CN117942031A - Wearable mobile monitoring device and monitoring system - Google Patents

Abstract

A wearable mobile monitoring device and monitoring system, the device comprising a sensor, a processor, and a wireless communication unit, wherein: the sensor is used for acquiring signals representing at least one physical sign parameter of the human body; the processor is used for executing the following operations: obtaining monitoring data based on signals obtained by the sensor; controlling the wireless communication unit to transmit monitoring data to the monitoring device through a communication connection established with the monitoring device outside the human body, comprising: transmitting the monitoring data in a first transmission mode under a first preset condition; under a second preset condition, transmitting the monitoring data in a second transmission mode, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when the monitoring data is transmitted in the first transmission mode, if a second preset condition is detected, a first countdown prompt message is output to prompt a user to switch the transmission mode immediately, and when the countdown is finished, the user switches from the first transmission mode to the second transmission mode.

Description

Wearable mobile monitoring device and monitoring system

Technical Field

The present application relates generally to the field of medical monitoring devices, and more particularly to a wearable mobile monitoring device and monitoring system.

Background

For postoperative recovery patients, it is clinically recommended that the patient get out of bed as early as possible to promote recovery of the patient. However, there is a risk of disease changes during the postoperative recovery period of the patient, and the risk during the course of the activity increases. Various mobile monitoring devices have therefore emerged to monitor vital sign changes during patient activity. The current mobile monitoring equipment is in order to give consideration to equipment duration and continuous real-time monitoring, so that the patient's disease state change risk is timely identified, the size is often bigger, and the patient wearing comfort is poor in experience.

In addition, mobile monitoring devices often require the transmission of monitoring data to monitoring devices external to the body, such as bedside monitoring devices or central monitoring systems, to allow healthcare personnel to better monitor the patient. Along with the movement of the human body, the position relationship, the distance, the network connection and the like between the mobile monitoring equipment and the monitoring equipment outside the human body can be changed, and the monitoring requirements on the human body can be changed at different times and under different conditions. Thus, in various scenarios, how the mobile monitoring device operates to assist the healthcare personnel in better monitoring the patient becomes a problem to be solved.

Disclosure of Invention

The present application provides a wearable mobile monitoring device and monitoring system that can solve the above-mentioned problems.

According to an aspect of the present application, there is provided a wearable mobile monitoring device comprising a sensor, a processor and a wireless communication unit, wherein: the sensor is used for acquiring signals representing at least one physical sign parameter of a human body; the processor is used for executing the following operations: obtaining monitoring data based on the signals obtained by the sensor; controlling the wireless communication unit to transmit the monitoring data to the monitoring equipment through communication connection established with the monitoring equipment outside the human body; the transmitting the monitoring data to the monitoring device includes: transmitting the monitoring data in a first transmission mode under a first preset condition; transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; and when the monitoring data is transmitted in the first transmission mode, if the second preset condition is detected, outputting a first countdown prompt message to prompt a user to switch the transmission mode, and switching from the first transmission mode to the second transmission mode when the countdown is finished.

According to another aspect of the present application, there is provided a wearable mobile monitoring device comprising a sensor, a processor and a wireless communication unit, wherein: the sensor is used for acquiring signals representing at least one physical sign parameter of a human body; the processor is used for executing the following operations: obtaining monitoring data based on the signals obtained by the sensor; controlling the wireless communication unit to transmit the monitoring data to the monitoring equipment through communication connection established with the monitoring equipment outside the human body; the transmitting the monitoring data to the monitoring device includes: transmitting the monitoring data in a first transmission mode under a first preset condition; transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when the monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected; the frequency of the third transmission mode for transmitting the monitoring data is higher than the frequency of the second transmission mode for transmitting the monitoring data, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from the frequency of the first transmission mode for transmitting the monitoring data; the processor is further configured to: and outputting a first countdown prompt message according to the first preset time threshold value so as to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

According to a further aspect of the present application there is provided a wearable mobile monitoring device, characterized in that the mobile monitoring device comprises a sensor, a processor and a wireless communication unit, wherein: the sensor is used for acquiring signals representing at least one physical sign parameter of a human body; the processor is used for executing the following operations: obtaining monitoring data based on the signals obtained by the sensor; the wireless communication unit is controlled to transmit the monitoring data to the monitoring equipment for display at least in an intermittent transmission mode through communication connection established with the monitoring equipment outside the human body, and countdown prompt information is output when the monitoring data starts to be displayed on the monitoring equipment so as to prompt the monitoring data displayed on the monitoring equipment to be refreshed when countdown is finished; wherein, the intermittent transmission mode refers to data transmission in a part of transmission periods of a continuous preset number of transmission periods.

According to yet another aspect of the present application, there is provided a monitoring system comprising a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying the monitoring data; the mobile monitoring device is further configured to perform the following operations: transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device; the transmitting the monitoring data to the monitoring device includes: transmitting the monitoring data in a first transmission mode under a first preset condition; transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; and when the monitoring data is transmitted in the first transmission mode, if the second preset condition is detected, outputting a first countdown prompt message to prompt a user to switch the transmission mode, and switching from the first transmission mode to the second transmission mode when the countdown is finished.

According to yet another aspect of the present application, there is provided a monitoring system comprising a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying the monitoring data; the mobile monitoring device is further configured to perform the following operations: transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device; the transmitting the monitoring data to the monitoring device includes: transmitting the monitoring data in a first transmission mode under a first preset condition; transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when the monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected; the frequency of the third transmission mode for transmitting the monitoring data is higher than the frequency of the second transmission mode for transmitting the monitoring data, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from the frequency of the first transmission mode for transmitting the monitoring data; wherein, the mobile monitoring device is further for: and outputting a first countdown prompt message according to the first preset time threshold value so as to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

According to yet another aspect of the present application, there is provided a monitoring system comprising a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying the monitoring data; the mobile monitoring device is further configured to perform the following operations: transmitting the monitoring data to the monitoring device for display in at least an intermittent transmission mode through communication connection established with the monitoring device, and outputting countdown prompt information when the monitoring data starts to be displayed on the monitoring device so as to prompt that the monitoring data displayed on the monitoring device is refreshed when countdown is finished; wherein, the intermittent transmission mode refers to data transmission in a part of transmission periods of a continuous preset number of transmission periods.

After the wearable mobile monitoring equipment and the monitoring system acquire the monitoring data of the human body, the monitoring data can be transmitted to the monitoring equipment outside the human body through different transmission modes, and the different transmission modes can meet the scenes with low power consumption requirements, so that miniaturization of products is facilitated, wearing experience is improved, the scenes with high monitoring requirements can be met, countdown prompt information can be given to prompt medical staff when the transmission modes are switched, various different scenes are met, and the medical staff is assisted to monitor the patient better.

Drawings

The above and other objects, features and advantages of the present application will become more apparent from the following more particular description of embodiments of the present application, as illustrated in the accompanying drawings. The accompanying drawings are included to provide a further understanding of embodiments of the application and are incorporated in and constitute a part of this specification, illustrate the application and together with the embodiments of the application, and not constitute a limitation to the application. In the drawings, like reference numerals generally refer to like parts or steps.

Fig. 1 shows a schematic block diagram of a wearable mobile monitoring device according to one embodiment of the application.

Fig. 2 to 10 are exemplary diagrams showing the display of countdown hint information.

Fig. 11 shows a schematic block diagram of a wearable mobile monitoring device according to another embodiment of the application.

Fig. 12 shows a schematic block diagram of a wearable mobile monitoring device according to yet another embodiment of the application.

Fig. 13 shows an example diagram of a display of countdown cues.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, exemplary embodiments according to the present application will be described in detail with reference to the accompanying drawings. It should be apparent that the described embodiments are only some embodiments of the present application and not all embodiments of the present application, and it should be understood that the present application is not limited by the example embodiments described herein. Based on the embodiments of the application described in the present application, all other embodiments that a person skilled in the art would have without inventive effort shall fall within the scope of the application.

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present application. It will be apparent, however, to one skilled in the art that the application may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the application.

It should be understood that the present application may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the application to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. As used herein, the term "and/or" includes any and all combinations of the associated listed items.

In order to provide a thorough understanding of the present application, detailed steps and detailed structures will be presented in the following description in order to explain the technical solution presented by the present application. Preferred embodiments of the present application are described in detail below, however, the present application may have other embodiments in addition to these detailed descriptions.

