CN112788983A - Monitoring method for mobile monitoring equipment and mobile monitoring equipment - Google Patents

Abstract

A monitoring method for a mobile monitoring device and a mobile monitoring device (100). The mobile monitoring device (100) has a display function, including a screen locking mode and an unlocking mode, and the monitoring method comprises the following steps: displaying a first content interface (S201) when the mobile monitoring device (100) is in a screen locking mode; displaying a second content interface while the mobile monitoring device (100) is in the unlocked mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface (S203).

Description

Monitoring method for mobile monitoring equipment and mobile monitoring equipmentTechnical Field

The present application relates to the technical field of medical devices, and in particular, to a monitoring method for a mobile monitoring device and a mobile monitoring device.

Background

Mobile monitoring devices generally refer to medical devices that can be worn by a patient and that enable uninterrupted real-time monitoring of the patient as the patient moves. The existing mobile monitoring equipment usually closes the display after a patient leaves a sickbed, and displays monitored related information only after a screen is opened, so that the display is single, and the patient cannot timely learn abnormal vital sign parameters, thereby bringing certain life danger to the patient.

Disclosure of Invention

In view of the above problems in the prior art, the present invention provides a monitoring method for a mobile monitoring device and a mobile monitoring device, which have diversified display information and monitor in real time.

In a first aspect, the present application provides a monitoring method for a mobile monitoring device, where the mobile monitoring device has a display function and includes a screen locking mode and an unlocking mode, and the monitoring method includes the following steps:

displaying a first content interface when the mobile monitoring device is in the screen locking mode;

displaying a second content interface when the mobile monitoring device is in the unlocked mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface.

In a second aspect, the present application provides a mobile monitoring device comprising a display and a processor electrically connected to the display, the display having a lock mode and an unlock mode,

the processor is used for controlling the display to display a first content interface when the display is in the screen locking mode; and

controlling the display to display a second content interface when the display is in the unlocked mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface.

The embodiment of the application provides a monitoring method for a mobile monitoring device and the mobile monitoring device. The mobile monitoring device has a display function and comprises a screen locking mode and an unlocking mode, and the monitoring method comprises the following steps: displaying a first content interface when the mobile monitoring device is in the screen locking mode; displaying a second content interface when the mobile monitoring device is in the unlocked mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface. Because the mobile monitoring equipment can display information in the unlocking mode and the screen locking mode, the patient can know the monitoring result in real time, and the safety risk of the patient is reduced. In addition, different content interfaces are displayed in the unlocking mode and the screen locking mode based on the mobile monitoring equipment, so that diversified information viewing requirements of users can be met.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of a mobile monitoring device.

Fig. 2 is a flow chart of a monitoring method for a mobile monitoring device.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Referring to fig. 1, fig. 1 is a schematic diagram illustrating amobile monitoring device 100. In this embodiment, themobile monitoring device 100 includes adisplay 15 and aprocessor 13 electrically connected to thedisplay 15. Thedisplay 15 has a lock screen mode and an unlock mode. Theprocessor 13 is configured to control thedisplay 15 to display a first content interface when thedisplay 15 is in the screen locking mode; and controlling thedisplay 15 to display a second content interface when thedisplay 15 is in the unlocked mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface. In this way, thedisplay 15 based on themobile monitoring device 100 displays different content interfaces in the unlock mode and the lock mode, so that the diversified information viewing requirements of the user can be met.

In one embodiment, if thedisplay 15 is not set to be turned off, the monitored data is always displayed on thedisplay 15, which not only causes excessive power consumption of themobile monitoring device 100, but also prevents continuous monitoring for a long time. Optionally, the information displayed by the first content interface is less than the information displayed by the second content interface, so that the power consumption of thedisplay 15 in the screen locking mode is less than the power consumption of thedisplay 15 in the screen unlocking mode, and the power consumption of the entiremobile monitoring device 100 can be greatly reduced. Specifically, when thedisplay 15 is in the screen locking mode, the information displayed on the first content interface is simplified information of the monitoring result, so that the monitoring related information viewed by the patient is effectively simplified, and the viewing efficiency of the patient is improved; when thedisplay 15 is in the unlocking mode, the information displayed by the second content interface is detailed information of the monitoring result, so that the monitoring related information is comprehensively displayed, and the patient or the medical staff can conveniently use and/or view the monitoring related information more specifically.

