Indoor Mobility Semantics Annotation Using Coupled Conditional Markov Networks

2020 IEEE 36th International Conference on Data Engineering (ICDE) Pub Date : 2020-04-01 DOI:10.1109/ICDE48307.2020.00128

Huan Li, Hua Lu, M. A. Cheema, L. Shou, Gang Chen

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引用次数: 7

Abstract

Indoor mobility semantics analytics can greatly benefit many pertinent applications. Existing semantic annotation methods mainly focus on outdoor space and require extra knowledge such as POI category or human activity regularity. However, these conditions are difficult to meet in indoor venues with relatively small extents but complex topology. This work studies the annotation of indoor mobility semantics that describe an object’s mobility event (what ) at a semantic indoor region (where ) during a time period (when ). A coupled conditional Markov network (C2MN) is proposed with a set of feature functions carefully designed by incorporating indoor topology and mobility behaviors. C2MN is able to capture probabilistic dependencies among positioning records, semantic regions, and mobility events jointly. Nevertheless, the correlation of regions and events hinders the parameters learning. Therefore, we devise an alternate learning algorithm to enable the parameter learning over correlated variables. The extensive experiments demonstrate that our C2MN-based semantic annotation is efficient and effective on both real and synthetic indoor mobility data.

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基于耦合条件马尔可夫网络的室内移动语义标注

室内移动语义分析可以极大地有利于许多相关的应用。现有的语义标注方法主要集中在户外空间，需要额外的知识，如POI类别或人类活动的规律性。然而，这些条件在面积相对较小但拓扑结构复杂的室内场馆中很难满足。这项工作研究了室内移动语义的注释，该语义描述了一个时间段(何时)在语义室内区域(何地)中物体的移动事件(什么)。提出了一种耦合条件马尔可夫网络(C2MN)，该网络结合室内拓扑和移动行为，精心设计了一组特征函数。C2MN能够联合捕获定位记录、语义区域和移动事件之间的概率依赖关系。然而，区域和事件的相关性阻碍了参数的学习。因此，我们设计了一种替代学习算法来实现对相关变量的参数学习。大量的实验表明，我们基于c2mn的语义标注在真实和合成室内移动数据上都是高效的。

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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2020 IEEE 36th International Conference on Data Engineering (ICDE)

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