从多元时间序列学习线性动力系统:一个基于矩阵分解的框架

Zitao Liu, M. Hauskrecht
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引用次数: 23

摘要

线性动力系统(LDS)模型可以说是现实世界工程和金融应用中最常用的时间序列模型,因为它相对简单,数学上可预测的行为,以及对模型的精确推断和预测可以有效地完成。在这项工作中,我们提出了一个新的广义LDS框架,gLDS,用于从多元时间序列(MTS)数据集合中学习LDS模型,这是基于矩阵分解的,这与传统的EM学习和谱学习算法不同。在gLDS中,每个MTS序列被分解为共享发射矩阵和序列特定(隐藏)状态动态的乘积,其中单个隐藏状态序列在共享转移矩阵的帮助下表示。我们的广义公式的一个优点是,各种类型的约束可以很容易地合并到学习过程中。此外,我们提出了一种新的时间平滑正则化方法来学习LDS模型,该方法稳定了模型、学习算法和预测。在多个真实MTS数据上的实验表明:(1)从gLDS中学习的正则LDS模型比其他LDS学习算法具有更好的时间序列预测性能;(2)约束可以直接融入到学习过程中,实现稳定、低秩等特殊性质;(3)提出的时间平滑正则化促进更稳定和准确的预测。
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Learning Linear Dynamical Systems from Multivariate Time Series: A Matrix Factorization Based Framework
The linear dynamical system (LDS) model is arguably the most commonly used time series model for real-world engineering and financial applications due to its relative simplicity, mathematically predictable behavior, and the fact that exact inference and predictions for the model can be done efficiently. In this work, we propose a new generalized LDS framework, gLDS, for learning LDS models from a collection of multivariate time series (MTS) data based on matrix factorization, which is different from traditional EM learning and spectral learning algorithms. In gLDS, each MTS sequence is factorized as a product of a shared emission matrix and a sequence-specific (hidden) state dynamics, where an individual hidden state sequence is represented with the help of a shared transition matrix. One advantage of our generalized formulation is that various types of constraints can be easily incorporated into the learning process. Furthermore, we propose a novel temporal smoothing regularization approach for learning the LDS model, which stabilizes the model, its learning algorithm and predictions it makes. Experiments on several real-world MTS data show that (1) regular LDS models learned from gLDS are able to achieve better time series predictive performance than other LDS learning algorithms; (2) constraints can be directly integrated into the learning process to achieve special properties such as stability, low-rankness; and (3) the proposed temporal smoothing regularization encourages more stable and accurate predictions.
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