CN110098955A - Simulation model flexible configuration method and system for artificial service - Google Patents
Simulation model flexible configuration method and system for artificial service Download PDFInfo
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- CN110098955A CN110098955A CN201910258586.4A CN201910258586A CN110098955A CN 110098955 A CN110098955 A CN 110098955A CN 201910258586 A CN201910258586 A CN 201910258586A CN 110098955 A CN110098955 A CN 110098955A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/14—Network analysis or design
- H04L41/145—Network analysis or design involving simulating, designing, planning or modelling of a network
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Abstract
The invention discloses a kind of simulation model flexible configuration method and system for artificial service, are related to communication service field of configuration.The step of this method includes: simulation model configuration flow: the simulation model of configuration service signal;When artificial service is not present, into artificial service configuration flow;When there are the simulation model of artificial service and the artificial service and service signal difference, enter artificial service configuration flow after removing already present artificial service;Artificial service configuration flow: after service signal is demultiplexing as corresponding emulation particle according to the simulation model of configuration, artificial service data packet is configured by emulation particle.The present invention can be on the basis of not increasing and switching hardware, switch corresponding simulation model according to different artificial services, is more convenient in the application of real network, networking is more flexible, not only scalability is high, portable strong, but also reduces use cost, O&M cost and power consumption.
Description
Technical field
The present invention relates to communication service field of configuration, and in particular to a kind of simulation model flexible configuration for artificial service
Method and system.
Background technique
Artificial service (such as SDH signal service, Synchronous Digital Hierarchy, synchronous digital system letter
Number business) when accessing packet network usually using CES (Circuit Emulation Service, circuit emulation service)
Simulation model or CEP (Circuit Emulation over Packet, the circuit simulation in packet network) emulation mould
Formula, wherein CES simulation model includes unstructured simulation model and structuring simulation model, unstructured simulation model and structure
Change the simulation model that emulation side is E1 particle (E1 is the transmission link that transmission rate is 2.048Mbit/s).CEP simulation model
The simulation model of simulation model and VC12 particle including VC4 particle, VC are the virtual container that load is loaded in SDH, what VC4 was loaded
It is 140Mbit/s, that VC12 is loaded is 2Mbit/s.The application by E1 particle, VC4 particle and VC12 and other emulation moulds
Particle needed for formula referred to as emulates particle.
The existing method for configuring simulation model for artificial service is general are as follows: each simulation model is configured at one piece of board
Upper (i.e. one piece of board corresponds to a kind of simulation model) completes different simulation model adaptations by using different boards.
In actual communications, there can be the need for needing to switch different simulation models because of the switching of the scene of application
It asks;And the above method needs board (such as the field by increasing corresponding number when being applied to the scene of switching simulation model
Scape needs to switch 2 kinds of simulation models, then uses 2 pieces of corresponding boards simultaneously) or use the mode of artificial switch boards card (i.e. only
Using 1 piece of board, corresponding board is manually replaced when switching simulation model), the switching of Lai Shixian simulation model.
But increase board or by way of artificial switch boards card come switch simulation model be respectively present it is following
Defect:
For increasing board, the quantity of board increase not only increase occupy slot position quantity, and make using
Cost increases, and power consumption increases.
For manual switching board, duration needed for replacing board and replacement debugging process will increase O&M cost.
Summary of the invention
In view of the deficiencies in the prior art, present invention solves the technical problem that are as follows: how do not increasing and switching it is hard
On the basis of part, corresponding simulation model is switched according to different artificial services.
To achieve the above objectives, provided by the present invention for the simulation model flexible configuration method of artificial service, including with
Lower step:
Simulation model configuration flow: the simulation model of configuration service signal;When artificial service is not present, into emulation industry
Business configuration flow;When there are the simulation model of artificial service and the artificial service and service signal difference, remove already present
Enter artificial service configuration flow after artificial service;
Artificial service configuration flow: service signal is demultiplexing as by corresponding emulation particle according to the simulation model of configuration
Afterwards, artificial service data packet is configured by emulation particle.
