CN117995375A - Information display method and central station - Google Patents

Abstract

The embodiment of the application provides an information display method and a central station, wherein a communication unit receives at least one physiological parameter signal of a first monitoring object acquired by mobile monitoring equipment and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object; also receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or wearable activity information obtained by processing at least one non-physiological parameter signal; the processor executes the executable instructions to perform the following operations: acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by an attached mobile monitoring device; the control display displays first monitoring information of each first monitoring object, and the first monitoring information of one first monitoring object is displayed in one first display partition.

Description

Information display method and central station

Technical Field

The present invention relates to the field of medical devices, and in particular, to an information display method and a central station.

Background

The central station can display the physiological parameter information determined by the physiological parameter signals collected by the mobile monitoring equipment, so that medical staff can check the physiological parameter information in time to determine the physical condition of the patient.

Currently, mobile monitoring devices can collect physiological parameter signals of a patient along with the movement of the patient, and a central station generally directly displays physiological parameter information determined by the physiological parameter signals, so that the monitoring display effect is single.

Disclosure of Invention

In order to solve the existing technical problems, the embodiment of the application is expected to provide an information display method and a central station.

In order to achieve the above object, the technical solution of the embodiment of the present application is as follows:

the embodiment of the application provides a central station, which comprises: a communication unit, a processor, a memory and a display;

the communication unit is in wireless communication with a mobile monitoring device attached to the first monitoring object or through other forwarding devices;

the communication unit is used for receiving at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

the communication unit is further used for receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearing activity information obtained by processing the at least one non-physiological parameter signal;

The display interface of the display comprises N first display partitions, wherein N is a positive integer greater than 1;

The memory is configured to store executable instructions, and the processor is configured to execute the executable instructions such that the processor performs the following operations:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by an attached mobile monitoring device;

and controlling the display to display the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition.

The embodiment of the application provides an information display method which is applied to a central station, wherein the central station is in wireless communication with a mobile monitoring device attached to a first monitoring object or in wireless communication with the mobile monitoring device attached to the first monitoring object through other forwarding devices; the method comprises the following steps:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by mobile monitoring equipment;

displaying N first display partitions and the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

The first physiological parameter information is obtained through processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained through processing at least one non-physiological parameter signal acquired by the mobile monitoring device.

The embodiment of the application provides a central station, which comprises: a communication unit, a processor, a memory and a display;

the communication unit is in wireless communication with a mobile monitoring device attached to the first monitoring object or through other forwarding devices;

the communication unit is used for receiving at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

the communication unit is further used for receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearing activity information obtained by processing the at least one non-physiological parameter signal;

the display interface of the display comprises N first display partitions; n is a positive integer greater than 1;

The memory is configured to store executable instructions, and the processor is configured to execute the executable instructions such that the processor performs the following operations:

acquiring first monitoring information of each first monitoring object in at least one first monitoring object;

the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode;

In the case that the mobile monitoring device is determined to operate in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information;

in the case that the mobile monitoring device is determined to operate in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

Controlling the display to display the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode, and the data transmission frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode.

The embodiment of the application provides an information display method which is applied to a central station, wherein the central station is in wireless communication with a mobile monitoring device attached to a first monitoring object or through other forwarding devices, and the frequency of the mobile monitoring device in a first monitoring mode is lower than that of the mobile monitoring device in a second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode, and the data transmission frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode; the method comprises the following steps:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object; the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode; in the case that the mobile monitoring device is determined to operate in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information; in the case that the mobile monitoring device is determined to operate in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

Displaying N first display partitions and the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

wherein the first physiological parameter information is obtained by processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained by processing at least one non-physiological parameter signal acquired by the mobile monitoring device

The embodiment of the application provides an information display method and a central station, wherein the central station comprises the following steps: a communication unit, a processor, a memory and a display; the communication unit is in wireless communication with the mobile monitoring device attached to the first monitoring object or through other forwarding devices; the communication unit is used for receiving at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object; the communication unit is also used for receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearing activity information obtained by processing the at least one non-physiological parameter signal; the display interface of the display comprises N first display partitions, wherein N is a positive integer greater than 1; the memory is to store executable instructions that the processor is to execute, causing the processor to: acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by an attached mobile monitoring device; the control display displays first monitoring information of each first monitoring object, and the first monitoring information of one first monitoring object is displayed in one first display partition. According to the technical scheme provided by the embodiment of the application, aiming at the mobile monitoring scene, the central station can display the first monitoring information of a plurality of first monitoring objects on the display interface of the display in a partitioned manner, wherein the first monitoring information not only comprises the first physiological parameter information of the first monitoring objects, but also comprises the gesture information of the first monitoring objects, so that the monitoring display of diversity is supported, and the monitoring display effect is improved.

Drawings

Fig. 1 is a schematic structural diagram of a central station according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an exemplary display interface according to an embodiment of the present application;

FIG. 3 is a second exemplary display interface according to an embodiment of the present application;

FIG. 4 is a schematic view of area division of an exemplary display interface according to an embodiment of the present application;

FIG. 5 is a third exemplary display interface provided in accordance with an embodiment of the present application;

FIG. 6 is a schematic diagram of an exemplary display interface according to an embodiment of the present application;

FIG. 7 is a schematic diagram of an exemplary display interface according to an embodiment of the present application;

FIG. 8 is a diagram illustrating an exemplary display interface according to an embodiment of the present application;

FIG. 9 is a schematic diagram of an exemplary display interface according to an embodiment of the present application;

FIG. 10 is a schematic view of an exemplary display interface according to an embodiment of the present application;

FIG. 11 is a diagram illustrating an exemplary display interface according to an embodiment of the present application;

FIG. 12 is a schematic view of an exemplary display interface provided by an embodiment of the present application;

FIG. 13 is a diagram illustrating an exemplary display interface provided by an embodiment of the present application;

Fig. 14 is a flow chart of an information display method according to an embodiment of the present application;

Fig. 15 is a flowchart of another information display method according to an embodiment of the present application.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are some embodiments of the present disclosure, but not all embodiments. The following examples are illustrative of the present disclosure, but are not intended to limit the scope of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without inventive effort, based on the embodiments in this disclosure are intended to be within the scope of this disclosure.

In the following description, reference is made to "some embodiments" which describe a subset of all possible embodiments, but it is to be understood that "some embodiments" can be the same subset or different subsets of all possible embodiments and can be combined with one another without conflict.

It should be noted that the term "first\second\third" related to the embodiments of the present disclosure is merely to distinguish similar objects, and does not represent a specific order for the objects, it being understood that the "first\second\third" may interchange a preset order or sequencing order, if allowed, to enable the embodiments of the present disclosure described herein to be implemented in an order other than illustrated or described herein.

The embodiment of the application provides a central station. Fig. 1 is a schematic structural diagram of a central station according to an embodiment of the present application. As shown in fig. 1, in an embodiment of the present application, a central station includes: a communication unit 11, a processor 12, a memory 13 and a display 14.

A detailed description of the first information display scheme is provided below for the central station described above.

In an embodiment of the present application, the communication unit 11 wirelessly communicates with the mobile monitoring device attached to the first monitoring object, or with the mobile monitoring device attached to the first monitoring object through other forwarding devices;

The communication unit 11 is configured to receive at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

The communication unit 11 is further configured to receive at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearable activity information obtained by processing the at least one non-physiological parameter signal.

It should be noted that, in the embodiment of the present application, the communication unit 11 is configured to receive at least one physiological parameter signal of a human body acquired by the mobile monitoring device, and the processor 12 processes the physiological parameter information obtained by the processing of the at least one physiological parameter signal; and/or receiving physiological parameter information obtained via processing of the at least one physiological parameter signal by the mobile monitoring device.

