CN112542031A - Multi-protocol alarm condition automatic conversion alarm receiving method and system - Google Patents

Abstract

The invention discloses a multi-protocol alarm condition automatic conversion alarm receiving method and a system thereof, wherein the multi-protocol alarm condition automatic conversion alarm receiving system comprises: the system comprises an alarm source equipment management module, a data resource processing module, a linkage resource management module, an alarm situation management module, a third party access service module and a resource linkage map-loading module; a multi-protocol alarm condition automatic conversion alarm receiving method comprises the following steps: alarm source management, alarm plan management, alarm linkage setting, alarm rule setting, alarm acquisition, alarm conversion, alarm storage, alarm forwarding and alarm linkage presentation. The invention has the beneficial effects that: when the system is accessed to a third-party platform, a three-party device or a device with the alarm capability of the system, a plug-in type access mode can be implemented based on multiple protocols, so that the automatic conversion of the newly accessed alarm condition is achieved, the access development workload is reduced, and the alarm condition access capability, the unified storage management of the alarm condition and the unified forwarding and alarm application of the alarm condition of the system are improved.

Description

Multi-protocol alarm condition automatic conversion alarm receiving method and system

Technical Field

The invention relates to an automatic alarm condition conversion technology, in particular to a multi-protocol automatic alarm condition conversion alarm receiving method and system.

Background

In order to prevent various emergency situations, various alarm devices are widely applied in daily life, and some problems exist while convenience is brought to life of people. The existing warning condition access system can not effectively convert data of various warning receiving devices, one warning receiving system can only carry out warning receiving service on one device, the function is single, and the existing warning condition access system can not meet the requirements of the existing access warning.

Disclosure of Invention

The invention aims to provide a multi-protocol alarm condition automatic conversion alarm receiving method and system aiming at the technical problems.

A multi-protocol alarm condition automatic conversion alarm receiving system comprises: the system comprises an alarm source equipment management module, a data resource processing module, a linkage resource management module, an alarm situation management module, a third party access service module and a resource linkage map-loading module; wherein:

the alarm source equipment management module receives feedback data from different alarm source equipment, uploads the data to the data resource processing module and remotely monitors the running state of each alarm equipment;

the linkage resource management module reads data resource information among different modules in the system, manages the data resource information according to a set classification mode and formulates a multi-layer display model of the map resources;

the data resource processing module reads data resources seen by different modules in the system, feeds the processed data back to the corresponding module and processes the information of the data in the system in real time;

the alarm management module is used for carrying out alarm classification processing according to the data resources fed back by the data resource processing module and feeding back the data to the third-party access service module;

the third party access service module reads the data fed back by the alarm management module and accesses the third party to execute the alarm service according to different data feedback;

the resource linkage map-loading module reads all resource information in a database in the system, performs data fusion processing, and realizes rapid map-loading presentation of resource classification and automatic linkage resource map-loading presentation of multiple moving targets in the system.

Preferably, the data resource processing module includes: the system comprises a flash streaming service submodule, a conversion service submodule and a data storage submodule; wherein:

the Flume streaming service submodule receives streaming data of the alarm event reported by the alarm source equipment management module, sends the streaming data to the conversion service submodule and processes the streaming data of the alarm event in real time;

the conversion service submodule receives the data of the Flume streaming service submodule and outputs the data to the data storage submodule according to a unified standard to complete the structural standard processing of the semi-structural alarm data;

the data storage submodule receives data information in each module in the system, stores and backups the data information, and an administrator can inquire alarm events and other data information as required.

Preferably, the alert management module includes: an alarm plan management submodule and an alarm rule management submodule; wherein:

the alarm plan management submodule receives data information from alarm source equipment and classifies the data according to a set plan type to realize dynamic configuration and quick response of an alarm handling process;

and the alarm rule management submodule receives data from the alarm source equipment management submodule, processes the alarm event according to the set rule and appoints the presentation form of the alarm event.

Preferably, the alarm source device in the alarm source device management module includes: one-key triggered alarm devices, police 110 alarm devices, smoke alarm devices, vehicle alarm devices, visitor alarm devices, water meter alarm devices, door lock alarm devices, and third party alarm devices supporting the TCP/IP protocol suite.

Preferably, in the third-party access service module, the third-party platform subscribes to the alarm event through the kakfa message, and when an alarm occurs, the alarm information is pushed to all third-party mechanisms subscribing to the related alarm event in real time.

A multi-protocol alarm condition automatic conversion alarm receiving method comprises the following steps:

s1: the administrator debugs the alarm source equipment and checks whether the equipment can be normally used and can be accessed to the system;

s2: setting different alarm plans to deal with the possible real alarm situations;

s3: managing resources in the system, and customizing resource types;

s4: alarm rule configuration is carried out, and the presentation rule of the alarm event is specified;

s5: according to the alarm data received by the alarm source device, different processing modes are selected for classification processing;

s6: converting the classified alarm data into different streaming data;

s7: classifying and storing the streaming data of the alarm source data;

s8: forwarding the streaming data of the alarm source data, distributing the data to a third-party service interface, and finishing alarm notification;

s9: and all resources in the system are classified, quickly displayed and automatically linked with each other to display the resource images.

