Kinect=IMU? Learning MIMO Signal Mappings to Automatically Translate Activity Recognition Systems across Sensor Modalities

2012 16th International Symposium on Wearable Computers Pub Date : 2012-06-18 DOI:10.1109/ISWC.2012.17

O. Baños, Alberto Calatroni, M. Damas, H. Pomares, I. Rojas, Hesam Sagha, J. Millán, G. Tröster, Ricardo Chavarriaga, D. Roggen

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引用次数: 40

Abstract

We propose a method to automatically translate a preexisting activity recognition system, devised for a source sensor domain S, so that it can operate on a newly discovered target sensor domain T, possibly of different modality. First, we use MIMO system identification techniques to obtain a function that maps the signals of S to T. This mapping is then used to translate the recognition system across the sensor domains. We demonstrate the approach in a 5-class gesture recognition problem translating between a vision-based skeleton tracking system (Kinect), and inertial measurement units (IMUs). An adequate mapping can be learned in as few as a single gesture (3 seconds) in this scenario. The accuracy after Kinect → IMU or IMU → Kinect translation is 4% below the baseline for the same limb. Translating across modalities and also to an adjacent limb yields an accuracy 8% below baseline. We discuss the sources of errors and means for improvement. The approach is independent of the sensor modalities. It supports multimodal activity recognition and more flexible real-world activity recognition system deployments.

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Kinect = IMU ?学习MIMO信号映射自动转换跨传感器模态的活动识别系统

我们提出了一种方法来自动转换预先存在的活动识别系统，为源传感器域S设计，使其能够在新发现的目标传感器域T上运行，可能是不同的模态。首先，我们使用MIMO系统识别技术获得一个将S信号映射到t的函数，然后使用该映射在传感器域上翻译识别系统。我们在一个基于视觉的骨骼跟踪系统(Kinect)和惯性测量单元(imu)之间转换的5类手势识别问题中演示了该方法。在这种情况下，只需一个手势(3秒)就可以学会适当的映射。Kinect→IMU或IMU→Kinect转换后的精度比同一肢体的基线低4%。跨模式转换和邻肢转换的准确率比基线低8%。我们讨论了误差的来源和改进的方法。该方法与传感器模态无关。它支持多模态活动识别和更灵活的现实世界活动识别系统部署。

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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2012 16th International Symposium on Wearable Computers

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