CN209404774U - A device for removing wearable ECG motion interference - Google Patents

Abstract

The utility model provides a kind of device for removing wearable electrocardio motion artifacts.The device includes two groups of wearable electrodes, ecg signal acquiring module, with reference to motor message acquisition module and filter, wherein, one group of wearable electrode is connected with ecg signal acquiring module, another group of wearable electrode is connected with reference motor message acquisition module, and ecg signal acquiring module and reference motor message acquisition module are connected with filter respectively.The device of the utility model has design simply, Yi Shixian, the significant advantages such as low cost.

Description

Translated fromChinese

一种去除可穿戴心电运动干扰的装置A device for removing wearable ECG motion interference

技术领域technical field

本实用新型涉及一种可穿戴心电运动干扰的去除装置，更确切地说是采用自适应噪声抑制的方法去除可穿戴心电运动干扰的装置。The utility model relates to a device for removing wearable electrocardiographic motion interference, more precisely a device for removing wearable electrocardiographic motion interference by adopting an adaptive noise suppression method.

背景技术Background technique

随着微处理器和MEMS传感技术的发展，可穿戴技术被广泛应用于日常心电监测领域，用于探测偶发的心律不齐或者监测心脏用药或术后恢复情况。在可穿戴心电监测应用中，心电数据采集存在多种噪声干扰，包括：基线漂移、工频干扰、肌电干扰和运动干扰等。这些噪声干扰严重影响心电波形的诊断，尤其是ST波段的识别和QRS波形的识别。其中，运动干扰来源包括身体与电极表面的局部摩擦、身体与电极位置的相对运动。由于运动干扰的幅值大小与心电信号的幅值大小相当甚至更大，并且其频谱范围和心电信号的频谱带宽重合，因此运动干扰严重影响了可穿戴心电监测数据的质量。With the development of microprocessor and MEMS sensing technology, wearable technology is widely used in the field of daily ECG monitoring to detect occasional arrhythmia or monitor cardiac medication or postoperative recovery. In the application of wearable ECG monitoring, there are many kinds of noise interference in ECG data acquisition, including: baseline drift, power frequency interference, myoelectric interference, and motion interference. These noise interference seriously affect the diagnosis of ECG waveform, especially the recognition of ST band and QRS waveform. Among them, the sources of motion interference include local friction between the body and the electrode surface, and relative motion between the body and the electrode. Since the amplitude of motion interference is equal to or even greater than that of ECG signals, and its spectrum range coincides with the spectral bandwidth of ECG signals, motion interference seriously affects the quality of wearable ECG monitoring data.

抑制运动干扰，可以从可穿戴传感设备的电极和算法角度进行设计。电极设计角度主要集中在皮肤，衣服和电极的良好接触，如采用紧身的绷带等。从数据处理算法角度，软件处理运动降噪方法包括：设计并优化大量的滤波器、小波变换方法、自适应滤波和盲信号分离方法等。其中，自适应噪声抑制方法的运算量相对更小，对处理器要求低，能够满足可穿戴心电监测实时分析的要求。Suppressing motion interference can be designed from the perspective of electrodes and algorithms of wearable sensing devices. The electrode design angle mainly focuses on good contact between skin, clothing and electrodes, such as using tight bandages. From the perspective of data processing algorithms, software processing motion noise reduction methods include: designing and optimizing a large number of filters, wavelet transform methods, adaptive filtering and blind signal separation methods, etc. Among them, the computational complexity of the adaptive noise suppression method is relatively small, and the processor requirements are low, which can meet the real-time analysis requirements of wearable ECG monitoring.