In some embodiments, the information displayed by the first content interface includes at least some of the information displayed by the second content interface. In the present embodiment, the information displayed by the first content interface may be, but is not limited to, a parameter value. The information displayed by the second content interface may be, but is not limited to, at least two of parameter values, parameter waveforms, alarm/prompt information, and patient information. The patient information may include the patient's hospital bed number, the hospital room number where the hospital bed is located, the care group or care level to which the patient belongs. In particular, in the lock screen mode, thedisplay 15 may only display parameter values, so that the user can visually observe the parameter values monitored by themobile monitoring device 100, and the power consumption of thedisplay 15 can be reduced. It is understood that the type/number of physiological parameters may be one or more. In the unlocked mode, thedisplay 15 may simultaneously display data such as parameter values, parameter waveforms, alarm/prompt messages, patient information, etc. to facilitate more targeted viewing and/or use of the relevant data by the patient and/or healthcare worker. Therefore, the physiological parameters of the patient can be displayed in real time through thedisplay 15 of themobile monitoring device 100, so that the patient can know the monitoring result in real time, and the safety risk of the patient is reduced.

It is understood that in the present embodiment, themobile monitoring device 100 is used for monitoring one or more vital sign parameters of the patient, such as cardiac electricity, respiration, body temperature, pulse oxygen saturation, pulse rate, blood oxygen, non-invasive blood pressure, and invasive blood pressure. Themobile monitoring device 100 may be a portable mobile monitoring device, a transit mobile monitoring device, or a mobile monitoring device. Optionally, in this embodiment, themobile monitoring device 100 is a portable mobile monitoring device to be worn on the patient conveniently, and the patient continues to monitor the vital sign parameters of the patient in real time after leaving the patient bed. Themobile monitoring device 100 also includes apower module 11, ameasurement module 12, amemory 14, and acommunication module 16 electrically connected to each other with theprocessor 13.

Themobile monitoring device 100 may establish a connection with theexternal device 200. In particular, in an embodiment, themobile monitoring device 100 may establish data communication with theexternal device 200 via thecommunication module 16. Theexternal device 200 includes a central monitoringservice station device 21 or abedside monitor 22. Thecommunication module 16 may be, but is not limited to, a wifi, bluetooth, or 2G, 3G, 4G, 5G, etc. communication module for mobile communication. In other embodiments, themobile monitoring device 100 may also establish a connection with theexternal device 200 via a cable. Therefore, the physiological parameters of the patient can be monitored centrally by thecommunication module 16 of themobile monitoring device 100 through wireless transmission of the monitored information to the monitoring information system (e.g., the central monitoring service station device 21) of the hospital.

Thepower module 11 is used for providing power to the functional modules of themobile monitoring device 100. Thepower module 11 may include a battery and a power management module. The battery is a rechargeable battery, such as a secondary battery. The power management module is electrically connected to theprocessor 13. The power management module is used for switching to a battery to supply power when detecting that themobile monitoring device 100 is disconnected from the host or the power socket of theexternal device 200. The power management module is used for switching to a power socket or a host for supplying power and controlling the power socket or the host to charge the battery when detecting that themobile monitoring device 100 is connected to the host or the power socket of theexternal device 200. The technology of the power management module is mature technology, and a person skilled in the art can select the required power management module according to actual requirements. It can be understood that when theexternal device 200 is removed and replaced by a patient, themobile monitoring device 100 is disconnected from theexternal device 200, and the internal battery of themobile monitoring device 100 supplies power, so that the function modules of themobile monitoring device 100 can continuously measure and store the historical data. After themobile monitoring device 100 is connected to theexternal device 200, the historical data can be played back and merged with theexternal device 200 in cooperation with the software of theexternal device 200.

