CN104915245B - Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity - Google Patents
Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity Download PDFInfo
- Publication number
- CN104915245B CN104915245B CN201510376932.0A CN201510376932A CN104915245B CN 104915245 B CN104915245 B CN 104915245B CN 201510376932 A CN201510376932 A CN 201510376932A CN 104915245 B CN104915245 B CN 104915245B
- Authority
- CN
- China
- Prior art keywords
- module
- message
- function
- functional capability
- analogue system
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Debugging And Monitoring (AREA)
Abstract
The present invention relates to simulation modeling field, a kind of integrated system and method for realizing analogue system and the operation of actual functional capability systematic unity is provided, to solve the problems, such as being difficult that artificial intelligence system and actual functional capability information system are carried out into effective integration at present, the system includes artificial service modeling management module, emulation message-oriented middleware module, simulation interactive middleware module, simulation run situation monitoring module.The modeling method that technical scheme proposed by the present invention is successively refined using tree construction realizes the structure to analogue system basic module, using the block code such as the method simulations system basic communication module of model-driven and inquiry, addition, editor, deletion, the probability of the system fault caused by manual amendment's code is not only reduced, and improves the repeated application value of code.
Description
Technical field
The present invention relates to system emulation to model field, and more particularly to one kind realizes analogue system and actual functional capability systematic unity
The integrated system and method for operation.
Background technology
Traditional artificial intelligence system constructing pattern is to be based on high-rise architectural framework (HLA, High Level
Architecture), realized by the way that the information model of simulation object is loaded into HLA RTI operation platforms, due to emulation
Information system and actual functional capability design of information system pattern differentials are larger, therefore for general Simulation Application developer,
It is difficult to which artificial intelligence system and actual functional capability information system are carried out into effective integration, the problem of this is resulted in following aspects:
A) most of to have developed the functional information system to come into operation be difficult to merge into artificial intelligence system, is difficult to realize
Forward-looking unified shader, and carry out associative simulation demonstration;
B) it is difficult to play useful effect, enterprise in new artificial service system for the unmatched information system of part of interface
Interior original information system is difficult to realize repeated application value;
C) after analogue system and real system are integrated, it is difficult to whole service situation become more meticulous monitoring in real time with it is follow-up
Analysis.
The content of the invention
【Technical problems to be solved】
It is an object of the invention to provide a kind of integrated system for realizing the operation of analogue system and actual functional capability systematic unity and
Method, at least to solve one of above-mentioned technical problem.
【Technical scheme】
The present invention is achieved by the following technical solutions.
Present invention firstly relates to a kind of integrated system realized analogue system and run with actual functional capability systematic unity, including:
Artificial service models management module, is configured to add analogue system essential information and according to actual functional capability system
Functional module information using artificial service modeling management module editor's analogue system details, the analogue system it is basic
Whether information comprises at least analogue system numbering, analogue system title, the last edit session of analogue system, running status, implements
Monitoring, the details of the analogue system comprise at least node, node annexation and the nodal information of analogue system, described
Node includes start node, intermediate processing nodes and end node, and the functional module information comprises at least actual functional capability system
Title, actual functional capability System Number, actual functional capability system type, functional module title, functional module numbering, interface modes, tune
With the dynamic link library of plug-in unit, call class, call method;
Message-oriented middleware module is emulated, is configured to obtain service message by monitoring analogue system in real time, pass through visit
Ask that database is connected each functional module of actual functional capability system, and generate the code skeleton of analogue system;
Simulation interactive middleware module, it is configured to transmit the service message of analogue system to actual functional capability system.
As a preferred embodiment, the artificial service modeling management module includes:
Flow basic information management submodule, it is configured to realize that the nodal information in analogue system adds, nodal information
Inquiry, nodal information modification or nodal information are deleted;
Flow element selects submodule, is configured to realize that the node in analogue system is shown, nodal information is inquired about or section
Point drag and drop;
Flow editor's submodule, it is configured to realize node placement, node motion, node amplification, node diminution, node point
Hit or node link;
Flow element property editor's submodule, it is configured to realize that nodal community editor, nodal community show or node category
Property preserve.
