CN104915245A - Integration system and method for realizing uniform operation of emulation system and practical function system - Google Patents
Integration system and method for realizing uniform operation of emulation system and practical function system Download PDFInfo
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Abstract
The invention relates to the field of emulation modeling, provides an integration system and method for realizing the uniform operation of an emulation system and a practical function system, and aims to solve the problem that the simulation system and the practical function system can be hardly effectively integrated at present. The system comprises an emulation service modeling management module, an emulation message middleware module, an emulation interaction middleware module and an emulation operation situation monitoring module. The technical scheme brought forward by the invention adopts a modeling method that a tree structure is refined layer by layer to construct a basic module of the emulation system, and adopts a model driving method to automatically generate the codes of a basic communication module of the emulation system, a query module, an addition module, an edition module, a deletion module and the like so as to lower a probability of system errors caused by the artificial revision of the codes and improve the repeated application value of the codes.
Description
Technical field
The present invention relates to system emulation modeling field, particularly a kind ofly realize integrated system that analogue system and actual functional capability systematic unity run and method.
Background technology
Traditional artificial intelligence system constructing pattern is based on high-rise architectural framework (HLA, High LevelArchitecture), realize by the information model of simulation object being loaded into HLA RTI operation platform, due to artificial intelligence system and actual functional capability design of information system pattern differentials larger, therefore for general Simulation Application developer, be difficult to artificial intelligence system and actual functional capability infosystem to carry out effective integration, this just causes the problem of following several aspect:
A) great majority have been developed the functional information system come into operation and are difficult to merge into artificial intelligence system, are difficult to realize forward-looking unified shader, and carry out associative simulation demonstration;
B) be difficult to play useful effect in new artificial service system for the unmatched infosystem of part of interface, in enterprise, original information system is difficult to realize repeated application value;
C) analogue system and real system integrated after, be difficult to become more meticulous in real time monitoring and subsequent analysis to whole service situation.
Summary of the invention
[technical matters that will solve]
The object of this invention is to provide and a kind ofly realize integrated system that analogue system and actual functional capability systematic unity run and method, at least one of to solve the problems of the technologies described above.
[technical scheme]
The present invention is achieved by the following technical solutions.
First the present invention relates to a kind of integrated system realizing analogue system and actual functional capability systematic unity and run, and comprising:
Artificial service modeling administration module, be configured to add analogue system essential information and use the details of artificial service modeling administration module editor analogue system according to the functional module information of actual functional capability system, the essential information of described analogue system at least comprises analogue system numbering, analogue system title, the last edit session of analogue system, running status, whether implementing monitoring, the details of described analogue system at least comprise the node of analogue system, node annexation and nodal information, described node comprises start node, intermediate processing nodes and end node, described functional module information at least comprises actual functional capability systematic name, actual functional capability System Number, actual functional capability system type, functional module title, functional module is numbered, interface modes, call the dynamic link library of plug-in unit, call class, call method,
Emulation message-oriented middleware module, is configured to be obtained service message by real-time listening analogue system, connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system;
Simulation interactive middleware module, is configured to the service message of analogue system to transfer to actual functional capability system.
As one preferred embodiment, described artificial service modeling administration module comprises:
Flow process basic information management submodule, the nodal information being configured to realize in analogue system adds, nodal information inquiry, nodal information amendment or nodal information are deleted;
Flow process element chooser module, is configured to realize the node display in analogue system, nodal information inquiry or node drag and drop;
Flow process editor submodule, is configured to realize node placement, node motion, node amplifies, node reduces, node is clicked or node link;
Flow process element property editor submodule, is configured to realize nodal community editor, nodal community display or nodal community and preserves.
