BR112020000918A2 - multilayered shortest route path discovery method and system between the final source network element and the final destination network element. - Google Patents

Abstract

A method and a path discovery system for multiple layers of shorter routes between a source network element and a destination network element are described in relation to the technical field of telecommunication transmission network management. The method comprises the steps of: S1: determining an output port and an input port of each network element through which the outermost path passes, where the source network element is an initial network element, and the final target network element is a final network element; S2: determining an initial network element and an final network element of each path layer according to each network element through which the outermost path passes; and S3: forming the shortest route of the path layer according to the initial network element and the final network element of each path layer, and the input and output port of each network element through which the path layer passes. According to the present invention, the path discovery method for the shortest route of each path layer can be unified and thus the completeness of the shortest path between the source network element and the destination network element can be guaranteed, user requirements are completely satisfied, and the method is suitable for popularization.

Description

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ROUTE PATH DISCOVERY METHOD AND SYSTEM SHORTEST MULTILAYER AMONG THE NETWORK ELEMENT

FINAL OF ORIGIN AND THE FINAL NETWORK ELEMENT OF DESTINATION Technical Field

[001] The present invention relates to the technical field of management of the telecommunication transmission network, in particular, to a method and system of finding the path of the shortest multilayer route between a final network element of origin and an element final destination network. Fundamentals of the Invention

[002] In the process of managing telecommunication services, it is necessary to find the shortest path from the final source network element to the final destination network element to forward the message. Since there will be multiple intermediate network elements that are responsible for handling different services (the routes between network elements that handle the same service are continuous) on the shortest path from the final source network element to the final destination network element, the shortest path from the final source network element to the final destination network element will be divided into multiple layers of paths from the inside out according to the type of service (each layer corresponds to a type of service), and each path layer will traverse all network elements responsible for handling the service of that layer. The starting and ending network elements for each path layer are different. The starting and ending network elements of the outermost path are exactly the final source network element and the final destination network element, while the beginning and end of other layers of paths are all in the network element intermediate.

[003] As shown in figure 1, taking the Optical Transport Network (OTN) as an example in telecommunication services,

2/19 services under OTN include Optical Channel (OCH), Optical Multiplexing Section (OMS) and Optical Transport Section (OTS), that is, the shortest path from the final source network element to the final network element OTN target layer comprises three layers of paths, that is, the innermost layer of OTS, the middle layer of WHO and the outermost layer of OCH.

[004] Each path layer comprises the shortest route of that layer (the route in each network element, and the route between the adjacent network elements of that layer), the route in the network element comprises a gateway of the network element. network, an output port of the network element, and a series of optical fibers and ports for the connection between the input port and the output port on the network element, and the route between the network elements comprises a link for the connection of adjacent network elements, and a port for the connection of this link (an output port of a network element, and the input ports of adjacent network elements).

[005] The existing method for discovering the shortest path from the originating final network element to the final destination network element of this telecommunication service is, in general, as follows: discover the shortest route of each layer under the telecommunication service first and then form the shortest path route from the final source network element to the final destination network element according to the shortest route for each layer. However, the existing method for discovering the shortest path from the originating final network element to the final destination network element of the telecommunication service has the following defects.

[006] During the discovery of the shortest path of each layer, the aforementioned method is used respectively for the discovery of the shortest route of each layer according to the types of service of different layers, so that the methods for the discovery of the shortest path of each layer are different. When different types of services occur, the method of finding the path to the shortest route for the layer of this type of service needs to be added. So, the method

3/19 above can exactly be applied to the shortest path in the specified layer, which is of poor universality and difficult to extend, also, failure to find the shortest path in each layer will lead to the incomplete shortest path of the final network element from source to the final destination network element.

