CN116232941B - Linkage method, device and system of monitoring equipment and broadcasting equipment - Google Patents

Abstract

The invention discloses a linkage method, a device and a storage medium of monitoring equipment and broadcasting equipment, wherein the method comprises the following steps: acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer; according to the interface provided by each monitoring platform, converting the signal data format of the corresponding monitoring signal data to obtain unified format data; acquiring unified format data generated by all monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data; transmitting the instruction format data to a broadcasting platform so that the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting platform is connected with broadcasting equipment of different manufacturers to realize linkage of the broadcasting equipment of different manufacturers and the monitoring equipment.

Description

Linkage method, device and system of monitoring equipment and broadcasting equipment

Technical Field

The present invention relates to the field of monitoring and broadcasting linkage technologies, and in particular, to a linkage method, device, system and storage medium for monitoring equipment and broadcasting equipment.

Background

The current linkage method of the monitoring equipment and the broadcasting equipment is that after the monitoring camera detects a signal, the broadcasting associated with the monitoring camera can perform corresponding processing on the signal. For example, when the monitoring camera monitors that personnel are present in the dangerous area, the monitoring camera can send out a warning prompt in linkage with nearby broadcasting. At present, manufacturers only used as broadcasting equipment and manufacturers only used as monitoring equipment exist in the market, or integrated machine equipment with specific scenes can be monitored by the technology of broadcasting linkage, or the monitoring equipment and the broadcasting equipment of the same manufacturer are connected with the same management platform to be configured to achieve linkage; when a user purchases a broadcast device with a monitoring device, but not from a unified manufacturer, it is difficult to achieve the linkage of the monitoring device and the broadcast device.

Disclosure of Invention

The invention provides a linkage method, a device and a system of monitoring equipment and broadcasting equipment, which are used for realizing linkage of the broadcasting equipment and the monitoring equipment of different manufacturers.

In order to realize linkage of broadcasting equipment and monitoring equipment of different manufacturers, the embodiment of the invention provides a linkage method of the monitoring equipment and the broadcasting equipment, which comprises the following steps: acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer;

According to the interface provided by each monitoring platform, converting the signal data format of the corresponding monitoring signal data to obtain unified format data; acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

transmitting the instruction format data to a broadcasting platform so that the broadcasting platform controls corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

As a preferred scheme, the monitoring devices of different manufacturers are connected into the respective monitoring platforms, format conversion processing is carried out on the monitoring signal data generated by the monitoring devices, the monitoring signal data generated by the monitoring devices of different manufacturers are converted into uniform format data, and instruction format data are generated according to preset requirements, so that the broadcasting platforms control the corresponding broadcasting devices to play audio data according to the broadcasting device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

As a preferred solution, according to the interface provided by each monitoring platform, the signal data format of the corresponding monitoring signal data is converted to obtain unified format data, which specifically includes:

analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; and generating corresponding unified format data according to the event data.

As a preferred scheme, the monitoring devices of different factories are connected into the respective monitoring platforms, format conversion processing is carried out on the monitoring signal data generated by the monitoring devices, and the monitoring signal data generated by the monitoring devices of different factories are converted into uniform format data according to event data of the monitoring signal data, so that the monitoring signal data generated by the monitoring devices of different factories can be broadcast through preset broadcasting after the command format data are generated, the linkage effect of the monitoring devices of different factories and the broadcasting devices is realized, the linkage device of the monitoring devices and the broadcasting devices can not be limited by the manufacturers of the monitoring devices and the broadcasting devices, and the applicability of the linkage device of the monitoring devices and the broadcasting devices is improved.

As a preferred solution, according to a preset development requirement and the unified format data, generating instruction format data specifically includes:

distributing a plurality of unified format data to corresponding processing modules by using a load balancing algorithm so that each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

As a preferred scheme, the invention distributes unified format data generated by a plurality of monitoring platforms into corresponding processing modules by using a load balancing algorithm so that each processing module generates instruction format data according to preset development requirements and the received unified format data; the method and the device have the advantages that the plurality of unified format data are processed, the corresponding audio data are output through the plurality of broadcasting devices, the linkage effect of monitoring devices and broadcasting devices of different manufacturers is achieved, the plurality of monitoring platforms are abutted to the plurality of broadcasting platforms, the data processing efficiency is improved, and the service performance of monitoring and broadcasting linkage is improved.