Based on the above technical solution, artificial service configuration flow is entered after removing already present artificial service
When, the process that service signal is demultiplexing as corresponding emulation particle is included: by the simulation model according to configuration
A: judge whether that the emulation particle mapping of service signal by already present emulation particle mapped mode, can be obtained
Mode;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step is gone to
B;Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B;
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
Based on the above technical solution, the process for configuring artificial service data packet for emulation particle includes:
According to simulation protocol corresponding with the simulation model of service signal, control word is obtained, control word and emulation particle are formed into emulation
Business data packet.
Based on the above technical solution, this method further includes following artificial service resolve packet process: according to imitative
The control word of true business data packet identifies simulation protocol;Restore the emulation particle in artificial service data packet according to simulation protocol;
Service signal is formed after the emulation particle recovered is inserted into corresponding expense.
Based on the above technical solution, this method specifically includes following below scheme:
S101: the simulation model of configuration service signal after receiving service signal, judges whether there is artificial service, if so,
S102 is gone to, S103 is otherwise gone to;
S102: judge the simulation model of already present artificial service, if identical as received service signal;If so,
Illustrate existing emulation particle corresponding with service signal, goes to S104;Otherwise it is gone to after removing already present artificial service
S103;
S103: according to the simulation model of service signal, service signal is demultiplexing as corresponding emulation particle, is gone to
S104;
S104: artificial service data packet is configured by emulation particle.
Provided by the present invention for the simulation model flexible configuration system of artificial service, including simulation model configuration module and
Artificial service configuration module;
Simulation model configuration module is used for: the simulation model of configuration service signal;When artificial service is not present, to emulation
Business configuration module sends artificial service and configures signal;When there are the simulation model of artificial service and the artificial service and business
When signal difference, after removing already present artificial service, artificial service is sent to artificial service configuration module and configures signal;
Artificial service configuration module is used for: after receiving artificial service configuration signal, being configured according to simulation model configuration module
Simulation model service signal is demultiplexing as corresponding emulation particle after, will emulation particle be configured to artificial service data packet.
Based on the above technical solution, it after removing already present artificial service, is sent out to artificial service configuration module
When artificial service being sent to configure signal, service signal is demultiplexing as by the artificial service configuration module according to the simulation model of configuration
It is corresponding emulation particle process include:
A: judge whether that the emulation particle mapping of service signal by already present emulation particle mapped mode, can be obtained
Mode;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step is gone to
B;Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B;
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
Based on the above technical solution, the artificial service configuration module is configured to artificial service number for particle is emulated
Process according to packet includes: to obtain control word according to simulation protocol corresponding with the simulation model of service signal, by control word and is imitated
True particle forms artificial service data packet.
Based on the above technical solution, which further includes artificial service resolve packet module, is used for: according to
The control word of artificial service data packet identifies simulation protocol;Restore the emulation in artificial service data packet according to simulation protocol
Grain;Service signal is formed after the emulation particle recovered is inserted into corresponding expense.
Based on the above technical solution, the simulation model configuration module includes simulation model configuration module, emulation
Business monitoring modular;The artificial service configuration module includes service signal demultiplexing module and artificial service data packet configuration mould
Block;
Simulation model configuration module is used for: the simulation model of configuration service signal, after receiving service signal, judges whether to deposit
In artificial service, if so, sending artificial service monitoring signals to artificial service monitoring modular, mould otherwise is demultiplexed to service signal
Block sends service signal demultiplexed signal;
Artificial service monitoring modular is used for: after receiving artificial service monitoring signals, judging the imitative of already present artificial service
True mode, if identical as received service signal;If so, the existing emulation particle corresponding with service signal of explanation, to
Artificial service data packet configuration module sends artificial service data packet and configures signal;Otherwise it is backward to remove already present artificial service
Service signal demultiplexing module sends service signal demultiplexed signal;
Service signal demultiplexing module is used for: after receiving service signal demultiplexed signal, according to the emulation mould of service signal
Service signal is demultiplexing as corresponding emulation particle by formula, sends artificial service data to artificial service data packet configuration module
Packet configuration signal;
Artificial service data packet configuration module is used for: after receiving artificial service data packet configuration signal, emulation particle being matched
It is set to artificial service data packet.
