CN1369983A - Method for simulating WDM optical network - Google Patents

Abstract

The invention discloses a method for simulating optical network of wave division multiplex (WDM) by computer. The computer executes following steps. The computer provides at least one main interface that includes a section for drawing layout of optical network, a toolbar section. The toolbar section provides selectable operations; system planning, performance simulation, simulaing algorithm of allocating route or wave length. Said function of system planning is that based on user's planning target, the system planning generates a topological graph of optical network on the said drawing section. The optical network on the drawing section is carried out a simulation by function of performance simulating. Based on physical toplogy and logical topology, the algorithm of allocating route or wavelength selects suitable route and allocates optimized wavelength and evaluates the algorithm for dynamic business.

Description

Method for simulating WDM optical network

Technical field

The present invention relates to a kind of analogue system that optical-fiber network is carried out emulation, particularly method for simulating WDM optical network.

Background of invention

Rapid increase along with communication traffic, wavelength division multiplexing (WDM) optical transfer network is being brought into play increasing effect, simultaneously at a high speed, in the jumbo dense wave division multipurpose optical-fiber network in the research, transmission course of research, network planning design and the networking plan of research, Wavelength Assignment and the routing algorithm of research, the nonlinear effect of research, the network performance of network element device performance the differentiation situation of signal etc. all become the emphasis of research.And exist the stationarity, cost height of network, dumb, limiting factor such as efficient is low in the hardware net platform, having caused the research to the wavelength division multiplexing optical transport network more and more is the simulation that is based upon on the software platform.The research effect of software simulation in optical-fiber network is more and more important.The simulation softward of wave division multiplex optical network system progressively becomes the important tool of research wavelength division multiplexed optical network.On the other hand, the on-line monitoring of light signal is a difficult problem always, and the optics instrument costs an arm and a leg, and is difficult to support on-line monitoring.

Summary of the invention

At technological difficulties that exist in the prior art and deficiency, the invention provides a kind of method for simulating WDM optical network, this analogue system can be under the network environment of complexity the transmission performance of simulating wavelength routing algorithm, network each point, the performance of the whole network is diagnosed.

The present invention includes digital computer, described Computer Storage has the network element device storehouse, is characterized in:

Optical network element in the described network element device storehouse is to be made of by certain concatenate rule one or more atom devices, and described optical network element model is described by information structure model, and described digital computer is carried out following step:

One main interface is provided at least; Described main interface comprises an optical network configuration at least and makes map-area, component interface, the toolbar area that can operate the optical network element in the described network element device storehouse;

Described toolbar area provides alternative operated system planning, performance simulation, route and Wavelength assignment algorithm analog functuion, described systems organization makes to generate in the map-area optical-fiber network topological diagram according to user's the object of planning in described optical network configuration, the optical-fiber network that described performance simulation is done the map-area to optical network configuration carries out the dynamic property simulation, physical topology or logical topology that described route and Wavelength assignment algorithm simulation provide according to the user, dynamic service in the optical-fiber network is selected the suitable route and the wavelength of allocation optimized, and this algorithm is assessed;

Described systems organization step comprises: the parameter of the input object of planning; The optical-fiber network implementation of an optimization is provided according to the system parameters of input; From described network element device storehouse, extracts the optical network element of needs, the physical topology figure of generation optical-fiber network according to the network plan of determining;

Described route and Wavelength assignment algorithm simulation steps comprise: for Network distributes route and wavelength; Calculate the blocking probability of this route and Wavelength assignment algorithm;

Described performance simulation step comprises: configuration optical-fiber network physical topology, initialization network element and Link State; Set up emulation priority; According to priority successively to satisfying the network element emulation of simulated conditions; The output simulation result.

According to technique scheme, described atom device is on function the network element device of various complexity in the optical-fiber network to be carried out refinement, a class device of the least work energy unit that draws.

According to technique scheme, described network element device storehouse comprises virtual instrument and network devices, with described virtual instrument on-line monitoring is carried out in the arbitrfary point in the optical-fiber network, and exports with graphics mode and/or data file mode.

According to technique scheme, can utilize the element in the described network element device storehouse to generate grand device arbitrarily as required, can will be somebody's turn to do the grand device of generation as one of element in the network element device storehouse.

According to technique scheme, can do map-area input arbitrary network configuration or call the network diagram that has disposed by described network configuration.

According to technique scheme, make dynamically display simulation process of map-area by described network configuration.

According to technique scheme, data flow is transmitted between network element during to network simulation, and described data flow is determined by the system interface parameter.

