CN104224147A - Wireless portable human health and sleep quality monitor - Google Patents

Wireless portable human health and sleep quality monitor Download PDF

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Publication number
CN104224147A
CN104224147A CN 201410466224 CN201410466224A CN104224147A CN 104224147 A CN104224147 A CN 104224147A CN 201410466224 CN201410466224 CN 201410466224 CN 201410466224 A CN201410466224 A CN 201410466224A CN 104224147 A CN104224147 A CN 104224147A
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processing unit
monitor
central processing
module
wearer
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CN 201410466224
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Chinese (zh)
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余冠成
俞乾
赵晓东
王守岩
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中国科学院苏州生物医学工程技术研究所
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Abstract

The invention is applicable to the field of medical apparatuses, and discloses a wireless portable human health and sleep quality monitor, which comprises a sensor module, a central processing unit, an output module, a wireless communication module, a power module and an upper computer. The sensor module is electrically connected with the central processing unit. The central processing unit is used for receiving and processing physiological signals acquired by the sensor module and, at the same time, controlling the sensor module, the output module and the wireless communication module to operate. The wireless portable human health and sleep quality monitor disclosed by the invention can detect the physiological signals of a monitor wearer, such as electrocardiosignals, respiratory signals, body temperature signals, blood oxygen signals and posture signals, in real time, make an assessment on the health and sleep quality of the monitor wearer by assessing and analyzing the physiological signals and upload data to a cloud wirelessly or via the Internet, so that medical workers can conveniently give reasonable suggestions to the wearer.

Description

无线便携式人体健康与睡眠质量监护仪 Wireless Portable human health and sleep quality monitor

技术领域 FIELD

[0001] 本发明属于医疗器械领域,涉及一种监护仪,具体是涉及一种无线便携式人体健康与睡眠质量监护仪。 [0001] The present invention belongs to the field of medical devices, to a monitor, particularly, to a portable wireless human health and sleep quality monitor.

[0002] [0002]

背景技术 Background technique

[0003]目前市场上的监护仪包括两大类:大型心电监护仪,主要用于医院诊断;便携式监护仪,主要针对家庭用户。 [0003] current monitor on the market include two categories: large ECG, mainly used in hospital diagnosis; portable monitors, primarily for home users. 家庭监护监护仪产品需具有长期、连续、实时、轻便、高集成等特点,但市场上现有的便携式监护仪产品很少有兼顾以上特点的。 Home care products need to monitor the long-term, continuous, real-time, lightweight, high integration and so on, but on the market of portable monitor products rarely take into account the above characteristics.

[0004]目前便携式监护仪有两种:一种是将采集生理数据存储在SD卡、U盘等设备中,使用人员需要定时地手动将数据转移到PC等终端;一种是将生理数据以无线形式上传到PC等终端。 [0004] The current portable monitor two ways: one is to collect the physiological data is stored in the SD card, U-device, a regular need to manually transfer the data to the terminal PC and the like; one is the physiological data formally wireless terminal to a PC and so on. 前者没有实时性,功耗也较大,后者没有形成完整的系统,不能完成监护要求。 The former is not real-time, power consumption is also large, the latter does not form a complete system, not complete monitoring requirements.

[0005] [0005]

发明内容 SUMMARY

[0006] 技术问题:本发明的目的是一种无线便携式人体健康与睡眠质量监护仪,该监护仪可以采集使用者心电、血氧、体温、姿态等生理信号,从而评估使用者的健康状态、睡眠质量,并且将信息实时显示和传送到医院、社区中心。 [0006] Technical Problem: The purpose of the present invention is a portable wireless human health and sleep quality monitor, the user can acquire the monitor ECG, blood oxygen, temperature, posture and other physiological signals, in order to assess the health status of the user , sleep quality, and the information is displayed in real time and sent to hospitals, community centers.

[0007] 技术方案:本发明所述的便携式人体健康与睡眠质量监护仪,包括: [0007] The technical scheme: the present invention and a portable health monitor sleep quality, comprising:

传感器模块,所述传感器模块可以对佩戴者的心电、血氧、体温、姿态等信息实时监测。 A sensor module, the sensor module may wearer's ECG, blood oxygen, temperature, and other information in real time monitoring of posture. 所述传感器模块与以下所述的中央处理单元电连接,所述传感器模块受所述中央处理单元控制,并将检测得到的监护仪佩戴者的心电、血氧、体温、姿态等生理信号传送至所述中央处理单元。 The sensor module is electrically connected to the central processing unit described below, the sensor module control by the central processing unit, monitor the physiological signals transmitted and detects the wearer resulting ECG, blood oxygen, temperature, posture, etc. to the central processing unit.

