CN109102680B - Equipment alarm method and device - Google Patents

Abstract

The invention relates to an equipment alarming method and a device, wherein the equipment alarming method comprises the following steps: the method comprises the steps that the equipment receives an information feedback request, wherein the information feedback request is initiated by other equipment in a local alarm state in an equipment set; responding to the information feedback request, and feeding back condition state information to other equipment in a local alarm state in the equipment set, wherein the condition state information is used for indicating whether the equipment meets the alarm condition of other beds; when the condition state information indicates that the equipment meets the alarm condition of other beds, receiving local alarm information sent by other equipment in a local alarm state in the equipment set; and performing other bed alarm for other equipment in the local alarm state in the equipment set according to the local alarm information. The equipment alarm method and the equipment alarm device provided by the invention solve the problem that the alarm cannot be responded in time in the prior art.

Description

Equipment alarm method and device

Technical Field

The invention relates to the technical field of medical treatment, in particular to an equipment alarm method and device.

Background

Under the condition that medical resources are extremely short of each other, hospitals are often full of patients, so that each patient cannot be monitored by one medical staff in real time. During the whole monitoring process, the medical staff often need to walk around to check or treat a certain bed patient, and turn to other bed patients after finishing the bed patient.

If an alarm is given by a patient or device in another bed in another room, which requires timely attention and handling by a medical worker who is not in front of the patient or device, the alarm is likely to be overlooked or delayed, which may lead to adverse consequences for the patient.

Therefore, in the prior art, a central monitoring system is configured for patients or equipment of each bed, medical staff can check alarms by means of the central monitoring system, and when the patients or equipment who check a certain bed send the alarms, the alarms can be processed in time. However, once the medical personnel are away from the central monitoring system medium, there is still a risk of missing an alarm.

From the above, the problem of low alarm response timeliness exists in the prior art.

Disclosure of Invention

In order to solve the above technical problem, an object of the present invention is to provide an apparatus alarm method and apparatus.

The technical scheme adopted by the invention is as follows:

an equipment alarm method, comprising: the method comprises the steps that the equipment receives an information feedback request, wherein the information feedback request is initiated by other equipment in a local alarm state in an equipment set; responding to the information feedback request, and feeding back condition state information to other equipment in a local alarm state in the equipment set, wherein the condition state information is used for indicating whether the equipment meets the alarm condition of other beds; when the condition state information indicates that the equipment meets the alarm condition of other beds, receiving local alarm information sent by other equipment in a local alarm state in the equipment set; and performing other bed alarm for other equipment in the local alarm state in the equipment set according to the local alarm information.

An equipment alarm device comprising: a feedback request receiving module, configured to receive an information feedback request by a device, where the information feedback request is initiated by another device in a local alarm state in a device set; a state information feedback module, configured to respond to the information feedback request, and feed back condition state information to other devices in the device set that are in a local alarm state, where the condition state information is used to indicate whether the device satisfies an alarm condition of its bed; the alarm information receiving module is used for receiving local alarm information sent by other equipment in a local alarm state in the equipment set when the condition state information indicates that the equipment meets the alarm condition of other beds; and the bed alarm module is used for giving other bed alarms for other equipment in the local alarm state in the equipment set according to the local alarm information.

An equipment alarm device comprising a processor and a memory, the memory having stored thereon computer readable instructions which, when executed by the processor, implement the equipment alarm method as described above.

A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the device alarm method as described above.

In the technical scheme, whether the equipment is in a local alarm state is judged by carrying out local alarm detection on the equipment, requesting other devices in the device set to feed back conditional state information when the device is in a local alarm state, searching the devices in the device set for other devices satisfying its bed alarm condition based on whether the other devices indicated by the condition status information satisfy its bed alarm condition, further sending local alarm information to the other searched equipment, so that the other equipment gives an alarm to the equipment in other beds according to the local alarm information, therefore, the local alarm sent by the equipment can be sent by other equipment meeting the alarm condition of other beds, the local alarm sent by the equipment can be timely paid attention to and processed no matter where the medical personnel are, and the problem of low alarm response timeliness in the prior art is solved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a schematic diagram of an implementation environment shown in accordance with an example embodiment.

Fig. 2 is a block diagram illustrating a hardware configuration of a device according to an example embodiment.

FIG. 3 is a flow chart illustrating a device alerting method according to an exemplary embodiment.

FIG. 4 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

FIG. 5 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

FIG. 6 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

Fig. 7 is a flow chart of one embodiment of step 330 in the corresponding embodiment of fig. 4.

FIG. 8 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

FIG. 9 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

FIG. 10 is a flow chart illustrating another method of device alerting, according to an exemplary embodiment.

