WO2020133192A1 - Monitoring platform, portable monitoring device, and control method for monitoring system - Google Patents

Abstract

A monitoring platform (200), a portable monitoring device (100, 300), and a control method for a monitoring system (1000, 2000). The control method for the monitoring system (1000, 2000) comprises the following steps: a monitoring platform (200) establishing a communication connection with at least one portable monitoring device (100, 300) (S301); when a microphone (26) of the monitoring platform (200) is in a turn-on state, the microphone (26) acquiring audio data of a serving end (S303); and the monitoring platform (200) sending the audio data of the serving end to the specified portable monitoring device (100, 300) (S305). The monitoring system (1000, 2000) and the control method therefor improve the working efficiency, and also reduce the security risks.

Description

Monitoring platform, portable monitoring equipment and control method of monitoring system Technical field

This application relates to the technical field of medical monitoring, in particular to a monitoring platform, a portable monitoring device and a control method of a monitoring system.

Background technique

The portable monitoring device is a portable and easy-to-use physiological parameter monitoring device, which is widely used in the monitoring of various vital signs of the human body and provides medical staff with an effective clinical diagnosis basis in real time. Traditional bedside monitoring equipment will send an alarm or send the alarm information to the monitoring platform when it detects abnormal vital signs parameters, so that medical staff can take corresponding rescue measures. However, the patient cannot leave the bed during the monitoring process, which is inconvenient to use.

With the existing portable monitoring equipment, patients can wear the portable monitoring equipment when leaving the bed for real-time monitoring of important physiological parameters. However, when the patient leaves the ward, the medical staff cannot find the patient in time, thereby reducing the efficiency of the medical staff, and at the same time, the patient cannot quickly find the medical staff in an emergency, which brings a certain life risk to the patient.

Summary of the invention

In view of the above problems in the prior art, the present invention provides a monitoring platform, a portable monitoring device, and a control method of a monitoring system that improve work efficiency and reduce safety risks.

In the first aspect, this application provides a control method for a monitoring system, including the following steps:

The monitoring platform establishes a communication connection with at least one portable monitoring device;

When the microphone of the monitoring platform is turned on, the microphone collects audio data of the server;

The monitoring platform sends the server audio data to a designated portable monitoring device.

In the second aspect, this application provides another method for controlling a monitoring system, including the following steps:

At least one portable monitoring device establishes a communication connection with the monitoring platform;

When the microphone of the portable monitoring device is turned on, the microphone collects audio data of the portable terminal; and

The portable monitoring device sends the portable audio data to the monitoring platform.

In a third aspect, this application provides a monitoring platform, including:

A communication unit for establishing a communication connection between the monitoring platform and at least one portable monitoring device;

Microphone, used to collect audio data from the server;

The processor is used to control the monitoring platform to send the server audio data to a designated portable monitoring device.

In a fourth aspect, this application provides a portable monitoring device, including:

A communication unit for establishing a communication connection between the portable monitoring device and the monitoring platform;

Microphone, used to collect portable audio data;

The processor is configured to control the microphone to collect the audio data of the portable terminal when the microphone of the portable monitoring device is turned on; and send the audio data of the portable terminal to the monitoring platform.

In a fifth aspect, this application provides a portable monitoring device, including:

A communication unit for establishing a communication connection between the portable monitoring device and the monitoring platform;

Microphone, used to collect portable audio data;

Camera, used to collect portable video data;

A processor, configured to control the microphone to collect audio data of the portable terminal and control the camera to collect video data of the portable terminal when the microphone and camera of the portable monitoring device are in an open state; and send the portable terminal The audio data and the portable video data are sent to the monitoring platform.

This application provides a monitoring platform, a portable monitoring device, and a control method of a monitoring system. The monitoring platform establishes a communication connection with at least one portable monitoring device, and when the microphone of the monitoring platform is turned on, the microphone of the monitoring platform collects server-side audio data; the monitoring platform sends the server-side audio data to a designated The portable monitoring equipment realizes the voice communication between the monitoring platform and the designated portable monitoring equipment, thereby improving work efficiency and reducing safety risks.

BRIEF DESCRIPTION

In order to more clearly explain the embodiments of the present application or the technical solutions in the prior art, the following will briefly introduce the drawings required in the description of the embodiments or the prior art. Obviously, the drawings in the following description are only These are some embodiments of the present application. For those of ordinary skill in the art, without paying any creative work, other drawings can be obtained based on these drawings.

FIG. 1 is a schematic diagram of a program module of a monitoring system provided by an application embodiment.

2 is a schematic structural diagram of a portable monitoring device of the monitoring system in FIG. 1.

FIG. 3 is a schematic diagram of a program module of a monitoring system provided by another embodiment.

FIG. 4 is a flowchart of a method for controlling a monitoring system according to an embodiment of the present application.

FIG. 5 is a flowchart of a method for controlling a monitoring system provided by the second embodiment of the present application.

detailed description

The technical solutions in the embodiments of the present application will be described clearly and completely in combination with the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, but not all the embodiments. Based on the embodiments in the present application, all other embodiments obtained by a person of ordinary skill in the art without making creative efforts fall within the protection scope of the present application.

The terms "first", "second", etc. in the description and claims of the present application and the accompanying drawings are used to distinguish different objects, not to describe a specific order. Furthermore, the term "including" and any variations thereof are intended to cover non-exclusive inclusions. For example, a process, method, system, product, or device that includes a series of steps or units is not limited to the listed steps or units, but optionally includes steps or units that are not listed, or optionally also includes Other steps or units inherent to these processes, methods, products or equipment.

The subsequent description of the specification of the present application is a preferred embodiment for implementing the present application, but the description is for the purpose of illustrating the general principles of the present application, and is not intended to limit the scope of protection of the present application. The scope of protection of this application shall be deemed as defined in the appended claims.

Please refer to FIGS. 1 and 2 together. FIG. 1 is a schematic structural diagram of a portable monitoring device 100 provided by an embodiment of the present application, and FIG. 2 is a schematic diagram of a program module of a monitoring system 1000 provided by an embodiment of the present application. The monitoring system 1000 includes a portable monitoring device 100 and a monitoring platform 200 communicatively connected to the portable monitoring device 100. It can be understood that the monitoring platform 200 may be a central workstation device or a network-based fully digital information transmission and management system. The portable monitoring device 100 can establish a communication connection with the hospital through the monitoring platform 200.

As shown in FIG. 1, the monitoring platform 200 includes a processor 22 and a display unit 23, a communication unit 24, a speaker 25, a microphone 26 and a memory 27 electrically connected to the processor 22. The processor 22 is used to process data information such as measurement data, analysis data, and audio information sent by the portable monitoring device 100 received by the communication unit 24. The communication unit 24 of the monitoring platform 200 is connected to the communication unit 14 of the portable monitoring device 100 to establish a communication connection between the monitoring platform 200 and the portable monitoring device 100, thereby realizing wireless data between the monitoring platform 200 and the portable monitoring device 100 transmission. The communication unit 24 may be, but not limited to, wifi, Bluetooth, wireless medical telemetry service (Wireless Medical Telemetry Service, WMTS), or mobile communication 2G, 3G, 4G, 5G and other communication modules. The display unit 23 is used to display the measurement result and the alarm information analyzed by the processor 22. The speaker 25 is used to play audio information. The audio information includes, but is not limited to, alarm information and audio information sent by the portable monitoring device 100 to remind medical personnel. The microphone 26 is used to collect audio information of medical personnel. The processor 22 is also used to control the communication unit 24 to send the audio information of the medical personnel to the portable monitoring device 100. The memory 27 is also used to store software programs and modules. The processor 22 can also be used to execute corresponding operations by running software programs and modules stored in the memory 27. The monitoring platform 200 in this application may be a central monitoring station or other platforms with monitoring functions, which are not limited herein.

