CN114638455A - Emergency disposal plan generation pushing method and comprehensive command control management system - Google Patents

Abstract

The invention provides a method for generating and pushing an emergency disposal plan and a comprehensive command control management system, wherein the method for generating and pushing the emergency disposal plan comprises the following steps: when an alarm signal sent by front-end sensing equipment is acquired, acquiring position information and quantity information of the front-end sensing equipment which enters an alarm state at present according to the code and the address of the front-end sensing equipment; matching the palm-end intelligent equipment within the threshold distance according to the position information, and pushing early warning information to the palm-end intelligent equipment; judging whether the alarm is a false alarm or not and judging the type of the emergency; if the emergency evacuation equipment is not a false alarm, after the information for confirming the occurrence of the emergency is obtained, the hazard degree of the emergency is predicted, and the emergency evacuation equipment is linked according to the prediction result; and calling a corresponding disposal plan strategy. The invention can rapidly analyze and dispose the emergency, and reduce the influence of time delay, misjudgment and the like of manual operation.

Description

Emergency disposal plan generation pushing method and comprehensive command control management system

Technical Field

The invention belongs to the technical field of security protection, and particularly relates to an emergency disposal plan generation pushing method and a comprehensive command control management system.

Background

With the continuous improvement of the intelligent level of a security system, the practical requirement of effectively integrating daily supervision and emergency organization management is increasingly outstanding, and especially how an emergency treatment plan is effectively adapted to the field condition and automatically reacts, the method has important values for improving the emergency treatment efficiency and reducing the misjudgment or delay judgment of human factors. In order to improve the emergency disposal management level of security events of public buildings, public transportation stations, public spaces, business centers, large-scale enterprises and industrial parks, an intelligent plan management module is arranged by combining a security system.

The existing commonly used security system mainly comprises a sensing module, a communication module, a database and a statistic module, a business layer module, a manual central control module, a personnel organization management module and the like, needs to perform comprehensive analysis, judgment and command on the contents of equipment running state, field organization, communication contact and the like manually, and when an emergency occurs, realizes the relatively solidification of a prepared plan library and is difficult to match the complex situation of the field, and often influences the treatment efficiency and effect due to the problems of disordered information transmission, coordinated command authority and the like, and possibly causes unnecessary casualties and property loss.

Disclosure of Invention

In order to overcome the technical defects, the first aspect of the present invention provides an emergency treatment plan generation pushing method, including the steps of:

when an alarm signal sent by the front-end sensing equipment is acquired, acquiring the position information and the quantity information of the front-end sensing equipment which enters an alarm state at present according to the code and the address of the front-end sensing equipment;

matching the palm-end intelligent equipment within the threshold distance according to the position information, and pushing early warning information to the palm-end intelligent equipment;

judging whether the alarm is a false alarm or not and judging the type of the emergency;

if the emergency evacuation equipment is not a false alarm, after the information for confirming the occurrence of the emergency is obtained, the hazard degree of the emergency is predicted, and the emergency evacuation equipment is linked according to the prediction result;

and calling a corresponding disposal plan strategy.

As a further improvement of the present invention, the determining the type of the emergency event includes:

and judging the type of the emergency according to the type of the front-end sensing equipment and the type of the predicted information by combining with the classification of a prefabricated treatment plan.

As a further improvement of the invention, the judging whether the alarm is false alarm comprises the following steps:

obtaining a maintenance record of the front-end sensing equipment in an alarm state at present, and judging whether the front-end sensing equipment is a false alarm;

and calling a peripheral monitoring image according to the position information, and analyzing the behavior of the personnel to judge whether the alarm is a false alarm.

As a further improvement of the invention, the prediction of the degree of the hazard of the emergency event comprises the following steps:

and according to the code and the address of the front-end sensing equipment, combining with the position information and according to the principle of the emergency disposal grade plus 1, the state and the influence of natural development or spread of the emergency after the preset time are presumed under the condition that the automatic disposal device fails.

As a further improvement of the invention, the linkage emergency evacuation equipment according to the prediction result comprises: releasing the entrance guard of the escape passage, automatically descending the vertical elevator to one floor, and playing emergency evacuation broadcasting.