FIG. 11 is a functional block diagram of a device in an application scenario.

Fig. 12 is a schematic diagram of a specific implementation of an apparatus alarm method in an application scenario.

FIG. 13 is a block diagram illustrating an appliance alarm device according to an exemplary embodiment.

Fig. 14 is a block diagram illustrating a hardware configuration of an apparatus alarm device according to an exemplary embodiment.

While specific embodiments of the invention have been shown by way of example in the drawings and will be described in detail hereinafter, such drawings and description are not intended to limit the scope of the inventive concepts in any way, but rather to explain the inventive concepts to those skilled in the art by reference to the particular embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

FIG. 1 is a schematic diagram of an implementation environment involved in a method for device alerting. The implementation environment includes a plurality of interoperable devices 100, e.g., device 110, device 130, device 150. The device 100 may be a medical device such as a monitor, a fetal heart monitor, an electrocardiograph, and the like, and is not limited thereto.

The device 100 has a network connection function, so that a wired or wireless network connection can be established between the devices 100; the devices 100 may also be equipped with near field communication capabilities, such as near field communication including WIFI communication, bluetooth communication, etc., so that a near field communication connection may be established between the devices 100.

After the network connection or communication connection between the devices 100 is completed, an interworking network is formed between the devices 100, so that data transmission between the devices 100 can be performed based on the interworking network.

For example, device 110 may issue a local alarm and control devices 130 and/or 150 to perform its bed alarm. That is, even if the healthcare worker is not in front of or near device 110, it is still possible to timely attend to and address the local alarm issued by device 110 via its bed alarm issued by device 130 and/or device 150.

Fig. 2 is a block diagram illustrating a hardware configuration of a device according to an example embodiment. It should be noted that the device is only an example adapted to the invention and should not be considered as providing any limitation to the scope of use of the invention. Nor should the device be interpreted as requiring reliance on, or necessity of, one or more components of the exemplary device 100 illustrated in fig. 2.

The hardware structure of the device 100 may have large differences due to different configurations or performances, as shown in fig. 2, the device 100 includes: a power source 110, an interface 130, at least one memory 150, and at least one Central Processing Unit (CPU) 170.

The power supply 110 is used to provide operating voltages for various hardware devices on the device 100.

The interface 130 includes at least one wired or wireless network interface 131, at least one serial-to-parallel conversion interface 133, at least one input/output interface 135, and at least one USB interface 137, etc. for communicating with external devices.

The storage 150 is used as a carrier for resource storage, and may be a read-only memory, a random access memory, a magnetic disk or an optical disk, etc., and the resources stored thereon include an operating system 151, an application 153, data 155, etc., and the storage manner may be a transient storage or a permanent storage. The operating system 151 is used for managing and controlling hardware devices and application programs 153 on the device 100 to realize the computation and processing of the mass data 155 by the central processing unit 170, and may be Windows server, Mac OS XTM, unix, linux, FreeBSDTM, or the like. Application 153 is a computer program that performs at least one particular task on operating system 151 and may include at least one module (not shown in FIG. 2) that may each contain a sequence of computer-readable instructions for device 100. The data 155 may be photographs, pictures, etc. stored in a disk.

The central processor 170 may include one or more processors and is arranged to communicate with the memory 150 via a bus for computing and processing the mass data 155 in the memory 150.

As described in detail above, a device 100 to which the present invention is applicable will perform the device alarm method by the central processor 170 reading a series of computer readable instructions stored in the memory 150.

Furthermore, the present invention can be implemented by hardware circuits or by a combination of hardware circuits and software, and thus, the implementation of the present invention is not limited to any specific hardware circuits, software, or a combination of both.

Referring to fig. 3, in an exemplary embodiment, a device alarm method is applied to the device 100 in the implementation environment shown in fig. 1, and the structure of the device 100 may be as shown in fig. 2.

The device alarm method may be performed by the device 100 and may include the steps of:

and step 210, the equipment performs local alarm detection, and judges whether the equipment is in a local alarm state or not through the local alarm detection.

The alarm is given by abnormality of physiological parameters and/or pathological parameters of the patient monitored by the device, for example, the physiological parameters can be heart rate, fetal heart rate, pulse rate and the like, and the pathological parameters can be hemoglobin number, white blood cell number and the like.

Here, a local alarm is an alarm that can trigger its bed alarm. The local alarm can refer to any alarm sent by the equipment, namely, the equipment is considered to be in a local alarm state as long as the equipment sends the alarm.

Further, the alarms issued by the devices are classified. For example, alarms include physiological alarms and pathological alarms, classified by abnormal parameters, or alarms include high-level alarms, medium-level alarms, primary alarms and low-level alarms, classified by alarm level.