[0008] 中央处理单元,所述中央处理单元包括主控微处理器和存储器,用于控制所述传感器模块监测监护仪佩戴者的生理信号,并接收其采集的生理信号进行分析和处理。 [0008] The central processing unit, said central processing unit comprises a master microprocessor and a memory, for controlling the sensor module physiological signal monitor monitors the wearer, and receives its physiological signals collected for analysis and processing. 对于心电、血氧、体温、姿态等生理信号,通过一整套评估算法得到监护仪佩戴者的健康状态、睡眠质量。 For the ECG, blood oxygen, temperature, posture and other physiological signals, healthy state monitors the wearer through a set of algorithms to assess sleep quality. 根据佩戴者的健康状态、睡眠质量,医护人员可以对佩戴者作出合理的治疗建议。 The health state of the wearer, sleep quality, health care workers can make a reasonable treatment recommendations for the wearer.

[0009] 无线通信模块,所述无线通信模块用于监护仪与PC中心、智能手机之间的无线通信,将所述监护仪监测到的监护仪佩戴者的生理信号以及分析得到的健康状态、睡眠质量上传至PC中心、智能手机进行显示、保存等操作。 [0009] The wireless communication module, the wireless communication module for wireless communication between the monitor and the center PC, smart phone, and analyzing the physiological signal monitor to monitor to monitor the wearer's health status obtained, sleep quality is uploaded to the central PC, smart phone display, save and other operations. 通过互联网,所述生理信号与健康状态、睡眠质量上传到医院、社区中心,提供医护人员分析。 Through the Internet, the physiological signal and health status, quality of sleep upload to hospitals, community centers, providing medical analysis.

[0010] 输出模块,所述输出模块包括LED与扬声器。 [0010] output module, the output module comprises an LED and a speaker. 所述输出模块与所述中央处理单兀电连接,所述中央处理单元控制LED闪烁和扬声器发出音频信号。 The output module and the central processing unit electrically connected to Wu, said central processing unit controls the LED flashes emit audio signals and a speaker.

[0011] 电源模块,所述电源模块包括电池和电源管理电路,用于给本监护仪提供电源。 [0011] The power supply module, the power module comprises a battery and a power management circuit, for supplying power to the present monitor.

[0012] 上位机,所述上位机包括PC中心与智能手机,用于实时显示本监护仪采集的人体生理信号、生理指标和评估的健康状态、睡眠质量,同时将数据通过互联网形式上传到云端。 [0012] PC, the PC includes a central PC and smart phones for real-time display the health status of this monitor human physiological signal acquisition, physiological indicators and assessment of sleep quality, while the data transmitted over the Internet cloud form .

[0013] 所述的评估算法,其原理为根据传感器模块采集到的手环佩戴者的心电、呼吸、体温、血氧等生理信号,分别计算得到监护仪佩戴者的实时心率、心率变异性、呼吸频率、血氧饱和度、体温等生理参数。 Assessment Algorithm [0013] according to which the principle according to the collected ECG sensor module bracelet wearer, breathing, body temperature, blood oxygen and other physiological signals, calculates in real time the wearer's heart rate monitors, heart rate variability , physiological parameters respiratory rate, oxygen saturation, body temperature. 通过综合心率、心率变异性、呼吸频率、血氧饱和度、体温四项指标得到监护仪佩戴者的健康状态;通过姿态与上述实时心率、呼吸频率、体温生理参数,给出监护仪佩戴者的睡眠质量评估。 Through comprehensive heart rate, heart rate variability, respiratory rate, oxygen saturation, body temperature get four indicators monitor the health status of the wearer; posture by the above-mentioned real-time heart rate, respiratory rate, body temperature physiological parameters, monitor gives the wearer sleep quality assessment.