Preferably, the types of the plans in S2 are divided into three types, namely a default plan, a step-by-step overtime reporting plan, and a custom overtime reporting plan, and the plans are associated with the alarm source device, so as to implement dynamic configuration and quick response of the alarm handling process.

Preferably, the resources in step S3 are managed in a classified manner according to resource locations, resource management devices, resource UI icons, resource panoramas, and custom text link information.

The invention has the beneficial effects that: when the system is accessed to a third-party platform, a three-party device or a device with the alarm capability of the system, a plug-in type access mode can be implemented based on multiple protocols, so that the automatic conversion of the newly accessed alarm condition is achieved, the access development workload is reduced, and the alarm condition access capability, the unified storage management of the alarm condition and the unified forwarding and alarm application of the alarm condition of the system are improved.

Drawings

FIG. 1 is a block diagram of the system of the present invention.

FIG. 2 is a flow chart of the method of the present invention.

FIG. 3 is a data flow of the present invention.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, a multi-protocol alarm automatic-conversion alarm receiving system includes: the system comprises an alarm source equipment management module, a data resource processing module, a linkage resource management module, an alarm situation management module, a third party access service module and a resource linkage map-loading module; wherein:

the alarm source equipment management module receives feedback data from different alarm source equipment, uploads the data to the data resource processing module and remotely monitors the running state of each alarm equipment;

the linkage resource management module reads data resource information among different modules in the system, manages the data resource information according to a set classification mode and formulates a multi-layer display model of the map resources;

the data resource processing module reads data resources seen by different modules in the system, feeds the processed data back to the corresponding module and processes the information of the data in the system in real time;

the alarm management module is used for carrying out alarm classification processing according to the data resources fed back by the data resource processing module and feeding back the data to the third-party access service module;

the third party access service module reads the data fed back by the alarm management module and accesses the third party to execute the alarm service according to different data feedback;

the resource linkage map-loading module reads all resource information in a database in the system, performs data fusion processing, and realizes rapid map-loading presentation of resource classification and automatic linkage resource map-loading presentation of multiple moving targets in the system.

It should be noted that the data resource processing module includes: the system comprises a flash streaming service submodule, a conversion service submodule and a data storage submodule; wherein:

the Flume streaming service submodule receives streaming data of the alarm event reported by the alarm source equipment management module, sends the streaming data to the conversion service submodule and processes the streaming data of the alarm event in real time;

the conversion service submodule receives the data of the Flume streaming service submodule and outputs the data to the data storage submodule according to a unified standard to complete the structural standard processing of the semi-structural alarm data;

the data storage submodule receives data information in each module in the system, stores and backups the data information, and an administrator can inquire alarm events and other data information as required.

It should be noted that the alert management module includes: an alarm plan management submodule and an alarm rule management submodule; wherein:

the alarm plan management submodule receives data information from alarm source equipment and classifies the data according to a set plan type to realize dynamic configuration and quick response of an alarm handling process;

and the alarm rule management submodule receives data from the alarm source equipment management submodule, processes the alarm event according to the set rule and appoints the presentation form of the alarm event.

It should be noted that the alarm source device in the alarm source device management module includes: one-key triggered alarm devices, police 110 alarm devices, smoke alarm devices, vehicle alarm devices, visitor alarm devices, water meter alarm devices, door lock alarm devices, and third party alarm devices supporting the TCP/IP protocol suite.

It should be noted that, in the third party access service module, the third party platform subscribes to the alarm event through the kakfa message, and when an alarm occurs, the alarm information is pushed to all third party mechanisms subscribing to the related alarm event in real time.

As shown in fig. 2, a multi-protocol alarm condition automatic conversion alarm receiving method includes the following steps:

s1: the administrator debugs the alarm source equipment and checks whether the equipment can be normally used and can be accessed to the system;

s2: setting different alarm plans to deal with the possible real alarm situations;

s3: managing resources in the system, and customizing resource types;

s4: alarm rule configuration is carried out, and the presentation rule of the alarm event is specified;

s5: according to the alarm data received by the alarm source device, different processing modes are selected for classification processing;

s6: converting the classified alarm data into different streaming data;

s7: classifying and storing the streaming data of the alarm source data;

s8: forwarding the streaming data of the alarm source data, distributing the data to a third-party service interface, and finishing alarm notification;

s9: and all resources in the system are classified, quickly displayed and automatically linked with each other to display the resource images.

It should be noted that the types of the plans in S2 are divided into three types, namely a default plan, a step-by-step timeout reporting plan, and a custom timeout reporting plan, and the plans are associated with the alarm source device, so as to implement dynamic configuration and quick response of the alarm handling process.

It should be noted that the resources in step S3 are managed in a classified manner according to resource locations, resource management devices, resource UI icons, resource panoramas, and custom text link information.