为了提高自适应噪声抑制方法的降噪效果，从外部传感器获取和运动干扰相干的数据作为参考信号是普遍采用的方法。外部传感器采集参考信号种类很多，在以往的研究当中，参考信号的选取主要采用：加速度信号、电极/皮肤阻抗信号、皮肤形变信号等。不同的参考信号对应采用不同的传感器硬件设备，上述参考信号采集方案均需要额外增加可穿戴设备的硬件成本，同时增加了设备设计的难度。为了保证参考信号与运动心电信号的相干性，同时提高可穿戴设备的舒适度、降低设备设计难度，参考信号传感器的选取显得尤为重要。In order to improve the noise reduction effect of the adaptive noise suppression method, it is a common method to obtain the data coherent with the motion disturbance from the external sensor as the reference signal. There are many types of reference signals collected by external sensors. In previous studies, the selection of reference signals mainly used: acceleration signals, electrode/skin impedance signals, skin deformation signals, etc. Different reference signals correspond to different sensor hardware devices, and the above-mentioned reference signal acquisition schemes require an additional increase in the hardware cost of the wearable device, and at the same time increase the difficulty of device design. In order to ensure the coherence between the reference signal and the exercise ECG signal, improve the comfort of the wearable device, and reduce the difficulty of device design, the selection of the reference signal sensor is particularly important.

发明内容Contents of the invention

为了克服上述缺陷，本实用新型提出一种去除可穿戴心电运动干扰的装置，具有设计简单，易实现，低成本等显著优势。In order to overcome the above-mentioned defects, the utility model proposes a wearable device for removing the interference of electrocardiographic movement, which has obvious advantages such as simple design, easy realization, and low cost.

本实用新型采用的技术方案为：The technical scheme that the utility model adopts is:

一种去除可穿戴心电运动干扰的装置，包括两组可穿戴电极、心电信号采集模块、参考运动信号采集模块和滤波器，其中，一组可穿戴电极与心电信号采集模块相连，另一组可穿戴电极与参考运动信号采集模块相连，所述心电信号采集模块和参考运动信号采集模块分别与滤波器相连。A device for removing wearable ECG movement interference, including two sets of wearable electrodes, an ECG signal acquisition module, a reference motion signal acquisition module and a filter, wherein one set of wearable electrodes is connected to the ECG signal acquisition module, and the other A set of wearable electrodes is connected to the reference motion signal acquisition module, and the ECG signal acquisition module and the reference motion signal acquisition module are respectively connected to the filter.

进一步地，所述可穿戴电极采用电极组，包括两个以上的电极。Further, the wearable electrode adopts an electrode group, including more than two electrodes.

进一步地，两组可穿戴电极的尺寸和材料均相同。Further, the size and material of the two sets of wearable electrodes are the same.

进一步地，两组可穿戴电极之间设有隔离材料。Further, an isolation material is provided between the two sets of wearable electrodes.

进一步地，与心电信号采集模块相连可穿戴电极设置在靠近人体一侧，与参考运动信号采集模块相连的可穿戴电极设置在远离人体一侧。Furthermore, the wearable electrode connected to the ECG signal acquisition module is arranged on the side close to the human body, and the wearable electrode connected to the reference motion signal acquisition module is arranged on the side away from the human body.

进一步地，所述运动心电信号采集模块和参考运动信号采集模块均包括依次相连的采集前端电路、信号放大电路、AD转换电路和数据滤波电路。Further, the exercise ECG signal acquisition module and the reference exercise signal acquisition module both include an acquisition front-end circuit, a signal amplification circuit, an AD conversion circuit and a data filtering circuit connected in sequence.

进一步地，所述数据滤波电路采用工频陷波处理、高频滤波处理或低频滤波处理的数字滤波。Further, the data filtering circuit adopts digital filtering of power frequency notch processing, high frequency filtering processing or low frequency filtering processing.

进一步地，所述运动心电信号采集模块和参考运动信号采集模块的采集前端电路的配置相同。Further, the acquisition front-end circuits of the exercise ECG signal acquisition module and the reference exercise signal acquisition module have the same configuration.

本实用新型提出了一种新式的参考运动信号采集装置，采用心电电极作为参考传感器，相比现有技术未引入新的传感器，简化了电路和系统设计，可穿戴更方便，舒适度更高。The utility model proposes a new type of reference motion signal acquisition device, which uses ECG electrodes as reference sensors. Compared with the prior art, no new sensors are introduced, the circuit and system design are simplified, and it is more convenient to wear and more comfortable. .