[0014] 有益效果:本发明所述的无线便携式人体健康与睡眠质量监护仪,可以实时检测监护仪佩戴者的心电、呼吸、体温、血氧、姿态等生理信号,通过对生理信号的评估分析对监护仪佩戴者的健康状态、睡眠质量做出评估,并且通过无线与互联网方式将数据上传到云端方便医护人员对佩戴者做出合理的建议。 [0014] Advantageous Effects: The portable radio according to the present invention to human health and sleep quality monitor, the monitor can detect in real time the wearer ECG, respiration, body temperature, blood oxygen, posture and other physiological signals, by evaluating the signal of Physiology analysis to assess the health status monitors the wearer, sleep quality, and with the Internet via a wireless way to upload data to the cloud to facilitate medical staff to make a reasonable proposal for the wearer.

[0015] [0015]

附图说明 BRIEF DESCRIPTION

[0016] 下面结合附图和实施例对本发明做进一步说明: Drawings and embodiments of the present invention will be further described [0016] below with:

图1为本发明的无线便携式人体健康与睡眠质量监护仪硬件结构框图。 The wireless portable device to human health and quality of sleep monitoring hardware block diagram Figure 1 of the present invention.

[0017] 图2为本发明的无线便携式人体健康与睡眠质量监护仪生理信号传输图。 [0017] The wireless portable health and sleep quality monitor physiological signal transmission of the present invention FIG 2 FIG.

具体实施方式 detailed description

[0018] 本发明所述的无线便携式人体健康与睡眠质量监护仪,包括传感器模块1、中央处理单元2、输出模块3、无线通信模块4、电源模块5和上位机6。 [0018] The portable radio according to the present invention, human health and sleep quality monitor, comprising a sensor module 1, the central processing unit 2, an output module 3, a wireless communication module 4, the power module 5 and PC 6.

[0019] 其中,传感器模块I与中央处理单元2电连接,用于检测监护仪佩戴者的心电数据al、血氧数据a2、体温数据a3、姿态数据a4,并将其传送至中央处理单元2。 [0019] wherein I is the sensor module 2 is electrically connected to the central processing unit, for detecting ECG data monitor al wearer, oxygen data a2, temperature data a3, attitude data a4, and transmits it to the central processing unit 2. 中央处理单元2包括主控微控制器21,主控微控制器21电连接有存储器22,用于接收和处理传感器模块I采集生理信号,同时控制传感器模块1、输出模块3和无线通信模块4进行工作。 The central processing unit 2 comprises a master microcontroller 21, the microcontroller 21 is electrically connected to a main memory 22, for receiving and processing the sensor module I acquiring physiological signals, while controlling the sensor module 1, the output module 3 and the wireless communication module 4 working.

[0020] 本实施例中,传感器模块I包括分别与中央处理单元2电连接的心电传感器11、血氧传感器12、体温传感器13和姿态传感器14。 [0020] In this embodiment, the sensor module I comprises ECG sensor 2 are electrically connected to the central processing unit 11, oxygen sensors 12, attitude sensor 13 and temperature sensor 14. 心电传感器11与中央处理单元2电连接,采用双电极法采集监护仪佩戴者的心电信号,经过放大和滤波之后进行模数转换为数字信号,并将其传送到中央处理单元2。 ECG sensor 11 is electrically connected to the central processing unit 2, a two-electrode method using ECG monitor wearer acquisition, analog to digital conversion into a digital signal after amplification and filtering, and delivers it to the central processing unit 2. 血氧传感器12与中央处理单元2电连接,采用光电容积描记技术采集监护仪佩戴者的血氧信号,经过放大和滤波之后进行模数转换为数字信号,并将其传送到中央处理单元2。 Oxygen sensor 12 is electrically connected to the central processing unit 2, using photoplethysmography oximeter monitor signal acquisition technique wearer, analog to digital conversion into a digital signal after amplification and filtering, and delivers it to the central processing unit 2. 体温传感器13与中央处理单元2电连接,采用接触式电阻法测量监护仪佩戴者的体温,并将其传送到中央处理单元2。 Temperature sensor 13 is electrically connected to the central processing unit 2, measuring a body temperature of the wearer of the monitor using contact resistance method, and transfers it to the central processing unit 2. 姿态传感器14与中央处理器单元2电连接,采用六轴传感器测量监护仪佩戴者身体姿态信息,并将其传送到中央处理单元2。 Attitude sensor 14 is electrically connected to the central processor unit 2, using the six-axis sensor measuring monitor the wearer's body posture information, and transmits it to the central processing unit 2.

