CN112347096A - Event distribution method and device, storage medium and terminal - Google Patents

Abstract

An event distribution method and device, a storage medium and a terminal are provided, wherein the event distribution method comprises the following steps: acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value; matching the field value of each field in the event information with the field value of each field of each routing configuration in a preset routing configuration table to determine the number of the fields of each routing configuration matched with the event information; determining final routing configuration according to the number of fields matched with the event information in each routing configuration; and forwarding the event information to a channel indicated by a channel identifier in the final routing configuration. According to the technical scheme, the event processing efficiency during smart city management can be improved.

Description

Event distribution method and device, storage medium and terminal

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to an event distribution method and apparatus, a storage medium, and a terminal.

Background

The urban intelligent center takes data as the fifth urban basic element except urban space, resources, population and industry, highlights the effect of integration and analysis of urban big data on more intelligent operation and management of cities, meets the systematic and comprehensive requirements of cities, and is a necessary trend for fully integrating smart city construction with big data and Internet plus.

Smart City (Smart City) is originated in the media field, and means that various information technologies or innovative concepts are utilized to communicate and integrate the system and service of the City, so as to improve the efficiency of resource application, optimize City management and service, and improve the quality of life of citizens. The smart city is a city informationized advanced form which fully applies a new generation of information technology to various industries in the city based on the next generation innovation (innovation 2.0) of the knowledge society, realizes the deep integration of informatization, industrialization and urbanization, is beneficial to relieving the large urban diseases, improving the urbanization quality, realizing the fine and dynamic management, improving the urban management effect and improving the quality of life of citizens.

At present, when multi-channel processing is involved in city management event handling, channel distribution is often performed manually by staff.

However, the event processing efficiency in the prior art is low, and the event processing is limited by the manpower condition, so that the timeliness is poor, and the event cannot be processed in time after the occurrence of the event, thereby causing a larger problem.

Disclosure of Invention

The technical problem solved by the invention is how to improve the event processing efficiency in the smart city management.

In order to solve the above technical problem, an embodiment of the present invention provides an event distribution method, where the event distribution method includes: acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value; matching the field value of each field in the event information with the field value of each field of each routing configuration in a preset routing configuration table to determine the number of the fields of each routing configuration matched with the event information; determining final routing configuration according to the number of fields matched with the event information in each routing configuration; and forwarding the event information to a channel indicated by a channel identifier in the final routing configuration.

Optionally, forwarding the event information to the channel indicated by the channel identifier in the final routing configuration further includes: and determining registration information corresponding to the channel identification according to the channel identification in the final routing configuration, wherein the registration information comprises a channel address, a channel port, a channel receiving protocol and a channel receiving data format.

Optionally, forwarding the event information to a channel indicated by a channel identifier in the final routing configuration includes: converting the format of the event information into a channel receiving data format in the registration information; and sending the converted event information to a channel address and a channel port in the registration information by using a channel receiving protocol in the registration information.

Optionally, the determining the final routing configuration according to the number of the fields of each routing configuration matched with the event information includes: and at least selecting the route configuration with the maximum number of matched fields as the final route configuration.

Optionally, the selecting, at least, the route configuration with the largest number of matched fields as the final route configuration includes: selecting the routing configuration with the maximum number of matched fields; and if the number of the selected route configurations is more than 1, determining the route configuration with the highest priority in the selected route configurations as the final route configuration.

Optionally, the priority of the routing configuration is the priority of the channel indicated by the channel identifier in the routing configuration.

Optionally, the fields of the event information and the routing configuration are selected from: geographical location information, event type, event rating, event subject type, time information, and environmental information.

In order to solve the above technical problem, an embodiment of the present invention further discloses an event distribution device, where the event distribution device includes: the event information acquisition module is used for acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value; a field matching module, configured to match field values of fields in each field in the event information with field values of fields in each route configuration in a preset route configuration table, so as to determine the number of fields in each route configuration that match the event information; the routing configuration determining module is used for determining final routing configuration according to the number of fields matched with the event information in each routing configuration; and the event forwarding module is used for forwarding the event information to a channel indicated by the channel identifier in the final routing configuration.

