CN117649739A

CN117649739A - Alarm information generation method, device, equipment and medium based on target building

Info

Publication number: CN117649739A
Application number: CN202311735806.0A
Authority: CN
Inventors: 田美乔
Original assignee: China United Network Communications Group Co Ltd
Current assignee: China United Network Communications Group Co Ltd
Priority date: 2023-12-15
Filing date: 2023-12-15
Publication date: 2024-03-05

Abstract

The alarm information generation method, device, equipment and medium based on the target building are applied to the technical field of intelligent building application. When the alarm device of the target building is determined to alarm, a target alarm processing scheme is determined according to the target alarm space position of the alarm device and an alarm scene processing library, meanwhile, target abnormal personnel are determined according to the number information of a plurality of building personnel with association relation with the target building and the alarm space position, and finally, alarm prompt information is generated according to the target alarm processing scheme and the target abnormal personnel. The method not only solves the problem that the warning phenomenon which occurs in the target building cannot be universally warned and the integrated derivative service related to the identities of building staff can not be carried out, but also improves the intelligent degree of the target building system, thereby reducing the enterprise management cost and improving the use satisfaction degree of the building staff.

Description

Alarm information generation method, device, equipment and medium based on target building

Technical Field

The application relates to the technical field of intelligent building applications, in particular to an alarm information generation method, device, equipment and medium based on a target building.

Background

With the rapid development of technology and the advent of an information society, the concept of intelligent building has gradually become a mainstream trend of the building industry and urban planning. The intelligent building realizes high-efficiency and intelligent management of the building by integrating various advanced technologies and devices, and improves the use experience and safety of the building. Over the past few years, the development of intelligent buildings has gained widespread attention and acceptance, and many cities are actively propelling the construction of intelligent buildings.

Despite the significant advances made in the development of intelligent buildings, there are still problems. First, the existing intelligent building system is usually designed according to specific scenes, such as fire alarm, smoke feeling, and the like, has strong singleness, and cannot cope with diversified abnormal situations. Second, the docking between different systems presents a barrier, resulting in limited capability of basic connectivity services, basic functionality services, and first time to identify multiple situations. In addition, the lack of integrated derivative services related to the identities of building personnel cannot meet the personalized demands of the building personnel. Finally, the intelligent building system has the defect in scene linkage after the single condition is processed to trigger the alarm, so that part of scene functions cannot be known at the first time, and the management cost is increased.

Therefore, how to solve the problems of warning phenomena occurring in a target building, universal early warning, integrated derivative services related to building personnel identities and the like, and thus solve the problem of linkage of warning scenes is a technical problem which needs to be solved at present.

Disclosure of Invention

The application provides an alarm information generation method, device, equipment and medium based on a target building, which are used for solving the problems that the alarm phenomenon which occurs in the target building cannot be subjected to universal early warning, integrated derivative service related to the identity of building personnel, alarm scene linkage and the like.

In a first aspect, the present application provides a method for generating alarm information based on a target building, the method. Comprising the following steps:

determining a plurality of building personnel with a first association relationship with a target building in real time, and generating corresponding numbering information for each building personnel;

when the alarm device of the target building is determined to alarm, determining a target alarm space position according to the identification information of the alarm device and a three-dimensional building model of the target building, wherein the target alarm space position is used for indicating the space position of the alarm device generating the alarm in the target building;

Determining target abnormal personnel according to the plurality of numbered information and the target alarm space position, and determining a target alarm processing scheme according to the target alarm space position and an alarm processing scheme library;

and generating alarm prompt information according to the target abnormal personnel and the target alarm processing scheme.

Optionally, the determining the abnormal target person according to the plurality of number information and the target alarm space position includes:

according to the plurality of numbered information, determining the user information of each building personnel, wherein the user information comprises: building space positions of each building personnel;

determining a plurality of abnormal building personnel according to the target alarm space position and the building space positions, wherein the abnormal building personnel are used for indicating abnormal relation with the alarm device with alarm;

and screening the building personnel to obtain the target abnormal personnel.

Optionally, the alarm processing scheme library includes: the method comprises the steps of determining a target alarm processing scheme according to the target alarm space position and an alarm processing scheme library, wherein the target alarm processing scheme comprises a plurality of candidate alarm scenes and alarm processing schemes corresponding to each candidate alarm scene, and the method comprises the following steps:

Determining a target alarm scene from the plurality of candidate alarm scenes according to the target alarm space position;

and determining the target alarm processing scheme according to the target alarm scene and the alarm processing schemes.

Optionally, the method further comprises:

obtaining an emergency alarm processing scheme library, wherein the emergency alarm processing scheme library comprises: the plurality of candidate alarm scenes and emergency linkage schemes corresponding to the candidate alarm scenes;

determining a target emergency linkage scheme according to the target alarm scene and the plurality of emergency linkage schemes, and sending the target emergency linkage scheme to an emergency linkage system;

and when the emergency linkage system receives the target emergency linkage scheme, controlling the emergency linkage system to execute the emergency linkage scheme.

Optionally, before determining, in real time, a plurality of building personnel having a first association relationship with the target building, the method further includes:

acquiring a building information base of the target building, wherein the building information base comprises: building structure information and building space layout information;

and generating the three-dimensional building model according to the building structure information and the building space layout information, wherein the three-dimensional building model comprises a plurality of alarm devices, and the spatial positions of each alarm device in the three-dimensional building model are different.

Optionally, after generating the alarm prompt information according to the target abnormal person and the target alarm processing scheme, the method further includes:

acquiring a building manager information base, wherein the building manager information base comprises: the plurality of candidate alarm scenes and management personnel corresponding to each candidate alarm scene;

determining target management personnel according to the target alarm scene and the plurality of management personnel;

pushing the alarm prompt information to the user terminal of the target manager according to a preset period;

and stopping pushing the alarm prompt information to the user terminal when receiving the determination instruction sent by the user terminal.

In a second aspect, the present application provides an alarm information generating device based on a target building, the device including:

the determining module is used for determining a plurality of building personnel with a first association relation with the target building in real time and generating corresponding numbering information for each building personnel;

the determining module is further used for determining a target alarm space position according to the identification information of the alarm device and the three-dimensional building model of the target building when the alarm device of the target building is determined to alarm, wherein the target alarm space position is used for indicating the space position of the alarm device which alarms in the target building;

The determining module is further used for determining target abnormal personnel according to the plurality of numbered information and the target alarm space positions, and determining a target alarm processing scheme according to the target alarm space positions and an alarm processing scheme library;

and the generating module is used for generating alarm prompt information according to the target abnormal personnel and the target alarm processing scheme.

Optionally, the determining module is further configured to determine, according to a plurality of number information, user information of each building personnel, where the user information includes: building space positions of each building personnel;

the determining module is further used for determining a plurality of abnormal building personnel according to the target alarm space position and the building space positions, and the abnormal building personnel are used for indicating abnormal relation with the alarm device with alarm;

the apparatus further comprises: a processing module;

and the processing module is used for screening the plurality of building personnel to obtain the target abnormal personnel.