[0021] 本实施例中,输出模块3包括分别与中央处理单元2电连接的LED31和扬声器32。 [0021] In this embodiment, the output module 3 comprises a speaker and LED31 are 2 electrically connected to the central processing unit 32. 中央处理单元2控制LED31的颜色及闪烁频率。 The central processing unit 2 controls the color and the flicker frequency LED31. 中央处理单元2控制扬声器32的发声,使其发出不同频率或不同时长的音频信号。 The central processing unit 2 controls the sound speaker 32 to emit different frequencies or different time length of the audio signal.

[0022] 本实施例中,无线通信模块4采用蓝牙协议,用于实现用户的监护仪与上位机6之间的无线通信连接,将监护仪收集的信息传送到上位机6上,通过互联网,上位机6将信息上传到云端。 [0022] In this embodiment, the wireless communication module 4 using the Bluetooth protocol for enabling a user to monitor a wireless communication connection between the host computer 6 transmits the information collected by the monitor to the host computer 6, via the Internet, PC 6 upload information to the cloud.

[0023] 本实施例中,电源模块5包括电池和电源管理电路,用于给其他模块提供电源。 [0023] In this embodiment, the power module 5 includes a battery and power management circuitry for supplying power to the other modules. 电池采用不可充电纽扣电池或可充电电池。 Button cell battery using non-rechargeable or rechargeable batteries. 电源模块还设有USB接口,USB接口用于连接电源通过电源管理电路对可充电电池进行充电。 The power supply module also has a USB interface, USB interface for connecting the power for charging the rechargeable battery via the power management circuit.

[0024] 本实施例中,中央处理单元2采用的健康状态的评估算法为: [0024] In this embodiment, the central processing unit 2 assessment algorithm using the state of health of:

a)分别接收并存储特定时间长度内的传感器模块I传送的心电数据al、血氧数据a2、温度数据a3生理信号。 a) receive and store the ECG data transfer al I sensor modules within a certain length of time, blood oxygen data a2, a3 physiological temperature data signal.

[0025] b)根据存储的心电数据al、血氧数据a2、温度数据a3,分别计算监护仪佩戴者的实时心率bl、心率变异性b2、呼吸频率b3、血氧饱和度b4、体温b5等生理指标,并写入存储器。 [0025] b) The ECG data stored al, oxygen data a2, temperature data a3, are calculated in real-time monitor the wearer's heart BL, heart rate variability b2, respiratory rate b3, oxygen saturation b4, b5 temperature and other physiological indicators, and written into the memory. 同时将监护仪佩戴者的心率bl、心率变异性b2、呼吸频率b3、血氧饱和度b4、体温b5等生理指标数据压缩融合,并将融合数据c通过无线通信模块4上传至上位机6。 At the same time the data monitor physiological parameters of the wearer's heart BL, heart rate variability b2, respiratory rate b3, oxygen saturation b4, b5 and other compressed fusion temperature, fusion and data through the wireless communication module 4 c uploaded to the upper unit 6. 上位机一方面可以将数据解压分类得到解压数据d,一方面可以通过互联网将解压数据d传送到云端。 PC decompressed data may be classified on the one hand to obtain decompressed data d, an aspect of the decompressed data via the Internet is transmitted to the cloud d.

[0026] c)计算本时间长度内计算得到的实时心率bl、心率变异性b2、呼吸频率b3、血氧饱和度b4、体温b5的差异性,分别对各项差异性与预设阈值进行对比分析,得到本时间长度内的健康状态评分,并写入存储器。 [0026] c) calculation of the resulting length of this real time heart BL, heart rate variability b2, respiratory rate b3, oxygen saturation b4, b5 temperature differences, respectively, the difference compared with a preset threshold value analysis, health evaluation in this length of time, and written into the memory. 评分可以通过上位机6显示,同时也可以通过LED进行显示提醒。 Score may be displayed through the PC 6, and also alert may be displayed by LED.

[0027] d)对于监护仪佩戴者的健康状态评价参数,中央处理单元2采用机器学习方式对个人的评价参数进行存储与修改,用以适应不同的使用者。 [0027] d) for the state of health of a wearer of the monitor evaluation parameter, the central processing unit of the embodiment 2 employs a machine learning evaluation parameters stored in association with the individual modifications, to accommodate different users.