According to technique scheme, to network element emulation be at this element by after obtaining interface parameters and structural parameters, the docking port parameter is carried out processed and is realized.

According to technique scheme, described element simulated conditions is: the input link of element has data, output link not to have data and satisfies emulation priority.

According to technique scheme, describedly, Network further comprises: transport layer performance is simulated according to the system parameters of user's input and the route and the wavelength of distribution for distributing route and wavelength.

Such scheme can be changed to: toolbar area provides the performance simulation function of alternative operation, or toolbar area provides planning of alternative operated system and performance simulation function, or toolbar area provides alternative performance simulation, route and Wavelength assignment algorithm analog functuion of operating.

The result that the present invention can make systems organization obtain can directly simulate in the performance simulation part, also can be to traffic assignments route and wavelength, analyze its blocking probability, and the route and the wavelength that distribute partly can be simulated at performance simulation, increased substantially the convenience of using; The present invention can be under the network environment of complexity the transmission performance of simulating wavelength routing algorithm, network each point, can analyze and diagnose the performance of the whole network, therefore, for the research of wavelength division multiplexed optical network provides a low cost and high performance platform.

Description of drawings

Fig. 1 is an information model structure chart of the present invention;

Fig. 2 is an optical-fiber network message transmission structure chart of the present invention;

Fig. 3 is a main flow chart of the present invention;

Fig. 4 is a main surface chart of the present invention;

Fig. 5 is a systems organization flow chart of the present invention;

Fig. 6 is the sub-interface of systems organization of the present invention;

Fig. 7 is systems organization figure as a result;

Fig. 8 is the spectrogram of optical-fiber network point;

Fig. 9 is the eye pattern of optical-fiber network point;

Figure 10 is a performance simulation flow chart of the present invention;

Figure 11 is route of the present invention and Wavelength Assignment flow chart.

Embodiment

The present invention is described in detail below in conjunction with accompanying drawing:

The optical-fiber network information structure model of the present invention's definition

The information model structure is the basis of method for simulating WDM optical network structure, is the framework of analogue system structure.It directly relates to realizability, operation efficiency, upgrading ability and the dilatation ability etc. of system.

In wavelength division multiplexing (WDM) optical transfer network, because the existence of devices such as isolator has been arranged, can regard the data flow of each device of network of flowing through as one-way flow, promptly the data of device input and output of per moment are unidirectional.Like this, device model in the WDM optical transfer network can be described as structure as shown in Figure 1, wherein MII (Model Information Interface) representative model information interface.A represents the input model parameter, and A ' represents output parameter.The intrinsic parameter that C represents physical model self relates to is called structural parameters among the present invention.The process of information processing of model can be expressed as:

(A, C) the system transmissions process can be expressed as structure shown in Figure 2 to A '=f.In the IM model, each model output parameter is the input parameter of next model, so for system model, A '=A.Available same class basic parameter is gathered and is explained the input collection among the MII, and the present invention of this class basic parameter collection is called the interface parameters collection of network information model.The transmission course of signal can be regarded interface parameters as and " flow " between system model and processed process.The model-based notebook data can be divided into two types: interface parameters, structural parameters.The intrinsic parameter that model self relates to is called structural parameters, and different models have different structural parameters.Derive the class parameter that parameter B is meant that the user is concerned about and needs to extract,, monitor parameters such as transmitting signal waveform, eye pattern, power as the dateout that the user utilizes the virtual instrument monitoring model online.It is to be obtained by the interface parameters linear operation.Information interface model, interface parameters, structural parameters have been arranged, can be with the network data flow standard.

The atomic function model of the present invention's definition

Atomic function model of the present invention is all to transmit the network element equipment modeling at wavelength division multiplexed light.The atomic function model is meant that on function the network element device with various complexity in the optical-fiber network carries out refinement, draw the least work energy unit of equipment, atomic function just is meant the set of the least work energy unit that such class is basic, form the atomic function model library of optical-fiber network by it, set up its concatenate rule simultaneously.And the atom device is a class device of realizing atomic function.Arbitrary network element device all is to be made of by certain concatenate rule the atomic function model on function, structurally is made of by certain annexation the atom device.Any network element device in the optical-fiber network all is the interconnection of the subclass of atomic function model library on function.The atomic function model has an enormous advantage, its clear succinct statement the structure of various complex models inside, make model modeling oversimplified.The meaning of using the atomic function model is as follows: make software users can easily understand grand device function structure, operation principle is convenient to software and is used; The user can easily make amendment to the configuration of complex devices parameter; After the atomic function model has been arranged, can add and delete the internal structure of revising device very easily, and need not to revise software, have very strong flexibility; Can utilize any matching function device in atom model storehouse by structure; Can utilize the atomic function model library to various new device modelings, make up model, improve modeling efficiency, make software have stronger upgradability and dilatancy by software users oneself.