Compared with the prior art, the advantages of the present invention are as follows:
The present invention, can be according to difference in simulation model and the already present artificial service difference of received service signal
Service signal configure corresponding simulation model, and then artificial service is configured according to simulation model, with this on same hardware
Realize the switching of different simulation models.Therefore, the present invention can imitate on the basis of not increasing and switching hardware according to different
The corresponding simulation model of true service switching, without carrying out the operation of increase board or manual switching board in the prior art,
It is more convenient in the application of real network, networking is more flexible, and not only scalability is high, portable strong, but also reduces use
Cost, O&M cost and power consumption.
Detailed description of the invention
Fig. 1 is the flow chart of the simulation model flexible configuration method for artificial service in the embodiment of the present invention;
Fig. 2 is configuration simulation model and the flow chart of Propagation Simulation business in the embodiment of the present invention.
Specific embodiment
Invention is further described in detail with reference to the accompanying drawings and embodiments.
The simulation model flexible configuration method for artificial service in the embodiment of the present invention, comprising the following steps:
Simulation model configuration flow: the simulation configurations information that the board of transmitting terminal is issued according to user side configures received
The simulation model of service signal;When artificial service is not present on the port for receiving service signal, configures and flow into artificial service
Journey;When there are the simulation models of artificial service and the artificial service and received service signal on the port for receiving service signal
When different, enter artificial service configuration flow after removing already present artificial service.
Artificial service configuration flow: service signal is demultiplexing as corresponding to by the board of transmitting terminal according to the simulation model of configuration
Emulation particle after, will emulation particle be configured to artificial service data packet.
It follows that the present invention is in the simulation model of received service signal and when already present artificial service difference, it can
To configure corresponding simulation model according to different service signal, and then artificial service is configured according to simulation model, with this
The switching of different simulation models is realized on one piece of board.Therefore, the present invention can meet different simulation models with one piece of board
Switching demand, without the operation for carrying out increasing board or manual switching board in the prior art, in the application of real network
In be more convenient, networking is more flexible, and not only scalability is high, portable strong, and reduce use cost, O&M cost and
Power consumption.
Preferably, described according to configuration when entering artificial service configuration flow after removing already present artificial service
Service signal is demultiplexing as the corresponding process for emulating particle by simulation model
A: judge whether that the emulation particle mapping of service signal by already present emulation particle mapped mode, can be obtained
Mode;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step is gone to
B;Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B.
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
It follows that the present invention can be using existing emulation particle mapped mode to industry in the case where condition has
Business signal is demultiplexed, and resource is not only rationally utilized, but also improve work efficiency.
Preferably, it is described will emulate particle be configured to artificial service data packet process include: according to and service signal
The corresponding simulation protocol of simulation model, obtains control word, and control word and emulation particle are formed artificial service data packet.
It follows that the present invention clearly illustrates the configuration flow of artificial service data packet.
Preferably, this method further includes following below scheme:
After the board of receiving end receives artificial service data packet, emulation association is identified according to the control word of artificial service data packet
View;Restore the emulation particle in artificial service data packet according to simulation protocol;The emulation particle recovered insertion is opened accordingly
Service signal is formed after pin.
It follows that the present invention provides corresponding analysis mode for the artificial service data packet that transmitting terminal configures.
Preferably, shown in Figure 1, this method specifically includes the following process on transmitting terminal:
S101: the simulation model of configuration service signal, after receiving service signal, judge receive service signal port under be
No there are artificial services, if so, going to S102, otherwise go to S103.
S102: judge the simulation model of already present artificial service, if identical as received service signal;If so,
Illustrate existing emulation particle corresponding with service signal, goes to S104;Otherwise it is gone to after removing already present artificial service
S103。
S101 to S102 corresponds to simulation model configuration flow.
S103: according to the simulation model of service signal, service signal is demultiplexing as corresponding emulation particle, is gone to
S104。
S104: artificial service data packet is configured by emulation particle.