[0028] 本实施例中,中央处理单元2采用的睡眠质量评估算法为: [0028] In this embodiment, the sleep quality assessment algorithm used in the central processing unit 2 is:

a)接收上述健康状态评估算法步骤c)中得到的实时心率bl、心率变异性b2、呼吸频率b3、血氧饱和度b4、体温b5生理指标。 a) receiving the state of health evaluation algorithm in step c) obtained in real-time heart rate bl, heart rate variability b2, respiratory rate b3, oxygen saturation b4, b5 physiological temperature indicator.

[0029] b)接收姿态传感器14采集的姿态数据a4,通过融合算法计算出监护仪佩戴者的身体姿态b6,并写入存储器。 Attitude data [0029] b) an attitude sensor 14 receives collected a4, the monitor calculates the wearer's body posture by fusion algorithm b6, and written into the memory.

[0030] c)通过身体姿态b6对监护仪佩戴者的状态进行判断。 [0030] c) b6 judge the state monitors the wearer by body posture. 当判断进入睡眠时,降低生理数据采样率以延长设备使用时间。 When it is judged goes to sleep to reduce the physiological data sampling rate to extend the device life. 在睡眠状态中,通过接收到的身体姿态b6、实时心率bl、呼吸频率b3、体温b5,与机器学习的参数进行对比,进而对监护仪佩戴者的睡眠质量作出评价,并写入存储器。 In the sleep state by receiving the body posture b6, real-time heart rate bl, respiratory rate b3, body temperature b5, and machine learning parameters were compared to evaluate the quality of sleep and then monitor the wearer and written to memory.

[0031] d)对于监护仪佩戴者的睡眠质量评价参数,中央处理单元2采用机器学习方式对个人的评价参数进行存储修改,用以适应不同的使用者。 [0031] d) for the wearer's monitor sleep quality evaluation parameter, the central processing unit 2 of the machine learning mode for storing an individual evaluation parameter modifications to accommodate different users.

[0032] 以上所述,仅为本发明的优选实施方式。 [0032] The above are only preferred embodiments of the present invention. 应当指出,对于本领域的技术人员依据本发明的创造原理,可以做出许多变形和改进,但这些均落入本发明权利要求的保护范围。 It should be noted that those skilled in the art in accordance with principles of the present invention to create, many variations and modifications may be made, but these fall within the scope of the claims of the invention.

Claims (7)