As another preferred embodiment, the simulation interactive middleware module includes:
Artificial service communication module, the parameter that network communication module is called in generation is configured to, calls network communication module,
Service message is transmitted to network communication module;
Network communication module, it is configured to transmit the parameter of network communication module to message format generation module, it is described
The parameter of network communication module includes title, service message content, the service message numbering and service message of actual functional capability system
Type;
Message format generation module, it is configured to generate message frame and transmits the message frame of generation to message queue, institute
State message frame include message frame head, frame length, number of frames, frame number, frame identification, mission number, task species, CRC check and
Message trailer;
Message queue module, it is configured to after message frame is obtained, message frame is pressed into message queue;
Message queue, it is configured to that after analogue system is connected with actual functional capability system, message frame is transmitted to actual work(
Can system.
As another preferred embodiment, the code skeleton includes system module layer source code, middle module layer
Source code, leaf module layer source code.
As another preferred embodiment, the emulation message-oriented middleware module includes:
System module layer source code generation module, it is configured to generation and accesses database port code and generation emulation system
The service code of system framework tree-model, the database port include function call port, data intermediate treatment, database behaviour
Make;
Middle module layer source code generation module, it is configured to parameter, the generation communication of generation communication calling interface function
Data-in port and result port, the basic framework for producing communication call function, and the generation for handling function are public
Class function, the public class function include the data processing as the public class function of control action and as common logic business
Function,
Leaf module layer source code generation module, it is configured to generate execution sequence, the nodal operation of nodal operation function
Call relation between function, and systematic function control call function, the nodal operation function comprise at least query function, added
Add function, editor's function, delete function.
As another preferred embodiment, in addition to simulation run situation monitoring module, it is configured to integrated system
The running status of system is recorded and shown.
Above-mentioned integrated system is used to realize that analogue system is transported with actual functional capability systematic unity the invention further relates to a kind of
Capable integrated approach, including:
Step A:Using artificial service modeling management module addition analogue system essential information, the analogue system it is basic
Information comprise at least artificial service process code, artificial service process name, the last edit session of flow, running status, whether
Implementing monitoring;
Step B:According to the functional module information of actual functional capability system, model management module editor using artificial service and emulate
The details of system, the details of the analogue system include the node of analogue system, node annexation and node letter
Breath, the node include start node, intermediate processing nodes and end node, and the functional module information includes actual functional capability system
Unite title, actual functional capability System Number, actual functional capability system type, functional module title, functional module numbering, interface modes,
Call the dynamic link library of plug-in unit, call class, call method;
Step C:Emulation message-oriented middleware module is entered each functional module of actual functional capability system by accessing database
Row series connection, and generate the code skeleton of analogue system;
Step D:Simulation interactive middleware module transmits the service message of analogue system to actual functional capability system.
As a preferred embodiment, the step D is specifically included:
The parameter of network communication module is called in the generation of artificial service communication module, calls network communication module, business is disappeared
Breath is transmitted to network communication module;
Network communication module transmits the parameter of network communication module to message format generation module, the network service mould
The parameter of block includes title, service message content, the service message numbering and service message type of actual functional capability system;
Message format generation module generates message frame according to the parameter of network communication module and transmits the message frame of generation
To message queue, the message frame includes message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind
Class, CRC check and message trailer;
After message queue module obtains message frame, message frame is pressed into message queue;
After analogue system is connected with actual functional capability system, message queue transmits message frame to actual functional capability system.
As another preferred embodiment, the code skeleton that analogue system is generated in the step C specifically includes:It is raw
Into system module layer source code, generation middle module layer source code and leaf module layer source code is generated,
It is described generation system module layer source code method be:
Generation accesses database port code, including function call port, data intermediate treatment, database manipulation;Generation
The service code of simulation universal framework tree-model,
It is described generation middle module layer source code method be:
The parameter of generation communication calling interface function, generate data-in port and the result end of communication process function
Mouth, produce the basic framework of call function;Public class function is generated, the public class function is included as the public of control action
Class function and the data processing function as common logic business,
It is described generation leaf module layer source code method be:
Call relation between generating function implementation procedure and function, while systematic function control call function.
As another preferred embodiment, this method also includes:Simulation run situation monitoring module is to integrated system
Running status recorded and shown.