The present invention includes digital computer, store the network element device storehouse in computer, the optical network element in the described network element device storehouse is made of by certain concatenate rule one or more atom devices, and described optical network element model is described by information structure model.Comprise virtual instrument in the network element device storehouse, virtual instrument comprises: oscilloscope, spectrometer, eye pattern, Bit Error Rate Analyzer etc.Virtual instrument is used for on-line monitoring is carried out in the arbitrfary point in the optical-fiber network, and the structural parameters of this monitoring point are as the input of virtual instrument, and exports with figure and/or data file mode, with graphics mode output as Fig. 8, shown in Figure 9.Also can utilize the element in the described network element device storehouse to generate arbitrarily grand device simultaneously as required, also can use with convenient with the grand device that should generate as one of element in the network element device storehouse.Can do the configuration of map-area input arbitrary network or call the network diagram that has disposed by described network configuration, and display simulation process dynamically.

With reference to figure 3: step 100 starts this analogue system; Step 110 forms a main interface on computer display, described main interface comprises an optical network configuration at least and makes the toolbar area that map-area 4, can provide menu 5 and instrument 6 to the component interface 7, that the optical network element in the described network element device storehouse is operated, as shown in Figure 4, on menu 2 and instrument 3, provide systems organization, performance simulation, route and Wavelength Assignment analog functuion; If the option that step 120 judge to be selected is for option one then forward step 130 to, if for option 2 then forward step 140 to, if for option one 50 then forward step 150 to; Step 130 is carried out systems organization, and step 140 is carried out performance simulation, and step 150 is carried out route and Wavelength Assignment simulation.

Do the map-area by network configuration and also can import the arbitrary network configuration or call the network diagram that has disposed, when carrying out network analog, the simulation process is done the map-area by network configuration and is dynamically shown.

With reference to figure 4, Fig. 6, Fig. 7: step 200 forms an interface, and the user is by these interface 9 input system parameters; Step 210 is according to the parameter of input, and by the standard scheme 8 that industry standard provides an optical-fiber network to realize, the optical network configuration that is presented at main interface is done the map-area; The scheme that step 220 allows the user that the last step was provided is made amendment on demand, and modification is confirmed; Step 230 is extracted the optical network element that needs by the scheme in last step from the network element device storehouse, by connecting to form the physical topology figure of optical-fiber network; Step 240 this subsystem program operation of end.

With reference to Figure 10: the flow chart among the figure has described the performing step of performance simulation in detail.The optical-fiber network that step 300 pair will be carried out performance simulation is configured; Step 310 initialization network element and Link State comprise: component population in the computing element string, and with element and link parameter zero setting or empty, the element that rejecting needn't emulation; Step 320 need to judge whether initial assignment, if judge it is sure, then execution in step 330, if judge whether fixed then execution in step 350; Step 330 output parameter assignment and state parameter setting; Step 350 is set up the priority of emulation, and each element is equipped with emulation priority, is worth to be 1-5; J element of step 360 emulation element pointed (initial j=0); Step 370 judges whether the emulation element of going up the step satisfies simulated conditions, that is: the input link of element has data, output link not to have data and satisfies emulation priority; If judge to be sure then execution in step 380, if the then execution in step 460 of negating; Step 380 judges whether the emulation element choose is grand device, if judge to be sure then execution in step 390, if judge whether fixed then execution in step 410; Annexation in step 390 input data assignment and the definite grand device; Sub-element in the step 400 call macro device carries out the atom device simulation; Step 410 input data assignment; Step 420 judges whether to create window, if judge to be sure then execution in step 430, if judge whether fixed then execution in step 440; Step 430 is called element emulation and is sent message; Step 440 is called components and parts emulation; Step 450 output parameter assignment and state parameter setting; Step 460 makes the next element of emulation element pointed; Whether step 470 judgment component pointer has arrived element string tail, if judge whether fixed then forward step 360 to continue next element is carried out emulation, is sure then execution in step 480 if judge; Step 480 judges whether all emulation of all priority, if judging whether that fixed then priority adds forwards step 350 to and continue components and parts emulation to inferior priority after 1, is sure then execution in step 490 if judge; Step 490 judges whether to want in addition the element of emulation, if judge and to be sure then to forward step 350 to, otherwise execution in step 500; Step 500 judges whether to circulation emulation or simulation accuracy are not enough, if judge and be sure then forward step 320 to from new emulation, otherwise execution in step 501 finishes emulation.

