English

Design-OS: A Specification-Driven Framework for Engineering System Design with a Control-Systems Design Case

Computational Engineering, Finance, and Science 2026-05-05 v2 Artificial Intelligence Systems and Control Systems and Control

Abstract

Engineering system design -- whether mechatronic, control, or embedded -- often proceeds in an ad hoc manner, with requirements left implicit and traceability from intent to parameters largely absent. Existing specification-driven and systematic design methods mostly target software, and AI-assisted tools tend to enter the workflow at solution generation rather than at problem framing. Human--AI collaboration in the design of physical systems remains underexplored. This paper presents Design-OS, a lightweight, specification-driven workflow for engineering system design organized in five stages: concept definition, literature survey, conceptual design, requirements definition, and design definition. Specifications serve as the shared contract between human designers and AI agents; each stage produces structured artifacts that maintain traceability and support agent-augmented execution. We position Design-OS relative to requirements-driven design, systematic design frameworks, and AI-assisted design pipelines, and demonstrate it on a control systems design case using two rotary inverted pendulum platforms -- an open-source SimpleFOC reaction wheel and a commercial Quanser Furuta pendulum -- showing how the same specification-driven workflow accommodates fundamentally different implementations. A blank template and the full design-case artifacts are shared in a public repository to support reproducibility and reuse. The workflow makes the design process visible and auditable, and extends specification-driven orchestration of AI from software to physical engineering system design.

Keywords

Cite

@article{arxiv.2603.20151,
  title  = {Design-OS: A Specification-Driven Framework for Engineering System Design with a Control-Systems Design Case},
  author = {H. Sinan Bank and Daniel R. Herber and Thomas H. Bradley},
  journal= {arXiv preprint arXiv:2603.20151},
  year   = {2026}
}

Comments

2 figures, 11 pages, Accepted by ASME IDETC 2026 - DAC-09

R2 v1 2026-07-01T11:30:06.742Z