S103 to S104 corresponds to artificial service configuration flow.
It follows that the present invention illustrates the detailed process of this method according to sequential relationship.
Illustrate method of the invention below by a specific embodiment.
Service signal be SDH signal, simulation model be CES mode (circuit simulation agreement be unstructured simulation model with
Structuring simulation model), (the circuit simulation agreement of CEP mode is for the CEP mode of the CEP mode of VC12 particle or VC4 particle
For CEP).
On this basis, shown in Figure 2, for service signal configuration, switching simulation model, according to simulation model formed and
Transmitting-receiving artificial service data packet process include:
S201: transmitting terminal according to the demand of user, configures simulation model (the CES mode, VC12 particle of corresponding port
CEP mode, the CEP mode of VC4 particle), go to S202.
S202: transmitting terminal judges whether have existed circuit emulation service under the port, if so, going to S203, otherwise turns
To S205.
S203: transmitting terminal judges the simulation model of already present artificial service, if identical as received SDH signal;If
It is to go to S206, otherwise goes to S204.
S204: transmitting terminal deletes already present all circuit emulation services, removes existing emulation particle mapped mode
(SDH mapped mode), to be restored to the original state before not demultiplexed, goes to S205.
Here to existing emulation particle mapped mode is removed in S204, it is restored to the original state before not demultiplexed
It is illustrated: for the emulation particle of CES mode and CEP mode, if being arranged according to the sequence of demultiplexing depth, for
VC4 particle, VC12 particle and E1 particle pass through the emulation particle mapped mode of VC4 particle, can obtain the imitative of VC12 particle
True particle mapped mode;By the emulation particle mapped mode of VC12 particle, the emulation particle mapping mould of E1 particle can be obtained
Formula;It is on the contrary then be unable to get.
On this basis, the simulation model of already present artificial service is CES mode in the present embodiment, and SDH signal is imitated
True mode is CEP mode, since the emulation particle of CEP mode can not be obtained by CES mode, it is therefore desirable to be removed existing imitative
True particle mapped mode, is restored to the original state before not demultiplexed, to demultiplex again to SDH signal.
S205: SDH signal is demultiplexing as corresponding emulation particle (CES by the simulation model that transmitting terminal is configured according to S201
Mode is E1 particle, and CEP mode is VC12 particle or VC4 particle), go to S206.
S206: transmitting terminal obtains control word, will control according to the corresponding circuit simulation agreement of the simulation model configured in S201
Word processed and emulation particle form Ethernet data bag and are sent to receiving end.
S207: it after receiving end receives Ethernet data bag, is emulated and is assisted according to the control word identification circuit of Ethernet data bag
View;Restore the emulation particle in Ethernet data bag according to circuit simulation agreement;The emulation particle recovered insertion is corresponding
SDH signal is formed after expense.
The emulation particle recovered is inserted into after corresponding expense to the process for forming SDH signal specifically:
When emulating particle is E1 particle, E1 particle is inserted into low order expense, high-order overhead and section layer expense, forms SDH
Signal;
When emulating particle is VC4 particle, by VC4 particle inserting paragraph layer expense, SDH signal is formed;
When emulating particle is VC12 particle, VC12 particle is inserted into high-order overhead and section layer expense, forms SDH signal.
The simulation model flexible configuration system for artificial service in the embodiment of the present invention, including be set on transmitting terminal
Simulation model configuration module and artificial service configuration module, and the artificial service resolve packet mould being set on receiving end
Block.
Simulation model configuration module is used for: the simulation model of configuration service signal;When artificial service is not present, to emulation
Business configuration module sends artificial service and configures signal;When there are the simulation model of artificial service and the artificial service and business
When signal difference, after removing already present artificial service, artificial service is sent to artificial service configuration module and configures signal;
Artificial service configuration module is used for: after receiving artificial service configuration signal, being configured according to simulation model configuration module
Simulation model service signal is demultiplexing as corresponding emulation particle after, will emulation particle be configured to artificial service data packet
(according to simulation protocol corresponding with the simulation model of service signal, control word is obtained, control word and emulation particle are formed into emulation
Business data packet).
