Original Tree
Our Representation
Representation of Wang et. al. (TPAMI,2023)
Original tree
Our Representation
Representation of Wang et. al. (TPAMI,2023)
Original Tree
Our Representation
Representation of Wang et. al. (TPAMI,2023)
Original Tree
Our Representation
Representation of Wang et. al. (TPAMI,2023)
We introduce a novel mathematical framework for analyzing and generating complex tree-shaped 3D objects, such as botanical trees and plants, which deform both in their 3D geometry and branching structure. Unlike previous works, which either consider only the skeletal structure of tree-like objects or approximate their 3D geometry using branch thickness, the proposed framework accurately models both the 3D geometry of the tree branches and the way they are interconnected. In this paper, we first generalize the Square Root Normal Fields (SRNF) representation, originally proposed for the statistical analysis of genus-0 surfaces, to tree-shaped 3D objects. We then treat tree-shaped 3D objects as points on a novel Riemannian tree-shape space equipped with a novel Riemannian metric that measures the amount of surface bending and stretching, and structural changes one needs to apply to one 3D tree-shape to align it with another. This way, deformations become trajectories in this novel tree-shape space. We analyze the theoretical properties of this novel tree-shape space and the corresponding metric and develop algorithms for computing point-wise and branch-wise correspondences and geodesic paths between complex 3D trees. We finally show how to use these building blocks for (1) computing statistical summaries, i.e., means and modes of variations, of collections of tree-shaped 3D objects, and (2) synthesizing novel tree-shaped 3D objects by sampling from probability distributions fitted to a population of tree-shaped 3D objects. We demonstrate the performance and utility of the proposed framework on real and synthetic plants and botanical trees and show that it significantly outperforms the state-of-the-art.
Geodesic before registration
Geodesic with our method (After reg.)
Geodesic with Wang et. al. (TPAMI,2023)
Geodesic before registration
Geodesic with our method (After reg.)
Geodesic with Wang et. al. (TPAMI,2023)
Mean of Set4
Mean of Set1
Mean from above geod. example
Mean of Set2
Mean from above geod. example
Mean of Set3
First mode of set4
Second mode of set4
Third mode of set4
First mode of set1
Second mode of set1
Third mode of set1
First mode of set2
Second mode of set2
Third mode of set2
First mode of set3
Second mode of set3
Third mode of set3
@article{,
author = {Tahmina Khanam, Hamid Laga, Mohammed Bennamoun, Guanjin Wang, Ferdous Sohel, Farid Boussaid, Anuj Srivastava},
title = {TreeSRNF: Square-Root Normal Fields for Generative Modelling of the Geometric and Structural Variability in Tree-like 3D Objects},
journal = {},
year = {},
}