[007] Meanwhile, with the increase in service layers, users need to understand the nested relationship between the layers of paths on the final shortest path from the final source network element to the final destination network element. However, using the aforementioned method for discovering the shortest path for each layer will lead to the relative independence of each path layer, so the nested relationship between the path layers cannot be displayed in the final shortest path of the final network element. from source to the final destination network element, and there will be duplicate routes from each path layer (for example, network element 2 is both the starting point of the middle layer and the outermost network element, so the routes duplicates of two network elements 2 will be displayed in the shortest path). Thus, it is difficult for the aforementioned method to satisfy users' needs. Summary of the Invention

[008] In view of the defects existing in the prior art, the technical problem to be solved by the present invention is: how to unify the path discovery method of the shortest route of each layer of path. The present invention can guarantee the integrity of the shortest path from the final source network element to the final destination network element, and completely satisfy the needs of users, which is suitable for promotion.

[009] In order to achieve the purposes set out above, the method of discovering the path of the shortest multilayer route between the final source network element and the final destination network element provided by the present invention comprises the following steps:

4/19 S1: determining an output port and an input port of each network element through which the outermost path passes, the original source network element is an initial network element, and the final network element of destination is a final network element; and switch to S2; S2: determine an initial network element and an end network element of each path layer according to each network element through which the outermost path passes, and change to S3; and S3: form the shortest route of that path layer according to the initial network element and the final network element of each path layer, as well as the entrance and exit port of each network element through the which this path layer passes through.

[0010] Based on the exposed technical solution, after S3, it also comprises the following step: S4: nesting the shortest route of each path layer formed in S3 to form the shortest route of the final network element route from source to the final destination network element.

[0011] Based on the exposed technical solution, the process of S1 comprises: S101: discover all the output ports corresponding to the input ports of the initial network element, and change to S102; S102: use the shortest path algorithm to select an output port from all output ports as the output port of the final source network element; determine the network element connected to the output port of the originating final network element, take the port connected to the current network element and the final originating network element as the input port of the current network element, and change to S103 ; S103: judge whether the current network element is the final destination network element; if applicable, change to S104; if not, switch to S101 after taking an intermediate network element as the initial network element; and S104: determine an output port corresponding to the

5/19 entry of the final destination network element.

[0012] Based on the exposed technical solution, an initial port of this path layer exists in the initial network element of each path layer in S2, and the final port of that path layer exists in the final network element of each path layer .

[0013] Based on the exposed technical solution, the S3 process comprises: S301: taking the innermost path as the current path, and changing to S302; S302: determining a route on each network element through which the current path passes, the route on the network element comprises an input port of the network element, an output port of the network element, and optical fibers required for connection between the input port of the network element and the output port of the network element; determining a route between the adjacent network elements in the current path, the route between the network elements comprises the connection ports of the adjacent network elements, and a link between the connection ports; and switch to S303; S303: judge whether the current path is the most external path; if applicable, change to S306; if not, change to S304; S304: determining a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the initial network element of the outer layer of the path adjacent to the current path and a route in the final network element of the outer layer of the path adjacent to the current path; determine a route between the connection network elements of the outer layer of the path adjacent to the current path, the route between the connection network elements comprises a route between the initial network element of the current path and the initial network element of the external layer the path adjacent to the current path; the route between the connecting network element also comprises a route between the final network element of the current path and the final network element of the outer layer of the adjacent path

6/19 to the current path; and switch to S305; S305: form the shortest route on the current path according to the route on each network element through which the current path passes, the route between adjacent network elements on the current path, the route on the layer network elements outer path adjacent to the current path, and the route between the network elements connecting the outer layer of the path adjacent to the current path, and change to S303 after taking the outer layer of the path adjacent to the current path as the current path again; and S306: form the shortest route on the current path according to the route on each network element through which the current path passes and the route between adjacent network elements on the current path.

[0014] A multi-layer shortest path discovery system between a final source network element and a final destination network element provided by the present invention comprises a path discovery module of the path network element, a module determining the initial-final network element of the path and a junction module for the shortest route path; the path discovery module of the path network element is configured to determine an output port and an input port of each network element through which the outermost path passes, the final source network element is an initial network, and the final target network element is an end network element; and sending an initial-final path element determination signal to the initial-final path element determination module; the initial-final network element determination module of the path is configured to determine the initial network element and the final network element of each path layer according to each network element through which the outermost path passes after receive the signal determining the initial-final network element of the path, and send a junction signal from the shortest route path to the

7/19 junction of the shortest route; and the junction module of the shortest route path is configured to form the shortest route for that path layer according to the initial network element and the final network element of each path layer, the gateway and the gateway output of each network element through which this path layer passes after receiving the junction signal of the shortest route path.