It should be noted that, in the embodiment of the present application, the communication unit 11 is configured to receive at least one non-physiological parameter signal of the human body acquired by the mobile monitoring device, and the processor 12 processes at least the physiological parameter information obtained by processing the at least one non-physiological parameter signal; and/or receiving wearable activity information obtained via processing of at least one non-physiological parameter signal by the mobile monitoring device. For example, the wearing activity information includes a sleep time of the non-human body, which may be determined from the at least one non-physiological parameter signal and the at least one physiological parameter signal.

It should be noted that, in the embodiment of the present application, the mobile monitoring device may collect physiological parameter signals of a human body, and may include electrocardiographic signals, respiratory signals, blood oxygen signals, blood pressure signals, body temperature signals and other types of signals of a monitored object, where these signals may be processed by the signals to obtain corresponding physiological parameter information of electrocardiographic parameters, respiratory parameters, blood oxygen saturation, blood pressure parameters, body temperature parameters and other types of physiological parameters.

It should be noted that, in the embodiment of the present application, the central station is usually placed at a fixed position and cannot move along with the movement of the human body, while the mobile monitoring device may be attached to the human body and may move along with the movement of the human body, i.e. the physiological parameter signal and the non-physiological parameter signal of the human body may be acquired when the human body is at different positions. The physiological parameter signal is determined via at least one physiological parameter monitoring module, and the non-physiological parameter signal is determined via monitoring a sensing signal of the mobile monitoring device itself for a mobile monitoring device attached to the human body. For example, the mobile monitoring device may include a gyroscope, accelerometer, etc., so that the sensing signals of the mobile monitoring device itself may be monitored for determining wearable activity information such as position information and posture information.

It should be noted that, in the embodiment of the present application, the processor 12 may determine the physiological parameter information and/or the wearable activity information, or the mobile monitoring device itself may determine the physiological parameter information and/or the wearable activity information, which is not limited by the embodiment of the present application.

It should be noted that, in an embodiment of the present application, the number of the first monitoring objects may be one or more, and accordingly, the communication unit 11 may wirelessly communicate with each mobile monitoring device attached to each first monitoring object, or wirelessly communicate with each mobile monitoring device attached to each first monitoring object through other medical devices, for example, a relay station, a bedside monitoring device, or the like. The number of the specific first monitoring objects and the mobile monitoring devices, and the wireless communication manner between the communication unit 11 and each mobile monitoring device can be set according to the actual requirements and application situations, and the embodiment of the present application is not limited.

In an embodiment of the present application, the display interface of the display 14 includes N first display partitions, where N is a positive integer greater than 1;

The memory 13 is for storing executable instructions, and the processor 12 is for executing the executable instructions such that the processor 12 performs the following operations:

acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by an attached mobile monitoring device;

the control display 14 displays first monitoring information of each first monitoring object, and the first monitoring information of one first monitoring object is displayed in one first display partition.

It should be noted that, in the embodiment of the present application, as shown in fig. 2, the display interface of the display 14 includes 12 first display sections, and each display section may be used to display the first monitoring information of one monitoring object. The first monitoring information of each first monitoring object not only includes first physiological parameter information and posture information of the first monitoring object, but also includes position information of the first monitoring object. As shown in fig. 2, a first monitoring information of a first monitored object is displayed in a first display partition on the right side, where the first monitoring information includes first physiological parameter information including: heart Rate (HR) parameters, blood oxygen saturation (SpO 2) parameters, respiration (Resp) parameters, body temperature (Temp) parameters, blood pressure (NIBP) parameters, and posture information is an icon representing a posture.

In the embodiment of the present application, the first monitoring information of the first monitoring object further includes the position information of the first monitoring object, such as "No. 2 ward of liver and gall surgery in western region 2" displayed in the first display region on the left side of fig. 2.

In an embodiment of the present application, the monitoring modes of the mobile monitoring device include a first monitoring mode and a second monitoring mode;

When the mobile monitoring device works in the first monitoring mode, the acquired first physiological parameter information at least comprises physiological parameter information of a numerical value type, and when the mobile monitoring device works in the second monitoring mode, the acquired first physiological parameter information comprises physiological parameter information of a numerical value type and physiological parameters of a waveform type;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the frequency at which the mobile monitoring device operates in the first monitoring mode is lower than the frequency in the second monitoring mode including at least one of: the frequency of acquisition of the mobile monitoring device in the first monitoring mode is lower than the frequency of acquisition of the mobile monitoring device in the second monitoring mode, and the frequency of data transmission of the mobile monitoring device in the first monitoring mode is lower than the frequency of data transmission in the second monitoring mode.

It should be noted that, in the embodiment of the present application, if the mobile monitoring device of the first monitoring object is operated in the first monitoring mode, the first physiological parameter information displayed in the first display partition includes physiological parameter information of a numeric type, such as a Heart Rate (HR) parameter "120", a blood oxygen saturation (SpO 2) parameter "98", a respiration (Resp) parameter "20", a body temperature (Temp) parameter "36.5" and a blood pressure (NIBP) "120/80" displayed in the first display partition on the right side of fig. 2. If the mobile monitoring device of the first monitoring object is operated in the second monitoring mode, the first physiological parameter information displayed in the first display section includes the physiological parameter information of the numeric type and the physiological parameter information of the waveform type, such as the Heart Rate (HR) parameter "120" and the heart rate waveform displayed in the first display section on the left side of fig. 2.

In an embodiment of the present application, the display mode of each first display section includes a first display mode and a second display mode; when the mobile monitoring device works in a first monitoring mode, the first monitoring information is displayed in a first display mode, and when the mobile monitoring device works in a second monitoring mode, the first monitoring information is displayed in a second display mode;

The first display mode and the second display mode are different from each other in at least one of the following types:

In a preset time period, the information quantity of the first physiological parameter acquired in the first display mode is smaller than that of the first physiological parameter acquired in the second display mode;

The display refresh frequency of at least one of the first physiological parameter information and the gesture information in the first display mode is smaller than the display refresh frequency of the first physiological parameter information in the second display mode.

It is understood that in the embodiment of the present application, the first display mode corresponds to the first monitoring mode, and the second display mode corresponds to the second monitoring mode.

In an embodiment of the present application, the processor 12 also performs the following operations: control display 14 displays a countdown indicator in at least one first display section; the countdown identifier at least comprises a countdown value, wherein the countdown identifier is used for indicating the display mode of the first display partition to switch from the current display mode to another display mode after the duration indicated by the countdown value; or the countdown identifier is used for indicating the time of the next refreshing of the first monitoring information by the first display partition in the current display mode.

It should be noted that, in the embodiment of the present application, referring to the left side of fig. 2, the "bear 120s" displayed in the first display partition is a countdown identifier indicating that the display mode of the first display partition is switched from the current second display mode to the first display mode after 120s, and the "bear 80s refresh" displayed in the first display partition on the right side is a time indicating that the first display partition is refreshed next time from the first monitored information in the current second display mode for 80s.

In an embodiment of the application, the communication unit 11 is further for wireless communication with a bedside monitoring device attached to the second monitoring subject;

the communication unit 11 is configured to receive at least one physiological parameter signal of the second monitoring object acquired by the bedside monitoring device and/or physiological parameter information obtained through processing of the at least one physiological parameter signal; the processor 12 also performs the following operations:

Acquiring second monitoring information of each second monitoring object in at least one second monitoring object, wherein the second monitoring information of the second monitoring object comprises second physiological parameter information determined by bedside monitoring equipment;

The control display 14 displays second monitoring information of each second monitoring object, and the second monitoring information of one second monitoring object is displayed in one first display section.

It should be noted that, in the embodiment of the present application, the communication unit 11 may also wirelessly communicate with the bedside monitoring device, so as to receive at least one physiological parameter information or physiological parameter information of the second monitoring object collected by the bedside monitoring device, so as to display information of the second monitoring object.

