CN111696203A - Method, system, device and storage medium for pushing emergency in grading manner - Google Patents

Abstract

The invention discloses a method, a system, a device and a storage medium for pushing emergencies in a grading way, wherein the method comprises the following steps: receiving emergency information sent by a first terminal; determining the level of the emergency information according to a preset index; and pushing the emergency information to a position corresponding to the level in a three-dimensional real-scene GIS map for display, wherein the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream. According to the invention, the emergency is classified, and the emergency of different grades is pushed to the position corresponding to the grade in the three-dimensional real-scene GIS map for display, so that the intelligent classified pushing of the emergency is realized, monitoring personnel can browse and watch the site condition of the emergency in an immersive manner through the three-dimensional real-scene GIS map at 360 degrees without dead angles, the early warning efficiency and the alarming efficiency of the emergency are improved, and the method and the device can be widely applied to the field of event pushing.

Description

Method, system, device and storage medium for pushing emergency in grading manner

Technical Field

The present invention relates to the field of event push control technologies, and in particular, to a method, a system, an apparatus, and a storage medium for hierarchical push of an emergency event.

Background

With the continuous promotion of the global urbanization process, the population flow of the society is increased in a blowout manner. The constantly-propelled urbanization process not only brings economic prosperity and civilization progress to urban areas, but also brings huge challenges to urban area management along with the increase of population.

In larger cities, various emergencies inevitably affect the living and social order of people. Particularly in the busy areas of cities, the population flow is large, and orderly supervision and adjustment management personnel are needed to maintain the social order and ensure the personal safety and daily life of people. However, as the process of urban construction is increasingly accelerated, densely populated public areas such as schools, shopping malls, hospitals, squares, office buildings and the like are more and more, and the traditional security supervision relying on manpower cannot meet the requirement of people on quick and effective security.

Although the existing security monitoring system is widely applied to enable a user to acquire image information of a certain area in real time to a certain extent, the security monitoring system still needs manual judgment and identification due to the fact that the security monitoring system does not have the self-service intelligent identification capability on the acquired image information, the overall efficiency is not high, and particularly the emergency level of an emergency cannot be judged. In addition, although the existing security monitoring system can have certain solution to the scene according to the acquired image information, monitoring personnel are not in the scene all the time, the immersive 3D browsing and watching experience is difficult to obtain, and the handling efficiency of the monitoring personnel on emergency events is reduced.

Disclosure of Invention

In order to solve the above technical problems, an object of the present invention is to provide an emergency hierarchical pushing method, system, device and storage medium.

The first technical scheme adopted by the invention is as follows:

an emergency hierarchical pushing method comprises the following steps:

receiving emergency information sent by a first terminal;

determining the level of the emergency information according to a preset index;

and pushing the emergency information to a position corresponding to the level in a three-dimensional real-scene GIS map for display, wherein the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

Optionally, the emergency information includes location data of the first terminal, and the step of receiving the emergency information sent by the first terminal specifically includes the following steps:

receiving emergency information sent by a first terminal through a network;

analyzing the position data of the first terminal from the emergency information;

and mapping the emergency information acquired by the first terminal in real time to a corresponding position on the three-dimensional real-scene GIS map according to the position data of the first terminal.

Optionally, the preset indicator includes at least one of a geographical level, a temporal level, a property type, and a device type, and the determining the level of the emergency information according to the preset indicator includes at least one of:

determining the region level to which the emergency information belongs, wherein the region level comprises a general region, a key region, a core region and a sensitive region from low to high in sequence;

determining the time level to which the emergency information belongs, wherein the time levels are idle time, working time, peak time and sensitive time from low to high in sequence;

determining a property category to which the emergency information belongs, wherein the property category comprises at least one of general fight emergency, people gathering emergency, violent criminal emergency, pilot fire emergency, traffic accident emergency, natural disaster emergency and early warning emergency;

and determining the equipment type to which the emergency event information belongs, wherein the equipment type comprises at least one of police officer handheld equipment alarm, image detection equipment automatic alarm, Internet of things equipment automatic alarm, sensor detection signal alarm, manual emergency alarm and alarm receiving personnel manual input alarm.

