Question

I am a software engineer specializing in procedural generation of 3D models, and currently I'm building a generator for 3D models of trees, founded on the theoretical work ofAristid Lindenmayer. Having successfully constructed the system framework, my next endeavor is to incorporate distinct tree species models for generation. Challenge at Hand Despite my proficiency in software development, I lack the comprehensive biological knowledge essential to accurately deduce tree morphologies from visual references. I feel like my unfamiliarity with botanical terminology and key morphological features of trees prevents me from seeing the important parts of tree morphology. Request for Assistance To achieve a high degree of biological accuracy in my models, I seek recommendations for literature detailing the fundamental principles governing visible tree features. This includes the distribution of branches and sub-branches, inherent regularities and anomalies of certain features, variations in tree girth across species, potential branch count and orientations specific to species, among other external features. It would be great if the resource is supplemented with illustrative diagrams. Currently, my primary interest lies in modeling Conifers, hence a dedicated section on this category would be nice. I'm not interested in chemical or developmental models. At the moment I'm just interested in the analysis geometric (quantitative) and topological (qualitative) features of trees.

Answer 1

To create biologically accurate 3D tree models, you should consult literature on phylogenetic trees, gymnosperms, and thigmomorphogenesis specifically focused on tree morphology and adaptations to environmental factors.

Step-by-step explanation:

Literature for 3D Tree Model Procedural Generation

To create biologically accurate 3D models of trees based on your expertise in procedural generation and the theoretical work of Aristid Lindenmayer, you will need references that detail the principles of tree morphology and phylogenetics. Literature on phylogenetic trees, arboreal theory, and thigmomorphogenesis may offer insights into the distribution, regularity, and anomalies of tree features you're seeking to emulate. Integrating phylogenomic approaches that focus on the structural and developmental history of trees can help in capturing their essence into your models. Additionally, consider resources describing functional adaptations of trees to mechanical stresses, such as in thigmomorphogenesis, which can vary among species and influence tree growth patterns and morphology.

As you specialize in Conifers, focus on literature specific to these gymnosperms which will detail the unique features distinct to their kind. Morphological keys, botanical textbooks, and peer-reviewed articles on conifer phylogenetics can provide a wealth of information for your procedural generation models.