Preferably, the instruction format data is sent to a broadcasting platform, so that the broadcasting platform controls a corresponding broadcasting device to play the audio data according to the broadcasting device identifier, specifically:

acquiring instruction format data generated by all processing modules through a publishing module, pushing the instruction format data to corresponding subscribing modules, and transmitting the respective instruction format data to a broadcasting platform by each subscribing module;

the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

As a preferred scheme, the broadcasting platform receives the unified format data with the broadcasting equipment identifier, and the broadcasting platform sends the audio data to the corresponding broadcasting equipment to output, so that the broadcasting platform controls broadcasting equipment of different factories to play the corresponding audio data, the linkage effect of monitoring equipment and broadcasting equipment of different factories is realized, the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturers, and the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Correspondingly, the invention also provides a linkage device of the monitoring equipment and the broadcasting equipment, which comprises the following components: the system comprises a monitoring input module, a processing module and a broadcast output module;

the monitoring input module is used for acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer;

the processing module is used for converting the signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform to obtain unified format data; acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

the broadcast output module is used for sending the instruction format data to a broadcast platform so that the broadcast platform controls the corresponding broadcast equipment to play the audio data according to the broadcast equipment identifier; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

As a preferred scheme, the monitoring devices of different manufacturers are connected into the respective monitoring platforms, the monitoring input module acquires the monitoring signal data generated by the monitoring input module, the processing module performs format conversion processing on the monitoring signal data generated by the monitoring input module, converts the monitoring signal data generated by the monitoring devices of different manufacturers into uniform format data, generates instruction format data according to preset requirements, and the broadcast output module controls the corresponding broadcast devices to play audio data according to the broadcast device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Preferably, the processing module includes: a format conversion unit and an instruction format data generation unit;

the format conversion unit is used for analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; generating corresponding unified format data according to the event data;

the instruction format data generation unit is used for distributing a plurality of unified format data to corresponding processing modules by utilizing a load balancing algorithm; each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

As a preferred scheme, the format conversion unit performs format conversion processing on the monitoring signal data generated by the monitoring devices of different factories, and converts the monitoring signal data generated by the monitoring devices of different factories into unified format data according to event data of the monitoring signal data, so that the monitoring signal data generated by the monitoring devices of different factories can be broadcast through preset broadcasting after the command format data generation unit generates the command format data, the linkage effect of the monitoring devices of different factories and the broadcasting devices is realized, the linkage device of the monitoring devices and the broadcasting devices can not be limited by the manufacturers of the monitoring devices and the broadcasting devices, and the applicability of the linkage device of the monitoring devices and the broadcasting devices is improved.

Preferably, the broadcast output module includes: a publishing unit and a subscribing unit;

the publishing unit is used for acquiring instruction format data generated by all the processing modules through the publishing module and pushing the instruction format data to the corresponding subscribing module;

the subscription unit is used for transmitting the respective instruction format data to the broadcasting platform by each subscription module so that the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

As a preferred scheme, the method distributes the generated instruction format data to the corresponding subscription modules so that each subscription module transmits the respective instruction format data to a broadcasting platform according to the instruction format data so as to enable the corresponding broadcasting equipment to play the audio data; the method and the device have the advantages that the data of the monitoring devices are processed, the corresponding audio data are output through the broadcasting devices, the linkage effect of the monitoring devices and the broadcasting devices of different manufacturers is achieved, the plurality of monitoring platforms are abutted to the plurality of broadcasting platforms, the data processing efficiency is improved, and the service performance of monitoring and broadcasting linkage is improved.