In an exemplary embodiment of the present application, referring to the 4 th first display area on the left side of fig. 2, the second monitoring information that is the second monitored object is displayed, and the second physiological parameter information in the specific second monitoring information includes: heart Rate (HR) parameters, blood oxygen saturation (SpO 2) parameters, respiration (Resp) parameters, body temperature (Temp) parameters, and blood pressure (NIBP) parameters, which are specific to a numeric type of physiological parameters.

It should be noted that, in the embodiment of the present application, the second physiological parameter information may be a physiological parameter of a numerical type, or may be a physiological parameter of a numerical type and a waveform type.

It should be noted that, in the embodiment of the present application, the processor 12 may not be able to learn the gesture information of the first monitoring object, and for this purpose, the display 14 may be controlled to display an icon representing an unknown object, such as an icon including a question mark in the fifth first display partition on the left side of fig. 2.

In an embodiment of the present application, the processor 12 also performs the following operations: acquiring a first number of current monitoring objects, and updating a second number of first display partitions and/or a first area of each first display partition in a current display interface according to the first number;

The number of first display sections satisfies at least one of the following conditions: the second number is not less than the first number or the first number threshold; the second number is not greater than a second number threshold;

The area of the first display area satisfies at least one of the following conditions: the first area is not less than a first area threshold; the first area is not greater than the second area threshold.

It will be appreciated that in the embodiment of the present application, the number and area of the first display partition on the display interface may be updated according to the number of current monitoring objects, where the current monitoring objects may include all the current monitoring objects, including the first monitoring object and the second monitoring object. The number of the first display partitions, that is, the second number is not smaller than the first number and/or not larger than the second number threshold, wherein the second number is not smaller than the first number of the current monitoring objects, so that monitoring information of each monitoring object can be displayed in one first display partition, the second number is not larger than the second number threshold, the number of each first display partition is not too large, too many first display partitions without displaying information exist, resources are wasted, and too many first display partitions can affect the area of the first display partition, and if the number is too large, the area is too small, and the displayed monitoring information is too small and/or too small. The area of the first display partition, that is, the first area is not smaller than the first area threshold and/or is not larger than the second area threshold, wherein the first area is not smaller than the first area threshold, so that the monitored information of each monitored object can be ensured to be clearly displayed in a sufficient area, more information can be displayed, the first area is not larger than the second area threshold, too many areas of the first display partition can influence the number of the first display partition, and if the area is too large, the number is too small, the first display partition can occupy all the monitored information of a part of monitored objects, but still the monitored information of a part of monitored objects is not displayed.

In an embodiment of the present application, the processor 12 also performs the following operations: the control display 14 displays a target operation control of the target monitor object in a target first display partition of the target monitor object; the target monitoring object is any one of at least one first monitoring object;

Associating a target first display partition of the target monitoring object with detail monitoring information of the target monitoring object;

And receiving interactive operation of a user on the target operation control, and controlling the display 14 to display detail monitoring information of the target monitoring object corresponding to the first display partition of the target on the display interface, wherein the detail monitoring information at least comprises first monitoring information.

In the embodiment of the present application, in each first display section in fig. 2, the operation controls "01" to "09" displayed in the upper left corner are the operation controls of the monitoring object corresponding to the first display section, and the user may perform interactive operation with the operation controls, so that the processor 12 controls the display 14 to display the detail monitoring information of the monitoring object.

It should be noted that, in the embodiment of the present application, the target monitoring object may also be any second monitoring object.

In an embodiment of the present application, the processor 12 controls the display 14 to display, on the display interface, detailed monitoring information of the target monitoring object corresponding to the target first display partition, including:

the control display 14 displays the detail monitoring information of the target monitoring object in the second display partition;

wherein each first display section is reduced from the first area to the second area under the condition that the second display section is displayed on the display interface; and/or the number of the groups of groups,

The total area of the first display partition displayed on the display interface is smaller than the area of the second display partition.

In an exemplary embodiment of the present application, in the case where the second display section is not displayed on the display interface, referring to fig. 2, the area of each first display section is larger, in the case where the second display section on the right side is displayed on the display interface, referring to fig. 3, the area of the first display section is reduced, and the total area of all the first display sections on the left side is also smaller than the area of the second display section.

Illustratively, in the embodiment of the present application, as shown in fig. 3, of the two first display partitions displayed on the first left side, the first display partition on the right side is used as the target first display partition of the target monitor object, the target first display partition is associated with the detail monitoring information of the target monitor object, the processor 12 receives the interactive operation of the user on the target operation control in the target first display partition, controls the display 14 to display the second display partition on the right side, and displays the detail monitoring information of the target monitor object in the second display partition. The detailed monitoring information shown in fig. 3 is information that the mobile monitoring device is operating in the second monitoring mode.

It should be noted that, in the embodiment of the present application, as shown in fig. 3, the detailed monitoring information displayed by the display 14 may further include historical trend information of the physiological parameter information of the numeric type, specifically, a Heart Rate (HR) parameter, a blood oxygen saturation (SpO 2) parameter, a Respiratory Rate (RR) parameter, and a blood pressure (NIBP) parameter obtained from 13:30 to 15:30 every 30 minutes.

In an embodiment of the present application, the monitoring modes of the mobile monitoring device include a first monitoring mode and a second monitoring mode;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the frequency at which the mobile monitoring device operates in the first monitoring mode is lower than the frequency in the second monitoring mode including at least one of: the acquisition frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode, and the data transmission frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode;

The display modes of the second display partition comprise a third display mode and a fourth display mode;

When the mobile monitoring equipment works in the first monitoring mode, the detail monitoring information of the target monitoring object is displayed in a third display mode, and when the mobile monitoring equipment works in the second monitoring mode, the detail monitoring information of the target monitoring object is displayed in a fourth display mode;

The third display mode and the fourth display mode are different from each other in at least one of the following types:

In a preset time period, the amount of the detail monitoring information of the target monitoring object acquired in the third display mode is smaller than that of the detail monitoring information of the target monitoring object acquired in the fourth display mode;

And the display refreshing frequency of at least one type of information in the detail monitoring information of the target monitoring object in the third display mode is smaller than the display refreshing frequency of the detail monitoring information of the target monitoring object in the fourth display mode.

It should be noted that, in the embodiment of the present application, similar to the display mode of the first display section, the second display section also includes two display modes, that is, a third display mode and a fourth display mode, where the third display mode corresponds to the first monitoring mode and the fourth display mode corresponds to the second monitoring mode.

In an embodiment of the present application, the detail monitoring information of the target monitoring object includes: wearing activity information and third physiological parameter information of the target monitoring object; the wearing activity information includes: at least one of posture information, position information, movement time and sleep time of the target monitoring object, wherein the third physiological parameter information at least comprises first physiological parameter information of the target monitoring object;

the control display 14 displays the detailed monitoring information of the target monitoring object in the second display section, and the processor 12 performs the following operations:

the control display 14 displays the wearing activity information and the third physiological parameter information separately in the second display section.

In an embodiment of the application, the second display section includes a first region and a second region; the control display 14 displays wearing activity information and third physiological parameter information in the second display section separately, and the processor 12 performs the following operations:

The control display 14 displays the wearing activity information in a first area and the third physiological parameter information in a second area.

It is understood that in the embodiment of the present application, the target monitoring object is any first monitoring object, that is, the monitoring device of the target monitoring object is a mobile monitoring device. The detailed monitoring information of the target monitoring object of the second display partition comprises wearing activity information and third physiological parameter information of the target monitoring object, wherein the third physiological parameter information is obtained by processing at least one physiological parameter signal acquired by mobile monitoring equipment of the target monitoring object, and the third physiological parameter information can at least comprise first physiological parameter information of the target monitoring object. The specific third physiological parameter information and the type of information included in the wearable activity information are not limited in the embodiment of the present application.

