异质多变量函数时间序列建模:状态空间方法

IF 8.9 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Peiyao Liu;Junpeng Lin;Chen Zhang
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引用次数: 0

摘要

函数数据在时间序列分析领域越来越受欢迎。然而,迄今为止,异质多变量函数时间序列建模仍是一个研究空白。为了填补这一空白,本文提出了时变函数状态空间模型(TV-FSSM)。它使用函数分解来提取函数观测值的特征,其中分解系数被视为根据张量自回归模型演化的潜在状态。这种双层结构一方面可以有效地提取连续的函数特征,另一方面可以灵活、概括地描述不同时间点之间的数据异质性。为参数估计开发了期望最大化(EM)框架,其中包含了正则化和约束条件,以实现更好的模型互操作性。随着样本量的增加,给出了 EM 算法的增量学习版本,以有效更新模型参数。此外,还介绍了一些模型特性,包括模型可识别性条件、收敛问题、时间复杂性及其一步预测误差的界限。在真实数据集和合成数据集上进行了广泛的实验,以评估所提出框架的预测准确性和效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heterogeneous Multivariate Functional Time Series Modeling: A State Space Approach
Functional data have been gaining increasing popularity in the field of time series analysis. However, so far modeling heterogeneous multivariate functional time series remains a research gap. To fill it, this paper proposes a time-varying functional state space model (TV-FSSM). It uses functional decomposition to extract features of the functional observations, where the decomposition coefficients are regarded as latent states that evolve according to a tensor autoregressive model. This two-layer structure can on the one hand efficiently extract continuous functional features, and on the other provide a flexible and generalized description of data heterogeneity among different time points. An expectation maximization (EM) framework is developed for parameter estimation, where regularization and constraints are incorporated for better model interoperability. As the sample size grows, an incremental learning version of the EM algorithm is given to efficiently update the model parameters. Some model properties, including model identifiability conditions, convergence issues, time complexities, and bounds of its one-step-ahead prediction errors, are also presented. Extensive experiments on both real and synthetic datasets are performed to evaluate the predictive accuracy and efficiency of the proposed framework.
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来源期刊
IEEE Transactions on Knowledge and Data Engineering
IEEE Transactions on Knowledge and Data Engineering 工程技术-工程:电子与电气
CiteScore
11.70
自引率
3.40%
发文量
515
审稿时长
6 months
期刊介绍: The IEEE Transactions on Knowledge and Data Engineering encompasses knowledge and data engineering aspects within computer science, artificial intelligence, electrical engineering, computer engineering, and related fields. It provides an interdisciplinary platform for disseminating new developments in knowledge and data engineering and explores the practicality of these concepts in both hardware and software. Specific areas covered include knowledge-based and expert systems, AI techniques for knowledge and data management, tools, and methodologies, distributed processing, real-time systems, architectures, data management practices, database design, query languages, security, fault tolerance, statistical databases, algorithms, performance evaluation, and applications.
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