Accordingly, the local alarm can be flexibly set by medical staff according to different application scenes.

For example, the local alarm is a pathological alarm, or the local alarm is a high-level alarm.

Thus, when the device issues a pathological alarm or a high-level alarm, it is determined that the device is in a local alarm state, and the execution of step 230 is skipped.

Otherwise, when the device issues a physiological alarm or any one of a middle-level alarm, a primary alarm and a low-level alarm, the device will not trigger the other bed alarm, and the local alarm detection is continued to be performed on the device, that is, step 210 is executed.

As can be appreciated from the above, in one embodiment, the local alarm may be any alarm issued by the device, and in another embodiment, the local alarm may be associated with a setting by a healthcare worker, and may be only a portion of the alarms issued by the device.

Through such setting, not only be favorable to improving the flexibility that equipment reported to the police, be favorable to reducing medical personnel's operating pressure moreover, and then guarantee alarm response timeliness rate fully.

In step 230, when the device is in the local alarm state, other devices in the device set feed back the condition status information to the device.

First, a device set is constructed by interconnecting and intercommunicating devices.

The interconnection means that devices in the device set are connected to each other on a physical link in a wired or wireless network connection manner or a close-range communication connection manner, so that data transmission can be performed between the devices through communication manners such as TCP, UDP, WIFI, bluetooth, and the like.

For example, the devices in the device set may belong to the same patient, or be located in the same ward, or be placed in two adjacent wards, or even for some large hospitals, the devices in the device set may be distributed in different wards on different floors, at this time, for each device in the device set, a WIFI communication connection may be established between devices at a close distance, and a wireless network connection may be established between devices at a far distance, so as to form an interconnection network between the devices.

Through the arrangement, the flexible construction of the interconnection network is realized, and the network interface allocation of the equipment can be effectively reduced.

Further, the device set may be updated.

For example, online state detection is performed on the devices in the device set, and the device set is removed from the devices in the offline state.

The equipment is in an offline state, wherein the equipment is disconnected, and the equipment runs abnormally.

Accordingly, the online status detection may be performed by monitoring the device connection number, CPU occupancy, packet loss rate, network rate, and the like. For example, if the network rate remains 0, it is determined that the device is in the offline state.

For another example, the bed alarm identifier of the device in the device set is detected, and the device which does not turn on the bed alarm identifier is removed from the device set.

Wherein the activation of its bed alarm flag indicates that the device supports its bed alarm. That is, the device provides the user with its bed alarm entry where the user will trigger a corresponding flag-on operation when the user needs the device to support its bed alarm.

For example, the touchable display screen of the device is configured with a virtual dialog box at the bed alarm entrance, when the user touches and hooks the virtual dialog box, namely, the bed alarm identifier is opened in the device, so that the device supports bed alarm, and the hooking operation is the identifier opening operation triggered by the user at the bed alarm entrance.

Further, the devices in the device set are configured with a priority that reflects their bed alarm level for the devices in the device set, i.e. the higher the priority, the higher the bed alarm level, the priority will be in providing their bed alarms.

Preferably, the priority is configured according to the distance between the device in the local alarm state and other devices in the device set, that is, the closer the distance between the device in the local alarm state and the other devices in the device set is, the higher the priority of the other devices being configured. The distances between the device and other devices are stored in the device in advance when the device is installed and deployed, and are read for priority configuration.

For example, the distance from device a to device B is 5 meters, the distance to device C is 10 meters, and the distance to device D is 1 meter, and at this time, for device a, the priority is the highest for device D, the second for device B, and the lowest for device C. Based on this, when device a issues a local alarm, the other device that preferentially provides device a with its bed alarm is device D.

It should be understood that the distances between different devices and other devices in the device set may be different, and the priorities of the devices in the device set may be changed accordingly. To this end, in an embodiment, the priority may be configured individually, that is, for the device set constructed in each device, the priority is configured for the devices in the device set respectively. In another embodiment, the priority may also be configured globally, that is, first, a priority is configured for a device in a device set constructed in a certain device, and then, other devices perform adaptive adjustment of the priority according to the priority configured for the certain device.

It is noted next that the condition status information indicates whether other devices in the set of devices meet their bed alarm condition. It will be appreciated that the purpose of making its bed alarm is to allow the medical personnel to be timely alerted to the local alarm issued by the device, in order for the medical personnel to be able to respond timely to the local alarm issued by the device. Therefore, the alarm condition of the bed can be that medical staff is nearby other equipment or that the medical staff is in front of the other equipment.

