Related papers: TempoGPT: Enhancing Temporal Reasoning via Quantizing Embedding

TempoGPT: Enhancing Temporal Reasoning via Quantizing Embedding

URL: http://arxiv.org/abs/2501.07335v1
Date: Mon, 13 Jan 2025 13:47:05 GMT
Title: TempoGPT: Enhancing Temporal Reasoning via Quantizing Embedding
Authors: Haochuan Zhang, Chunhua Yang, Jie Han, Liyang Qin, Xiaoli Wang,
Abstract summary: We propose a multi-modal time series data construction approach and a multi-modal time series language model (TLM), TempoGPT. We construct multi-modal data for complex reasoning tasks by analyzing the variable-system relationships within a white-box system. Extensive experiments demonstrate that TempoGPT accurately perceives temporal information, logically infers conclusions, and achieves state-of-the-art in the constructed complex time series reasoning tasks.
Score: 13.996105878417204
License:
Abstract: Multi-modal language model has made advanced progress in vision and audio, but still faces significant challenges in dealing with complex reasoning tasks in the time series domain. The reasons are twofold. First, labels for multi-modal time series data are coarse and devoid of analysis or reasoning processes. Training with these data cannot improve the model's reasoning capabilities. Second, due to the lack of precise tokenization in processing time series, the representation patterns for temporal and textual information are inconsistent, which hampers the effectiveness of multi-modal alignment. To address these challenges, we propose a multi-modal time series data construction approach and a multi-modal time series language model (TLM), TempoGPT. Specially, we construct multi-modal data for complex reasoning tasks by analyzing the variable-system relationships within a white-box system. Additionally, proposed TempoGPT achieves consistent representation between temporal and textual information by quantizing temporal embeddings, where temporal embeddings are quantized into a series of discrete tokens using a predefined codebook; subsequently, a shared embedding layer processes both temporal and textual tokens. Extensive experiments demonstrate that TempoGPT accurately perceives temporal information, logically infers conclusions, and achieves state-of-the-art in the constructed complex time series reasoning tasks. Moreover, we quantitatively demonstrate the effectiveness of quantizing temporal embeddings in enhancing multi-modal alignment and the reasoning capabilities of TLMs. Code and data are available at https://github.com/zhanghaochuan20/TempoGPT.

Related papers

TimeCAP: Learning to Contextualize, Augment, and Predict Time Series Events with Large Language Model Agents [52.13094810313054]
TimeCAP is a time-series processing framework that creatively employs Large Language Models (LLMs) as contextualizers of time series data. TimeCAP incorporates two independent LLM agents: one generates a textual summary capturing the context of the time series, while the other uses this enriched summary to make more informed predictions. Experimental results on real-world datasets demonstrate that TimeCAP outperforms state-of-the-art methods for time series event prediction.
arXiv Detail & Related papers (2025-02-17T04:17:27Z)
Language in the Flow of Time: Time-Series-Paired Texts Weaved into a Unified Temporal Narrative [65.84249211767921]
Texts as Time Series (TaTS) considers the time-series-paired texts to be auxiliary variables of the time series. TaTS can be plugged into any existing numerical-only time series models and enable them to handle time series data with paired texts effectively.
arXiv Detail & Related papers (2025-02-13T03:43:27Z)
Time-VLM: Exploring Multimodal Vision-Language Models for Augmented Time Series Forecasting [26.4608782425897]
Time-VLM is a novel framework that bridges temporal, visual, and textual modalities for enhanced forecasting. Our framework comprises three key components: (1) a Retrieval-Augmented Learner, which extracts enriched temporal features through memory bank interactions; (2) a Vision-Augmented Learner, which encodes time series as informative images; and (3) a Text-Augmented Learner, which generates contextual textual descriptions.
arXiv Detail & Related papers (2025-02-06T05:59:45Z)
Position: Empowering Time Series Reasoning with Multimodal LLMs [49.73647759532127]
We argue that multimodal language models (MLLMs) can enable more powerful and flexible reasoning for time series analysis. We call on researchers and practitioners to leverage this potential by developing strategies that prioritize trust, interpretability, and robust reasoning in MLLMs.
arXiv Detail & Related papers (2025-02-03T16:10:48Z)
Time Series Language Model for Descriptive Caption Generation [11.796431549951055]
We introduce TSLM, a novel time series language model designed specifically for time series captioning. TSLM operates as an encoder-decoder model, leveraging both text prompts and time series data representations. We show that TSLM outperforms existing state-of-the-art approaches from multiple data modalities by a significant margin.
arXiv Detail & Related papers (2025-01-03T14:34:30Z)
Hierarchical Multimodal LLMs with Semantic Space Alignment for Enhanced Time Series Classification [4.5939667818289385]
HiTime is a hierarchical multi-modal model that seamlessly integrates temporal information into large language models. Our findings highlight the potential of integrating temporal features into LLMs, paving the way for advanced time series analysis.
arXiv Detail & Related papers (2024-10-24T12:32:19Z)
Evaluating Large Language Models on Time Series Feature Understanding: A Comprehensive Taxonomy and Benchmark [13.490168087823992]
Large Language Models (LLMs) offer the potential for automatic time series analysis and reporting. We introduce a comprehensive taxonomy of time series features, a critical framework that delineates various characteristics inherent in time series data. This dataset acts as a solid foundation for assessing the proficiency of LLMs in comprehending time series.
arXiv Detail & Related papers (2024-04-25T12:24:37Z)
Time-Aware Knowledge Representations of Dynamic Objects with Multidimensional Persistence [41.32931849366751]
We propose a new approach to a time-aware knowledge representation mechanism that focuses on implicit time-dependent topological information. In particular, we propose a new approach, named textitTemporal MultiPersistence (TMP), which produces multidimensional topological fingerprints of the data. TMP method improves the computational efficiency of the state-of-the-art multipersistence summaries up to 59.5 times.
arXiv Detail & Related papers (2024-01-24T00:33:53Z)
Time-LLM: Time Series Forecasting by Reprogramming Large Language Models [110.20279343734548]
Time series forecasting holds significant importance in many real-world dynamic systems. We present Time-LLM, a reprogramming framework to repurpose large language models for time series forecasting. Time-LLM is a powerful time series learner that outperforms state-of-the-art, specialized forecasting models.
arXiv Detail & Related papers (2023-10-03T01:31:25Z)
Multi-scale Attention Flow for Probabilistic Time Series Forecasting [68.20798558048678]
We propose a novel non-autoregressive deep learning model, called Multi-scale Attention Normalizing Flow(MANF) Our model avoids the influence of cumulative error and does not increase the time complexity. Our model achieves state-of-the-art performance on many popular multivariate datasets.
arXiv Detail & Related papers (2022-05-16T07:53:42Z)
Interpretable Time-series Representation Learning With Multi-Level Disentanglement [56.38489708031278]
Disentangle Time Series (DTS) is a novel disentanglement enhancement framework for sequential data. DTS generates hierarchical semantic concepts as the interpretable and disentangled representation of time-series. DTS achieves superior performance in downstream applications, with high interpretability of semantic concepts.
arXiv Detail & Related papers (2021-05-17T22:02:24Z)

This list is automatically generated from the titles and abstracts of the papers in this site.