附图说明Description of drawings

图1为本实用新型去除可穿戴心电运动干扰装置的示意图；Fig. 1 is the schematic diagram that the utility model removes the wearable electrocardiomotion interference device;

图2为本实用新型实施例中可穿戴电极的结构示意图，(a)俯视图，(b)侧视图；Fig. 2 is a schematic structural diagram of a wearable electrode in an embodiment of the present invention, (a) a top view, (b) a side view;

图3为本实用新型实施例中运动心电信号&参考运动信号采集模块示意图。Fig. 3 is a schematic diagram of the exercise ECG signal & reference exercise signal acquisition module in the embodiment of the present invention.

具体实施方式Detailed ways

图1为本实用新型去除可穿戴心电运动干扰装置的示意图，包括两组可穿戴电极、心电信号采集模块、参考运动信号采集模块和自适应噪声抑制模块四个部分，其中一组可穿戴电极与心电信号采集模块相连，另一组可穿戴电极与参考运动信号采集模块相连，心电信号采集模块和参考运动信号采集模块与滤波器相连。滤波器用于去除心电信号中的运动干扰；滤波器的输入为上述心电信号采集模块和参考运动信号采集模块处理后的数字信号，输出为降噪处理后的心电信号。Fig. 1 is a schematic diagram of the utility model for removing wearable ECG motion interference device, including two sets of wearable electrodes, ECG signal acquisition module, reference motion signal acquisition module and adaptive noise suppression module four parts, one of which is wearable The electrodes are connected to the ECG signal acquisition module, another group of wearable electrodes is connected to the reference motion signal acquisition module, and the ECG signal acquisition module and the reference motion signal acquisition module are connected to the filter. The filter is used to remove motion interference in the ECG signal; the input of the filter is the digital signal processed by the above-mentioned ECG signal acquisition module and the reference motion signal acquisition module, and the output is the noise-reduced ECG signal.

图2为可穿戴电极的结构示意图，电极1和2组成采集运动参考信号的电极组，且远离人体一侧；电极3和4组成采集心电信号的电极组，且靠近人体一侧。Figure 2 is a schematic diagram of the structure of wearable electrodes. Electrodes 1 and 2 form an electrode group for collecting motion reference signals and are far away from the human body; electrodes 3 and 4 form an electrode group for collecting ECG signals and are close to the human body.

电极1～4的尺寸一致，电极1～4均采用导电银纤维材料制作；电极1和电极3之间采用棉质、聚酯纤维等材料5进行隔离，电极2和电极4之间采用棉质、聚酯纤维等材料6进行隔离；电极1～4利用针织技术与绷带7进行固定。Electrodes 1 to 4 have the same size, and electrodes 1 to 4 are made of conductive silver fiber material; Cotton, polyester fiber and other materials 5 are used for isolation between electrodes 1 and 3, and cotton is used between electrodes 2 and 4. , polyester fiber and other materials 6 for isolation; electrodes 1-4 are fixed with bandage 7 by knitting technology.

图3为运动心电信号&参考运动信号采集模块示意图，电极1和2与参考运动信号采集模块8连接，电极3和4与心电信号采集模块9连接。参考运动信号采集模块8和心电信号采集模块9采用相同配置和功能的电路实现，具有信号放大、AD转换、数据滤波的功能，数据滤波可采用工频陷波处理、高频滤波处理或低频滤波处理等数字滤波方式；参考运动信号采集模块8和心电信号采集模块9处理后输出陷波处理后的运动参考数字信号10和心电数字信号11 输入到滤波器，滤波器输出去除干扰的心电信号12。FIG. 3 is a schematic diagram of an exercise ECG signal & reference exercise signal acquisition module. Electrodes 1 and 2 are connected to the reference exercise signal acquisition module 8, and electrodes 3 and 4 are connected to the ECG signal acquisition module 9. The reference motion signal acquisition module 8 and the electrocardiographic signal acquisition module 9 are implemented by circuits with the same configuration and function, and have the functions of signal amplification, AD conversion, and data filtering. The data filtering can adopt power frequency notch processing, high frequency filtering processing or low frequency filtering. Digital filtering methods such as filter processing; after the reference motion signal acquisition module 8 and the electrocardiographic signal acquisition module 9 are processed, the motion reference digital signal 10 after the notch wave processing and the electrocardiographic digital signal 11 are input to the filter, and the filter output removes interference. ECG12.