Based on this, when the device is in the local alarm state, for other devices, an information feedback request initiated by the device is received, and the condition state information is fed back to the device according to the information feedback request, so that the device can judge which medical staff are nearby or in front of the other devices through the condition state information, and further the medical staff nearby or in front of the other devices can send out other bed alarms through the other devices, so that the medical staff can timely pay attention to and process the local alarm sent by the device.

And step 250, searching other equipment meeting the alarm condition of the bed in the equipment set according to the indication of the condition state information.

Since the condition status information indicates whether or not the other device satisfies its bed alarm condition, the other device satisfying its bed alarm condition is taken as a candidate device, i.e., it indicates that there is a medical staff near or in front of the candidate device.

Further, it is understood that when the other devices perform the condition status information feedback, a medical staff may not be found nearby or in the near future, and at this time, when the candidate device search is performed, all other devices in the device set are regarded as candidate devices.

Furthermore, if there are several other devices that satisfy the alarm condition of other beds, only one of the other devices that satisfy the alarm condition of other beds may become a candidate device, and it may also be understood that, among the other devices that satisfy the alarm condition of other beds, the other device with the highest priority is a candidate device, that is, the other device closest to the device in the local alarm state is a candidate device, thereby sufficiently ensuring that the medical staff can pay attention to and handle the local alarm sent by the device in time.

That is, in one embodiment, the candidate device is all other devices in the set of devices, in another embodiment, the candidate device is all other devices in the set of devices that satisfy its bed alarm condition, and in yet another embodiment, the candidate device is the other device in the set of devices that satisfies its bed alarm condition and has the highest priority.

It should be noted that the search process of the candidate device is substantially performed by matching the device identifier included in the conditional state information with the device identifier corresponding to the device in the device set. For example, the device number is used as a device identifier to uniquely identify the device.

For example, the condition status information indicates that the device corresponding to the device identifier a satisfies its bed alarm condition, and if a device identifier a is obtained from matching device identifiers corresponding to devices in the device set, the device with the device identifier a may be used as a candidate device.

And 270, receiving the local alarm information sent by the equipment by other equipment meeting the alarm condition of other bed, and giving an alarm to other bed for the equipment according to the local alarm information.

The local alarm information may be a sound message, for example, an alarm prompt tone, or may be content information, and the alarm content included in the content information may be flexibly set according to different application scenarios, which is not limited herein.

For example, after searching for the candidate device, the local alarm information includes, but is not limited to, a device number, a monitoring parameter (e.g., a pathology parameter), and the like, assuming that the candidate device is the closest device to the device and satisfies its bed alarm condition.

Alternatively still, assuming the candidate devices are all other devices in the device set, the local alarm information includes, but is not limited to, a device number, an alarm level (e.g., advanced alarm), and so forth.

For the candidate device, when the local alarm information is received, the device in the local alarm state can be provided with the bed alarm according to the local alarm information.

Through the process, the bed alarm scheme is realized, namely the local alarm sent by the equipment can be sent by the candidate equipment, the local alarm sent by the equipment can be timely paid attention to and processed no matter where the medical personnel are, and the alarm response timeliness rate is effectively improved.

In addition, compared with a central monitoring system, the medical staff does not need to turn back to the central monitoring system again to check the local alarm sent by the equipment, and can directly know the local alarm sent by the candidate equipment by means of the other bed alarm sent by the candidate equipment, so that the convenience of the medical staff is improved.

Referring to FIG. 4, in an exemplary embodiment, step 270 may include the steps of:

and step 310, receiving the local alarm information sent by the equipment by other equipment meeting the alarm condition of other beds.

And step 330, informing other equipment meeting the alarm condition of other beds of entering the alarm state of other beds according to the local alarm information so as to provide other bed alarms for the equipment.

That is, other devices that satisfy their bed alarm condition will be candidate devices to provide their bed alarms to the device based on local alarm information sent by the device.

Similarly, when other devices in the device set are in a local alarm state and send local alarm information to the devices, the devices receive the local alarm information sent by the other devices, so that the devices need to serve as candidate devices to provide bed alarm for the other devices sending the local alarm, and bed alarm can be performed according to the local alarm information.

For example, the alarm content is displayed on a display screen configured for the candidate device, or an alarm prompt tone is emitted through a loudspeaker configured for the candidate device, so that medical staff in front of or near the candidate device can pay attention to a local alarm emitted by the device in time, and further local alarm processing is performed in time.

Referring to fig. 5, in an exemplary embodiment, step 230 may include the following steps:

at step 410, other devices in the device set receive information feedback requests initiated by the devices.

And 430, performing image tracking identification according to the information feedback request.