The processor 22 of the monitoring platform 200 is further configured to control the turned-on microphone 26 to collect server-side audio data when the microphone 26 of the monitoring platform 200 is turned on; the monitoring platform 200 sends the server-side audio data to Specified portable monitoring device 100.

Specifically, when the microphone 26 of the monitoring platform 200 is turned on, the microphone 26 collects server audio data. For example, when the medical staff needs to convey the medical order to the patient, the medical staff inputs the audio input through the microphone 26, so that the audio data of the medical staff is collected by the microphone 26, and the collected audio data of the medical staff can be broadcast to the patient In this way, the patient can understand in real time that the medical staff communicate the medical order, which not only improves the processing efficiency of the broadcast information, but also reduces the workload of the medical staff.

In this embodiment, the processor 22 of the monitoring platform 200 is also used to control the monitoring platform 200 to send the server-side audio data to the designated portable monitoring device according to the predefined correspondence between the patient and the portable monitoring device 100 Device 100.

Specifically, a mapping relationship table between the patient and the portable monitoring device 100 may be established in advance, for example, a mapping relationship may be established between the patient's identity information and identification information such as the factory number or name of the portable monitoring device 100. Therefore, the corresponding portable monitoring device 100 of the patient who wants to be contacted can be found through the mapping relationship table between the patient and the portable monitoring device 100, so as to realize the voice communication between the monitoring platform 200 and the corresponding portable monitoring device 100.

The processor 22 of the monitoring platform 200 is also used to determine that the portable monitoring device that satisfies the preset condition is the designated portable monitoring device; and send the server-side audio data to the designated portable monitoring device. Specifically, in an embodiment, the processor 22 of the monitoring platform 200 is further used to determine whether the vital sign parameters monitored by the portable monitoring device 100 are abnormal; and the vital sign parameters monitored by the portable monitoring device 100 When an abnormality occurs, it is determined that the portable monitoring device 100 is a portable monitoring device that meets preset conditions.

In other embodiments, the processor 22 of the monitoring platform 200 is also used to determine whether the portable monitoring device 100 belongs to the specified area according to the predefined correspondence between the portable monitoring device 100 and the specified area; and When the portable monitoring device 100 belongs to the designated area, it is determined that the portable monitoring device is a portable monitoring device that meets a preset condition.

Specifically, when the monitoring platform 200 determines that the portable monitoring device that meets the preset conditions is the designated portable monitoring device, it can automatically send the server-side audio data to the designated portable monitoring device, so as to improve the processing efficiency of the broadcast information. In this embodiment, the preset condition may be, but not limited to, the vital sign parameter value monitored by the specified portable monitoring device is outside the normal threshold range, the specified portable monitoring device belongs to the portable monitoring device outside the specified area, etc. Wait. The designated area may be the same department or a different department. The designated area may also be divided according to the portable monitoring equipment 100 used by patients corresponding to different wards and the attending doctors in the same department. It can be understood that the preset conditions may be set according to a patient's custom setting, or preset by the monitoring platform 200 at the factory.

The processor 22 of the monitoring platform 200 is also used to control the establishment of a voice communication channel between the monitoring platform 200 and the designated portable monitoring device 100; and send the audio data of the server through the voice communication channel opened to the designated Portable monitoring equipment.

The processor 22 of the monitoring platform 200 is also used to control the monitoring platform 200 to receive portable audio data sent by the portable monitoring device 100.

Specifically, in an embodiment, the voice communication channel may be independent of the communication link established between the monitoring platform 200 and at least one portable monitoring device 100. In other embodiments, the voice communication channel and the communication link established between the monitoring platform 200 and at least one portable monitoring device 100 share the same common communication channel.

The processor 22 of the monitoring platform 200 is also used to start the monitoring platform 200 and the patient to be in an emergency when the monitoring platform 200 or the portable monitoring device detects an emergency of a patient of the portable monitoring device 100 A voice communication channel between the portable monitoring devices 100 of the situation; and receiving portable audio data sent by the portable monitoring device 100 through the established voice communication channel.

Specifically, when an emergency occurs in a patient of one of the portable monitoring devices 100, the monitoring platform 200 receives the emergency status information sent by the portable monitoring device 100, so that the monitoring platform 200 actively turns on the portable monitoring device 100 and the monitoring platform 200 in which an emergency occurs The voice communication channel between them, so as to realize the audio call function between the patient and the medical staff, so that the patient can ask the medical staff for help and explain the current emergency situation in time. In some embodiments, the monitoring platform 200 may also receive vital sign parameters monitored by the portable monitoring device 100 and determine whether the portable monitoring device 100 is in an emergency. In an embodiment, after the emergency monitoring portable monitoring device establishes a voice communication channel with the monitoring platform 200, the portable monitoring device makes a real-time voice call with the monitoring platform 200. In other embodiments, the portable audio data sent by the portable monitoring device can be stored in the memory 27 of the monitoring platform 200, so that medical personnel can call and read the portable audio data sent by the portable monitoring device at any time. When the portable monitoring device sends the portable audio data to the monitoring platform 200, the portable audio data may carry prompt information associated with the portable audio data. The prompt information may be, but not limited to, the patient information corresponding to the portable monitoring device, the model of the portable monitoring device, the department to which it belongs, and so on.

The processor 22 of the monitoring platform 200 is also used to turn on the monitoring platform 200 and the plurality of portable monitoring devices 100 in which an emergency occurs to the patient when an emergency is detected in the patient of the multiple monitoring devices 100 Voice communication channel; determine the risk level of the patient’s emergency according to the predefined correspondence between the emergency and the risk level; and through the established voice communication channel in the order of the risk level from high to low Receive portable audio data sent by the portable monitoring device 100.

Specifically, when patients of multiple portable monitoring devices 100 have an emergency at the same time, the portable monitoring device 100 sends the multiple emergency conditions to the monitoring platform 200, so that the monitoring platform 200 proactively turns on the portable monitoring device 100 and the monitoring in emergency Voice communication channel between platforms 200. Further, according to the pre-defined correspondence between the emergency situation and the risk level, the risk level of the patient's emergency situation is determined; and then through the established voice communication channel, the corresponding sites are received in the order of the risk level from high to low. The portable audio data sent by the portable monitoring equipment is described above. In this way, by evaluating the risk level of the patient's emergency, the medical staff can conduct voice communication with patients with higher risk levels first, which not only improves the efficiency of audio information processing, and Reduced the safety risks of patients.