以上所述仅为本实用新型的优选例实施方式，并不构成对本实用新型保护范围的限定。任何在本实用新型的精神和原则之内所作的任何修改、等同替换和改进等，均应包含在本实用新型的权利要求保护范围之内。The above descriptions are only preferred embodiments of the present utility model, and do not constitute a limitation to the protection scope of the present utility model. Any modifications, equivalent replacements and improvements made within the spirit and principles of the present utility model shall be included in the protection scope of the claims of the present utility model.

Claims (8)

Translated fromChinese

1.一种去除可穿戴心电运动干扰的装置，其特征在于，包括两组可穿戴电极、心电信号采集模块、参考运动信号采集模块和滤波器，其中，一组可穿戴电极与心电信号采集模块相连，另一组可穿戴电极与参考运动信号采集模块相连，所述心电信号采集模块和参考运动信号采集模块分别与滤波器相连。1. A device for removing wearable ECG movement interference, characterized in that it includes two groups of wearable electrodes, ECG signal acquisition module, reference motion signal acquisition module and filter, wherein one group of wearable electrodes and ECG The signal acquisition module is connected, and another group of wearable electrodes is connected with the reference exercise signal acquisition module, and the ECG signal acquisition module and the reference exercise signal acquisition module are respectively connected with the filter.2.根据权利要求1所述的一种去除可穿戴心电运动干扰的装置，其特征在于，所述可穿戴电极采用电极组，包括两个以上的电极。2. A device for removing wearable ECG interference according to claim 1, wherein the wearable electrode adopts an electrode group including more than two electrodes.3.根据权利要求1或2所述的一种去除可穿戴心电运动干扰的装置，其特征在于，两组可穿戴电极的尺寸和材料均相同。3. A device for removing wearable ECG interference according to claim 1 or 2, characterized in that the size and material of the two sets of wearable electrodes are the same.4.根据权利要求1或2所述的一种去除可穿戴心电运动干扰的装置，其特征在于，两组可穿戴电极之间设有隔离材料。4. A device for removing wearable ECG interference according to claim 1 or 2, characterized in that an isolation material is provided between two sets of wearable electrodes.5.根据权利要求1或2所述的一种去除可穿戴心电运动干扰的装置，其特征在于，与心电信号采集模块相连可穿戴电极设置在靠近人体一侧，与参考运动信号采集模块相连的可穿戴电极设置在远离人体一侧。5. A device for removing wearable ECG motion interference according to claim 1 or 2, characterized in that, the wearable electrode connected to the ECG signal acquisition module is arranged on the side close to the human body, and is connected with the reference motion signal acquisition module The connected wearable electrodes are arranged on the side away from the human body.6.根据权利要求1所述的一种去除可穿戴心电运动干扰的装置，其特征在于，所述运动心电信号采集模块和参考运动信号采集模块均包括依次相连的采集前端电路、信号放大电路、AD转换电路和数据滤波电路。6. A device for removing wearable ECG motion interference according to claim 1, wherein the motion ECG signal acquisition module and the reference motion signal acquisition module all include sequentially connected acquisition front-end circuits, signal amplification circuit, AD conversion circuit and data filter circuit.7.根据权利要求6所述的一种去除可穿戴心电运动干扰的装置，其特征在于，所述数据滤波电路采用工频陷波处理、高频滤波处理或低频滤波处理的数字滤波。7. A device for removing wearable ECG interference according to claim 6, wherein the data filtering circuit adopts digital filtering of power frequency notch processing, high frequency filtering processing or low frequency filtering processing.8.根据权利要求6或7所述的一种去除可穿戴心电运动干扰的装置，其特征在于，所述运动心电信号采集模块和参考运动信号采集模块的采集前端电路的配置相同。8. A device for removing wearable ECG motion interference according to claim 6 or 7, characterized in that the configurations of the acquisition front-end circuits of the exercise ECG signal acquisition module and the reference motion signal acquisition module are the same.