WO2018120639A1 - Child sleep monitoring system - Google Patents

Abstract

A child sleep monitoring system comprising: a computing device (11) used for performing a sleep analysis with respect to physiological data; a first physiological data collecting device (12) connected to the computing device (11) and used for uploading monitored physiological data to the computing device (11); a second physiological data collecting device (13) connected to the computing device (11) and used for uploading monitored physiological data to the computing device (11); and a monitoring device (14) connected to the computing device (11) and used for transmitting monitored image data to the computing device (11) for display. By adding the monitoring device (14) to the sleep monitoring system, a guardian of a child can learn of a sleep state of the child at any time, and cases of wire wrapping or electrode detachment as a result of the child rolling during sleep can be discovered in a timely manner, thus ensuring effective collection of sleep monitoring data.

Description

Child sleep monitoring system Technical field

The utility model belongs to the technical field of sleep monitoring, in particular to a child sleep monitoring system.

Background technique

About one-third of a person's life is spent in sleep. Good, adequate sleep is the foundation of people's healthy life. For children, if there is a sleep-disordered breathing disorder, it may show many adverse symptoms such as enuresis, learning difficulties, mental retardation or ADHD. Therefore, early detection and intervention of sleep-disordered breathing disorders in children's populations It is very important.

The prior art records and analyzes a plurality of sleep physiology indexes of children during the whole night sleep through polysomnography (PSG) to obtain monitoring results, thereby achieving sleep disorders, sleep disordered breathing, sleep apnea, and hypopnea Diagnosis of syndromes, etc. provides monitoring data that can be referenced. However, at this stage, the equipment used for sleep monitoring is a professional medical device, and more than ten electrodes need to be attached to the child through more than ten wires. It is well known that children have the characteristics of easy rollover during sleep, which may lead to the entanglement of the wires or the detachment of the electrodes, so that effective monitoring data cannot be collected.

Utility model content

In view of this, the embodiments of the present invention provide a child sleep monitoring system to solve the problem that professional medical equipment may not be able to collect effective monitoring data when performing sleep monitoring on children.

The child sleep monitoring system includes:

a computing device for performing sleep analysis on physiological data;

Connected to the computing device, for uploading the monitored physiological data to a first physiological data collection device of the computing device, the first physiological data collection device being worn on a child's head;

Connected to the computing device for uploading the monitored physiological data to the computing device a physiological data collecting device, wherein the second physiological data collecting device is worn on a chest of a child;

And a computing device coupled to the monitoring device for transmitting the monitored image data to the computing device for display.

Further, the first physiological data collection device includes:

a first controller and a first communication module, the first controller is configured to upload the monitored physiological data to the computing device by using the first communication module;

a first acquisition circuit connected to the first controller for collecting an EEG signal, an eye movement signal, and an EMG signal;

a microphone connected to the first controller;

a blood oxygen sensor, a body position sensor and a temperature sensor connected to the first controller;

Connected to the temperature sensor for collecting a second acquisition circuit for the nasal and nasal airflow signals.

Further, the first physiological data collection device further includes:

An electrical stimulation circuit for outputting an electrical stimulation signal coupled to the first controller.

Further, the second physiological data collection device includes:

a second controller and a second wireless module, wherein the second controller is configured to upload the monitored physiological data to the computing device by using the second communication module;

a third collecting circuit connected to the second controller for collecting an ECG signal and a chest and abdomen breathing signal;

a leg motion detecting circuit connected to the second controller.

Further, the computing device is a mobile terminal, and a manner of establishing a connection between the mobile terminal and the first physiological data collection device, and the mobile terminal and the second physiological data collection device includes: Bluetooth .

Further, the elderly sleep monitoring system further includes:

A remote server connected to the computing device.

Further, the elderly sleep monitoring system further includes:

A big data server connected to the remote server.

Further, the first physiological data collection device and the second physiological data collection device each include:

A storage device for storing the monitored physiological data.

Further, the storage device includes:

NAND FLASH memory chip.

Further, the first physiological data collection device and the second physiological data collection device each include:

A lithium battery power supply module connected to the controller.

The embodiment of the utility model increases the monitoring device in the sleep monitoring system, so that the child's guardian can understand the child's sleep condition at any time, and timely discover the wire winding or the electrode falling off caused by the child rolling over during sleep, thereby ensuring sleep monitoring. Effective collection of data.

DRAWINGS

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description are merely practical. Some of the novel embodiments may be used to obtain other figures from those skilled in the art without departing from the drawings.