Optionally, the determining module is further configured to determine a target alarm scene from the plurality of candidate alarm scenes according to the target alarm spatial position;

The determining module is specifically configured to determine the target alarm processing scheme according to the target alarm scene and the multiple alarm processing schemes.

Optionally, the apparatus further includes: an acquisition module;

the acquisition module is used for acquiring an emergency alarm processing scheme library, and the emergency alarm processing scheme library comprises: the plurality of candidate alarm scenes and emergency linkage schemes corresponding to the candidate alarm scenes;

the determining module is further used for determining a target emergency linkage scheme according to the target alarm scene and the emergency linkage schemes;

the apparatus further comprises: a transmitting module;

the sending module is used for sending the target emergency linkage scheme to an emergency linkage system;

the apparatus further comprises: a control module;

and the control module is used for controlling the emergency linkage system to execute the emergency linkage scheme when the emergency linkage system receives the target emergency linkage scheme.

Optionally, the obtaining module is further configured to obtain a building information base of the target building, where the building information base includes: building structure information and building space layout information;

the generation module is further configured to generate the three-dimensional building model according to the building structure information and the building space layout information, where the three-dimensional building model includes a plurality of alarm devices, and each alarm device has a different spatial position in the three-dimensional building model.

Optionally, the obtaining module is further configured to obtain a building manager information base, where the building manager information base includes: the plurality of candidate alarm scenes and management personnel corresponding to each candidate alarm scene;

the determining module is further used for determining target management personnel according to the target alarm scene and the plurality of management personnel;

the apparatus further comprises: a pushing module;

the pushing module is used for pushing the alarm prompt information to the user terminal of the target manager according to a preset period;

the apparatus further comprises: stopping the module;

and the stopping module is used for stopping pushing the alarm prompt information to the user terminal when receiving the determining instruction sent by the user terminal.

In a third aspect, the present application provides an alarm information generating device based on a target building, including:

a memory;

a processor;

wherein the memory stores computer-executable instructions;

the processor executes the computer-executable instructions stored in the memory to implement the method for generating alarm information based on a target building as described in the first aspect and the various possible implementation manners of the first aspect.

In a fourth aspect, the present application provides a computer storage medium having stored thereon computer-executable instructions that are executed by a processor to implement the method for generating targeted building-based alert information as described in the first aspect and the various possible implementations of the first aspect.

According to the alarm information generation method based on the target building, when the alarm device of the target building is determined to alarm, a target alarm processing scheme is determined according to the target alarm space position of the alarm device and the alarm scene processing library, meanwhile, target abnormal persons are determined according to the number information of a plurality of building persons in association with the target building and the alarm space position, and finally, alarm prompt information is generated according to the target alarm processing scheme and the target abnormal persons. The method not only solves the problem that the warning phenomenon which occurs in the target building cannot be universally warned and the integrated derivative service related to the identities of building staff can not be carried out, but also improves the intelligent degree of the target building system, thereby reducing the enterprise management cost and improving the use satisfaction degree of the building staff.

Drawings

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

Fig. 1 is a flowchart one of a method for generating alarm information based on a target building provided in the present application;

fig. 2 is a second flowchart of the method for generating alarm information based on a target building provided in the present application;

fig. 3 is a flowchart III of the alarm information generating method based on the target building provided by the application;

fig. 4 is a schematic structural diagram of the alarm information generating device based on the target building provided by the application;

fig. 5 is a schematic structural diagram of the alarm information generating device based on the target building.

Specific embodiments thereof have been shown by way of example in the drawings and will herein be described in more detail. These drawings and the written description are not intended to limit the scope of the inventive concepts in any way, but to illustrate the concepts of the present application to those skilled in the art by reference to specific embodiments.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the present application will be clearly and completely described below with reference to the drawings in the present application, and it is apparent that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented, for example, in sequences other than those illustrated or otherwise described herein.

In the embodiments of the present application, words such as "exemplary" or "such as" are used to mean examples, illustrations, or descriptions. Any embodiment or design described herein as "exemplary" or "for example" should not be construed as preferred or advantageous over other embodiments or designs. Rather, the use of words such as "exemplary" or "such as" is intended to present related concepts in a concrete fashion.

With rapid development of technology and formation of an information society, intelligent buildings gradually become an important development direction of building industry and urban planning. Through integrating various advanced technologies and devices, the intelligent building can realize high-efficiency and intelligent management of the building, and the use experience and safety of the building are improved. In recent years, the development of intelligent buildings has been receiving a great deal of attention, and many cities are actively advancing the construction of intelligent buildings.

Despite certain advances in the development of intelligent buildings, there are still problems. First, existing intelligent building systems are often designed based on specific scenarios, such as fire alarms, smoke detection, etc., and this singleness limits the ability of the system to cope with diverse anomalies. Second, there is a barrier to connections between different systems, resulting in limited capability of basic connectivity services, basic functionality services, and first time to identify multiple situations. In addition, the lack of integrated derivative services related to the identities of building personnel cannot meet the personalized demands of the building personnel. Finally, the intelligent building system has the defect in scene linkage after the single condition is processed to trigger the alarm, so that part of scene functions cannot be known at the first time, and the management cost is increased.

The following describes the technical solutions of the present application and how the technical solutions of the present application solve the above technical problems in detail with specific embodiments. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 is a flowchart one of a method for generating alarm information based on a target building according to an embodiment of the present application. As shown in fig. 1, the method for generating alarm information based on a target building according to the embodiment includes:

s101: and determining a plurality of building personnel with a first association relationship with the target building in real time, and generating corresponding numbering information for each building personnel.

Wherein the first association includes, but is not limited to, a physical location relationship between building personnel and a target building.

Because there are a plurality of users in and out of the target building, respectively, when it is determined that a user is approaching the target building, the approaching user needs to be numbered to track the out-of-building motion trajectories of the users, and similarly, when a user enters the target building, the user entering the target building needs to be numbered to track the in-building motion trajectories of the users entering the building. In addition, if it is determined that the user behavior of a user close to the target building or a user in the target building is abnormal, the user with abnormal behavior action is renumbered so as to better perform abnormality processing and coping.

It will be appreciated that since there are multiple users walking outside the building of the target building, and different users have different trajectories and behavioural actions, such as stopping at the doorway of the target building, walking through the target building, entering the target building, etc., when the target building detects that there are users approaching the target building, the target building will number those approaching users to determine whether they are entering the target building, or are away from the target building.

Similarly, when a target building detects that a user enters the target building, the target building renumbers the user entering the target building so as to track the in-building movement track of the user entering the building.

