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Main Authors: Lu, Junkai, Chen, Peng, Wu, Xingjian, Shu, Yang, Guo, Chenjuan, Jensen, Christian S., Yang, Bin
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.23161
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author Lu, Junkai
Chen, Peng
Wu, Xingjian
Shu, Yang
Guo, Chenjuan
Jensen, Christian S.
Yang, Bin
author_facet Lu, Junkai
Chen, Peng
Wu, Xingjian
Shu, Yang
Guo, Chenjuan
Jensen, Christian S.
Yang, Bin
contents Time series reasoning demands both the perception of complex dynamics and logical depth. However, existing LLM-based approaches exhibit two limitations: they often treat time series merely as text or images, failing to capture the patterns like trends and seasonalities needed to answer specific questions; and when trained on a mix of simple and complex tasks, simpler objectives often dominate the learning process, hindering the development of deep reasoning capabilities. To address these limitations, we propose the Pattern-Aware Alignment and Balanced Reasoning model (PATRA), introducing a pattern-aware mechanism that extracts trend and seasonality patterns from time series to achieve deep alignment. Furthermore, we design a task-aware balanced reward to harmonize learning across tasks of varying difficulty, incentivizing the generation of coherent Chains of Thought. Extensive experiments show that PATRA outperforms strong baselines across diverse Time Series Question Answering (TSQA) tasks, demonstrating superior cross-modal understanding and reasoning capability.
format Preprint
id arxiv_https___arxiv_org_abs_2602_23161
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle PATRA: Pattern-Aware Alignment and Balanced Reasoning for Time Series Question Answering
Lu, Junkai
Chen, Peng
Wu, Xingjian
Shu, Yang
Guo, Chenjuan
Jensen, Christian S.
Yang, Bin
Artificial Intelligence
Time series reasoning demands both the perception of complex dynamics and logical depth. However, existing LLM-based approaches exhibit two limitations: they often treat time series merely as text or images, failing to capture the patterns like trends and seasonalities needed to answer specific questions; and when trained on a mix of simple and complex tasks, simpler objectives often dominate the learning process, hindering the development of deep reasoning capabilities. To address these limitations, we propose the Pattern-Aware Alignment and Balanced Reasoning model (PATRA), introducing a pattern-aware mechanism that extracts trend and seasonality patterns from time series to achieve deep alignment. Furthermore, we design a task-aware balanced reward to harmonize learning across tasks of varying difficulty, incentivizing the generation of coherent Chains of Thought. Extensive experiments show that PATRA outperforms strong baselines across diverse Time Series Question Answering (TSQA) tasks, demonstrating superior cross-modal understanding and reasoning capability.
title PATRA: Pattern-Aware Alignment and Balanced Reasoning for Time Series Question Answering
topic Artificial Intelligence
url https://arxiv.org/abs/2602.23161