As another preferred embodiment, described simulation interactive middleware module comprises:
Artificial service communication module, is configured to generate the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module, is configured to by the parameter transmission of network communication module to message format generation module, and the parameter of described network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type;
Message format generation module, is configured to generating messages frame and the message frame of generation is transferred to message queue, and described message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer;
Message queue module, is configured to, after acquisition message frame, message frame is pressed into message queue;
Message queue, is configured to, after analogue system is connected with actual functional capability system, message frame be transferred to actual functional capability system.
As another preferred embodiment, described code skeleton comprises system module layer source code, middle module layer source code, leaf module layer source code.
As another preferred embodiment, described emulation message-oriented middleware module comprises:
System module layer source code generation module, be configured to the service code generating accessing database port code and generate simulation universal framework tree-model, described database port comprises function call port, data intermediate treatment, database manipulation;
Middle module layer source code generation module, be configured to the basic framework generating the parameter of communication calling interface function, the data-in port generating communication process function and result port, generation communicates call function, and generate common class function, described common class function comprises as the common class function of control action and the data processing function as common logic business
Leaf module layer source code generation module, be configured to the call relation between the execution sequence of generation nodal operation function, nodal operation function, and systematic function control call function, described nodal operation function at least comprises query function, adds function, edits function, deletes function.
As another preferred embodiment, also comprise simulation run situation monitoring module, be configured to record the running status of integrated system and show.
The invention still further relates to a kind of integrated approach adopting above-mentioned integrated system to run to realize analogue system and actual functional capability systematic unity, comprising:
Steps A: use artificial service modeling administration module to add analogue system essential information, the essential information of described analogue system at least comprises artificial service process code, artificial service process name, the last edit session of flow process, running status, whether implementing monitoring;
Step B: according to the functional module information of actual functional capability system, use the details of artificial service modeling administration module editor analogue system, the details of described analogue system comprise the node of analogue system, node annexation and nodal information, described node comprises start node, intermediate processing nodes and end node, described functional module information comprises actual functional capability systematic name, actual functional capability System Number, actual functional capability system type, functional module title, functional module is numbered, interface modes, call the dynamic link library of plug-in unit, call class, call method,
Step C: emulation message-oriented middleware module is connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system;
Step D: the service message of analogue system is transferred to actual functional capability system by simulation interactive middleware module.
As one preferred embodiment, described step D specifically comprises:
Artificial service communication module generates the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module is by the parameter transmission of network communication module to message format generation module, and the parameter of described network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type;
Message format generation module is according to the parameter generating messages frame of network communication module and the message frame of generation is transferred to message queue, and described message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer;
Message frame is pressed into message queue after obtaining message frame by message queue module;
After analogue system is connected with actual functional capability system, message frame is transferred to actual functional capability system by message queue.
As another preferred embodiment, the code skeleton generating analogue system in described step C specifically comprises: generation system module layer source code, generation middle module layer source code and generation leaf module layer source code,
The method of described generation system module layer source code is:
Generate accessing database port code, comprise function call port, data intermediate treatment, database manipulation; Generate the service code of simulation universal framework tree-model,
The method of described generation middle module layer source code is:
Generate the parameter of communication calling interface function, generate data-in port and the result port of communication process function, produce the basic framework of call function; Generate common class function, described common class function comprises as the common class function of control action and the data processing function as common logic business,
The method of described generation leaf module layer source code is:
Call relation between generating function implementation and function, simultaneously systematic function control call function.
As another preferred embodiment, the method also comprises: the running status of simulation run situation monitoring module to integrated system records and show.
[beneficial effect]
The technical scheme that the present invention proposes has following beneficial effect:
(1) the present invention adopts the structure of modeling method realization to analogue system basic module of tree construction successively refinement, adopt method simulations system basic communication module and the inquiry of model-driven, add, editor, the block code such as deletion, decrease designer machinery and repeat update routine and debugging efforts, the simultaneously structure of specification analogue system program source code and framework, achieve forward-looking unified shader, therefore, not only reduce the probability of the system fault caused because of manual amendment's code, and improve code can reusing.