In addition, when the target building monitors that the user behavior of a user close to the target building or a user in the target building is abnormal, for example, abnormal aggregation, destructive behavior, illegal invasion and the like, the monitoring system renumbers the user with abnormal behavior so as to track the abnormal motion track in the building of the user entering the building.

For example, assuming that the target building is a mall, the monitoring system of the mall may detect in real time users approaching the mall and users entering the mall. When users are approaching the mall, the system may number the users to track the movement of the users outside the mall to determine if the users enter the mall. When these customers enter the mall, the system numbers them again to track the movement track of these users within the mall. If the phenomenon of abnormal aggregation in the market is detected, the monitoring system of the market can number a plurality of users in the phenomenon so as to determine the abnormal behaviors of the plurality of users in the market.

Optionally, different building personnel have different numbering manners, so when a plurality of building personnel having a first association with a target building are determined, the manner of numbering each building personnel includes, but is not limited to, the following:

1) If a user approaches the target building, numbering the user approaching the target building according to a first numbering rule:

wherein D is a user variable approaching the target building, k is a serial number subvariable corresponding to the user variable, ijt is a specific value range subvariable of the user variable in the three-dimensional space of the target building.

2) If a user enters the target building, numbering the user entering the target building according to the following second numbering rule:

wherein T is a user variable entering a target building, k is a serial number subvariable corresponding to the user variable, ijt is a specific value range subvariable of the user variable in a three-dimensional space of the target building.

3) If the behavior actions of the users in the target building are abnormal, numbering the users with abnormal behavior actions according to the following third numbering rule:

wherein F is a user variable with abnormal behavior in the target building, k is a serial number subvariable corresponding to the user variable, ijt represents a specific value range subvariable of the user variable in the three-dimensional space of the target building.

Further, the first numbering rule, the second numbering rule, and the third numbering rule may collectively comprise a target processing formula, including, but not limited to, the following:

α+β+γ＝1

wherein α is a coefficient of the first numbering rule, β is a coefficient of the second numbering rule, γ is a coefficient of the third numbering rule, and coefficients of α, β and γ are all in a range of 0 to 1.

In order to be in the range of the area of the target building, according to the user number of the user approaching the target buildingUser number of user entering target building +.>And user number +.>The target results are obtained together.

Optionally, because different application scenes are corresponding under different building conditions, the optimal matching scheme min theta is determined according to the different application scenes ^k Including but not limited to the following:

wherein θ ^k For the answer obtained by equation 1, i.e. the target result,is min theta ^k And theta ^k The corresponding correlation coefficient.

Optionally, because each building personnel needs to correspond to specific numbering information to avoid repeatability, when numbering each building personnel, a recursive manner is generally adopted to generate corresponding numbering information for each building personnel. The recursive manner in which this application is concerned includes, but is not limited to, the following:

Wherein T is ^{min G} The number of people with the least number is D ^{min G} To meet the situation, the number of personnel is the least, F ^{min G} Is a numbered person conforming to the situation.

By carrying out automatic unsupervised learning on the formula 1 and the formula 2 and combining the formula 3, the formula 4 and the formula 5, the self recursion of the variables is realized together, so that the optimal result can be obtained according to different scenes.

S102: when the alarm device of the target building is determined to alarm, determining a target alarm space position according to the identification information of the alarm device and the three-dimensional building model of the target building, wherein the target alarm space position is used for indicating the space position of the alarm device generating the alarm in the target building.

The purpose of determining the spatial position of the target alarm is to accurately locate the specific position of the alarm device generating the alarm in the target building.

By determining the target alarm space position, the occurrence place of the alarm event can be known more accurately, so that more effective measures can be taken for dealing.

It can be understood that, because the three-dimensional building model of the target building records the identification information and the specific coordinate position of the alarm device in detail, when the alarm device of the target building triggers an alarm, the accurate coordinate position of the alarm device triggering the alarm can be determined jointly by inquiring the three-dimensional building model and combining the identification information of the alarm device with the alarm.

For example, assuming that the target building is a shopping mall, the three-dimensional model of the shopping mall records the identification information (such as device ID, type, etc.) and specific coordinate positions (such as floor, shop position, etc.) of each alarm device in detail, and when any alarm device in shopping is alarmed, the position of the device 123 in the second floor of the shopping mall, near the dining area, can be determined according to the identification information "device 2B" of the alarm, in combination with the three-dimensional building model.

S103: and determining target abnormal personnel according to the plurality of numbered information and the target alarm space position, and determining a target alarm processing scheme according to the target alarm space position and an alarm processing scheme library.

The number of the target abnormal person may be, for example, 1 or a plurality of the target abnormal persons, and the present application is not particularly limited.

By determining the target abnormal person it is meant that a person having abnormal behavior in the target building can be obtained, while by determining the target alarm handling scheme it is meant that a specific handling method for the alarm situation occurring in the alarm device can be obtained.

It can be understood that when the alarm device of the target building alarms, specific coordinate position information of the alarm device triggering the alarm can be determined by inquiring the three-dimensional model and combining with the identification information of the alarm device, and further, the personnel with abnormal behaviors at the position can be determined, so that the corresponding processing mode can be better determined for the building personnel with abnormal behaviors.

Meanwhile, by determining a target alarm processing scheme, a specific processing method aiming at the alarm condition of the alarm device can be obtained. Such treatment methods include, for example, notifying security personnel to go to the field for treatment, emergency evacuating personnel, providing corresponding emergency services, and the like.

S104: and generating alarm prompt information according to the target abnormal personnel and the target alarm processing scheme.

The alarm prompt information is used for providing an alarm processing mode of the target building for the manager of the target building.

The purpose of generating alarm prompts is to provide timely and accurate alarms and indications to help the relevant manager to quickly respond to and process alarm events.

It can be appreciated that by generating alarm prompt messages, these key messages can be communicated to the relevant manager so that they can quickly learn about the alarm condition and take effective action according to the processing scheme. Such measures may include informing security personnel to go to the scene, evacuating personnel in an emergency, providing corresponding emergency services, etc.

Meanwhile, the alarm prompt information can also provide detailed description and suggestion about alarm events, so that related management personnel can be helped to better understand and handle abnormal situations. Therefore, the risks of misjudgment and false action can be reduced, and the processing efficiency and quality are improved.

According to the alarm information generation method based on the target building, firstly, a plurality of building personnel with association relation with the target building are determined in real time, corresponding number information is generated for each building personnel, meanwhile, when an alarm device of the target building is determined to give an alarm, the target alarm space position is determined according to the identification information of the alarm device and a three-dimensional building model of the target building, then, the target space position is determined according to the plurality of number information and the three-dimensional building model of the target building, meanwhile, target abnormal personnel are determined according to the plurality of number information and the target alarm space position, a target alarm processing scheme is determined according to the target alarm space position and an alarm scene processing library, and finally, alarm prompt information is generated according to the target abnormal personnel and the target alarm processing scheme. The method not only solves the problem that the universal early warning and the integrated derivative service related to the identities of building personnel cannot be carried out on the alarm phenomenon which occurs in the target building, but also further improves the intelligent degree of the target building system, thereby reducing the enterprise management cost and improving the use satisfaction degree of the building personnel. By the method, enterprises can manage building facilities more efficiently and provide better service, so that the competitiveness is improved.