It is to be understood that in an embodiment, themeasurement module 12 may be provided separately on themobile monitoring device 100. Themeasurement module 12 is used to acquire physiological data signals of a patient. Theprocessor 13 is also used for data processing of the physiological data signals from themeasurement module 12. Themeasurement module 12 includes, but is not limited to, physiological parameter monitoring accessories such as electrocardiographic respiration, blood oxygen, blood pressure, body temperature, and the like. In this embodiment, themobile monitoring device 100 is provided with several connection interfaces. The plurality of connectors can be an electrocardio/respiration connector, a blood oxygen connector, an invasive blood pressure connector, a non-invasive blood pressure connector, a body temperature connector and/or the like. The physiological parameter monitoring accessory is electrically connected to themobile monitoring device 100 via a connection interface. In other embodiments, themeasurement module 12 may also be integrated on themobile monitoring device 100.

Theprocessor 13 may be used to control the cooperation of various functional components within themobile monitoring device 100. Specifically, theprocessor 13 processes vital sign parameters such as cardiac electrical respiration, blood oxygen, blood pressure, body temperature, and the like collected by themeasurement module 12 to obtain vital sign parameter data, and controls thedisplay 15 to display the vital sign parameter data. The vital sign parameter data includes parameter values and/or parameter waveforms. Theprocessor 13 is further configured to control thecommunication module 16 to transmit the vital sign parameter data acquired by themeasurement module 12 to theexternal device 200.

It is understood that, in one embodiment, thedisplay 15 is a touch display screen. The touch display screen includes atouch screen 151 provided independently and adisplay screen 152 provided on thetouch screen 151. Since the power consumption of thedisplay 15 occupies a large portion of the entire power consumption of themobile monitoring device 100, and themobile monitoring device 100 needs to be powered by thebattery module 11 after the patient leaves the patient bed, the power consumption of thedisplay 15 of themobile monitoring device 100 is required to be designed to be as low as possible, so as to prolong the endurance time of themobile monitoring device 100. Optionally, to reduce power consumption of thedisplay 15 during operation, thedisplay screen 152 is a low power display screen, such as an ink screen. Specifically, in the present embodiment, thedisplay screen 152 may be fixed to thetouch screen 151 by an adhesive. In other embodiments, thedisplay 15 may also be a touch display screen integrating touch function and display function.

Thememory 14 is used to store patient information, historical data, monitoring data, and the like. The memory includes RAM and flash memory (i.e., flash memory). Thememory 14 is also used to store software programs and modules. Theprocessor 13 is a control center of themobile monitoring device 100, connects various parts of the entiremobile monitoring device 100 with various interfaces and lines, and executes various functions of themobile monitoring device 100 and processes data by running or executing programs stored in thememory 14 and calling up data stored in thememory 14. Theprocessor 13 may be composed of an Integrated Circuit (IC), for example, a single packaged IC, or a plurality of packaged ICs connected with the same or different functions. For example, theprocessor 13 may include only a Central Processing Unit (CPU), or may be a combination of a CPU, a Digital Signal Processor (DSP), a Graphics Processing Unit (GPU) and various control chips. In the embodiment of the present invention, the CPU may be a single operation core, or may include multiple operation cores.

Optionally, the information displayed by the first content interface further includes an emergency identifier, and theprocessor 13 is further configured to generate emergency notification information in response to an operation on the emergency identifier; and transmits the first aid notification information to theexternal device 200.