Fig. 1 shows a schematic block diagram of a wearable mobile monitoring device 100 according to an embodiment of the application. As shown in fig. 1, the wearable mobile monitoring device 100 includes a sensor 110, a processor 120, and a wireless communication unit 130. Wherein the sensor 110 is configured to acquire a signal indicative of at least one physical sign parameter of the human body; the processor 120 is configured to perform the following operations: obtaining monitoring data based on signals acquired by the sensor 110; the control wireless communication unit 130 transmits the monitoring data to the monitoring device through a communication connection established with the monitoring device outside the human body. Wherein transmitting the monitoring data to the monitoring device comprises: transmitting the monitoring data in a first transmission mode under a first preset condition; under a second preset condition, transmitting the monitoring data in a second transmission mode, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when the monitoring data is transmitted in the first transmission mode, if a second preset condition is detected, a first countdown prompt message is output to prompt a user to switch the transmission mode immediately, and when the countdown is finished, the user switches from the first transmission mode to the second transmission mode.

In an embodiment of the present application, the wearable mobile monitoring device 100 transmits the monitoring data to the monitoring device outside the human body through the wireless communication connection after acquiring the monitoring data. The transmission comprises a first transmission mode and a second transmission mode, wherein the first transmission mode corresponds to a first preset condition, the second transmission mode corresponds to a second preset condition, and the frequency of the monitoring data transmitted by the first transmission mode is higher than that of the monitoring data transmitted by the second transmission mode. Therefore, the mobile monitoring device 100 according to the embodiment of the present application can transmit the monitoring data to the monitoring device in different transmission modes, so as to meet the transmission requirements under different conditions. Specifically, the frequency of transmitting the monitoring data in the first transmission mode is higher than that in the second transmission mode, and thus a scene where the demand for human body monitoring is high, a scene where the communication environment is suitable for transmitting data with low power consumption, a scene where power consumption is less of concern, or the like can be satisfied. Compared with the first transmission mode, the frequency of the second transmission mode for transmitting the monitoring data is lower, and the scene with lower human body monitoring requirements, the scene with communication environment unsuitable for transmitting the data with low power consumption, the scene with comparison attention power consumption and the like can be met. It is because the mobile monitoring device 100 provides a relatively low power consumption transmission mode, so that the mobile monitoring device 100 can have a smaller volume than a device including a high frequency transmission mode, and is convenient for a user to wear, and improves user experience.

Further, when the wearable mobile monitoring device 100 transmits the monitoring data in the first transmission mode, if the second preset condition is detected, the wearable mobile monitoring device outputs the first countdown prompt information (named as such for distinguishing from other countdown prompt information later) to prompt the user that the transmission mode is about to be switched, and switches from the first transmission mode to the second transmission mode when the countdown is finished. As previously mentioned, the second transmission mode transmits the monitoring data less frequently than the first transmission mode. Therefore, in the second transmission mode, the monitoring of the human body is really 'relaxed', and at the moment, by outputting countdown prompt information, the medical staff is prompted to switch from the first transmission mode to the second transmission mode after the countdown is finished, so that the medical staff can be intuitively reminded, the medical staff can pay attention to the condition of the patient, the situation that some emergency is not monitored in time due to the 'relaxation' of the monitoring is avoided, and the monitoring safety of the patient is improved.

Therefore, after acquiring the monitoring data of the human body, the wearable mobile monitoring device 100 according to the embodiment of the application can transmit the monitoring data to the monitoring device outside the human body through different transmission modes, and the different transmission modes can meet the scenes of low power consumption requirements, so that miniaturization of products is facilitated, wearing experience is improved, the scenes of high monitoring requirements can be met, and countdown prompt information can be given to prompt medical staff when the transmission modes are switched, so that various different scenes are met, and the medical staff is assisted to monitor the patient better.

In an embodiment of the present application, the processor 120 outputs a first countdown alert message, which may include: the first countdown prompt is output to a display and/or a speaker of the mobile monitoring device 100 itself, and/or the first countdown prompt is transmitted to the foregoing monitoring device, and the display and/or the speaker of the monitoring device are controlled to output the first countdown prompt.

In this embodiment, outputting the first countdown alert message through the display and/or speaker of the mobile monitoring device 100 itself may act to alert the patient wearing the mobile monitoring device 100 and/or their caretaker that the mode is about to switch, thereby taking care of some emergency; in addition, by means of the first countdown prompt information, the user can know that the refresh frequency of the monitored data changes after the mode is switched (which is equivalent to the first transmission mode, the second transmission mode is lower in frequency of transmitting the monitored data, and therefore the frequency of refreshing the data is lower), and the user can briefly have no data display when the mode is switched, so that the user cannot mistakenly use the monitored data as equipment failure or other problems.

Similarly, the mobile monitoring device 100 outputting a first countdown alert message to the monitoring device, output by the monitoring device's display and/or speaker, may act to alert the healthcare worker monitoring the patient based on the monitoring device so that they notice that the mode is about to switch, thereby carefully noticing some emergency; in addition, by means of the first countdown prompt information, the user can know that the refresh frequency of the monitored data changes after the mode is switched (which is equivalent to the first transmission mode, the second transmission mode is lower in frequency of transmitting the monitored data, and therefore the frequency of refreshing the data is lower), and the user can briefly have no data display when the mode is switched, so that the user cannot mistakenly use the monitored data as equipment failure or other problems.

The first countdown display information described above is displayed on the monitor device as an example. In an embodiment of the present application, the processor 120 outputs a first countdown alert message, which may include: and transmitting the first countdown prompt information to the monitoring equipment, and controlling a display of the monitoring equipment to display the first countdown prompt information in a designated area of a display interface.

In one embodiment, the display interface of the monitoring device may include a status bar area, a data display area, and a menu bar area sequentially arranged from top to bottom, and the foregoing designated area for displaying the first countdown prompt information may be located in the status bar area and the data display area. Because the status bar area is located in the area above the display interface, the first countdown prompt information is displayed in the area more prominently, and the attention of medical staff is easily brought to the attention, so that a better prompt effect is achieved. The data display area generally has a larger display area because of the monitoring data to be displayed, so that displaying the first countdown alert information in this area provides more possibilities for the highlighting mode.

An example in which the designated area for displaying the first countdown hint information is located within the data display area described above will now be described first. Specifically, the data display area includes a waveform display area and a numeric display area of the monitor data, and the designated area is located below the status bar area and above one of the waveform display areas. In this example, the first countdown cue is displayed below the status bar region and above the waveform display region. Since the waveform display area generally displays waveforms of vital sign parameters of relatively great importance, such as ECG waveforms and the like, from top to bottom, the first countdown cue is displayed in the upper area and below the status bar area of the waveform display area, so that a medical staff who frequently views the important waveform parameters can easily notice the cue.

In one example, the designated area for displaying the first countdown alert information may be a bounding box area bounding the first countdown alert information, the bounding box area having a lateral width that is less than a lateral width of the waveform display area. In this embodiment, the designated area for displaying the first countdown prompt information is only a small area surrounding the first countdown prompt information, and its lateral width is smaller than that of the waveform display area, so that the first countdown prompt information is easier to distinguish from other information, because other areas, such as status bar areas, often display various types of alarm information such as technical alarms and physiological alarms, and the first countdown prompt information is located in the small surrounding area and is not easy to be visually confused with such information. Further, the base color of the bounding box region may be the same as the base color of the status bar region, and different from the base color of the waveform display region, which may further highlight the bounding box region, such that the first countdown cue is more easily noticeable to the healthcare worker.

Fig. 2 shows such an example. As shown in fig. 2, on the display interface, a status bar area 210, a data display area, and a menu bar area 240 are arranged in this order from top to bottom, wherein the data display area further includes a waveform display area 220 and a data display area 230. The designated area 2201 for displaying the first countdown prompt is located below the status bar area 210 and above the waveform display area 220. The designated area 2201 for displaying the first countdown hint information is a bounding box area that encloses the first countdown hint information. The bounding box region is displayed "droops" under the status bar region 210 like "bang", and the region base color is the same as the status bar region 210, different from the waveform display region 220. Overall, the first countdown cue in this example is displayed in a manner that better highlights the first countdown cue, such that the first countdown cue is more easily noticeable to the healthcare worker. In the example shown in fig. 2, the first countdown alert information is shown as including trademark information (mwear) and countdown time information (120 s), but is merely exemplary, and in other examples, the first countdown alert information may include only countdown time information, or countdown time information and text alert information such as "120s will switch to the second transmission mode", and so on.

