CN115120198A - Monitoring method, system, device and electronic equipment - Google Patents

Abstract

The embodiment of the invention provides a monitoring method, a monitoring system, a monitoring device and electronic equipment, and relates to the technical field of monitoring. The method is applied to data processing equipment in a monitoring system, and the system also comprises at least one monitoring equipment group, wherein each monitoring equipment group comprises at least one monitoring equipment and is positioned in the same monitoring area. The method comprises the following steps: acquiring a designated corresponding relation sent by each monitoring device; determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; displaying a time image corresponding to at least one region identifier; or outputting the time image data corresponding to the at least one area identifier to the display device, so that the display device displays the time image corresponding to the at least one area identifier. Compared with the prior art, the scheme provided by the embodiment of the invention is applied to improve the intuitiveness of the monitoring information.

Description

Monitoring method, system, device and electronic equipment

Technical Field

The present invention relates to the field of monitoring technologies, and in particular, to a monitoring method, a monitoring system, a monitoring device, and an electronic apparatus.

Background

In order to realize real-time nursing of special people, such as the elderly and pregnant women, a large number of nursing staff are needed to nurse a nursed subject. However, the number of caregivers is often in a state of short supply and short demand.

In the related art, a plurality of different types of monitoring devices are generally used to monitor data of vital signs, living environments, and the like of a subject to be monitored, for example, a respiration monitoring sensor, a heart rate monitoring sensor, a blood pressure monitoring sensor, a bed-out monitoring sensor, a smoke monitoring sensor, and the like, thereby realizing the monitoring of the subject to be monitored. However, when a caregiver nurses a nursed subject through information fed back by each monitoring device, the caregiver may fail to visually see the monitoring information sent by each monitoring device due to a large number of types and amounts of the monitoring information, which may cause a missed judgment and a misjudgment of abnormal conditions due to visual fatigue, and further may cause a more serious injury to the nursed subject due to untimely nursing by the caregiver when the nursed subject has an unexpected condition.

Disclosure of Invention

The embodiment of the invention aims to provide a monitoring method, a monitoring system, a monitoring device and electronic equipment so as to improve the intuitiveness of monitoring information. The specific technical scheme is as follows:

in a first aspect, an embodiment of the present invention provides a monitoring method, which is applied to a data processing device in a monitoring system, where the system further includes: at least one monitoring device group, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area; the method comprises the following steps:

acquiring a designated corresponding relation sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identification of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on a specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

Optionally, in a specific implementation manner, the method further includes:

for any monitoring device, determining the content of the monitoring result corresponding to the monitoring device in a specified time period based on the continuously received monitoring result in the two specified corresponding relations sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

determining a feature identifier of the specified time period corresponding to the area identifier of the monitored area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

Optionally, in a specific implementation manner, the method further includes:

according to the appointed period, storing the time image data corresponding to each area identification generated in the time range corresponding to each appointed period;

acquiring an image output instruction at a target time; the target time image output instruction comprises a target area identifier and a target time range;

extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data;

and displaying a target time image according to the target time image data, or outputting the target time image data to the display equipment so that the display equipment displays the target time image.

Optionally, in a specific implementation manner, each monitoring device group further includes an image acquisition device, where the image acquisition device includes an infrared image acquisition device and/or a color image acquisition device; the method further comprises the following steps:

acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is located;

when the area identification corresponding to the equipment identification in any appointed corresponding relation is the same as the first area identification and the monitoring result representation in the appointed corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the appointed corresponding relation is correct or not according to the first detection result.

Optionally, in a specific implementation manner, the method further includes:

when the monitoring result representation in any specified corresponding relation is abnormal, determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range;

wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

Optionally, in a specific implementation manner, the method further includes:

and when the monitoring result in the specified corresponding relation is wrong, determining a corrected monitoring result corresponding to the specified corresponding relation, and correcting the characteristic identifier of the monitoring result at the moment corresponding to the specified area identifier corresponding to the equipment identifier monitoring the monitoring result according to the corrected monitoring result.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

In a second aspect, an embodiment of the present invention provides a monitoring system, where the system further includes: at least one monitoring device group, each monitoring device group comprising at least one monitoring device and being located in the same monitoring area.

Each monitoring device is used for monitoring a specified type of a specified object in the monitoring area; when the monitoring result meets the preset condition corresponding to the monitoring equipment, sending an appointed corresponding relation of the monitoring result, the moment when the monitoring result is monitored and the equipment identification of the monitoring equipment to the data processing equipment;

the data processing equipment is used for receiving the designated corresponding relation sent by each monitoring equipment; determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; the monitoring device comprises a monitoring device, a monitoring image data acquisition unit and a monitoring image data acquisition unit, wherein the monitoring device is used for monitoring the monitoring result of a monitoring area, the monitoring device is used for monitoring the monitoring result of the monitoring area, and the monitoring device is used for monitoring the monitoring result of the monitoring area.

Optionally, in a specific implementation manner, the data processing device is further configured to determine, for any monitoring device, content of a monitoring result corresponding to the monitoring device in a specified time period based on continuously received monitoring results in two specified corresponding relationships sent by the monitoring device; determining a feature identifier of the specified time period corresponding to the area identifier of the monitoring area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; wherein the specified time period is: in the time range between the moments in the two specified corresponding relations, the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period; and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

Optionally, in a specific implementation manner, the data processing device is further configured to store, according to a specified period, time image data, to which a specified identifier is added, corresponding to each region identifier generated in a time range corresponding to each specified period; acquiring an image output instruction at a target time; extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data; displaying a target time image according to the target time image data, or outputting the target time image data to the display device so that the display device displays the target time image; and the target time image output instruction comprises a target area identifier and a target time range.

Optionally, in a specific implementation manner, each monitoring device group further includes an image acquisition device, where the image acquisition device includes an infrared image acquisition device and/or a color image acquisition device;

the image acquisition device is configured to acquire an image of the monitored area, and send the acquired image and a first area identifier of the monitored area to the data processing device 103;

the data processing equipment is also used for receiving an image acquired by acquiring the image in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is positioned; when the area identification corresponding to the equipment identification in any appointed corresponding relation is the same as the first area identification and the monitoring result representation in the appointed corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the appointed corresponding relation is correct or not according to the first detection result.

Optionally, in a specific implementation manner, the data processing device is further configured to determine, when the monitoring result representation in any one of the designated corresponding relationships is abnormal, whether the monitoring result in the designated corresponding relationship is correct based on the designated monitoring result received within a designated time range; wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

Optionally, in a specific implementation manner, the data processing device is further configured to determine, when the monitoring result in the specified corresponding relationship is incorrect, a corrected monitoring result corresponding to the specified corresponding relationship, and correct, according to the corrected monitoring result, the feature identifier of the time at which the monitoring result is monitored, the feature identifier corresponding to the specified area identifier corresponding to the device identifier in which the monitoring result is monitored, and corresponding to the specified area identifier in which the monitoring result is monitored.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

In a third aspect, an embodiment of the present invention further provides a monitoring device, which is applied to a data processing device in a monitoring system, where the system further includes: the monitoring system comprises at least one monitoring device group, at least one monitoring device group and a monitoring device, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area; the device comprises:

the relationship acquisition module is used for acquiring the designated corresponding relationship sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identification of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on a specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

the characteristic identification determining module is used for determining the characteristic identification of each monitoring result time corresponding to the area identification for at least one area identification according to the corresponding relation between the equipment identification and the area identification and each designated corresponding relation which are established in advance; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

the time image display module is used for displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

Optionally, in a specific implementation manner, the apparatus further includes:

the system comprises a specified time period characteristic identification determining module, a monitoring device and a monitoring device, wherein the specified time period characteristic identification determining module is used for determining the content of a monitoring result corresponding to any monitoring device in a specified time period based on the continuously received monitoring result in two specified corresponding relations sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

determining a feature identifier of the specified time period corresponding to the area identifier of the monitoring area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

Optionally, in a specific implementation manner, the apparatus further includes:

the time image access module is used for storing time image data corresponding to each area identifier generated in a time range corresponding to each appointed period according to the appointed period;

acquiring an image output instruction at a target time; the target time image output instruction comprises a target area identifier and a target time range;

extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data;

and displaying a target time image according to the target time image data, or outputting the target time image data to the display equipment so that the display equipment displays the target time image.