[0015] Based on the technical solution set out above, the system also comprises a shortest path nesting module, which is configured to nest the shortest route of each path layer formed by the junction module of the shortest path path to form the shortest route path from the final source network element to the final destination network element.

[0016] Based on the exposed technical solution, the working process of the path discovery module of the path network element comprises: a path discovery module of the path network element 01: discovering all the output ports corresponding to the entry ports of the initial network element, and enter the process of a path discovery module of the path network element 02; a path discovery module of the path network element 02: use the shortest path algorithm to select an output port from all output ports as the output port of the final source network element; determine the network element connected to the output port of the final source network element, take the port connected to the current network element and the final source network element as the input port of the current network element, and enter the process a path discovery module of the path network element 03; a path discovery module of the path 03 network element: judging whether the current network element is the final destination network element; if applicable, enter the process of a discovery module

8/19 path network element path 04; if not, enter the path discovery module of the path network element 01 after taking the intermediate network element as the initial network element; and a path discovery module of the path network element 04: determining the output port corresponding to the input port of the final destination network element.

[0017] Based on the exposed technical solution, an initial port of this path layer exists in the initial network element of each path layer in the initial-final network element determination module of the path, and the final port of that path layer exists in the final network element of each path layer.

[0018] Based on the exposed technical solution, the shortest route junction module process comprises: a shortest route junction module 01: take the innermost path as the current path, and enter the process a junction module of the shortest path route 02; a junction module of the shortest route path 02: determining a route in each network element through which the current path passes, the route in the network element comprises an input port of the network element, an output port of the element network, and optical fibers necessary for the connection between the input port of the network element and the output port of the network element; determining a route between the adjacent network elements in the current path, the route between the network elements comprises the connection ports of the adjacent network elements, and a link between the connection ports; and entering the process of a junction module of the shortest path path 03; a junction module of the shortest path path 03: judge whether the current path is the most external path; if applicable, enter a junction module for the shortest route path 06; if not, enter a junction module for the shortest route path 04;

9/19 a junction module of the shortest route path 04: determining a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the starting network element the outer layer of the path adjacent to the current path and a route in the final network element of the outer layer of the path adjacent to the current path; determine a route between the connection network elements of the outer layer of the path adjacent to the current path, the route between the connection network elements comprises a route between the initial network element of the current path and the initial network element of the external layer the path adjacent to the current path; the route between the connecting network element also comprises a route between the final network element of the current path and the final network element of the outer layer of the path adjacent to the current path; and entering the process of a junction module of the shortest path path 05; a junction module of the shortest route path 05: form the shortest route of the current path according to the route in each network element through which the current path passes, the route between adjacent network elements in the current path, the route in the connection network elements of the outer layer of the path adjacent to the current path, and the route between the connection network elements of the outer layer of the path adjacent to the current path, and enter the process of a route junction module plus path short 03 after taking the outer layer of the path adjacent to the current path as the current path again; and a junction module of the shortest route path 06: form the shortest route of the current path according to the route in each network element through which the current path passes and the route between adjacent network elements in the current path .

[0019] Compared with the prior art, the present invention has the advantages as set out below.

[0020] As shown in S1 through S3 in the present invention, the present invention unifies the path discovery method of the most route

10/19 short for each path layer, to significantly improve universality and facilitate expansion. In addition, the present invention makes the shortest route of each path layer related to one another during path discovery. In the event of short path discovery failure in one path layer, it will cause short path discovery failure in all layers. So, during path discovery of the shortest route in a path layer, there will be only two cases of simultaneous success and failure, thus avoiding the situation where the shortest path from the final source network element to the network element destination end in the prior art is not complete.