Fig. 2 is a second flowchart of a method for generating alarm information based on a target building according to an embodiment of the present application. The embodiment is a detailed description of a specific implementation process of the alarm information generation method based on the target building based on the embodiment of fig. 1. As shown in fig. 2, the method for generating alarm information based on a target building according to the present embodiment includes:

s201: acquiring a building information base of the target building, wherein the building information base comprises: building structure information and building space layout information.

The building structure information includes, for example, a physical structure, building characteristics, floor layout, and the like of the target building. Building space layout information includes, for example, an internal space distribution of a target building, a location of a public area, and the like.

By acquiring building structure information of the target building, the overall structure of the target building can be obtained. And the building service condition of the target building can be obtained through the building space layout information of the target building.

It can be understood that the overall structure of the building, including building characteristics, floor layout and the like, can be known by acquiring the building structure information of the target building so as to better understand the building characteristics and potential safety hazards of the target building and provide important basis for safety prevention and disaster emergency. The use condition of the building, including the functions of each room, the position of the public area and the like, can be known by acquiring the building space layout information of the target building, so that the space distribution characteristics in the target building can be better understood, and an important basis is provided for safety prevention and disaster emergency.

The method for acquiring the building information base of the target building can be obtained by referring to the design drawing of the target building, can be obtained by a remote sensing technology, and can be obtained by a building information model. This is not particularly limited in this application.

S202: and generating the three-dimensional building model according to the building structure information and the building space layout information, wherein the three-dimensional building model comprises a plurality of alarm devices, and the spatial positions of each alarm device in the three-dimensional building model are different.

By generating a three-dimensional building model, it is meant that the target building can be presented in a three-dimensional, three-dimensional form, rather than merely by a conventional plan view or two-dimensional image. The three-dimensional presentation mode is more visual and real, and the internal and external structures and the spatial layout of the building and the specific positions of the alarm devices in the building can be better displayed.

It can be appreciated that by generating a three-dimensional building model, a three-dimensional building model can be obtained, and the model can more truly and intuitively display the appearance, the internal structure and the spatial layout of the target building. This approach is more stereoscopic and vivid than traditional floor or two-dimensional images, allowing us to better understand the actual construction and spatial distribution of the building.

Meanwhile, the model can also display the specific positions of the alarm devices in the building, including the types, distribution conditions and the like of the alarm devices. So as to better understand the layout and distribution of the alarm devices in the target building.

The three-dimensional building model may be generated, for example, by means of image modeling, or by means of BIM modeling software. This is not particularly limited in this application.

S203: and determining a plurality of building personnel with a first association relationship with the target building in real time, and generating corresponding numbering information for each building personnel.

The explanation of step S203 is similar to that of step S101, and will not be repeated here.

S204: when the alarm device of the target building is determined to alarm, determining a target alarm space position according to the identification information of the alarm device and the three-dimensional building model of the target building, wherein the target alarm space position is used for indicating the space position of the alarm device generating the alarm in the target building.

The explanation of step S204 is similar to that of step S102, and will not be repeated here.

S205: according to the plurality of numbered information, determining the user information of each building personnel, wherein the user information comprises: the building space position of each building personnel.

Because the position information of the building personnel is not fixed, the spatial position information of each building personnel in the target building can be obtained according to the number information of each building personnel. The spatial position information is usually expressed in the form of three-dimensional coordinates, including coordinate values in three directions of x, y and z, i.e. coordinate values in three directions of i, j and t are obtained.

It will be appreciated that the location information of building personnel is not fixed as the building personnel may move between different locations within the target building, rather than stay in the same location all the time.

Because each building personnel has a unique number, the number can be used for identifying the identity and the position of each building personnel, and the specific building space position of each building personnel in the target building can be obtained according to the number information of each building personnel.

For example, assume that the target building is an office building in which there are multiple rooms and hallways. Each building personnel has a unique number, such as 1001, 1002, 1003, etc. By recording the position information of each building personnel in the room and corridor, the spatial position information of each building personnel can be obtained, so that the walking track or the behavior action of each user in the office building can be determined according to the information.

S206: and determining a plurality of abnormal building personnel according to the target alarm space position and the building space positions.

The abnormal building personnel are used for indicating abnormal relation with the alarm device which gives an alarm.

The purpose of obtaining a plurality of abnormal building personnel is to more fully understand all relevant personnel having abnormal relations with the alarm device which gives an alarm.

It can be understood that, because the person with abnormal relation with the alarm device may be ignored when the person with abnormal relation is directly obtained, the situation of missing or false alarm is caused, so by combining the target alarm space position and the building space positions, all the related persons with abnormal relation with the alarm device with alarm can be obtained more comprehensively.

For example, assume that in a large office building, a plurality of alarm devices are installed, one of which triggers an alarm, indicating that smoke is found at a floor. If the target abnormal personnel are determined directly according to the triggering information of the alarm device, other personnel having abnormal relation with the alarm device can be ignored. Thus, in the case of smoke alarms, in addition to the floor on which the alarm is triggered, the people on other floors may also be affected by smoke diffusion.

Thus, by combining the target alarm space position and the plurality of building space positions, it is possible to obtain that staff on the other adjacent floors are also determined as abnormal building staff in addition to staff corresponding to the floor on which the alarm is triggered.

S207: and screening the building personnel to obtain the target abnormal personnel.

The method comprises the steps of screening a plurality of building personnel to obtain the personnel with abnormal behaviors in a target building and the most direct and key abnormal relation with an alarm device.

It will be appreciated that while a plurality of building personnel may all have some abnormal relationship with the alarm device, not all are at the heart of an abnormal relationship. By screening, the person with the most direct and most critical abnormal relation with the alarm device, namely the target abnormal person, can be determined.

Also, if all abnormal building personnel are handled directly, the workload and complexity of the handling may be increased. By screening, people with the most direct and most critical abnormal relation with the alarm device can be preferentially processed, and the processing efficiency is improved.

In addition, the target abnormal personnel are the personnel with the most direct and most critical abnormal relation with the alarm device, and the problem can be more rapidly solved for the treatment of the target abnormal personnel. Through screening treatment, the problems can be more pertinently solved, and the efficiency and quality for solving the problems are improved.

Therefore, after a plurality of building personnel are obtained, the target abnormal personnel are obtained through screening treatment, so that the problems can be solved more efficiently and pertinently, and the treatment efficiency and accuracy are improved.

