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Publikation

Automatic Generation of Technical Drawings Using the Model Context Protocol

Leonhard Kunz; Mario Klostermeier; Kokulan Thanabalan; Tatjana Legler; Martin Ruskowski
In: Iris Gräßler (Hrsg.). HIPPE Proceedings. International Symposium on Hybrid Intelligence in Product and Production Engineering (HIPPE-2026), March 24-26, Paderborn, Germany, University of Paderborn, 2026.

Zusammenfassung

With the current omnipresence of Large Language Models (LLMs), there is a high interest in applying them to Computer-Aided Design (CAD). This paper presents an agent-based approach for the automated generation of technical drawings from existing 3D CAD models using direct integration via the Model Context Protocol (MCP). Instead of relying on intermediary representations or scripting languages, the proposed system connects a multimodal large language model directly to the native CAD environment via an integrated MCP server. The approach supports iterative refinement through visual feedback and native geometric constraints, allowing the agent to select, place, and revise drawing views in a closed loop. A modular FreeCAD add-on implementing this concept is introduced and released as a testbed for agentic CAD research. The system is evaluated by comparing automatically generated drawings with human-created references using defined metrics for view selection and layout quality. Experiments with two multimodal language models demonstrate that LLM-based agentic drawing generation still has difficulties matching human drafting decisions due to current limitations in visual understanding. The results highlight the potential of direct CAD–agent integration and motivate further specialization of smaller models for technical drawing tasks.