English

MCCoder: Streamlining Motion Control with LLM-Assisted Code Generation and Rigorous Verification

Artificial Intelligence 2025-07-03 v3

Abstract

Large Language Models (LLMs) have demonstrated significant potential in code generation. However, in the factory automation sector, particularly motion control, manual programming, alongside inefficient and unsafe debugging practices, remains prevalent. This stems from the complex interplay of mechanical and electrical systems and stringent safety requirements. Moreover, most current AI-assisted motion control programming efforts focus on PLCs, with little attention given to high-level languages and function libraries. To address these challenges, we introduce MCCoder, an LLM-powered system tailored for generating motion control code, integrated with a soft-motion controller. MCCoder improves code generation through a structured workflow that combines multitask decomposition, hybrid retrieval-augmented generation (RAG), and iterative self-correction, utilizing a well-established motion library. Additionally, it integrates a 3D simulator for intuitive motion validation and logs of full motion trajectories for data verification, significantly enhancing accuracy and safety. In the absence of benchmark datasets and metrics tailored for evaluating motion control code generation, we propose MCEVAL, a dataset spanning motion tasks of varying complexity. Experiments show that MCCoder outperforms baseline models using Advanced RAG, achieving an overall performance gain of 33.09% and a 131.77% improvement on complex tasks in the MCEVAL dataset.

Keywords

Cite

@article{arxiv.2410.15154,
  title  = {MCCoder: Streamlining Motion Control with LLM-Assisted Code Generation and Rigorous Verification},
  author = {Yin Li and Liangwei Wang and Shiyuan Piao and Boo-Ho Yang and Ziyue Li and Wei Zeng and Fugee Tsung},
  journal= {arXiv preprint arXiv:2410.15154},
  year   = {2025}
}

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R2 v1 2026-06-28T19:28:21.158Z