After removing already present artificial service, when sending artificial service configuration signal to artificial service configuration module, institute
State the process packet that service signal is demultiplexing as corresponding emulation particle according to the simulation model of configuration by artificial service configuration module
It includes:
A: judge whether that the emulation particle mapping of service signal by already present emulation particle mapped mode, can be obtained
Mode;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step is gone to
B;Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B;
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
Artificial service resolve packet module is used for: identifying simulation protocol according to the control word of artificial service data packet;Root
Restore the emulation particle in artificial service data packet according to simulation protocol;By shape after the corresponding expense of the emulation particle recovered insertion
At service signal.
Simulation model configuration module includes simulation model configuration module, artificial service monitoring modular;The artificial service is matched
Setting module includes service signal demultiplexing module and artificial service data packet configuration module.
Simulation model configuration module is used for: the simulation model of configuration service signal, after receiving service signal, judges whether to deposit
In artificial service, if so, sending artificial service monitoring signals to artificial service monitoring modular, mould otherwise is demultiplexed to service signal
Block sends service signal demultiplexed signal;
Artificial service monitoring modular is used for: after receiving artificial service monitoring signals, judging the imitative of already present artificial service
True mode, if identical as received service signal;If so, the existing emulation particle corresponding with service signal of explanation, to
Artificial service data packet configuration module sends artificial service data packet and configures signal;Otherwise it is backward to remove already present artificial service
Service signal demultiplexing module sends service signal demultiplexed signal;
Service signal demultiplexing module is used for: after receiving service signal demultiplexed signal, according to the emulation mould of service signal
Service signal is demultiplexing as corresponding emulation particle by formula, sends artificial service data to artificial service data packet configuration module
Packet configuration signal;
Artificial service data packet configuration module is used for: after receiving artificial service data packet configuration signal, emulation particle being matched
It is set to artificial service data packet.
It should be understood that system provided in an embodiment of the present invention is when carrying out intermodule communication, only with above-mentioned each function
The division progress of module can according to need and for example, in practical application by above-mentioned function distribution by different function moulds
Block is completed, i.e., the internal structure of system is divided into different functional modules, to complete all or part of function described above
Energy.
Further, the present invention is not limited to the above-described embodiments, for those skilled in the art,
Without departing from the principles of the invention, several improvements and modifications can also be made, these improvements and modifications are also considered as the present invention
Protection scope within.The content being not described in detail in this specification belongs to existing skill well known to professional and technical personnel in the field
Art.
Claims (10)
1. a kind of simulation model flexible configuration method for artificial service, which is characterized in that method includes the following steps:
Simulation model configuration flow: the simulation model of configuration service signal;When artificial service is not present, match into artificial service
Set process;When there are the simulation model of artificial service and the artificial service and service signal difference, already present emulation is removed
Enter artificial service configuration flow after business;
Artificial service configuration flow:, will after service signal is demultiplexing as corresponding emulation particle according to the simulation model of configuration
Emulation particle is configured to artificial service data packet.
2. as described in claim 1 be used for artificial service simulation model flexible configuration method, it is characterised in that: when remove
It is described to be demultiplexed service signal according to the simulation model of configuration when entering artificial service configuration flow after existing artificial service
Include: for the corresponding process for emulating particle
A: judge whether that the emulation particle mapping mould of service signal by already present emulation particle mapped mode, can be obtained
Formula;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step B is gone to;
Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B;
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
3. being used for the simulation model flexible configuration method of artificial service as described in claim 1, it is characterised in that: described to imitate
The process that true particle is configured to artificial service data packet includes: basis simulation protocol corresponding with the simulation model of service signal,
Control word is obtained, control word and emulation particle are formed into artificial service data packet.
4. being used for the simulation model flexible configuration method of artificial service as claimed in claim 3, which is characterized in that this method is also
Including following artificial service resolve packet process: identifying simulation protocol according to the control word of artificial service data packet;According to imitative
True agreement restores the emulation particle in artificial service data packet;Industry is formed after the emulation particle recovered is inserted into corresponding expense
Business signal.