Conditional state information is generated from the identified image data and fed back to the device, step 450.

As mentioned above, the condition status information indicates whether other devices in the device set satisfy its bed alarm condition, and thus, for a device in a local alarm state, in order to know whether other devices in the device set can provide its bed alarm, an information feedback request is initiated to the other devices in the device set for receiving the condition status information.

For other devices, the information feedback request sent by the device is correspondingly received, and whether the information feedback request meets the alarm condition of other beds is detected in response to the information feedback request, so that condition state information for indicating whether the information feedback request meets the alarm condition of other beds is generated.

In the present embodiment, the generation of the condition status information is performed by image tracking recognition.

Specifically, an image capturing device, such as a camera, is started to continuously acquire image data near the equipment, and the human face, clothing and the like in the continuous image data are tracked and recognized, so that whether medical staff exist near the equipment or not is judged. If so, the condition status information indicates that the device satisfies its bed alarm condition.

Wherein trace identification includes, but is not limited to: identifying the dress of the person in the image corresponding to the continuous image data, identifying the face in the image corresponding to the continuous image data, and the like.

For example, based on the uniform apparel of the healthcare worker, it can be determined whether there is a healthcare worker near the device. Or, firstly, the face data of the medical staff are collected and stored to form a face database, the face recognized in the image is matched in the face database based on the face database, and if the matched face data exists, the medical staff is judged to be near the equipment. For another example, the proportion of the pixels of the face recognized in the image is determined, and when the proportion of the pixels exceeds a threshold value, a medical staff is considered to be near the equipment.

Under the effect of the embodiment, whether medical personnel are nearby the equipment or not can be judged through image tracking and identification, and further, a sufficient basis is provided for realizing the alarm scheme of other beds.

In addition, the accuracy of image tracking identification is effectively guaranteed through continuous acquisition of image data, so that the accuracy of subsequent candidate equipment searching is guaranteed, and the success rate of other bed alarming is improved.

Referring to fig. 6, in another exemplary embodiment, step 230 may include the following steps:

other devices in the device set receive information feedback requests initiated by the devices, step 510.

And step 530, detecting the interface operation according to the information feedback request.

And step 550, feeding back condition state information to the equipment according to the detected interface operation.

It should be understood that the device is typically configured with input devices, including but not limited to a keyboard, mouse, stylus, touch screen, etc., so that the healthcare worker can use the input devices to trigger corresponding interface operations to control the device. In other words, if the device is able to detect an interface operation, this indicates that the device must be in front of a healthcare worker.

Thus, in the present embodiment, the condition status information is generated by detecting an interface operation.

Among them, the interface operation includes but is not limited to: the user operates the mouse and the keyboard to perform clicking operation or displacement operation through the sliding operation of fingers and a touch pen on the touch screen, and the like.

Under the effect of above-mentioned embodiment, can judge whether medical personnel have in the front of equipment through interface operation detection, further provide the foundation that its bed alarm scheme can realize.

Referring to fig. 7, in an exemplary embodiment, step 330 may include the following steps:

and step 331, adjusting the position of the local monitoring window in the display interface for the integration of the alarm window of the other bed.

Step 333, load the local alarm information to the alarm window of the other bed, and display the alarm window of the other bed in the display interface with the adjusted position.

The local monitoring window is used for displaying monitoring information of other equipment so as to facilitate the real-time monitoring of the medical staff on the patient.

The bed alarm window is used for displaying local alarm information received by equipment, so that medical personnel can pay attention to the local alarm sent by the equipment in time by means of other equipment.

In order to not affect the display of the monitoring information of other devices, the position of the local monitoring window in the display interface needs to be adjusted before the monitoring information is merged into the alarm window of other devices.

Specifically, two display areas are divided in the display interface, wherein one display area displays a local monitoring window, and the other display area displays an alarm window of the bed.

Further, the bed alarm window comprises a plurality of sub-windows, each sub-window corresponds to one other device, and accordingly, the local alarm information of each device is loaded to the corresponding sub-window.

The plurality of sub-windows may be displayed in parallel in the display area, or may be displayed in an overlapping manner in the display area according to a priority configured by the device that transmits the local alarm, which is not limited herein.

For example, when a plurality of sub-windows are displayed side by side, limited by the size of the display area, the sub-windows only exhibit a background color that indicates the alarm level of the sub-window for which the local alarm is issued by the device, e.g., red for high level alarms, orange for medium level alarms, yellow for primary alarms, and green for low level alarms.

Based on this, if the medical staff wants to look over the sub-window of the advanced alarm, trigger the corresponding selection operation to select the sub-window of the red background color, at this moment, the sub-window pops up and enlarges, and further shows the patient name, the equipment number, the monitoring parameter, etc., so as to be convenient for the medical staff to confirm and handle.

