Temporalizing Confidence: Evaluation of Chain-of-Thought Reasoning with Signal Temporal Logic
- ReLMLRM
Large Language Models (LLMs) have shown impressive performance in mathematical reasoning tasks when guided by Chain-of-Thought (CoT) prompting. However, they tend to produce highly confident yet incorrect outputs, which poses significant risks in domains like education, where users may lack the expertise to assess reasoning steps. To address this, we propose a structured framework that models stepwise confidence as a temporal signal and evaluates it using Signal Temporal Logic (STL). In particular, we define formal STL-based constraints to capture desirable temporal properties and compute robustness scores that serve as structured, interpretable confidence estimates. Our approach also introduces a set of uncertainty reshaping strategies to enforce smoothness, monotonicity, and causal consistency across the reasoning trajectory. Experiments show that our approach consistently improves calibration metrics and provides more reliable uncertainty estimates than conventional confidence aggregation and post-hoc calibration.
View on arXiv@article{mao2025_2506.08243, title={ Temporalizing Confidence: Evaluation of Chain-of-Thought Reasoning with Signal Temporal Logic }, author={ Zhenjiang Mao and Artem Bisliouk and Rohith Reddy Nama and Ivan Ruchkin }, journal={arXiv preprint arXiv:2506.08243}, year={ 2025 } }