Wherein, the emergency situation includes the situation that the vital sign parameter value monitored by the portable monitoring device 100 is outside the normal threshold range, or the situation that the portable monitoring device 100 detects the patient falling. Specifically, the portable monitoring device 100 includes a motion sensor for monitoring the motion state of the patient. The processor 12 of the portable monitoring device 100 determines whether the patient has fallen according to the motion state of the patient. Specifically, the motion sensor may determine whether the patient has fallen according to parameters such as the acceleration value within a preset time or the patient's posture. The risk level may be classified according to the size of the monitored vital sign parameter value beyond the normal threshold range, and may also be classified according to the duration of the monitored abnormal vital sign parameter value.

The processor 22 of the monitoring platform 200 is also used to control the closing of at least one voice communication channel between the portable monitoring device 100 and the monitoring platform 200.

Specifically, after receiving the audio data of the portable terminal, the monitoring platform 200 controls to close at least one voice communication channel between the portable monitoring device and the monitoring platform, so as to prevent the patient from misoperation to the monitoring platform 200 when there are many patients Initiate more meaningless audio information and cause problems that interfere with the work of medical personnel.

Please refer to FIG. 1 and FIG. 2, the portable monitoring device 100 is used to monitor various vital signs parameters such as electrocardiogram, respiration, body temperature, pulse oxygen saturation, pulse rate, blood oxygen, non-invasive blood pressure, and invasive blood pressure of the patient. In this embodiment, the portable monitoring device 100 is a wearable monitoring device, so that the patient can carry it with him when outdoors, and monitor vital signs parameters in real time. The portable monitoring device 100 includes a main casing 10 and a measurement unit 11, a processor 12, a display unit 13 and a communication unit 14 provided on the main casing 10.

The measurement unit 11 is used to collect vital signs parameters of the patient. The measurement unit 11 includes, but is not limited to, monitoring accessories such as electrocardiographic respiration, blood oxygen, blood pressure, and body temperature. In this embodiment, the measurement unit 11 includes a blood oxygen monitoring unit 2 and an electrocardiographic monitoring unit 3. The blood oxygen monitoring unit 2 and the electrocardiographic monitoring unit 3 are correspondingly provided on two opposite sides of the main casing 1.

In this embodiment, the blood oxygen monitoring unit 2 includes a blood oxygen cable 21 and a blood oxygen probe 22. The blood oxygen cable 21 is connected between the main housing 1 and the blood oxygen probe 22. The ECG monitoring unit 3 includes an ECG cable 31, an anti-defibrillation structure 32, at least three electrode pad connectors 33, and electrode pads 34 corresponding to the electrode pad connectors 33. The main housing 1 is connected to one end of the ECG cable 31. The ECG cable 31 is provided with an anti-defibrillation structure 32 and at least three electrode pad connectors 33 in series from the end close to the main case 1 to the end far from the main case 1. The electrode sheet connector 33 is used to hold the electrode sheet 34. In one embodiment, the electrode pad 34 is a disposable electrode pad. It can be understood that, in another embodiment, the electrode pad 34 is a disposable ECG electrode pad.

Specifically, the main casing 1 is used to be tied to the wrist of the patient, and collects the physiological data signal of the patient through the blood oxygen monitoring unit 2 and/or the electrocardiographic monitoring unit 3. Each electrode sheet connector 33 is used to hold an electrode sheet 34. Each electrode pad 34 is used to attach to a certain part of the patient's body to measure the physiological data signal or impedance signal of that part. The anti-defibrillation structure 32 accommodates a defibrillation protection circuit, which is a protection circuit used to prevent the ECG detection system from being damaged when necessary to defibrillate the patient's heart to restore normal heart beat. In the present application, the anti-defibrillation structure 32 is provided independently of the main housing 1, which reduces the volume of the main housing 1 and is convenient to carry, while also avoiding the strong current applied to the anti-defibrillation structure 32 to the main housing 1 Signals cause interference.

It can be understood that, in order to conveniently fix the portable monitoring device 100 on the patient's body, the portable monitoring device 100 is divided into two parts that are detachably connected, specifically, the anti-defibrillation structure 32 is divided into a first defibrillation part 321 and a second Defibrillation section 322. The first defibrillation section 321 and the second defibrillation section 322 are connected to each other to form an anti-defibrillation structure 32 having a defibrillation function. In this embodiment, the first defibrillation unit 321 and the second defibrillation unit 322 are connected together by a plug connection. The first defibrillation unit 321 is also connected to the main housing 1 via an electrocardiographic cable 31. The second defibrillation unit 322 is also connected to at least three electrode pad connectors 33 via an electrocardiographic cable 31. Therefore, when the main housing 1 is installed on the patient's wrist, the ECG cable 31 and the first defibrillation portion 321 connected to the main housing 1 pass from the inside of the patient's sleeve to the patient's neck, and at least three electrode pads When the connectors 33 hold the electrode pads 34 and are attached to the designated parts of the patient's body, the ECG cable 31 and the second defibrillation section 322 connected to the at least three electrode pad connectors 33 pass from inside the patient's clothing to After the patient's neck is connected to the first defibrillator 321, the anti-defibrillation structure 32 is clamped to the patient's collar by the clips provided in the first defibrillator 321 and/or the second defibrillator 322 on. Therefore, in this application, the electrocardiogram data and blood oxygen data of the patient can be measured by the electrode pad 34 and the blood oxygen probe 22 respectively, and transmitted to the processor 12 in the main housing 1 to realize real-time monitoring of the patient's physiological data.

As shown in FIG. 2, the processor 12 can be used to control the cooperation of various components in the portable monitoring device 100, analyze vital sign parameters such as electrocardiographic respiration, blood oxygen, blood pressure, and body temperature collected by the measurement unit 11, and control the measurement The vital signs parameters such as electrocardiographic respiration, blood oxygen, blood pressure, and body temperature collected by the unit 11 are sent to the monitoring platform 200 through the communication unit 14.

The display unit 13 is electrically connected to the processor 12 and used to display at least one of the vital sign parameter value and the parameter waveform analyzed and processed by the processor 12. The display unit 13 can also be used to display alarm information. In this embodiment, when the vital sign parameter value detected by the measuring unit 11 is greater than a preset parameter threshold or the line connection of the measuring unit 11 is abnormal, the processor 12 generates the alarm message and controls the display unit 12 to display The alarm information. In an embodiment, the display unit 13 includes a touch screen and a display screen that are independently provided. In other embodiments, the display unit 13 is a touch screen integrated with a touch function and a display function.

The communication unit 14 is electrically connected to the processor 12 and is used to realize a communication connection between the portable monitoring device 100 and the monitoring platform 200 to send the data of the portable monitoring device 100 to the monitoring platform 200 and receive the data sent by the monitoring platform 200. The communication unit 14 may be, but not limited to, wifi, Bluetooth, WMTS, or 2G, 3G, 4G, 5G and other communication modules of mobile communication.

The portable monitoring device 100 further includes a speaker 15, a microphone 16 and a memory 17 electrically connected to the processor 12. The speaker 15 is used for playing audio data. The audio data includes, but is not limited to the alarm information and audio information sent by the monitoring platform 200. The microphone 16 is used to collect audio information of the patient. The audio information of the patient collected by the microphone 16 is sent to the monitoring platform 200 by the processor 12 controlling the communication unit 14. The memory 17 is also used to store software programs and modules. The processor 12 is also used to execute corresponding operations by running software programs and modules stored in the memory 17.