Optionally, in a specific implementation manner, each monitoring device group further includes an image acquisition device, where the image acquisition device includes an infrared image acquisition device and/or a color image acquisition device; the device further comprises:

the first monitoring result judging module is used for acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is positioned;

and when the area identification corresponding to the equipment identification in any specified corresponding relation is the same as the first area identification and the monitoring result representation in the specified corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the specified corresponding relation is correct or not according to the first detection result.

Optionally, in a specific implementation manner, the apparatus further includes:

the second monitoring result judging module is used for determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range when the monitoring result in any specified corresponding relation is abnormal; wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

Optionally, in a specific implementation manner, the apparatus further includes:

and the identification correction module is used for determining a corrected monitoring result corresponding to the specified corresponding relation when the monitoring result in the specified corresponding relation is wrong, and correcting the characteristic identification of the monitoring result at the moment when the monitoring result is monitored, which corresponds to the specified area identification corresponding to the equipment identification monitoring the monitoring result, according to the corrected monitoring result.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

In a fourth aspect, an embodiment of the present invention provides an electronic device, including a processor and a memory;

a memory for storing a computer program;

a processor, configured to implement the steps of any one of the monitoring methods provided in the first aspect when executing the program stored in the memory.

In a fifth aspect, an embodiment of the present invention provides a computer-readable storage medium, in which a computer program is stored, and the computer program, when executed by a processor, implements the steps of any one of the monitoring methods provided in the first aspect.

In a sixth aspect, an embodiment of the present invention provides a computer program product containing instructions, which when run on a computer, causes the computer to perform the steps of any of the monitoring methods provided in the first aspect.

The embodiment of the invention has the following beneficial effects:

as can be seen from the above, by applying the solution provided by the embodiment of the present invention, a monitoring system including a data processing device and at least one monitoring device group may be provided, where each monitoring device group includes at least one monitoring device and is located in the same monitoring area. Each monitoring device carries out specified type monitoring on specified objects in the monitoring area, and when the obtained monitoring result meets the preset condition corresponding to the monitoring device, the specified corresponding relation of the monitoring result, the moment when the monitoring result is monitored and the device identification of the monitoring device is sent to the data processing device. The data processing device may pre-establish a correspondence between the device identifier and the area identifier, and thus, after acquiring the designated correspondence sent by each monitoring device, the data processing device may determine, according to the pre-established correspondence between the device identifier and the area identifier, the area identifier corresponding to the device identifier in each designated correspondence, thereby determining, for each area identifier, each designated correspondence corresponding to the area identifier, and then, for each designated correspondence, determine, in the designated correspondence, a time at which the monitoring result is monitored and a content of the monitoring result, and further, may determine, based on the content of the monitoring result, a feature identifier corresponding to the time at which the monitoring result is monitored, and further, may display, in a time image corresponding to the area identifier, a feature represented by the determined feature identifier at the time at which the monitoring result is monitored, or outputting time image data corresponding to the area identifier to a display device so that the display device displays the time image, wherein the time image data includes characteristic identifiers of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

Based on this, by applying the scheme provided by the embodiment of the invention, the monitoring condition in each monitoring area can be displayed by utilizing the time image displaying the characteristic represented by the characteristic identifier, so that a nursing person can clearly and intuitively nurse each monitoring area when nursing a nursed object through the information fed back by each monitoring device, the intuitiveness of the monitoring information is improved, the situations of missing judgment, erroneous judgment and the like of abnormal situations caused by visual fatigue are avoided, and the nursing effect of the nursed object is further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other embodiments can be obtained by referring to these drawings.

Fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a monitoring method according to an embodiment of the present invention;

FIG. 3 is a schematic view of a timeline with color indicators added;

FIG. 4 is a schematic view of another timeline with color indicators added;

FIG. 5 is a schematic diagram of a predetermined time axis with color markers added;

FIG. 6 is a schematic structural diagram of a monitoring device according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of another electronic device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived from the embodiments given herein by one of ordinary skill in the art, are within the scope of the invention.

In the related art, a plurality of different kinds of monitoring devices are generally used to monitor data of vital signs, living environment, and the like of a subject to be monitored. However, when a caregiver nurses a supervised object through information fed back by each monitoring device, the caregiver may fail to make a judgment, a misjudgment, or the like of an abnormal situation due to visual fatigue because of a large number and types of monitoring information sent by each monitoring device, and further, may cause a more serious injury to the supervised object due to untimely nursing by the caregiver when an unexpected situation occurs to the supervised object.

In order to solve the above technical problem, an embodiment of the present invention provides a monitoring method, which is applied to a data processing device in a monitoring system, where the monitoring system further includes at least one monitoring device group, and each monitoring device group includes at least one monitoring device and is located in a same monitoring area.

For example, fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention, and as shown in fig. 1, the monitoring system may include: a data processing device 103 and at least one monitoring device group 101, each monitoring device group comprising at least one monitoring device 102 and being located in the same monitoring area.

The method is suitable for various application scenes for monitoring. For example, each room of an aged care home is monitored, each ward of a hospital is monitored, and the like. Based on this, the embodiment of the present invention does not limit the application scenario of the method.

The monitoring device may be a device for monitoring a specified type of a specified object in the monitored area, for example, the monitoring device may comprise a sensor for monitoring and may also comprise a radar for monitoring.

Illustratively, the monitoring device may include: one or more devices such as a respiration sensor, a heart rate sensor, a blood pressure sensor, a smoke sensor, a fall sensor, a respiration monitoring radar, a heart rate monitoring radar, a smoke monitoring radar, and a fall monitoring radar.

The monitoring devices of different types can monitor different objects, and the monitoring devices of different types can monitor the designated objects in the monitoring area, so that each monitoring device performs the designated type monitoring on the designated objects; wherein, the monitoring equipment, the specified object and the specified type of monitoring are corresponding to each other.

For example, a respiratory monitoring device for monitoring respiratory rate, a heart rate monitoring device for monitoring heart rate, a blood pressure monitoring device for monitoring blood pressure, a fall monitoring device for monitoring whether a person falls, and the like.

The data processing device may be various electronic devices that can perform information processing and information interaction, such as a server, a desktop computer, a notebook computer, and the like. Based on this, the embodiment of the present invention does not limit the execution subject of the method.

The monitoring method provided by the embodiment of the invention is applied to data processing equipment in a monitoring system, the monitoring system further comprises at least one monitoring equipment group, each monitoring equipment group comprises at least one monitoring equipment and is positioned in the same monitoring area, and the monitoring method can comprise the following steps:

acquiring a designated corresponding relation sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identification of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on a specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; and displaying the characteristic represented by the characteristic identifier of the moment corresponding to the area identifier corresponding to the time image at each moment of monitoring the monitoring result in any time image, wherein any time image data comprises the characteristic identifier of each moment of monitoring the monitoring result corresponding to the area identifier corresponding to the time image data.