Specifically, when thedisplay 15 is in the screen lock mode, the patient may input a touch operation on the first aid identifier on the first content interface, and theprocessor 13 of themobile monitoring device 100 generates first aid notification information in response to the touch operation and controls the first aid notification information to be transmitted to theexternal device 200 through thecommunication module 16, so that the medical staff can take corresponding first aid measures quickly and reduce the safety risk of the patient. The touch operation may be a long press, a single click, a double click, a slide operation, or the like. The first aid notification message may be a voice message, a text message, a light message, or a combination thereof.

Theprocessor 13 is further configured to detect whether a screen operation exists in themobile monitoring device 100 within a preset time when thedisplay 15 is in the unlock mode; and controlling thedisplay 15 to enter the screen locking mode from the unlocking mode when detecting that themobile monitoring device 100 has no screen operation within the preset time.

Specifically, in this embodiment, the preset time may be customized in a setting menu of themobile monitoring device 100, or may be a default preset for themobile monitoring device 100 to leave the factory, for example, 30 seconds, 60 seconds, 90 seconds, and the like. In particular, themobile monitoring device 100 further includes aclock crystal 17 electrically connected to theprocessor 13. Theclock crystal 17 is used to acquire local time and start timing after the screen operation. Theprocessor 13 is further configured to receive timing information sent by theclock crystal 17, and control thedisplay 15 to enter the screen locking mode in the unlocking mode or maintain the unlocking mode according to the timing information. The screen operation includes a touch operation on thedisplay 15, such as a page turning operation or an operation of setting parameter information.

In this embodiment, theprocessor 13 is further configured to control thedisplay 15 to enter the unlock mode from the lock screen mode in response to an unlock operation on thedisplay 15 when thedisplay 15 is in the lock screen mode.

Theprocessor 13 is further configured to perform the following operations:

responding to the touch operation in the designated area of thedisplay 15, and controlling thedisplay 15 to enter an unlocking mode from a screen locking mode; or

Responding to the touch operation on thedisplay 15, popping up a password input box;

after the password is input in the password input box, thedisplay 15 is controlled to enter an unlocking mode from a screen locking mode; or

Acquiring a touch parameter on thedisplay 15 in response to a touch operation on thedisplay 15;

and when the touch parameter meets the preset parameter value, controlling thedisplay 15 to enter an unlocking mode from a screen locking mode.

In one embodiment, theprocessor 13 is further configured to control thedisplay 15 to enter the unlock mode from the lock mode in response to a sliding operation on a designated area of thedisplay 15.

In another embodiment, thesensing module 18 further comprises a fingerprint sensor. The fingerprint sensor is arranged in the designated area of thedisplay 15 and is used for responding to touch operation in the designated area of thedisplay 15 and acquiring fingerprint information; the processor 10 is configured to determine whether the acquired fingerprint information matches with pre-stored fingerprint information; and if so, controlling thedisplay 15 to enter the unlocking mode from the screen locking mode.

The pre-stored fingerprint information can comprise fingerprint information of a patient and fingerprint information of authorized medical personnel, so that the patient and/or the medical personnel can conveniently check and use the physiological parameter data in real time. The designated area may be located in a corner of thedisplay 15 to avoid the patient's malfunction causing thedisplay 15 to enter an unlocked mode, which increases the power consumption of themobile monitoring device 100. The touch parameter may be, but is not limited to, a pressing time, a pressing force, a touch area, a number of touch points (for example, different touch points may be generated by touching a designated area of thedisplay 15 with different fingers of a user), or a touch trajectory. The preset parameter values may be customized by the medical personnel or preset by default at the factory of themobile monitoring device 100.

Theprocessor 13 is further configured to control thedisplay 15 to enter the unlocking mode from the screen locking mode when detecting that themobile monitoring device 100 sends the alarm information and thedisplay 15 is in the screen locking mode, so that the patient can clearly know the alarm information and other measurement states when themobile monitoring device 100 alarms, and the patient can conveniently and rapidly process the alarm information and the other measurement states.