Figure 11 has described the performing step of route and Wavelength assignment algorithm simulation in detail: step 510 pair network physical topology is configured; Step 515 pair cellular logic topology is configured; Step 520 is carried out function selecting and is judged that distribute route and wavelength if be chosen as specific transactions, then execution in step 525, if calculate route and Wavelength Assignment (RWA) blocking probability then execution in step 530; Step 525 is called route and Wavelength Assignment (RWA) algorithm, is route and the best wavelength of distribution that specific service selection is optimized, and route and ripple bar allocation algorithm can be of the prior art any; Step 535 judges whether to be that this specific transactions distributes route and wavelength, if judge to be sure then execution in step 540, if judge whether fixed then execution in step 545; This business obstruction of step 545 prompting forwards step 590 then to; Step 540 is shown as the road and the wavelength of this traffic assignments; Step 555 judges whether to carry out transport layer performance simulation, if judge to be sure then execution in step 565, if judge whether fixed then execution in step 590; All node structures of step 565 input logic topology; Physical connection relation between step 575 input node; Step 580 performance simulation software generates the physics topological diagram and carries out emulation; Step 590 finishes this time route and Wavelength Assignment; Step 530 determines to call out artificial service sum, professional arrival rate and average service time; The current all business of step 550 traversal judge whether it arrives service time, if judge to be sure then execution in step 560, otherwise forward step 570 to; Step 560 is removed the business that arrives service time; Step 570 produces equally distributed many business of sourcesink node by Poisson distribution; Step 585 calls route and ripple bar allocation algorithm is I bar traffic assignments route and wavelength (initial I=1); Step 595 judges whether to distribute route and wavelength, if judge to be sure then execution in step 600, if judge whether fixed then execution in step 610; Step 600 will be blocked professional sum increase by 1 and be forwarded step 610 then to; Whether many business that step 610 determining step 570 produces have all distributed route and wavelength, if judge whether fixed then take off a business and forward step 585 to, otherwise execution in step 615; Step 615 judges whether total professional number reaches initial requirement, if judge whether fixed then forward step 570 to, is sure then execution in step 620 if judge; Step 620 statistical service blocking probability; Step 625 finishes this calculating.

The above only is the concrete real mode of the best of the present invention, and implementation method of the present invention is not limited thereto, and any change that does not break away from field of the present invention under the spirit of the present invention all should be contained within the scope of the present invention.

Claims (24)

1, a kind of method for simulating WDM optical network, comprise digital computer, described Computer Storage has the network element device storehouse, it is characterized in that the optical network element in the described network element device storehouse is to be made of by certain concatenate rule one or more atom devices, described optical network element model is described by information structure model, and described digital computer is carried out following step:

One main interface is provided at least; Described main interface comprises an optical network configuration at least and makes map-area, component interface, the toolbar area that can operate the optical network element in the described network element device storehouse;

Described toolbar area provides the performance simulation function of alternative operation, and the optical-fiber network that described performance simulation is done the map-area to optical network configuration carries out the dynamic property simulation;

Described performance simulation step comprises: configuration optical-fiber network physical topology, initialization network element and Link State; Set up emulation priority; According to priority successively to satisfying the network element emulation of simulated conditions; The output simulation result.

2, method for simulating WDM optical network according to claim 1 is characterized in that described atom device is on function the network element device of various complexity in the optical-fiber network to be carried out refinement, a class device of the least work energy unit that draws.

3, method for simulating WDM optical network according to claim 1, it is characterized in that described network element device storehouse comprises virtual instrument, with described virtual instrument on-line monitoring is carried out in the arbitrfary point in the optical-fiber network, and export with graphics mode and/or data file mode.

4, method for simulating WDM optical network according to claim 1 is characterized in that utilizing as required the element in the described network element device storehouse to generate grand device arbitrarily, can will be somebody's turn to do the grand device of generation as one of element in the network element device storehouse.

5, method for simulating WDM optical network according to claim 1 is characterized in that: can do map-area input arbitrary network configuration or call the network diagram that has disposed by described network configuration.

6, method for simulating WDM optical network according to claim 1 is characterized in that: make dynamically display simulation process of map-area by described network configuration.

7, method for simulating WDM optical network according to claim 1, data flow is transmitted between network element when it is characterized in that network simulation, and described data flow is determined by the system interface parameter.

8, want 1 or 7 described method for simulating WDM optical network according to right, it is characterized in that network element emulation be at this element by after obtaining interface parameters and structural parameters, the docking port parameter is carried out processed and is realized.