As can be seen from the above, by applying the solution provided by the embodiment of the present invention, a monitoring system including a data processing device and at least one monitoring device group may be provided, where each monitoring device group includes at least one monitoring device and is located in the same monitoring area. Each monitoring device carries out specified type monitoring on specified objects in the monitoring area, and when the obtained monitoring result meets the preset condition corresponding to the monitoring device, the specified corresponding relation of the monitoring result, the moment when the monitoring result is monitored and the device identification of the monitoring device is sent to the data processing device. The data processing device may pre-establish a correspondence relationship between the device identifier and the area identifier, and thus, after acquiring the designated correspondence relationship sent by each monitoring device, the data processing device may determine the area identifier corresponding to the device identifier in each designated correspondence relationship according to the pre-established correspondence relationship between the device identifier and the area identifier, thereby determining each designated correspondence relationship corresponding to the area identifier for each area identifier, and then, for each designated correspondence relationship, determining a time at which the monitoring result is monitored and a content of the monitoring result in the designated correspondence relationship, and further, determining a feature identifier corresponding to a time at which the monitoring result is monitored based on the content of the monitoring result, and further, displaying a feature represented by the determined feature identifier at the time at each time at which the monitoring result is monitored in a time image corresponding to the area identifier, or outputting time image data corresponding to the area identifier to a display device so that the display device displays the time image, wherein the time image data includes characteristic identifiers of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

Based on this, by applying the scheme provided by the embodiment of the invention, the monitoring condition in each monitoring area can be displayed by utilizing the time image displaying the characteristic represented by the characteristic identifier, so that a nursing staff can clearly and intuitively nurse each monitoring area when nursing a nursed object through the information fed back by each monitoring device, the intuitiveness of the monitoring information is improved, and the situations of missing judgment, erroneous judgment and the like of abnormal situations caused by visual fatigue are avoided, thereby further. The nursing effect on the nursed object is improved.

Hereinafter, a monitoring method provided by an embodiment of the present invention will be specifically described with reference to the accompanying drawings.

Fig. 2 is a schematic flow chart of a monitoring method according to an embodiment of the present invention, the monitoring method is applied to a data processing device in a monitoring system, the monitoring system further includes at least one monitoring device group, each monitoring device group includes at least one monitoring device and is located in the same monitoring area, as shown in fig. 2, the method includes the following steps S201 to S203.

S201: acquiring a designated corresponding relation sent by each monitoring device;

the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identifier of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on the specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment.

When the monitoring system is used for monitoring the monitoring areas, the monitoring area corresponds to one monitoring equipment group for each monitoring area, so that the monitoring area is the monitoring area where each monitoring equipment in the corresponding monitoring equipment group is located, and each monitoring equipment can monitor the specified object in the monitoring area in a specified type according to the monitoring function of the monitoring equipment.

For example, each monitoring area may be a room, a set of rooms including a plurality of rooms, and the like.

Each monitoring device has a preset monitoring frequency, so that the monitoring device can monitor a specified type of a specified object appearing in a monitored area according to the monitoring frequency of the monitoring device.

For example, the monitoring frequency of a fall sensor is u, and the monitoring area in which the fall sensor is located is a living room. Therefore, the falling sensor monitors whether the specified object in the living room falls or not according to the monitoring frequency u, and a monitoring result is obtained.

Therefore, when each monitoring device monitors a specified object in the monitoring area in a specified type, each monitoring result can be obtained. Then, for each monitoring result, the monitoring device may determine whether the monitoring result satisfies a preset condition corresponding to the monitoring device, and if so, the monitoring device may establish an assigned correspondence relationship between the monitoring result, a time at which the monitoring result is monitored, and a device identifier of the monitoring device, and send the established assigned correspondence relationship to the data processing device.

In some cases, some monitoring devices may send the specified correspondence to the data processing device when the monitoring result indicates that there is an abnormality.

For example, when the fall sensor monitors that a person falls in the monitored area, it can be determined that an abnormality exists, and thus, an appointed corresponding relationship between a monitoring result about the falling of the person, the time of monitoring the monitoring result and the device identifier of the fall sensor can be sent to the data processing device; if the fall sensor monitors that no person falls in the monitoring area, it can be determined that no abnormality exists, and the specified corresponding relation between the monitoring result about the falling of the person, the time for monitoring the monitoring result and the device identification of the fall sensor is not sent to the data processing device.

In some cases, some monitoring devices send the specified corresponding relationship to the data processing device each time a monitoring result is monitored.

For example, each time the bed exit sensor obtains a monitoring result, the bed exit sensor sends a specified correspondence relationship between the monitoring result, the time when the monitoring result is monitored, and the device identifier of the bed exit sensor to the data processing device.

Optionally, the data processing device may store the designated correspondence sent by each monitoring device.

For example, the data processing device may store the designated corresponding relationship sent by each monitoring device according to a preset period; in order to save the storage space of the data processing device, the preset storage period may be greater than a period corresponding to the monitoring frequency of each monitoring device.

S202: determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship;

and any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any monitoring result time.

The data processing device may pre-establish a correspondence relationship between the device identifier and the area identifier, and thus, when the data processing device acquires the designated correspondence relationship sent by the monitoring device, the data processing device may acquire, for each designated correspondence relationship, the device identifier of the monitoring device that sent the designated correspondence relationship, and may further search, in the correspondence relationship between the device identifier and the area identifier, the area identifier corresponding to the device identifier using the acquired device identifier of the monitoring device, so that the monitoring area to which the monitoring device belongs may be determined.

Therefore, after receiving the specified corresponding relationship between the monitoring result, the time when the monitoring result is monitored, and the device identifier of the monitoring device, which is sent by the monitoring device, the data processing device may determine, for each specified corresponding relationship, the region identifier corresponding to the device identifier in the specified corresponding relationship, by using the device identifier in the specified corresponding relationship, in the pre-established corresponding relationship between the device identifier and the region identifier.

In this way, after the data processing device obtains the monitoring result in the specified corresponding relationship, the data processing device can search the feature identifier corresponding to the monitoring result by using the obtained monitoring result in the specified corresponding relationship based on the content of the monitoring result.

Thus, for each designated corresponding relationship, the feature identifier of each monitored result corresponding to each area identifier can be determined.

The characteristic mark may be a color mark or a pattern mark. The embodiment of the present invention is not particularly limited.

Optionally, the content of the monitoring result in each designated corresponding relationship is different, so that the feature identifier corresponding to the time in each designated corresponding relationship may be different.

For example, when the feature identifier is a color identifier, and the monitoring result of the designated correspondence indicates that no person is present in the bed, it is determined that the color identifier at the time in the designated correspondence is the color identifier corresponding to the monitoring result: white; when the monitoring result in the designated corresponding relation represents that a person falls down, determining the color identifier at the moment in the designated corresponding relation as the color identifier corresponding to the monitoring result: red, etc.

Optionally, in a specific implementation manner, the monitoring method provided in the embodiment of the present invention may further include the following steps 11 to 12:

step 11: for any monitoring device, determining the content of the monitoring result corresponding to the monitoring device in a specified time period based on the continuously received monitoring result in the two specified corresponding relations sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

step 12: determining a characteristic identifier of a specified time period corresponding to an area identifier of a monitoring area to which the monitoring equipment belongs according to the content of a monitoring result corresponding to the monitoring equipment in the specified time period;

the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring equipment belongs.