As shown in fig. 3, a data flow diagram of a multi-protocol alarm automatic conversion alarm receiving system.

It should be understood that the alarm source device and the device linkage resource are combined, and data of the alarm source device is processed and stored in the Redis database.

It should be understood that the one-key alarm data, the 110 alarm data, the smoke alarm data, the vehicle alarm data, the visitor alarm data, the water meter alarm data, the door lock alarm data and other alarm data are transmitted through the plug agents and the Flume streaming service sub-module, and the streaming data generated by different alarm sources can be transmitted to the back-end centralized conversion service in real time.

It is understood that the alarm receiving management platform can set and adjust alarm rules, alarm forwarding rules and alarm linkage rules.

Claims (8)

1. The utility model provides a multiprotocol alarm condition automatic transformation alarm receiving system which characterized in that includes: the system comprises an alarm source equipment management module, a data resource processing module, a linkage resource management module, an alarm situation management module, a third party access service module and a resource linkage map-loading module; wherein:

the alarm source equipment management module receives feedback data from different alarm source equipment, uploads the data to the data resource processing module and remotely monitors the running state of each alarm equipment;

the linkage resource management module reads data resource information among different modules in the system, manages the data resource information according to a set classification mode and formulates a multi-layer display model of the map resources;

the data resource processing module reads data resources seen by different modules in the system, feeds the processed data back to the corresponding module and processes the information of the data in the system in real time;

the alarm management module is used for carrying out alarm classification processing according to the data resources fed back by the data resource processing module and feeding back the data to the third-party access service module;

the third party access service module reads the data fed back by the alarm management module and accesses the third party to execute the alarm service according to different data feedback;

the resource linkage map-loading module reads all resource information in a database in the system, performs data fusion processing, and realizes rapid map-loading presentation of resource classification and automatic linkage resource map-loading presentation of multiple moving targets in the system.

2. The multi-protocol alarm automatic conversion alarm receiving system according to claim 1, wherein the data resource processing module comprises: the system comprises a flash streaming service submodule, a conversion service submodule and a data storage submodule; wherein:

the Flume streaming service submodule receives streaming data of the alarm event reported by the alarm source equipment management module, sends the streaming data to the conversion service submodule and processes the streaming data of the alarm event in real time;

the conversion service submodule receives the data of the Flume streaming service submodule and outputs the data to the data storage submodule according to a unified standard to complete the structural standard processing of the semi-structural alarm data;

the data storage submodule receives data information in each module in the system, stores and backups the data information, and an administrator can inquire alarm events and other data information as required.

3. The multi-protocol alarm automatic-conversion alarm receiving system according to claim 1, wherein the alarm management module comprises: an alarm plan management submodule and an alarm rule management submodule; wherein:

the alarm plan management submodule receives data information from alarm source equipment and classifies the data according to a set plan type to realize dynamic configuration and quick response of an alarm handling process;

and the alarm rule management submodule receives data from the alarm source equipment management submodule, processes the alarm event according to the set rule and appoints the presentation form of the alarm event.

4. The multi-protocol alarm automatic conversion alarm receiving system according to claim 1, wherein the alarm source device in the alarm source device management module comprises: one-key triggered alarm devices, police 110 alarm devices, smoke alarm devices, vehicle alarm devices, visitor alarm devices, water meter alarm devices, door lock alarm devices, and third party alarm devices supporting the TCP/IP protocol suite.

5. The system as claimed in claim 1, wherein the third party access service module is configured to subscribe to alarm events through kakfa message middleware, and when an alarm occurs, the alarm information is pushed to all third party agencies subscribing to the related alarm events in real time.

6. A multi-protocol alarm automatic conversion alarm receiving method, which adopts the multi-protocol alarm automatic conversion alarm receiving system as claimed in claims 1-5, characterized by comprising the following steps:

s1: the administrator debugs the alarm source equipment and checks whether the equipment can be normally used and can be accessed to the system;

s2: setting different alarm plans to deal with the possible real alarm situations;

s3: managing resources in the system, and customizing resource types;

s4: alarm rule configuration is carried out, and the presentation rule of the alarm event is specified;

s5: according to the alarm data received by the alarm source device, different processing modes are selected for classification processing;

s6: converting the classified alarm data into different streaming data;

s7: classifying and storing the streaming data of the alarm source data;

s8: forwarding the streaming data of the alarm source data, distributing the data to a third-party service interface, and finishing alarm notification;

s9: and all resources in the system are classified, quickly displayed and automatically linked with each other to display the resource images.

7. The method as claimed in claim 5, wherein the type of the predetermined plan in S2 is divided into three types of predetermined plans, i.e. default predetermined plan, step-by-step overtime reporting predetermined plan, and custom overtime reporting predetermined plan, and the predetermined plan is associated with the alarm source device, so as to implement dynamic configuration and fast response of the alarm handling process.

8. The method as claimed in claim 5, wherein the resources in step S3 are classified and managed according to resource location, resource management device, resource UI icon, resource panorama and custom text link information.

Images