For example, in a large commercial complex, a plurality of monitoring cameras and alarm devices are installed. One of the monitoring cameras captures abnormal behaviors and triggers an alarm. By combining the target alarm space position and the building space positions, a plurality of building personnel associated with the abnormal behavior can be determined, wherein the abnormal personnel comprise: building personnel at the floor where the abnormal behavior occurs, building personnel at adjacent floors, and all building personnel in the area that may be involved.

Then, these abnormal building personnel are subjected to screening processing. By analyzing the factors such as their behavior, location, time, etc., it can be determined that there is an employee whose behavior abnormality is apparent and which is highly matched to the time and location of the abnormal behavior, so that he is determined as the target abnormal person.

S208: the alarm processing scheme library comprises: and determining a target alarm scene from the plurality of candidate alarm scenes according to the target alarm space position.

The purpose of determining the target alarm scene is to more accurately understand and process the abnormal event, and provide accurate information and guidance for subsequent fault removal, emergency response and the like.

Because the alarm processing scheme library comprises a plurality of types of alarm scenes, and different alarm scenes have different alarm conditions and alarm positions, the target alarm scene which is more in line with the current alarm condition can be obtained by combining the target alarm space position and the alarm processing scheme library.

It can be understood that by analyzing the alarm condition and the alarm position of the target alarm space position and combining the alarm processing scheme library, it means that the alarm scene matched with the target alarm space position can be searched from the alarm processing scheme library. The matching is based on comprehensive consideration of various factors such as alarm type, alarm position, alarm time and the like, so that the occurrence cause and influence range of the abnormal event can be more comprehensively known, and more comprehensive information support is provided for subsequent fault removal and prevention measures.

For example, the alarm processing scheme library comprises smoke and fire alarm scenes, illegal invasion of non-target building users, theft of intelligent elements in the target building, disputes of the target building users, other unknown noise and other intra-building roads and space blockage, and the current target alarm scene is that the target building is fire, so that the smoke and fire alarm scenes are most matched from the alarm processing scheme library.

S209: and determining the target alarm processing scheme according to the target alarm scene and the alarm processing schemes.

Because different alarm scenes have different processing schemes, when a target alarm scene is obtained, in order to timely process and solve the alarm processing scheme of the target alarm scene, the target alarm processing scheme needs to be determined from a plurality of alarm processing schemes in an alarm processing scheme library.

It will be appreciated that different alarm scenarios may require different processing schemes, as they may involve different types of anomalies, different ranges of impact, etc. Therefore, by combining the target alarm scene and a plurality of alarm processing schemes, the processing scheme which is the most matched with the scene, namely the target alarm processing scheme, can be determined, so that correct processing measures can be ensured to be adopted aiming at a specific alarm scene, the situations of false alarm and missing alarm are reduced, and the accuracy and the efficiency of alarm processing are improved. Meanwhile, the method is helpful for understanding the processing method and the influence range of the abnormal event more comprehensively, and provides more comprehensive information support for subsequent fault removal and preventive measures.

The mode of acquiring the alarm processing scheme library can be acquired by a database query mode, a file reading mode or an interface calling mode, for example. This is not particularly limited in this application.

S210: and generating alarm prompt information according to the target abnormal personnel and the target alarm processing scheme.

The explanation of step S210 is similar to that of step S104, and will not be repeated here.

S211: acquiring a building manager information base, wherein the building manager information base comprises: the system comprises a plurality of candidate alarm scenes and management personnel corresponding to each candidate alarm scene.

The purpose of acquiring the building manager information base is to quickly find out corresponding managers when processing alarm events, so as to coordinate and process related problems in time.

It will be appreciated that in a large building or facility, there may be multiple alarm scenarios, each requiring a respective manager to be responsible for processing. If an abnormal event occurs, the acquisition of the building manager information base can quickly determine the manager associated with the event so as to timely inform them and coordinate the processing.

In addition, the building manager information base can also provide information such as contact information, responsibility range and the like of each manager, so that the responsibility and the capacity of each manager can be more comprehensively known, and more comprehensive information support is provided for subsequent fault elimination and prevention measures.

The method for acquiring the building manager information base can be acquired by a database query mode, a file reading mode or an interface calling mode, for example. This is not particularly limited in this application.

S212: and determining target management personnel according to the target alarm scene and the plurality of management personnel.

Because the building manager information base contains a plurality of managers corresponding to a plurality of candidate alarm scenes, when a target alarm scene is determined, the target alarm scene and the plurality of managers need to be combined for consideration in order to accurately and quickly determine the manager capable of processing the target alarm scene.

It can be appreciated that the combination of the target alarm scenario with the plurality of administrators is to more accurately determine the administrators who can handle the target alarm scenario, and provide effective guidance and support for subsequent troubleshooting, emergency response, and the like. Meanwhile, the processing method and the influence range of the abnormal event can be more comprehensively known by comparing the responsibilities and the capabilities of different management staff, and more comprehensive information support is provided for subsequent fault removal and preventive measures.

S213: and pushing the alarm prompt information to the user terminal of the target manager according to a preset period.

When the target manager is determined, in order to enable the target manager to timely process the alarm scene, alarm prompt information needs to be pushed to a user terminal of the target manager according to a preset period.

It can be understood that, first, according to a preset period, the frequency and time for pushing the alarm prompt information can be determined, and then, the alarm prompt information is pushed to the user terminal of the target manager in a certain manner (such as a short message, a text or a video, etc.).

Therefore, the pushing process can ensure that the target manager can timely and accurately receive the alarm prompt information, so that the target manager can timely process and solve the related problems. Meanwhile, the alarm prompt information is pushed through the preset period, so that the disturbance to target management staff can be reduced, and the working efficiency of the target management staff is improved.

S214: and stopping pushing the alarm prompt information to the user terminal when receiving the determination instruction sent by the user terminal.

The purpose of judging whether the determining instruction sent by the user terminal is received is to determine whether the target manager receives the alarm prompt information.

It will be appreciated that when the alert message is pushed to the user terminal of the target manager, the target manager may be required to send a confirmation instruction, such as confirming the received reply, clicking the confirmation button, etc., after receiving the alert message, in order to confirm whether they successfully received the message. If the determination instruction is received, the target manager can be considered to have successfully received the alarm prompt information.

If a determining instruction sent by the user terminal is received, the target manager is indicated to receive the alarm prompt information, and at the moment, the alarm prompt information can be stopped being pushed to the user terminal.

If the determining instruction sent by the user terminal is not received, the target manager is indicated to not receive the alarm prompt information, and at the moment, the alarm prompt information can be continuously pushed to the user terminal of the target manager according to a preset period.