In another example, the specified area for displaying the first countdown hint information may have a lateral width equal to the lateral width of the waveform display area described above, and the base color of the specified area may be the same as the base color of the waveform display area. In this example, there may be no obvious boundary between the designated area for displaying the first countdown cue information and the waveform display area, presenting the display effect of "adding" the first countdown cue information directly above the waveform. Since the waveform display area and the status bar area are generally different in base color, the first countdown prompt message can be highlighted by the display mode. Or the ground color of the designated area and the ground color of the waveform display area can be different, so that the first countdown prompt message is easier to be highlighted.

Fig. 3 shows an example of a display effect of "adding" the first countdown hint information. As shown in fig. 3, on the display interface, a status bar area 310, a data display area, and a menu bar area 340 are arranged in this order from top to bottom, wherein the data display area further includes a waveform display area 320 and a data display area 330. The designated area 3201 for displaying the first countdown cue information is located below the status bar area 310 and above the waveform display area 320. There is no obvious boundary between the designated area 3201 for displaying the first countdown prompt information and the waveform display area 320, and the display effect of "adding" the first countdown prompt information directly above the waveform is exhibited. Overall, the first countdown cue in this example is also displayed in a manner that highlights the first countdown cue, such that the first countdown cue is more easily noticeable to the healthcare worker. In the example shown in fig. 3, the first countdown alert information is shown as including trademark information (mwear) and countdown time information (120 s), but is merely exemplary, and in other examples, the first countdown alert information may include only countdown time information, or countdown time information and text alert information such as "120s will switch to the second transmission mode", and so on.

In the above example in which the first countdown hint information is displayed in the area below the status bar area and above the waveform display area, the font of the first countdown hint information may also be greater than a preset threshold, and when the first countdown hint information is displayed in the specified area, an effect (not shown in the above example) that at least part of the monitoring data is covered and not displayed is exhibited in the data display area. In this example, the first countdown cue is in a larger font that is more easily noticeable to the healthcare worker.

An example will now be described in which a designated area for displaying the first countdown hint information is located within the status bar area described previously. In one example, the status bar area includes a base information display area and a reminder information display area, and the first countdown reminder information may be displayed within the reminder information display area. In this example, the first countdown alert information status bar region is displayed within the alert information display region, which, as the name implies, displays the alert information, and thus the first countdown alert information is displayed within this region, with the healthcare worker more readily knowing the "alert" effect of the countdown information. The basic information prompt typically displays basic information such as patient name, device identification, etc.

Fig. 4 shows such an example. As shown in fig. 4, on the display interface, a status bar area 410, a data display area, and a menu bar area 440 are arranged in this order from top to bottom, wherein the data display area further includes a waveform display area 420 and a data display area 430. The status bar area 410 further includes a basic information display area 4101 and a reminder information display area 4102, and the first countdown reminder information may be displayed within the reminder information display area 4102. The first countdown prompt message is displayed in the area, and the medical staff can know the 'prompt' effect of the countdown message more easily. In the example shown in fig. 4, the first countdown alert information is shown as including trademark information (mwear) and countdown time information (120 s), but it is merely exemplary, and in other examples, the first countdown alert information may include only countdown time information, or countdown time information and text alert information such as "120s will switch to the second transmission mode", and so on.

In a further example, the reminder display area is also used to display other reminders (not shown in the above example) in addition to the first countdown reminder; when the first countdown prompt information and other prompt information need to be displayed at the same time: displaying the first countdown prompt information in the prompt information display area and presenting the effect that at least part of other prompt information is covered and not displayed; or the first countdown prompt information and other prompt information are alternately displayed in the prompt information display area. In this example, when other cues, such as alarm information, need to be displayed in the cue information display area as well, the first countdown cue information may be displayed alternating with such cues, or overlapping portions of such cues (such as overlapping some insignificant technical alarm information, etc.).

In the above example, the data display areas of the display interface of the monitoring device are described as including a waveform display area and a numerical display area, and displaying the first countdown prompt on such a display interface generally means that the mobile monitoring device 100 adopts a continuous data transmission mode at this time, because in such a transmission mode, such continuous data display as a real-time waveform is only possible. Thus, in the above example, the first transmission mode involved in the mode switch prompted by the first countdown prompt may be a continuous transmission mode, and the second transmission mode includes an intermittent transmission mode. Wherein: the continuous transmission mode refers to transmitting data in a continuous preset number of transmission periods; the intermittent transmission mode refers to transmitting data only in a part of transmission periods of a consecutive preset number of transmission periods. In other examples, the first transmission mode and the second transmission mode involved in the mode switch prompted by the first countdown prompt information may be intermittent transmission modes, but since the transmission frequency of the first transmission mode is higher, the transmission period for transmitting data in a continuous preset number of transmission periods is more than that of the second transmission mode. However, since the first transmission mode is also the intermittent transmission mode at this time, the waveform display area is no longer included on the display interface. Such an example is described below.

In the embodiment of the application, the display interface of the monitoring device comprises a status bar area, a data and status display area and a menu bar area which are sequentially arranged from top to bottom. The data and status display area includes a human body status display area and a data display area which are arranged left and right, and the specified area for displaying the first countdown prompt information can be located in any one of the status bar area, the human body status display area and the data display area. Because the status bar area is located in the area above the display interface, the first countdown prompt information is displayed in the area more prominently, and the attention of medical staff is easily brought to the attention, so that a better prompt effect is achieved. The human status display area and the data display area generally have larger display areas, so that displaying the first countdown prompt in this area provides more possibilities for a striking prompt.

An example in which the designated area for displaying the first countdown cue information is located within the aforementioned human body state display area will now be described first. Specifically, the human body state display area may include a human body position display area, an early warning score display area, and the designated area, which are arranged in order from top to bottom. In this example, the designated area for displaying the first countdown cue information is below the early warning score display area (above the menu bar). Because the early warning score display area displays Early Warning Scores (EWS) for patients, the area is easy to draw attention of medical staff, and a good prompting effect is achieved. The human body position display area is generally used to display the human body position.

Fig. 5 shows such an example. As shown in fig. 5, on the display interface, a status bar area 510, a data and status display area, and a menu bar area 540 are arranged in this order from top to bottom. The data and status display area includes a human body status display area 520 and a data display area 530 arranged left and right. The human body state display area 520 includes a human body position display area 5201, an early warning score display area 5202, and a designation area 5203 for displaying first countdown prompt information, which are arranged in this order. In this example, the designated area 5203 for displaying the first countdown cue information is below the early warning score display area 5202 (above the menu bar area 540). Because the early warning score display area 5202 displays Early Warning Scores (EWS) for patients, the area is also easier to draw attention of medical staff, and a better prompting effect is achieved. In the example shown in fig. 5, the first countdown alert information is shown as including countdown time information (120 s), but it is merely exemplary, and in other examples, the first countdown alert information may also include countdown time information and text alert information such as "120s later will switch to the second transmission mode", and so on.

For an example in which the designated area for displaying the first countdown cue information is located within the aforementioned data display area, as will be described below. Specifically, the data display area includes a numerical display area, and the designated area for displaying the first countdown prompt information is located below the status bar area and above the numerical display area. Since the numerical display area generally displays the values of vital sign parameters of relatively great importance, such as ECG values, etc., from top to bottom, the first countdown cue is displayed in the upper area of the numerical display area and below the status bar area, so that a healthcare worker who frequently views important waveform parameters can easily notice the cue.

In one example, the designated area for displaying the first countdown alert information may be a bounding box area bounding the first countdown alert information, the bounding box area having a lateral width that is less than a lateral width of the waveform display area. In this embodiment, the designated area for displaying the first countdown prompt information is only a small area surrounding the first countdown prompt information, and its lateral width is smaller than that of the waveform display area, so that the first countdown prompt information is easier to distinguish from other information, because other areas, such as status bar areas, often display various types of alarm information such as technical alarms and physiological alarms, and the first countdown prompt information is located in the small surrounding area and is not easy to be visually confused with such information. Further, the base color of the bounding box region may be the same as the base color of the status bar region, and different from the base color of the waveform display region, which may further highlight the bounding box region, such that the first countdown cue is more easily noticeable to the healthcare worker.