For example, in an embodiment of the present application, referring to fig. 4, the second display section may be divided into a status bar, a wearing information section, a parameter section, and a hot key section. The wearing information area is a first area for displaying wearing activity information, and the parameter area is a second area for displaying third physiological parameter information.

In the embodiment of the present application, the first area and the second area are arranged up and down or are arranged left and right. Referring to fig. 4, the first region and the second region are displayed in a left-right arrangement, and the first region is located at the second region at the left side.

In the embodiment of the present application, the display form and the display area of the third physiological parameter information and the wearing activity information may be set according to the actual requirement and the application scenario, which is not limited in the embodiment of the present application.

It should be noted that, in the embodiment of the present application, the processor 12 further performs the following operations:

Receiving an adjustment instruction for the first area or the second area, and adjusting the arrangement positions of the first area and the second area according to the adjustment instruction;

Wherein the adjustment instruction includes: under the condition that the first area and the second area are arranged and displayed up and down, an instruction for indicating the up-down position adjustment between the first area and the second area or an instruction for indicating the first area and the second area to be adjusted to be arranged and displayed left and right is used for indicating the up-down position adjustment between the first area and the second area; or alternatively

The adjustment instruction includes: and under the condition that the first area and the second area are arranged and displayed left and right, the instruction for indicating the left and right positions between the first area and the second area or the instruction for indicating the first area and the second area to be adjusted to be arranged and displayed up and down is used for indicating the left and right positions between the first area and the second area.

It can be appreciated that in the embodiment of the present application, the arrangement positions of the first area and the second area may be adjusted independently according to actual requirements. For example, the first region and the second region are arranged left and right, wherein the first region is on the left side and the second region is on the right side, and referring to fig. 4, the first region may be adjusted from the left side to the right side on the interface displayed on the display 14 according to the instruction for adjusting the first region from the left side to the right side, and correspondingly, the second region is displayed from the right side to the left side.

In the embodiment of the present application, the adjustment instruction may be specifically a movement operation, and the processor 12 may adjust the arrangement position of the region according to a movement track of the movement operation.

In an embodiment of the present application, where any of the wearable activity information is the target information item, the processor 12 further performs the following operations:

upon receiving an operation instruction for the target information item, the control display 14 displays the detailed information of the target information item in a third area that covers the first area and that has the same area as the first area;

or in the case of receiving an operation instruction for the target information item, control the display 14 to display part of the information in the wearing-activity information in the first area, and to display the detailed information of the target information item in the first area; or alternatively

In the case of receiving an operation instruction for the target information item, the control display 14 does not display wearing activity information in the first area, and displays detailed information of the target information item in the first area.

It will be appreciated that, in an embodiment of the present application, when the processor 12 receives an operation instruction for any one of the wearing activity information, that is, the target information item, for example, in the case of selecting an operation, the processor may control the display 14 to display detailed information thereof in the first area displaying the wearing activity information, and at this time, may control the display 14 not to display the wearing activity information in the first area, so that the first physiological parameter information displayed in the second area is not blocked, and the medical staff may view the detailed information of the target information item and simultaneously view the first physiological parameter information.

It will be appreciated that, in the embodiment of the present application, when the processor 12 receives an operation instruction for any one item of wearing activity information, that is, the target information item, for example, in the case of selecting an operation, the processor may control the display 14 to display detailed information thereof in a third area that covers the first area and is the same as the area of the first area, where the displayed first physiological parameter information will be blocked, the wearing activity information displayed in the first area will not be blocked, and the healthcare worker may view the detailed information of the target information item simultaneously.

It may be appreciated that, in the embodiment of the present application, when the processor 12 receives the operation instruction for the target information item, the processor may further control the display 14 to display part of the information in the wearing activity information in the first area, and display the detailed information of the target information item in the first area, so that the medical staff can view the detailed information of the target information item and the wearing activity information part and the first physiological parameter information at the same time, so that the medical staff can more accurately determine the physical condition of the human body. Further alternatively, the processor 12 may introduce an instruction to close the detailed information of the target information item and switch from displaying the detailed information of the target information item to displaying the wearing activity information in the first area.

In the embodiment of the present application, referring to fig. 5, the wearing activity information displayed in the first area includes a sleep time, and the processor 12 controls the display 14 not to display the wearing activity information in the first area and to display the detailed information of the sleep time when receiving the operation instruction for the sleep time, referring to fig. 6, a graph of the sleep time may be displayed, and in addition, a bar graph of the movement time may be displayed at the same time, and since the movement of the human body and the duration of the sleep may reflect the pain degree of the monitoring subject, the displayed detailed information further includes the pain score of the monitoring subject.

It should be noted that, in the embodiment of the present application, referring to fig. 5, the wearable activity information displayed in the first area includes an EWS, the processor 12 controls the display 14 to not display the wearable activity information in the first area and display details of the EWS when receiving an operation instruction for the EWS, referring to fig. 7, specifically including a respiration (RR) parameter, a blood oxygen saturation (SpO 2) parameter, an oxygen concentration (supp.o2) parameter, a body temperature (Temp) parameter, a systolic pressure (BP-S) parameter, and a consciousness state LOC (AVPU) parameter, each of which corresponds to a sub-score, where the consciousness state LOC (AVPU) parameter is specifically an Alert, and indicates that the monitored object is sensitive to response, the sub-score of each parameter is displayed in the form of a bar, the length of the bar is associated with a specific numerical value of the sub-score, the longer bar is, and the orientation of the bar may reflect a trend of the sub-score relative to a reference threshold, and may also display a sub-score standard above the sub-score. In addition, referring to fig. 7, a manual calculation (Calcuate) icon may be displayed in the first area, the calculation about the EWS may be started at any time by clicking it, a Setup (Setup) icon may be displayed, a property Setup window may be entered by clicking it, selection of other functions, page Setup, and mode Setup may be performed, a Reset (Reset) icon may be displayed, etc., a trend graph of early warning status scores of historical monitoring objects may be displayed, that is, different scores marked at different times on a time axis displayed in the first area, and a real-time status icon of the patient may be displayed at the uppermost, that is, an icon formed by a circle and a numerical value "7" above the first area.

It should be noted that, in the embodiment of the present application, the processor 12 further performs the following operations:

When the mobile monitoring device works in the first monitoring mode, acquiring early warning state evaluation of the target monitoring object, and controlling the display 14 to display the early warning state evaluation in the second display partition; the pre-alarm state assessment is determined based at least on at least one physiological parameter signal acquired by the mobile monitoring device, or the pre-alarm state assessment is processed via the mobile monitoring device based at least on the at least one physiological parameter signal.

In an embodiment of the application, the early warning state evaluation comprises EWS statistics, the EWS statistics comprising at least one of: current EWS total score, sub-scores and measured values of N parameters corresponding to the EWS total score, and a trend of EWS total score change, N being a natural number greater than or equal to 1. Referring to fig. 5, 10 to 12, the numerical value "4" of the number, that is, EWS, is displayed in the left circular icon early warning state evaluation.

It should be noted that, in the embodiment of the present application, the early warning state evaluation may be specifically displayed in the first area of the second display area, see fig. 5, 10 to 12.

It should be noted that, in the embodiment of the present application, EWS mainly assigns some physiological parameter information to corresponding scores, and then evaluates scores representing clinical states or potential risks of patients by using statistical values of the scores. For different EWS, medical staff can take different treatment measures for patients, for example, 0 to 5 minutes indicates that the illness state of the patients is stable and the risk of potential critical illness is avoided, the patients can be treated according to a general routine program, 5 to 8 minutes indicates that the illness state of the patients is unstable and has great change, the potential critical illness is treated preferentially, the patients are informed of relevant conditions in time, the patients are timely arranged to enter a intensive care unit or even an intensive care unit, the illness state of the patients is indicated to be critical, the death risk is obviously increased, and the conditions allow the patients to be immediately sent to the intensive care unit or the intensive care unit for treatment.