【Beneficial effect】
Technical scheme proposed by the present invention has the advantages that:
(1) modeling method that the present invention is successively refined using tree construction is realized the structure to analogue system basic module, adopted
With the method simulations system basic communication module of model-driven and inquiry, addition, editor, the block code such as delete,
The modification program and debugging efforts for reducing designer's machinery and repeating, while the specification knot of analogue system program source code
Structure and framework, forward-looking unified shader is realized, therefore, the system caused by manual amendment's code that not only reduces goes out
Wrong probability, and improve the repeatable usability of code.
(2) the simulative surveillance example in the present invention provides the real-time running state of software for emulation personnel, realizes fine
Change monitoring in real time, provide full and accurate foundation for subsequent software running state analysis, provided for enterprise information system My Perspective On The Co-building
Direction.
(3) present invention disclosure satisfy that the program development needs of large enterprise's distributing emulation system, particularly meet enterprise
Application system changes the requirement for rapidly adapting to new change that faster business is brought to artificial service, possesses larger application valency
Value.
Brief description of the drawings
Fig. 1 is the integrated side for realizing analogue system and being run with actual functional capability systematic unity that embodiments of the invention two provide
The flow chart of method.
Fig. 2 is the integrated side for realizing analogue system and being run with actual functional capability systematic unity that embodiments of the invention two provide
The flow chart of method.
Embodiment
To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, to the specific of the present invention
Embodiment carries out clear, complete description, it is clear that and described embodiment is the part of the embodiment of the present invention, rather than
Whole embodiments, nor limitation of the present invention.Based on embodiments of the invention, those of ordinary skill in the art are not paying
The every other embodiment obtained under the premise of creative work, belongs to protection scope of the present invention.
Embodiment one
Embodiment one provides a kind of integrated system realized analogue system and run with actual functional capability systematic unity, the system bag
Include artificial service modeling management module, emulation message-oriented middleware module, simulation interactive middleware module, the monitoring of simulation run situation
Module.
(1) artificial service modeling management module
For any one artificial service, it is required to establish an artificial service process action, therefore the present embodiment
In artificial service modeling management module mainly realize modeling and management function to artificial service process action, be realize it is follow-up
The basis of system integration process.Specifically, artificial service modeling management module is configured to add analogue system essential information simultaneously
Details according to the functional module information of actual functional capability system using artificial service modeling management module editor's analogue system,
Wherein the essential information of analogue system includes analogue system numbering, analogue system title, the last edit session of analogue system, operation
State, whether implementing monitoring, the details of analogue system include node, node annexation and the node letter of analogue system
Breath, node include start node, intermediate processing nodes and end node, functional module information including actual functional capability systematic name,
Actual functional capability System Number, actual functional capability system type, functional module title, functional module numbering, interface modes, calling plug-in unit
Dynamic link library, call class, call method.In the present embodiment, artificial service modeling management module is believed substantially including flow
Breath management submodule, flow element selection submodule, flow editor submodule, flow element property editor submodule, flow are compiled
Response submodule is collected, each submodule for modeling management module to artificial service separately below illustrates.
Flow basic information management submodule, it is configured to realize that the nodal information in analogue system adds, nodal information
Inquiry, nodal information modification or nodal information are deleted.
Flow element selects submodule, is configured to realize that the node in analogue system is shown, nodal information is inquired about or section
Point drag and drop.
Flow editor's submodule, it is configured to realize node placement, node motion, node amplification, node diminution, node point
Hit or node link.
Flow element property editor's submodule, it is configured to realize that nodal community editor, nodal community show or node category
Property preserve.
Flow editor responds submodule, and the module is the information input window of every other operation module, receives other moulds
Procedural information among block operation, then real-time display is in its message window, when message number exceedes setting in message window
It is maximum show bar number after, the automatic message removed above.
(2) message-oriented middleware module is emulated
Emulation message-oriented middleware module is configured to obtain service message by monitoring analogue system in real time, pass through access
Database is connected each functional module of actual functional capability system, and generates the code skeleton of analogue system.Specifically, generation
Code framework includes system module layer source code, middle module layer source code, leaf module layer source code, corresponding, emulates message
Middleware module includes system module layer source code generation module, middle module layer source code generation module, leaf module layer source
Code generation module, each submodule for emulating message-oriented middleware module is described in detail separately below.
System module layer source code generation module is configured to generation and accesses database port code and generation emulation system
The service code of system framework tree-model, database port include function call port, data intermediate treatment, database manipulation.