Specifically, the features represented by the feature identifier of the specified time period may be displayed for the specified time period in the time image on the data processing device, or the data processing device may output the time image data to the display device, so that the features represented by the feature identifier of the specified time period may be displayed for the specified time period in the time image on the display device.

In this specific implementation manner, the data processing device may determine, for any monitoring device, based on the continuously received monitoring result in the two specified correspondences sent by the monitoring device, the content of the monitoring result corresponding to the specified time period of the time range between the moments in the two specified correspondences, so as to determine the feature identifier corresponding to the specified time period according to the determined content of the monitoring result, and further, may display the feature represented by the feature identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

For example, the feature identifier is a color identifier. The monitoring area which the bed/bed leaving sensor belongs to is monitored, at 9 points, the bed/bed leaving sensor sends monitoring that people are in the bed to the data processing equipment, at 10 points, the bed/bed leaving sensor sends monitoring that no people are in the bed to the data processing equipment, and according to monitoring results sent by the bed/bed leaving sensor at 9 points and 10 points, the people in the bed in a time period from 9 points to 10 points can be determined, so that color identification from 9 points to 10 points can be determined, and the determined color identification is added to the time period from 9 points to 10 points on a time axis corresponding to the area identification of the monitoring area which the bed/bed leaving sensor belongs to.

S203: displaying a time image corresponding to the at least one area identifier, or outputting time image data corresponding to the at least one area identifier to display equipment, so that the display equipment displays the time image corresponding to the at least one area identifier;

the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

After determining the time characteristic identifier of each monitored result corresponding to at least one area identifier, the data processing device can display a time image showing the characteristic represented by the characteristic identifier of each monitored result at the time corresponding to the corresponding area identifier.

If the monitoring system further includes a display device, the data processing device may send, to the display device, time image data corresponding to the at least one area identifier and including a feature identifier of each monitored time corresponding to the area identifier corresponding to the time image data, so that the display device displays a time image corresponding to the at least one area identifier, which is convenient for a caregiver to nurse a supervised object, and thus, a nursing effect on the supervised object is improved.

The display device may be an electronic device for displaying data, such as a display screen, a desktop computer, a notebook computer, and the like.

Optionally, the time image may be a time axis, or may also be an annular graph or the like for representing a time period, which is not limited in the embodiment of the present invention.

The time images of the area identifications can be drawn into the same image or different images.

For example, a two-dimensional coordinate system with a horizontal axis as a time axis and a vertical axis as a region identifier may be plotted, as shown in fig. 3, which is a time axis with a color identifier added corresponding to the monitored region with a region identifier of 1. As shown in fig. 3, in the monitoring area with the area identifier of 1, the bed sensor is separated from 12 hours 00 to 13 hours 36 to 14 hours 59 to monitor that no person is in the bed, and the turnover sensor monitors that the designated object is turned over at 13 hours 45, 13 hours 53, 14 hours 13, 14 hours 35 and 14 hours 59 respectively during the period that the person is in the bed. Thus, the caregiver can attend to the care area identified as 1 in accordance with fig. 3.

For example, a two-dimensional coordinate system with the horizontal axis as the preset time axis and the vertical axis as the region identifier may be drawn, as shown in fig. 4, the preset time axis with the color identifier added is corresponding to the monitored region with the region identifier 1 and the monitored region with the region identifier 2. As shown in fig. 4, the color bar located above is the area with the color identifier added to the monitoring area with the area identifier 2 in the preset time axis, and the color bar located below is the area with the color identifier added to the monitoring area with the area identifier 1 in the preset time axis. As shown in fig. 4, in the monitored area with area number 1, the monitoring results monitored by the monitoring device group are divided from 12 hours to 14 hours 59. It can be seen from the coordinate system that the 12 th 00 to 13 th 36 separated bed sensor detects that no person is on the bed, the 13 th 36 th to 14 th 59 th bed sensor detects that a person is on the bed, and during the period that a person is on the bed, the turnover sensor detects that the specified object is turned over at the 13 th 45 th, 13 th 53 th, 14 th 13 th, 14 th 35 th and 14 th 59 th bed sensors, respectively. In the monitored area with area identification 2, the monitoring results monitored by the monitoring device group 101 are divided from 12 hours to 14 hours 59. It can be seen from the coordinate system that the bed sensor of the separation bed detects that there is no person in the bed from 12 hours 00 to 13 hours 01 to 14 hours 59, and the bed sensor detects that there is a person in the bed during the period of the person in the bed, and the turnover sensor detects that the specified object is turned over at 13 hours 40 and 14 hours 24, respectively. Like this, draw the time axis that a plurality of regional identifications correspond in same time axis of predetermineeing, improve guardianship information's intuitionistic nature, the nursing of the nursing staff of being convenient for to a plurality of guardianship regions to, improve the nurse effect to the object of being nursed.

Optionally, since one monitoring device group includes at least one monitoring device, for a time axis corresponding to each area identifier, a corresponding feature identifier may be added to the area corresponding to each monitoring device, where the feature identifier includes a color identifier or a pattern identifier.

For example, a two-dimensional coordinate system with a horizontal axis as a time axis and a vertical axis as a region identifier may be plotted for each region identifier, as shown in fig. 5, a time axis with a color identifier added is corresponding to a monitored region of one region identifier 1. According to the sequence from top to bottom, the color bar in the first row is the data monitored by the bed sensor in the monitored area with the area identifier 1, the data are divided into 36 minutes from 12 hours 00 to 13 hours and 35 minutes from 13 hours to 14 hours, and people are monitored by the bed sensor; the color bar in the second row is the data monitored by the bed leaving sensor in the monitored area with the area identification 1, the time from 13 hours 36 to 13 hours 45, the time from 13 hours 53 to 14 hours 13 minutes and the time from 14 hours 35 to 14 hours 59, and the bed leaving sensor monitors that no person is in the bed; the color bar in the third row represents the data monitored by the designated subject sensor in the monitored area of the area identifier 1, the time point 13 is divided into the time point 13, the time point 45 is divided into the time point 13, the time point 53 is divided into the time point 14, the time point 59 is divided into the time point 15, the time point 30 is divided, and no designated subject exists in the monitored area of the area identifier 1. Therefore, nursing staff can nurse the monitoring area with the area mark 1 according to the picture 5, and the intuitiveness of monitoring information is improved.

As can be seen from the above, by applying the scheme provided by the embodiment of the present invention, the monitoring situation in each monitoring area can be displayed by displaying the time image of the feature represented by the feature identifier, so that a caregiver can clearly and intuitively care each monitoring area when caring a care-taken subject through the information fed back by each monitoring device, the intuitiveness of the monitoring information is improved, and the situations of missing judgment, erroneous judgment and the like of abnormal situations due to visual fatigue are avoided, thereby further. The nursing effect on the nursed object is improved.

In some cases, the user needs to know the physical status and the activity status of the object to be cared for in the same time period in different time ranges, compare the physical status and the activity status of the object to be cared for in the same time period in the different time ranges, and adjust the way of caring for the object to be cared for, thereby improving the caring effect for the object to be cared for.

For example, the physical condition and activity of the subject to be cared can be compared between 8 am and 8 pm, and the recovery of the subject to be cared can be known.