(2) the simulative surveillance example in the present invention provides the real-time running state of software for emulation personnel, achieves the monitoring in real time that becomes more meticulous, for subsequent software running state analysis provides full and accurate foundation, for enterprise information system My Perspective On The Co-building provides direction.
(3) the present invention can meet the program development needs of large enterprise's distributing emulation system, particularly meets enterprise application system and changes business faster and, to the requirement of the quick adaptation new change that artificial service brings, possess larger using value.
Accompanying drawing explanation
The process flow diagram realizing the integrated approach that analogue system and actual functional capability systematic unity run that Fig. 1 provides for embodiments of the invention two.
The process flow diagram realizing the integrated approach that analogue system and actual functional capability systematic unity run that Fig. 2 provides for embodiments of the invention two.
Embodiment
For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, clear, complete description is carried out to the specific embodiment of the present invention, obviously, described embodiment is a part of embodiment of the present invention, instead of whole embodiment, neither limitation of the present invention.Based on embodiments of the invention, those of ordinary skill in the art, not paying the every other embodiment obtained under creative work prerequisite, belong to protection scope of the present invention.
Embodiment one
Embodiment one provides a kind of integrated system realizing analogue system and actual functional capability systematic unity and run, and this system comprises artificial service modeling administration module, emulation message-oriented middleware module, simulation interactive middleware module, simulation run situation monitoring module.
(1) artificial service modeling administration module
For any one artificial service, all need to set up an artificial service process action, therefore the artificial service modeling administration module in the present embodiment mainly realizes modeling to artificial service process action and management function, is the basis realizing follow-up system integrating process.Particularly, artificial service modeling administration module is configured to add analogue system essential information and uses the details of artificial service modeling administration module editor analogue system according to the functional module information of actual functional capability system, wherein the essential information of analogue system comprises analogue system numbering, analogue system title, the last edit session of analogue system, running status, whether implementing monitoring, the details of analogue system comprise the node of analogue system, node annexation and nodal information, node comprises start node, intermediate processing nodes and end node, functional module information comprises actual functional capability systematic name, actual functional capability System Number, actual functional capability system type, functional module title, functional module is numbered, interface modes, call the dynamic link library of plug-in unit, call class, call method.In the present embodiment, artificial service modeling administration module comprises flow process basic information management submodule, flow process element chooser module, flow process editor submodule, flow process element property editor submodule, flow process editor respond submodule, is described respectively below to each submodule of artificial service modeling administration module.
Flow process basic information management submodule, the nodal information being configured to realize in analogue system adds, nodal information inquiry, nodal information amendment or nodal information are deleted.
Flow process element chooser module, is configured to realize the node display in analogue system, nodal information inquiry or node drag and drop.
Flow process editor submodule, is configured to realize node placement, node motion, node amplifies, node reduces, node is clicked or node link.
Flow process element property editor submodule, is configured to realize nodal community editor, nodal community display or nodal community and preserves.
Flow process editor responds submodule, this module is the information input window of every other operational module, receive the procedural information in the middle of other module operations, then be presented in real time in its message window, after message number in message window exceedes the maximum display number of setting, automatically remove message above.
(2) message-oriented middleware module is emulated
Emulation message-oriented middleware module is configured to be obtained service message by real-time listening analogue system, connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system.Particularly, code skeleton comprises system module layer source code, middle module layer source code, leaf module layer source code, corresponding, emulation message-oriented middleware module comprises system module layer source code generation module, middle module layer source code generation module, leaf module layer source code generation module, is described in detail respectively below to each submodule of emulation message-oriented middleware module.
System module layer source code generation module is configured to the service code generating accessing database port code and generate simulation universal framework tree-model, and database port comprises function call port, data intermediate treatment, database manipulation.
Middle module layer source code generation module is configured to the basic framework generating the parameter of communication calling interface function, the data-in port generating communication process function and result port, generation communicates call function, and generating common class function, common class function comprises as the common class function of control action and the data processing function as common logic business.