In an embodiment, the microphone 16 is disposed in the main housing 10 to simplify the circuit connection between the microphone 16 and the processor 12. In other embodiments, the microphone 16 may also be disposed on the measurement unit 10. Optionally, the microphone 16 is provided on the anti-defibrillation structure 32. Since the anti-defibrillation structure 32 is clamped on the collar of the patient by the clip, the microphone 16 is closer to the mouth of the patient, thereby facilitating the patient to collect audio information of the patient in an emergency.

The processor 12 of the portable monitoring device 100 is used to perform the following operations: when the microphone 16 of the portable monitoring device 100 is turned on, control the microphone 16 to collect the portable audio data; and send the portable audio data to all Scription monitoring platform 200.

Optionally, in some embodiments, the processor 12 of the portable monitoring device 100 is further used to determine whether the patient of the portable monitoring device 100 is in an emergency; when the patient of the portable monitoring device 100 is in an emergency, control Turn on the microphone 16 of the portable monitoring device 100, and collect portable audio data; or

When the patient of the portable monitoring device 100 is in an emergency, the portable monitoring device 100 receives the first control instruction sent by the monitoring platform 200; according to the first control command, the microphone of the portable monitoring device 200 is turned on 16, and collect portable audio data; and

When the patient of the portable monitoring device 100 does not have an emergency, in response to the first touch operation input on the control switch 18 of the portable monitoring device 100, the microphone 16 is controlled to be turned on and the audio data of the portable terminal is collected.

Specifically, when an emergency occurs to the patient of the portable monitoring device 100, the processor 12 may directly control to turn on the microphone 16 of the portable monitoring device 100, and receive portable audio data collected by the microphone 16. In some embodiments, the processor 12 of the portable monitoring device 100 is further used to control the portable monitoring device 100 to receive the control instruction sent by the monitoring platform 200; according to the control command, the microphone 16 of the portable monitoring device 100 is turned on, And receive the portable terminal audio data collected by the microphone 16. In this way, it is possible to avoid the problem that the patient initiates more meaningless audio information to the monitoring platform 200 due to the misoperation of the portable monitoring device 100 and causes interference with the work of medical personnel. In addition, the portable monitoring device 100 is also provided with a control switch 18 electrically connected to the microphone 16. The control switch 18 may be a mechanical switch or a touch switch. It can be understood that when the patient of the portable monitoring device 100 does not have an emergency, the patient can also touch the control switch 18 to turn on the microphone 16 and collect audio data on the portable side through the microphone 16. In other embodiments, when an emergency occurs to the patient of the portable monitoring device 100, the processor 12 may be used to control the opening of the device in response to the first touch operation input on the control switch 18 of the portable monitoring device 100 The microphone 16 is described and audio data of the portable terminal is collected. It can be understood that the first touch operation may be operations such as clicking, double-clicking, right-clicking, long-pressing, or sliding. In order to prevent patients from inadvertently operating the portable monitoring device 100 and initiating more meaningless audio information to the monitoring platform 200 and causing interference with the work of medical personnel, the monitoring platform 200 may store the received portable audio data in the memory 27, And the medical personnel can selectively answer the portable audio data sent by the portable monitoring device 100. The processor 12 of the portable monitoring device 100 is also used to determine whether the vital sign parameters monitored by the portable monitoring device 100 are abnormal; or to determine whether the motion state of the patient monitored by the portable monitoring device 100 is abnormal.

Specifically, in this embodiment, when the vital sign parameter value monitored by the portable monitoring device is outside the normal threshold range, it is determined that the vital sign parameter monitored by the portable monitoring device is abnormal. Specifically, when the patient is in an emergency, such as an arrhythmia or an error in the line connection of the portable monitoring device, the vital sign parameter value monitored by the portable monitoring device will generally be outside the normal threshold range, so that the portable monitoring device can be determined The monitored vital signs parameters are abnormal.

Further, the portable monitoring device 100 further includes a motion sensor. The motion sensor is used to monitor the motion state of the patient. When the motion sensor of the portable monitoring device 100 detects that the patient's motion state is abnormal, it is determined that the patient of the portable monitoring device has an emergency. For example, when the patient falls. The motion signal sensed by the motion sensor of the portable monitoring device 100 is outside the preset range value. Specifically, the motion sensor may determine whether the patient has fallen according to parameters such as the acceleration value within a preset time or the patient's posture.

In an embodiment, the processor 12 of the portable monitoring device 100 is further used to control the portable monitoring device 100 to establish a voice communication channel with the monitoring platform 200; and pass the audio data of the portable terminal through the voice The communication channel is sent to the monitoring platform 200.

Specifically, in an embodiment, after the portable monitoring device establishes a voice communication channel with the monitoring platform 200, the portable monitoring device and the monitoring platform 200 can have a real-time voice call. In other embodiments, the portable audio data sent by the portable monitoring device can be stored in the memory 27 of the monitoring platform 200, so that medical personnel can call and read the portable audio data sent by the portable monitoring device at any time. When the portable monitoring device sends the portable audio data to the monitoring platform 200, the portable audio data may carry prompt information associated with the portable audio data. The prompt information may be, but not limited to, the patient information corresponding to the portable monitoring device, the model of the portable monitoring device, the department to which it belongs, and so on.

In other embodiments, the processor 12 of the portable monitoring device 100 is also used to control the designated portable monitoring device 100 to receive the server-side audio data sent by the monitoring platform 200, wherein the specified portable monitoring device is Conditional portable monitoring equipment.

Specifically, the preset condition may be, but not limited to, the vital sign parameter value monitored by the specified portable monitoring device is outside the normal threshold range, the specified portable monitoring device belongs to the portable monitoring device outside the specified area, and so on. The designated area may be the same department or a different department. The designated area may also be divided according to the portable monitoring equipment 100 used by patients corresponding to different wards and the attending doctors in the same department. It can be understood that the preset conditions may be set according to a patient's custom setting, or preset by the monitoring platform 200 at the factory.

In this embodiment, the portable monitoring device receives the second control instruction sent by the monitoring platform 200 through the communication unit 14; the processor 12 of the monitoring platform 200 is also used to shut down the portable device according to the second control command A voice communication channel between the monitoring device and the monitoring platform 200; or in response to a second touch operation input on the control switch 18 of the portable monitoring device 100, controlling to close the portable monitoring device 100 and the monitoring platform Voice communication channel between 200. The processor 12 can also be used to close the voice communication channel between the portable monitoring device and the monitoring platform when the emergency situation of the patient of the portable monitoring device disappears.

Specifically, the portable monitoring device receives the second control instruction sent by the monitoring platform 200 through the communication unit 14; and closes the voice communication channel between the portable monitoring device and the monitoring platform 200 according to the second control command Therefore, it can avoid the problem of interfering with the work of medical staff caused by the patient’s misoperation to send more meaningless audio information to the monitoring platform 200 when there are many patients. Further, in some embodiments, the patient can also control to close or open the voice communication channel between the portable monitoring device 100 and the monitoring platform 200 by operating the control switch 18 of the portable monitoring device 100, Real-time interaction between medical staff. It can be understood that the second touch operation may be operations such as clicking, double-clicking, right-clicking, long-pressing, or sliding.