[0021] Based on this, as shown in S4 in the present invention, the present invention can nest the shortest routes of all layers of paths to form a route with the shortest path from the final network element of origin to the element final destination network, which not only shows the display of nested relationship between the layers of paths, but also shows that the nested route structure does not have duplicate routes that exist in the prior art in all layers of paths, so the same completely meets the needs of users and is suitable for promotion. Brief Description of Drawings

[0022] Figure 1 shows a schematic diagram of the OTN path layer; Figure 2 shows a flow chart of the method of discovering the path of the shortest multilayer route between the final network element of origin and the final network element of destination in the embodiment of the present invention; figure 3 shows a specific flow chart of S1 in the embodiment of the present invention; figure 4 shows a specific flow chart of S3 in the embodiment of the present invention; and

11/19 figure 5 shows a structural diagram of the nested route structure of OTN in the embodiment of the present invention. Detailed Description of the Modalities

[0023] The present invention will be further described in detail below in relation to the drawings in combination with the modalities.

[0024] The method of finding the path of the shortest multilayer route between the final source network element and the final destination network element in the mode of the present invention is characterized by obtaining the following information first, at the same time that it is used to discover the shortest path from the final source network element to the final OTN destination network element:

1. Final source network element, final destination network element, and layer types from the shortest path from the final source network element to the final destination network element;

2. The internal and external relationship of each path layer; and

3. The starting port and the ending port for each path layer.

[0025] As shown in figure 1, the types of OTN layer are as follows: the innermost OCH path: the beginning of this path layer is the network element of the OCH port with optical multiplexing card and the end is the network element of the OCH port with optical demultiplexing card; the middle layer of the OMS path: the beginning of this path layer is the network element of the OMS port with optical multiplexing card and the end is the network element of the OMS port with optical demultiplexing card; and the outermost OTS path: the beginning of this path layer is the network element (final network element of origin) of the gateway with optical amplifier card and the end is the network element (final network element of destination) output port with amplifier board

12/19 optics.

[0026] Based on this, the method of discovering the path of the shortest multilayer route between the final source network element and the final destination network element in the mode of the present invention comprises the following steps: S1: as shown in figure 2, determining an output port and an input port of each network element through which the outermost path passes; as shown in figure 1, each network element through which the outermost path (OCH layer) passes comprises the final source network element (network element 1), the final destination network element (network element 7 ), and several intermediate network elements (network elements 2 ~ 6) between the final source network element and the final destination network element; the final source network element is the initial network element, the source port of the final source network element is exactly the gateway, and the final destination network element is the final network element; and switch to S2.

[0027] As shown in figure 1 and figure 3, the specific process of S1 is as follows: S101: use the first depth algorithm to discover all the output ports corresponding to the input ports of the initial network element, and switch to S102; S102: use the shortest path algorithm (in this modality, it is a Dijkstra algorithm, proposed by the Dutch computer scientist Dijkstra) to select an output port from all the output ports as the output port of the element of final network of origin; determine the network element (network element 2) connected to the output port of the final source network element, take the port connected to the current network element and the final source network element as the input port of the current network element network, and switch to S103; S103: judge whether the current network element is the final destination network element; if applicable, change to S104; if not, switch to S101

13/19 to continue the discovery of the next network element after taking an intermediate network element as the initial network element; S104: use the first depth algorithm to determine the output port (destination port) corresponding to the input terminal of the final target network element (network element 7), this output port is exactly the end in the network element end of destination, end S1, and change to S2; S2: as shown in figure 2, determine the initial network element and the final network element of each path layer according to each network element through which the outermost path passes, the initial port of that path layer exists in the initial network element of each path layer, and the final port of that path layer exists in the final network element of each path layer. As shown in figure 1, the beginning of the outermost path (OCH layer) is located on network element 1, the end is located on network element 7; the beginning of the middle layer of the path (OMS layer) is located in network element 2, the end is located in network element 6; the beginning of the innermost path (OTS layer) is located on network element 3, and the end is located on network element 5, change to S3; S3: as shown in figure 2, form the shortest route of that path layer according to the initial network element and the final network element of each path layer, as well as the entrance and exit ports of each network element through which this path layer passes, and change to S4.