Fig. 6 shows such an example. As shown in fig. 6, on the display interface, a status bar area 610, a data and status display area, and a menu bar area 640 are arranged in this order from top to bottom. The data and status display areas include a human status display area 620 and a numerical display area 630 arranged left and right. A designated area 6301 for displaying the first countdown hint information is located below the status bar area 610 and above the numerical display area 630. The designated area 6301 for displaying the first countdown hint information is a bounding box area bounding the first countdown hint information. The bounding box region is displayed "droops" under the status bar region 610 like "bang", and the region base color is the same as the status bar region 610, different from the numerical display region 630. Overall, the first countdown cue in this example is displayed in a manner that better highlights the first countdown cue, such that the first countdown cue is more easily noticeable to the healthcare worker. In the example shown in fig. 6, the first countdown hint information is shown as including trademark information (mwear) and countdown time information (120 s), but is merely exemplary, and in other examples, the first countdown hint information may include only countdown time information, or countdown time information and text hint information such as "120s will switch to the second transmission mode", and so on.

An example will now be described in which a designated area for displaying the first countdown hint information is located within the status bar area described previously. In one example, the status bar area includes a base information display area and a reminder information display area, and the first countdown reminder information may be displayed within the reminder information display area. In this example, the first countdown alert information status bar region is displayed within the alert information display region, which, as the name implies, displays the alert information, and thus the first countdown alert information is displayed within this region, with the healthcare worker more readily knowing the "alert" effect of the countdown information. The basic information prompt typically displays basic information such as patient name, device identification, etc.

Fig. 7 shows such an example. As shown in fig. 7, on the display interface, a status bar area 710, a data and status display area, and a menu bar area 740 are arranged in this order from top to bottom. The data and status display area includes a human body status display area 720 and a numerical display area 730 arranged left and right. A designated area 7301 for displaying the first countdown prompt is located within the status bar area 710. The status bar area 710 further includes a basic information display area 7101 and a reminder information display area 7102, and the first countdown reminder information may be displayed within the reminder information display area 7102. The first countdown prompt message is displayed in the area, and the medical staff can know the 'prompt' effect of the countdown message more easily. In the example shown in fig. 7, the first countdown hint information is shown as including trademark information (mwear) and countdown time information (120 s), but it is merely exemplary, and in other examples, the first countdown hint information may include only countdown time information, or countdown time information and text hint information such as "120s will switch to the second transmission mode", and so on.

In a further example, the reminder display area is also used to display other reminders (not shown in the above example) in addition to the first countdown reminder; when the first countdown prompt information and other prompt information need to be displayed at the same time: displaying the first countdown prompt information in the prompt information display area and presenting the effect that at least part of other prompt information is covered and not displayed; or the first countdown prompt information and other prompt information are alternately displayed in the prompt information display area. In this example, when other cues, such as alarm information, need to be displayed in the cue information display area as well, the first countdown cue information may be displayed alternating with such cues, or overlapping portions of such cues (such as overlapping some insignificant technical alarm information, etc.).

In yet another example, the above-mentioned first countdown prompt message may be displayed in a dedicated area instead of any one of the status bar area, the data and status display area, and the menu bar area. The first countdown prompt message is displayed through the special area, and the display mode can more highlight the first countdown prompt message.

Fig. 8 shows such an example. As shown in fig. 8, the display interface of the monitoring device may include a status bar area 810, a designated area 850, a data and status display area, and a menu bar area 840, which are sequentially arranged from top to bottom; the data and status display areas include a human body status display area 820 and a data display area 830 arranged left and right; the base color of the designated area 850 is different from the base color of the status bar area 810 and the data and status display area. In this example, the first countdown cue displayed in the designated area 850, which is also different in separate, base color from the surrounding area, is more noticeable to the healthcare worker. In the example shown in fig. 7, the first countdown hint information is shown as including trademark information (mwear) and countdown time information (120 s), but it is merely exemplary, and in other examples, the first countdown hint information may include only countdown time information, or countdown time information and text hint information such as "120s will switch to the second transmission mode", and so on. In the example shown in fig. 8, the ground color of the designated area 850 is shown to be different from the ground color of the status bar area 810 and the data and status display area, but the ground colors may be the same, so that a more obvious presentation effect is possible.

The monitoring device described above is mainly described by taking a monitor as an example. When the monitoring device is a central monitoring system, the monitoring device may include a multi-bed display interface and a single-bed display interface arranged left and right, and accordingly, the processor 120 may control the display of the monitoring device to display the first countdown prompt information in a designated area of the display interface, which may include: and controlling a display of the monitoring device to display first countdown prompt information in a designated area of the single-bed display interface. That is, the various examples shown above are also applicable to single bed interface displays of a central monitoring system. It will be readily appreciated that the information of multiple beds of patients may be displayed on the central monitoring system, and that when certain patient information is selected, more detailed information may be displayed on the single bed display interface, including various display information in the foregoing examples. Fig. 9 shows such an example.

In a further embodiment of the present application, the processor 120 may also be configured to: when detecting that the signal strength and/or the signal quality between the mobile monitoring device 100 and the monitoring device outside the human body based on the point-to-point wireless communication connection do not meet the first preset condition, switching the point-to-point wireless communication connection to a non-point-to-point wireless communication connection; when it is detected that the signal strength and/or the signal quality between the mobile monitoring device 100 and the monitoring device outside the human body based on the non-point-to-point wireless communication connection do not meet the second preset condition, a second countdown prompt message is output to prompt the user that the communication connection is about to be switched, and when the countdown is finished, the non-point-to-point wireless communication connection is switched to the point-to-point wireless communication connection. In this embodiment, the mobile monitoring device 100 may switch directly to a non-point-to-point communication connection (such as WIFI, WMTS) when switching its point-to-point communication connection (such as a bluetooth connection) to a non-point-to-point communication connection because the point-to-point communication connection is poor in signal strength/quality; however, when switching from the non-point-to-point communication connection to the non-point-to-point communication connection, the signal intensity/quality of the non-point-to-point communication connection is not good, but the second countdown prompt information is output to prompt the user to switch the communication connection to the point-to-point wireless communication connection when the countdown is finished, and the non-point-to-point wireless communication connection is switched from the non-point-to-point wireless communication connection to the point-to-point wireless communication connection (if the intensity/quality of the non-point-to-point communication connection is good before the countdown is finished, the non-point-to-point communication connection is not switched), so that the threshold anti-shake function can be achieved, and the phenomenon that the point-to-point signal is switched back and forth at the threshold value between the point-to-point and the non-point-to-point is avoided, so that the medical staff is influenced on the patient.

In addition, the switching of the network can be used as the judging basis of the mode switching. For example, after switching from bluetooth to WIFI, a condition for switching from the first transmission mode to the second transmission mode may be satisfied, at this time, a countdown prompt may be displayed, and after the countdown is completed, mode switching is implemented, as shown in fig. 10.

The above exemplarily shows the mobile monitoring device 100 according to an embodiment of the present application. Based on the above description, after acquiring the monitoring data of the human body, the wearable mobile monitoring device 100 according to the embodiment of the application can transmit the monitoring data to the monitoring device outside the human body through different transmission modes, and the different transmission modes can meet the scenes of low power consumption requirements, so that the product miniaturization is facilitated, the wearing experience is improved, the scenes of high monitoring requirements can also be met, and countdown prompt information can be given to prompt medical staff when the transmission modes are switched, so that various different scenes are met, and the medical staff is assisted to monitor the patient better.

A wearable mobile monitoring device 1100 according to another embodiment of the application is now described in connection with fig. 11. As shown in fig. 11, the wearable mobile monitoring device 1100 includes a sensor 1110, a processor 1120, and a wireless communication unit 1130. Wherein the sensor 1110 is configured to acquire a signal indicative of at least one physical sign parameter of a human body; the processor 1120 is configured to perform the following operations: obtaining monitoring data based on signals acquired by the sensor 1110; the control wireless communication unit 1130 transmits the monitoring data to the monitoring device through a communication connection established with the monitoring device outside the human body. Wherein transmitting the monitoring data to the monitoring device comprises: transmitting the monitoring data in a first transmission mode under a first preset condition; under a second preset condition, transmitting the monitoring data in a second transmission mode, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected; the frequency of the third transmission mode for transmitting the monitoring data is higher than that of the second transmission mode, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from that of the first transmission mode for transmitting the monitoring data; the processor 120 is further configured to: and outputting a first countdown prompt message according to the first preset time threshold to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

In an embodiment of the present application, the wearable mobile monitoring device 1100 transmits the monitoring data to the monitoring device outside the human body through a wireless communication connection after acquiring the monitoring data. The transmission comprises a first transmission mode and a second transmission mode, wherein the first transmission mode corresponds to a first preset condition, the second transmission mode corresponds to a second preset condition, and the frequency of the monitoring data transmitted by the first transmission mode is higher than that of the monitoring data transmitted by the second transmission mode. Therefore, the mobile monitoring device 1100 according to the embodiment of the present application can transmit the monitoring data to the monitoring device in different transmission modes, so as to meet the transmission requirements under different conditions. Specifically, the frequency of transmitting the monitoring data in the first transmission mode is higher than that in the second transmission mode, and thus a scene where the demand for human body monitoring is high, a scene where the communication environment is suitable for transmitting data with low power consumption, a scene where power consumption is less of concern, or the like can be satisfied. Compared with the first transmission mode, the frequency of the second transmission mode for transmitting the monitoring data is lower, and the scene with lower human body monitoring requirements, the scene with communication environment unsuitable for transmitting the data with low power consumption, the scene with comparison attention power consumption and the like can be met. Because the mobile monitoring device 1100 provides a relatively low power consumption transmission mode, the mobile monitoring device 1100 can have a smaller volume than a device including a high frequency transmission mode, and is convenient for a user to wear and improves user experience.