Optionally, the step of determining the level of the emergency information further comprises the steps of:

acquiring a region level sequence, a time level sequence, a property type and an equipment type of the emergency event information;

and combining preset weights of various indexes, the regional level sequence, the time level sequence, the property category and the equipment category of the emergency event information, and generating scores of emergency events of different levels by adopting a preset function.

Optionally, the step of pushing the emergency information to the position corresponding to the level in the three-dimensional real-scene GIS map for display includes the following steps:

according to the level of the emergency information, finding out a corresponding three-dimensional real-scene GIS map position from a position mapping table as a first position, wherein the position mapping table reflects the mapping relation between the level of the emergency information and the position on the three-dimensional real-scene GIS map;

and pushing the emergency information to the first position for display.

Optionally, the step of pushing the emergency information to the first location for display includes the following steps:

updating the emergency sequence in real time, and inserting the latest emergency into a corresponding level list;

and polling and displaying the emergency information at the first position according to the real-time sequence of each level of emergency information.

Optionally, the step of polling and displaying the emergency information at the first location according to the real-time sequence of each level of emergency information further includes:

receiving major emergency information sent by a first terminal, and checking whether a major emergency exists in a current emergency list;

if so, inserting the newly received major emergency information into a next position of a second position in the emergency list, and immediately displaying the newly received major emergency, wherein the second position is the position of the current major emergency in the emergency list;

if not, inserting the newly received major emergency information into a major emergency list;

pushing the major emergency information to a central position of a three-dimensional real-scene GIS map for display;

and scheduling the emergency information collected by a second terminal, wherein the second terminal is adjacent to the first terminal of the current major emergency.

The second technical scheme adopted by the invention is as follows:

an emergency hierarchical push system, comprising:

the receiving module is used for receiving the emergency information sent by the first terminal;

the determining module is used for determining the level of the emergency event information according to a preset index;

and the pushing module is used for pushing the emergency information to the position corresponding to the level in the three-dimensional real-scene GIS map for display, and the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

Optionally, the receiving module includes:

a receiving unit, configured to receive emergency information sent by a first terminal through a network;

the analysis unit is used for analyzing the position data of the first terminal from the emergency event information;

and the association unit is used for mapping the emergency information acquired by the first terminal in real time to the corresponding position on the three-dimensional real-scene GIS map according to the position data of the first terminal.

Optionally, the preset index includes that the determining module includes at least one of a region level, a time level, a property type, and a device category, and the determining module at least includes:

the first determining unit is used for determining the region level to which the emergency information belongs, and the region level sequentially comprises a general region, a key region, a core region and a sensitive region from low to high;

the second determining unit is used for determining the time level to which the emergency information belongs, and the time levels are idle time, working time, peak time and sensitive time from low to high in sequence;

a third determining unit, configured to determine a property category to which the emergency information belongs, where the property category includes at least one of a general fight emergency, a people gathering emergency, a violent criminal emergency, a fire emergency, a traffic accident emergency, a natural disaster emergency, and an early warning emergency;

a fourth determining unit, configured to determine a device type to which the emergency information belongs, where the device type includes at least one of a handheld device alarm of an officer, an automatic image detection device alarm, an automatic internet of things device alarm, a sensor detection signal alarm, a manual emergency alarm, and a manual alarm entry alarm of an alarm receiver;

an acquiring unit, configured to acquire a region level sequence, a time level sequence, a property category, and an equipment category of the emergency information;

and the sorting unit is used for generating scores of the emergency events with different grades by adopting a preset function after combining the preset weight of each index and the regional grade sequence, the time grade sequence, the property category and the equipment category of the emergency event information.

Optionally, the pushing module comprises:

the dividing unit is used for finding out a corresponding three-dimensional real-scene GIS map position from a position mapping table as a first position according to the level of the emergency event information, and the position mapping table reflects the mapping relation between the level of the emergency event information and the position on the three-dimensional real-scene GIS map;

and the establishing unit is used for pushing the emergency information to the first position for displaying.

Optionally, the pushing unit comprises:

the updating unit is used for updating the emergency sequence in real time and inserting the latest emergency into the corresponding level list;

and the display unit is used for displaying the emergency information in a polling mode at the first position according to the real-time sequence of each level of emergency information.