As a further improvement of the present invention, invoking the emergency handling plan policy comprises:

graphically illustrating the distributed location and group numbering of highlighted indicia incident handling equipment and assets;

generating a disposal number according to the service label and the positioning information, generating emergency disposal equipment and equipment position information and coding information which are close to the positioning information position, and pushing the emergency disposal equipment and the equipment position information and the coding information to the palm-end intelligent equipment;

sending safety protection attention points and early-stage disposal methods of different types of characteristics of the emergency to the palm-end intelligent equipment;

and sending evacuation information, patrol information, support information and dispersion information to the palm-end intelligent equipment.

As a further improvement of the present invention, after invoking the emergency handling plan policy, the method further includes:

acquiring image information of the implementation situation of the site treatment and feedback information of the implementation situation of the site treatment, and generating a treatment record.

As a further improvement of the present invention, after invoking the emergency handling plan policy, the method further includes:

when the rescue-enhancing information and the help-seeking information are received, the rescue-enhancing information is sent to the palm-end intelligent equipment;

and when receiving the emergency site disposal ending information, sending service arrangement information to the palm-end intelligent equipment.

As a further improvement of the present invention, after receiving the emergency site disposal end information, the method further includes:

and evaluating the security equipment.

In a second aspect of the present invention, there is provided an integrated command control management system, comprising: the system comprises a disposal state response recording module, an intelligent plan generating module and a palm-end intelligent device, wherein the disposal state response recording module, the intelligent plan generating module and the palm-end intelligent device are used for executing the emergency disposal plan generating and pushing method, and the disposal state response recording module, the intelligent plan generating module and the palm-end intelligent device are communicated through a wireless communication system.

Compared with the prior art, the invention has the following beneficial effects: the method has the advantages that the site where the condition occurs is quickly positioned through the code and the address of the front-end sensing equipment which sends the alarm, workers nearby are called up in time to process the alarm, the information can be automatically integrated, the type of the emergency and a corresponding disposal plan strategy are automatically judged, the emergency can be quickly analyzed and disposed, and the influences of manual operation on time delay, misjudgment and the like are reduced.

Drawings

Embodiments of the invention are described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a flowchart of the emergency treatment plan generation pushing method according to embodiment 1;

FIG. 2 is a flowchart illustrating a method for pushing emergency treatment plans according to embodiment 1;

FIG. 3 is a block diagram of an integrated command control management system according to embodiment 2;

FIG. 4 is a network topology diagram of the integrated command control management system according to embodiment 2;

fig. 5 is a display interface effect diagram of the handheld smart device in embodiment 2.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

The embodiment discloses a method for generating and pushing an emergency disposal plan, wherein when an emergency event is a fire, a front-end sensing device is a smoke alarm device, when the emergency event is an waterlogging, the front-end sensing device is a water level monitoring front end, and the embodiment takes the fire of a group A building three-storied building as an example, as shown in fig. 1 and fig. 2, the embodiment is further explained and comprises the following steps:

s1, when an alarm signal sent by the smoke alarm device is acquired, acquiring the position information and the quantity information of the smoke alarm device which enters the alarm state at present according to the code and the address of the smoke alarm device;

s2, matching the palm-end intelligent equipment within the threshold distance according to the position information, and pushing early warning information to the palm-end intelligent equipment; the staff and sign in through the palm end smart machine of checking the card, fix a position in real time, in specific embodiment, can set up threshold value distance in advance, when the staff is located threshold value distance within range, just to the palm end smart machine propelling movement early warning information that these staff held, inform above-mentioned staff and have the sense of smoke warning at A group's building.

S3, determining whether the alarm is a false alarm, and determining the type of the emergency event, specifically, whether the alarm is a false alarm can be determined by the following method:

obtaining maintenance records of the smoke detector alarm device in an alarm state at present, judging whether the smoke detector alarm device is a false alarm, and if the smoke detector alarm device is searched and judged whether the front end of the started smoke detector has the false alarm records or not and whether the front end of the started smoke detector is close to the service life of equipment or not, thereby conjecturing the false alarm;

or calling a surrounding monitoring image according to the position information, analyzing the personnel behavior, and judging whether the alarm is a false alarm, wherein the alarm can be realized by a camera with personnel behavior analysis, and if the abnormal disturbance and other behaviors of the personnel exist, the alarm can be judged to be the false alarm.