The embodiment of the invention also discloses a storage medium, wherein a computer instruction is stored on the storage medium, and the steps of the event distribution method are executed when the computer instruction runs.

The embodiment of the invention also discloses a terminal which comprises a memory and a processor, wherein the memory is stored with a computer instruction which can be operated on the processor, and the processor executes the steps of the event distribution method when operating the computer instruction.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the technical scheme of the invention includes that event information is obtained, the event information comprises a plurality of fields, and each field is provided with a field value; matching the field value of each field in the event information with the field value of each field of each routing configuration in a preset routing configuration table to determine the number of the fields of each routing configuration matched with the event information; determining final routing configuration according to the number of fields matched with the event information in each routing configuration; and forwarding the event information to a channel indicated by a channel identifier in the final routing configuration. According to the technical scheme, the event information is matched with the fields of each route configuration in the preset route configuration table, and the identification of the channel for processing the event information is determined in the route configuration according to the number of the matched fields, so that the automatic distribution of the event is realized, and the distribution efficiency is improved; in addition, the final routing configuration and the channel are determined according to the number of the matched fields, so that the determined channel and the event have the most matched fields, and the accuracy of event distribution is realized.

Drawings

FIG. 1 is a flow chart of a method for event distribution according to an embodiment of the present invention;

FIG. 2 is a flowchart of one embodiment of step S104 shown in FIG. 1;

FIG. 3 is a diagram illustrating an exemplary application scenario of the present invention;

fig. 4 is a schematic structural diagram of an event distribution device according to an embodiment of the present invention.

Detailed Description

As described in the background art, event processing efficiency in the prior art is low, and is limited by manpower conditions, timeliness is poor, and even after an event occurs, the event cannot be processed in time, which causes a larger problem.

According to the technical scheme, the event information is matched with the fields of each route configuration in the preset route configuration table, and the identification of the channel for processing the event information is determined in the route configuration according to the number of the matched fields, so that the automatic distribution of the event is realized, and the distribution efficiency is improved; in addition, the final routing configuration and the channel are determined according to the number of the matched fields, so that the determined channel and the event have the most matched fields, and the accuracy of event distribution is realized.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Fig. 1 is a flowchart of an event distribution method according to an embodiment of the present invention.

The event distribution method may include the steps of:

step S101: acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value;

step S102: matching the field value of each field in the event information with the field value of each field of each routing configuration in a preset routing configuration table to determine the number of the fields of each routing configuration matched with the event information;

step S103: determining final routing configuration according to the number of fields matched with the event information in each routing configuration;

step S104: forwarding the event information to a channel indicated by a channel identifier in the final routing configuration

It should be noted that the sequence numbers of the steps in this embodiment do not represent a limitation on the execution sequence of the steps.

In a specific implementation of step S101, event information may be obtained from a source device that generates event information, which may be a computing system dedicated to generating event information; the input of the user may also be obtained, where the input of the user includes event information, and the event information may be generated by a manual patrol of the user.

Wherein the event information may include a plurality of fields, each field having a field value. Specifically, the fields of the event information are selected from: geographical location information, event type, event rating, event subject type, time information, and environmental information.

In a particular embodiment, the fields of the event may include: event source, scene type, event class, area (e.g., zone, street, area of interest, grid), time of occurrence, disposal channel, time of dispatch, time of disposal, time of resolution, address, latitude and longitude, point location ID, event location, and the like.

Before step S102 is executed, a preset routing configuration table may be preset, where the preset routing configuration table includes a plurality of routing configurations, and each routing configuration includes a plurality of fields. Wherein the field of the routing configuration may be identical to the field of the time information, and the field of the routing configuration further includes an identification of the channel to indicate the channel. That is, the routing configuration records the relevant configuration information for the specific treatment channel that the event needs to be forwarded.