5. such as the described in any item simulation model flexible configuration methods for artificial service of Claims 1-4, feature exists
In this method specifically includes following below scheme:
S101: the simulation model of configuration service signal after receiving service signal, judges whether there is artificial service, if so, going to
Otherwise S102 goes to S103;
S102: judge the simulation model of already present artificial service, if identical as received service signal;If so, explanation
Existing emulation particle corresponding with service signal, goes to S104;Otherwise S103 is gone to after removing already present artificial service;
S103: according to the simulation model of service signal, service signal is demultiplexing as corresponding emulation particle, goes to S104;
S104: artificial service data packet is configured by emulation particle.
6. a kind of simulation model flexible configuration system for artificial service, it is characterised in that: the system includes that simulation model is matched
Set module and artificial service configuration module;
Simulation model configuration module is used for: the simulation model of configuration service signal;When artificial service is not present, to artificial service
Configuration module sends artificial service and configures signal;When there are the simulation model of artificial service and the artificial service and service signals
When different, after removing already present artificial service, artificial service is sent to artificial service configuration module and configures signal;
Artificial service configuration module is used for: after receiving artificial service configuration signal, according to the imitative of simulation model configuration module configuration
After service signal is demultiplexing as corresponding emulation particle by true mode, artificial service data packet is configured by emulation particle.
7. as claimed in claim 6 be used for artificial service simulation model flexible configuration system, it is characterised in that: when remove
After existing artificial service, when sending artificial service configuration signal to artificial service configuration module, the artificial service configures mould
Service signal is demultiplexing as the corresponding process for emulating particle according to the simulation model of configuration by root tuber
A: judge whether that the emulation particle mapping mould of service signal by already present emulation particle mapped mode, can be obtained
Formula;If so, obtaining the emulation particle mapped mode of service signal by already present emulation particle mapped mode, step B is gone to;
Otherwise emulation particle mapped mode is obtained according to the simulation model of service signal, goes to step B;
B: according to emulation particle mapped mode, service signal is demultiplexing as corresponding emulation particle.
8. being used for the simulation model flexible configuration system of artificial service as claimed in claim 6, it is characterised in that: the emulation
It includes: according to the simulation model with service signal that business configuration module, which will emulate particle to be configured to the process of artificial service data packet,
Corresponding simulation protocol, obtains control word, and control word and emulation particle are formed artificial service data packet.
9. being used for the simulation model flexible configuration system of artificial service as claimed in claim 8, it is characterised in that: the system is also
It including artificial service resolve packet module, is used for: simulation protocol is identified according to the control word of artificial service data packet;According to
Simulation protocol restores the emulation particle in artificial service data packet;It is formed after the emulation particle recovered is inserted into corresponding expense
Service signal.
10. such as the described in any item simulation model flexible configuration systems for artificial service of claim 6 to 9, feature exists
In: the simulation model configuration module includes simulation model configuration module, artificial service monitoring modular;The artificial service configuration
Module includes service signal demultiplexing module and artificial service data packet configuration module;
Simulation model configuration module is used for: the simulation model of configuration service signal, after receiving service signal, is judged whether there is imitative
Otherwise true business is sent out if so, sending artificial service monitoring signals to artificial service monitoring modular to service signal demultiplexing module
Send service signal demultiplexed signal;
Artificial service monitoring modular is used for: after receiving artificial service monitoring signals, judging the emulation mould of already present artificial service
Formula, if identical as received service signal;If so, the existing emulation particle corresponding with service signal of explanation, to emulation
Business data packet configuration module sends artificial service data packet and configures signal;Otherwise it removes after already present artificial service to business
Signal demultiplexing module sends service signal demultiplexed signal;
Service signal demultiplexing module is used for:, will according to the simulation model of service signal after receiving service signal demultiplexed signal
Service signal is demultiplexing as corresponding emulation particle, sends the configuration of artificial service data packet to artificial service data packet configuration module
Signal;
Artificial service data packet configuration module is used for: after receiving artificial service data packet configuration signal, being configured emulation particle to
Artificial service data packet.
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