For another example, when a plurality of sub-windows are displayed in an overlapping manner, the sub-window corresponding to the device with the highest priority is displayed in the uppermost layer of the display area in an overlapping manner, and the patient name, the device number, the monitoring parameters, and the like are displayed so as to be convenient for the medical staff to confirm and process preferentially.

It should be noted that the local alarm information includes a device number, so as to uniquely identify a device corresponding to the local alarm information, so that the local alarm information sent by the device is loaded to the corresponding sub-window.

Under the cooperation of the embodiment, the combined display of local monitoring and other bed alarm is realized, medical staff can not only check and process other bed alarm in time, but also monitor the patient monitored by the equipment in real time, and the convenience of the medical staff is further improved.

Referring to fig. 8, in an exemplary embodiment, the method as described above may further include the steps of:

when the device exits the local alarm state, other devices that are alarming for the device to disarm their beds, step 610.

And step 630, controlling the other equipment to clear the alarm window of the bed in the display interface through the release of the alarm of the bed.

With the alarm of the bed being released, the alarm window of the bed displayed in the display interface is cleared, for example, the local alarm information displayed in the alarm window of the bed is cleared, even the alarm window of the bed is cleared, so as to restore the original position of the local monitoring window in the display interface.

Further, in a specific implementation of an embodiment, for a candidate device, i.e., other device that is performing its bed alarm for the device, the clearing of its bed alarm is not limited to the device that issued the local alarm exiting the local alarm state, but may also be the candidate device being triggered its bed alarm confirmation operation.

In particular, the candidate device provides its bed alarm confirmation entry in its bed alarm window for the healthcare worker, and when the healthcare worker is interested in its bed alarm issued by the candidate device, it will trigger a corresponding bed alarm confirmation operation in its bed alarm confirmation entry, at which time it is possible to disarm its bed alarm for the candidate device.

Through the process, the alarm of the same bed is prevented from being repeatedly processed, and the treatment efficiency of medical staff is improved.

Referring to fig. 9, in an exemplary embodiment, the process of configuring the priority of the devices in the device set may include the steps of:

step 710, obtaining the distance between the device and other devices in the device set.

Step 730, dividing the devices in the device set into a plurality of subsets with different priorities according to the obtained distance. Wherein the priority of each subset reflects the distance between the devices contained in the subset.

And step 750, generating a priority sequence according to the plurality of subsets and the priorities thereof, and forwarding the priority sequence to other equipment, so that the other equipment adaptively adjusts the priorities for the equipment in the equipment set according to the priority sequence.

For example, assume that the device set includes device a, device B, device C, device D, device E, and device F.

For device a, the distance from device a to device B is 5 meters, the distance to device C is 10 meters, the distance to device D is 1 meter, the distance to device E is 5 meters, and the distance to device F is 10 meters.

Accordingly, according to the above distances, the other devices in the device set are divided into 3 subsets, respectively subset 1 (device D), subset 2 (device B, device E), and subset 3 (device C, device F). That is, subset 1 has the highest priority and contains the closest distance to device a, and so on, and subset 3 has the lowest priority and contains the farthest distance to device a.

It is worth mentioning that each subset contains no more than one device, i.e. there may be more than one device belonging to the same priority.

At this time, the priority sequence a' stored in the device a is { (device D), (device B, device E), (device C, device F) }. Therefore, when the device a sends out a local alarm, it will first determine whether the devices included in the subset 1 satisfy the alarm condition of its bed based on the priority sequence a', and if the device D satisfies the alarm condition of its bed, the device D will preferentially provide the alarm of its bed for the device a, otherwise, it will continue to determine whether the devices included in the subsets 2 and 3 satisfy the alarm condition of its bed.

For device B, after receiving the priority sequence a ' sent by device a, the priority of the devices in the device set is adaptively adjusted based on the priority sequence a ' to form a priority sequence B '.

Considering the symmetry of the positions, the device B is farthest from the devices included in the subset 3 of the priority sequence a', and is closer to the devices D and E. At this time, the priority sequence B' stored by the device B is adaptively adjusted to { (device a, device D, device E), (device C, device F) }.

Therefore, when the device B issues a local alarm, it will first determine whether the devices included in the subset 1 satisfy the alarm condition of its bed based on the priority sequence B', and if the devices included in the subset 1 satisfy the alarm condition of its bed, the devices included in the subset 1 provide the alarm condition of its bed for the device B, otherwise, it will continuously determine whether the devices included in the subset 2 satisfy the alarm condition of its bed.