It should be noted that, each field of each route configuration in the preset route configuration table may be set according to an actual application requirement, which is not limited in this embodiment of the present invention.

Further, in the specific implementation of step S102, the field values of the fields in the event information may be matched with the field values of the fields in the preset routing configuration table for each routing configuration. That is, if the field values of two fields coincide, it is determined that the two fields match. For example, if the time type in event information 1 is "public safety-fire safety-cell management-fire fighting tunnel is occupied" and the time type in routing configuration 1 is also "public safety-fire safety-cell management-fire fighting tunnel is occupied", it may be determined that the time type in event information 1 matches the time type in routing configuration 1.

If there is a routing configuration matching at least one field of the event information, it indicates that the routing configuration indicates related information of a channel capable of processing the event information, such as an identification of the channel.

The number of fields for each routing configuration matching the event information may be determined, via step S102.

Further, in the specific implementation of step S103, the final routing configuration may be determined according to at least the number of fields of each routing configuration matching the event information. For example, the route configuration with the largest number of matching fields may be selected as the final route configuration. The final routing configuration includes a channel identification that indicates the channel to be used to process the event information.

For example, for event information 1, if the number of matching fields in routing configuration 1 is 3 and the number of matching fields in routing configuration 2 is 5, then routing configuration 2 may be selected as the final routing configuration for event information 1.

In a specific implementation of step S104, the event information is forwarded to the channel indicated by the channel identifier in the final routing configuration. In particular, the event information may be forwarded to the channel in a format supported by the channel.

The embodiment of the invention matches the event information with the fields of each route configuration in the preset route configuration table which is configured in advance, and determines the identification of the channel for processing the event information in the route configuration according to the number of the matched fields, thereby realizing the automatic distribution of the event and improving the distribution efficiency; in addition, the final routing configuration and the channel are determined according to the number of the matched fields, so that the determined channel and the event have the most matched fields, and the accuracy of event distribution is realized.

In a non-limiting embodiment of the present invention, step S104 shown in fig. 1 may further include the following steps: and determining registration information corresponding to the channel identification according to the channel identification in the final routing configuration, wherein the registration information comprises a channel address, a channel port, a channel receiving protocol and a channel receiving data format.

In this embodiment, the registration information may be preset. The registration information of the channel indicated by the channel identification can be searched for the forwarding of the event information through the channel identification.

In an implementation, the channel information can record relevant basic information of the channel, such as registration information including a channel address, a channel port, a channel receiving protocol and a channel receiving data format.

Specifically, the channel Address may be a Uniform Resource Locator (URL), or may be an Internet Protocol Address (IP).

More specifically, the registration information may also include channel security information, such as a digital token (token), or a user name and password, etc.

In one particular example, the registration information may be in the form of a registry.

In a non-limiting embodiment of the present invention, referring to fig. 2, step S104 shown in fig. 1 may include the following steps:

step S201: converting the format of the event information into a channel receiving data format in the registration information;

step S202: and sending the converted event information to a channel address and a channel port in the registration information by using a channel receiving protocol in the registration information.

In this embodiment, in order to enable the event information to be accurately received by the channel, it is necessary to adapt the received data formats of the event information and the channel. I.e. converting the original format of the event into the channel receiving data format to meet the format requirement of the channel.

And the converted event information can be sent by using a channel receiving protocol which can be received by a channel, and is sent to a channel address and a channel port in the registration information.

In one non-limiting embodiment of the present invention, step S103 shown in fig. 1 may include the following steps: selecting the routing configuration with the maximum number of matched fields; and if the number of the selected route configurations is more than 1, determining the route configuration with the highest priority in the selected route configurations as the final route configuration.

In this embodiment, when the routing configuration is selected according to the maximum number of the matched fields, it is possible to select a plurality of routing configurations. In this case, the final routing configuration may be selected according to the priority of the routing configuration.