Optionally, the display unit includes:

the receiving subunit is configured to receive the major emergency information sent by the first terminal, and check whether a major emergency exists in the current emergency list;

the first inserting subunit is configured to insert, if yes, the newly received major emergency information into a next position of a second position in the emergency list, and immediately display the newly received major emergency, where the second position is a position of the current major emergency in the emergency list;

the second inserting subunit is used for inserting the newly received major emergency information into the major emergency list if the received major emergency information is not the same as the first emergency information;

the display subunit is used for pushing the major emergency information to the central position of the three-dimensional real-scene GIS map for display;

and the scheduling subunit is used for scheduling the emergency information acquired by the second terminal, wherein the second terminal is adjacent to the first terminal of the current major emergency.

The third technical scheme adopted by the invention is as follows:

an apparatus comprising a memory for storing at least one program and a processor for loading the at least one program to perform the method described above.

The fourth technical scheme adopted by the invention is as follows:

a storage medium having stored therein a processor-executable program for performing the method as described above when executed by a processor.

The invention has the beneficial effects that: through grading the received emergency, the emergency at different grades is pushed to the three-dimensional live-action GIS map, the position corresponding to the grades is displayed, the intelligent grading pushing of the emergency is realized, so that monitoring personnel can browse and watch the site condition of the emergency at 360 degrees without dead angles through the three-dimensional live-action GIS map personally on the spot, the immersive 3D browsing and watching experience of the site of the emergency is provided for the monitoring personnel, the monitoring personnel can rapidly carry out emergency treatment on the emergency, and the early warning efficiency and the alarming efficiency of the emergency are improved.

Drawings

Fig. 1 is a flowchart of steps of a hierarchical emergency pushing method provided by the present invention;

fig. 2 is a block diagram of a hierarchical emergency push system according to the present invention.

Detailed Description

Example one

As shown in fig. 1, the present embodiment provides an emergency hierarchical pushing method, which includes the following steps:

s1, receiving the emergency information sent by the first terminal;

s2, determining the level of the emergency event information according to a preset index;

s3, pushing the emergency information to a position corresponding to the level in a three-dimensional real-scene GIS map for display, wherein the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

The first terminal comprises at least one of an intelligent identification alarm device of the internet of things, an artificial intelligent alarm device and a third-party networking alarm device, such as an alarm pile, an alarm, an intelligent monitoring terminal, an intelligent mobile phone terminal and the like, the emergency comprises at least one of an emergency caused by human factors and an emergency caused by natural factors, such as people gathering emergency, violent criminal emergency, traffic accident emergency, fighting emergency, natural disaster emergency and the like, the three-dimensional real-scene GIS map is a real-time three-dimensional map synthesized by video streams and three-dimensional data in the position where the emergency occurs, which are acquired in real time, based on an artificial intelligent algorithm, and the preset indexes comprise time indexes, regional indexes, event property types, equipment types and the like. Specifically, the system receives emergency information generated by the first terminal, carries out level judgment on the emergency according to preset indexes, pushes the emergency to a position corresponding to the level in a map according to the level result of the emergency, realizes intelligent classification of the emergency, enables monitoring personnel to browse and watch the scene condition of the emergency in an immersive manner at 360 degrees without dead angles, provides immersive 3D browsing and watching experience of the scene of the emergency for the monitoring personnel, is favorable for the monitoring personnel to rapidly carry out emergency treatment on the emergency, and improves the early warning efficiency and the alarming efficiency of the emergency.

Optionally, the emergency event information includes location data of the first terminal, and the step S1 specifically includes the following steps:

s11, receiving the emergency information sent by the first terminal through the network;

s12, analyzing the position data of the first terminal from the emergency event information;

and S13, mapping the emergency information acquired by the first terminal in real time to the corresponding position on the three-dimensional real-scene GIS map according to the position data of the first terminal.

In this embodiment, the position data of the first terminal may be analyzed from the emergency information based on a natural language processing algorithm, a voice recognition algorithm, an image recognition algorithm, and the like, a corresponding position coordinate is set on the three-dimensional real-world GIS map according to the analyzed position data of the first terminal, and a correlation corresponding to the emergency information is established in real time on the position coordinate, so that when the system receives the emergency information, the system may obtain the position data from the emergency information in real time, and associate the corresponding emergency information according to a corresponding mapping relationship set on the three-dimensional real-world GIS map.