Further, the wearable mobile monitoring device 1100 transmitting monitoring data to the monitoring device outside the human body over the wireless communication connection may further include a third transmission mode. The third transmission mode is a "temporary" transmission mode to which a third preset condition is detected to be switched in case of the second transmission mode. At this time, "temporary" can be understood as: and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches the first preset time threshold value and the first preset condition is not detected.

The third transmission mode is provided because, in a normal case, the first preset condition is satisfied, that is, the monitoring data needs to be transmitted to the monitoring device in the first transmission mode, and the second preset condition is satisfied, that is, the monitoring data needs to be transmitted to the monitoring device in the second transmission mode. However, in some temporary, sudden situations, the first preset condition is not currently met, but because such temporary situations require a transmission mode with a higher transmission frequency, and such temporary situations can generally be resolved quickly without lasting too long, in such situations a relatively "short" switch to a transmission mode with a higher transmission frequency can be made, and after a certain time, a switch back to the second transmission mode is made. Such a temporary switch can meet some temporary or bursty needs of the user and also facilitates the mobile monitoring device 1100 to reduce power consumption as much as possible because it switches back to the second transmission mode soon. Based on such an application scenario, a third transmission mode is provided. Therefore, the frequency of the third transmission mode transmitting the monitoring data is higher than the frequency of the second transmission mode transmitting the monitoring data. The relation between the frequency of the third transmission mode for transmitting the monitoring data and the frequency of the first transmission mode for transmitting the monitoring data is not limited, and may be equal or different.

An example of the third preset condition is described below. In one example, the third preset condition may include a user instruction to switch modes. In this example, a switch from the second transmission mode to the third transmission mode is required because a user instruction is received. For example, as a person's condition improves, the mobile monitoring device 1100 transmits data to the monitoring device using a second transmission mode with a lower transmission frequency; at this time, the medical staff can visit the room without the patient in the ward, and based on the instruction, the mobile monitoring device 1100 can temporarily switch the second transmission mode to the third transmission mode, and transmit the monitoring data (the time can be preset or required by the user instruction) for a certain time in the third transmission mode, so as to meet the temporary viewing requirement of the medical staff; after the medical staff checks more monitoring data for a certain time, the medical staff can ensure whether the patient has unexpected changes, if no additional instruction is received, the medical staff generally indicates that the patient has no unexpected changes, so the mobile monitoring device 1100 can switch back to the second transmission mode after transmitting data for a certain time in the third transmission mode and without monitoring the first preset condition.

For another example, as someone's condition improves, the mobile monitoring device 1100 transmits data to the monitoring device using a second transmission mode with a lower transmission frequency; at this time, the medical staff discovers that the trend of the data is at a certain risk through the monitoring data displayed by the monitoring device, at this time, the medical staff can send a command for switching the mode, based on the command, the mobile monitoring device 1100 can temporarily switch the second transmission mode to the third transmission mode, and transmit the monitoring data for a certain time (the time can be preset or required by the user command) in the third transmission mode, so as to meet the temporary viewing requirement of the medical staff; after the medical staff checks more monitoring data for a certain time, the medical staff can ensure whether the patient has unexpected changes, if no additional instruction is received, the medical staff generally indicates that the patient has no unexpected changes, so the mobile monitoring device 1100 can switch back to the second transmission mode after transmitting data for a certain time in the third transmission mode and without monitoring the first preset condition.

In the above two examples, in the case of receiving a user instruction, temporary mode switching may be performed to satisfy the temporary viewing requirement of the user. In other examples, there may be other situations where a temporary switch of mode is required, which is not illustrated here. In general, such temporary mode switching enables the mobile monitoring device 1100 to meet a variety of complex scenarios with as little power consumption as possible.

Further, the wearable mobile monitoring device 1100 outputs a countdown alert message (which may be named a third countdown alert message in order to distinguish from the first and second countdown alert messages described above) when transmitting the monitoring data in the third transmission mode. Based on the countdown prompt, the user can intuitively understand the duration of the third transmission mode and determine at the end of that time whether the current situation is truly suitable for switching back to the second transmission mode. For example, if the user finds that it is still monitoring for a period of time when the countdown is about to end, instructions may be given to continue the third transmission mode; or when the second transmission mode is switched back after the countdown is finished, the user can give out an instruction again to switch back to the third transmission mode; or the first preset condition is detected before the countdown is finished, and the first transmission mode can be switched. Generally, according to the countdown prompt information, the user can be prompted to switch the transmission mode later, so that the user can conveniently confirm whether the switching is suitable or not, and can conveniently determine the operation to be taken later (for example, when switching back to the second transmission mode, the user may need to pay attention to the emergency that cannot be timely reflected on some data due to the lower transmission frequency, etc.).

In the embodiment of the present application, the display manner of the countdown prompt information may be similar to the display manner of the first countdown prompt information described above (refer to the examples of fig. 2 to 10 described above, only the meaning of the countdown prompt information may be different, and the display manner may be similar), which is not repeated herein for brevity.

A wearable mobile monitoring device 1200 according to another embodiment of the application is now described in connection with fig. 12. As shown in fig. 12, the wearable mobile monitoring device 1200 includes a sensor 1210, a processor 1220, and a wireless communication unit 1230. Wherein the sensor 1210 is configured to acquire a signal indicative of at least one physical sign parameter of a human body; processor 1220 is configured to perform the following: obtaining monitoring data based on signals acquired by the sensor 1210; the wireless communication unit 1230 is controlled to transmit the monitoring data to the monitoring device for display at least in an intermittent transmission mode through the communication connection established with the monitoring device outside the human body, and output countdown prompt information (which may be named as fourth countdown prompt information in order to distinguish from the countdown prompt information described above) when the monitoring data starts to be displayed on the monitoring device, so as to prompt that the monitoring data displayed on the monitoring device is refreshed when the countdown is finished; wherein, the intermittent transmission mode refers to transmitting data in a part of transmission periods of a continuous preset number of transmission periods.

In this embodiment, after the mobile monitoring device 1200 transmits the monitoring data to the monitoring device in the intermittent transmission mode, a countdown prompt message may be output to prompt when and how long the data will be refreshed, so that the medical staff can intuitively understand the update condition of the data.

In an embodiment of the present application, processor 1220 outputs a countdown hint message, which may include: the countdown prompt is output to a display and/or speaker of the mobile monitoring device 1200 itself and/or the countdown prompt is transmitted to the aforementioned monitoring device and the display and/or speaker of the monitoring device is controlled to output the countdown prompt.

The following description will be given by taking an example of displaying the countdown hint information described above on the monitor device. In an embodiment of the present application, processor 1220 outputs a countdown hint message, which may include: and transmitting the countdown prompt information to the monitoring equipment, and controlling a display of the monitoring equipment to display the countdown prompt information in a designated area of a display interface.

In the embodiment of the application, the display interface of the monitoring device may include a status bar area, a data and status display area and a menu bar area, which are sequentially arranged from top to bottom; the data and status display areas include a human body status display area and a data display area arranged left and right. The designated area is located in any one of the status bar area, the human body status display area, and the data display area. Because the status bar area is positioned in the area above the display interface, the countdown prompt information is displayed in the area more prominently, and the attention of medical staff is easily brought to the attention, thereby playing a better role in prompt. The human body state display area and the data display area generally have larger display areas, so that the countdown prompt information is displayed in the area, thereby providing more possibilities of a striking prompt mode.