Specifically, when detecting that the vital sign parameter detected by themobile monitoring device 100 is abnormal or the working state of themobile monitoring device 100 is abnormal, theprocessor 13 generates alarm information and controls thedisplay 15 to display the alarm information. In this embodiment, the abnormal occurrence of the vital sign parameter detected by themobile monitoring device 100 means that the parameter value of the vital sign parameter is outside the preset threshold range, that is, the condition of the patient occurring a disease state. The abnormal operation of themobile monitoring device 100 is, for example, the abnormal connection of the lines of the elements or the insufficient power. When detecting that themobile monitoring device 100 sends an alarm message and thedisplay 15 is in the screen locking mode, thedisplay 15 is controlled to enter the unlocking mode from the screen locking mode. Optionally, the alarm information may carry a prompt message, where the prompt message may include one of a sound message, a light message, and a text message, or a combination thereof, so as to remind the patient or the medical staff to take a corresponding rescue measure.

Theprocessor 13 is also configured to control thedisplay 15 to enter the screen locking mode from the unlocking mode when themobile monitoring apparatus 100 is detected to be disarmed and thedisplay 15 is in the unlocking mode.

Specifically, when the parameter value of the vital sign parameter detected by themobile monitoring device 100 is restored to be within the preset threshold range and the mobile monitoring device is working normally, themobile monitoring device 100 will release the alarm, and thedisplay 15 of themobile monitoring device 100 enters the screen locking mode from the unlocking mode.

Theprocessor 13 is further configured to perform the following operations:

determining whether themobile monitoring device 100 is continuously sending alarm information;

if yes, controlling thedisplay 15 to be in the unlocking mode continuously, and displaying a second content interface;

if not, detecting whether themobile monitoring device 100 has screen operation within a preset time;

when detecting that themobile monitoring device 100 does not have the screen operation within the preset time, thedisplay 15 is controlled to enter the screen locking mode from the unlocking mode.

Specifically, when the parameter value of the vital sign parameter monitored by themobile monitoring device 100 is always in an abnormal state, for example, the parameter value is outside the preset threshold range, or the parameter value fluctuates at the maximum value and/or the minimum value of the preset threshold range within the preset time period, or the parameter value is outside the preset threshold range, themobile monitoring device 100 may continuously send an alarm message. In addition, when it is detected that the operating state of themobile monitoring device 100 is always abnormal, themobile monitoring device 100 will continuously send alarm information.

Themobile monitoring device 100 also includes asensing module 18 electrically connected to theprocessor 13. Thesensing module 18 may be a motion sensor. In the present embodiment, thesensing module 18 is a motion sensor. Thesensing module 18 is used for acquiring motion parameter signals; theprocessor 13 is further configured to generate motion state information according to the motion parameter signal; and displaying the motion state information when thedisplay 15 is in the lock screen mode.

Further, theprocessor 13 is also configured to identify an interference signal in the physiological data signal due to the motion with reference to the motion parameter signal obtained by thesensing module 18 during the data processing process, so as to provide an anti-motion performance of themobile monitoring device 100, thereby improving the parameter measurement accuracy of themobile monitoring device 100. Specifically, the motion sensor can acquire a motion parameter signal of the patient and generate motion state information; when thedisplay 15 is in the screen locking mode, the motion state information is displayed, so that the patient can adjust the self motion amount according to the motion state information to meet the rehabilitation requirement. In the present embodiment, the exercise parameter signal includes, but is not limited to, at least one of exercise steps, step frequency, exercise distance, calories, exercise time, and exercise route. Meanwhile, the motion sensor can detect the motion parameter signals of the patient in real time, and the motion state information can identify interference signals in the physiological signals caused by motion in the motion parameter signal processing process so as to improve the motion resistance of the system.

