features generally sustained oscillations
longer than stem features, consistent with the role branches are thought to play in
damping tree motion. Tracking reliability depended strongly on marker visibility,
with spruce performing best and pine proving most challenging due to dense foliage
and marker occlusion. The thesis establishes that a small, low-cost multi-camera system
can deliver accurate, physically interpretable three-dimensional measurements
at multiple points simultaneously, providing a foundation for extending the method
to mature trees under natural wind loading outdoors.
Beskrivning
Ämne/nyckelord
tree dynamics, multi-view tracking, non-destructive measurement, Extended Kalman Filter, marker tracking