Correspondingly, the invention also provides a linkage system of the monitoring equipment and the broadcasting equipment, which comprises the following components: the system comprises a monitoring platform module, a network module and a broadcasting platform module;

the monitoring platform module comprises a plurality of monitoring platform sub-modules and a format conversion sub-module, wherein each monitoring platform sub-module is used for accessing monitoring signal data generated by monitoring equipment of the same manufacturer;

the format conversion submodule is used for converting the signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform submodule to obtain unified format data;

the network module includes: the system comprises a collecting sub-module, a processing sub-module, a publishing sub-module and a subscribing sub-module;

the processing sub-module comprises a plurality of processing units; the subscription sub-module comprises a plurality of subscription units;

the collecting submodule is used for acquiring the unified format data generated by all the monitoring platform submodules and distributing the unified format data to the corresponding processing units;

each processing unit is used for generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

The issuing sub-module is used for sending the instruction format data to the corresponding subscription unit;

each subscription unit sends the instruction format data to a broadcast platform module;

the broadcasting platform module is used for accessing broadcasting equipment of different factories, and controlling corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identifier after receiving the instruction format data sent by the subscription unit.

As a preferred scheme, the monitoring devices of different manufacturers are connected into the respective monitoring platform modules, the format conversion module is utilized to perform format conversion processing on the monitoring signal data generated by the monitoring devices, the monitoring signal data generated by the monitoring devices of different manufacturers are converted into uniform format data, and the network module generates instruction format data according to preset requirements, so that the broadcasting platforms connected into the broadcasting devices of different manufacturers control the corresponding broadcasting devices to play audio data according to the broadcasting device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Accordingly, the present invention also provides a computer-readable storage medium including a stored computer program; the computer program controls the equipment where the computer readable storage medium is located to execute the linkage method of the monitoring equipment and the broadcasting equipment according to the content of the invention when running.

Drawings

FIG. 1 is a schematic flow chart of an embodiment of a method for linking a monitoring device and a broadcasting device according to the present invention;

FIG. 2 is a schematic diagram of an embodiment of a linkage of a monitoring device and a broadcasting device according to the present invention;

FIG. 3 is a schematic diagram illustrating an embodiment of a linkage system of a monitoring device and a broadcasting device according to the present invention;

FIG. 4 is a flow chart of the operation of a linkage system of monitoring equipment and broadcasting equipment provided by the invention;

fig. 5 is a schematic structural diagram of a network module of a linkage system of a monitoring device and a broadcasting device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, a method for linking monitoring equipment and broadcasting equipment provided in an embodiment of the present invention includes steps S101 to S103:

step S101: acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer;

in this embodiment, before acquiring monitoring signal data of a plurality of monitoring platforms, an initialization program reads configuration information, including: mapping information of linkage of monitoring equipment and broadcasting equipment, mapping information of monitoring event type and audio files broadcasted by broadcasting, parameters of connecting a monitoring platform, parameters of connecting a broadcasting platform and the like; the program runs to record the log information into the log file.

Step S102: according to the interface provided by each monitoring platform, converting the signal data format of the corresponding monitoring signal data to obtain unified format data; acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

In this embodiment, according to the interface provided by each monitoring platform, the signal data format of the corresponding monitoring signal data is converted to obtain unified format data, which specifically includes:

analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; and generating corresponding unified format data according to the event data.

In this embodiment, after a monitoring event occurs, event data pushed by a monitoring platform is received, a data type definition is called, the event data is generated into unified format data with an internal unified format, the event data is used for describing information of monitoring signal data generated by received external monitoring equipment, and interfaces provided by different monitoring platforms analyze event data which are defined in the respective monitoring signal data and include event identification codes, event types, event objects, event equipment source identification codes, event sites, event description and other structures.

In this embodiment, the data type definitions are stored in the tool module, which also stores programs such as threads, timers, and timed task triggers for each module to call as needed.