Theprocessor 13 is also configured to transmit the parameter signals monitored by themobile monitoring device 100 to theexternal device 200 via thecommunication module 16 in both the lock mode and the unlock mode. Specifically, themobile monitoring device 100 can monitor vital sign parameters of the patient in real time in both the lock screen mode and the unlock mode, and can send the vital sign parameters to theexternal device 200 through thecommunication module 16, so that the medical staff can observe physiological data of the patient in real time.

Themobile monitoring device 100 further includes abuzzer 19 and an alarm light 20 electrically connected to theprocessor 13 to complete the audible and visual alarm or prompt. Due to the integration of thedisplay 15, thebuzzer 19, thealarm lamp 20, etc., themobile monitoring device 100 can still display the patient parameters without theexternal device 200 and give an audible and visual alarm when the parameters are abnormal.

The embodiment of the invention discloses a monitoring method for mobile monitoring equipment, which not only improves the power consumption of the mobile monitoring equipment, but also enables a patient to know a monitoring result in real time. The details are described below.

Referring to fig. 2, fig. 2 is a flowchart illustrating a monitoring method for a mobile monitoring device according to a first embodiment of the present application. The mobile monitoring device has display functions including a lock screen mode and an unlock mode. The mobile monitoring device described in this embodiment may apply themobile monitoring device 100 described above. The monitoring method for themobile monitoring device 100 comprises the following steps.

Step S201, when the mobile monitoring device is in the screen locking mode, displaying a first content interface.

Step S203, when the mobile monitoring device is in the unlocking mode, displaying a second content interface; wherein the information displayed by the first content interface is different from the information displayed by the second content interface.

Therefore, different content interfaces are displayed in the unlocking mode and the screen locking mode based on the mobile monitoring equipment, and the diversified information viewing requirements of users can be met. Optionally, in an embodiment, information displayed on the first content interface is less than information displayed on the second content interface, so that power consumption of the mobile monitoring device in the screen locking mode is less than power consumption of the mobile monitoring device in the screen unlocking mode, and power consumption of a whole mobile monitoring device can be greatly reduced. Specifically, when the mobile monitoring device is in the screen locking mode, the information displayed on the first content interface is simplified information of the monitoring result, so that the monitoring related information viewed by the patient is effectively simplified, and the viewing efficiency of the patient is improved; when the mobile monitoring device is in the unlocking mode, the information displayed by the second content interface is detailed information of the monitoring result, so that the monitoring related information is comprehensively displayed, and the patient or the medical staff can conveniently use and/or view the monitoring related information more specifically.

In another embodiment, the information displayed by the first content interface includes at least a portion of the information displayed by the second content interface. In the present embodiment, the information displayed by the first content interface may be, but is not limited to, a parameter value. The information displayed by the second content interface may be, but is not limited to, at least two of parameter values, parameter waveforms, alarm/prompt information, and patient information. The patient information may include the patient's hospital bed number, the hospital room number where the hospital bed is located, the care group or care level to which the patient belongs. Specifically, in the screen locking mode, the mobile monitoring device can only display the parameter value, so that the user can visually view the parameter value monitored by the mobile monitoring device, and the power consumption of the mobile monitoring device can be reduced. It is understood that the type/number of physiological parameters may be one or more. In the unlocked mode, the mobile monitoring device may simultaneously display data such as parameter values, parameter waveforms, alarm/prompt information, patient information, etc., to facilitate more targeted viewing and/or use of relevant data by the patient and/or medical personnel.

In some embodiments, the information displayed by the first content interface further includes an emergency identification, and the monitoring method further includes:

responding to the operation of the first-aid identification, and generating first-aid notification information;

and sending the first-aid notification information to the external equipment.

Specifically, when the mobile monitoring device is in the screen locking mode, the patient can input touch operation on the first-aid identifier on the first content interface to generate first-aid notification information; and the first-aid notification information is sent to the external equipment, so that medical personnel can quickly take corresponding rescue measures, and the safety risk of patients is reduced. The touch operation may be a long press, a single click, a double click, a slide operation, or the like. The first aid notification message may be a voice message, a text message, a light message, or a combination thereof. The external device comprises a central monitoring service station device or a bedside monitor.

