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Main Authors: Jansen, Marc, Pehlke, Marcel
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.07083
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author Jansen, Marc
Pehlke, Marcel
author_facet Jansen, Marc
Pehlke, Marcel
contents This paper introduces an approach to increasing the explainability of artificial intelligence (AI) systems by embedding Large Language Models (LLMs) within standardized analytical processes. While traditional explainable AI (XAI) methods focus on feature attribution or post-hoc interpretation, the proposed framework integrates LLMs into defined decision models such as Question-Option-Criteria (QOC), Sensitivity Analysis, Game Theory, and Risk Management. By situating LLM reasoning within these formal structures, the approach transforms opaque inference into transparent and auditable decision traces. A layered architecture is presented that separates the reasoning space of the LLM from the explainable process space above it. Empirical evaluations show that the system can reproduce human-level decision logic in decentralized governance, systems analysis, and strategic reasoning contexts. The results suggest that LLM-driven standard processes provide a foundation for reliable, interpretable, and verifiable AI-supported decision making.
format Preprint
id arxiv_https___arxiv_org_abs_2511_07083
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Increasing AI Explainability by LLM Driven Standard Processes
Jansen, Marc
Pehlke, Marcel
Artificial Intelligence
This paper introduces an approach to increasing the explainability of artificial intelligence (AI) systems by embedding Large Language Models (LLMs) within standardized analytical processes. While traditional explainable AI (XAI) methods focus on feature attribution or post-hoc interpretation, the proposed framework integrates LLMs into defined decision models such as Question-Option-Criteria (QOC), Sensitivity Analysis, Game Theory, and Risk Management. By situating LLM reasoning within these formal structures, the approach transforms opaque inference into transparent and auditable decision traces. A layered architecture is presented that separates the reasoning space of the LLM from the explainable process space above it. Empirical evaluations show that the system can reproduce human-level decision logic in decentralized governance, systems analysis, and strategic reasoning contexts. The results suggest that LLM-driven standard processes provide a foundation for reliable, interpretable, and verifiable AI-supported decision making.
title Increasing AI Explainability by LLM Driven Standard Processes
topic Artificial Intelligence
url https://arxiv.org/abs/2511.07083