In this embodiment, the monitoring devices of different manufacturers are connected to respective monitoring platforms, format conversion is performed on the monitoring signal data generated by the monitoring devices, and the monitoring signal data generated by the monitoring devices of different manufacturers are converted into uniform format data according to event data of the monitoring signal data, so that the monitoring signal data generated by the monitoring devices of different manufacturers can be broadcast through preset broadcasting after instruction format data are generated, the linkage effect of the monitoring devices of different manufacturers and the broadcasting devices is realized, the linkage device of the monitoring devices and the broadcasting devices can not be limited by the monitoring devices and the broadcasting device manufacturers, and the applicability of the linkage device of the monitoring devices and the broadcasting devices is improved.

In this embodiment, according to a preset development requirement and the unified format data, an instruction format data is generated, specifically:

distributing a plurality of unified format data to corresponding processing modules by using a load balancing algorithm so that each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

In this embodiment, there are multiple processing modules, and the load balancing algorithm is used to distribute the multiple pieces of unified format data to the corresponding processing modules, so that the multiple pieces of unified format data can be processed at the same time. On the basis of the unified format data, the function of specific requirements is self-defined and developed, and if a certain event type of a certain monitoring device is received, corresponding audio is played by a broadcasting device in a preset range centering on the monitoring device; the function is ultimately defined as an internal instruction format. The instruction format data is used for describing how the broadcasting device processes the instruction to play the broadcast, and the instruction format comprises parameters such as event type, broadcasting device identification, audio data, audio playing mode and the like.

In this embodiment, the present invention distributes unified format data generated by a plurality of monitoring platforms to corresponding processing modules by using a load balancing algorithm, so that each processing module generates an instruction format data according to a preset development requirement and the received unified format data; the method and the device have the advantages that the plurality of unified format data are processed, the corresponding audio data are output through the plurality of broadcasting devices, the linkage effect of monitoring devices and broadcasting devices of different manufacturers is achieved, the plurality of monitoring platforms are abutted to the plurality of broadcasting platforms, the data processing efficiency is improved, and the service performance of monitoring and broadcasting linkage is improved.

Step S103: transmitting the instruction format data to a broadcasting platform so that the broadcasting platform controls corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

In this embodiment, the instruction format data is sent to a broadcast platform, so that the broadcast platform controls a corresponding broadcast device to play the audio data according to the broadcast device identifier, specifically:

acquiring instruction format data generated by all processing modules through a publishing module, pushing the instruction format data to corresponding subscribing modules, and transmitting the respective instruction format data to a broadcasting platform by each subscribing module;

the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

In the present embodiment, the audio is played through sdk (software development kit) provided by broadcasting.

The implementation of the embodiment of the invention has the following effects:

the invention accesses the monitoring devices of different manufacturers into the respective monitoring platforms, performs format conversion processing on the monitoring signal data generated by the monitoring devices, converts the monitoring signal data generated by the monitoring devices of different manufacturers into uniform format data, and generates instruction format data according to preset requirements so that the broadcasting platforms control the corresponding broadcasting devices to play audio data according to the broadcasting device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Example two

Referring to fig. 2, a linkage device for monitoring equipment and broadcasting equipment provided in an embodiment of the present invention includes: a monitor input module 201, a processing module 202, and a broadcast output module 203;

the monitoring input module 201 is configured to obtain monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer;

the processing module 202 is configured to convert a signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform, so as to obtain unified format data;

acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

the broadcast output module 203 is configured to send the instruction format data to a broadcast platform, so that the broadcast platform controls a corresponding broadcast device to play the audio data according to the broadcast device identifier; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

The processing module 202 includes: a format conversion unit and an instruction format data generation unit;

The format conversion unit is used for analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; generating corresponding unified format data according to the event data;

the instruction format data generation unit is used for distributing a plurality of unified format data to corresponding processing modules by utilizing a load balancing algorithm; each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

The broadcast output module 203 includes: a publishing unit and a subscribing unit;

the publishing unit is used for acquiring instruction format data generated by all the processing modules through the publishing module and pushing the instruction format data to the corresponding subscribing module;

the subscription unit is used for transmitting the respective instruction format data to the broadcasting platform by each subscription module so that the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

The linkage device of the monitoring equipment and the broadcasting equipment can implement the linkage method of the monitoring equipment and the broadcasting equipment in the method embodiment. The options in the method embodiments described above are also applicable to this embodiment and will not be described in detail here. The rest of the embodiments of the present application may refer to the content of the method embodiments described above, and in this embodiment, no further description is given.