Leaf module layer source code generation module is configured to generate the call relation between the execution sequence of nodal operation function, nodal operation function, and systematic function control call function, nodal operation function comprises query function, adds function, edits function, deletes function.Need to illustrate, this module work is at the leaf node of whole integrated system.
(3) simulation interactive middleware module
Simulation interactive middleware module, is configured to the service message of analogue system to transfer to actual functional capability system.Particularly, simulation interactive middleware module by top-down mode by business data transmission to computer network network layers ICP/IP protocol, then be transferred to computing machine object terminal by ICP/IP protocol.After computing machine object terminal receives message, obtain business datum by resolving inversely mode.Need to illustrate, in the present embodiment, the computing machine that computing machine object terminal is here run for actual functional capability system.
Simulation interactive middleware module comprises:
Artificial service communication module, is configured to generate the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module, is configured to by the parameter transmission of network communication module to message format generation module, and the parameter of network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type;
Message format generation module, is configured to generating messages frame and the message frame of generation is transferred to message queue, and message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer;
Message queue module, is configured to, after acquisition message frame, message frame is pressed into message queue;
Message queue, is configured to, after analogue system is connected with actual functional capability system, message frame be transferred to actual functional capability system.
(4) simulation run situation monitoring module
Simulation run situation monitoring module, is configured to record the running status of integrated system and show.Comprise simulation example operational management submodule particularly, simulation run monitoring agent submodule, simulation run distributed centralization monitoring submodule.Wherein monitored object comprises: supervisor and monitored person.Supervisor plays a part start monitoring and obtain monitor message; Monitored person is all devices in distributed system, and therefore the acquisition of monitor message is generally automatically performed by backstage, and particularly, the equipment in distributed system comprises the computing machine of operating simulation system and runs the computing machine of actual functional capability system.
For inquiring about, hardware in analogue system operation runs simulation example operational management submodule, database runs and the state parameter of running software, and with list mode or diagrammatic form display analogue system running status.Particularly, simulative surveillance example is a running unit with a task, by checking monitoring task run situation, checks the running status of all devices in distributed system.
Simulation run monitoring agent submodule is used for concrete implementing monitoring process.Particularly, intercept function by calling analogue system monitoring, the monitor message of acquisition is stored in database.When main system sends monitored instruction to all subsystems or part subsystem, after relevant device receives monitored instruction, start to obtain its running state information, comprise database running status, software operation state and key hardware running status, finally the related data of acquisition is stored into local data base.
Simulation run distributed centralization monitoring submodule is for initiating monitored instruction and obtaining monitor message.Particularly, issue monitored instruction by monitoring and controlling system to the equipment in other distributed systems, after relevant device receives monitored instruction, obtain the running state information of the analogue system on this equipment, and the information of acquisition is stored in local data base; When monitoring and controlling system obtains the running state information of other watch-dogs, send to other equipment and obtain monitored instruction, monitor message is sent to monitoring and controlling system by relevant device.
Integrated approach that analogue system and actual functional capability systematic unity run can with reference to following concrete grammar embodiment to adopt embodiment one to realize.
Embodiment two
Embodiment two provides a kind of integrated approach realizing analogue system and actual functional capability systematic unity and run, and as depicted in figs. 1 and 2, the method comprising the steps of S1, to step S4, is described in detail to above-mentioned steps below respectively.
Step S1: use artificial service modeling administration module to complete the modeling of artificial service process action.
Particularly, step S1 comprises:
Artificial service modeling administration module is used to add analogue system essential information, the essential information of analogue system at least comprises artificial service process code, artificial service process name, the last edit session of flow process, running status, the whether information such as implementing monitoring, editor, after editor completes base attribute, preserve;
Editor's analogue system details, particularly, according to the functional module information of actual functional capability system, use the details of artificial service modeling administration module editor analogue system, the details of analogue system comprise the node of analogue system, node annexation and nodal information, and node comprises start node, intermediate processing nodes and end node;
According to the details of processing node in the functional module information definition analogue system of actual functional capability system, particularly, a functional module of the corresponding actual functional capability system of processing node, functional module information comprise actual functional capability systematic name, actual functional capability System Number, 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 connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system.