1 is a structural block diagram of a child sleep monitoring system provided by an embodiment of the present invention;

2 is an exemplary block diagram of a first physiological data collection device for a child monitoring system according to an embodiment of the present invention;

3 is an exemplary block diagram of a second physiological data collection device of a child monitoring system according to an embodiment of the present invention.

detailed description

In the following description, for purposes of illustration and description However, those skilled in the art It will be appreciated that the invention may be practiced in other embodiments without these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the invention.

FIG. 1 is a structural block diagram of a child sleep monitoring system provided by an embodiment of the present invention. For convenience of description, only parts related to the present embodiment are shown.

Referring to Figure 1, the child sleep monitoring system includes:

a computing device 11 for performing sleep analysis on physiological data;

Connected to the computing device 11 for uploading the monitored physiological data to the first physiological data collecting device 12 of the computing device 11, the first physiological data collecting device 12 being worn on the child's head;

Connected to the computing device 11 for uploading the monitored physiological data to the second physiological data collecting device 13 of the computing device 11, the second physiological data collecting device 13 being worn on the chest of the child;

Connected to the computing device 11 for transmitting the monitored image data to the computing device for display by the monitoring device 14.

In this embodiment, the monitoring device 14 can be a camera, and preferably can be an infrared monitoring device to help the child's guardian pay attention to the monitoring screen in the dark light room to keep abreast of the child's sleep condition.

Further, in order to realize the polysomnographic monitoring that is close to the function of the professional medical device, as one embodiment of the present invention, the first physiological data collection device 12 may include:

a first controller and a first communication module, the first controller is configured to upload the monitored physiological data to the computing device by using the first communication module;

a first acquisition circuit connected to the first controller for collecting an EEG signal, an eye movement signal, and an EMG signal;

a microphone connected to the first controller;

a blood oxygen sensor, a body position sensor and a temperature sensor connected to the first controller;

Connected to the temperature sensor for collecting a second acquisition circuit for the nasal and nasal airflow signals.

Based on this, further, the first physiological data collection device 12 further includes: an electrical stimulation circuit connected to the first controller for outputting an electrical stimulation signal. In this embodiment, an electrode for collecting physiological data in the brain of the user may be used as an output device of the electrical stimulation signal, and the low-voltage electrical stimulation signal is outputted to assist the child in relieving fatigue and relieving pressure.

Similarly, in order to realize the polysomnographic monitoring that is close to the function of the professional medical device, as another embodiment of the present invention, the second physiological data collecting device 13 includes:

a second controller and a second wireless module, wherein the second controller is configured to upload the monitored physiological data to the computing device by using the second communication module;

a third collecting circuit connected to the second controller for collecting an ECG signal and a chest and abdomen breathing signal;

a leg motion detecting circuit connected to the second controller.

Since the guardian mostly does not configure a dedicated electronic device for the child, as one embodiment of the present invention, the computing device is a mobile terminal, such as a smart phone, a tablet, a notebook used by a child's guardian. The computer or the like, at this time, the connection between the mobile terminal and the first physiological data collection device 12, and the connection between the mobile terminal and the second physiological data collection device 13 includes: Bluetooth. In this embodiment, the Bluetooth module can be configured as a communication in the mobile terminal, the first physiological data collection device 12, and the second physiological data collection device 13, to reduce the operation difficulty by wireless short-distance communication, and satisfy the child guardian group. Operational requirements.

Further, as an embodiment of the present invention, the child sleep monitoring system further includes: a remote server connected to the computing device 11. Since the result of the sleep analysis is often a hospital that needs to be reported to the child for follow-up visit, in the present embodiment, the sleep analysis result obtained by the computing device 11 can also be uploaded to the remote server. On the basis of this, further, the polysomnography system further includes: a big data server connected to the remote server, to obtain the remote server through the big data server (which may also be a cloud server). Big data analysis of sleep analysis results of different sleep monitoring systems so that big data analysis results can be used for targeted Application scenarios such as medical research and pathological data statistics of the child population.

Further, as an embodiment of the present invention, in the first physiological data collection device 12 and the second physiological data collection device 13, a storage device may be disposed for storing the monitored physiological data. Preferably, the storage device can be implemented by using a NAND FLASH memory chip. Since the memory chip has the advantages of large capacity and fast rewriting speed, it can provide a cheap and effective storage solution for the child sleep monitoring system, the first physiological The physiological data collected by the data collection device 12 and the second physiological data collection device 13 can be temporarily stored in the storage device. After the communication condition is mature, the physiological data is read from the storage device and uploaded to the computing device.