Based on this, optionally, in a specific implementation manner, the monitoring method provided in the embodiment of the present invention may further include the following steps 21 to 24:

step 21: according to the appointed period, storing the time image data corresponding to each area identification generated in the time range corresponding to each appointed period;

step 22: acquiring an image output instruction at a target time;

the target time image output instruction comprises a target area identifier and a target time range;

step 23: extracting target time image data which is generated in a target time range and corresponds to the target area identification from the stored time image data;

step 24: and displaying the target time image according to the target time image data, or outputting the target time image data to the display device so that the display device displays the target time image.

In this specific implementation manner, the data processing device may store, in accordance with a preset specified period, time image data corresponding to each of the area identifications generated within a time range corresponding to each of the specified periods.

Wherein, the specified period can be daily, weekly, monthly, etc. The embodiment of the present invention is not particularly limited.

For example, if 0 point to 24 points are taken as the designated period, the data processing apparatus may store the above-mentioned time image data generated in the time range corresponding to each of 0 point to 24 points, in 0 point to 24 points; if 7 days are taken as the specified period, the data processing device may store the above-described time image data generated in the time range corresponding to each 7 days, for 7 days.

That is, the data processing apparatus may store the time image data corresponding to each generated area identification within the time range corresponding to a specified period, every time generation of the time image data corresponding to the time range corresponding to the specified period is completed.

For example, after completing the generation of the time image data corresponding to a time range corresponding to 0 point-24 point, the data processing device may store the time image data corresponding to each region identifier generated in the time range corresponding to 0 point-24 point.

In this way, the data processing apparatus, upon receiving a target time image output instruction including a target area identification and a target time range, can extract target time image data generated within the target time range corresponding to the target area identification from the stored time image data.

If the data processing device can display data, after the target time image data is extracted, the target time image can be displayed based on the target time image data.

If the monitoring system further comprises a display device, the data processing device may output the target time image data to the display device after extracting the target time image data, so that the display device displays the target time image.

Wherein the target time range includes: a time range for a specified period and a time period for each specified period; for example, the target time range may be: from 1 day at 6 months to 5 days at 6 months, 8 am to 8 pm per day.

For example, the specified period is one day, the target area identifier is area identifier 1, and the target time range is: 6 months, 12 days, 7 hours to 22 hours. The data processing device may extract the stored time image data generated every day corresponding to the area identifier 1 from among the stored time image data after receiving the target time image output instruction including the area identifier 1 and the time from 7 th to 22 th of day, thereby extracting the time image data corresponding to the time from 6 th to 12 th of day in each designated cycle, further extracting the target time image data corresponding to the time from 7 th to 22 th of day from the time range corresponding to the time from 0 th to 24 th of day from 6 th to 12 th of day, and displaying the target time image based on the extracted target time image data corresponding to the time from 7 th to 22 th of day from 6 th to 12 th of day, or outputting the target time image data to the display device so that the display device displays the target time image.

When the data processing equipment receives the monitoring result and indicates that the monitoring area is abnormal, in order to prompt the nursing staff that the monitoring area is abnormal, an alarm signal can be sent to the nursing staff through the alarm equipment.

Based on this, optionally, the monitoring system further comprises an alarm device;

when the monitoring result in the received appointed corresponding relation indicates that the abnormity exists, the data processing equipment sends an alarm instruction for prompting that the abnormity exists to the alarm equipment, so that the alarm equipment outputs an alarm signal after receiving the alarm instruction sent by the data processing equipment to prompt that the abnormity exists in the monitoring area of the nursing staff, and therefore the rate of missing judgment of the abnormal condition is reduced, and the nursing effect of the nursed object is improved.

The alarm signal may include one or more of various signals such as a text signal, a sound signal, a vibration signal, and the like. The embodiment of the present invention is not particularly limited.

In some cases, an error may exist in a monitoring result sent by the monitoring device, and therefore, when the data processing device receives that the monitoring result represents that there is an abnormality, it needs to determine whether the abnormality of the monitoring result represents that there is the abnormality is correct information.

Based on this, optionally, in a specific implementation manner, each monitoring device group further includes an acquisition device; the image acquisition equipment comprises infrared image acquisition equipment and/or color image acquisition equipment; the monitoring method provided by the embodiment of the invention also comprises the following steps 31-32:

step 31: acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is located;

step 32: and when the area identifier corresponding to the equipment identifier in any one designated corresponding relation is the same as the first area identifier and the monitoring result representation in the designated corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the designated corresponding relation is correct or not according to the first detection result.

In this specific implementation manner, each monitoring device group further includes an image acquisition device, where the image acquisition device may include an infrared image acquisition device, and/or a color image acquisition device.

When the image acquisition equipment comprises infrared image acquisition equipment, the infrared image acquisition equipment can acquire infrared images of the monitored area, and after each infrared image acquisition image is obtained, the acquired infrared image acquisition image and the first area identifier of the monitored area are sent to the data processing equipment.

The infrared image acquisition device may include a thermal infrared imager and the like. The embodiment of the present invention is not particularly limited.

After receiving the infrared image acquisition image and the first area identifier sent by the infrared image acquisition device, the data processing device can perform image detection on each received infrared image acquisition image when the designated area identifier corresponding to the device identifier in any designated corresponding relationship is the same as the first area identifier and the monitoring result representation in the designated corresponding relationship is abnormal, so that a first detection result can be obtained, and then, whether the monitoring result in the designated corresponding relationship is correct or not can be determined according to the first detection result.

For example, when the data processing device receives a monitoring result W indicating that there is an abnormality, it may perform image detection on each infrared image acquisition image according to the received infrared image acquisition image sent by the infrared image acquisition device and the first area identifier of the monitoring area where the infrared image acquisition device is located, so as to determine whether the monitoring result W is correct according to the obtained first detection result.

The infrared image acquisition device acquires the infrared image acquisition image acquired by the monitoring area, and when the monitoring result in any specified corresponding relation is judged to be correct, the personal privacy of the cared person can be prevented from being revealed, so that the privacy of the personal privacy of the cared person is improved.

When the image acquisition device comprises a color image acquisition device, the color image acquisition device can acquire images of the monitored area, and after each color image is obtained, the acquired color image and the first area identifier of the monitored area are sent to the data processing device.

The color image acquisition device may include a video camera, a smart camera, and the like. The embodiment of the present invention is not particularly limited.

After receiving the color image and the first area identifier sent by the color image acquisition device, the data processing device may perform image detection on each received color image when the specified area identifier corresponding to the device identifier in any specified corresponding relationship is the same as the first area identifier and the monitoring result representation in the specified corresponding relationship is abnormal, so as to obtain a first detection result, and then may determine whether the monitoring result in the specified corresponding relationship is correct according to the first detection result.

In this way, if the monitoring result in the specified correspondence relationship is correct, the target person having abnormality can be confirmed by the color image, so that the nursing staff can timely nurse the object to be cared when the object to be cared is abnormal, and the nursing effect on the object to be cared can be improved.

For example, when the data processing device receives a monitoring result E indicating that there is an abnormality, the data processing device may perform image detection on each image according to the received image sent by the color image acquisition device and the first area identifier of the monitored area, so as to determine whether the monitoring result E is correct according to the obtained first detection result. If the monitoring result E is correct and the designated object in the image is a human, the abnormal target person can be determined through face recognition.

When the image acquisition device comprises an infrared image acquisition device and a color image acquisition device, the infrared image acquisition device can acquire infrared images of the monitored area, and after each infrared image acquisition image is obtained, the acquired infrared image acquisition image and the first area identifier of the monitored area are sent to the data processing device.