In step S2, emulation message-oriented middleware module obtains service message by real-time listening analogue system on the one hand, is also connected by accessing database each functional module by actual functional capability system on the other hand, and generates the code skeleton of analogue system.The code skeleton generating analogue system in step S2 specifically comprises: generation system module layer source code, generation middle module layer source code and generation leaf module layer source code,
The method of generation system module layer source code is:
First generating messages category code is comprised, for generating the code of accessing database port.Specifically comprise: function call port, data intermediate treatment, database manipulation.Function call port, for obtaining parameter or the data of the transmission of software systems service logic, is the port mutual with service logic; Data intermediate treatment is used for temporary storaging data, produces SQL operation code, the functions such as performing database inquiry, insertion, deletion by database manipulation, produces code comments information simultaneously, such as, generates the C# source program code of database manipulation.
Also comprise systematic function category code, for generation of the service code of system framework tree-model, specifically comprise: first business function is divided into next stage sub-function module by tree construction, successively according to recurrence thought, further sub-function module is divided next stage function, minimum functional module can be operated, i.e. the basic modules such as interface framework inquiry, interpolation, editor, deletion until be divided into; Then by functional module with pictorial representation generic frame code.
The method generating middle module layer source code is:
Generate the parameter of communication calling interface function, generate data-in port and the result port of communication process function, produce the basic framework of call function, particularly, the key parameter of communication calling interface function is generated by tcp/ip communication pattern etc., determine parameter type and the number of parameters of calling communication function, generate data-in port and the result port of communication process function, produce basic framework and the code comments information of call function;
Generate common class function, common class function comprises as the common class function of control action and the data processing function as common logic business.Common class function comprises two classes: one is such as, as control action common class function, control of authority function etc.; Two is the data processing function as common logic business, data processing function as common logic business will produce function basic framework and the key message such as parameter type, number of parameters automatically, by calling the object that common service logical function realizes calling function many places, and produce code comments information.
The method generating leaf module layer source code is:
Call relation between generating function implementation and function, simultaneously systematic function control call function.Particularly, the method process flow operation, at integrated system run duration, first adopts the basic function module of leaf node, comprises the operations such as inquiry, interpolation, editor and deletion, then according to business demand, limits associative operation.
Step S3: the service message of analogue system is transferred to actual functional capability system by simulation interactive middleware.
Particularly, step S3 comprises:
Artificial service communication module generates the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module by the parameter transmission of network communication module to message format generation module, the parameter of network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type, by message call Queue module, above-mentioned argument is transferred to message format generation module;
Message format generation module is according to the parameter generating messages frame of network communication module and the message frame of generation is transferred to message queue, message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer, by the argument infilled frame structure of network service function transfer, finally message frame is transferred to message queue module;
Message frame is pressed into message queue after obtaining message frame by message queue module, particularly, after the message frame that message queue function obtains, message frame is pressed into message queue.The storage space that message queue heap provides for the buffer memory in message frame transmitting procedure.
After analogue system is connected with actual functional capability system, message frame is transferred to actual functional capability system by message queue, and particularly, the ICP/IP protocol that message frame transmits by message queue, last ICP/IP protocol passes through data packing, by transmission of messages to actual functional capability system.
Step S4: the running status of simulation run situation monitoring module to integrated system records and show.
Need to illustrate, step S5 operates in the implementation of step S1 to step S4, is namely recorded by the running status of simulation run situation monitoring module to the analogue system in integrated system and actual functional capability system and is shown.