Of course, according to the distance between the device B and the device included in the subset 1, the device B may further adjust the priority for the device included in the subset 1, so as to obtain a more precise priority sequence B' { (device a), (device D), (device E), (device C, and device F) }, and the specific adjustment manner may be selected according to different requirements of the application scenarios on the precision, and is not limited herein.

Referring to fig. 10, in an exemplary embodiment, the method as described above may further include the steps of:

in step 810, the device receives an information feedback request, where the information feedback request is initiated by another device in the device set in the local alarm state.

Step 830, responding to the information feedback request, and feeding back condition status information to other devices in the local alarm state in the device set, where the condition status information is used to indicate whether the device satisfies its bed alarm condition.

And 850, when the condition state information indicates that the equipment meets the alarm condition of the bed, receiving local alarm information sent by other equipment in the local alarm state in the equipment set.

And step 870, performing other bed alarm for other equipment in the local alarm state in the equipment set according to the local alarm information.

In the process, the equipment in the equipment set not only can provide other bed alarms for other equipment in the local alarm state in the equipment set, but also can send out the local alarm when the equipment is in the local alarm state, so that the utilization rate of the equipment is effectively improved.

FIG. 11 is a functional block diagram of a device in an application scenario. Fig. 12 is a schematic diagram of a specific implementation of an apparatus alarm method in an application scenario.

As shown in fig. 11, in this application scenario, the device includes a communication unit 21, a setting unit 22, a detection unit 23, a judgment unit 24, and an alarm unit 25.

As shown in fig. 12, the setting unit 22 executes steps 101 to 102, constructs interconnectable devices into a device set, and configures priorities for the devices therein.

The determining unit 24 executes step 103 to determine whether the device is in a local alarm state, and further notifies the communication unit 21 to receive the condition status information fed back by other devices in the device set, and accordingly notifies the detecting unit 23 to execute step 104 to perform candidate device search in the device set.

After the candidate device is searched, the alarm unit 25 executes steps 106 to 110 to issue, confirm, and cancel the alarm.

In the application scenario, as the number of devices which are interconnected and intercommunicated gradually increases, the probability that medical staff are notified timely is higher, so that the alarm is concerned timely and the processing efficiency is higher, and the problem that the alarm cannot be responded timely in the prior art can be effectively solved.

The following is an embodiment of the apparatus of the present invention, which can be used to execute the device alarm method of the present invention. For details which are not disclosed in the embodiments of the apparatus of the present invention, reference is made to method embodiments of the apparatus alarm method according to the present invention.

Referring to FIG. 13, in an exemplary embodiment, an equipment alert device 900 includes, but is not limited to: a feedback request receiving module 910, a status information feedback module 930, an alarm information receiving module 950, and a bed alarm module 970.

The feedback request receiving module 910 is configured to receive, by a device, an information feedback request, where the information feedback request is initiated by another device in the local alarm state in the device set.

The status information feedback module 930 is configured to, in response to the information feedback request, feed back conditional status information to other devices in the device set that are in a local alarm state, where the conditional status information is used to indicate whether the device satisfies its bed alarm condition.

The alarm information receiving module 950 is configured to receive local alarm information sent by other devices in the device set in a local alarm state when the condition status information indicates that the device satisfies its bed alarm condition.

The bed alarm module 970 is configured to perform bed alarm for other devices in the device set that are in a local alarm state according to the local alarm information.

It should be noted that, when the device alarm apparatus provided in the above embodiment issues a local alarm or other bed alarm, the division of the above functional modules is merely used as an example, and in practical applications, the above functions may be distributed by different functional modules according to needs, that is, the internal structure of the device alarm apparatus is divided into different functional modules to complete all or part of the above described functions.

In addition, the embodiments of the device alarm apparatus and the device alarm method provided by the above embodiments belong to the same concept, and the specific manner in which each module executes operations has been described in detail in the method embodiments, and is not described again here.

Referring to fig. 14, in an exemplary embodiment, an apparatus alarm device 1000 includes at least one processor 1001, at least one memory 1002, and at least one communication bus 1003.

Wherein the memory 1002 has computer readable instructions stored thereon, the processor 1001 reads the computer readable instructions from the memory 1002 through the communication bus 1003.

The computer readable instructions, when executed by the processor 1001, implement the device alarm method in the embodiments described above.

In an exemplary embodiment, a computer readable storage medium has a computer program stored thereon, and the computer program, when executed by a processor, implements the device alarm method in the above embodiments.