Middle module layer source code generation module is configured to the parameter of generation communication calling interface function, generation mailing address
Manage the data-in port and result port, the basic framework for producing communication call function of function, and generation common class
Function, public class function include the data processing function as the public class function of control action and as common logic business.
Leaf module layer source code generation module is configured to generate execution sequence, the nodal operation letter of nodal operation function
Call relation between number, and systematic function control call function, nodal operation function include query function, addition function, compiled
Collect function, delete function.It is to be appreciated that the module is operated in the leaf node of whole integrated system.
(3) simulation interactive middleware module
Simulation interactive middleware module, it is configured to transmit the service message of analogue system to actual functional capability system.Tool
Body, simulation interactive middleware module is assisted business data transmission to computer network network layers TCP/IP by top-down mode
View, then computer purpose terminal is transferred to by ICP/IP protocol.After computer purpose terminal receives message, by inversely solving
Analysis mode obtains business datum.It is to be appreciated that in the present embodiment, computer purpose terminal here is transported by actual functional capability system
Capable computer.
Simulation interactive middleware module includes:
Artificial service communication module, the parameter that network communication module is called in generation is configured to, calls network communication module,
Service message is transmitted to network communication module;
Network communication module, it is configured to transmit the parameter of network communication module to message format generation module, network
The parameter of communication module includes title, service message content, the service message numbering and service message type of actual functional capability system;
Message format generation module, it is configured to generate message frame and transmits the message frame of generation to message queue, disappear
Breath frame includes message frame head, frame length, number of frames, frame number, frame identification, mission number, task species, CRC check and message
Tail;
Message queue module, it is configured to after message frame is obtained, message frame is pressed into message queue;
Message queue, it is configured to that after analogue system is connected with actual functional capability system, message frame is transmitted to actual work(
Can system.
(4) simulation run situation monitoring module
Simulation run situation monitoring module, it is configured to that the running status of integrated system is recorded and shown.Specifically
Ground includes simulation example operational management submodule, simulation run monitoring agent submodule, simulation run distributed centralization monitoring
Module.Wherein monitored object includes:Supervisor and monitored person.Supervisor plays the work for starting monitoring and obtaining monitoring information
With;Monitored person is all devices in distributed system, therefore the acquisition of monitoring information typically performs by the way that backstage is automatic, tool
Body, the equipment in distributed system includes the computer of operating simulation system and runs the computer of actual functional capability system.
Simulation example operational management submodule is used to inquire about hardware operation in analogue system operation, database is run and soft
The state parameter of part operation, and analogue system running status is shown with list mode or diagrammatic form.Specifically, simulative surveillance is real
Example, by checking monitoring task run situation, checks all devices in distributed system using a task as a running unit
Running status.
Simulation run monitoring agent submodule is used to monitoring process be embodied.Specifically, by calling analogue system to supervise
Function is intercepted in control, and the monitoring information of acquisition is stored into database.When main system is sent out to all subsystems or part subsystem
When sending monitoring instruction, after relevant device receives monitoring instruction, start to obtain its running state information, including database operation
State, software operation state and key hardware running status, local data base finally is arrived into the related data storage of acquisition.
Simulation run distributed centralization monitoring submodule is used to initiate monitoring instruction and obtains monitoring information.Specifically, lead to
Equipment issue monitoring instruction of the monitoring and controlling system into other distributed systems is crossed, after relevant device receives monitoring instruction, is obtained
The running state information of the analogue system in the equipment is taken, and the information of acquisition is stored into local data base;When main monitoring
When system obtains the running state information of other monitoring devices, sent to other equipment and obtain monitoring instruction, relevant device will supervise
Control information is sent to monitoring and controlling system.
It is following to realize that analogue system may be referred to the integrated approach that actual functional capability systematic unity is run using embodiment one
Specific method embodiment.
Embodiment two
Embodiment two provides a kind of integrated approach for realizing the operation of analogue system and actual functional capability systematic unity, such as Fig. 1 and
Shown in Fig. 2, above-mentioned steps are described in detail separately below to step S4 by the method comprising the steps of S1.
Step S1:Artificial service process action is completed using artificial service modeling management module to model.