In an embodiment of the present application, the measured values of the N parameters may be values obtained by monitoring physiological parameter information of the subject. Scoring rules corresponding to the various parameters may be stored in the monitoring device. For example, if the heart rate parameter is 51-100, the corresponding score may be 0, if 41-50 or 101-110, the corresponding score is 1. The total EWS score is determined by scores of N parameters, for example, the total EWS score is determined by five scores corresponding to five parameters, and the specific number and type of parameters are not limited in the embodiment of the present application.

It should be noted that, in the embodiment of the present application, the early warning state evaluation may be displayed in the first display area. Of course, it may be determined that the early warning state evaluation is not displayed according to the actual requirement and the interface size of the display 14, and the EWS is not displayed, as shown in fig. 13.

In an embodiment of the present application, the posture information includes at least one of sleep state information, lying state information, moving state information, falling state information, and standing state information; different gesture information is displayed in different icon and/or text forms. The specific display forms of the different posture information can be seen in fig. 2, and fig. 11 to 13.

In the embodiment of the application, the gesture information comprises normal gesture information and abnormal gesture information, and the prompt strength corresponding to the abnormal gesture information is higher than the prompt strength corresponding to the normal gesture information.

It should be noted that, for different monitored objects, the normal posture information and the abnormal posture information may be different, for example, for a certain monitored object, the abnormal posture information may be fall state information, the normal posture information may be lie state information, sleep state information, movement state information, or the like, which is not limited in the embodiment of the present application, and the abnormal posture information may be displayed with a higher prompt intensity than the normal posture information, including but not limited to a main color of a larger font, a more obvious icon, or an animation, or the like.

In an embodiment of the present application, the processor 12 also performs the following operations:

If the posture information is the falling state information, the control display 14 displays prompt information corresponding to the falling state information;

The prompt information comprises icons and/or characters corresponding to the falling state information and real-time position information of the first monitoring object.

It should be noted that, in the embodiment of the present application, referring to fig. 2 and 9, the icon for representing the falling of the human body may be a flashing, animation or a icon displayed in a special color, and real-time position information of the human body is also displayed, so that the medical staff can more timely look up the icon, so that the patient can be timely rescued when falling. In addition, referring to fig. 9, the prompt information corresponding to the falling state information displayed by the display 14 may further include a "confirm" icon, by which the healthcare worker can confirm that the human body is in the falling state by clicking the icon. If the icon is not clicked, the icon can be continuously displayed, or the icon can be canceled from being displayed after a certain period of time, and other forms of reminding can be performed, for example, an alarm prompt tone is played, and the embodiment of the application is not limited.

In an embodiment of the present application, the processor 12 may also perform the following operations: when the mobile monitoring device is operating in the first monitoring mode, the control display 14 displays a countdown indicator in the second display section; the countdown identifier at least comprises a countdown value, wherein the countdown identifier is used for indicating the display mode of the second display partition to switch from the current display mode to another display mode after the duration indicated by the countdown value; or the countdown identifier is used for indicating the time of the next refreshing of the detail monitoring information of the second display partition in the current display mode.

In the embodiment of the present application, the countdown identifier may be displayed in the first area included in the second display area, or may be displayed in the second area, or may be displayed in any blank display area of the second display area according to the information indicated by the countdown identifier, without blocking any other information.

It should be noted that, in an embodiment of the present application, when the mobile monitoring device is operating in the second monitoring mode, the processor 12 may also control the display 14 to display a countdown indicator on the second display area, and instruct the display mode of the second display area to switch from the current display mode to another display mode after the duration indicated by the countdown value, as shown in "bear 120s" in fig. 8.

The embodiment of the application provides an information display method which is applied to a central station, wherein the central station is in wireless communication with a mobile monitoring device attached to a first monitoring object or through other forwarding devices. Fig. 14 is a flowchart of an information display method according to an embodiment of the present application. As shown in fig. 14, mainly comprises the following steps:

S101, acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by mobile monitoring equipment;

s102, displaying N first display partitions and first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

The first physiological parameter information is obtained by processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained by processing at least one non-physiological parameter signal acquired by the mobile monitoring device.

It should be noted that, in the embodiment of the present application, the specific implementation process of steps S101 to S102 is consistent with the related description content of the central station, and the information display method further includes all the display methods in the related description content of the central station, which are not described herein again.

A second information display scheme is described in detail below for the central station.

In an embodiment of the present application, with continued reference to the central station shown in fig. 1, the communication unit 11 communicates wirelessly with the mobile monitoring device attached to the first monitoring object, or with the mobile monitoring device attached to the first monitoring object through other forwarding devices;

The communication unit 11 is configured to receive at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

the communication unit 11 is further configured to receive at least one non-physiological parameter signal acquired by the mobile monitoring device and/or wearable activity information obtained by processing at least one non-physiological parameter signal;

the display interface of the display 14 includes N first display sections; n is a positive integer greater than 1;

The memory 13 is for storing executable instructions, and the processor 12 is for executing the executable instructions such that the processor 12 performs the following operations:

acquiring first monitoring information of each first monitoring object in at least one first monitoring object;

the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode;

In the case of determining that the mobile monitoring device is operating in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information;

in the case of determining that the mobile monitoring device is operating in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

Controlling the display 14 to display first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the frequency at which the mobile monitoring device operates in the first monitoring mode is lower than the frequency in the second monitoring mode including at least one of: the frequency of acquisition of the mobile monitoring device in the first monitoring mode is lower than the frequency of acquisition of the mobile monitoring device in the second monitoring mode, and the frequency of data transmission of the mobile monitoring device in the first monitoring mode is lower than the frequency of data transmission in the second monitoring mode.

It should be noted that, in the embodiment of the present application, the mobile monitoring device has two different monitoring modes, and the central station has a difference in the first monitoring information obtained by the central station for the first monitoring object when the mobile monitoring device operates in the different monitoring modes.

In an embodiment of the present application, upon determining that the mobile monitoring device is operating in the second monitoring mode, the abnormal pose information from the mobile monitoring device is received, the processor 12 further performs the following operations:

and displaying the abnormal gesture information in a first display partition corresponding to the first monitoring object.

In an embodiment of the application, the first monitoring information of the first monitoring object further comprises position information of the first monitoring object in case it is determined that the mobile monitoring device is operating in the first monitoring mode and/or in case it is determined that the mobile monitoring device is operating in the second monitoring mode.

In an embodiment of the present application, when the mobile monitoring device is operating in the first monitoring mode, the acquired first physiological parameter information includes physiological parameter information of a numeric type and physiological parameter information of a waveform type, and when the mobile monitoring device is operating in the second monitoring mode, the acquired first physiological parameter information includes at least physiological parameter information of a numeric type.

In an embodiment of the present application, the display refresh frequency of the first monitoring information when the mobile monitoring device is operating in the first monitoring mode is less than the display refresh frequency of the first monitoring information when the mobile monitoring device is operating in the second monitoring mode.

In an embodiment of the application, the communication unit 11 is further for wireless communication with a bedside monitoring device attached to the second monitoring subject;

the communication unit 11 is configured to receive at least one physiological parameter signal of the second monitoring object acquired by the bedside monitoring device or physiological parameter information obtained through processing of the at least one physiological parameter signal;

The processor 12 also performs the following operations: acquiring second monitoring information of each second monitoring object in at least one second monitoring object, wherein the second monitoring information of the second monitoring object comprises second physiological parameter information determined by bedside monitoring equipment;

The control display 14 displays second monitoring information of each second monitoring object, and the second monitoring information of one second monitoring object is displayed in one first display section.

