Easing cracks with the Method of Tensile Triangles

Mattheck, C.; Wissner, C.; Tesari, I.; Bethge, K.

doi:10.2495/dn100411

Cited by 2 publications

(2 citation statements)

References 1 publication

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“…The factors that affect tree structure remains an open topic of research, but we know that competition for light and resources favours trees that distribute their material efficiently, and this is a form of optimisation. Previously researched factors include wind load [53,54], efficiency and safety of hydraulic transport [55], and others such as stress minimisation in trees [56].…”

Section: Physical Interpretation Of Methodsmentioning

confidence: 99%

Tree Reconstruction Using Topology Optimisation

Löwe

Pinskier

2022

Remote Sensing

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Generating accurate digital tree models from scanned environments is invaluable for forestry, agriculture, and other outdoor industries in tasks such as identifying fall hazards, estimating trees’ biomass and calculating traversability. Existing methods for tree reconstruction rely on sparse feature identification to segment a forest into individual trees and generate a branch structure graph, limiting their application to easily separable trees and uniform forests. However, the natural world is a messy place in which trees present with significant heterogeneity and are frequently encroached upon by the surrounding environment. We present a general method for extracting the branch structure of trees from point cloud data, which estimates the structure of trees by adapting the methods of structural topology optimisation to find the optimal material distribution to interpolate the input data. We present the results of this optimisation over a wide variety of scans, and discuss the benefits and drawbacks of this novel approach to tree structure reconstruction. Our method generates detailed and accurate tree structures, with a mean Surface Error (SE) of 15 cm over 13 diverse tree datasets.

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Section: Physical Interpretation Of Methodsmentioning

confidence: 99%

Tree Reconstruction Using Topology Optimisation

Löwe

Pinskier

2022

Remote Sensing

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“…In addition, windward roots, leeward roots, and roots in cross-sections must be strong and anchored to withstand pulling, buckling, and shearing [29]. The collected wind load by tree leaves and branches causes a high bending force at the tree trunk, which is distributed over the roots (the mechanically active roots) into the soil [49]. To cope with wind loads, trees naturally form their roots to ensure even load distribution with longer and stronger roots on the tension side (windward side), and stronger roots on the other (leeward) side to reinforce the soil, anchor the tree, and distribute the compression [49,50].…”

Section: Wind Loadmentioning

confidence: 99%

Trees on Buildings: A Tree Selection Framework Based on Industry Best Practice

Abuseif

Dupré

Michael

2022

Land

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Trees on buildings have received increased interest, and installations have multiplied over recent years, yet there is limited literature and policies guiding the successful implementation of projects relating to trees on buildings. This study investigates the tree selection process for implementation on buildings, using a survey and follow-up interviews with experienced experts to reveal current worldwide industry best practice, and provides a systematic framework for selecting the most appropriate tree species. A tree selection framework is proposed that consists of four stages: identifying the purpose of the tree; analysing the site context and its conditions; evaluating the risk of implementation; and investigating the characteristics of the candidate trees. Decision-makers can use the developed framework to inform design, implementation, and policy development of trees on buildings to reduce implementation risks. In addition, this paper provides useful insights to inform future research about trees on buildings.

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Easing cracks with the Method of Tensile Triangles

Cited by 2 publications

References 1 publication

Tree Reconstruction Using Topology Optimisation

Tree Reconstruction Using Topology Optimisation

Trees on Buildings: A Tree Selection Framework Based on Industry Best Practice

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