9, method for simulating WDM optical network according to claim 1, it is characterized in that described element simulated conditions is: the input link of element has data, output link not to have data and satisfies emulation priority.

10, method for simulating WDM optical network according to claim 1, it is characterized in that described toolbar area also provides the systems organization function, described systems organization makes to generate in the map-area optical-fiber network topological diagram according to user's the object of planning in described optical network configuration.

11, method for simulating WDM optical network according to claim 10 is characterized in that described systems organization step comprises: the parameter of the input object of planning; The optical-fiber network implementation of an optimization is provided according to the system parameters of input; From described network element device storehouse, extracts the optical network element of needs, the physical topology figure of generation optical-fiber network according to the network plan of determining.

12, method for simulating WDM optical network according to claim 1 is characterized in that described toolbar area also provides route and Wavelength assignment algorithm analog functuion.

13, method for simulating WDM optical network according to claim 12 is characterized in that described route and Wavelength assignment algorithm simulation steps comprise: for Network distributes route and wavelength; Calculate the blocking probability of this route and Wavelength assignment algorithm.

14, method for simulating WDM optical network according to claim 13 is characterized in that describedly further comprising for Network distributes route and wavelength steps: according to the system parameters of user's input and the route and the wavelength of distribution transport layer performance is simulated.

15, a kind of method for simulating WDM optical network, comprise digital computer, described Computer Storage has the network element device storehouse, it is characterized in that the optical network element in the described network element device storehouse is to be made of by certain concatenate rule one or more atom devices, described optical network element model is described by information structure model, and described digital computer is carried out following step:

One main interface is provided at least; Described main interface comprises an optical network configuration at least and makes map-area, component interface, the toolbar area that can operate the optical network element in the described network element device storehouse;

Described toolbar area provides alternative operated system planning, performance simulation, route and Wavelength assignment algorithm analog functuion, described systems organization makes to generate in the map-area optical-fiber network topological diagram according to user's the object of planning in described optical network configuration, the optical-fiber network that described performance simulation is done the map-area to optical network configuration carries out the dynamic property simulation, physical topology or logical topology that described route and Wavelength assignment algorithm simulation provide according to the user, dynamic service in the optical-fiber network is selected the suitable route and the wavelength of allocation optimized, and this algorithm is assessed;

Described systems organization step comprises: the parameter of the input object of planning; The optical-fiber network implementation of an optimization is provided according to the system parameters of input; From described network element device storehouse, extracts the optical network element of needs, the physical topology figure of generation optical-fiber network according to the network plan of determining;

Described route and Wavelength assignment algorithm simulation steps comprise: for Network distributes route and wavelength; Calculate the blocking probability of this route and Wavelength assignment algorithm;

Described performance simulation step comprises: configuration optical-fiber network physical topology, initialization network element and Link State; Set up emulation priority; According to priority successively to satisfying the network element emulation of simulated conditions; The output simulation result.

16, method for simulating WDM optical network according to claim 15 is characterized in that described atom device is on function the network element device of various complexity in the optical-fiber network to be carried out refinement, a class device of the least work energy unit that draws.

17, method for simulating WDM optical network according to claim 15, it is characterized in that described network element device storehouse comprises virtual instrument, with described virtual instrument on-line monitoring is carried out in the arbitrfary point in the optical-fiber network, and export with graphics mode and/or data file mode.

18, method for simulating WDM optical network according to claim 15 is characterized in that utilizing as required the element in the described network element device storehouse to generate grand device arbitrarily, can will be somebody's turn to do the grand device of generation as one of element in the network element device storehouse.

19, method for simulating WDM optical network according to claim 15 is characterized in that: can do map-area input arbitrary network configuration or call the network diagram that has disposed by described network configuration.

20, method for simulating WDM optical network according to claim 15 is characterized in that: make dynamically display simulation process of map-area by described network configuration.

21, method for simulating WDM optical network according to claim 15, data flow is transmitted between network element when it is characterized in that network simulation, and described data flow is determined by the system interface parameter.

22, want 15 or 21 described method for simulating WDM optical network according to right, it is characterized in that network element emulation be at this element by after obtaining interface parameters and structural parameters, the docking port parameter is carried out processed and is realized.

23, method for simulating WDM optical network according to claim 15, it is characterized in that described simulated conditions is: the input link of element has data, output link not to have data and satisfies emulation priority.

24, method for simulating WDM optical network according to claim 15 is characterized in that describedly further comprising for Network distributes route and wavelength: according to the system parameters of user's input and the route and the wavelength of distribution transport layer performance is simulated.

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