[0028] As shown in figure 4, the specific process of S3 is as follows: S301: take the innermost path as the current path, and change to S302; S302: use the first depth algorithm to determine a route on each network element through which the current path passes, the route on the network element comprises an entry port

14/19 of the network element, an output port of the network element, and optical fibers and ports necessary for the connection between the input port of the network element and the output port of the network element.

Using the shortest path algorithm to determine the route between adjacent network elements in the current path, the route between network elements comprises the connection ports of the adjacent network elements, a link between the connection ports and corresponding ports; as shown in figure 5, when the current path is the OTS layer, this path layer passes through each network element from network element 3 to network element 5. Take network element 3 and network element 4 as examples, the route between the network element 3 and the network element 4 comprises the output port of the network element 3, the input port of the network element 4, the link between the output port of the network element 3 and the input port of the network element 4, and the intermediate port; and switch to S303; S303: judge whether the current path is the most external path; if applicable, change to S306; if not, change to S304; S304: using the first depth algorithm to determine a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the starting network element of the outer layer of the adjacent path the current path and a route in the final network element of the outer layer of the path adjacent to the current path; use the shortest path algorithm to determine a route between the connecting network elements of the outer layer of the path adjacent to the current path, the route between connecting network elements comprises a route between the starting network element of the current path and the initial network element of the outer layer of the path adjacent to the current path, and a route between the final network element of the current path and the final network element of the outer layer of the path adjacent to the current path.

As shown in figure 5, when the current path is the OTS layer, the initial network element of that layer is network element 3 and the final network element is the

15/19 network 5; the outer layer of the path adjacent to the OTS layer is the OMS layer, the initial network element of that layer is network element 2 and the final network element is network element 6; and switch to S305; S305: form the shortest route of the current path by the junction according to the route in each network element through which the current path passes, the route between the adjacent network elements in the current path, the route in the connecting network elements the outer layer of the path adjacent to the current path, and the route between the connecting network elements of the outer layer of the path adjacent to the current path, and switch to S303 to continue discovering the shortest route after taking the outer layer of the path adjacent to the current path as the current path again, and; S306: form the shortest route of the current path by the junction according to the route in each network element through which the current path passes and the route between adjacent network elements in the current path, end S3, and change to S4; S4: as shown in figure 2, nest the shortest route of each path layer formed in S3 to form the shortest route of the route from the final source network element to the final destination network element. As shown in figure 5, three layers of nested route structure are formed in the embodiment of the present invention, the OMS layer of the path is taken as a route item in the OCH layer of the path, and the OTS layer of the path is taken as a route item in the path's OMS layer.

[0029] A path finding system of the shortest multilayer route between a final source network element and a final destination network element in the embodiment of the present invention comprises a path discovery module of the path network element, a determination module of the initial-final network element of the path, a junction module of the shortest path route and a nesting module of the shortest path.

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[0030] The path discovery module of the path network element is configured to determine an output port and an input port of each network element through which the outermost path passes, the final source network element is an initial network element, and the final destination network element is an end network element; and sending an initial-final path element determination signal to the initial-final path element determination module.

[0031] The working process of the path network element path discovery module comprises: a path network element path discovery module 01: discover all the output ports corresponding to the network element input ports initial, and enter the process of a path discovery module of the path network element 02; a path discovery module of the path network element 02: use the shortest path algorithm to select an output port from all output ports as the output port of the final source network element; determine the network element connected to the output port of the final source network element, take the port connected to the current network element and the final source network element as the input port of the current network element, and enter the process a path discovery module of the path network element 03; a path discovery module of the path 03 network element: judging whether the current network element is the final destination network element; if applicable, enter a path discovery module for the path network element 04; if not, enter the path discovery module of the path network element 01 after taking the intermediate network element as the initial network element; and a path discovery module of the path network element 04: determining the output port corresponding to the input port of the final destination network element.

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[0032] The initial-final network element determination module of the path is configured to determine the initial network element and the final network element of each path layer according to each network element through which the outermost path passes after receiving the signal of determining the initial-final network element of the path, and sending a junction signal from the shortest route path to the junction module of the shortest route path; an initial port of that path layer exists in the initial network element of each path layer in the initial-final network element determination module of the path, and the final port of that path layer exists in the final network element of each path layer. way.