Optionally, the preset indicator includes at least one of a geographical level, a time level, a property type, and a device type, and the determining, in step S2, the level of the emergency information according to the preset indicator includes at least one of:

s21, determining the region level to which the emergency information belongs, wherein the region level comprises a general region, a key region, a core region and a sensitive region from low to high;

s22, determining the time level to which the emergency information belongs, wherein the time level comprises idle time, working time, peak time and sensitive time from low to high;

s23, determining the property category to which the emergency information belongs, wherein the property category comprises at least one of general fight emergency, people gathering emergency, violent criminal emergency, pilot fire emergency, traffic accident emergency, natural disaster emergency and early warning emergency;

s24, determining the equipment type to which the emergency information belongs, wherein the equipment type comprises at least one of police officer hand-held equipment alarm, image detection equipment automatic alarm, Internet of things equipment automatic alarm, sensor detection signal alarm, manual emergency alarm and alarm receiving personnel manual entry alarm.

Optionally, the step of determining the level of the emergency information in step S2 further includes the steps of:

s25, acquiring the regional level sequence, the time level sequence, the property type and the equipment type of the emergency information;

and S26, combining preset weights of various indexes and the regional level sequence, the time level sequence, the property type and the equipment type of the emergency information, and generating scores of the emergency with different levels by adopting a preset function.

In this embodiment, each emergency is sequentially classified into a first-level emergency, a second-level emergency, a third-level emergency and a common emergency according to the emergency degree based on the geographical level and the time level of the emergency, the preset weights of the various indexes are respectively a geographical index P and a time index T, which can be set to be 30% of each weight, the property type a of the event and the equipment type B of the event are 20% of each weight, wherein the geographical index P is respectively set with values of 50 to 70, 70 to 80, 80 to 90, 90 to 100 and 100 according to the location of the emergency, the central area, the core area and the sensitive area, and the time index T is respectively set with values of 50 to 70, 70 to 80, 80 to 90, 90 to 100 and 100 according to the idle event, the working time, the peak time and the sensitive time when the emergency occurs, and the property class A of the event and the equipment class B of the event are both set to values of 100, and the preset function is S-T_i*30％+P_j30% + a 20% + B20%, where i ═ general region, emphasisThe method comprises the steps of area, core area and sensitive area, j is { idle time, working time, peak time and sensitive time }, S is the degree score of the emergency, the sequencing result of the emergency is determined according to the value of the score and corresponding to emergency identification, and in addition, the quantitative value of each index can be adjusted in order to quantitatively distinguish the value of the emergency degree of the emergency.

Optionally, the step S3 specifically includes the following steps:

s31, finding out a corresponding three-dimensional real-scene GIS map position from a position mapping table as a first position according to the level of the emergency information, wherein the position mapping table reflects the mapping relation between the level of the emergency information and the position on the three-dimensional real-scene GIS map;

and S32, pushing the emergency information to the first position for display.

In the embodiment, the emergency events in each area can be known orderly, visually and comprehensively by dividing and assigning the display blocks of the three-dimensional real-scene GIS map display interface, the emergency degree value can be displayed in the corresponding display block according to the emergency degree value of the emergency event by establishing the emergency level and the mapping table of the corresponding assigned display block, and the emergency event can be accurately quantized so that a user can effectively early warn according to the emergency degree.

Optionally, the step S32 specifically includes the following steps:

s321, updating the emergency sequence in real time, and inserting the latest emergency into a corresponding level list;

and S322, polling and displaying the emergency information at the first position according to the real-time sequence of each level of emergency information.

In the embodiment, by updating the emergency sequencing in real time, the comprehensive real-time supervision of the jurisdiction area can be realized, and the newly-generated emergency can be effectively early-warned in time.

Optionally, the step S322 further specifically includes the following steps:

s3221, receiving major emergency information sent by the first terminal, and checking whether a major emergency exists in the current emergency list;

s3222, if yes, inserting the newly received major emergency information into a next position of a second position in the emergency list, and immediately displaying the newly received major emergency, where the second position is a position of the current major emergency in the emergency list;

s3223, if not, inserting the newly received major emergency information into a major emergency list;

s3224, the major emergency information is pushed to the central position of the three-dimensional real-scene GIS map to be displayed;

s3225, scheduling emergency information collected by a second terminal, wherein the second terminal is adjacent to the first terminal of the current major emergency.