According to the alarm information generation method based on the target building, firstly, a three-dimensional building model of the target building is determined according to the acquired building structure information and building space layout information, then, a plurality of building personnel with an association relation with the target building are determined in real time, corresponding number information is generated for each building personnel, meanwhile, when an alarm device of the target building is determined to give an alarm, a target alarm space position is determined according to identification information of the alarm device and the three-dimensional building model of the target building, secondly, the target space position is determined according to the plurality of number information and the three-dimensional building model of the target building, meanwhile, a target abnormal person is determined according to the plurality of number information and the target alarm space position, a target alarm processing scheme is determined according to the target alarm space position and an alarm scene processing library, then, alarm prompt information is generated according to the target abnormal person and the target alarm processing scheme, and finally, when a target management person is determined, the alarm prompt information is pushed to a user terminal of the target management person. The method not only solves the problems that the alarming phenomenon which occurs in the target building cannot be universally warned, the integrated derivative service related to the identities of building personnel and the like, but also improves the intelligent degree of the target building system, further reduces the enterprise management cost, and further improves the use satisfaction degree of the building personnel.

Fig. 3 is a flowchart III of a method for generating alarm information based on a target building according to an embodiment of the present application. The embodiment is to make up for the specific implementation procedure of the alarm information generating method based on the target building based on the embodiment of fig. 1 or the embodiment 2. As shown in fig. 3, the method for generating alarm information based on a target building according to the present embodiment includes:

s301: obtaining an emergency alarm processing scheme library, wherein the emergency alarm processing scheme library comprises: the plurality of candidate alarm scenes and the emergency linkage scheme corresponding to each candidate alarm scene.

By acquiring the emergency alarm processing scheme library, various possible emergency situations and corresponding processing schemes thereof can be more comprehensively known. So that when the target alarm scene occurs, the most suitable scheme can be selected from the emergency alarm processing scheme library by combining the actual situation so as to solve various processing problems.

It can be appreciated that the emergency alert process scheme library includes a plurality of candidate alert scenarios and emergency linkage schemes corresponding to each scenario. Such schemes may include emergency evacuation plans, fire handling procedures, equipment failure countermeasures, and the like. Thus, by taking these solutions, a more comprehensive understanding of the handling and best practices of various emergency situations can be obtained so that corrective action can be taken quickly when needed.

The emergency alarm processing scheme library can be obtained by a database query mode, a file reading mode or an interface calling mode. This is not particularly limited in this application.

For example, assume that in a large commercial complex, a fire accident occurs suddenly. The fire is discovered and an alarm triggered in time by the building management system and the monitoring device.

At this time, an emergency linkage scheme corresponding to the fire scene can be found from the emergency alarm processing schemes. This solution may include a procedure for evacuating personnel, a procedure for extinguishing a fire, a procedure for notifying a fire department, etc.

S302: and determining a target emergency linkage scheme according to the target alarm scene and the emergency linkage schemes.

Because the emergency alarm processing scheme library comprises a plurality of emergency linkage schemes corresponding to a plurality of candidate alarm scenes, when a target alarm scene is determined, the target alarm scene and the emergency linkage schemes are required to be combined for consideration in order to accurately and rapidly determine the occurrence of the target alarm scene and various emergency situations.

It will be appreciated that by combining the target alert scenario with multiple emergency linkage schemes, the target alert scenario and its associated various emergency situations may be more fully understood and handled. Therefore, the most suitable emergency linkage scheme can be accurately and rapidly determined under the emergency condition, and corresponding measures are taken to reduce loss and risk to the greatest extent, and the safety of personnel and the normal operation of facilities are ensured.

Optionally, determining the specific implementation scheme of the emergency linkage scheme according to the target alarm space position and the multiple emergency linkage schemes includes, for example:

1) If the target alarm scene is a smoke and fire alarm scene, the emergency linkage scheme corresponding to the smoke and fire alarm scene may include, for example:

the alarm device is controlled to alarm according to a preset period, and the alarm timer is controlled to increment the current alarm times by one; judging whether the alarm times reach the preset times or not; if yes, controlling an in-building clear-and-arrange mode to be started, wherein the in-building clear-and-arrange mode is used for detecting whether missing building personnel exist in a target building; if yes; a rescue command is generated, and the rescue command is used for prompting related personnel with rescue capability to perform point-to-point rescue on personnel with life bodies.

The purpose of controlling the alarm device to alarm according to a preset period is mainly to inform building personnel in a target building of needing to be far away from a certain area or a certain condition, and the purpose of controlling the alarm timer to add one to the current alarm times is to detect the alarm duration so as to avoid the condition of untimely rescue caused by long-time alarm.

It will be appreciated that when the alarm device triggers an alarm in a predetermined period, it will sound an alarm or other prompt informing employees, residents or other persons within the building that they need to be away from an area or situation.

Meanwhile, the frequency and duration of the alarm can be tracked by adding one to the current alarm number. If the alarm duration is too long, the response speed and efficiency of the rescue workers can be affected. Therefore, by detecting the alarming time, measures can be taken in time, so that rescue workers can arrive at the scene in time and take proper actions.

The purpose of judging whether the number of alarms reaches the preset number is to determine whether the alarm duration is executed.

If the alarm times reach the preset times, the alarm time is indicated to be executed, and at the moment, the in-building clear mode is controlled to be started so as to detect whether missing building personnel exist in the target building.

If the number of times of alarm is judged to not reach the preset number of times, the alarm duration is not executed, at the moment, the alarm device can be controlled to continuously alarm according to the preset period, and the alarm timer is controlled to increment the current number of times of alarm by one.

The purpose of the in-building cleaning mode to detect whether missing building personnel are present in the target building is to determine whether to ensure that all personnel in the target building are notified or evacuated, so as to avoid unnecessary injury or loss due to missing personnel.

If the in-building clear and arrange mode detects that missing building personnel exist in the target building, the fact that partial personnel in the target building are not notified or evacuated is indicated, and at the moment, rescue instructions can be generated.

If the in-building clear and arrange mode does not detect that missing building personnel exist in the target building, the method indicates that all personnel in the target building are notified or evacuated, and at the moment, a processing instruction can be generated, wherein the processing instruction is used for indicating related personnel with processing capability to process the target building.

2) If the target alarm scene is an illegal intrusion scene of a non-target building user, the emergency linkage scheme corresponding to the illegal intrusion scene of the non-target building user may include, for example:

And an intelligent monitoring-network-building emergency linkage system is adopted to simultaneously inform the public security bureau of the location of the target building of illegal invasion phenomena of non-target building users and target abnormal personnel, so that simultaneous actions of the management personnel in the building and police in the area are realized, and related personnel are captured.

It can be appreciated that when the target alarm scene is determined to be an illegal intrusion phenomenon, the emergency linkage system timely informs the public security bureau where the target building is located in a certain way (such as an alarm, a short message, a telephone, etc.).

3) If the target alarm scene is a stolen scene of the intelligent element in the target building, the emergency linkage scheme corresponding to the stolen scene of the intelligent element in the target building can comprise:

and an intelligent monitoring-network-building emergency linkage system is adopted to simultaneously inform the public security bureau of the location of the target building of the theft phenomenon of intelligent elements in the target building and abnormal personnel of the target building, so that the simultaneous actions of the management personnel in the building and police in the area are realized, and related personnel are captured and object tracking is carried out.

