English

DetermLR: Augmenting LLM-based Logical Reasoning from Indeterminacy to Determinacy

Artificial Intelligence 2024-05-28 v2 Computation and Language

Abstract

Recent advances in large language models (LLMs) have revolutionized the landscape of reasoning tasks. To enhance the capabilities of LLMs to emulate human reasoning, prior studies have focused on modeling reasoning steps using various thought structures like chains, trees, or graphs. However, LLM-based reasoning still encounters the following challenges: (1) Limited adaptability of preset structures to diverse tasks; (2) Insufficient precision in exploiting known conditions to derive new ones; and (3) Inadequate consideration of historical reasoning experiences for subsequent reasoning steps. To this end, we propose DetermLR, a novel perspective that rethinks the reasoning process as an evolution from indeterminacy to determinacy. First, we categorize known conditions into two types: determinate and indeterminate premises This provides an oveall direction for the reasoning process and guides LLMs in converting indeterminate data into progressively determinate insights. Subsequently, we leverage quantitative measurements to prioritize more relevant premises to explore new insights. Furthermore, we automate the storage and extraction of available premises and reasoning paths with reasoning memory, preserving historical reasoning details for subsequent reasoning steps. Comprehensive experimental results demonstrate that DetermLR surpasses all baselines on various logical reasoning benchmarks: LogiQA, ProofWriter, FOLIO, PrOntoQA, and LogicalDeduction. Compared to previous multi-step reasoning methods, DetermLR achieves higher accuracy with fewer reasoning steps, highlighting its superior efficiency and effectiveness in solving logical reasoning tasks.

Keywords

Cite

@article{arxiv.2310.18659,
  title  = {DetermLR: Augmenting LLM-based Logical Reasoning from Indeterminacy to Determinacy},
  author = {Hongda Sun and Weikai Xu and Wei Liu and Jian Luan and Bin Wang and Shuo Shang and Ji-Rong Wen and Rui Yan},
  journal= {arXiv preprint arXiv:2310.18659},
  year   = {2024}
}

Comments

Accepted at ACL 2024 Main, Code repo: https://github.com/XiaoMi/DetermLR

R2 v1 2026-06-28T13:04:34.972Z