After receiving the infrared image acquisition image and the first area identifier sent by the infrared image acquisition device, the data processing device can perform image detection on each received infrared image acquisition image when the designated area identifier corresponding to the device identifier in any designated corresponding relationship is the same as the first area identifier and the monitoring result in the designated corresponding relationship is abnormal, so that a first detection result can be obtained, and then, whether the monitoring result in the designated corresponding relationship is correct or not can be determined according to the first detection result.

If the monitoring result is correct, the abnormal target person can be confirmed through the color image acquired by the color image acquisition equipment, so that the nursing staff can timely nurse the nursed object when the nursed object is abnormal, and further, the nursing effect on the nursed object is improved.

When the data processing device receives the monitoring result representation, the monitoring result representation is abnormal, and whether the monitoring result representation is abnormal is correct information needs to be judged, so that the waste of nursing resources caused by misjudgment of the monitoring device can be avoided.

Based on this, optionally, in a specific implementation manner, the monitoring method provided in the embodiment of the present invention may further include the following step 41:

step 41: when the monitoring result representation in any specified corresponding relation is abnormal, determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range;

wherein, the specified time range comprises: the specified monitoring result is that the first preset time period before the moment in the specified corresponding relation and/or the second preset time period after the moment in the specified corresponding relation is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

In this specific implementation manner, in order to determine whether the monitoring result representation in any one of the designated corresponding relationships is abnormal, when the monitoring result representation in the designated corresponding relationship among the monitoring result, the time when the monitoring result is monitored, and the device identifier of the monitoring device is abnormal, the data processing device may determine whether the monitoring result is correct based on the monitoring result in the designated corresponding relationship sent by the monitoring device that sends the designated corresponding relationship and belongs to the same monitoring device group, which is received within a designated time range of a first preset time period before the time in the designated corresponding relationship and/or a second preset time period after the time in the designated corresponding relationship.

In this way, whether the monitoring result is correct or not can be determined by comparing the specified monitoring result in the specified corresponding relationship sent by the monitoring device which sends the specified corresponding relationship with the received monitoring device which belongs to the same monitoring device group 1 in the specified time range, so that the nursing effect of nursing staff is improved, and the waste of nursing resources caused by misjudgment of the monitoring device 102 is avoided.

The first preset time and the second preset time may be the same or different. The embodiment of the present invention is not particularly limited.

For example, if a person has a falling behavior in a monitoring area where the falling sensor is located, the falling sensor sends an appointed corresponding relationship, which includes a monitoring result about the falling behavior of the person, a time for monitoring the monitoring result, and an equipment identifier of the falling sensor, to the data processing equipment, and when the data processing equipment receives the appointed corresponding relationship, the data processing equipment may determine whether the monitoring result about the falling behavior of the person is correct based on a first preset time period before a time in the appointed corresponding relationship and/or a received monitoring result in the appointed corresponding relationship sent by monitoring equipment that monitors that the monitoring equipment that sends the appointed corresponding relationship belongs to the same monitoring equipment group in an appointed time range after the time in the appointed corresponding relationship.

Optionally, the designated time range may include a first preset time period before the time in the designated correspondence and a second preset time period after the time in the designated correspondence. Optionally, the designated time range may include a first preset time period before the time in the designated correspondence. Optionally, the specified time range may include a second preset time period after the time in the specified correspondence.

In some cases, the monitoring result in the designated correspondence sent by the monitoring device may have an error, and therefore, for each monitoring result having an error, the feature identifier corresponding to the monitoring result needs to be corrected, thereby avoiding storing the time image having the error, and improving the accuracy of subsequently extracting the time image data.

Based on this, optionally, in a specific implementation manner, the monitoring method provided in the embodiment of the present invention may further include the following step 51:

step 51: and when the monitoring result in the specified corresponding relation is wrong, determining a corrected monitoring result corresponding to the specified corresponding relation, and correcting the characteristic identifier of the monitoring result at the moment corresponding to the specified area identifier corresponding to the equipment identifier monitoring the monitoring result according to the corrected monitoring result.

In this specific implementation manner, when the monitoring result in the specified corresponding relationship is incorrect, the data processing device may determine a corrected monitoring result corresponding to the specified corresponding relationship, so that, according to the corrected monitoring result, a time at which the monitoring result is monitored, corresponding to the specified area identifier corresponding to the device identifier of the monitoring result that needs to be corrected, may be determined.

If the time corresponding to the monitoring result to be corrected has the corresponding characteristic mark, the characteristic mark of the time when the monitoring result is monitored can be corrected.

If the time corresponding to the monitoring result to be corrected does not have the corresponding characteristic identifier, the characteristic identifier of the time when the monitoring result is monitored can be determined.

Therefore, when the monitoring result in the specified corresponding relation is wrong, the data processing equipment can correct the characteristic identifier of the monitoring result corresponding to the specified area identifier corresponding to the equipment identifier monitoring the monitoring result according to the corrected monitoring result, and completes the modification of the monitoring result with the mistake, thereby avoiding storing the time image data with the mistake and improving the accuracy of subsequently extracting the time image data.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; optionally, the time image comprises a time axis; optionally, the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

Corresponding to the monitoring method, an embodiment of the present invention further provides a monitoring system, where the monitoring system further includes: at least one monitoring device group, each monitoring device group comprising at least one monitoring device and being located in the same monitoring area.

Fig. 1 is a schematic structural diagram of a monitoring system according to an embodiment of the present invention, and as shown in fig. 1, the monitoring system may include: a data processing device 103 and at least one monitoring device group 101, each monitoring device group comprising at least one monitoring device 102 and being located in the same monitoring area.

Each monitoring device 102 is configured to perform a specified type of monitoring on a specified subject in the monitored area; when the monitoring result meets a preset condition corresponding to the monitoring device 102, sending an appointed corresponding relationship among the monitoring result, the time when the monitoring result is monitored, and the device identifier of the monitoring device 102 to the data processing device 103;

the data processing device 103 is configured to receive the designated corresponding relationship sent by each monitoring device 102; determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored; displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

As can be seen from the above, by applying the scheme provided by the embodiment of the present invention, the monitoring situation in each monitoring area can be displayed by displaying the time image of the feature represented by the feature identifier, so that a caregiver can clearly and intuitively care each monitoring area when caring a care-taken subject through the information fed back by each monitoring device, the intuitiveness of the monitoring information is improved, and the situations of missing judgment, erroneous judgment and the like of abnormal situations due to visual fatigue are avoided, thereby further. The nursing effect on the nursed object is improved.

Optionally, in a specific implementation manner, the data processing device 103 is further configured to determine, for any monitoring device, content of a monitoring result corresponding to the monitoring device 102 in a specified time period based on continuously received monitoring results in two specified corresponding relationships sent by the monitoring device 102; wherein the specified time period is: the time range between the moments in the two specified correspondences; determining a feature identifier of the specified time period corresponding to the area identifier of the monitored area to which the monitoring device 102 belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device 102; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device 102 corresponding to the monitoring area in the specified time period; the feature represented by the feature identifier of the specified time period is displayed in the specified time period in the time image corresponding to the area identifier of the monitored area to which the monitoring device 102 belongs.