It can be understood that after the intelligent monitoring system of the target building monitors the theft phenomenon of the intelligent elements in the target building, the network processing system receives the data transmitted by the intelligent monitoring system and identifies the theft phenomenon of the intelligent elements and the abnormal target personnel. The network processing system then transmits the identified smart component theft and the target anomaly to the public security bureau of the target building to arrest the target anomaly and track the stolen item.

4) If the target alarm scene is a target building user dispute scene, the emergency linkage scheme corresponding to the target building user dispute scene can include, for example:

the target manager selects whether police at the site are needed to assist in processing; if yes, generating a help rescue instruction, and sending the help rescue instruction to a public security bureau where the target building is located.

It can be appreciated that the target manager can determine and decide whether to request the assistance of the police in the place to process according to the actual situation when facing a certain situation or emergency. This gives the target manager some flexibility and decision-making rights, enabling them to make the most reasonable choice according to the specific situation.

For example, assume that an intelligent element is stolen in a target building, and the target manager knows this. They find the stolen smart element valuable, so the target manager may decide to immediately notify the police requesting them to assist in the process. At this time, they can generate help-seeking rescue instructions through the emergency linkage system and send the help-seeking rescue instructions to the public security bureau where the target building is located.

5) If the target alarm scene is other unknown noise scenes, the emergency linkage scheme corresponding to the other unknown noise scenes may include, for example:

Determining noise decibels corresponding to the target alarm scene according to the target alarm scene; judging whether the noise decibel exceeds a preset noise decibel or not; if yes, the silencing module is used for silencing the target alarm scene, generating noise prompt information and sending the noise prompt information to target management staff.

It can be understood that different alarm scenes may correspond to different noise decibels, and by determining the noise decibels corresponding to the target alarm scene, the alarm signal can be more accurately identified, so as to avoid false alarm or missing alarm.

The purpose of judging whether the noise decibels exceed the preset noise decibels is to determine whether the sound range of the target alarm scene exceeds the normal bearable range.

If the noise decibel exceeds the preset noise decibel, the sound range of the target alarm scene is indicated to exceed the normal bearable range, at the moment, the silencing module can be used for silencing the target alarm scene, meanwhile, noise prompt information is generated and sent to target management personnel, and therefore the target management personnel can dispatch personnel to the position or remotely assist the target management personnel in processing.

If the noise decibel does not exceed the preset noise decibel, the sound range of the target alarm scene is indicated to not exceed the normal bearable range, and at the moment, the noise decibel corresponding to the target alarm scene can be determined continuously according to the target alarm scene.

6) If the target alarm scene is a road or a space blockage scene in other buildings, the emergency linkage scheme corresponding to the road or the space blockage scene in other buildings can comprise:

acquiring the trigger time of a target alarm scene and the working time of a target manager; judging whether the trigger time is within the working time, if not, generating an assistance processing message to remotely assist a target manager to process.

Wherein assisting in processing the message comprises: and a plurality of schemes capable of solving the problem of the target alarm scene can be used for assisting the solving of the type of personnel.

By acquiring the trigger time of the target alarm scene and the working time of the target manager, the working time and the trigger time of the target manager can be combined for consideration so as to ensure that the target manager can respond and process in time when an alarm occurs.

The purpose of determining whether the trigger time is within the working time is to determine whether the target alarm scenario can be processed quickly.

If the trigger time is within the working time, it is indicated that the target manager can respond and handle the alarm faster, because they may be on the work position at this time. Thus, waiting and processing time can be reduced, and working efficiency can be improved.

If the trigger time is not within the working time, it indicates that the targeted manager cannot respond and process the alarm faster, as they may be on the working post at this time. At this time, an assistance processing message may be generated to remotely assist the target manager in processing, thereby reducing delay and comprehensively implementing full-intelligent management.

S303: and sending the target emergency linkage scheme to an emergency linkage system.

The emergency linkage system is a platform integrating a plurality of emergency service departments and resources and used for coordinating emergency response actions and resource sharing.

By sending the target emergency linkage scheme to the emergency linkage system, relevant departments and personnel can be ensured to acquire the latest emergency treatment scheme in time, and the coordinated combat is carried out according to the scheme, so that the efficiency and accuracy of emergency response are improved.

It will be appreciated that in emergency situations, departments and personnel need to respond quickly and cooperate to minimize losses and risks. The emergency linkage system can integrate information and communication of departments and resources, so that when a target emergency linkage scheme is determined, the target emergency linkage scheme is required to be sent to the emergency linkage system, and the departments and personnel can acquire in time and act cooperatively according to the scheme.

S304: judging whether the emergency linkage system receives the target emergency linkage scheme or not; if yes, go to step S305; if not, step S303 is performed.

The purpose of judging whether the emergency linkage system receives the target emergency linkage scheme is to determine whether the target emergency linkage scheme is successfully responded.

It will be appreciated that determining whether the emergency linkage system has received the target emergency linkage scheme may also help discover and address system faults or problems in a timely manner. If the emergency linkage system does not receive the proposal, it may be due to a network failure, a system failure, or other reasons. The problems are found in time and corresponding measures are taken, so that the normal operation of the system and the smooth progress of emergency response can be ensured.

If the emergency linkage system receives the target emergency linkage scheme, the target emergency linkage scheme is indicated to be successfully responded, and at the moment, the emergency linkage system can be controlled to execute the emergency linkage scheme.

If the emergency linkage system does not receive the target emergency linkage scheme, the target emergency linkage scheme is indicated to be not responded successfully, and at the moment, the target emergency linkage scheme can be continuously sent to the emergency linkage system.

S305: and when the emergency linkage system receives the target emergency linkage scheme, controlling the emergency linkage system to execute the emergency linkage scheme.

The emergency linkage system is controlled to execute the target emergency linkage scheme, so that the accuracy and the high efficiency of emergency response can be ensured. Meanwhile, the system ensures that departments and personnel can rapidly cope with emergency according to unified command and action, and loss and risk are reduced to the greatest extent.

It will be appreciated that when the emergency linkage system receives the target emergency linkage solution, it coordinates and dispatches the departments and resources according to the instructions and operational steps in the solution, and responds to the emergency as required in the emergency linkage solution. This may include starting emergency plans, allocating resources, coordinating the actions of various departments, etc., so that emergency situations can be handled more efficiently and more accurately, losses and risks are reduced to the greatest extent, and people's life and property safety and social stability are ensured.