The above-mentioned embodiments are merely preferred examples of the present invention, and are not intended to limit the embodiments of the present invention, and those skilled in the art can easily make various changes and modifications according to the main concept and spirit of the present invention, so that the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (11)

1. An apparatus alarm method, comprising:

the method comprises the steps that the equipment receives an information feedback request, wherein the information feedback request is initiated by other equipment in a local alarm state in an equipment set;

responding to the information feedback request, and feeding back condition state information to other equipment in a local alarm state in the equipment set by detecting an alarm condition of the equipment in other beds, wherein the condition state information is used for indicating whether the equipment meets the alarm condition of the equipment in other beds, and the alarm condition of the equipment refers to the fact that medical staff are nearby the equipment;

when the condition state information indicates that the equipment meets the alarm condition of other beds, receiving local alarm information sent by other equipment in a local alarm state in the equipment set;

and performing other bed alarm for other equipment in the local alarm state in the equipment set according to the local alarm information.

2. The method of claim 1, wherein said feeding back condition status information to other devices in the set of devices in a local alarm state by detecting other bed alarm conditions of the device in response to the information feedback request comprises:

performing image tracking identification according to the information feedback request;

and generating the condition state information from the identified image data, and feeding back the condition state information to other equipment in the local alarm state in the equipment set.

3. The method of claim 1, wherein said feeding back condition status information to other devices in the set of devices in a local alarm state by detecting other bed alarm conditions of the device in response to the information feedback request comprises:

detecting interface operation according to the information feedback request;

and feeding back the condition state information to other equipment in the local alarm state in the equipment set according to the detected interface operation.

4. The method of claim 1, wherein said performing other bed alerts for other devices in the set of devices that are in a local alert state based on the local alert information comprises:

and entering a bed alarm state according to the local alarm information so as to provide bed alarm for other equipment in the local alarm state in the equipment set.

5. The method of claim 4, wherein entering its bed alarm state based on the local alarm information comprises:

adjusting the position of the local monitoring window in the display interface for the integration of the alarm window of other beds;

and loading the local alarm information to the alarm window of the other bed, and displaying the alarm window of the other bed in the display interface with the position adjusted.

6. The method of claim 5, wherein the method further comprises:

deactivating its bed alarm in the device when other devices in the set of devices exit the local alarm state;

and clearing the alarm window of the other bed in a display interface through the alarm release of the other bed.

7. The method of claim 1, wherein the method further comprises:

when the equipment is in a local alarm state through local alarm detection, receiving condition state information fed back by other equipment in the equipment set;

searching the equipment set for other equipment meeting the alarm condition of other beds according to the indication of the condition state information;

and sending local alarm information to other equipment meeting the alarm condition of other beds in the equipment set so as to control other equipment meeting the alarm condition of other beds in the equipment set to alarm other beds for the equipment.

8. The method of any of claims 1 to 7, further comprising:

constructing the equipment set in the equipment, wherein other equipment in the equipment set is interconnected and intercommunicated with the equipment;

accordingly, the method further comprises:

performing online state detection on the equipment in the equipment set, and rejecting the equipment in an offline state from the equipment set; and/or

And detecting the alarm identifier of other bed of the equipment in the equipment set, and removing the equipment which does not start the alarm identifier of other bed from the equipment set, wherein the start of the alarm identifier of other bed indicates that the equipment supports the alarm of other bed.

9. The method of any of claims 1 to 7, further comprising:

configuring priorities for devices in the set of devices;

accordingly, the configuring priorities for the devices in the set of devices includes:

obtaining the distance between the equipment and other equipment in the equipment set;

dividing the equipment in the equipment set into a plurality of subsets with different priorities according to the obtained distance, wherein the priority of each subset reflects the distance between the equipment contained in the subset and the equipment;

and generating a priority sequence according to the plurality of subsets and the priorities thereof, and forwarding the priority sequence to the other equipment so that the other equipment can adaptively adjust the priority for the equipment in the equipment set according to the priority sequence.

10. An equipment alarm device, comprising:

a feedback request receiving module, configured to receive an information feedback request by a device, where the information feedback request is initiated by another device in a local alarm state in a device set;

a state information feedback module, configured to respond to the information feedback request, and feedback condition state information to other devices in a local alarm state in the device set by detecting an alarm condition of the other device, where the condition state information is used to indicate whether the device satisfies the alarm condition of the other device, and the alarm condition of the other device indicates that a medical worker is near the device;

the alarm information receiving module is used for receiving local alarm information sent by other equipment in a local alarm state in the equipment set when the condition state information indicates that the equipment meets the alarm condition of other beds;

and the bed alarm module is used for giving other bed alarms for other equipment in the local alarm state in the equipment set according to the local alarm information.

11. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the device alarm method according to any one of claims 1 to 9.

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