Please refer to FIG. 5, which is a schematic diagram of a program module of a monitoring system 2000 provided by another embodiment of the present application. The monitoring system 2000 includes a portable monitoring device 300. Portable monitoring equipment 300. The structure of the portable monitoring device 300 is similar to the structure of the portable device 100. The difference is that the portable monitoring device 300 further includes a camera 19 electrically connected to the processor 12.

Specifically, the portable monitoring device 300 further includes a communication unit 14 electrically connected to the processor 12, a microphone 16, and a camera 19. The communication unit 14 is used to establish a communication connection between the portable monitoring device 100 and the monitoring platform 200. The microphone 16 is used to collect portable audio data. The camera 19 is used to collect portable video data. The processor 12 is configured to control the microphone 16 to collect the portable audio data and the camera 19 to collect the portable video data when the microphone 16 and the camera 19 of the portable monitoring device 300 are in an open state; and Send the portable audio data and the portable video data to the monitoring platform 200.

It is understandable that when the patient of the portable monitoring device 100 is in an emergency, the camera 19 can collect the portable terminal video data of the patient corresponding to the portable monitoring device 100, so that the monitoring platform 200 can remotely receive the corresponding portable terminal video data, so as to Take rescue measures in time to reduce the patient's life risk.

The embodiment of the present invention discloses a control method of the monitoring system 1000, which not only improves the working efficiency of the monitoring system 1000, but also reduces the safety risk. Each is explained in detail below.

Please refer to FIG. 4, which is a flowchart of a control method of the monitoring system 1000 provided in the first embodiment of the present application. The control method of the monitoring system 1000 described in this embodiment includes the following steps.

Step S301, the monitoring platform establishes a communication connection with at least one portable monitoring device.

Specifically, the monitoring platform 200 establishes a communication connection with at least one portable monitoring device 100 to achieve wireless data transmission between the monitoring platform 200 and at least one portable monitoring device 100. The wireless data is, for example, but not limited to vital sign parameters monitored by the portable monitoring device 100, alarm information and audio data sent by the portable monitoring device 100.

Step S303: When the microphone of the monitoring platform is turned on, the microphone collects server audio data.

Step S305, the monitoring platform sends the server audio data to a designated portable monitoring device.

Specifically, when the microphone 26 of the monitoring platform 200 is turned on, the microphone 26 collects server audio data. For example, when the medical staff needs to convey the medical order to the patient, the medical staff collects the audio data of the medical staff through the microphone 26, and can broadcast the collected audio data of the medical staff to the patient, so that the patient can understand the medical care in real time The communication of medical orders by staff not only improves the processing efficiency of broadcast information, but also reduces the workload of medical staff.

In some embodiments, the monitoring platform 200 sends the server audio data to the designated portable monitoring device 100, which specifically includes:

According to the predefined correspondence between the patient and the portable monitoring device 100, the monitoring platform 200 is controlled to send the server audio data to the designated portable monitoring device 100.

Specifically, a mapping relationship table between the patient and the portable monitoring device 100 may be established in advance, for example, a mapping relationship may be established between the patient's identity information and the factory number or name of the portable monitoring device 100. Therefore, the corresponding portable monitoring device 100 of the patient who wants to be contacted can be found through the mapping relationship table between the patient and the portable monitoring device 100, so as to realize the voice communication between the monitoring platform 200 and the corresponding portable monitoring device 100.

In this embodiment, the sending the server audio data to the designated portable monitoring device specifically includes:

Determine the portable monitoring equipment that meets the preset conditions as the designated portable monitoring equipment;

Send the server audio data to the designated portable monitoring device.

Specifically, when the monitoring platform 200 determines that the portable monitoring device that meets the preset conditions is the designated portable monitoring device, it can automatically send the server-side audio data to the designated portable monitoring device, so as to improve the processing efficiency of the broadcast information. In this embodiment, the preset condition may be, but not limited to, the vital sign parameter value monitored by the specified portable monitoring device is outside the normal threshold range, the specified portable monitoring device belongs to the portable monitoring device outside the specified area, etc. Wait. The designated area may be the same department or a different department. The designated area may also be divided according to the portable monitoring equipment 100 used by patients corresponding to different wards and the attending doctors in the same department. It can be understood that the preset conditions may be set according to a patient's customization, or the factory presetting of the monitoring platform 200.

In an embodiment, the determination that the portable monitoring device that meets the preset condition is a designated portable monitoring device specifically includes:

Determine whether the vital sign parameters monitored by the portable monitoring device are abnormal;

If yes, it is determined that the portable monitoring device is a portable monitoring device that meets a preset condition.

In other embodiments, the determination that the portable monitoring device that meets the preset condition is a designated portable monitoring device specifically includes:

Determine whether the portable monitoring device belongs to the designated area according to the predefined correspondence between the portable monitoring device and the designated area;

If yes, it is determined that the portable monitoring device is a portable monitoring device that meets a preset condition.

In this embodiment, the sending the server audio data to the designated portable monitoring device specifically includes:

Control to establish a voice communication channel between the monitoring platform and the designated portable monitoring equipment;

Send the audio data of the server to the designated portable monitoring device through the opened voice communication channel.

Specifically, in an embodiment, the voice communication channel may be independent of the communication link established between the monitoring platform 200 and at least one portable monitoring device 100. In other embodiments, the voice communication channel and the communication link established between the monitoring platform 200 and at least one portable monitoring device 100 share the same common communication channel.

Further, in an embodiment, the control method of the monitoring system 1000 further includes: receiving portable audio data sent by the portable monitoring device.

The receiving of portable audio data sent by the portable monitoring device specifically includes:

When the monitoring platform or the portable monitoring device detects that an emergency occurs in a patient of the portable monitoring device, a voice communication channel between the monitoring platform and the portable monitoring device in which the patient has an emergency is opened;

Receive portable audio data sent by the portable monitoring device through the established voice communication channel.

Specifically, when an emergency occurs in a patient of one of the portable monitoring devices 100, the monitoring platform 200 receives the emergency status information sent by the portable monitoring device 100, so that the monitoring platform 200 actively turns on the portable monitoring device 100 and the monitoring platform 200 in which an emergency occurs The voice communication channel between them, so as to realize the audio call function between the patient and the medical staff, so that the patient can ask the medical staff for help and explain the current emergency situation in time. In some embodiments, the monitoring platform 200 may also receive vital sign parameters monitored by the portable monitoring device 100 and determine whether the portable monitoring device 100 is in an emergency. In one embodiment, after the emergency monitoring portable monitoring device establishes a voice communication channel with the monitoring platform 200, the portable monitoring device and the monitoring platform 200 conduct a real-time voice call. In other embodiments, the portable audio data sent by the portable monitoring device may be stored in the memory 27 of the monitoring platform 200, so that medical personnel can retrieve and read the portable audio data sent by the portable monitoring device at any time. During the process that the portable monitoring device sends the portable audio data to the monitoring platform 200, the portable audio data may carry prompt information associated with the portable audio data. The prompt information may be, but not limited to, the patient information corresponding to the portable monitoring device, the model of the portable monitoring device, the department to which it belongs, and so on.

