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Autores principales: Davoudi, Seyed Pouyan Mousavi, Davodi, Amin Gholami, Amiri-Margavi, Alireza, Fard, Alireza Shafiee, Jafari, Mahdi
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2502.20758
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author Davoudi, Seyed Pouyan Mousavi
Davodi, Amin Gholami
Amiri-Margavi, Alireza
Fard, Alireza Shafiee
Jafari, Mahdi
author_facet Davoudi, Seyed Pouyan Mousavi
Davodi, Amin Gholami
Amiri-Margavi, Alireza
Fard, Alireza Shafiee
Jafari, Mahdi
contents We introduce a new approach in which several advanced large language models-specifically GPT-4-0125-preview, Meta-LLAMA-3-70B-Instruct, Claude-3-Opus, and Gemini-1.5-Flash-collaborate to both produce and answer intricate, doctoral-level probability problems without relying on any single "correct" reference. Rather than depending on an established ground truth, our investigation focuses on how agreement among diverse models can signal the reliability of their outputs and, by extension, reflect the overall quality of the generated questions. To measure this inter-model alignment, we apply a suite of statistical evaluations, including chi-square tests, Fleiss' Kappa coefficients, and confidence interval calculations, thereby capturing both precision in answers and clarity in question phrasing. Our analysis reveals that Claude and Gemini tend to frame questions more coherently and unambiguously, which is evidenced by their tighter confidence intervals and greater concordance with responding agents. In contrast, LLAMA exhibits wider confidence bands and a lower level of agreement, indicating more variability and reduced consistency in its question formulations. These observations support the notion that a multi-model collaborative strategy not only improves answer dependability but also offers an effective, data-driven mechanism for evaluating and refining question quality when no definitive solution exists. Ultimately, this work delivers actionable insights into enhancing AI-guided reasoning processes through coordinated interactions among heterogeneous language models.
format Preprint
id arxiv_https___arxiv_org_abs_2502_20758
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Collective Reasoning Among LLMs: A Framework for Answer Validation Without Ground Truth
Davoudi, Seyed Pouyan Mousavi
Davodi, Amin Gholami
Amiri-Margavi, Alireza
Fard, Alireza Shafiee
Jafari, Mahdi
Applications
Artificial Intelligence
Computation and Language
We introduce a new approach in which several advanced large language models-specifically GPT-4-0125-preview, Meta-LLAMA-3-70B-Instruct, Claude-3-Opus, and Gemini-1.5-Flash-collaborate to both produce and answer intricate, doctoral-level probability problems without relying on any single "correct" reference. Rather than depending on an established ground truth, our investigation focuses on how agreement among diverse models can signal the reliability of their outputs and, by extension, reflect the overall quality of the generated questions. To measure this inter-model alignment, we apply a suite of statistical evaluations, including chi-square tests, Fleiss' Kappa coefficients, and confidence interval calculations, thereby capturing both precision in answers and clarity in question phrasing. Our analysis reveals that Claude and Gemini tend to frame questions more coherently and unambiguously, which is evidenced by their tighter confidence intervals and greater concordance with responding agents. In contrast, LLAMA exhibits wider confidence bands and a lower level of agreement, indicating more variability and reduced consistency in its question formulations. These observations support the notion that a multi-model collaborative strategy not only improves answer dependability but also offers an effective, data-driven mechanism for evaluating and refining question quality when no definitive solution exists. Ultimately, this work delivers actionable insights into enhancing AI-guided reasoning processes through coordinated interactions among heterogeneous language models.
title Collective Reasoning Among LLMs: A Framework for Answer Validation Without Ground Truth
topic Applications
Artificial Intelligence
Computation and Language
url https://arxiv.org/abs/2502.20758