In an embodiment of the present application, the processor 12 also performs the following operations:

Acquiring a first number of current monitoring objects, and updating a second number of first display partitions and/or a first area of each first display partition in a current display interface according to the first number;

The number of first display sections satisfies at least one of the following conditions: the second number is not less than the first number or the first number threshold; the second number is not greater than a second number threshold;

And/or the area of the first display area meets at least one of the following conditions: the first area is not less than a first area threshold; the first area is not greater than the second area threshold.

In an embodiment of the present application, the processor 12 also performs the following operations:

The control display 14 displays a target operation control of the target monitor object in a target first display partition of the target monitor object; the target monitoring object is any one of at least one first monitoring object;

Associating a target first display partition of the target monitoring object with detail monitoring information of the target monitoring object;

And receiving interactive operation of a user on the target operation control, and controlling the display 14 to display detail monitoring information of the target monitoring object corresponding to the first display partition of the target on the display interface, wherein the detail monitoring information at least comprises first monitoring information.

In an embodiment of the present application, the control display 14 displays the detailed monitoring information of the target monitoring object corresponding to the target first display partition on the display interface, and the processor 12 performs the following operations:

the control display 14 displays the detail monitoring information of the target monitoring object in the second display partition;

wherein each first display section is reduced from the first area to the second area under the condition that the second display section is displayed on the display interface; and/or

The total area of the first display partition displayed on the display interface is smaller than the area of the second display partition.

In an embodiment of the present application, the display modes of the second display section include a third display mode and a fourth display mode; when the mobile monitoring equipment works in the first monitoring mode, the detail monitoring information of the target monitoring object is displayed in a third display mode, and when the mobile monitoring equipment works in the second monitoring mode, the detail monitoring information of the target monitoring object is displayed in a fourth display mode;

The third display mode and the fourth display mode are different from each other in at least one of the following types:

In a preset time period, the amount of the detail monitoring information of the target monitoring object acquired in the third display mode is smaller than that of the detail monitoring information of the target monitoring object acquired in the fourth display mode;

the display refresh frequency of at least one type of information in the detail monitoring information of the target monitoring object obtained in the third display mode is smaller than the display refresh frequency of the detail monitoring information of the target monitoring object obtained in the fourth display mode.

In an embodiment of the present application, when the mobile monitoring device operates in the first monitoring mode, the detailed monitoring information of the target monitoring object includes: wearing activity information and third physiological parameter information of the target monitoring object; the wearing activity information includes: at least one of posture information, position information, movement time and sleep time of the target monitoring object, wherein the third physiological parameter information at least comprises first physiological parameter information of the target monitoring object;

the control display 14 displays the detailed monitoring information of the target monitoring object in the second display section, and the processor 12 performs the following operations:

the control display 14 displays the wearing activity information and the third physiological parameter information separately in the second display section.

In an embodiment of the application, the second display section includes a first region and a second region; the control display 14 displays wearing activity information and third physiological parameter information in the second display section separately, and the processor 12 performs the following operations:

The control display 14 displays the wearing activity information in a first area and the third physiological parameter information in a second area.

In the embodiment of the application, the first area and the second area are arranged up and down or are arranged left and right for display.

In an embodiment of the present application, the processor 12 also performs the following operations:

When the mobile monitoring equipment works in the first monitoring mode, acquiring early warning state evaluation of a target monitoring object, and displaying the early warning state evaluation in a second display partition; the pre-alarm state assessment is determined based at least on at least one physiological parameter signal acquired by the mobile monitoring device, or the pre-alarm state assessment is processed via the mobile monitoring device based at least on the at least one physiological parameter signal.

In an embodiment of the present application, the processor 12 also performs the following operations:

When the mobile monitoring device is operating in the first monitoring mode, the control display 14 displays a countdown indicator in the second display area; the countdown identifier at least comprises a countdown value, wherein the countdown identifier is used for indicating the display mode of the second display partition to switch from the current display mode to another display mode after the duration indicated by the countdown value; or the countdown identifier is used for indicating the time of the next refreshing of the detail monitoring information of the second display partition in the current display mode.

In an embodiment of the present application, where any of the wearable activity information is the target information item, the processor 12 further performs the following operations:

upon receiving an operation instruction for the target information item, the control display 14 displays the detailed information of the target information item in a third area that covers the first area and that has the same area as the first area;

or in the case of receiving an operation instruction for the target information item, control the display 14 to display part of the information in the wearing-activity information in the first area, and to display the detailed information of the target information item in the first area; or alternatively

In the case of receiving an operation instruction for the target information item, the control display 14 does not display wearing activity information in the first area, and displays detailed information of the target information item in the first area.

In an embodiment of the present application, the processor 12 also performs the following operations:

When the monitoring mode of the mobile monitoring device is the second monitoring mode, if the posture information of the target monitoring object is the falling state information, the display 14 is controlled to display prompt information corresponding to the falling state information in the second display partition;

the prompt information comprises icons and/or characters corresponding to the falling state information and real-time position information of the target monitoring object.

In the embodiment of the present application, the specific implementation manner of the steps involved in the second information display method of the central station is similar to that of the first information display scheme, and is not repeated here.

The embodiment of the application provides an information display method which is applied to a central station, wherein the central station is in wireless communication with a mobile monitoring device attached to a first monitoring object or through other forwarding devices; the frequency of the second monitoring mode includes at least one of: the mobile monitoring device operates in a first monitoring mode with a lower acquisition frequency than in a second monitoring mode. Fig. 15 is a flowchart of another information display method according to an embodiment of the present application. As shown in fig. 15, mainly comprises the following steps:

S201, acquiring first monitoring information of each first monitoring object in at least one first monitoring object; the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode; in the case of determining that the mobile monitoring device is operating in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information; in the case of determining that the mobile monitoring device is operating in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

S202, displaying N first display partitions and first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the frequency at which the mobile monitoring device operates in the first monitoring mode is lower than the frequency in the second monitoring mode including at least one of: the acquisition frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode, and the data transmission frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode;

The first physiological parameter information is obtained by processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained by processing at least one non-physiological parameter signal acquired by the mobile monitoring device.

In the embodiment of the present application, the specific implementation manner of the steps involved in the second information display method of the central station is similar to that of the first information display scheme, and is not repeated here.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, magnetic disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable signal processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable signal processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable signal processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable signal processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (36)

1. A central station, the central station comprising: a communication unit, a processor, a memory and a display;

the communication unit is in wireless communication with a mobile monitoring device attached to the first monitoring object or through other forwarding devices;

the communication unit is used for receiving at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

the communication unit is further used for receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearing activity information obtained by processing the at least one non-physiological parameter signal;

The display interface of the display comprises N first display partitions, wherein N is a positive integer greater than 1;

The memory is configured to store executable instructions, and the processor is configured to execute the executable instructions such that the processor performs the following operations:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by an attached mobile monitoring device;

and controlling the display to display the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition.

2. The central station of claim 1, wherein the first monitoring information of the first monitoring object further comprises location information of the first monitoring object.

3. The central station of claim 1, wherein the monitoring modes of the mobile monitoring device include a first monitoring mode and a second monitoring mode;

When the mobile monitoring device works in the first monitoring mode, the acquired first physiological parameter information at least comprises numerical type physiological parameter information, and when the mobile monitoring device works in the second monitoring mode, the acquired first physiological parameter information comprises numerical type physiological parameter information and waveform type physiological parameter;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode, and the data transmission frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode.

4. The central station of claim 3, wherein,

The display mode of each first display partition comprises a first display mode and a second display mode; when the mobile monitoring equipment works in the first monitoring mode, the first monitoring information is displayed in the first display mode, and when the mobile monitoring equipment works in the second monitoring mode, the first monitoring information is displayed in the second display mode;

the first display mode and the second display mode are different from each other in at least one of the following types:

In a preset time period, the first physiological parameter information amount acquired in the first display mode is smaller than the first physiological parameter information amount acquired in the second display mode;

And the display refresh frequency of at least one of the first physiological parameter information and the gesture information in the first display mode is smaller than the display refresh frequency of the first physiological parameter information in the second display mode.