In this embodiment, the major emergency event refers to a major emergency event with a priority higher than that of the above-mentioned emergency event, such as an emergency event of tsunami, typhoon, earthquake, illegal violent storm, etc., and the placement of the major emergency event at the center of the three-dimensional real-scene GIS map is helpful to effectively warn the major emergency event more specifically.

Example two

As shown in fig. 2, the present embodiment provides an emergency hierarchical pushing system, which includes:

the receiving module is used for receiving the emergency information sent by the first terminal;

the determining module is used for determining the level of the emergency event information according to a preset index;

and the pushing module is used for pushing the emergency information to the position corresponding to the level in the three-dimensional real-scene GIS map for display, and the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

Optionally, the receiving module includes:

a receiving unit, configured to receive emergency information sent by a first terminal through a network;

the analysis unit is used for analyzing the position data of the first terminal from the emergency event information;

and the association unit is used for mapping the emergency information acquired by the first terminal in real time to the corresponding position on the three-dimensional real-scene GIS map according to the position data of the first terminal.

Optionally, the preset index includes that the determining module includes at least one of a region level, a time level, a property type, and a device category, and the determining module at least includes:

the first determining unit is used for determining the region level to which the emergency information belongs, and the region level sequentially comprises a general region, a key region, a core region and a sensitive region from low to high;

the second determining unit is used for determining the time level to which the emergency information belongs, and the time levels are idle time, working time, peak time and sensitive time from low to high in sequence;

a third determining unit, configured to determine a property category to which the emergency information belongs, where the property category includes at least one of a general fight emergency, a people gathering emergency, a violent criminal emergency, a fire emergency, a traffic accident emergency, a natural disaster emergency, and an early warning emergency;

a fourth determining unit, configured to determine a device type to which the emergency information belongs, where the device type includes at least one of a handheld device alarm of an officer, an automatic image detection device alarm, an automatic internet of things device alarm, a sensor detection signal alarm, a manual emergency alarm, and a manual alarm entry alarm of an alarm receiver;

an acquiring unit, configured to acquire a region level sequence, a time level sequence, a property category, and an equipment category of the emergency information;

and the sorting unit is used for generating scores of the emergency events with different grades by adopting a preset function after combining the preset weight of each index and the regional grade sequence, the time grade sequence, the property category and the equipment category of the emergency event information.

Optionally, the pushing module comprises:

the dividing unit is used for finding out a corresponding three-dimensional real-scene GIS map position from a position mapping table as a first position according to the level of the emergency event information, and the position mapping table reflects the mapping relation between the level of the emergency event information and the position on the three-dimensional real-scene GIS map;

and the establishing unit is used for pushing the emergency information to the first position for displaying.

Optionally, the pushing unit comprises:

the updating unit is used for updating the emergency sequence in real time and inserting the latest emergency into the corresponding level list;

and the display unit is used for displaying the emergency information in a polling mode at the first position according to the real-time sequence of each level of emergency information.

Optionally, the display unit includes:

the receiving subunit is configured to receive the major emergency information sent by the first terminal, and check whether a major emergency exists in the current emergency list;

the first inserting subunit is configured to insert, if yes, the newly received major emergency information into a next position of a second position in the emergency list, and immediately display the newly received major emergency, where the second position is a position of the current major emergency in the emergency list;

the second inserting subunit is used for inserting the newly received major emergency information into the major emergency list if the received major emergency information is not the same as the first emergency information;

the display subunit is used for pushing the major emergency information to the central position of the three-dimensional real-scene GIS map for display;

and the scheduling subunit is used for scheduling the emergency information acquired by the second terminal, wherein the second terminal is adjacent to the first terminal of the current major emergency.

EXAMPLE III

An apparatus comprising a memory for storing at least one program and a processor for loading the at least one program to perform the method of embodiment one.

The device of this embodiment may execute the emergency hierarchical pushing method provided in the first embodiment of the method of the present invention, may execute any combination of the implementation steps of the method embodiments, and has corresponding functions and advantages of the method.

Example four

A storage medium having stored therein a processor-executable program for performing a method according to an embodiment when executed by a processor.

