便携式心电显示器:通过一个高级设计项目的体验式学习

2018 11th Biomedical Engineering International Conference (BMEiCON) Pub Date : 2018-11-01 DOI:10.1109/BMEICON.2018.8609964

Sawita Natumploy, Ratchada Sophrom, Dahmmaet Bunnjaweht

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引用次数: 4

摘要

本文介绍了通信与信号处理专业学生进行的一项高级设计项目的案例。该项目的目的是设计和实现一个便携式心电显示器。本课题采用Arduino单片机和Duinopeak ECG Shield。屏蔽由一个仪表放大器、一组滤波器和信号调理电路组成。心电屏蔽器发出的信号被送入Arduino微控制器进行模数转换。将模拟心电信号转换为数字数据，进行信号处理和心率计算。在目标屏幕上显示心率和心电图波形。该便携式心电显示器能够按照设计要求显示心率和心电波形。心率读数准确率在1.267%以内。实现的软件集能够在目标设备上读取、写入和显示心电波形。这个项目是一次很好的学习经历。此外，我们发现这类项目对于对医疗仪器感兴趣的学生来说是一个非常相关的高级设计项目。初步设计、中间设计和基准后设计可以看作是重复的体验式学习周期。持续使用学习周期指导个人和团体朝着提高绩效和高质量的结果。学生越多地使用体验式学习循环，他们就越能获得持续的进步。

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Portable ECG Display: An Experiential Learning through a Senior Design Project

This paper presents the case of a senior design project conducted by students who took the communication and signal processing track. The objective of the project was to design and implement a portable ECG display. This project employed the Arduino microcontroller and Duinopeak ECG Shield. The shield consisted of an instrumentation amplifier, a set of filters and signal conditioning circuits. The signal from the ECG Shield was sent to Arduino microcontroller for the analog to digital conversion. The analog ECG signal was transformed to digital data for signal processing and the heart rate calculation. The heart rate and ECG waveform were displayed on the target screen. The portable ECG display was capable of displaying heart rate and ECG waveform as designed. The heart rate reading accuracy was within 1.267%. The implemented software set was able to read, write and display ECG waveform on the target device. This project was an excellent learning experience. Further, it was found that this kind of project would be a very relevant senior design project for students interested in medical instrumentation. The preliminary design, intermediate design and after–benchmarked design could be viewed as repeated experiential learning cycles. Continuous use of the learning cycle guides individuals and groups towards improved performance and high quality outcomes. The more students use the experiential learning cycle, the more they will gain continuous improvement.

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来源期刊

2018 11th Biomedical Engineering International Conference (BMEiCON)

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