Further, the monitoring method further comprises:

when the mobile monitoring device is in an unlocking mode, detecting whether the mobile monitoring device has screen operation within a preset time;

if not, controlling the mobile monitoring equipment to enter a screen locking mode from an unlocking mode.

In this embodiment, the preset time may be customized in a setting menu of the mobile monitoring device, or may be preset by factory defaults of the mobile monitoring device, for example, 30 seconds, 60 seconds, 90 seconds, and the like. The screen operation includes a touch operation on the mobile monitoring device, such as a page turning operation or a parameter information setting operation.

In this embodiment, the monitoring method further includes:

and when the mobile monitoring device is in the screen locking mode, responding to the unlocking operation on the mobile monitoring device and controlling the mobile monitoring device to enter the unlocking mode from the screen locking mode.

Specifically, the step of controlling the mobile monitoring device to enter the unlocking mode from the screen locking mode in response to the unlocking operation on the mobile monitoring device of the mobile monitoring device comprises:

responding to touch operation in a designated area of the mobile monitoring equipment, and controlling the mobile monitoring equipment to enter an unlocking mode from a screen locking mode; or

Responding to touch operation on the mobile monitoring equipment, and popping up a password input box;

after the password is input in the password input box, controlling the mobile monitoring equipment to enter an unlocking mode from a screen locking mode; or

Responding to touch operation on the mobile monitoring equipment, and acquiring touch parameters on the mobile monitoring equipment;

and when the touch parameter meets a preset parameter value, controlling the mobile monitoring equipment to enter an unlocking mode from a screen locking mode.

In an embodiment, the controlling the mobile monitoring device to enter the unlock mode from the screen lock mode in response to a touch operation in a designated area of the mobile monitoring device specifically includes:

and controlling the mobile monitoring device to enter an unlocking mode from a screen locking mode in response to the sliding operation in the designated area of the mobile monitoring device.

In another embodiment, the controlling the mobile monitoring device to enter the unlock mode from the screen lock mode in response to a touch operation in a designated area of the mobile monitoring device specifically includes:

responding to touch operation in a designated area of the mobile monitoring equipment to acquire fingerprint information;

judging whether the acquired fingerprint information is matched with the prestored fingerprint information;

if yes, the mobile monitoring equipment is controlled to enter an unlocking mode from a screen locking mode.

The pre-stored fingerprint information can comprise fingerprint information of a patient and fingerprint information of authorized medical personnel, so that the patient and/or the medical personnel can conveniently check and use the physiological parameter data in real time. The touch parameter may be, but is not limited to, a pressing time, a pressing force, a touch area, a number of touch points (for example, different touch points may be generated by touching different fingers of a patient on a designated area of the mobile monitoring device), or a touch trajectory. The preset parameter values can be customized by medical personnel or preset by default when the mobile monitoring device leaves the factory.

In this embodiment, the monitoring method further includes:

when the mobile monitoring device sends alarm information and is in the screen locking mode, the mobile monitoring device is controlled to enter the unlocking mode from the screen locking mode. Therefore, the patient can clearly know the alarm information and other measurement status when themobile monitoring device 100 alarms, thereby facilitating the patient to make a reasonable and quick treatment immediately.

Specifically, when the vital sign parameters detected by the mobile monitoring device are detected to be abnormal or the working state of the mobile monitoring device is detected to be abnormal, the mobile monitoring device generates and sends alarm information. In this embodiment, the abnormal occurrence of the vital sign parameter detected by the mobile monitoring device means that the parameter value of the vital sign parameter is outside the preset threshold range, that is, the condition of the patient occurring a disease state. The abnormal working state of the mobile monitoring device is, for example, the abnormal line connection of each element or the insufficient electric quantity. When the mobile monitoring device sends alarm information and is in the screen locking mode, the mobile monitoring device is controlled to enter the unlocking mode from the screen locking mode. Optionally, the alarm information carries a prompt message, and the prompt message may include one of a sound message, a light message, and a text message, or a combination thereof, so as to remind the patient or the medical staff to take a corresponding rescue measure.

