Inter-Batch Gap Filling Using Compressive Sampling for Low-Cost IoT Vibration Sensors

B. Ooi, S. Liew, W. Beh, S. Shirmohammadi
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Abstract

To measure machinery vibration, a sensor system consisting of a 3-axis accelerometer, ADXL345, attached to a self-contained system-on-a-chip with integrated Wi-Fi capabilities, ESP8266, is a low-cost solution. In this work, we first show that in such a system, the widely used direct-read-and-send method which samples and sends individually acquired vibration data points to the server is not effective, especially using Wi-Fi connection. We show that the micro delays in each individual data transmission will limit the sensor sampling rate and will also affect the time of the acquired data points not evenly spaced. Then, we propose that vibration should be sampled in batches before sending the acquired data out from the sensor node. The vibration for each batch should be acquired continuously without any form of interruption in between the sampling process to ensure the data points are evenly spaced. To fill the data gaps between the batches, we propose the use of compressive sampling technique. Our experimental results show that the maximum sampling rate of the direct-read-and-send method is 350Hz with a standard uncertainty of 12.4, and the method loses more information compared to our proposed solution that can measure the vibration wirelessly and continuously up to 633Hz. The gaps filled using compressive sampling can achieve an accuracy in terms of mean absolute error (MAE) of up to 0.06 with a standard uncertainty of 0.002, making the low-cost vibration sensor node a cost-effective solution.
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基于压缩采样的低成本物联网振动传感器间歇间隙填充
为了测量机械振动,一个由3轴加速度计ADXL345组成的传感器系统,连接到一个集成Wi-Fi功能的独立片上系统ESP8266,是一种低成本的解决方案。在这项工作中,我们首先表明,在这样的系统中,广泛使用的直接读取和发送方法,即采样并将单独获取的振动数据点发送到服务器是无效的,特别是使用Wi-Fi连接。我们表明,在每个单独的数据传输的微延迟将限制传感器的采样率,也将影响采集的数据点的时间不是均匀间隔。然后,我们提出在将采集到的数据从传感器节点发送出去之前,应该对振动进行批量采样。每个批次的振动应连续获取,采样过程之间没有任何形式的中断,以确保数据点间隔均匀。为了填补批次之间的数据空白,我们提出使用压缩采样技术。实验结果表明,直接读取和发送方法的最大采样率为350Hz,标准不确定度为12.4,与我们提出的可以无线连续测量633Hz的方法相比,该方法丢失的信息更多。使用压缩采样填充的间隙可以实现平均绝对误差(MAE)高达0.06的精度,标准不确定度为0.002,使低成本的振动传感器节点成为一种经济高效的解决方案。
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