Each routing configuration in the preset routing configuration table has a priority, and the priority of the routing configuration may be preset, for example, the priority of the routing configuration may be determined according to a channel indicated by a channel identifier in the routing configuration.

It should be understood that the setting manner of the priority of the routing configuration may also be any other implementable manner, and the embodiment of the present invention is not limited thereto.

Referring to fig. 3, in a specific application scenario of the present invention, event information is taken as an example of a fire channel occupation of a cell.

The fire fighting access 380 near the approaching road street in the quiet area of Shanghai city is parked by a car for a long time, the grid patrol system finds the event, and the grid patrol system generates event information 31 which specifically comprises the following fields and field values:

event name: the byfen circuit 380 is occupied in the fire passage;

the event source is as follows: a grid patrol system;

scene type: the fire fighting access is occupied;

event type: public safety-fire safety-cell management-fire passage is occupied;

event rating (total 4 levels): grade 1;

area: a fen-way street in a quiet area;

the occurrence time is as follows: 8/2019, 1/12: 00: 00;

address: the Bingway street of the Bingway district of the Shanghai city is close to the Feng road 380 and is close to the fire channel of the back door;

latitude and longitude: 121.233322, 31.2212;

event location: a residential community.

The preset routing configuration table 32 may be preset. And in step S302, the field value of each field in the event information 31 is matched with the field value of each field in the preset routing configuration table 32.

The following fields may be specifically used: the scene type, event level, area, occurrence time, event location, etc. are searched in the preset routing configuration table 32 by table lookup.

For example, the preset routing configuration table 32 includes two routing configurations (which may also be referred to as routing rules):

number 1 and number 2; the routing configuration of number 1 specifically includes the following fields and field values:

region: a fen-way street in a quiet area;

event type: the fire fighting access is occupied;

event subject type: a residential community;

channel ID: channel 001.

The routing configuration of number 2 specifically includes the following fields and field values:

region: a fen-way street in a quiet area;

event type: the fire fighting access is occupied;

event subject type: a residential community;

starting time: 10 points;

cutoff time: 16 points;

the date type: working days;

channel ID: and (7) a channel 002.

Then it can be determined that the routing configuration of number 1 matches 3 fields of time information 1 after step S302; the routing configuration of number 2 has 5 fields matching time information 1. Then the final routing configuration may be determined as the routing configuration number 2.

The channel ID in the routing configuration of number 2 is channel 002.

In step S304, the registration information of the channel 002 is looked up in the channel registry 33 based on the channel ID.

After step S304, the registration information of the channel 002 is obtained as:

channel ID: a channel 002;

channel system address: 101.3.34.2, respectively;

channel port 1001;

channel receiving information protocol https;

channel safety control information, namely a user name (username) ═ tony & token ═ dafadwdi14 s;

the format of the channel receiving event { event name: % event name; the event source is as follows: % source of event; scene type: % scene type consumed; event type: % event type%; event level: % event rating%; area (zone, street, area of interest, grid): % area%; the occurrence time is as follows: % time of occurrence; address: % address; latitude and longitude: % latitude and longitude; event location: % event location% }.

In step S306, the event information is forwarded, that is, the event information 1 is distributed to the channel 002.

Referring to fig. 4, an embodiment of the present invention further discloses an event distributing apparatus 40, where the event distributing apparatus 40 includes:

an event information obtaining module 401, configured to obtain event information, where the event information includes multiple fields, and each field has a field value;

a field matching module 402, configured to match a field value of each field in the event information with a field value of each field of each routing configuration in a preset routing configuration table, so as to determine the number of fields of each routing configuration that match the event information;

a routing configuration determining module 403, configured to determine a final routing configuration according to the number of fields of each routing configuration that match the event information;

an event forwarding module 404, configured to forward the event information to a channel indicated by the channel identifier in the final routing configuration.