In other embodiments, the receiving portable audio data sent by the portable monitoring device specifically includes:

When an emergency situation is detected in a patient of a plurality of the portable monitoring devices, a voice communication channel between the monitoring platform and the plurality of portable monitoring devices in which the patient is in an emergency situation is opened;

According to the predefined correspondence between the emergency and the risk level, determine the risk level of the patient's emergency;

Through the established voice communication channel, the portable terminal audio data corresponding to the portable monitoring device is received in order of the risk level from high to low.

Specifically, when patients of multiple portable monitoring devices 100 have an emergency at the same time, the portable monitoring device 100 sends the multiple emergency conditions to the monitoring platform 200, so that the monitoring platform 200 proactively turns on the portable monitoring device 100 and the monitoring in emergency Voice communication channel between platforms 200. Further, according to the pre-defined correspondence between the emergency situation and the risk level, the risk level of the patient's emergency situation is determined; and then through the established voice communication channel, the corresponding sites are received in the order of the risk level from high to low. The portable audio data sent by the portable monitoring equipment is described above. In this way, by evaluating the risk level of the patient's emergency, the medical staff can conduct voice communication with patients with higher risk levels first, which not only improves the efficiency of audio information processing, and Reduced the safety risks of patients.

Wherein, the emergency situation includes the situation that the vital sign parameter value monitored by the portable monitoring device 100 is outside the normal threshold range, or the situation that the portable monitoring device 100 detects the patient falling. Specifically, the portable monitoring device 100 includes a motion sensor for monitoring the motion state of the patient. The processor 12 of the portable monitoring device 100 determines whether the patient has fallen according to the motion state of the patient. Specifically, the motion sensor may determine whether the patient has fallen according to parameters such as the acceleration value within a preset time or the patient's posture. The risk level may be classified according to the size of the monitored vital sign parameter value beyond the normal threshold range, and may also be classified according to the duration of the monitored abnormal vital sign parameter value.

Optionally, the control method further includes: controlling to close at least one voice communication channel between the portable monitoring device and the monitoring platform.

Specifically, after receiving the audio data of the portable terminal, the monitoring platform 200 controls to close at least one voice communication channel between the portable monitoring device and the monitoring platform, so as to prevent the patient from misoperation to the monitoring platform 200 when there are many patients Initiate more meaningless audio information and cause problems that interfere with the work of medical personnel.

The control method of the monitoring system provided by the embodiment of the present application includes establishing a communication connection between the monitoring platform and at least one portable monitoring device, and when the microphone of the monitoring platform is turned on, the microphone of the monitoring platform collects audio data of the server; The monitoring platform sends the server-side audio data to the designated portable monitoring device, so as to achieve voice communication between the monitoring platform and the designated portable monitoring device, so that the monitoring platform can carry out voice communication with the designated portable monitoring device Improve work efficiency and reduce security risks.

Please refer to FIG. 5, which is a flowchart of a control method of the monitoring system 1000 according to the second embodiment of the present application. The control method of the monitoring system 1000 described in this embodiment includes the following steps.

Step S401, at least one portable monitoring device establishes a communication connection with the monitoring platform.

Step S403: When the microphone of the portable monitoring device is in an open state, the microphone collects audio data of the portable terminal.

In an embodiment, after the at least one portable monitoring device establishes a communication connection with the monitoring platform, the control method further includes: determining whether a patient of the portable monitoring device has an emergency.

Further, when the microphone 16 of the portable monitoring device 100 is in an open state, the microphone 16 collects audio data at the portable end, specifically including:

When an emergency occurs to the patient of the portable monitoring device 100, control to open the microphone 16 of the portable monitoring device 100 and collect audio data of the portable terminal;

When the patient of the portable monitoring device 100 is in an emergency, the portable monitoring device 100 receives the first control instruction sent by the monitoring platform 200; according to the first control command, the microphone of the portable monitoring device 100 is turned on 16, and collect portable audio data;

When the patient of the portable monitoring device 100 does not have an emergency, in response to the first touch operation input on the control switch 18 of the portable monitoring device 100, the microphone 16 is controlled to be turned on and the audio data of the portable terminal is collected.

Specifically, when an emergency occurs to the patient of the portable monitoring device 100, the processor 12 may directly control to turn on the microphone 16 of the portable monitoring device 100, and receive portable audio data collected by the microphone 16. In some embodiments, the processor 12 of the portable monitoring device 100 is further used to control the portable monitoring device 100 to receive the control instruction sent by the monitoring platform 200; according to the control command, the microphone 16 of the portable monitoring device 100 is turned on, And receive the portable terminal audio data collected by the microphone 16. In this way, it is possible to avoid the problem that the patient initiates more meaningless audio information to the monitoring platform 200 due to the misoperation of the portable monitoring device 100 and causes interference with the work of medical personnel. In addition, the portable monitoring device 100 is also provided with a control switch 18 electrically connected to the microphone 16. The control switch 18 may be a mechanical switch or a touch switch. It can be understood that when the patient of the portable monitoring device 100 does not have an emergency, the patient can also touch the control switch 18 to turn on the microphone 16 and collect audio data on the portable side through the microphone 16. In other embodiments, when an emergency occurs to the patient of the portable monitoring device 100, the processor 12 may be used to control the opening of the device in response to the first touch operation input on the control switch 18 of the portable monitoring device 100 The microphone 16 is described and audio data of the portable terminal is collected. It can be understood that the touch operation may be operations such as clicking, double-clicking, right-clicking, long-pressing, or sliding. In order to prevent patients from inadvertently operating the portable monitoring device 100 and launching more meaningless audio information to the monitoring platform 200, which may cause work problems that interfere with the work of medical personnel, the monitoring platform 200 may store the received portable audio data in the memory 27, And the medical personnel can selectively answer the portable audio data sent by the portable monitoring device 100.

In this embodiment, the judging whether the patient of the portable monitoring device has an emergency situation specifically includes:

Determine whether the vital sign parameters monitored by the portable monitoring device are abnormal; or

It is determined whether the movement state of the patient monitored by the portable monitoring device is abnormal.

Specifically, in this embodiment, when the vital sign parameter value monitored by the portable monitoring device is outside the normal threshold range, it is determined that the vital sign parameter monitored by the portable monitoring device is abnormal. Specifically, when the patient is in an emergency, such as an arrhythmia or an error in the line connection of the portable monitoring device, the vital sign parameter value monitored by the portable monitoring device will generally be outside the normal threshold range, so that the portable monitoring device can be determined The monitored vital signs parameters are abnormal. Further, when the motion sensor of the portable monitoring device 100 detects that the patient's motion state is abnormal, it is determined that the patient of the portable monitoring device has an emergency. For example, when the patient falls. The motion signal sensed by the motion sensor of the portable monitoring device 100 is outside the preset range value. Specifically, the motion sensor may determine whether the patient has fallen according to parameters such as the acceleration value within a preset time or the patient's posture.

Step S405: The portable monitoring device sends the portable audio data to the monitoring platform.

Specifically, in this embodiment, when an emergency occurs to the patient of the portable monitoring device 100, the microphone 16 of the portable monitoring device 100 may be directly turned on to receive portable audio data collected by the microphone 16. In some embodiments, the portable monitoring device turns on the microphone of the portable monitoring device and collects audio data on the portable side, including: the processor 12 of the portable monitoring device 100 is further used to control the portable monitoring device to receive the monitoring platform 200 Control instructions sent; according to the control commands, turn on the microphone 16 of the portable monitoring device 100, and receive portable audio data collected by the microphone 16. In this way, it is possible to avoid the problem that the patient initiates more meaningless audio information to the monitoring platform 200 due to the misoperation of the portable monitoring device 100 and causes interference with the work of medical personnel.