According to the alarm information generation method based on the target building, when the target alarm scene is determined, firstly, an emergency alarm processing scheme library is obtained, then, a target emergency linkage scheme corresponding to the target alarm scene is determined from a plurality of emergency linkage schemes in the emergency alarm processing scheme library, secondly, the target emergency linkage scheme is sent to an emergency linkage system, and finally, when the emergency linkage system receives the target emergency linkage scheme, the emergency linkage system is controlled to execute the emergency linkage scheme. The method. The method not only solves the problem that the alarm situation linkage cannot be carried out on the alarm phenomenon happened in the target building, but also improves the intelligent degree of the target building system, further reduces the enterprise management cost, and further improves the use satisfaction degree of building personnel.

Fig. 4 is a schematic structural diagram of an alarm information generating device based on a target building. As shown in fig. 4, the present application provides a target building-based alarm information generating apparatus 400, including:

a determining module 401, configured to determine, in real time, a plurality of building personnel having a first association relationship with a target building, and generate corresponding number information for each building personnel;

the determining module 401 is further configured to determine, when it is determined that an alarm device of the target building generates an alarm, a target alarm spatial location according to identification information of the alarm device and a three-dimensional building model of the target building, where the target alarm spatial location is used to indicate a spatial location of the alarm device generating the alarm in the target building;

the determining module 401 is further configured to determine a target abnormal person according to the plurality of number information and the target alarm space position, and determine a target alarm processing scheme according to the target alarm space position and an alarm processing scheme library;

and the generating module 402 is configured to generate alarm prompt information according to the target abnormal personnel and the target alarm processing scheme.

Optionally, the determining module 401 is further configured to determine, according to a plurality of number information, user information of each building personnel, where the user information includes: building space positions of each building personnel;

the determining module 401 is further configured to determine a plurality of abnormal building personnel according to the target alarm space position and the plurality of building space positions, where the abnormal building personnel are used to indicate that an abnormal relationship exists with the alarm device that generates the alarm;

the apparatus further comprises: a processing module 403;

the processing module 403 is configured to perform screening processing on the plurality of building personnel to obtain the target abnormal personnel.

Optionally, the determining module 401 is further configured to determine a target alarm scenario from the plurality of candidate alarm scenarios according to the target alarm spatial location;

the determining module 401 is specifically configured to determine the target alarm processing scheme according to the target alarm scenario and the multiple alarm processing schemes.

Optionally, the apparatus further includes: an acquisition module 404;

the obtaining module 404 is configured to obtain an emergency alarm processing scheme library, where the emergency alarm processing scheme library includes: the plurality of candidate alarm scenes and emergency linkage schemes corresponding to the candidate alarm scenes;

The determining module 401 is further configured to determine a target emergency linkage scheme according to the target alarm scene and the multiple emergency linkage schemes;

the apparatus further comprises: a transmitting module 405;

the sending module 405 is configured to send the target emergency linkage scheme to an emergency linkage system;

the apparatus further comprises: a control module 406;

the control module 406 is configured to control the emergency linkage system to execute the emergency linkage scheme when the emergency linkage system receives the target emergency linkage scheme.

Optionally, the obtaining module 404 is further configured to obtain a building information base of the target building, where the building information base includes: building structure information and building space layout information;

the generating module 402 is further configured to generate the three-dimensional building model according to the building structure information and the building space layout information, where the three-dimensional building model includes a plurality of alarm devices, and a spatial position of each alarm device in the three-dimensional building model is different.

Optionally, the obtaining module 404 is further configured to obtain a building manager information base, where the building manager information base includes: the plurality of candidate alarm scenes and management personnel corresponding to each candidate alarm scene;

The determining module 401 is further configured to determine a target manager according to the target alarm scenario and the multiple managers;

the apparatus further comprises: a pushing module 407;

the pushing module 404 is configured to push the alarm prompt information to the user terminal of the target manager according to a preset period;

the apparatus further comprises: a stop module 408;

the stopping module 408 is configured to stop pushing the alarm prompt information to the user terminal when receiving a determining instruction sent by the user terminal.

Fig. 5 is a schematic structural diagram of an alarm information generating device based on a target building. As shown in fig. 5, the present application provides a target building-based alarm information generating apparatus 500, including: a receiver 501, a transmitter 502, a processor 503 and a memory 504.

A receiver 501 for receiving instructions and data;

a transmitter 502 for transmitting instructions and data;

memory 504 for storing computer-executable instructions;

a processor 503, configured to execute computer-executable instructions stored in the memory 504, to implement the steps performed by the training method of the multimodal pre-training model in the above embodiment. Reference may be made in particular to the description of the correlation in the training method embodiment of the multimodal pre-training model described above.

Alternatively, the memory 504 may be separate or integrated with the processor 503.

When the memory 504 is provided separately, the electronic device further comprises a bus for connecting the memory 504 and the processor 503.

The application also provides a computer readable storage medium, in which computer executable instructions are stored, which when executed by a processor, implement a training method of the multimodal pre-training model as performed by the training device of the multimodal pre-training model.

Those of ordinary skill in the art will appreciate that all or some of the steps, systems, functional modules/units in the apparatus, and methods disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between the functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed cooperatively by several physical components. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as known to those skilled in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer. Furthermore, as is well known to those of ordinary skill in the art, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media.

While the present application has been described in connection with the preferred embodiments illustrated in the accompanying drawings, it will be readily understood by those skilled in the art that the scope of the application is not limited to such specific embodiments, and the above examples are intended to illustrate the technical aspects of the application, but not to limit it; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

Claims

1. An alarm information generation method based on a target building is characterized by comprising the following steps:

2. The method of claim 1, wherein said determining a target anomaly person based on a plurality of numbering information and said target alert spatial location comprises:

and screening the building personnel to obtain the target abnormal personnel.

3. The method of claim 1, wherein the alarm processing scheme library comprises: the method comprises the steps of determining a target alarm processing scheme according to the target alarm space position and an alarm processing scheme library, wherein the target alarm processing scheme comprises a plurality of candidate alarm scenes and alarm processing schemes corresponding to each candidate alarm scene, and the method comprises the following steps:

4. A method according to claim 3, characterized in that the method further comprises:

5. The method of claim 1, wherein prior to determining in real time a plurality of building personnel having a first association with the target building, the method further comprises:

6. The method of claim 1, wherein after generating the alert prompt message according to the target abnormal person and the target alert processing scheme, the method further comprises:

7. An alarm information generating device based on a target building, comprising:

8. The apparatus of claim 7, wherein the apparatus further comprises: a processing module;

the determining module is further configured to determine, according to the plurality of number information, user information of each building person, where the user information includes: building space positions of each building personnel;

9. An alarm information generating device based on a target building, comprising:

a memory;

a processor;

wherein the memory stores computer-executable instructions;

the processor executes computer-executable instructions stored by the memory to implement the target building-based alarm information generation method of any one of claims 1-7.

10. A computer readable storage medium having stored therein computer executable instructions which when executed by a processor are for implementing the target building based alarm information generation method of any of claims 1-7.