5. The central station of claim 4, wherein the processor further performs the following operations:

controlling the display to display a countdown identifier in at least one first display partition; the countdown identifier at least comprises a countdown value, wherein the countdown identifier is used for indicating the display mode of the first display partition to switch from a current display mode to another display mode after the duration indicated by the countdown value; or the countdown identifier is used for indicating the time of the next refreshing of the first monitoring information by the first display partition in the current display mode.

6. The central station of claim 1, wherein the communication unit is further configured to wirelessly communicate with a bedside monitoring device attached to a second monitored subject;

the communication unit is used for receiving at least one physiological parameter signal of the second monitoring object acquired by the bedside monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal; the processor also performs the following:

acquiring second monitoring information of each second monitoring object in at least one second monitoring object, wherein the second monitoring information of the second monitoring object comprises second physiological parameter information determined by the bedside monitoring equipment;

and controlling the display to display the second monitoring information of each second monitoring object, wherein the second monitoring information of one second monitoring object is displayed in one first display partition.

7. The central station of claim 1, wherein the processor further performs the following operations:

Acquiring a first number of current monitoring objects, and updating a second number of first display partitions and/or a first area of each first display partition in a current display interface according to the first number;

The number of first display sections satisfies at least one of the following conditions: the second number is not less than the first number or a first number threshold; the second number is not greater than a second number threshold;

The area of the first display area satisfies at least one of the following conditions: the first area is not less than a first area threshold; the first area is not greater than a second area threshold.

8. The central station of claim 1, wherein the processor further performs the following operations:

Controlling a display to display a target operation control of a target monitoring object in a target first display partition of the target monitoring object; the target monitoring object is any one of the at least one first monitoring object;

Associating a target first display partition of the target monitoring object with detail monitoring information of the target monitoring object;

and receiving interactive operation of a user on the target operation control, and controlling the display to display detail monitoring information of the target monitoring object corresponding to the target first display partition on the display interface, wherein the detail monitoring information at least comprises the first monitoring information.

9. The central station of claim 8, wherein the processor is configured to control the display to display, on the display interface, detailed monitoring information of the target monitoring object corresponding to the target first display section, the following operations:

Controlling the display to display the detail monitoring information of the target monitoring object in a second display partition;

wherein each first display section is reduced from a first area to a second area with the second display section displayed on the display interface; and/or the number of the groups of groups,

And the total area of the first display partition displayed on the display interface is smaller than the area of the second display partition.

10. The central station of claim 9, wherein the monitoring modes of the mobile monitoring device include a first monitoring mode and a second monitoring mode;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode, and the data transmission frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode;

the display modes of the second display partition comprise a third display mode and a fourth display mode;

When the mobile monitoring device works in a first monitoring mode, the third display mode is adopted to display the detail monitoring information of the target monitoring object, and when the mobile monitoring device works in a second monitoring mode, the fourth display mode is adopted to display the detail monitoring information of the target monitoring object;

The third display mode and the fourth display mode are different from each other in at least one of the following:

in a preset time period, the amount of the detail monitoring information of the target monitoring object acquired in the third display mode is smaller than that of the detail monitoring information of the target monitoring object acquired in the fourth display mode;

and the display refresh frequency of at least one of the detail monitoring information of the target monitoring object in the third display mode is smaller than the display refresh frequency of the detail monitoring information of the target monitoring object in the fourth display mode.

11. The central station of claim 9, wherein the detail monitoring information of the target monitoring object comprises: the wearable activity information and the third physiological parameter information of the target monitoring object; the wearing activity information includes: at least one of gesture information, position information, movement time and sleep time of the target monitoring object, wherein the third physiological parameter information at least comprises first physiological parameter information of the target monitoring object;

The processor is used for controlling the display to display the detailed monitoring information of the target monitoring object in a second display partition, and the processor is used for executing the following operations:

and controlling the display to display the wearing activity information and the third physiological parameter information in a second display partition in a distinguishing mode.

12. The central station of claim 11, wherein the second display section comprises a first region and a second region; the processor is configured to control the display to display the wearing activity information and the third physiological parameter information in a second display area in a distinguishing mode, and the processor is configured to:

And controlling the display to display the wearing activity information in the first area and display the third physiological parameter information in the second area.

13. The central station of claim 12, wherein the central station,

The first area and the second area are arranged up and down or are arranged left and right for display.

14. The central station of claim 12, wherein any of the wearable activity information is a target information item, the processor further performing the operations of:

in the case of receiving an operation instruction for the target information item, controlling the display to display detailed information of the target information item in a third area, the third area covering the first area and the third area being the same as the first area;

or in the case of receiving an operation instruction for the target information item, controlling the display to display part of the information in the wearing activity information in the first area, and displaying the detailed information of the target information item in the first area; or alternatively

And controlling the display not to display the wearing activity information in the first area and displaying detailed information of the target information item in the first area when an operation instruction for the target information item is received.

15. The central station of claim 1, wherein the posture information includes at least one of sleep state information, lying state information, movement state information, fall state information, and standing state information; different gesture information is displayed in different icon and/or text forms.

16. The central station of claim 1, wherein the gesture information comprises normal gesture information and abnormal gesture information, the abnormal gesture information corresponding to a higher cue intensity than the normal gesture information corresponding to a cue intensity.

17. The central station of claim 1, wherein the processor further performs the following operations:

If the posture information is falling state information, controlling the display to display prompt information corresponding to the falling state information;

The prompt information comprises icons and/or characters corresponding to the falling state information and real-time position information of the first monitoring object.

18. An information display method, characterized by being applied to a central station which wirelessly communicates with a mobile monitoring device attached to a first monitoring object or with a mobile monitoring device attached to a first monitoring object through other forwarding devices; the method comprises the following steps:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object, wherein the first monitoring information of the first monitoring object comprises first physiological parameter information and posture information determined by mobile monitoring equipment;

displaying N first display partitions and the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

The first physiological parameter information is obtained through processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained through processing at least one non-physiological parameter signal acquired by the mobile monitoring device.

19. A central station, the central station comprising: a communication unit, a processor, a memory and a display;

the communication unit is in wireless communication with a mobile monitoring device attached to the first monitoring object or through other forwarding devices;

the communication unit is used for receiving at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device and/or physiological parameter information obtained by processing the at least one physiological parameter signal of the first monitoring object;

the communication unit is further used for receiving at least one non-physiological parameter signal acquired by the mobile monitoring device and/or at least wearing activity information obtained by processing the at least one non-physiological parameter signal;

the display interface of the display comprises N first display partitions; n is a positive integer greater than 1;

The memory is configured to store executable instructions, and the processor is configured to execute the executable instructions such that the processor performs the following operations:

acquiring first monitoring information of each first monitoring object in at least one first monitoring object;

the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode;

In the case that the mobile monitoring device is determined to operate in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information;

in the case that the mobile monitoring device is determined to operate in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

Controlling the display to display the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition;

Wherein the mobile monitoring device operates in the first monitoring mode at a lower frequency than in the second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode, and the data transmission frequency of the mobile monitoring device in the first monitoring mode is lower than that of the mobile monitoring device in the second monitoring mode.

20. The central station of claim 19, wherein upon determining that the mobile monitoring device is operating in the second monitoring mode, abnormal pose information is received from the mobile monitoring device, the processor further performs the following:

And displaying the abnormal gesture information in a first display partition corresponding to the first monitoring object.