Further, in some embodiments, the monitoring method further comprises:

and when the mobile monitoring equipment is detected to release the alarm and the display is in the unlocking mode, controlling the mobile monitoring equipment to enter the screen locking mode from the unlocking mode.

Specifically, when the parameter value of the vital sign parameter detected by the mobile monitoring device is restored to be within the preset threshold range and the mobile monitoring device works normally, the mobile monitoring device will release the alarm, and the display of the mobile monitoring device enters the screen locking mode from the unlocking mode.

Further, in some embodiments, the monitoring method further comprises:

judging whether the mobile monitoring equipment continuously sends alarm information or not;

if so, controlling the mobile monitoring equipment to be continuously in an unlocking mode, and displaying a second content interface;

if not, detecting whether the mobile monitoring equipment has screen operation within preset time;

and when the mobile monitoring equipment is detected to have no screen operation within the preset time, controlling the mobile monitoring equipment to enter a screen locking mode from an unlocking mode.

Specifically, when the parameter value of the vital sign parameter monitored by the mobile monitoring device is always in an abnormal state, for example, the parameter value is outside a preset threshold range, or the parameter value fluctuates at the maximum value and/or the minimum value of the preset threshold range within a preset time period, or the parameter value is outside the preset threshold range, the mobile monitoring device may continuously send out alarm information. In addition, when the working state of the mobile monitoring device is detected to be always in an abnormal state, the mobile monitoring device can continuously send alarm information.

The monitoring method further comprises the following steps:

acquiring a motion parameter signal;

generating motion state information according to the motion parameter signal;

and when the mobile monitoring equipment is in a screen locking mode, displaying the motion state information.

Specifically, the motion sensor can acquire a motion parameter signal of the patient and generate motion state information; when the mobile monitoring equipment is in the screen locking mode, the motion state information is displayed, so that the patient can adjust the self motion amount according to the motion state information to meet the rehabilitation requirement. Meanwhile, the motion sensor can detect the motion parameter signals of the patient in real time, and the motion state information can identify interference signals in the physiological signals caused by motion in the motion parameter signal processing process so as to improve the motion resistance of the system.

The monitoring method further comprises the following steps: and sending the parameter signals monitored by the mobile monitoring equipment to external equipment in both a screen locking mode and an unlocking mode.

Specifically, the mobile monitoring device can monitor vital sign parameters of a patient in real time in a screen locking mode and an unlocking mode, and can send the vital sign parameters to external equipment through a communication module, so that medical personnel can observe physiological data of the patient in real time.

The embodiment of the application provides a mobile monitoring device and a monitoring method thereof. The mobile monitoring device has a display function and comprises a screen locking mode and an unlocking mode, and the monitoring method comprises the following steps: displaying a first content interface when the mobile monitoring device is in a screen locking mode; displaying a second content interface when the mobile monitoring device is in the unlocking mode; wherein the information displayed by the first content interface is different from the information displayed by the second content interface. Because the mobile monitoring equipment can display information in the unlocking mode and the screen locking mode, the patient can know the monitoring result in real time, and the safety risk of the patient is reduced. Therefore, different content interfaces are displayed in the unlocking mode and the screen locking mode based on the mobile monitoring equipment, and the diversified information viewing requirements of users can be met.

The above embodiments of the present invention are described in detail, and the principle and the implementation of the present invention are explained by applying specific embodiments, and the above description of the embodiments is only used to help understanding the method of the present invention and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in view of the above, the content of the present specification should not be construed as a limitation to the present invention.

Claims (26)

Translated fromChinese

PCT国内申请，权利要求书已公开。PCT domestic application, the claims have been published.

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