In one example, the designated area for displaying the countdown cue information is located within the aforementioned human status display area. Specifically, the human body state display area comprises a designated area, a human body position display area and a human body movement sleep time statistics display area which are sequentially arranged up and down. In this example, the designated area for displaying the countdown hint information is below the human position display area (above the status bar area). Further, the base color of the designated area is different from the base color of the status bar area and the human body position display area, which can well highlight the display effect of the countdown prompt information. Fig. 13 shows such an example.

In another example, the designated area for displaying the countdown hint information is located within the data display area described above. Specifically, the data display area includes a numerical display area, and the designated area is located below the status bar area and above the numerical display area. Further, the designated area is a bounding box area bounding the countdown prompt message, and the lateral width of the bounding box area is smaller than that of the numerical display area. Further, the base color of the surrounding frame area is the same as the base color of the status bar area, and the base color of the surrounding frame area is different from the base color of the numerical display area. Fig. 6 is a similar example (except that the countdown prompt information in fig. 6 has a different meaning from the countdown prompt information in this case, the human body state display area is different, and the rest is similar), which is not repeated here for brevity.

In the embodiment of the application, the designated area is positioned in a status bar area, the status bar area comprises a basic information display area and a prompt information display area, and the countdown prompt information is displayed in the prompt information display area. Fig. 7 is a similar example (except that the countdown prompt information in fig. 7 has a different meaning from the countdown prompt information in this case, the human body state display area is different, and the rest is similar), which is not repeated here for brevity. Further, the prompt information display area is also used for displaying other prompt information except the countdown prompt information; when the countdown prompt information and other prompt information need to be displayed at the same time: displaying countdown prompt information in the prompt information display area and presenting the effect that at least part of other prompt information is covered and not displayed; or alternatively displaying countdown prompt information and other prompt information in the prompt information display area, which are similar to those described above and will not be repeated here.

In the embodiment of the application, the display interface comprises a status bar area, a designated area, a data and status display area and a menu bar area which are sequentially arranged from top to bottom; the data and state display area comprises a human body state display area and a data display area which are arranged left and right; the ground color of the designated area is the same as or different from the ground color of the status bar area and the data and status display area. Fig. 8 is a similar example (except that the countdown prompt information in fig. 8 has a different meaning from the countdown prompt information in this case, the human body state display area is different, and the rest is similar), which is not repeated here for brevity.

A monitoring system provided in accordance with yet another aspect of the present application is described below, which may include the mobile monitoring devices (such as mobile monitoring devices 100, 1100, and 1200) and the monitoring devices described previously. The structure, operation, interaction with the monitoring device, and interface display on the monitoring device have been described in detail above. For brevity, details are not repeated here, and only some of the main functions are described.

In one embodiment, the monitoring system of the present application comprises a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying monitoring data; the mobile monitoring device is also configured to perform the following operations: transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device; transmitting the monitoring data to the monitoring device, comprising: transmitting the monitoring data in a first transmission mode under a first preset condition; under a second preset condition, transmitting the monitoring data in a second transmission mode, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when the monitoring data is transmitted in the first transmission mode, if a second preset condition is detected, a first countdown prompt message is output to prompt a user to switch the transmission mode immediately, and when the countdown is finished, the user switches from the first transmission mode to the second transmission mode.

In another example, the monitoring system of the present application comprises a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying monitoring data; the mobile monitoring device is also configured to perform the following operations: transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device; transmitting the monitoring data to the monitoring device, comprising: transmitting the monitoring data in a first transmission mode under a first preset condition; under a second preset condition, transmitting the monitoring data in a second transmission mode, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode; when monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected; the frequency of the third transmission mode for transmitting the monitoring data is higher than that of the second transmission mode, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from that of the first transmission mode for transmitting the monitoring data; wherein, mobile monitoring device is still used for: and outputting a first countdown prompt message according to the first preset time threshold to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

In yet another embodiment, the monitoring system of the present application comprises a wearable mobile monitoring device worn on a human body and a monitoring device external to the human body, wherein: the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body; the monitoring device is used for acquiring and displaying monitoring data; the mobile monitoring device is also configured to perform the following operations: transmitting the monitoring data to the monitoring device for display at least in an intermittent transmission mode through communication connection established with the monitoring device, and outputting countdown prompt information when the monitoring data starts to be displayed on the monitoring device so as to prompt that the monitoring data displayed on the monitoring device is refreshed when the countdown is finished; wherein, the intermittent transmission mode refers to transmitting data in a part of transmission periods of a continuous preset number of transmission periods.

Based on the above description, after the mobile monitoring device in the wearable mobile monitoring device and the monitoring system according to the embodiments of the present application acquire the monitoring data of the human body, the monitoring data may be transmitted to the monitoring device outside the human body through different transmission modes, and these different transmission modes may satisfy the scenario of low power consumption requirements, thereby being beneficial to product miniaturization, improving the wearing experience, and also satisfying the scenario of high monitoring requirements, and may also give countdown prompt information to prompt the medical staff when the transmission modes are switched, thereby implementing to satisfy various different scenarios, and assisting the medical staff to monitor the patient better. In addition, in the intermittent transmission mode, countdown prompt information can be provided to prompt the data refreshing condition, so that medical staff can intuitively know the data refreshing condition on the monitoring equipment.

Although the illustrative embodiments have been described herein with reference to the accompanying drawings, it is to be understood that the above illustrative embodiments are merely illustrative and are not intended to limit the scope of the present application thereto. Various changes and modifications may be made therein by one of ordinary skill in the art without departing from the scope and spirit of the application. All such changes and modifications are intended to be included within the scope of the present application as set forth in the appended claims.

Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, e.g., the division of the elements is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple elements or components may be combined or integrated into another device, or some features may be omitted or not performed.

In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the application may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in order to streamline the application and aid in understanding one or more of the various inventive aspects, various features of the application are sometimes grouped together in a single embodiment, figure, or description thereof in the description of exemplary embodiments of the application. However, the method of the present application should not be construed as reflecting the following intent: i.e. the claimed application requires more features than are explicitly recited in the claims. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with the claims themselves being separate embodiments of the application.

It will be understood by those skilled in the art that all of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or units of any method or apparatus so disclosed, may be combined in any combination, except combinations where the features are mutually exclusive. The features disclosed in this specification (including any accompanying claims, abstract and drawings), unless expressly stated otherwise, may be replaced by alternative features serving the same, equivalent or similar purpose.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features but not others included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the application and form different embodiments. For example, in the claims, any of the claimed embodiments may be used in any combination.

Various component embodiments of the application may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that some or all of the functions of some of the modules according to embodiments of the present application may be implemented in practice using a microprocessor or Digital Signal Processor (DSP). The present application can also be implemented as an apparatus program (e.g., a computer program and a computer program product) for performing a portion or all of the methods described herein. Such a program embodying the present application may be stored on a computer readable storage medium, or may have the form of one or more signals. Such signals may be downloaded from an internet website, provided on a carrier signal, or provided in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the application, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The application may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The use of the words first, second, third, etc. do not denote any order. These words may be interpreted as names.

The foregoing description is merely illustrative of specific embodiments of the present application and the scope of the present application is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the scope of the present application. The protection scope of the application is subject to the protection scope of the claims.

Claims (55)

1. A wearable mobile monitoring device, the mobile monitoring device comprising a sensor, a processor, and a wireless communication unit, wherein:

the sensor is used for acquiring signals representing at least one physical sign parameter of a human body;

the processor is used for executing the following operations:

obtaining monitoring data based on the signals obtained by the sensor;

Controlling the wireless communication unit to transmit the monitoring data to the monitoring equipment through communication connection established with the monitoring equipment outside the human body;

the transmitting the monitoring data to the monitoring device includes:

transmitting the monitoring data in a first transmission mode under a first preset condition;

Transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode;

And when the monitoring data is transmitted in the first transmission mode, if the second preset condition is detected, outputting a first countdown prompt message to prompt a user to switch the transmission mode, and switching from the first transmission mode to the second transmission mode when the countdown is finished.

2. The mobile monitoring device of claim 1, wherein the processor outputs a first countdown hint message comprising:

Outputting the first countdown prompt information to a display and/or a loudspeaker of the mobile monitoring equipment; and/or

And transmitting the first countdown prompt information to the monitoring equipment, and controlling a display and/or a loudspeaker of the monitoring equipment to output the first countdown prompt information.

