arxiv_cv 88% Match Research Paper CAD Designers,Mechanical Engineers,Product Designers,3D Scanning Specialists,Computer Vision Researchers 1 week ago

MiCADangelo: Fine-Grained Reconstruction of Constrained CAD Models from 3D Scans

computer-vision › 3d-vision

📄 Abstract

Abstract: Computer-Aided Design (CAD) plays a foundational role in modern manufacturing and product development, often requiring designers to modify or build upon existing models. Converting 3D scans into parametric CAD representations--a process known as CAD reverse engineering--remains a significant challenge due to the high precision and structural complexity of CAD models. Existing deep learning-based approaches typically fall into two categories: bottom-up, geometry-driven methods, which often fail to produce fully parametric outputs, and top-down strategies, which tend to overlook fine-grained geometric details. Moreover, current methods neglect an essential aspect of CAD modeling: sketch-level constraints. In this work, we introduce a novel approach to CAD reverse engineering inspired by how human designers manually perform the task. Our method leverages multi-plane cross-sections to extract 2D patterns and capture fine parametric details more effectively. It enables the reconstruction of detailed and editable CAD models, outperforming state-of-the-art methods and, for the first time, incorporating sketch constraints directly into the reconstruction process.

Authors (6)

Ahmet Serdar Karadeniz

Dimitrios Mallis

Danila Rukhovich

Kseniya Cherenkova

Anis Kacem

Djamila Aouada

Submitted

October 27, 2025

arXiv Category

cs.CV

arXiv PDF

Key Contributions

MiCADangelo presents a novel approach to CAD reverse engineering that reconstructs constrained parametric CAD models from 3D scans. By leveraging multi-plane cross-sections to extract 2D patterns and capture fine parametric details, it overcomes limitations of existing methods that struggle with full parametric outputs or neglect sketch-level constraints, mimicking human design processes.

Business Value

Streamlines product development and modification by enabling efficient conversion of scanned physical objects into editable CAD models, reducing design time and costs.

Paper Metadata

Innovation Type

Algorithmic

Deployment Feasibility

Moderate, requires high-quality 3D scan data and integration into CAD software pipelines.

Limitations Addressed

Failure of bottom-up methods to produce fully parametric outputs,Top-down methods overlooking fine-grained geometric details,Neglect of sketch-level constraints in current CAD reverse engineering,High precision and complexity of CAD models

Technical Tags

CAD reverse engineeringparametric models3D scanssketch-level constraintsmulti-plane cross-sectionsgeometric detailsdeep learningcomputational geometryfeature extractionconstraint modeling

Research Topics

Computer Vision3D ModelingCAD/CAMMachine LearningGeometric Computing

Methods & Architectures

Multi-plane cross-section extraction2D pattern extractionParametric detail captureDeep learning-based approaches Deep Neural Networks (for feature extraction and pattern recognition)

Applications & Tasks

Manufacturing Product Design Engineering 3D Printing Architecture Converting 3D scans to parametric CADHigh precision and structural complexityProducing fully parametric outputsCapturing fine-grained geometric detailsIncorporating sketch-level constraints CAD reverse engineeringReconstruction of constrained CAD models

Datasets & Benchmarks

Datasets

3D scans

Accuracy of reconstructed parametric modelsFidelity to original design intent

Related Fields

3D Computer VisionComputer-Aided Design (CAD)Reverse EngineeringGeometric ModelingMachine Learning

Keywords

CAD reverse engineeringparametric modeling3D scanssketch constraintscross-sectionsgeometric detailsdeep learningreverse engineeringmanufacturingproduct design3D modelingcomputational geometry

Academic Context

#Computer Vision#3D Modeling#CAD/CAM#Machine Learning#Geometric Computing

Commercial Potential

Potential Products

Software for automated CAD model generation from scansPlugins for existing CAD softwareServices for reverse engineering of manufactured parts

Target Industries

ManufacturingAutomotiveAerospaceConsumer GoodsMedical Devices

Use Case Examples

Recreating legacy parts for which original CAD files are lostModifying existing physical prototypes by converting them to editable CADDigitizing historical artifacts for preservation and study

Competitive Edge

Offers a more comprehensive solution than existing methods by explicitly handling sketch-level constraints and capturing fine parametric details, leading to more usable CAD outputs.

Market Opportunity

Large market for CAD software, reverse engineering services, and product design tools.

Revenue Models

Software licensingSaaS for design servicesspecialized tool development.

Resource Requirements

Compute Needs

Moderate to High, depending on the complexity of the 3D scans and CAD models.

Data Requirements

Requires high-quality 3D scan data of objects with underlying CAD structures.

Deployment Constraints

Requires accurate 3D scanning hardware,Integration challenges with diverse CAD software,Computational cost for complex reconstructions

Scalability

Scalability depends on the efficiency of the deep learning models and geometric processing algorithms used.

Production Readiness

Maturity Level

Research

Time to Market

2-4 years for integration into professional CAD/CAM software.

Patent Potential

High, novel algorithms for extracting parametric information and constraints from 3D scans are likely patentable.

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