Specifically, step S1 includes:
Using artificial service modeling management module addition analogue system essential information, the essential information of analogue system is at least wrapped
Include artificial service process code, artificial service process name, the last edit session of flow, running status, whether implementing monitoring, compile
The information such as person are collected, after editor completes base attribute, are preserved;
Analogue system details are edited, specifically, according to the functional module information of actual functional capability system, use emulation industry
The details of business modeling management module editor's analogue system, the details of analogue system include the node of analogue system, section
Point annexation and nodal information, node include start node, intermediate processing nodes and end node;
The details that node is handled in analogue system are defined according to the functional module information of actual functional capability system, specifically
Ground, processing node correspond to the One function module of actual functional capability system, and functional module information includes actual functional capability systematic name, reality
Border function system numbering, actual functional capability system type, functional module title, functional module numbering, interface modes, call plug-in unit
Dynamic link library, call class, call method.
The modeling of analogue system is completed by above step.
Step S2:Emulation message-oriented middleware module is entered each functional module of actual functional capability system by accessing database
Row series connection, and generate the code skeleton of analogue system.
In step S2, on the one hand emulation message-oriented middleware module obtains service message by monitoring analogue system in real time,
On the other hand also each functional module of actual functional capability system is connected by accessing database, and generates analogue system
Code skeleton.The code skeleton that analogue system is generated in step S2 specifically includes:Among generation system module layer source code, generation
Module layer source code and generation leaf module layer source code,
Generation system module layer source code method be:
Include generation message category code first, the code of database port is accessed for generating.Specifically include:Function call
Port, data intermediate treatment, database manipulation.Function call port be used for obtain software systems service logic transmission parameter or
Data, it is the port interacted with service logic;Data intermediate treatment is used for interim storage data, and SQL is produced by database manipulation
Operation code, the functions such as data base querying, insertion, deletion are performed, while produce code comments information, such as generation database behaviour
The C# source program codes of work.
Also include systematic function category code, for the service code of generation system framework tree-model, specifically include:First will
Business function is divided into next stage sub-function module by tree construction, successively according to recurrence thought, further draws sub-function module
Divide next stage function, until being divided into operable minimum functional module, i.e. interface framework inquiry, addition, editor, deletion etc. is basic
Module;Then functional module is generated into skeleton code with pictorial representation.
Generation middle module layer source code method be:
The parameter of generation communication calling interface function, generate data-in port and the result end of communication process function
Mouth, the basic framework of call function is produced, specifically, the key for the calling interface function that communicated by generations such as TCP/IP communication patterns
Parameter, it is determined that calling the parameter type and number of parameters of communication functions, generate data-in port and the place of communication process function
Result port is managed, produces the basic framework and code comments information of call function;
Public class function is generated, public class function is including the public class function as control action and is used as common logic industry
The data processing function of business.Public class function includes two classes:First, as the public class function of control action, such as control of authority letter
Number etc.;Second, the data processing function as common logic business, the data processing function as common logic business will be automatic
The key message such as function basic framework and parameter type, number of parameters is produced, by calling common service logical function to realize one
The purpose that individual function many places are called, and produce code comments information.
Generation leaf module layer source code method be:
Call relation between generating function implementation procedure and function, while systematic function control call function.Specifically
Ground, this method process flow operation is during integrated system is run, first using the basic function module of leaf node, including inquire about,
The operations such as addition, editor and deletion, then according to business demand, are limited associative operation.
Step S3:Simulation interactive middleware transmits the service message of analogue system to actual functional capability system.
Specifically, step S3 includes:
The parameter of network communication module is called in the generation of artificial service communication module, calls network communication module, business is disappeared
Breath is transmitted to network communication module;
Network communication module transmits the parameter of network communication module to message format generation module, network communication module
Parameter includes title, service message content, the service message numbering and service message type of actual functional capability system, is disappeared by calling
Queue module is ceased, above-mentioned argument is transferred to message format generation module;
Message format generation module generates message frame according to the parameter of network communication module and transmits the message frame of generation
To message queue, message frame include message frame head, frame length, number of frames, frame number, frame identification, mission number, task species,
CRC check and message trailer, frame structure is filled by the argument of network service function transfer, message frame is finally transferred to message team
Row module;
After message queue module obtains message frame, message frame is pressed into message queue, specifically, when message queue function
After the message frame of acquisition, message frame is pressed into message queue.Message queue heap provides for the caching in message frame transmitting procedure
Memory space.