The implementation of the embodiment of the invention has the following effects:

the invention accesses the monitoring devices of different manufacturers into respective monitoring platforms, the monitoring input module acquires the monitoring signal data generated by the monitoring input module, the processing module performs format conversion processing on the monitoring signal data generated by the monitoring input module, converts the monitoring signal data generated by the monitoring devices of different manufacturers into uniform format data, generates instruction format data according to preset requirements, and the broadcast output module controls the corresponding broadcast devices to play audio data according to the broadcast device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Example III

Referring to fig. 3, a linkage system of a monitoring device and a broadcasting device according to an embodiment of the present invention includes: a monitoring platform module 301, a network module 302, and a broadcasting platform module 303;

the monitoring platform module 301 includes a plurality of monitoring platform sub-modules and a format conversion sub-module, where each monitoring platform sub-module is used to access monitoring signal data generated by monitoring devices of the same manufacturer;

the format conversion submodule is used for converting the signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform submodule to obtain unified format data;

the network module 302 includes: the system comprises a collecting sub-module, a processing sub-module, a publishing sub-module and a subscribing sub-module;

the processing sub-module comprises a plurality of processing units; the subscription sub-module comprises a plurality of subscription units;

the collecting submodule is used for acquiring the unified format data generated by all the monitoring platform submodules and distributing the unified format data to the corresponding processing units;

each processing unit is used for generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

The issuing sub-module is used for sending the instruction format data to the corresponding subscription unit;

each subscription unit sends the instruction format data to a broadcast platform module;

the broadcasting platform module 303 is configured to access broadcasting devices of different manufacturers, and after receiving the instruction format data sent by the subscription unit, control the corresponding broadcasting device to play the audio data according to the broadcasting device identifier.

Referring to fig. 4, in order to illustrate a workflow diagram of the linkage system of the monitoring device and the broadcasting device, the above modules are sequentially connected, the signal data format of the monitoring signal data corresponding to the monitoring platform module is converted, so as to obtain uniform format data, and the uniform format data is sent to the collecting sub-module of the network module; the collecting sub-module is used for acquiring the unified format data generated by all the monitoring platform sub-modules and distributing the unified format data to the processing sub-modules; the processing sub-module generates instruction format data according to preset development requirements and the unified format data; the publishing sub-module sends the instruction format data to a subscribing module; the subscription module sends the instruction format data to the broadcast platform module.

Please refer to fig. 5, which is a schematic diagram of a network module of the linkage system of the monitoring device and the broadcasting device; the processing sub-module comprises a plurality of processing units; the subscription sub-module comprises a plurality of subscription units; the collecting sub-module distributes the unified format data to the corresponding processing units; each processing unit generates instruction format data according to preset development requirements and the unified format data and sends the instruction format data to the issuing submodule; the issuing sub-module is used for sending the instruction format data to the corresponding subscription unit; each subscription unit transmits the instruction format data into a broadcast platform module.

In this embodiment, the linkage system of the monitoring device and the broadcasting device further includes: the system comprises a tool module, a configuration module and a log module;

the tool module is used for storing programs such as data type definition, threads, timers, timing task triggers and the like so as to be called by each module according to the need;

the configuration module is used for initializing a program to read configuration information, and comprises the following steps: mapping information of linkage of monitoring equipment and broadcasting equipment, mapping information of monitoring event type and audio files broadcasted by broadcasting, parameters of connecting a monitoring platform, parameters of connecting a broadcasting platform and the like;

The log module is used for recording log information into a log file when the program runs.

The linkage system of the monitoring equipment and the broadcasting equipment can implement the linkage method of the monitoring equipment and the broadcasting equipment in the method embodiment. The options in the method embodiments described above are also applicable to this embodiment and will not be described in detail here. The rest of the embodiments of the present application may refer to the content of the method embodiments described above, and in this embodiment, no further description is given.