The storage medium of this embodiment may execute the emergency hierarchical pushing method provided in the first embodiment of the method of the present invention, may execute any combination of the implementation steps of the method embodiments, and has corresponding functions and advantages of the method.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An emergency hierarchical pushing method is characterized by comprising the following steps:

receiving emergency information sent by a first terminal;

determining the level of the emergency information according to a preset index;

and pushing the emergency information to a position corresponding to the level in a three-dimensional real-scene GIS map for display, wherein the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

2. The method as claimed in claim 1, wherein the emergency information includes location data of the first terminal, and the step of receiving the emergency information sent by the first terminal includes the following steps:

receiving emergency information sent by a first terminal through a network;

analyzing the position data of the first terminal from the emergency information;

and mapping the emergency information acquired by the first terminal in real time to a corresponding position on the three-dimensional real-scene GIS map according to the position data of the first terminal.

3. The method as claimed in claim 1, wherein the predetermined criteria includes at least one of a geographical level, a temporal level, a property type and a device category, and the determining the level of the emergency information according to the predetermined criteria includes at least one of:

determining the region level to which the emergency information belongs, wherein the region level comprises a general region, a key region, a core region and a sensitive region from low to high in sequence;

determining the time level to which the emergency information belongs, wherein the time levels are idle time, working time, peak time and sensitive time from low to high in sequence;

determining a property category to which the emergency information belongs, wherein the property category comprises at least one of general fight emergency, people gathering emergency, violent criminal emergency, pilot fire emergency, traffic accident emergency, natural disaster emergency and early warning emergency;

and determining the equipment type to which the emergency event information belongs, wherein the equipment type comprises at least one of police officer handheld equipment alarm, image detection equipment automatic alarm, Internet of things equipment automatic alarm, sensor detection signal alarm, manual emergency alarm and alarm receiving personnel manual input alarm.

4. The method of claim 3, wherein the step of determining the level of the emergency information further comprises the steps of:

acquiring a region level sequence, a time level sequence, a property type and an equipment type of the emergency event information;

and combining preset weights of various indexes, the regional level sequence, the time level sequence, the property category and the equipment category of the emergency event information, and generating scores of emergency events of different levels by adopting a preset function.

5. The method according to claim 1, wherein the step of pushing the emergency information to the position corresponding to the level in the three-dimensional real-scene GIS map for display specifically comprises the following steps:

according to the level of the emergency information, finding out a corresponding three-dimensional real-scene GIS map position from a position mapping table as a first position, wherein the position mapping table reflects the mapping relation between the level of the emergency information and the position on the three-dimensional real-scene GIS map;

and pushing the emergency information to the first position for display.

6. The method as claimed in claim 5, wherein the step of pushing the emergency information to the first location for display comprises the following steps:

updating the emergency sequence in real time, and inserting the latest emergency into a corresponding level list;

and polling and displaying the emergency information at the first position according to the real-time sequence of each level of emergency information.

7. The method of claim 6, wherein the step of polling the first location for displaying the emergency information according to the real-time sequence of the emergency information at each level further comprises:

receiving major emergency information sent by a first terminal, and checking whether a major emergency exists in a current emergency list;

if so, inserting the newly received major emergency information into a next position of a second position in the emergency list, and immediately displaying the newly received major emergency, wherein the second position is the position of the current major emergency in the emergency list;

if not, inserting the newly received major emergency information into a major emergency list;

pushing the major emergency information to a central position of a three-dimensional real-scene GIS map for display;

and scheduling the emergency information collected by a second terminal, wherein the second terminal is adjacent to the first terminal of the current major emergency.

8. An emergency hierarchical push system, comprising:

the receiving module is used for receiving the emergency information sent by the first terminal;

the determining module is used for determining the level of the emergency event information according to a preset index;

and the pushing module is used for pushing the emergency information to the position corresponding to the level in the three-dimensional real-scene GIS map for display, and the three-dimensional real-scene GIS map comprises a three-dimensional model of the position of the emergency information and a real-time video stream.

9. An apparatus comprising a memory for storing at least one program and a processor for loading the at least one program to perform the method of any one of claims 1-7.

10. A storage medium having stored therein a program executable by a processor, wherein the program executable by the processor is adapted to perform the method of any one of claims 1-7 when executed by the processor.

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