21. The central station of claim 19, wherein the first monitoring information of the first monitoring object further comprises location information of the first monitoring object if the mobile monitoring device is determined to operate in a first monitoring mode and/or if the mobile monitoring device is determined to operate in a second monitoring mode.

22. The central station of claim 19, wherein the central station,

When the mobile monitoring device works in the first monitoring mode, the acquired first physiological parameter information comprises numerical physiological parameter information and waveform physiological parameter information, and when the mobile device works in the second monitoring mode, the acquired first physiological parameter information at least comprises numerical physiological parameter information.

23. The central station of claim 19, wherein the display refresh frequency of the first monitored information when the mobile monitoring device is operating in a first monitored mode is less than the display refresh frequency of the first monitored information when the mobile monitoring device is operating in a second monitored mode.

24. The central station of claim 19, wherein the central station,

The communication unit is further for wireless communication with a bedside monitoring device attached to a second monitoring subject;

the communication unit is used for receiving at least one physiological parameter signal of the second monitoring object acquired by the bedside monitoring device or physiological parameter information obtained by processing the at least one physiological parameter signal;

The processor also performs the following: acquiring second monitoring information of each second monitoring object in at least one second monitoring object, wherein the second monitoring information of the second monitoring object comprises second physiological parameter information determined by the bedside monitoring equipment;

and controlling the display to display the second monitoring information of each second monitoring object, wherein the second monitoring information of one second monitoring object is displayed in one first display partition.

25. The central station of claim 19, wherein the processor further performs the following operations:

Acquiring a first number of current monitoring objects, and updating a second number of first display partitions and/or a first area of each first display partition in a current display interface according to the first number;

The number of first display sections satisfies at least one of the following conditions: the second number is not less than the first number or a first number threshold; the second number is not greater than a second number threshold;

And/or, the area of the first display partition meets at least one of the following conditions: the first area is not less than a first area threshold; the first area is not greater than a second area threshold.

26. The central station of claim 19, wherein the processor further performs the following operations:

Controlling a display to display a target operation control of a target monitoring object in a target first display partition of the target monitoring object; the target monitoring object is any one of the at least one first monitoring object;

Associating a target first display partition of the target monitoring object with detail monitoring information of the target monitoring object;

and receiving interactive operation of a user on the target operation control, and controlling the display to display detail monitoring information of the target monitoring object corresponding to the target first display partition on the display interface, wherein the detail monitoring information at least comprises the first monitoring information.

27. The central station of claim 26, wherein the processor is configured to control the display to display, on the display interface, detailed monitoring information of the target monitoring object corresponding to the target first display section, the following operations:

Controlling the display to display the detail monitoring information of the target monitoring object in a second display partition;

wherein each first display section is reduced from a first area to a second area with the second display section displayed on the display interface; and/or

And the total area of the first display partition displayed on the display interface is smaller than the area of the second display partition.

28. The central station of claim 27, wherein the display modes of the second display section include a third display mode and a fourth display mode; when the mobile monitoring device works in a first monitoring mode, the third display mode is adopted to display the detail monitoring information of the target monitoring object, and when the mobile monitoring device works in a second monitoring mode, the fourth display mode is adopted to display the detail monitoring information of the target monitoring object;

The third display mode and the fourth display mode are different from each other in at least one of the following:

in a preset time period, the amount of the detail monitoring information of the target monitoring object acquired in the third display mode is smaller than that of the detail monitoring information of the target monitoring object acquired in the fourth display mode;

And the display refresh frequency of at least one type of information in the detail monitoring information of the target monitoring object obtained in the third display mode is smaller than the display refresh frequency of the detail monitoring information of the target monitoring object obtained in the fourth display mode.

29. The central station of claim 28, wherein the detailed monitoring information of the target monitoring object when the mobile monitoring device is operating in the first monitoring mode comprises: the wearable activity information and the third physiological parameter information of the target monitoring object; the wearing activity information includes: at least one of gesture information, position information, movement time and sleep time of the target monitoring object, wherein the third physiological parameter information at least comprises first physiological parameter information of the target monitoring object;

The processor is used for controlling the display to display the detailed monitoring information of the target monitoring object in a second display partition, and the processor is used for executing the following operations:

and controlling the display to display the wearing activity information and the third physiological parameter information in a second display partition in a distinguishing mode.

30. The central station of claim 29, wherein the second display section comprises a first region and a second region; the processor is configured to control the display to display the wearing activity information and the third physiological parameter information in a second display area in a distinguishing mode, and the processor is configured to:

And controlling the display to display the wearing activity information in the first area and display the third physiological parameter information in the second area.

31. The central station of claim 30, wherein the central station,

The first area and the second area are arranged up and down or are arranged left and right for display.

32. The central station of claim 29, wherein the processor further performs the following operations:

When the mobile monitoring equipment works in a first monitoring mode, acquiring early warning state evaluation of the target monitoring object, and controlling the display to display the early warning state evaluation in the second display partition; the early warning state evaluation is determined at least according to the at least one physiological parameter signal acquired by the mobile monitoring device, or the early warning state evaluation is processed at least according to the at least one physiological parameter signal by the mobile monitoring device.

33. The central station of claim 29, wherein the processor further performs the following operations:

When the mobile monitoring equipment works in a first monitoring mode, controlling the display to display a countdown identifier in the second display partition; the countdown identifier at least comprises a countdown value, wherein the countdown identifier is used for indicating the display mode of the second display partition to switch from the current display mode to another display mode after the duration indicated by the countdown value; or the countdown identifier is used for indicating the time of the second display partition to refresh the detail monitoring information next time in the current display mode.

34. The central station of claim 30, wherein any of the wearable activity information is a target information item, the processor further performing the operations of:

in the case of receiving an operation instruction for the target information item, controlling the display to display detailed information of the target information item in a third area, the third area covering the first area and the third area being the same as the first area;

or in the case of receiving an operation instruction for the target information item, controlling the display to display part of the information in the wearing activity information in the first area, and displaying the detailed information of the target information item in the first area; or alternatively

And controlling the display not to display the wearing activity information in the first area and displaying detailed information of the target information item in the first area when an operation instruction for the target information item is received.

35. The central station of claim 27, wherein the processor further performs the following operations:

When the monitoring mode of the mobile monitoring device is the second monitoring mode, if the posture information of the target monitoring object is falling state information, controlling the display to display prompt information corresponding to the falling state information in the second display partition;

The prompt information comprises icons and/or characters corresponding to the falling state information and real-time position information of the target monitoring object.

36. An information display method, characterized by being applied to a central station, the central station wirelessly communicating with a mobile monitoring device attached to a first monitoring object or wirelessly communicating with a mobile monitoring device attached to a first monitoring object through other forwarding devices, the mobile monitoring device operating in a first monitoring mode at a lower frequency than in a second monitoring mode; the mobile monitoring device operating in the first monitoring mode at a lower frequency than in the second monitoring mode comprises at least one of: the acquisition frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode, and the data transmission frequency of the mobile monitoring equipment in the first monitoring mode is lower than that of the mobile monitoring equipment in the second monitoring mode; the method comprises the following steps:

Acquiring first monitoring information of each first monitoring object in at least one first monitoring object; the monitoring mode of the mobile monitoring device comprises a first monitoring mode and a second monitoring mode; in the case that the mobile monitoring device is determined to operate in the first monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information and posture information; in the case that the mobile monitoring device is determined to operate in the second monitoring mode, the acquired first monitoring information of the first monitoring object includes: first physiological parameter information;

Displaying N first display partitions and the first monitoring information of each first monitoring object, wherein the first monitoring information of one first monitoring object is displayed in one first display partition; n is a positive integer greater than 1;

The first physiological parameter information is obtained through processing at least one physiological parameter signal of the first monitoring object acquired by the mobile monitoring device, and the posture information is obtained through processing at least one non-physiological parameter signal acquired by the mobile monitoring device.