After analogue system is connected with actual functional capability system, message queue transmits message frame to actual functional capability system, tool
Body, the ICP/IP protocol that message queue transmits message frame, last ICP/IP protocol is dispensed by data, and message is transferred to
Actual functional capability system.
Step S4:Simulation run situation monitoring module is recorded and shown to the running status of integrated system.
It is to be appreciated that step S5 is operated in step S1 to step S4 implementation procedure, i.e., supervised by simulation run situation
Control module is recorded and shown to the running status of the analogue system in integrated system and actual functional capability system.
As can be seen from the above embodiments, the modeling method that the embodiment of the present invention is successively refined using tree construction is realized to imitative
The structure of true system basic module, using the method simulations system basic communication module of model-driven and inquiry, add
The block code such as add, edit, deleting, the modification program and debugging efforts for reducing designer's machinery and repeating, while specification
The structure and framework of analogue system program source code, realizes forward-looking unified shader, therefore, not only reduce because
The probability of system fault caused by manual amendment's code, and improve the repeated application value of code;In addition, the present invention is implemented
Simulative surveillance example in example provides the real-time running state of software for emulation personnel, the real-time monitoring that becomes more meticulous is realized, after being
Continuous software operation state analysis provides full and accurate foundation, and direction is provided for enterprise information system My Perspective On The Co-building;Finally, it is of the invention
Embodiment disclosure satisfy that the program development needs of large enterprise's distributing emulation system, particularly meet that enterprise application system changes
The requirement for rapidly adapting to new change that faster business is brought to artificial service, possesses larger application value.
Claims (8)
1. a kind of realize analogue system and the integrated system of actual functional capability systematic unity operation, it is characterised in that including:
Artificial service models management module, is configured to add analogue system essential information and according to the function of actual functional capability system
Module information uses the details of artificial service modeling management module editor's analogue system, the essential information of the analogue system
Including at least analogue system numbering, analogue system title, the last edit session of analogue system, running status, whether implementing monitoring,
The details of the analogue system comprise at least node, node annexation and the nodal information of analogue system, the node
Including start node, intermediate processing nodes and end node, the functional module information comprise at least actual functional capability systematic name,
Actual functional capability System Number, actual functional capability system type, functional module title, functional module numbering, interface modes, calling plug-in unit
Dynamic link library, call class, call method;
Message-oriented middleware module is emulated, is configured to by monitoring analogue system in real time to obtain service message, by accessing number
Each functional module of actual functional capability system is connected according to storehouse, and generates the code skeleton of analogue system;
Simulation interactive middleware module, it is configured to transmit the service message of analogue system to actual functional capability system,
The simulation interactive middleware module includes:
Artificial service communication module, the parameter that network communication module is called in generation is configured to, network communication module is called, by industry
Business message is transmitted to network communication module;
Network communication module, it is configured to transmit the parameter of network communication module to message format generation module, the network
The parameter of communication module includes title, service message content, the service message numbering and service message type of actual functional capability system;
Message format generation module, it is configured to generate message frame and transmits the message frame of generation to message queue, it is described to disappear
Breath frame includes message frame head, frame length, number of frames, frame number, frame identification, mission number, task species, CRC check and message
Tail;
Message queue module, it is configured to after message frame is obtained, message frame is pressed into message queue;
Message queue, it is configured to that after analogue system is connected with actual functional capability system, message frame is transmitted to actual functional capability system
System.
2. according to claim 1 realize analogue system and the integrated system of actual functional capability systematic unity operation, its feature
It is that the artificial service modeling management module includes:
Flow basic information management submodule, be configured to realize in analogue system nodal information addition, nodal information inquiry,
Nodal information is changed or nodal information is deleted;
Flow element selects submodule, is configured to realize that the node in analogue system is shown, nodal information inquiry or node are dragged
Put;
Flow editor's submodule, be configured to realize node placement, node motion, node amplification, node is reduced, node is clicked on or
Node link;
Flow element property editor's submodule, it is configured to realize that nodal community editor, nodal community are shown or nodal community is protected
Deposit.
3. according to claim 1 or 2 realize analogue system and the integrated system of actual functional capability systematic unity operation, it is special
Sign is that the code skeleton includes system module layer source code, middle module layer source code, leaf module layer source code.
