A Multi-Channel Temperature Measurement and Fusion System Based on Cortex-M4

2019 International Conference on Meteorology Observations (ICMO) Pub Date : 2019-12-01 DOI:10.1109/ICMO49322.2019.9026147

Zhao Panpan, Yang Bifeng, Zhang Yi, Ma Shangchang

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Abstract

In the surface meteorological observation service, uncontrollable factors, such as signal interference, extreme weather events, sensor failures, et al., inevitably cause temperature observables missing or observing errors, and then affecting integrity and accuracy of the single-channel measurements. However, collecting the temperature records in a multi-channel way can alleviate the data loss and improves the data reliability. This paper proposes a multi-channel temperature acquisition and fusion system, which takes the STM32F411 micro controller as its master chip. The system fuses the temperature observables from multiple channels, which can realize lower computer positioning. Finally, the lower computer transmits the temperature and location data to the software on upper computer by the 4G-network, and all the data can be displayed and stored there. We evaluate the performance of this system by comparing the fused data with the single-channel data. The test results show that the fused data perform better in terms of integrity and accuracy. During the tests, the system runs smoothly with data transferring stably, which indicates that it could be used in practice applications.

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基于Cortex-M4的多通道温度测量与融合系统

在地面气象观测业务中，信号干扰、极端天气事件、传感器故障等不可控因素不可避免地造成温度观测缺失或观测误差，进而影响单通道测量的完整性和准确性。采用多通道采集温度记录可以减少数据的丢失，提高数据的可靠性。本文提出了一种以STM32F411单片机为主控芯片的多通道温度采集与融合系统。该系统融合了多路温度观测数据，可实现下位机定位。最后，下位机通过4g网络将温度和位置数据传输给上位机软件，并在上位机软件上显示和存储所有数据。通过将融合后的数据与单通道数据进行比较，评价了该系统的性能。实验结果表明，融合后的数据具有较好的完整性和准确性。测试结果表明，系统运行平稳，数据传输稳定，可用于实际应用。

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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2019 International Conference on Meteorology Observations (ICMO)

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