As can be seen from the above embodiments, the embodiment of the present invention adopts the structure of modeling method realization to analogue system basic module of tree construction successively refinement, adopt method simulations system basic communication module and the inquiry of model-driven, add, editor, the block code such as deletion, decrease designer machinery and repeat update routine and debugging efforts, the simultaneously structure of specification analogue system program source code and framework, achieve forward-looking unified shader, therefore, not only reduce the probability of the system fault caused because of manual amendment's code, and the repeated application that improve code is worth, in addition, the simulative surveillance example in the embodiment of the present invention provides the real-time running state of software for emulation personnel, achieves the monitoring in real time that becomes more meticulous, for subsequent software running state analysis provides full and accurate foundation, for enterprise information system My Perspective On The Co-building provides direction, finally, the embodiment of the present invention can meet the program development needs of large enterprise's distributing emulation system, particularly meets enterprise application system and changes business faster and, to the requirement of the quick adaptation new change that artificial service brings, possess larger using value.
Claims (10)
1. realize the integrated system that analogue system and actual functional capability systematic unity run, it is characterized in that comprising:
Artificial service modeling administration module, be configured to add analogue system essential information and use the details of artificial service modeling administration module editor analogue system according to the functional module information of actual functional capability system, the essential information of described analogue system at least comprises analogue system numbering, analogue system title, the last edit session of analogue system, running status, whether implementing monitoring, the details of described analogue system at least comprise the node of analogue system, node annexation and nodal information, described node comprises start node, intermediate processing nodes and end node, described functional module information at least comprises actual functional capability systematic name, actual functional capability System Number, actual functional capability system type, functional module title, functional module is numbered, interface modes, call the dynamic link library of plug-in unit, call class, call method,
Emulation message-oriented middleware module, is configured to be obtained service message by real-time listening analogue system, connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system;
Simulation interactive middleware module, is configured to the service message of analogue system to transfer to actual functional capability system.
2. the integrated system realizing analogue system and actual functional capability systematic unity and run according to claim 1, is characterized in that described artificial service modeling administration module comprises:
Flow process basic information management submodule, the nodal information being configured to realize in analogue system adds, nodal information inquiry, nodal information amendment or nodal information are deleted;
Flow process element chooser module, is configured to realize the node display in analogue system, nodal information inquiry or node drag and drop;
Flow process editor submodule, is configured to realize node placement, node motion, node amplifies, node reduces, node is clicked or node link;
Flow process element property editor submodule, is configured to realize nodal community editor, nodal community display or nodal community and preserves.
3. the integrated system realizing analogue system and actual functional capability systematic unity and run according to claim 1, is characterized in that described simulation interactive middleware module comprises:
Artificial service communication module, is configured to generate the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module, is configured to by the parameter transmission of network communication module to message format generation module, and the parameter of described network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type;
Message format generation module, is configured to generating messages frame and the message frame of generation is transferred to message queue, and described message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer;
Message queue module, is configured to, after acquisition message frame, message frame is pressed into message queue;
Message queue, is configured to, after analogue system is connected with actual functional capability system, message frame be transferred to actual functional capability system.
4., according to the described integrated system realizing analogue system and actual functional capability systematic unity and run arbitrary in claims 1 to 3, it is characterized in that described code skeleton comprises system module layer source code, middle module layer source code, leaf module layer source code.
5. the integrated system realizing analogue system and actual functional capability systematic unity and run according to claim 4, is characterized in that described emulation message-oriented middleware module comprises:
System module layer source code generation module, be configured to the service code generating accessing database port code and generate simulation universal framework tree-model, described database port comprises function call port, data intermediate treatment, database manipulation;
Middle module layer source code generation module, be configured to the basic framework generating the parameter of communication calling interface function, the data-in port generating communication process function and result port, generation communicates call function, and generate common class function, described common class function comprises as the common class function of control action and the data processing function as common logic business
Leaf module layer source code generation module, be configured to the call relation between the execution sequence of generation nodal operation function, nodal operation function, and systematic function control call function, described nodal operation function at least comprises query function, adds function, edits function, deletes function.