[0033] The junction module of the shortest route path is configured to form the shortest route of that path layer according to the initial network element and the final network element of each path layer, the entrance port and the exit port of each network element through which this path layer passes after receiving the junction signal of the shortest route path.

[0034] The shortest route junction module process comprises: a shortest route junction module 01: take the innermost path as the current path, and enter the process of a route junction module shortest path 02; a junction module of the shortest route path 02: determining a route in each network element through which the current path passes, the route in the network element comprises an input port of the network element, an output port of the element network, and optical fibers necessary for the connection between the input port of the network element and the output port of the network element; determining a route between the adjacent network elements in the current path, the route between the network elements comprises the connection ports of the adjacent network elements, and a link between the connection ports; and enter the process of a module

18/19 junction of the shortest route of path 03; a junction module of the shortest path path 03: judge whether the current path is the most external path; if applicable, enter a junction module for the shortest route path 06; if not, enter a junction module for the shortest route path 04; a junction module of the shortest route path 04: determining a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the starting network element of the outer layer the path adjacent to the current path and a route in the final network element of the outer layer of the path adjacent to the current path; determine a route between the connection network elements of the outer layer of the path adjacent to the current path, the route between the connection network elements comprises a route between the initial network element of the current path and the initial network element of the external layer the path adjacent to the current path; the route between the connecting network element also comprises a route between the final network element of the current path and the final network element of the outer layer of the path adjacent to the current path; and entering the process of a junction module of the shortest path path 05; a junction module of the shortest route path 05: form the shortest route of the current path according to the route in each network element through which the current path passes, the route between adjacent network elements in the current path, the route in the connection network elements of the outer layer of the path adjacent to the current path, and the route between the connection network elements of the outer layer of the path adjacent to the current path, and enter the process of a route junction module plus path short 03 after taking the outer layer of the path adjacent to the current path as the current path again; and a junction module of the shortest route path 06: form the shortest route of the current path according to the route in each network element through which the current path passes and the route between the

19/19 adjacent network elements in the current path.

[0035] The shortest path nesting module is configured to nest the shortest route for each path layer formed by the shortest path junction module to form the shortest route path of the final source network element to the final target network element.

[0036] It is important to note that the system provided by the modality of the present invention is illustrated only by the division of the aforementioned functional modules during the communication between the modules. In practical application, the functions mentioned above can be assigned by different function modules according to needs, that is, the internal structure of the system can be divided into different functional modules to complete all or part of the functions described above.

[0037] Additionally, the present invention is not limited to the aforementioned modalities. Ordinary technical personnel in the technical field can also make some improvements and polishes under the premise of not departing from the principle of the present invention, and these improvements and polishes should be included in the scope of protection of the present invention. The contents not described in detail in the Descriptive Report belong to the prior public technique known to professionals versed in the technique.

Claims (10)