Optionally, in a specific implementation manner, the data processing device 103 is further configured to store, according to a specified period, the time image data, to which the specified identifier is added, corresponding to each region identifier generated in the time range corresponding to each specified period; acquiring an image output instruction at a target time; extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data; displaying a target time image according to the target time image data, or outputting the target time image data to the display device so that the display device displays the target time image; and the target time image output instruction comprises a target area identifier and a target time range.

Optionally, in a specific implementation manner, each monitoring device group 101 further includes an image acquisition device, where the image acquisition device includes an infrared image acquisition device and/or a color image acquisition device;

the image acquisition device is configured to acquire an image of the monitored area, and send the acquired image and a first area identifier of the monitored area to the data processing device 103;

the data processing device 103 is further configured to receive an image acquired by acquiring the monitored area through the image acquisition and a first area identifier of the monitored area where the image acquisition device is located; and when the area identification corresponding to the equipment identification in any specified corresponding relation is the same as the first area identification and the monitoring result representation in the specified corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the specified corresponding relation is correct or not according to the first detection result.

Optionally, in a specific implementation manner, the data processing device 103 is further configured to determine, when the monitoring result representation in any one of the designated corresponding relationships is abnormal, whether the monitoring result in the designated corresponding relationship is correct based on the designated monitoring result received within a designated time range;

wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated correspondence sent by the monitoring devices 102 belonging to the same monitoring device group 101 as the monitoring device 102 sending the designated correspondence.

Optionally, in a specific implementation manner, the data processing device 103 is further configured to, when a monitoring result in the specified corresponding relationship is incorrect, determine a corrected monitoring result corresponding to the specified corresponding relationship, and correct, according to the corrected monitoring result, a feature identifier of a time at which the monitoring result is monitored, where the feature identifier corresponds to an assigned area identifier corresponding to an equipment identifier at which the monitoring result is monitored, and the time corresponds to the equipment identifier at which the monitoring result is monitored.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

Based on the same inventive concept, as shown in fig. 6, which corresponds to the monitoring method shown in fig. 1 provided in the foregoing embodiment of the present invention, a schematic structural diagram of a monitoring device provided in an embodiment of the present invention is applied to a data processing device in a monitoring system, and the system further includes: at least one monitoring device group, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area; the device comprises:

a relationship obtaining module 610, configured to obtain a designated corresponding relationship sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identification of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on a specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

a feature identifier determining module 620, configured to determine, for at least one area identifier, a feature identifier of each monitoring result time corresponding to the area identifier according to a pre-established correspondence relationship between the device identifier and the area identifier and each designated correspondence relationship; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

a time image display module 630, configured to display a time image corresponding to the at least one area identifier, or output time image data corresponding to the at least one area identifier to a display device, so that the display device displays the time image corresponding to the at least one area identifier; and displaying the characteristic represented by the characteristic identifier of the moment corresponding to the area identifier corresponding to the time image at each moment of monitoring the monitoring result in any time image, wherein any time image data comprises the characteristic identifier of each moment of monitoring the monitoring result corresponding to the area identifier corresponding to the time image data.

As can be seen from the above, by applying the scheme provided by the embodiment of the present invention, the monitoring condition in each monitoring area can be displayed by displaying the time image represented by the characteristic identifier, so that a caregiver can clearly and intuitively care each monitoring area when caring a supervised object through information fed back by each monitoring device, the intuitiveness of the monitored information is improved, and the situations of missed judgment, erroneous judgment and the like of abnormal situations due to visual fatigue are avoided, thereby further. The nursing effect on the nursed object is improved.

Optionally, in a specific implementation manner, the apparatus further includes:

the system comprises a specified time period characteristic identification determining module, a monitoring device and a monitoring device, wherein the specified time period characteristic identification determining module is used for determining the content of a monitoring result corresponding to any monitoring device in a specified time period based on the continuously received monitoring result in two specified corresponding relations sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

determining a feature identifier of the specified time period corresponding to the area identifier of the monitoring area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

Optionally, in a specific implementation manner, the apparatus further includes:

the time image access module is used for storing time image data corresponding to each area identifier generated in a time range corresponding to each appointed period according to the appointed period;

acquiring an image output instruction at a target time; the target time image output instruction comprises a target area identifier and a target time range;

extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data;

and displaying a target time image according to the target time image data, or outputting the target time image data to the display equipment so that the display equipment displays the target time image.

Optionally, in a specific implementation manner, each monitoring device group further includes an image acquisition device, where the image acquisition device includes an infrared image acquisition device and/or a color image acquisition device; the device further comprises:

the first monitoring result judging module is used for acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is positioned;

and when the area identification corresponding to the equipment identification in any specified corresponding relation is the same as the first area identification and the monitoring result representation in the specified corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the specified corresponding relation is correct or not according to the first detection result.

Optionally, in a specific implementation manner, the apparatus further includes:

the second monitoring result judging module is used for determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range when the monitoring result in any specified corresponding relation is abnormal; wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

Optionally, in a specific implementation manner, the apparatus further includes:

and the identification correction module is used for determining a corrected monitoring result corresponding to the specified corresponding relation when the monitoring result in the specified corresponding relation is wrong, and correcting the characteristic identification of the monitoring result at the moment when the monitoring result is monitored, which corresponds to the specified area identification corresponding to the equipment identification monitoring the monitoring result, according to the corrected monitoring result.

Optionally, in a specific implementation manner, the feature identifier includes a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

An embodiment of the present invention further provides an electronic device, as shown in fig. 7, including a processor 701 and a memory 702, wherein,

a memory 702 for storing a computer program;

the processor 701 is configured to implement the steps of any monitoring method provided by the above embodiments of the present invention when executing the program stored in the memory 702.

Optionally, as shown in fig. 8, the electronic device further includes a communication interface 703 and a communication bus 704, where the processor 701, the communication interface 703, and the memory 702 complete communication with each other through the communication bus 704.

The communication bus mentioned in the electronic device may be a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The communication bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown, but this does not mean that there is only one bus or one type of bus.

The communication interface is used for communication between the electronic equipment and other equipment.

The Memory may include a Random Access Memory (RAM) or a Non-Volatile Memory (NVM), such as at least one disk Memory. Optionally, the memory may also be at least one memory device located remotely from the processor.

The Processor may be a general-purpose Processor, including a Central Processing Unit (CPU), a Network Processor (NP), and the like; but also Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components.

In a further embodiment of the present invention, a computer-readable storage medium is further provided, in which a computer program is stored, and the computer program, when executed by a processor, implements the steps of any of the above-mentioned monitoring methods.

In a further embodiment, a computer program product is provided, which comprises instructions that, when run on a computer, cause the computer to perform any of the monitoring methods of the preceding embodiments.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, it may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the invention to be performed in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on differences from other embodiments. In particular, system embodiments, apparatus embodiments, electronic device embodiments, computer-readable storage medium embodiments, and computer program product embodiments are substantially similar to method embodiments and therefore are described with relative ease, as related to the partial description of the method embodiments.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (11)

1. A monitoring method, applied to a data processing device in a monitoring system, the system further comprising: at least one monitoring device group, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area; the method comprises the following steps:

acquiring a designated corresponding relation sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identification of the monitoring equipment, which is sent when each monitoring equipment carries out specified type monitoring on a specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

displaying a time image corresponding to at least one region identifier; or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays a time image corresponding to the at least one area identifier;

the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

2. The method of claim 1, further comprising:

for any monitoring device, determining the content of the monitoring result corresponding to the monitoring device in a specified time period based on the continuously received monitoring result in the two specified corresponding relations sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

determining a feature identifier of the specified time period corresponding to the area identifier of the monitoring area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

and displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring device belongs.

