Error Bounds for Online Predictions of Linear-Chain Conditional Random Fields: Application to Activity Recognition for Users of Rolling Walkers

2011 10th International Conference on Machine Learning and Applications and Workshops Pub Date : 2011-12-18 DOI:10.1109/ICMLA.2011.64

M. Sinn, P. Poupart

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引用次数: 2

Abstract

Linear-Chain Conditional Random Fields (L-CRFs) are a versatile class of models for the distribution of a sequence of hidden states ("labels") conditional on a sequence of observable variables. In general, the exact conditional marginal distributions of the labels can be computed only after the complete sequence of observations has been obtained, which forbids the prediction of labels in an online fashion. This paper considers approximations of the marginal distributions which only take into account past observations and a small number of observations in the future. Based on these approximations, labels can be predicted close to real-time. We establish rigorous bounds for the marginal distributions which can be used to assess the approximation error at runtime. We apply the results to an L-CRF which recognizes the activity of rolling walker users from a stream of sensor data. It turns out that if we allow for a prediction delay of half of a second, the online predictions achieve almost the same accuracy as the offline predictions based on the complete observation sequences.

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线性链条件随机场在线预测的误差界:在滚动助行器用户活动识别中的应用

线性链条件随机场(L-CRFs)是一类通用的模型，用于在一系列可观察变量的条件下分布一系列隐藏状态(“标签”)。一般来说，只有在获得完整的观测序列之后才能计算标签的精确条件边际分布，这就禁止了以在线方式预测标签。本文考虑只考虑过去观测值和未来少量观测值的边际分布近似。基于这些近似，可以接近实时地预测标签。我们为边际分布建立了严格的界限，可以用来评估运行时的近似误差。我们将结果应用于L-CRF，该f从传感器数据流中识别滚动助行器用户的活动。事实证明，如果我们允许半秒的预测延迟，那么基于完整观测序列的在线预测几乎可以达到与离线预测相同的精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 10th International Conference on Machine Learning and Applications and Workshops

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