# Criteria for Credible AI-assisted Carbon Footprinting Systems: The Cases of Mapping and Lifecycle Modeling

**Authors:** Shaena Ulissi, Andrew Dumit, P. James Joyce, Krishna Rao, Steven Watson, Sangwon Suh

arXiv: 2509.00240 · 2025-09-03

## TL;DR

This paper proposes criteria for validating AI-assisted carbon footprinting systems, emphasizing system-level evaluation, transparency, and credibility to support standards development in environmental assessment.

## Contribution

It introduces a structured, three-step approach for developing and refining validation criteria for AI-based GHG emission calculation systems, including practical pilot testing.

## Key findings

- AI systems can be credible with proper validation
- System-level evaluation is more effective than line-item review
- Metrics like benchmark performance and data quality indicators are essential

## Abstract

As organizations face increasing pressure to understand their corporate and products' carbon footprints, artificial intelligence (AI)-assisted calculation systems for footprinting are proliferating, but with widely varying levels of rigor and transparency. Standards and guidance have not kept pace with the technology; evaluation datasets are nascent; and statistical approaches to uncertainty analysis are not yet practical to apply to scaled systems. We present a set of criteria to validate AI-assisted systems that calculate greenhouse gas (GHG) emissions for products and materials. We implement a three-step approach: (1) Identification of needs and constraints, (2) Draft criteria development and (3) Refinements through pilots. The process identifies three use cases of AI applications: Case 1 focuses on AI-assisted mapping to existing datasets for corporate GHG accounting and product hotspotting, automating repetitive manual tasks while maintaining mapping quality. Case 2 addresses AI systems that generate complete product models for corporate decision-making, which require comprehensive validation of both component tasks and end-to-end performance. We discuss the outlook for Case 3 applications, systems that generate standards-compliant models. We find that credible AI systems can be built and that they should be validated using system-level evaluations rather than line-item review, with metrics such as benchmark performance, indications of data quality and uncertainty, and transparent documentation. This approach may be used as a foundation for practitioners, auditors, and standards bodies to evaluate AI-assisted environmental assessment tools. By establishing evaluation criteria that balance scalability with credibility requirements, our approach contributes to the field's efforts to develop appropriate standards for AI-assisted carbon footprinting systems.

## Full text

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## Figures

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## References

59 references — full list in the complete paper: https://tomesphere.com/paper/2509.00240/full.md

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Source: https://tomesphere.com/paper/2509.00240