3. The method of claim 1, further comprising:

according to the appointed period, storing the time image data corresponding to each area identification generated in the time range corresponding to each appointed period;

acquiring an image output instruction at a target time; the target time image output instruction comprises a target area identifier and a target time range;

extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data;

and displaying a target time image according to the target time image data, or outputting the target time image data to the display equipment so that the display equipment displays the target time image.

4. The method of claim 1, wherein each monitoring device group further comprises an image acquisition device comprising an infrared image acquisition device and/or a color image acquisition device; the method further comprises the following steps:

acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is positioned;

when the area identification corresponding to the equipment identification in any appointed corresponding relation is the same as the first area identification and the monitoring result representation in the appointed corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the appointed corresponding relation is correct or not according to the first detection result.

5. The method of claim 1, further comprising:

when the monitoring result representation in any specified corresponding relation is abnormal, determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range;

wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: and monitoring results in the designated corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the designated corresponding relation.

6. The method according to any one of claims 4 or 5, further comprising:

and when the monitoring result in the specified corresponding relation is wrong, determining a corrected monitoring result corresponding to the specified corresponding relation, and correcting the characteristic identifier of the monitoring result at the moment corresponding to the specified area identifier corresponding to the equipment identifier monitoring the monitoring result according to the corrected monitoring result.

7. The method of claim 1, wherein the feature identifier comprises a color identifier or a pattern identifier; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

8. A monitoring system is characterized by comprising a data processing device and at least one monitoring device group, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area;

each monitoring device is used for monitoring a specified type of a specified object in the monitoring area; when the monitoring result meets the preset condition corresponding to the monitoring equipment, sending an appointed corresponding relation of the monitoring result, the moment when the monitoring result is monitored and the equipment identification of the monitoring equipment to the data processing equipment;

the data processing equipment is used for receiving the designated corresponding relation sent by each monitoring equipment; determining the characteristic identifier of each monitoring result time corresponding to the area identifier for at least one area identifier according to the pre-established corresponding relationship between the equipment identifier and the area identifier and each designated corresponding relationship; displaying a time image corresponding to at least one area identifier; or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays a time image corresponding to the at least one area identifier; the monitoring device comprises a monitoring area, a monitoring device and any time image data, wherein any characteristic mark represents the content of the monitoring result monitored by the monitoring device corresponding to the monitoring area at any time when the monitoring result is monitored, the characteristic represented by the characteristic mark at the time corresponding to the area mark corresponding to the time image is displayed at each time when the monitoring result is monitored in any time image, and any time image data comprises the characteristic mark at each time when the monitoring result is monitored corresponding to the area mark corresponding to the time image data.

9. A monitoring device, for use in a data processing apparatus of a monitoring system, the system further comprising: at least one monitoring device group, wherein each monitoring device group comprises at least one monitoring device and is positioned in the same monitoring area; the device comprises:

the relationship acquisition module is used for acquiring the designated corresponding relationship sent by each monitoring device; the specified corresponding relation is the corresponding relation of the monitoring result, the time when the monitoring result is monitored and the equipment identifier of the monitoring equipment, which is sent when each monitoring equipment monitors the specified type of the specified object in the monitoring area and the obtained monitoring result meets the preset condition corresponding to the monitoring equipment;

the characteristic identification determining module is used for determining the characteristic identification of each monitoring result time corresponding to the area identification for at least one area identification according to the corresponding relation between the equipment identification and the area identification and each designated corresponding relation which are established in advance; any characteristic mark represents the content of the monitoring result monitored by the monitoring equipment corresponding to the monitoring area at any moment when the monitoring result is monitored;

the time image display module is used for displaying a time image corresponding to at least one area identifier, or outputting time image data corresponding to at least one area identifier to display equipment so that the display equipment displays the time image corresponding to at least one area identifier; the time of each monitored monitoring result in any time image displays the characteristic represented by the characteristic identifier of the time corresponding to the area identifier corresponding to the time image, and any time image data comprises the characteristic identifier of each monitored monitoring result time corresponding to the area identifier corresponding to the time image data.

10. The apparatus of claim 9, further comprising:

the system comprises a specified time period characteristic identification determining module, a monitoring device and a monitoring device, wherein the specified time period characteristic identification determining module is used for determining the content of a monitoring result corresponding to any monitoring device in a specified time period based on two continuously received monitoring results in a specified corresponding relationship sent by the monitoring device; wherein the specified time period is: the time range between the moments in the two specified correspondences;

determining a feature identifier of the specified time period corresponding to the area identifier of the monitoring area to which the monitoring device belongs according to the content of the monitoring result corresponding to the specified time period of the monitoring device; the feature identifier of the specified time period represents the content of the monitoring result of the monitoring device corresponding to the monitoring area in the specified time period;

displaying the characteristic represented by the characteristic identifier of the specified time period in the time image corresponding to the area identifier of the monitoring area to which the monitoring equipment belongs;

and/or the presence of a gas in the gas,

the device further comprises:

the time image access module is used for storing time image data corresponding to each area identifier generated in a time range corresponding to each appointed period according to the appointed period;

acquiring an image output instruction at a target time; the target time image output instruction comprises a target area identifier and a target time range;

extracting target time image data which is generated in the target time range and corresponds to the target area identification from the stored time image data;

displaying a target time image according to the target time image data, or outputting the target time image data to the display device so that the display device displays the target time image;

and/or the presence of a gas in the gas,

each monitoring equipment group further comprises image acquisition equipment, wherein the image acquisition equipment comprises infrared image acquisition equipment and/or color image acquisition equipment; the device further comprises:

the first monitoring result judging module is used for acquiring an image acquired by the image acquisition equipment in the monitored area and a first area identifier of the monitored area in which the image acquisition equipment is positioned;

when the area identifier corresponding to the equipment identifier in any specified corresponding relation is the same as the first area identifier and the monitoring result representation in the specified corresponding relation is abnormal, carrying out image detection on the image to obtain a first detection result, and determining whether the monitoring result in the specified corresponding relation is correct or not according to the first detection result;

and/or the presence of a gas in the gas,

the device further comprises:

the second monitoring result judging module is used for determining whether the monitoring result in the specified corresponding relation is correct or not based on the specified monitoring result received in the specified time range when the monitoring result in any specified corresponding relation is abnormal; wherein the specified time range comprises: a first preset time period before the time in the designated corresponding relation and/or a second preset time period after the time in the designated corresponding relation; the specified monitoring result is as follows: monitoring results in the appointed corresponding relation sent by the monitoring devices which belong to the same monitoring device group and send the appointed corresponding relation;

and/or the presence of a gas in the atmosphere,

the device further comprises:

the identification correction module is used for determining a corrected monitoring result corresponding to the specified corresponding relation when the monitoring result in the specified corresponding relation is wrong, and correcting the characteristic identification of the monitoring result at the moment when the monitoring result is monitored, which corresponds to the specified area identification corresponding to the equipment identification monitoring the monitoring result, according to the corrected monitoring result;

and/or the presence of a gas in the gas,

the characteristic mark comprises a color mark or a pattern mark; the temporal image comprises a time axis; the monitoring device comprises at least one of a bed sensor, a bed exit sensor, a fall sensor.

11. An electronic device comprising a processor and a memory, wherein,

a memory for storing a computer program;

a processor for implementing the method steps of claims 1-7 when executing a program stored in a memory.

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