In this embodiment, the portable monitoring device sends the portable audio data to the monitoring platform, which specifically includes:

Controlling the portable monitoring equipment to establish a voice communication channel with the monitoring platform;

Sending the portable audio data to the monitoring platform through the opened voice communication channel.

Specifically, in an embodiment, after the portable monitoring device establishes a voice communication channel with the monitoring platform, the portable monitoring device makes a real-time voice call with the monitoring platform. In other embodiments, the portable audio data sent by the portable monitoring device can be stored in the memory of the monitoring platform, so that medical personnel can call and read the portable audio data sent by the portable monitoring device at any time. When the portable monitoring device sends the portable audio data to the monitoring platform, the portable audio data may carry prompt information associated with the portable audio data. The prompt information may be, but not limited to, the patient information corresponding to the portable monitoring device, the model of the portable monitoring device, the department to which it belongs, and so on.

Optionally, the control method further includes: a designated portable monitoring device receives server-side audio data sent by the monitoring platform, wherein the designated portable monitoring device is a portable monitoring device that meets a preset condition.

Specifically, the preset condition may be, but not limited to, the vital sign parameter value monitored by the designated portable monitoring device is outside the normal threshold value range, the designated portable monitoring device belongs to the portable monitoring device outside the designated area, and so on. The designated area may be the same department or a different department. The designated area may also be divided according to the portable monitoring equipment 100 used by patients corresponding to different wards and the attending doctors in the same department. It can be understood that the preset conditions may be set according to a patient's custom setting, or preset by the monitoring platform 200 at the factory.

Further, in some embodiments, the control method further includes: the portable monitoring device 100 receiving a second control instruction sent by the monitoring platform 200; and shutting down the portable monitoring device according to the second control command A voice communication channel between 100 and the monitoring platform 200; or in response to a second touch operation input on the control switch 18 of the portable monitoring device 100, controlling to close the portable monitoring device 100 and the monitoring platform 200 Voice communication channel.

Specifically, the portable monitoring device receives the second control instruction sent by the monitoring platform 200 through the communication unit 14; and turns off the voice between the portable monitoring device and the monitoring platform 200 according to the second control command The communication channel can avoid the problem of interfering with the work of medical staff caused by the patient's misoperation to send more meaningless audio information to the monitoring platform 200 when there are many patients. Further, in some embodiments, the patient can also control to close or open the voice communication channel between the portable monitoring device 100 and the monitoring platform 200 by operating the control switch 18 of the portable monitoring device 100, Real-time interaction between medical staff. It can be understood that the second touch operation may be operations such as clicking, double-clicking, right-clicking, long-pressing, or sliding.

The monitoring platform, the portable monitoring equipment and the control method of the monitoring system provided by the embodiments of the present application. The control method of the monitoring system is to establish a communication connection between at least one portable monitoring device and a monitoring platform; determine whether the patient of the portable monitoring device is in an emergency; if so, the portable monitoring device receives the control instruction sent by the monitoring platform , Wherein the portable monitoring device is a portable monitoring device in which an emergency occurs to the patient; according to the control command, the microphone of the portable monitoring device is turned on, and the portable audio data is collected; the portable audio data is sent to the The monitoring platform, because the monitoring platform can automatically control the opening of the microphone of the portable monitoring device, thereby realizing real-time voice communication between the patient and the medical staff, thereby improving work efficiency and reducing safety risks. In addition, the monitoring platform only establishes a voice communication channel with the monitoring platform when the patient of the portable monitoring device has an emergency, thereby avoiding interference with the work of medical personnel caused by the patient's misoperation to initiate a lot of meaningless audio information to the monitoring platform when there are many patients The problem.

The embodiments of the present invention have been described in detail above, and specific examples have been used in this article to explain the principles and implementations of the present invention. The descriptions of the above embodiments are only used to help understand the method and core idea of the present invention; Those of ordinary skill in the art, according to the ideas of the present invention, may have changes in specific implementations and application scopes. In summary, the content of this specification should not be construed as limiting the invention.

Claims (32)

1. A control method of a monitoring system, characterized in that it includes the following steps:

   The monitoring platform establishes a communication connection with at least one portable monitoring device;

   When the microphone of the monitoring platform is turned on, the microphone collects audio data of the server;

   The monitoring platform sends the server audio data to a designated portable monitoring device.
2. The method for controlling a monitoring system according to claim 1, wherein the sending of the audio data of the server to a designated portable monitoring device specifically includes:

   Determine the portable monitoring equipment that meets the preset conditions as the designated portable monitoring equipment;

   Send the server audio data to the designated portable monitoring device.
3. The method for controlling a monitoring system according to claim 2, wherein the monitoring platform sends the server audio data to a designated portable monitoring device, specifically including:

   According to the predefined correspondence between the patient and the portable monitoring device, the monitoring platform is controlled to send the server audio data to the designated portable monitoring device.
4. The method for controlling a monitoring system according to claim 2, wherein the determination that the portable monitoring device that satisfies the preset condition is a designated portable monitoring device specifically includes:

   Determine whether the portable monitoring device belongs to the designated area according to the predefined correspondence between the portable monitoring device and the designated area;

   If yes, it is determined that the portable monitoring device is a portable monitoring device that meets a preset condition.
5. The control method of the monitoring system according to claim 1, wherein the control method further comprises:

   Receiving portable audio data sent by the portable monitoring device.
6. The method for controlling a monitoring system according to claim 5, wherein the receiving of portable audio data sent by the portable monitoring device specifically includes:

   When the monitoring platform or the portable monitoring device detects an emergency situation in a patient of the portable monitoring device, or in response to the first touch operation input on the control switch of the portable monitoring device, it is turned on A voice communication channel between the monitoring platform and the patient's portable monitoring equipment in an emergency;

   Receive portable audio data sent by the portable monitoring device through the established voice communication channel.
7. The control method of the monitoring system according to claim 5, wherein after receiving the portable audio data sent by the portable monitoring device, the method further includes storing a plurality of the portable audio data and calling a plurality of One or more of the portable segment audio data in the portable segment audio data is played.
8. The method for controlling a monitoring system according to claim 5, wherein the receiving of portable audio data sent by the portable monitoring device specifically includes:

   When an emergency situation is detected in a patient of a plurality of the portable monitoring devices, a voice communication channel between the monitoring platform and the plurality of portable monitoring devices in which the patient is in an emergency situation is opened;

   According to the predefined correspondence between the emergency and the risk level, determine the risk level of the patient's emergency;

   Through the established voice communication channel, the portable terminal audio data corresponding to the portable monitoring device is received in order of the risk level from high to low.
9. The control method of the monitoring system according to any one of claims 1-8, wherein the control method further comprises:

   Controlling to close at least one voice communication channel between the portable monitoring device and the monitoring platform.
10. A control method of a monitoring system, characterized in that it includes the following steps:

    At least one portable monitoring device establishes a communication connection with the monitoring platform;

    When the microphone of the portable monitoring device is turned on, the microphone collects audio data of the portable terminal; and