3. The mobile monitoring device of claim 1, wherein the processor outputs a first countdown hint message comprising:

and transmitting the first countdown prompt information to the monitoring equipment, and controlling a display of the monitoring equipment to display the first countdown prompt information in a designated area of a display interface.

4. The mobile monitoring device of claim 3, wherein the display interface comprises a status bar area, a data display area, and a menu bar area arranged in sequence from top to bottom, the designated area being located in the status bar area or the data display area.

5. The mobile monitoring device of claim 4, wherein the designated area is located within the data display area;

The data display area includes a waveform display area and a numerical display area of the monitoring data, and the specified area is located below the status bar area and above the waveform display area.

6. The mobile monitoring device of claim 5, wherein the designated area is a bounding box area bounding the first countdown cue, a lateral width of the bounding box area being less than a lateral width of the waveform display area.

7. The mobile monitoring device of claim 6, wherein the base color of the bounding box region is the same as the base color of the status bar region, the base color of the bounding box region being different from the base color of the waveform display region.

8. The mobile monitoring device of claim 5, wherein the lateral width of the designated area is equal to the lateral width of the waveform display area, and wherein the base color of the designated area is the same as or different from the base color of the waveform display area.

9. The mobile monitoring device of claim 5, wherein the font of the first countdown alert message is greater than a preset threshold, and wherein the data display area exhibits an effect that at least a portion of the monitored data is covered and not displayed when the first countdown alert message is displayed in the designated area.

10. The mobile monitoring device of claim 3, wherein the display interface comprises a status bar area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

The data and status display area comprises a human body status display area and a data display area which are arranged left and right, and the designated area is positioned in any one of the status bar area, the human body status display area and the data display area.

11. The mobile monitoring device of claim 10, wherein the designated area is located within the human status display area;

the human body state display area comprises a human body position display area, an early warning score display area and the appointed area which are sequentially arranged up and down.

12. The mobile monitoring device of claim 10, wherein the designated area is located within the data display area;

The data display area includes a numerical display area, and the specified area is located below the status bar area and above the numerical display area.

13. The mobile monitoring device of claim 12, wherein the designated area is a bounding box area bounding the first countdown cue, a lateral width of the bounding box area being less than a lateral width of the numeric display area.

14. The mobile monitoring device of claim 13, wherein the base color of the bounding box region is the same as the base color of the status bar region, the base color of the bounding box region being different from the base color of the numeric display region.

15. The mobile monitoring device of claim 4 or 10, wherein the designated area is located within the status bar area, the status bar area including a base information display area and a reminder information display area, the first countdown reminder information being displayed within the reminder information display area.

16. The mobile monitoring device of claim 15, wherein the reminder display area is further configured to display other reminders in addition to the first countdown reminder;

When the first countdown prompt information and the other prompt information need to be displayed simultaneously exist: displaying the first countdown prompt information in the prompt information display area, and displaying the effect that at least part of other prompt information is covered and not displayed; or alternatively displaying the first countdown prompt information and the other prompt information in the prompt information display area.

17. The mobile monitoring device of claim 3, wherein the display interface comprises a status bar area, the designated area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

the data and state display areas comprise human body state display areas and data display areas which are arranged left and right;

And the ground color of the designated area is the same as or different from the ground color of the status bar area and the data and status display area.

18. The mobile monitoring device of claim 3, wherein the monitoring device comprises a multi-bed display interface and a single-bed display interface arranged left and right, the controlling the display of the monitoring device to display the first countdown prompt message in a designated area of the display interface comprises:

And controlling a display of the monitoring equipment to display the first countdown prompt information in a designated area of the single-bed display interface.

19. The mobile monitoring device of claim 1, wherein the processor is further configured to:

When detecting that the signal strength and/or the signal quality based on the point-to-point wireless communication connection between the mobile monitoring equipment and the monitoring equipment outside the human body do not meet a first preset condition, switching the point-to-point wireless communication connection into a non-point-to-point wireless communication connection;

And when detecting that the signal strength and/or the signal quality of the non-point-to-point wireless communication connection between the mobile monitoring equipment and the monitoring equipment outside the human body do not meet a second preset condition, outputting second countdown prompting information to prompt a user to switch the communication connection, and switching from the non-point-to-point wireless communication connection to the point-to-point wireless communication connection when the countdown is finished.

20. The mobile monitoring device of claim 1, wherein the first transmission mode comprises a continuous transmission mode and the second transmission mode comprises an intermittent transmission mode, wherein:

The continuous transmission mode refers to data transmission in a continuous preset number of transmission periods;

The intermittent transmission mode refers to transmitting data only in a part of transmission periods of a continuous preset number of transmission periods.

21. A wearable mobile monitoring device, the mobile monitoring device comprising a sensor, a processor, and a wireless communication unit, wherein:

the sensor is used for acquiring signals representing at least one physical sign parameter of a human body;

the processor is used for executing the following operations:

obtaining monitoring data based on the signals obtained by the sensor;

Controlling the wireless communication unit to transmit the monitoring data to the monitoring equipment through communication connection established with the monitoring equipment outside the human body;

the transmitting the monitoring data to the monitoring device includes:

transmitting the monitoring data in a first transmission mode under a first preset condition;

Transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode;

When the monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected;

The frequency of the third transmission mode for transmitting the monitoring data is higher than the frequency of the second transmission mode for transmitting the monitoring data, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from the frequency of the first transmission mode for transmitting the monitoring data;

the processor is further configured to: and outputting a first countdown prompt message according to the first preset time threshold value so as to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

22. The mobile monitoring device of claim 21, wherein the processor outputs a first countdown alert message comprising:

Outputting the first countdown prompt information to a display and/or a loudspeaker of the mobile monitoring equipment; and/or

And transmitting the first countdown prompt information to the monitoring equipment, and controlling a display and/or a loudspeaker of the monitoring equipment to output the first countdown prompt information.

23. The mobile monitoring device of claim 21, wherein the processor outputs a first countdown alert message comprising:

and transmitting the first countdown prompt information to the monitoring equipment, and controlling a display of the monitoring equipment to display the first countdown prompt information in a designated area of a display interface.

24. The mobile monitoring device of claim 23, wherein the display interface comprises a status bar area, a data display area, and a menu bar area arranged in sequence from top to bottom, the designated area being located within the status bar area or within the data display area.

25. The mobile monitoring device of claim 24, wherein the designated area is located within the data display area;

The data display area includes a waveform display area and a numerical display area of the monitoring data, and the specified area is located below the status bar area and above the waveform display area.

26. The mobile monitoring device of claim 25, wherein the designated area is a bounding box area bounding the first countdown cue, a lateral width of the bounding box area being less than a lateral width of the waveform display area.

27. The mobile monitoring device of claim 26, wherein the base color of the bounding box region is the same as the base color of the status bar region, the base color of the bounding box region being different from the base color of the waveform display region.

28. The mobile monitoring device of claim 25, wherein the lateral width of the designated area is equal to the lateral width of the waveform display area, and wherein the base color of the designated area is the same as or different from the base color of the waveform display area.

29. The mobile monitoring device of claim 25, wherein the font of the first countdown alert message is greater than a predetermined threshold, and wherein the data display area exhibits an effect that at least a portion of the monitored data is covered and not displayed when the first countdown alert message is displayed in the designated area.

30. The mobile monitoring device of claim 23, wherein the display interface comprises a status bar area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

The data and status display area comprises a human body status display area and a data display area which are arranged left and right, and the designated area is positioned in any one of the status bar area, the human body status display area and the data display area.

31. The mobile monitoring device of claim 30, wherein the designated area is located within the human status display area;

the human body state display area comprises a human body position display area, an early warning score display area and the appointed area which are sequentially arranged up and down.

32. The mobile monitoring device of claim 30, wherein the designated area is located within the data display area;

The data display area includes a numerical display area, and the specified area is located below the status bar area and above the numerical display area.

33. The mobile monitoring device of claim 32, wherein the designated area is a bounding box area bounding the first countdown cue, the bounding box area having a lateral width that is less than a lateral width of the numeric display area.

34. The mobile monitoring device of claim 33, wherein the base color of the bounding box region is the same as the base color of the status bar region, the base color of the bounding box region being different from the base color of the numeric display region.

35. The mobile monitoring device of claim 24 or 30, wherein the designated area is located within the status bar area, the status bar area including a base information display area and a reminder information display area, the first countdown reminder information being displayed within the reminder information display area.