  1. 1.一种无线便携式健康与睡眠质量监护仪,其特征在于包括: 传感器模块(1),所述传感器模块(I)与所述的中央处理单元(2)电连接,用于检测监护仪佩戴者的心电数据(al)、血氧数据(a2)、温度数据(a3)、姿态数据(a4)并将其传送至所述中央处理单元(2); 中央处理单元(2),包括主控微控制器(21)和存储器(22),所述中央处理单元(2)用于控制所述传感器模块(I)检测监护仪佩戴者的生理信号,并接收其采集的生理信号进行分析和处理,计算出监护仪佩戴者的实时心率(bl)、心率变异性(b2)、呼吸频率(b3)、血氧饱和度(b4)、体温(b5)、身体姿态(b6)生理指标;根据监护仪佩戴者的生理指标,安排不同的工作状态以延长设备使用时间,根据监护仪佩戴者的生理指标与所述存储器(22)中的评价参数差异性,分别对各项差异性与预设阈值进行对比分析,综合得到人体健康状态、睡 1. A wireless portable monitor health and sleep quality, comprising: a sensor module (1), the sensor module (I) with said central processing unit (2) is electrically connected to the monitor for detecting wear 's ECG data (Al), oxygen data (A2), temperature data (A3), attitude data (a4) and transmitted to the central processing unit (2); a central processing unit (2), comprising a main control microcontroller (21) and a memory (22), said central processing unit (2) for controlling the sensor module (I) physiological signal detector monitors the wearer, and receives its physiological signals collected and analyzed process calculates a real-time monitor the heart rate of the wearer (BL), heart rate variability (B2), respiratory rate (B3), oxygen saturation (B4), body temperature (B5), body posture (b6) physiological parameters; the monitors physiological parameters of the wearer, arranged to extend different operating states equipment time difference evaluation parameter (22) in accordance with the physiological index and the memory monitor the wearer, respectively, the difference with a preset threshold comparative analysis, obtain an integrated health status, sleep 质量评分;所述存储器(22)的评价参数通过机器学习的方式实时更新,用以适应不同的使用者;同时,通过数据压缩技术,将上述数据压缩成融合数据(C),以减少无线传输数据量; 输出模块(3),所述输出模块(3)包括LED (31)与扬声器(32),LED (31)与扬声器(32)分别与所述中央处理单元(2)电连接,所述中央处理单元(2)控制LED (31)的发光颜色及闪烁频率,同时控制扬声器(32)发出音频信号; 无线通信模块(4),所述无线通信模块(4)用于实现用户的监护仪与所述上位机(6)之间的无线通信连接,将中央处理单元(2)压缩的融合得到的数据(c)传送至上位机(6); 电源模块(5),所述电源模块(5)包括电池和电源管理电路,用于给本监护仪提供电源; 上位机(6),所述上位机(6)包括PC中心和智能手机,通过无线方式接收所述无线模块(4)发送来的数据,对接收数据解压分类,并实时显 Quality score; the evaluation parameter memory (22) by way of machine learning updated in real time, to accommodate different users; the same time, data compression techniques, data compression to the above-described fusion data (C), to reduce radio transmission data volume; an output module (3), the output module (3) comprises a LED (31) with the speaker (32), LED (31) with the speaker (32) (2) is electrically connected to said central processing unit, respectively, the said central processing unit (2) controls the LED (31) and the emission color flicker frequency, while controlling the speaker (32) emits an audio signal; a wireless communication module (4), the wireless communication module (4) for monitoring a user to achieve the wireless communication connection between the PC and the meter (6), the data (c) a central processing unit (2) transmits the obtained compressed fusion to the upper (6); a power module (5), the power module (5) comprises a battery and power management circuitry for providing power to the present monitor; PC (6), said computer (6) comprises a central PC and smart phones, the wireless receiving module (4) by wireless means transmitted data, the received data decompression classification, and the Live 示人体实时心率(bl)、心率变异性(b2)、呼吸频率(b3)、血氧饱和度(b4)、体温(b5)、身体姿态(b6)等生理指标,实时显示监护仪佩戴者的健康状态、睡眠质量;同时,所述上位机(6)能够通过互联网将解压数据(d)传送到云端。 Shows the human body in real-time heart rate (bl), heart rate variability (b2), respiratory rate (b3), oxygen saturation (b4), body temperature (b5), the body posture (b6) and other physiological indicators, monitor real-time display of the wearer health, quality of sleep; Meanwhile, the host computer (6) can be decompressed data (D) transmitted via the Internet to the cloud.
  2. 2.根据权利要求1所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 传感器模块(I)包括分别与中央处理单元(2)电连接的心电传感器(11)、血氧传感器(12)、体温传感器(13)和姿态传感器(14);心电传感器(11)与中央处理单元(2)电连接,采用双电极法采集监护仪佩戴者的心电信号,经过放大和滤波之后进行模数转换为数字信号,并将其传送到中央处理单元(2);血氧传感器(12)与中央处理单元(2)电连接,采用光电容积描记技术采集监护仪佩戴者的血氧信号,经过放大和滤波之后进行模数转换为数字信号,并将其传送到中央处理单元(2 );体温传感器(13 )与中央处理单元(2 )电连接,采用接触式电阻法测量监护仪佩戴者的体温,并将其传送到中央处理单元(2);姿态传感器(14)与中央处理器单元(2)电连接,采用六轴传感器测量监护仪佩戴者身体姿态信息,并将其 A radio according to claim human health and the portable monitor sleep quality claim 1, wherein: the sensor module (I) includes electrocardiographic sensor (11), respectively, and a central processing unit (2) is electrically connected to, blood an oxygen sensor (12), temperature sensor (13) and a posture sensor (14); ECG sensor (11) and a central processing unit (2) is electrically connected to the two-electrode method using ECG monitor wearer collected, amplified after filtering and analog to digital conversion into a digital signal, and transmits it to the central processing unit (2); oxygen sensor (12) and a central processing unit (2) is electrically connected to a photoplethysmography using technology to collect monitor wearer oxygen signal, after amplification and analog-digital conversion of the filtered digital signal, and transmits it to the central processing unit (2); temperature sensor (13) and a central processing unit (2) is electrically connected to the contact-type resistance measuring method using monitor the wearer's body temperature, and transfers it to the central processing unit (2); an attitude sensor (14) and the central processor unit (2) is electrically connected with six-axis sensor measuring monitor the wearer's body posture information, and its 送到中央处理单元(2)。 To the central processing unit (2).
  3. 3.根据权利要求1所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 中央处理单元(2)包括主控微控制器(21),主控微控制器(21)电连接有存储器(22),用于接收和处理传感器模块(I)采集生理信号,同时控制传感器模块(I)、输出模块(3)和无线通信模块(4)进行工作。 The wireless portable health and sleep quality monitor according to claim 1, wherein: a central processing unit (2) comprises a main microcontroller (21), a master microcontroller (21) electrically It is connected with a memory (22), for receiving and processing the sensor module (I) acquiring physiological signals, while the sensor control module (I), the output module (3) and a wireless communication module (4) is operated.
  4. 4.根据权利要求1所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 输出模块(3)包括分别与中央处理单元(2)电连接的LED (31)和扬声器(32);中央处理单元(2)控制LED (31)的颜色及闪烁频率;中央处理单元(2)控制扬声器(32)的发声,使其发出不同频率或不同时长的音频信号。 4. A wireless portable health and sleep quality monitor according to claim 1, wherein: the output module (3) comprises an LED, respectively a central processing unit (2) connected electrically (31) and a speaker (32 ); a central processing unit (2) controls the LED (31) and the color flicker frequency; central processing unit (2) controls the sound speaker (32) to emit different frequencies or different time length of the audio signal.
  5. 5.根据权利要求1所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 所述无线通信模块(4)用于监护仪与PC中心、智能手机之间的无线通信,无线通信模块(4)将监护仪监测到的监护仪佩戴者的生理信号以及分析得到的健康状态、睡眠质量上传至PC中心、智能手机进行显示、保存操作;通过互联网,所述生理信号与健康状态、睡眠质量上传到医院、社区中心,提供医护人员分析。 5. A wireless portable health and sleep quality monitor according to claim 1, wherein: the wireless communication module (4) for wireless communication between the monitor and the center PC, smart phone, Wireless physiological signal analysis and resulting health status, sleep quality communication module (4) the monitor monitored monitor the wearer's uploaded to the PC Center, a smart phone display, save operation; via the Internet, the physiological signal and health status sleep quality upload to hospitals, community centers, providing medical analysis.
  6. 6.根据权利要求1所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 电源模块(5)包括电池和电源管理电路,用于给其他模块提供电源;电池采用不可充电纽扣电池或可充电电池。 6. A wireless portable health and sleep quality monitor according to claim 1, wherein: the power module (5) includes a battery and power management circuitry for supplying power to the other modules; non-rechargeable batteries using button batteries or rechargeable batteries.
  7. 7.根据权利要求6所述的一种无线便携式人体健康与睡眠质量监护仪,其特征在于: 电源模块还设有USB接口,USB接口用于连接电源通过电源管理电路对可充电电池进行充电。 A wireless portable health and sleep quality monitor according to claim 6, wherein: the power module is also provided with a USB interface, a USB interface for connecting the power for charging the rechargeable battery via the power management circuit.
CN 201410466224 2014-09-15 2014-09-15 Wireless portable human health and sleep quality monitor CN104224147A (en)