4. according to claim 3 realize analogue system and the integrated system of actual functional capability systematic unity operation, its feature
It is that the emulation message-oriented middleware module includes:
System module layer source code generation module, it is configured to generation and accesses database port code and generation analogue system frame
The service code of frame tree-model, the database port include function call port, data intermediate treatment, database manipulation;
Middle module layer source code generation module, it is configured to parameter, the generation communication process of generation communication calling interface function
The data-in port of function and result port, the basic framework for producing communication call function, and generation common class letter
Number, the public class function include the public class function as control action and the data processing letter as common logic business
Number,
Leaf module layer source code generation module, it is configured to generate execution sequence, the nodal operation function of nodal operation function
Between call relation, and systematic function control call function, the nodal operation function comprises at least query function, addition letter
Number, editor's function, delete function.
5. according to claim 1 realize analogue system and the integrated system of actual functional capability systematic unity operation, its feature
It is also to include simulation run situation monitoring module, is configured to that the running status of integrated system is recorded and shown.
6. the analogue system that any described integrated system is realized in a kind of usage right requirement 1 to 5 is united with actual functional capability system
The integrated approach of one operation, it is characterised in that including:
Step A:Use artificial service modeling management module addition analogue system essential information, the essential information of the analogue system
Including at least artificial service process code, artificial service process name, the last edit session of flow, running status, whether implement
Monitoring;
Step B:According to the functional module information of actual functional capability system, management module editor's analogue system is modeled using artificial service
Details, the details of the analogue system include node, node annexation and the nodal information of analogue system, institute
Stating node includes start node, intermediate processing nodes and end node, and the functional module information includes actual functional capability system name
Title, actual functional capability System Number, actual functional capability system type, functional module title, functional module numbering, interface modes, calling
The dynamic link library of plug-in unit, call class, call method;
Step C:Emulation message-oriented middleware module is gone here and there each functional module of actual functional capability system by accessing database
Connection, and generate the code skeleton of analogue system;
Step D:Simulation interactive middleware module transmits the service message of analogue system to actual functional capability system,
The step D is specifically included:
The parameter of network communication module is called in the generation of artificial service communication module, calls network communication module, service message is passed
Transport to network communication module;
Network communication module transmits the parameter of network communication module to message format generation module, the network communication module
Parameter includes title, service message content, the service message numbering and service message type of actual functional capability system;
Message format generation module generates message frame according to the parameter of network communication module and transmits the message frame of generation to disappearing
Cease queue, the message frame include message frame head, frame length, number of frames, frame number, frame identification, mission number, task species,
CRC check and message trailer;
After message queue module obtains message frame, message frame is pressed into message queue;
After analogue system is connected with actual functional capability system, message queue transmits message frame to actual functional capability system.
7. analogue system according to claim 6 and the integrated approach of actual functional capability systematic unity operation, it is characterised in that
The code skeleton that analogue system is generated in the step C specifically includes:Generate system module layer source code, generation middle module layer
Source code and generation leaf module layer source code,
It is described generation system module layer source code method be:
Generation accesses database port code, including function call port, data intermediate treatment, database manipulation;Generation emulation
The service code of system framework tree-model,
It is described generation middle module layer source code method be:
The parameter of generation communication calling interface function, data-in port and the result port of communication process function are generated,
Produce the basic framework of call function;Public class function is generated, the public class function includes the common class as control action
Function and the data processing function as common logic business,
It is described generation leaf module layer source code method be:
Call relation between generating function implementation procedure and function, while systematic function control call function.