36. The mobile monitoring device of claim 35, wherein the reminder display area is further configured to display other reminders in addition to the first countdown reminder;

When the first countdown prompt information and the other prompt information need to be displayed simultaneously exist: displaying the first countdown prompt information in the prompt information display area, and displaying the effect that at least part of other prompt information is covered and not displayed; or alternatively displaying the first countdown prompt information and the other prompt information in the prompt information display area.

37. The mobile monitoring device of claim 23, wherein the display interface comprises a status bar area, the designated area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

the data and state display areas comprise human body state display areas and data display areas which are arranged left and right;

And the ground color of the designated area is the same as or different from the ground color of the status bar area and the data and status display area.

38. The mobile monitoring device of claim 23, wherein the monitoring device comprises a multi-bed display interface and a single-bed display interface arranged left and right, the controlling the display of the monitoring device to display the first countdown prompt message in a designated area of the display interface comprises:

And controlling a display of the monitoring equipment to display the first countdown prompt information in a designated area of the single-bed display interface.

39. The mobile monitoring device of claim 21, wherein the processor is further configured to:

When detecting that the signal strength and/or the signal quality based on the point-to-point wireless communication connection between the mobile monitoring equipment and the monitoring equipment outside the human body do not meet a first preset condition, switching the point-to-point wireless communication connection into a non-point-to-point wireless communication connection;

And when detecting that the signal strength and/or the signal quality of the non-point-to-point wireless communication connection between the mobile monitoring equipment and the monitoring equipment outside the human body do not meet a second preset condition, outputting second countdown prompting information to prompt a user to switch the communication connection, and switching from the non-point-to-point wireless communication connection to the point-to-point wireless communication connection when the countdown is finished.

40. The mobile monitoring device of claim 21, wherein the first transmission mode comprises a continuous transmission mode, the second transmission mode comprises an intermittent transmission mode, and the third transmission mode comprises a temporary continuous transmission mode, wherein:

The continuous transmission mode refers to data transmission in a continuous preset number of transmission periods;

the intermittent transmission mode refers to transmitting data only in a first part of transmission periods in a continuous preset number of transmission periods;

the temporary continuous transmission mode refers to transmitting data only in a second partial transmission period among a continuous preset number of transmission periods, wherein the number of the second partial transmission periods is greater than that of the first partial transmission periods.

41. A wearable mobile monitoring device, the mobile monitoring device comprising a sensor, a processor, and a wireless communication unit, wherein:

the sensor is used for acquiring signals representing at least one physical sign parameter of a human body;

the processor is used for executing the following operations:

obtaining monitoring data based on the signals obtained by the sensor;

The wireless communication unit is controlled to transmit the monitoring data to the monitoring equipment for display at least in an intermittent transmission mode through communication connection established with the monitoring equipment outside the human body, and countdown prompt information is output when the monitoring data starts to be displayed on the monitoring equipment so as to prompt the monitoring data displayed on the monitoring equipment to be refreshed when countdown is finished;

Wherein, the intermittent transmission mode refers to data transmission in a part of transmission periods of a continuous preset number of transmission periods.

42. The mobile monitoring device of claim 41, wherein the processor outputting the countdown hint information comprises:

outputting the countdown prompt information to a display and/or a loudspeaker of the mobile monitoring equipment; and/or

And transmitting the countdown prompt information to the monitoring equipment, and controlling a display and/or a loudspeaker of the monitoring equipment to output the countdown prompt information.

43. The mobile monitoring device of claim 41, wherein the processor outputting the countdown hint information comprises:

and transmitting the countdown prompt information to the monitoring equipment, and controlling a display of the monitoring equipment to display the countdown prompt information in a designated area of a display interface.

44. The mobile monitoring device of claim 43, wherein the display interface comprises a status bar area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

The data and status display area comprises a human body status display area and a data display area which are arranged left and right, and the designated area is positioned in any one of the status bar area, the human body status display area and the data display area.

45. The mobile monitoring device of claim 44, wherein the designated area is located within the human status display area;

The human body state display area comprises the appointed area, the human body position display area and the human body movement sleep time statistics display area which are sequentially arranged up and down.

46. The mobile monitoring device of claim 45, wherein the base color of the designated area is different from the base color of the status bar area and the body position display area.

47. The mobile monitoring device of claim 44, wherein the designated area is located within the data display area;

The data display area includes a numerical display area, and the specified area is located below the status bar area and above the numerical display area.

48. The mobile monitoring device of claim 47, wherein the designated area is a bounding box area bounding the countdown cue, a lateral width of the bounding box area being less than a lateral width of the numeric display area.

49. The mobile monitoring device of claim 48, wherein the base color of the bounding box region is the same as the base color of the status bar region, the base color of the bounding box region being different from the base color of the numeric display region.

50. The mobile monitoring device of claim 44, wherein the designated area is located within the status bar area, the status bar area including a base information display area and a reminder information display area, the countdown reminder information being displayed within the reminder information display area.

51. The mobile monitoring device of claim 50, wherein the reminder display area is further for displaying other reminders in addition to the countdown reminder;

When the countdown prompt information and the other prompt information need to be displayed simultaneously exist: displaying the countdown prompt information in the prompt information display area, and displaying the effect that at least part of other prompt information is covered and not displayed; or alternatively displaying the countdown prompt information and the other prompt information in the prompt information display area.

52. The mobile monitoring device of claim 43, wherein the display interface comprises a status bar area, the designated area, a data and status display area, and a menu bar area arranged in sequence from top to bottom;

the data and state display areas comprise human body state display areas and data display areas which are arranged left and right;

And the ground color of the designated area is the same as or different from the ground color of the status bar area and the data and status display area.

53. A monitoring system comprising a wearable mobile monitoring device worn on a person and a monitoring device external to the person, wherein:

the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body;

the monitoring device is used for acquiring and displaying the monitoring data;

The mobile monitoring device is further configured to perform the following operations:

Transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device;

the transmitting the monitoring data to the monitoring device includes:

transmitting the monitoring data in a first transmission mode under a first preset condition;

Transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode;

And when the monitoring data is transmitted in the first transmission mode, if the second preset condition is detected, outputting a first countdown prompt message to prompt a user to switch the transmission mode, and switching from the first transmission mode to the second transmission mode when the countdown is finished.

54. A monitoring system comprising a wearable mobile monitoring device worn on a person and a monitoring device external to the person, wherein:

the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body;

the monitoring device is used for acquiring and displaying the monitoring data;

The mobile monitoring device is further configured to perform the following operations:

Transmitting the monitoring data to the monitoring device through a communication connection established with the monitoring device;

the transmitting the monitoring data to the monitoring device includes:

transmitting the monitoring data in a first transmission mode under a first preset condition;

Transmitting the monitoring data in a second transmission mode under a second preset condition, wherein the frequency of transmitting the monitoring data in the first transmission mode is higher than that of transmitting the monitoring data in the second transmission mode;

When the monitoring data is transmitted in the second transmission mode, if a third preset condition is detected, switching from the second transmission mode to the third transmission mode, and switching back to the second transmission mode when the transmission time length after switching to the third transmission mode reaches a first preset time threshold value and the first preset condition is not detected;

The frequency of the third transmission mode for transmitting the monitoring data is higher than the frequency of the second transmission mode for transmitting the monitoring data, and the frequency of the third transmission mode for transmitting the monitoring data is equal to or different from the frequency of the first transmission mode for transmitting the monitoring data;

Wherein, the mobile monitoring device is further for: and outputting a first countdown prompt message according to the first preset time threshold value so as to prompt a user to switch from the third transmission mode back to the second transmission mode, wherein the starting moment of countdown in the first countdown prompt message is when the second transmission mode is switched to the third transmission mode.

55. A monitoring system comprising a wearable mobile monitoring device worn on a person and a monitoring device external to the person, wherein:

the mobile monitoring equipment is used for monitoring and obtaining monitoring data of a human body;

the monitoring device is used for acquiring and displaying the monitoring data;

The mobile monitoring device is further configured to perform the following operations:

Transmitting the monitoring data to the monitoring device for display in at least an intermittent transmission mode through communication connection established with the monitoring device, and outputting countdown prompt information when the monitoring data starts to be displayed on the monitoring device so as to prompt that the monitoring data displayed on the monitoring device is refreshed when countdown is finished;

Wherein, the intermittent transmission mode refers to data transmission in a part of transmission periods of a continuous preset number of transmission periods.