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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104545844A (en) * 2014-12-25 2015-04-29 中国科学院苏州生物医学工程技术研究所 Multi-parameter sleep monitoring and intelligent diagnosis system based on 4G mobile communication technology and application method of multi-parameter sleep monitoring and intelligent diagnosis system
CN104665771A (en) * 2015-02-13 2015-06-03 北京康源互动健康科技有限公司 Cloud platform-based sleep quality monitoring method and system
CN104943727A (en) * 2015-07-17 2015-09-30 厦门理工学院 Bioassay car steering wheel
CN105748043A (en) * 2016-02-17 2016-07-13 安徽华米信息科技有限公司 Sleep quality mentoring method and device and wearable device
CN105812983A (en) * 2014-12-29 2016-07-27 中国科学院沈阳自动化研究所 Wireless sound box having health state prompting function
CN105852827A (en) * 2016-04-14 2016-08-17 山东万里红信息技术有限公司 Handheld medical information acquisition terminal
CN105956372A (en) * 2016-04-21 2016-09-21 青岛大学 Remote multi-sensor monitoring medical system
CN105956374A (en) * 2016-04-21 2016-09-21 青岛大学 Remote monitoring comprehensive medical system
CN105975741A (en) * 2016-04-21 2016-09-28 张明飞 Medical system with patient state grading function
CN105975742A (en) * 2016-04-21 2016-09-28 张明飞 Comprehensive medical system with family care function
CN106264456A (en) * 2016-07-28 2017-01-04 苏州市享乐惠信息科技有限公司 Sleep quality monitoring system
CN106419841A (en) * 2016-09-13 2017-02-22 深圳市迈迪加科技发展有限公司 Method, device and system for evaluating sleep
WO2017067010A1 (en) * 2015-10-24 2017-04-27 深圳市迈迪加科技发展有限公司 Sleep evaluation display method and apparatus, and evaluation device