The implementation of the embodiment of the invention has the following effects:

the invention accesses the monitoring devices of different manufacturers into the respective monitoring platform modules, performs format conversion processing on the monitoring signal data generated by the monitoring devices by utilizing the format conversion module, converts the monitoring signal data generated by the monitoring devices of different manufacturers into uniform format data, and generates instruction format data according to preset requirements by the network module so that the broadcasting platforms accessed into the broadcasting devices of different manufacturers control the corresponding broadcasting devices to play audio data according to the broadcasting device identifiers in the instruction format data. According to the invention, the linkage effect of the monitoring equipment and the broadcasting equipment of different manufacturers can be realized without re-purchasing an integrated machine or re-purchasing a manufacturer with the monitoring and broadcasting equipment, so that the linkage equipment of the monitoring equipment and the broadcasting equipment can not be limited by the monitoring equipment and the broadcasting equipment manufacturer, the applicability of the linkage equipment of the monitoring equipment and the broadcasting equipment is improved.

Example IV

Correspondingly, the invention further provides a computer readable storage medium, which comprises a stored computer program, wherein when the computer program runs, equipment where the computer readable storage medium is located is controlled to execute the linkage method of the monitoring equipment and the broadcasting equipment according to any one of the embodiments.

The computer program may be divided into one or more modules/units, which are stored in the memory and executed by the processor to accomplish the present invention, for example. The one or more modules/units may be a series of computer program instruction segments capable of performing the specified functions, which instruction segments are used for describing the execution of the computer program in the terminal device.

The terminal equipment can be computing equipment such as a desktop computer, a notebook computer, a palm computer, a cloud server and the like. The terminal device may include, but is not limited to, a processor, a memory.

The processor may be a central processing unit (Central Processing Unit, CPU), other general purpose processors, digital signal processors (Digital Signal Processor, DSP), application specific integrated circuits (Application Specific Integrated Circuit, ASIC), field programmable gate arrays (Field-Programmable Gate Array, FPGA) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the terminal device, and which connects various parts of the entire terminal device using various interfaces and lines.

The memory may be used to store the computer program and/or the module, and the processor may implement various functions of the terminal device by running or executing the computer program and/or the module stored in the memory and invoking data stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function, and the like; the storage data area may store data created according to the use of the mobile terminal, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart Media Card (SMC), secure Digital (SD) Card, flash Card (Flash Card), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

Wherein the terminal device integrated modules/units may be stored in a computer readable storage medium if implemented in the form of software functional units and sold or used as stand alone products. Based on such understanding, the present invention may implement all or part of the flow of the method of the above embodiment, or may be implemented by a computer program to instruct related hardware, where the computer program may be stored in a computer readable storage medium, and when the computer program is executed by a processor, the computer program may implement the steps of each of the method embodiments described above. Wherein the computer program comprises computer program code which may be in source code form, object code form, executable file or some intermediate form etc. The computer readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a removable hard disk, a magnetic disk, an optical disk, a computer Memory, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), an electrical carrier signal, a telecommunications signal, a software distribution medium, and so forth.

The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present invention, and are not to be construed as limiting the scope of the invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. A method for linking a monitoring device to a broadcasting device, comprising:

acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer; monitoring equipment of different factories is connected into respective monitoring platforms;

according to the interface provided by each monitoring platform, converting the signal data format of the corresponding monitoring signal data to obtain uniform format data, wherein the method specifically comprises the following steps:

analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; generating corresponding unified format data according to the event data;

Acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

transmitting the instruction format data to a broadcasting platform so that the broadcasting platform controls corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

2. The method for linking monitoring equipment and broadcasting equipment according to claim 1, wherein the generating instruction format data according to the preset development requirement and the unified format data specifically comprises:

distributing a plurality of unified format data to corresponding processing modules by using a load balancing algorithm so that each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

3. The method for linking a monitoring device and a broadcasting device according to claim 2, wherein the sending the data in the instruction format to a broadcasting platform, so that the broadcasting platform controls the corresponding broadcasting device to play the audio data according to the broadcasting device identifier, specifically includes:

Acquiring instruction format data generated by all processing modules through a publishing module, pushing the instruction format data to corresponding subscribing modules, and transmitting the respective instruction format data to a broadcasting platform by each subscribing module;

the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

4. A linkage of monitoring equipment and broadcasting equipment, comprising: the system comprises a monitoring input module, a processing module and a broadcast output module;

the monitoring input module is used for acquiring monitoring signal data of a plurality of monitoring platforms; each monitoring platform is connected with monitoring signal data generated by monitoring equipment of the same manufacturer; monitoring equipment of different factories is connected into respective monitoring platforms;

the processing module is used for converting the signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform to obtain unified format data;

the processing module comprises: a format conversion unit;

the format conversion unit is used for analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; generating corresponding unified format data according to the event data;

Acquiring unified format data generated by all the monitoring platforms, and generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

the broadcast output module is used for sending the instruction format data to a broadcast platform so that the broadcast platform controls the corresponding broadcast equipment to play the audio data according to the broadcast equipment identifier; wherein, the broadcasting platform is connected with broadcasting devices of different factories.

5. The linkage of a monitoring device and a broadcasting device of claim 4, wherein the processing module further comprises: an instruction format data generation unit;

the instruction format data generation unit is used for distributing a plurality of unified format data to the corresponding processing modules by utilizing a load balancing algorithm; each processing module generates instruction format data according to preset development requirements and the received unified format data; wherein the instruction format data includes: event type, device identification of the broadcast, audio data, and mode parameters for performing the playback of the audio.

6. The linkage of a monitoring device and a broadcasting device of claim 4, wherein the broadcast output module comprises: a publishing unit and a subscribing unit;

the publishing unit is used for acquiring instruction format data generated by all the processing modules through the publishing module and pushing the instruction format data to the corresponding subscribing module;

the subscription unit is used for transmitting the respective instruction format data to the broadcasting platform by each subscription module so that the broadcasting platform controls the corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identification; the broadcasting device plays the audio data according to the event type and the mode parameters for playing the audio.

7. A linkage system of a monitoring device and a broadcasting device, comprising: the system comprises a monitoring platform module, a network module and a broadcasting platform module;

the monitoring platform module comprises a plurality of monitoring platform sub-modules and a format conversion sub-module, wherein each monitoring platform sub-module is used for accessing monitoring signal data generated by monitoring equipment of the same manufacturer; monitoring equipment of different factories is connected into respective monitoring platform modules;

the format conversion submodule is used for converting the signal data format of the corresponding monitoring signal data according to the interface provided by each monitoring platform submodule to obtain unified format data, and specifically comprises the following steps:

Analyzing and extracting event data of corresponding monitoring signal data according to interfaces provided by each monitoring platform; the event data comprises an event identification code, an event type, an event object, an event equipment source identification code, an event location and an event description; generating corresponding unified format data according to the event data;

the network module includes: the system comprises a collecting sub-module, a processing sub-module, a publishing sub-module and a subscribing sub-module;

the processing sub-module comprises a plurality of processing units; the subscription sub-module comprises a plurality of subscription units;

the collecting submodule is used for acquiring the unified format data generated by all the monitoring platform submodules and distributing the unified format data to the corresponding processing units;

each processing unit is used for generating instruction format data according to preset development requirements and the unified format data; the instruction format data comprises a broadcasting equipment identifier and audio data;

the issuing sub-module is used for sending the instruction format data to the corresponding subscription unit;

each subscription unit sends the instruction format data to a broadcast platform module;

the broadcasting platform module is used for accessing broadcasting equipment of different factories, and controlling corresponding broadcasting equipment to play the audio data according to the broadcasting equipment identifier after receiving the instruction format data sent by the subscription unit.

8. A computer readable storage medium, wherein the computer readable storage medium comprises a stored computer program; wherein the computer program, when running, controls the device in which the computer readable storage medium is located to perform a method for linking a monitoring device and a broadcasting device according to any one of claims 1 to 3.