6. the integrated system realizing analogue system and actual functional capability systematic unity and run according to claim 1, characterized by further comprising simulation run situation monitoring module, is configured to record the running status of integrated system and show.
7. the integrated approach using the analogue system of arbitrary described integrated system realization in claim 1 to 6 and actual functional capability systematic unity to run, is characterized in that comprising:
Steps A: use artificial service modeling administration module to add analogue system essential information, the essential information of described analogue system at least comprises artificial service process code, artificial service process name, the last edit session of flow process, running status, whether implementing monitoring;
Step B: according to the functional module information of actual functional capability system, use the details of artificial service modeling administration module editor analogue system, the details of described analogue system comprise the node of analogue system, node annexation and nodal information, described node comprises start node, intermediate processing nodes and end node, described functional module information comprises actual functional capability systematic name, actual functional capability System Number, actual functional capability system type, functional module title, functional module is numbered, interface modes, call the dynamic link library of plug-in unit, call class, call method,
Step C: emulation message-oriented middleware module is connected by accessing database each functional module by actual functional capability system, and generates the code skeleton of analogue system;
Step D: the service message of analogue system is transferred to actual functional capability system by simulation interactive middleware module.
8. the integrated approach realizing analogue system and actual functional capability systematic unity and run according to claim 7, is characterized in that described step D specifically comprises:
Artificial service communication module generates the parameter calling network communication module, calls network communication module, service message is transferred to network communication module;
Network communication module is by the parameter transmission of network communication module to message format generation module, and the parameter of described network communication module comprises the title of actual functional capability system, service message content, service message numbering and service message type;
Message format generation module is according to the parameter generating messages frame of network communication module and the message frame of generation is transferred to message queue, and described message frame comprises message frame head, frame length, number of frames, frame number, frame identification, mission number, task kind, CRC check and message trailer;
Message frame is pressed into message queue after obtaining message frame by message queue module;
After analogue system is connected with actual functional capability system, message frame is transferred to actual functional capability system by message queue.
9. the integrated approach realizing analogue system and actual functional capability systematic unity and run according to claim 7, it is characterized in that the code skeleton generating analogue system in described step C specifically comprises: generation system module layer source code, generation middle module layer source code and generation leaf module layer source code
The method of described generation system module layer source code is:
Generate accessing database port code, comprise function call port, data intermediate treatment, database manipulation; Generate the service code of simulation universal framework tree-model,
The method of described generation middle module layer source code is:
Generate the parameter of communication calling interface function, generate data-in port and the result port of communication process function, produce the basic framework of call function; Generate common class function, described common class function comprises as the common class function of control action and the data processing function as common logic business,
The method of described generation leaf module layer source code is:
Call relation between generating function implementation and function, simultaneously systematic function control call function.
10. the integrated approach realizing analogue system and actual functional capability systematic unity and run according to claim 7, characterized by further comprising: the running status of simulation run situation monitoring module to integrated system records and show.
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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 |
CN111352742A (en) * | 2018-12-21 | 2020-06-30 | 北京奇虎科技有限公司 | Information transmission method and device based on APP modularization |
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 |
CN113420520A (en) * | 2021-06-25 | 2021-09-21 | 海光信息技术股份有限公司 | Integrated circuit device design simulation method, device, apparatus and readable storage medium |
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 |
CN113836060A (en) * | 2021-09-24 | 2021-12-24 | 北京机电工程研究所 | Distributed real-time simulation platform suitable for simulation model and process model |
CN114020359A (en) * | 2021-11-08 | 2022-02-08 | 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 |
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 |
CN117573200A (en) * | 2024-01-18 | 2024-02-20 | 北京交通大学 | Dynamic configurable equivalent device system and flow configuration method |
CN117573200B (en) * | 2024-01-18 | 2024-03-29 | 北京交通大学 | Dynamic configurable equivalent device system and flow configuration method |
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