The specific judgment of the type of the emergency event is as follows: according to the alarm signal sent by the smoke alarm, the video monitoring system judges that fire occurs if people flow disturbance and other conditions are found through personnel behavior characteristic analysis.

S4, if the alarm is not a false alarm, after the information confirming the occurrence of the fire is obtained, the fire is predicted, and emergency evacuation equipment is linked according to the prediction result;

after the staff nearest to the scene arrives at the scene, whether the fire occurs is judged manually, and if the fire occurs, the staff confirms through the palm-end intelligent equipment.

The predicting the fire comprises the following steps: according to the code and address of the smoke alarm device, and the combination of position information, such as the type of articles placed in the position information, and the like, under the principle of emergency disposal grade "+ 1", the state and the influence of the natural spread of the fire after 10 minutes are presumed, and if the prediction result is: it is necessary to initiate an emergency evacuation throughout the building of group a. Emergent evacuation equipment of linkage includes: releasing the entrance guard of the escape passage, automatically descending the vertical elevator to one floor, playing emergency evacuation broadcast and the like.

S5, calling a fire handling plan strategy, comprising:

the distribution positions and the grouping numbers of the fire-fighting equipment are graphically marked in a high-brightness mode, and workers can quickly perform rescue and fire-fighting actions through the marks;

generating a disposal number according to the service label and the positioning information, generating fire-fighting equipment position information and coding information which are close to the positioning information position, and pushing the fire-fighting equipment position information and the coding information to the palm-end intelligent equipment, wherein the disposal number is used for filing the number after the fire is over and distinguishing different events which occur at the same time;

sending safety protection attention points and early-stage disposal methods of different types of fire conditions to the palm-end intelligent equipment;

the method comprises the steps of sending evacuation information, patrol information, support information and evacuation information to a palm-end intelligent device, arranging staff nearby a main evacuation channel and an evacuation door to evacuate the public after receiving the evacuation information, arranging staff at a specific position to patrol whether nearby rooms are reserved for unknown people after receiving the patrol information, and starting to support and evacuate peripheral traffic when the staff in other buildings speak the support information or the evacuation information.

In the treatment process, the image information of the implementation situation of the site treatment and the feedback information of the implementation situation of the site treatment are obtained, a treatment record is generated in a log mode, and the manual adjustment and optimization of a treatment strategy are assisted.

In order to further realize the intellectualization of the rescue, the embodiment further comprises:

when receiving the rescue information and the help seeking information, sending the rescue information to the palm-end intelligent equipment, automatically making feedback when the worker intelligently calls the rescue assistant and the injured help seeking through the palm end, pushing the rescue information to other nearby workers, and assisting the commander to automatically call emergency telephones such as 110, 119 and the like;

when the fire extinguishing information is received, service arrangement information is sent to the palm-end intelligent equipment, after the initial fire is extinguished by site disposal personnel, confirmation is carried out through the palm-end intelligent equipment, the system recovers the normal operation state, instructions are pushed to all levels of workers, and the normal service arrangement is recovered.

After the fire is over, the method further comprises the following steps: evaluating the security device, including: smoke sensing front ends that need replacement, front ends that need maintenance, fire fighting equipment that needs replenishment or renewal, elevator equipment that needs maintenance, and the like.

The embodiment may also be other emergencies such as pipe network rupture, which are not described in detail herein.

The following are the economic benefits and social benefits brought by the embodiment:

in the fire accident that leads to serious casualties and property loss, the early warning information is found out untimely, the commander commands and dispatches improperly, the staff handles too slowly, fails to put out the initial fire in time and is the main reason. According to a traditional security management mode, the situations of missed detection, time delay and the like exist for workers according to modes of fixed line routing inspection discovery, public reporting, manual on-duty monitoring systems and the like, the time is often 10-15 minutes for work of reporting after fire is discovered, manually determining the real-time position of the workers, allocating disposal roles and the like, the disposal efficiency is seriously influenced, and the optimal disposal time for extinguishing the initial fire within 3-7 minutes is missed. The embodiment combines the intelligent upgrading of a security system, provides a method for generating an emergency treatment plan intelligently and automatically pushing combined with standardized data, determines a fire situation (without manual intervention) to a distribution plan from a server storage function and an operation function of the intelligent security system and internal network communication bandwidth measurement and calculation, has the data volume of about 300M (mainly video monitoring behavior analysis), can complete pushing within 60 seconds, can ensure that the fire situation is pushed to a worker nearest to the site (a three-dimensional space needs auxiliary 5G positioning or WiFi positioning), can ensure that the worker utilizes the optimal treatment time to extinguish the initial fire situation within 3-7 minutes, and synchronously provides effective support of an optimal evacuation route.

The building group including a group of 3 buildings according to the example of the present embodiment has a probability of fire occurrence of 100% within 24 years: 30 × 100% ÷ (41.55% × 3) ═ 24; the expected value of direct economic loss is 67000 yuan; in 24 years, arranging operators on duty 24 hours according to a traditional security mode, and respectively watching 3 independent monitoring centers at the required human resource expenditure: 24 ÷ 3 × 7/5 × 10338 (average payroll in Shanghai city of 2021) × 12 × 24 × 3 ═ 37514534 yuan, 1563106 yuan per year on average. If change this neotype intelligent management and operational mode, can realize unified management maintenance or even on duty the mode, only surveillance center human resources can practice thrift 2/3 to 100% expenditure, 1042070 ~ 1563106 yuan each year promptly on average. In addition, fire accidents that result in casualties or significant property loss can be reduced by about 80% of the probability.

Example 2

The embodiment provides an integrated command control management system, as shown in fig. 3 and 4, including: the system comprises a disposal state response recording module, an intelligent plan generating module and a palm-end intelligent device, wherein the disposal state response recording module, the intelligent plan generating module and the palm-end intelligent device are used for executing the emergency disposal plan generating and pushing method in embodiment 1, and the disposal state response recording module, the intelligent plan generating module and the palm-end intelligent device are communicated through a wireless communication system.

Specifically, intelligence scheme generation module prestore has prefabricated processing strategy storehouse, under emergency, is convenient for transfer the condition of a fire scheme strategy, and intelligence scheme generation module still is provided with deals with direction and factor module, and it includes: the emergency treatment system comprises an emergency type judging module, a treatment equipment and equipment calling module and a treatment force distribution module.

The treatment equipment and equipment calling module comprises: the system comprises an elevator management module, an emergency evacuation channel management module, a wireless intercom module, an internal broadcasting module and an emergency equipment management module, wherein in the process of fire disposal, the elevator management module automatically lowers a vertical elevator to one floor; the emergency evacuation passage management module releases the entrance guard of the escape passage; the wireless intercom module and the internal broadcasting module are started, so that convenience is provided for evacuation and rescue; the emergency equipment management module may provide status information as well as location information for the emergency equipment.

The emergency type discrimination module is used for acquiring alarm information in real time and analyzing the alarm information, and comprises: the system comprises a parking lot management module, an access control management module, a security inspection module, an intrusion alarm module, a video monitoring module, an electronic patrol module, an equipment monitoring module, a one-key emergency response module, or an automatic alarm module, a meteorological hydrological early warning terminal and an earthquake monitoring early warning terminal. The event perception and automatic analysis module can generate early warning information in standard and data formats, comprehensively analyzes and judges the early warning information according to preset logic or specific conditions based on historical data retrospective analysis and the like, can preliminarily judge specific early warning time occurring at a specific position and specific time, the type and the severity of an emergency event, and can be used as basic conditions for triggering an emergency plan and form basic elements of a plan disposal type.

The treatment force distribution module comprises a treatment force distribution module which comprises: the system comprises an internal organization management framework, a worker service management module and a personnel check-in positioning management module, wherein the internal organization management framework is used for confirming the command hierarchy and the authority of related responsible persons, such as: the identity and authority of the on-site disposal command need to be confirmed through a preset internal management framework: the system comprises a duty manager, a duty master and the like, wherein a worker duty management module is used for recording work arrangement of workers, a worker sign-in positioning management module is used for punching cards of the workers, and current position information of the workers is obtained in real time through the punching cards. As shown in fig. 5, the staff member uploads the related information to the location force distribution module through the palm-end smart device. Information in the disposal force distribution module forms human resource elements for site disposal of the early warning event, and the event analysis elements and the human resource elements are combined with equipment operation and maintenance conditions and a prefabricated disposal strategy, so that an emergency disposal plan can be realized, and standardized data can be filled into a plan text with a unified format to form a scheme of an intelligent plan.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. An emergency treatment plan generation pushing method is characterized by comprising the following steps:

when an alarm signal sent by the front-end sensing equipment is acquired, acquiring the position information and the quantity information of the front-end sensing equipment which enters an alarm state at present according to the code and the address of the front-end sensing equipment;

matching the palm-end intelligent equipment within the threshold distance according to the position information, and pushing early warning information to the palm-end intelligent equipment;

judging whether the alarm is a false alarm or not and judging the type of the emergency;

if the emergency evacuation equipment is not a false alarm, after the information for confirming the occurrence of the emergency is obtained, the hazard degree of the emergency is predicted, and the emergency evacuation equipment is linked according to the prediction result;

and calling a corresponding disposal plan strategy.

2. The emergency treatment plan generation pushing method according to claim 1, wherein the determining the type of the emergency event includes:

and judging the type of the emergency according to the type of the front-end sensing equipment and the type of the predicted information by combining with the classification of a prefabricated treatment plan.

3. The emergency treatment plan generation pushing method according to claim 1, wherein the determining whether the alarm is a false alarm comprises:

obtaining a maintenance record of the front-end sensing equipment in an alarm state at present, and judging whether the front-end sensing equipment is a false alarm;

and calling a peripheral monitoring image according to the position information, and judging whether the image is a false alarm or not by analyzing the behavior of the person.

4. The emergency treatment plan generation pushing method of claim 1, wherein predicting the degree of harm of the emergency event comprises:

and according to the code and the address of the front-end sensing equipment, in combination with the position information, and according to the principle of emergency disposal grade + 1', the state and the influence of natural development or spread of an emergency after a preset time are presumed under the condition that the automatic disposal device fails.

5. The emergency treatment plan generation pushing method according to claim 1, wherein linking emergency evacuation equipment according to the prediction result comprises: releasing the entrance guard of the escape passage, automatically descending the vertical elevator to one floor, and playing emergency evacuation broadcasting.

6. The emergency treatment plan generation pushing method according to claim 1, wherein invoking the emergency treatment plan policy comprises:

graphically illustrating the distributed location and group numbering of highlighted indicia incident handling equipment and assets;

generating a disposal number according to the service label and the positioning information, generating emergency disposal equipment and equipment position information and coding information which are close to the positioning information position, and pushing the emergency disposal equipment and the equipment position information and the coding information to the palm-end intelligent equipment;

sending safety protection attention points and early-stage disposal methods of different types of characteristics of the emergency to the palm-end intelligent equipment;

and sending evacuation information, patrol information, support information and dispersion information to the palm-end intelligent equipment.

7. The emergency treatment plan generation pushing method according to claim 1, further comprising, after invoking the emergency treatment plan policy:

acquiring image information of the implementation situation of the on-site treatment and feedback information of the implementation situation of the on-site treatment, and generating a treatment record.

8. The emergency treatment plan generation pushing method according to claim 1, further comprising, after invoking the emergency treatment plan policy:

when the aid-increasing information and the help-seeking information are received, the aid-increasing information is sent to the palm-end intelligent equipment;

and when receiving the emergency site disposal ending information, sending service arrangement information to the palm-end intelligent equipment.

9. The emergency treatment plan generation pushing method according to claim 8, further comprising, after receiving the emergency site treatment end information:

and evaluating the security equipment.

10. An integrated command control management system, comprising: the emergency treatment plan pushing system comprises a treatment state response recording module, an intelligent plan generating module and a handheld intelligent device, wherein the treatment state response recording module, the intelligent plan generating module and the handheld intelligent device are used for executing the emergency treatment plan generating and pushing method as claimed in any one of claims 1 to 9, and the treatment state response recording module, the intelligent plan generating module and the handheld intelligent device are communicated through a wireless communication system.

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