The embodiment of the invention matches the event information with the fields of each route configuration in the preset route configuration table which is configured in advance, and determines the identification of the channel for processing the event information in the route configuration according to the number of the matched fields, thereby realizing the automatic distribution of the event and improving the distribution efficiency; in addition, the final routing configuration and the channel are determined according to the number of the matched fields, so that the determined channel and the event have the most matched fields, and the accuracy of event distribution is realized.

For more details of the operation principle and the operation mode of the event distributing apparatus 40, reference may be made to the relevant descriptions in fig. 1 to fig. 3, which are not described herein again.

The embodiment of the invention also discloses a storage medium, wherein computer instructions are stored on the storage medium, and when the computer instructions are operated, the steps of the method shown in the figure 1, the figure 2 or the figure 3 can be executed. The storage medium may include ROM, RAM, magnetic or optical disks, etc. The storage medium may further include a non-volatile memory (non-volatile) or a non-transitory memory (non-transient), and the like.

The embodiment of the invention also discloses a terminal which can comprise a memory and a processor, wherein the memory is stored with computer instructions capable of running on the processor. The processor, when executing the computer instructions, may perform the steps of the methods shown in fig. 1, fig. 2, or fig. 3. The terminal includes, but is not limited to, a mobile phone, a computer, a tablet computer and other terminal devices.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An event distribution method, comprising:

acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value;

matching the field value of each field in the event information with the field value of each field of each routing configuration in a preset routing configuration table to determine the number of the fields of each routing configuration matched with the event information;

determining final routing configuration according to the number of fields matched with the event information in each routing configuration;

and forwarding the event information to a channel indicated by a channel identifier in the final routing configuration.

2. The event distribution method according to claim 1, wherein forwarding the event information to the channel indicated by the channel identifier in the final routing configuration further comprises:

and determining registration information corresponding to the channel identification according to the channel identification in the final routing configuration, wherein the registration information comprises a channel address, a channel port, a channel receiving protocol and a channel receiving data format.

3. The event distribution method according to claim 2, wherein forwarding the event information to the channel indicated by the channel identifier in the final routing configuration comprises:

converting the format of the event information into a channel receiving data format in the registration information;

and sending the converted event information to a channel address and a channel port in the registration information by using a channel receiving protocol in the registration information.

4. The event distribution method according to claim 1, wherein the determining a final routing configuration according to the number of fields of each routing configuration matching the event information comprises:

and at least selecting the route configuration with the maximum number of matched fields as the final route configuration.

5. The event distribution method according to claim 4, wherein said at least selecting the routing configuration with the largest number of matching fields as the final routing configuration comprises:

selecting the routing configuration with the maximum number of matched fields;

and if the number of the selected route configurations is more than 1, determining the route configuration with the highest priority in the selected route configurations as the final route configuration.

6. The event distribution method according to claim 5, wherein the priority of the routing configuration is the priority of the channel indicated by the channel identifier in the routing configuration.

7. The event distribution method according to claim 1, wherein the fields of the event information and the routing configuration are selected from the group consisting of: geographical location information, event type, event rating, event subject type, time information, and environmental information.

8. An event distribution apparatus, comprising:

the event information acquisition module is used for acquiring event information, wherein the event information comprises a plurality of fields, and each field is provided with a field value;

a field matching module, configured to match field values of fields in each field in the event information with field values of fields in each route configuration in a preset route configuration table, so as to determine the number of fields in each route configuration that match the event information;

the routing configuration determining module is used for determining final routing configuration according to the number of fields matched with the event information in each routing configuration;

and the event forwarding module is used for forwarding the event information to a channel indicated by the channel identifier in the final routing configuration.

9. A storage medium having stored thereon computer instructions which, when executed, perform the steps of the event distribution method of any of claims 1 to 7.

10. A terminal comprising a memory and a processor, the memory having stored thereon computer instructions executable on the processor, wherein the processor, when executing the computer instructions, performs the steps of the event distribution method of any one of claims 1 to 7.

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