English

CIRCLE: A Framework for Evaluating AI from a Real-World Lens

Artificial Intelligence 2026-03-26 v4 Software Engineering

Abstract

This paper proposes CIRCLE, a six-stage, lifecycle-based framework to bridge the reality gap between model-centric performance metrics and AI's materialized outcomes in deployment. Current approaches such as MLOps frameworks and AI model benchmarks offer detailed insights into system stability and model capabilities, but they do not provide decision-makers outside the AI stack with systematic evidence of how these systems actually behave in real-world contexts or affect their organizations over time. CIRCLE operationalizes the Validation phase of TEVV (Test, Evaluation, Verification, and Validation) by formalizing the translation of stakeholder concerns outside the stack into measurable signals. Unlike participatory design, which often remains localized, or algorithmic audits, which are often retrospective, CIRCLE provides a structured, prospective protocol for linking context-sensitive qualitative insights to scalable quantitative metrics. By integrating methods such as field testing, red teaming, and longitudinal studies into a coordinated pipeline, CIRCLE produces systematic knowledge: evidence that is comparable across sites yet sensitive to local context. This, in turn, can enable governance based on materialized downstream effects rather than theoretical capabilities.

Keywords

Cite

@article{arxiv.2602.24055,
  title  = {CIRCLE: A Framework for Evaluating AI from a Real-World Lens},
  author = {Reva Schwartz and Carina Westling and Morgan Briggs and Marzieh Fadaee and Isar Nejadgholi and Matthew Holmes and Fariza Rashid and Maya Carlyle and Afaf Taïk and Kyra Wilson and Peter Douglas and Theodora Skeadas and Gabriella Waters and Rumman Chowdhury and Thiago Lacerda},
  journal= {arXiv preprint arXiv:2602.24055},
  year   = {2026}
}

Comments

Accepted at Intelligent Systems Conference (IntelliSys) 2026

R2 v1 2026-07-01T10:55:41.137Z