Variational Direct Modeling: A framework towards integration of parametric modeling and direct modeling in CAD

TL;DR

This paper introduces a unified framework for seamless integration of parametric and direct modeling in CAD, enabling consistent editing and maintaining model validity through detection and resolution of information inconsistencies.

Contribution

It proposes a novel detection-then-resolution framework for integrating parametric and direct modeling, addressing key challenges and enabling seamless, unified CAD editing.

Findings

Framework effectively maintains model validity during editing

Algorithms systematically detect and resolve inconsistencies

Case studies demonstrate the approach's effectiveness

Abstract

Feature-based parametric modeling is the de facto standard in CAD. Boundary representation-based direct modeling is another CAD paradigm developed recently. They have complementary advantages and limitations, thereby offering huge potential for improvement towards an integrated CAD modeling scheme. Most existing integration methods are developed by industry and typically treat direct edits as pseudo-features, where little can be said about seamless integration. This paper presents an alternative method for seamless parametric/direct integration, which allows parametric and direct edits to work in a unified way. The fundamental issues and challenges of parametric/direct integration are first explained. A framework is then proposed to handle those information inconsistencies, based on a detection-then-resolution strategy. Algorithms that can systematically detect and resolve all possible types of information inconsistencies are also given to implement the framework. With them, model validity can be maintained during the whole model editing process, and then the discrepancy between direct edits and parametric edits can be resolved. The effectiveness of the proposed approach has been shown with a series of case studies and comparisons, based on a preliminary prototype.