Inverse Procedural Modeling of Branching Structures by Inferring L-Systems

Author:

Guo Jianwei1,Jiang Haiyong2,Benes Bedrich3,Deussen Oliver4,Zhang Xiaopeng1,Lischinski Dani5,Huang Hui6ORCID

Affiliation:

1. NLPR, Institute of Automation, CAS, Beijing, China

2. UCAS and NTU Singapore, UCAS, Beijing, NTU Singapore

3. Purdue University

4. SIAT Shenzhen and University Konstanz

5. The Hebrew University of Jerusalem

6. Shenzhen University

Abstract

We introduce an inverse procedural modeling approach that learns L-system representations of pixel images with branching structures. Our fully automatic model generates a compact set of textual rewriting rules that describe the input. We use deep learning to discover atomic structures such as line segments or branchings. Orientation and scaling of these structures are determined and the detected structures are combined into a tree. The initial representation is analyzed, and repeating parts are encoded into a small grammar by using greedy optimization while the user can control the size of the detected rules. The output is an L-system that represents the input image as a simple text and a set of terminal symbols. We apply our approach to a variety of examples, demonstrate its robustness against noise and blur, and we show that it can detect user sketches and complex input structures.

Funder

National Key R8D Program

GD Leading Talent Program

DFG

FAR

NSFC

LHTD

NSF

GD Higher Education Key Program

GD Laboratory of Artificial Intelligence and Digital Economy

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design

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