    The portable monitoring device sends the portable audio data to the monitoring platform.
11. The control method of the monitoring system according to claim 10, wherein after the at least one portable monitoring device establishes a communication connection with the monitoring platform, the control method further comprises: determining the patient of the portable monitoring device Whether there is an emergency;

    When the microphone of the portable monitoring device is turned on, the microphone collecting portable audio data specifically includes:

    When the patient of the portable monitoring device is in an emergency, control to open the microphone of the portable monitoring device and collect audio data of the portable terminal; or

    When the patient of the portable monitoring device has an emergency, the portable monitoring device receives the first control instruction sent by the monitoring platform; according to the first control command, turns on the microphone of the portable monitoring device and collects the portable End audio data; or

    In response to the first touch operation input on the control switch of the portable monitoring device, the microphone is controlled to be turned on and audio data of the portable terminal is collected.
12. The control method of the monitoring system according to claim 11, wherein the judging whether the patient of the portable monitoring device has an emergency situation specifically includes:

    Determine whether the vital sign parameters monitored by the portable monitoring device are abnormal; or

    It is determined whether the movement state of the patient monitored by the portable monitoring device is abnormal.
13. The method for controlling a monitoring system according to claim 10, wherein the portable monitoring device sends the portable audio data to the monitoring platform, specifically including:

    Controlling the portable monitoring device to establish a voice communication channel with the monitoring platform;

    Sending the portable audio data to the monitoring platform through the opened voice communication channel.
14. The control method of the monitoring system according to claim 10, wherein the control method further comprises:

    The designated portable monitoring device receives the server-side audio data sent by the monitoring platform, wherein the designated portable monitoring device is a portable monitoring device that meets a preset condition.
15. The control method of a monitoring system according to any one of claims 10 to 14, wherein the control method further comprises:

    When the emergency situation of the patient of the portable monitoring device disappears, close the voice communication channel between the portable monitoring device and the monitoring platform, or

    The portable monitoring device receives the second control instruction sent by the monitoring platform;

    Close the voice communication channel between the portable monitoring device and the monitoring platform according to the second control command; or

    In response to the second touch operation input on the control switch of the portable monitoring device, control to close the voice communication channel between the portable monitoring device and the monitoring platform.
16. A monitoring platform is characterized by including:

    A communication unit for establishing a communication connection between the monitoring platform and at least one portable monitoring device;

    Microphone, used to collect audio data from the server;

    The processor is used to control the monitoring platform to send the server audio data to a designated portable monitoring device.
17. The monitoring system according to claim 16, wherein the processor is further configured to determine that the portable monitoring device that satisfies the preset condition is a designated portable monitoring device, and send the server audio data to the designated portable monitoring device equipment.
18. The monitoring system according to claim 17, wherein the processor is further configured to control the monitoring platform to send the server-side audio data to a specified according to a predefined correspondence between the patient and the portable monitoring device Portable monitoring equipment.
19. The monitoring system according to claim 17, wherein the processor is further configured to determine whether the portable monitoring device belongs to the specified area according to a predefined correspondence between the portable monitoring device and the specified area And when the portable monitoring device belongs to the designated area, determine that the portable monitoring device is a portable monitoring device that meets preset conditions.
20. The monitoring system of claim 16, wherein the processor is further configured to control the monitoring platform to receive portable audio data sent by the portable monitoring device.
21. The monitoring system according to claim 20, wherein the processor is further configured to turn on when the monitoring platform or the portable monitoring device detects an emergency of a patient of the portable monitoring device A voice communication channel between the monitoring platform and the portable monitoring device in which the patient is in an emergency; and receiving portable audio data sent by the portable monitoring device through the established voice communication channel.
22. The monitoring system according to claim 20, characterized in that the monitoring platform further comprises a memory for storing and storing several pieces of portable audio data;

    The processor is also used to call one or more of the portable audio data stored in the memory for playing.
23. The monitoring system according to claim 20, wherein the processor is further configured to start the monitoring platform and the patient's emergency situation when an emergency situation is detected in a patient of multiple portable monitoring devices A voice communication channel between a plurality of the portable monitoring devices; according to the predefined correspondence between the emergency and the risk level, determine the risk level of the patient’s emergency; and the established voice communication channel according to the The risk level receives the portable audio data sent by the portable monitoring device in order from high to low.
24. The monitoring system according to any one of claims 16 to 23, wherein the processor is further used to control to close at least one voice communication channel between the portable monitoring device and the monitoring platform.
25. A portable monitoring device is characterized by comprising:

    A communication unit for establishing a communication connection between the portable monitoring device and the monitoring platform;

    Microphone, used to collect portable audio data;

    The processor is configured to control the microphone to collect the audio data of the portable terminal when the microphone of the portable monitoring device is turned on; and send the audio data of the portable terminal to the monitoring platform.
26. The monitoring system according to claim 25, wherein the processor is further used to determine whether an emergency occurs to the patient of the portable monitoring device; when an emergency occurs to the patient of the portable monitoring device, control to open Describe the microphone of the portable monitoring equipment and collect audio data from the portable terminal; or

    When the patient of the portable monitoring device has an emergency, the portable monitoring device receives the first control instruction sent by the monitoring platform; according to the first control command, turns on the microphone of the portable monitoring device and collects the portable End audio data; or

    In response to the first touch operation input on the control switch of the portable monitoring device, the microphone is controlled to be turned on and audio data of the portable terminal is collected.
27. The monitoring system according to claim 26, wherein the processor is further used to determine whether the vital signs parameter monitored by the portable monitoring device is abnormal; or to determine the value monitored by the portable monitoring device Whether the patient's movement status is abnormal.
28. The monitoring system according to claim 25, wherein the processor is further configured to control the portable monitoring device to establish a voice communication channel with the monitoring platform; and turn on the portable audio data through The voice communication channel is sent to the monitoring platform.
29. The monitoring system according to claim 25, wherein the processor is further configured to control a designated portable monitoring device to receive server-side audio data sent by the monitoring platform, wherein the designated portable monitoring device is Portable monitoring equipment with preset conditions.
30. The monitoring system according to any one of claims 25 to 29, wherein the processor is further used to turn off the portable monitoring device and the monitoring when the emergency situation of the patient of the portable monitoring device disappears Voice communication channels between platforms, or

    The portable monitoring device receives a second control instruction sent by the monitoring platform through the communication unit; the processor is further configured to shut down between the portable monitoring device and the monitoring platform according to the second control command 'S voice communication channel; or

    In response to the second touch operation input on the control switch of the portable monitoring device, control to close the voice communication channel between the portable monitoring device and the monitoring platform.
31. The monitoring system according to claim 25, wherein the portable monitoring device further comprises a main casing and a measurement unit separately provided on the main casing, and the microphone is arranged in the main casing or Described on the measurement unit.
32. A portable monitoring device is characterized by comprising:

    A communication unit for establishing a communication connection between the portable monitoring device and the monitoring platform;

    Microphone, used to collect portable audio data;

    Camera, used to collect portable video data;

    A processor, configured to control the microphone to collect audio data of the portable terminal and control the camera to collect video data of the portable terminal when the microphone and camera of the portable monitoring device are in an open state; and send the portable terminal The audio data and the portable video data are sent to the monitoring platform.

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