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103919536A (en) * 2013-01-15 2014-07-16 飞比特公司 Portable Biometric Monitoring Devices And Methods Of Operating Same
CN103932696A (en) * 2014-04-18 2014-07-23 赵小英 Multifunctional health status detection method and system
CN103961064A (en) * 2014-05-06 2014-08-06 派凡科技(上海)有限公司 Multifunctional health monitoring record and prompt alarm system and method

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103919536A (en) * 2013-01-15 2014-07-16 飞比特公司 Portable Biometric Monitoring Devices And Methods Of Operating Same
CN103932696A (en) * 2014-04-18 2014-07-23 赵小英 Multifunctional health status detection method and system
CN103961064A (en) * 2014-05-06 2014-08-06 派凡科技(上海)有限公司 Multifunctional health monitoring record and prompt alarm system and method

Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104545844A (en) * 2014-12-25 2015-04-29 中国科学院苏州生物医学工程技术研究所 Multi-parameter sleep monitoring and intelligent diagnosis system based on 4G mobile communication technology and application method of multi-parameter sleep monitoring and intelligent diagnosis system
CN105812983A (en) * 2014-12-29 2016-07-27 中国科学院沈阳自动化研究所 Wireless sound box having health state prompting function
CN104665771A (en) * 2015-02-13 2015-06-03 北京康源互动健康科技有限公司 Cloud platform-based sleep quality monitoring method and system
CN104943727A (en) * 2015-07-17 2015-09-30 厦门理工学院 Bioassay car steering wheel
WO2017067010A1 (en) * 2015-10-24 2017-04-27 深圳市迈迪加科技发展有限公司 Sleep evaluation display method and apparatus, and evaluation device
CN105748043A (en) * 2016-02-17 2016-07-13 安徽华米信息科技有限公司 Sleep quality mentoring method and device and wearable device
CN105852827A (en) * 2016-04-14 2016-08-17 山东万里红信息技术有限公司 Handheld medical information acquisition terminal
CN105975741A (en) * 2016-04-21 2016-09-28 张明飞 Medical system with patient state grading function
CN105956374A (en) * 2016-04-21 2016-09-21 青岛大学 Remote monitoring comprehensive medical system
CN105975742A (en) * 2016-04-21 2016-09-28 张明飞 Comprehensive medical system with family care function
CN105975741B (en) * 2016-04-21 2018-07-24 张明飞 Kinds of medical condition of the patient classification system with
CN105956374B (en) * 2016-04-21 2018-05-01 田春燕 A remote monitoring system of comprehensive medical
CN105956372A (en) * 2016-04-21 2016-09-21 青岛大学 Remote multi-sensor monitoring medical system
CN105956372B (en) * 2016-04-21 2018-05-01 河南省中医院(河南中医药大学第二附属医院) A remote multi-sensor monitoring of the health care system
CN105975742B (en) * 2016-04-21 2018-07-24 张明飞 Kind of comprehensive medical care system with family
CN106264456A (en) * 2016-07-28 2017-01-04 苏州市享乐惠信息科技有限公司 Sleep quality monitoring system
CN106419841A (en) * 2016-09-13 2017-02-22 深圳市迈迪加科技发展有限公司 Method, device and system for evaluating sleep

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