8. analogue system according to claim 6 and the integrated approach of actual functional capability systematic unity operation, it is characterised in that
Also include:Simulation run situation monitoring module is recorded and shown to the running status of integrated system.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510376932.0A CN104915245B (en) | 2015-07-01 | 2015-07-01 | Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510376932.0A CN104915245B (en) | 2015-07-01 | 2015-07-01 | Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity |
Publications (2)
Publication Number | Publication Date |
---|---|
CN104915245A CN104915245A (en) | 2015-09-16 |
CN104915245B true CN104915245B (en) | 2017-12-12 |
Family
ID=54084326
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201510376932.0A Active CN104915245B (en) | 2015-07-01 | 2015-07-01 | Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN104915245B (en) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106569667B (en) * | 2016-11-02 | 2021-10-15 | 广州方硅信息技术有限公司 | Customization method and customization device for live broadcast room |
CN106842988A (en) * | 2017-03-02 | 2017-06-13 | 深圳市尧天科技有限公司 | One kind teaching graphical programming system and method |
CN107528736A (en) * | 2017-09-14 | 2017-12-29 | 国家电网公司 | Device emulation management method and system |
CN111352742B (en) * | 2018-12-21 | 2024-02-09 | 三六零科技集团有限公司 | APP-based componentization information transmission method and apparatus |
CN113420520B (en) * | 2021-06-25 | 2024-01-23 | 海光信息技术股份有限公司 | Integrated circuit device design simulation method, device, apparatus and readable storage medium |
CN113836060B (en) * | 2021-09-24 | 2024-05-28 | 北京机电工程研究所 | Distributed real-time simulation platform suitable for simulation model and flow model |
CN114020359B (en) * | 2021-11-08 | 2024-04-16 | 中国电子科技集团公司第二十八研究所 | Distributed platform integration method based on plug-in |
CN117573200B (en) * | 2024-01-18 | 2024-03-29 | 北京交通大学 | Dynamic configurable equivalent device system and flow configuration method |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103997543A (en) * | 2014-06-11 | 2014-08-20 | 北京经纬恒润科技有限公司 | Information interaction method and distributed simulation system |
CN104317640A (en) * | 2014-10-29 | 2015-01-28 | 北京经纬恒润科技有限公司 | Avionics simulation system and method |
CN104408222A (en) * | 2014-10-13 | 2015-03-11 | 中国电子科技集团公司第十研究所 | Reconfiguration method of real-time distributed simulation platform |
-
2015
- 2015-07-01 CN CN201510376932.0A patent/CN104915245B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103997543A (en) * | 2014-06-11 | 2014-08-20 | 北京经纬恒润科技有限公司 | Information interaction method and distributed simulation system |
CN104408222A (en) * | 2014-10-13 | 2015-03-11 | 中国电子科技集团公司第十研究所 | Reconfiguration method of real-time distributed simulation platform |
CN104317640A (en) * | 2014-10-29 | 2015-01-28 | 北京经纬恒润科技有限公司 | Avionics simulation system and method |
Also Published As
Publication number | Publication date |
---|---|
CN104915245A (en) | 2015-09-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104915245B (en) | Realize analogue system and the integrated system and method for the operation of actual functional capability systematic unity | |
CN106022007B (en) | The cloud platform system and method learning big data and calculating is organized towards biology | |
US20030065413A1 (en) | Method of geometric information sharing and parametric consistency maintenance in a collaborative design environment | |
DE69228230T2 (en) | Software structure for telecommunications switching system | |
CN100527169C (en) | Three-dimensional scene real-time drafting framework and drafting method | |
CN105915304B (en) | A kind of system integration project demonstration and verification method towards satellite mobile communication | |
CN106648658B (en) | Emulation mode towards live/virtual/construction hybrid system | |
CN105549982A (en) | Automated development platform based on model configuration | |
JP6923993B2 (en) | Generate a scalable, customizable, location-independent agile delivery model | |
Maróti et al. | Online collaborative environment for designing complex computational systems | |
CN107766042A (en) | A kind of visual data manager and device of the model file based on CSAR | |
CN113836754A (en) | Multi-agent simulation modeling oriented simulation method, device, equipment and medium | |
CN102609985A (en) | Three-dimensional power station graphic platform | |
CN105930344B (en) | A kind of database application system quick development platform based on product development process | |
CN115640045A (en) | Low-code development platform based on domain-driven design and business system creation method | |
CN107832042B (en) | One kind being based on embedded software development method | |
CN111708563B (en) | Method and device for updating UI control in game | |
CN109214776A (en) | A kind of thermoelectricity EPC general contract of civil engineering management overall process total factor control platform | |
WO2021162833A1 (en) | Process architecture modeling platform | |
CN114201885B (en) | Improved behavior tree-based military force entity behavior simulation element modeling method and system | |
JPH04227544A (en) | Method and apparatus for analyzing data flow through complicated information exchange system | |
CN115756407A (en) | Meta-universe service development method based on scene-behavior fusion and model driving | |
CN113268895B (en) | Combined simulation method, device, equipment and medium based on semantic mapping | |
CN106371849A (en) | Application data processing method and device | |
WO2015196781A1 (en) | System element view-based visual modelling method for constructing system view |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |