Related papers: Flatten The Complex: Joint B-Rep Generation via Compositional $k$-Cell Particles

Flatten The Complex: Joint B-Rep Generation via Compositional $k$-Cell Particles

URL: http://arxiv.org/abs/2601.17733v1
Date: Sun, 25 Jan 2026 08:00:28 GMT
Title: Flatten The Complex: Joint B-Rep Generation via Compositional $k$-Cell Particles
Authors: Junran Lu, Yuanqi Li, Hengji Li, Jie Guo, Yanwen Guo,
Abstract summary: Boundary Representation (B-Reps) is the widely adopted standard in Computer Design (CAD) andAided modeling.<n>Previous methods rely on sequences to handle this hierarchy which fails to fully exploit the geometric relationships between cells.
Score: 22.846357150067927
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Boundary Representation (B-Rep) is the widely adopted standard in Computer-Aided Design (CAD) and manufacturing. However, generative modeling of B-Reps remains a formidable challenge due to their inherent heterogeneity as geometric cell complexes, which entangles topology with geometry across cells of varying orders (i.e., $k$-cells such as vertices, edges, faces). Previous methods typically rely on cascaded sequences to handle this hierarchy, which fails to fully exploit the geometric relationships between cells, such as adjacency and sharing, limiting context awareness and error recovery. To fill this gap, we introduce a novel paradigm that reformulates B-Reps into sets of compositional $k$-cell particles. Our approach encodes each topological entity as a composition of particles, where adjacent cells share identical latents at their interfaces, thereby promoting geometric coupling along shared boundaries. By decoupling the rigid hierarchy, our representation unifies vertices, edges, and faces, enabling the joint generation of topology and geometry with global context awareness. We synthesize these particle sets using a multi-modal flow matching framework to handle unconditional generation as well as precise conditional tasks, such as 3D reconstruction from single-view or point cloud. Furthermore, the explicit and localized nature of our representation naturally extends to downstream tasks like local in-painting and enables the direct synthesis of non-manifold structures (e.g., wireframes). Extensive experiments demonstrate that our method produces high-fidelity CAD models with superior validity and editability compared to state-of-the-art methods.

Related papers

Joint Geometry-Appearance Human Reconstruction in a Unified Latent Space via Bridge Diffusion [57.09673862519791]
This paper introduces textbfJGA-LBD, a novel framework that unifies the modeling of geometry and appearance into a joint latent representation.<n> Experiments demonstrate that JGA-LBD outperforms current state-of-the-art approaches in terms of both geometry fidelity and appearance quality.
arXiv Detail & Related papers (2026-01-01T12:48:56Z)
GFLAN: Generative Functional Layouts [1.1458853556386797]
GFLAN is a generative framework that restructures floor plan synthesis through explicit factorization into topological planning and geometric realization.<n>Our approach departs from direct pixel-to-pixel or wall-tracing generation in favor of a principled two-stage decomposition.
arXiv Detail & Related papers (2025-12-18T07:52:47Z)
Generative Adversarial Gumbel MCTS for Abstract Visual Composition Generation [29.755551944026738]
We study abstract visual composition in which identity is determined by the configuration and relations among a small set of geometric primitives.<n>An AlphaGo-style search enforces feasibility, while a fine-tuned vision-language model scores semantic alignment as reward signals.<n>Inspired by the Generative Adversarial Network, we use the generated instances for adversarial reward refinement.
arXiv Detail & Related papers (2025-12-01T03:38:44Z)
BrepGPT: Autoregressive B-rep Generation with Voronoi Half-Patch [61.20046418942948]
Boundary representation (B-rep) is the de facto standard for CAD model representation in modern industrial design.<n>We present BrepGPT, a single-stage autoregressive framework for B-rep generation.
arXiv Detail & Related papers (2025-11-27T07:16:53Z)
Geometry-Editable and Appearance-Preserving Object Compositon [67.98806888489385]
General object composition (GOC) aims to seamlessly integrate a target object into a background scene with desired geometric properties.<n>Recent approaches derive semantic embeddings and integrate them into advanced diffusion models to enable geometry-editable generation.<n>We introduce a Disentangled Geometry-editable and Appearance-preserving Diffusion model that first leverages semantic embeddings to implicitly capture desired geometric transformations.
arXiv Detail & Related papers (2025-05-27T09:05:28Z)
HoLa: B-Rep Generation using a Holistic Latent Representation [51.07878285790399]
We introduce a novel representation for learning and generating Computer-Aided Design (CAD) models in the form of $textitboundary representations$ (B-Reps)<n>Our representation unifies the continuous geometric properties of B-Rep primitives in different orders.<n>Our method significantly reduces ambiguities, redundancies, and incoherences among the generated B-Rep primitives.
arXiv Detail & Related papers (2025-04-19T10:34:24Z)
HierRelTriple: Guiding Indoor Layout Generation with Hierarchical Relationship Triplet Losses [52.70183252341687]
We present a hierarchical triplet-based indoor relationship learning method, coined HierRelTriple, with a focus on spatial relationship learning.<n>We introduce HierRelTriple, a hierarchical relational triplets modeling framework that first partitions functional regions and then automatically extracts three levels of spatial relationships.<n>Experiments on unconditional layout synthesis, floorplan-conditioned layout generation, and scene rearrangement demonstrate that HierRel improves spatial-relation metrics by over 15%.
arXiv Detail & Related papers (2025-03-26T07:31:52Z)
DTGBrepGen: A Novel B-rep Generative Model through Decoupling Topology and Geometry [3.859930277034918]
Boundary representation (B-rep) of geometric models is a fundamental format in Computer-Aided Design (CAD)<n>We propose DTGBrepGen, a novel topology-geometry decoupled framework for B-rep generation.
arXiv Detail & Related papers (2025-03-17T12:34:14Z)
SpaceMesh: A Continuous Representation for Learning Manifold Surface Meshes [61.110517195874074]
We present a scheme to directly generate manifold, polygonal meshes of complex connectivity as the output of a neural network.<n>Our key innovation is to define a continuous latent connectivity space at each mesh, which implies the discrete mesh.<n>In applications, this approach not only yields high-quality outputs from generative models, but also enables directly learning challenging geometry processing tasks such as mesh repair.
arXiv Detail & Related papers (2024-09-30T17:59:03Z)
ComplexGen: CAD Reconstruction by B-Rep Chain Complex Generation [28.445041795260906]
We view the reconstruction of CAD models in the boundary representation (B-Rep) as the detection of geometric primitives of different orders. We show that by modeling such comprehensive structures more complete and regularized reconstructions can be achieved.
arXiv Detail & Related papers (2022-05-29T05:30:33Z)

This list is automatically generated from the titles and abstracts of the papers in this site.