In the embodiment of the present invention, by way of example, the first physiological data collection device 12 can be realized by the product form of the brain electric cap, and the second physiological data collection device 13 can be realized by the product form of the electrocardiogram, in two Different types of physiological signal acquisition circuits or sensors are integrated in the physiological data acquisition device to realize the collection of physiological signals as a data basis for polysomnography.

2 shows an exemplary block diagram of a first physiological data collection device for a child sleep monitoring system provided by an embodiment of the present invention. It can be seen that in this example, the first controller adopts a CC2650F123RGZ chip, and the first communication module includes The USB serial port and the 2.4G Bluetooth module, in addition, the first controller connected to the first controller includes: a first acquisition circuit for collecting an EEG signal, an eye movement signal, and an EMG signal; a microphone for collecting a click sound; Blood oxygen signal sensor for blood oxygenation MAX30100/102; sensor for determining position or posture MPU6050; temperature sensor for collecting body temperature MAX31855; T-type thermocouple for collecting nasal and nasal airflow signals.

FIG. 3 is a block diagram showing an exemplary second physiological data collection device of a child sleep monitoring system according to an embodiment of the present invention. It can be seen that in this example, the second controller adopts a CC2650F123RGZ chip, and the second communication module includes The USB serial port and the 2.4G Bluetooth module are further connected to the second controller, including: an ADAS1000 chip for collecting ECG signals and chest and abdomen breathing signals, and a leg motion detecting circuit.

As can be seen from FIG. 2 and FIG. 3, the first physiological data collection device 12 and the second physiological data collection device 13 each include: a lithium battery power supply module connected to the controller, including a lithium battery management chip SGM4056. And a lithium battery for powering the entire unit through the controller.

The embodiment of the utility model increases the monitoring device in the sleep monitoring system, so that the child's guardian can understand the child's sleep condition at any time, and timely discover the wire winding or the electrode falling off caused by the child rolling over during sleep, thereby ensuring sleep monitoring. Effective collection of data.

The above are only the preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention are included in the present invention. Within the scope of protection.

Claims (10)

1. A child sleep monitoring system, characterized in that the child sleep monitoring system comprises:

   a computing device for performing sleep analysis on physiological data;

   Connected to the computing device, for uploading the monitored physiological data to a first physiological data collection device of the computing device, the first physiological data collection device being worn on a child's head;

   Connected to the computing device, for uploading the monitored physiological data to the second physiological data collection device of the computing device, the second physiological data collection device being worn on the chest of the child;

   And a computing device coupled to the monitoring device for transmitting the monitored image data to the computing device for display.
2. The child sleep monitoring system of claim 1 wherein said first physiological data collection device comprises:

   a first controller and a first communication module, the first controller is configured to upload the monitored physiological data to the computing device by using the first communication module;

   a first acquisition circuit connected to the first controller for collecting an EEG signal, an eye movement signal, and an EMG signal;

   a microphone connected to the first controller;

   a blood oxygen sensor, a body position sensor and a temperature sensor connected to the first controller;

   Connected to the temperature sensor for collecting a second acquisition circuit for the nasal and nasal airflow signals.
3. The child sleep monitoring system of claim 2, wherein the first physiological data collection device further comprises:

   An electrical stimulation circuit for outputting an electrical stimulation signal coupled to the first controller.
4. The child sleep monitoring system of claim 1 wherein said second physiological data collection device comprises:

   a second controller and a second wireless module, wherein the second controller is configured to upload the monitored physiological data to the computing device by using the second communication module;

   a third collection device connected to the second controller for collecting an ECG signal and a chest and abdomen respiratory signal road;

   a leg motion detecting circuit connected to the second controller.
5. The child sleep monitoring system according to claim 1, wherein said computing device is a mobile terminal, said mobile terminal and said first physiological data collection device, and said mobile terminal and said second The way to establish a connection between the physiological data collection devices includes: Bluetooth.
6. The child sleep monitoring system of claim 1, wherein the elderly sleep monitoring system further comprises:

   A remote server connected to the computing device.
7. The child sleep monitoring system of claim 6, wherein the elderly sleep monitoring system further comprises:

   A big data server connected to the remote server.
8. The child sleep monitoring system of claim 1 , wherein the first physiological data collection device and the second physiological data collection device each comprise:

   A storage device for storing the monitored physiological data.
9. The child sleep monitoring system of claim 1 wherein said monitoring means comprises:

   Infrared monitoring device.
10. The sleep monitoring system for the elderly according to claim 1, wherein the first physiological data collection device and the second physiological data collection device each comprise:

    A lithium battery power supply module connected to the controller.

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