1. Method of discovering the path of the shortest multilayered route between a final source network element and a final destination network element, characterized by the fact that the method comprises the following steps: S1: determining an exit port and a gateway of each network element through which the outermost path passes, the final source network element is an initial network element, and the final destination network element is an end network element; and switch to S2; S2: determine an initial network element and an end network element of each path layer according to each network element through which the outermost path passes, and change to S3; and S3: form the shortest route of that path layer according to the initial network element and the final network element of each path layer, as well as the entrance and exit port of each network element through the which this path layer passes through. 2. Method of discovering the path of the shortest multilayered route between the final source network element and the final destination network element according to claim 1, characterized by the fact that after S3, it also comprises the following step: S4: nest the shortest route of each path layer formed in S3 to form the shortest route of the route from the final source network element to the final destination network element. 3. Path discovery method of the shortest multilayered route between the final source network element and the final destination network element according to claim 1 or 2, characterized by the fact that the S1 process comprises: S101: discover all the output ports corresponding to the input ports of the initial network element, and change to S102; S102: use the shortest path algorithm to select an output port from all output ports as the output port of the final source network element; determine the network element connected to the output port of the originating final network element, take the port connected to the current network element and the final originating network element as the input port of the current network element, and change to S103 ; S103: judge whether the current network element is the final destination network element; if applicable, change to S104; if not, switch to S101 after taking an intermediate network element as the initial network element; and S104: determining an output port corresponding to the input port of the final destination network element. 4. Path discovery method of the shortest multilayer route between the final source network element and the final destination network element according to claim 1 or 2, characterized by the fact that an initial port of this path layer exists in the initial network element of each path layer in S2, and the final port of that path layer exists in the final network element of each path layer. 5. Path discovery method of the shortest multilayered route between the final source network element and the final destination network element, according to claim 1 or 2, characterized by the fact that the S3 process comprises: S301 : take the innermost path as the current path, and change to S302; S302: determining a route on each network element through which the current path passes, the route on the network element comprises an input port of the network element, an output port of the network element, and optical fibers required for connection between the input port of the network element and the output port of the network element; determining a route between the adjacent network elements in the current path, the route between the network elements comprises the connection ports of the adjacent network elements, and a link between the connection ports; and switch to S303; S303: judge whether the current path is the most external path; if applicable, change to S306; if not, change to S304; S304: determining a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the initial network element of the outer layer of the path adjacent to the current path and a route in the final network element of the outer layer of the path adjacent to the current path; determine a route between the connection network elements of the outer layer of the path adjacent to the current path, the route between the connection network elements comprises a route between the initial network element of the current path and the initial network element of the external layer the path adjacent to the current path; the route between the connecting network element also comprises a route between the final network element of the current path and the final network element of the outer layer of the path adjacent to the current path; and switch to S305; S305: form the shortest route on the current path according to the route on each network element through which the current path passes, the route between adjacent network elements on the current path, the route on the layer network elements outer path adjacent to the current path, and the route between the network elements connecting the outer layer of the path adjacent to the current path, and change to S303 after taking the outer layer of the path adjacent to the current path as the current path again; and S306: form the shortest route on the current path according to the route on each network element through which the current path passes and the route between adjacent network elements on the current path. 6. Path finding system of the shortest multilayered route between a final source network element and a final destination network element, characterized by the fact that the system comprises a path discovery module of the path network element, a module for determining the initial-final network element of the path and a junction module for the shortest route path; the path discovery module of the path network element is configured to determine an output port and an input port of each network element through which the outermost path passes, the final source network element is an initial network, and the final target network element is an end network element; and sending an initial-final path element determination signal to the initial-final path element determination module; the initial-final network element determination module of the path is configured to determine the initial network element and the final network element of each path layer according to each network element through which the outermost path passes after receiving the signal determining the initial-final network element of the path, and sending a junction signal from the shortest route route to the junction module of the shortest route route; and the junction module of the shortest route path is configured to form the shortest route for that path layer according to the initial network element and the final network element of each path layer, the gateway and the gateway output of each network element through which this path layer passes after receiving the junction signal of the shortest route path. 7. Path finding system of the shortest multilayered route between the final source network element and the final destination network element according to claim 6, characterized in that the system also comprises a path nesting module shortest, which is configured to nest the shortest route of each path layer formed by the junction module of the shortest route path to form the shortest route of the route from the originating final network element to the final network element of destiny. 8. Path discovery system of the shortest multilayered route between the final source network element and the final destination network element according to claim 6 or 7, characterized by the fact that the work process of the discovery module path network element path path comprises: a path network element path discovery module 01: discover all output ports corresponding to the input ports of the initial network element, and enter the process of a discovery module path element network path 02; a path discovery module of the path network element 02: use the shortest path algorithm to select an output port from all output ports as the output port of the final source network element; determine the network element connected to the output port of the final source network element, take the port connected to the current network element and the final source network element as the input port of the current network element, and enter the process a path discovery module of the path network element 03; a path discovery module of the path 03 network element: judging whether the current network element is the final destination network element; if applicable, enter a path discovery module for the path network element 04; if not, enter the path discovery module of the path network element 01 after taking the intermediate network element as the initial network element; and a path discovery module of the path network element 04: determining the output port corresponding to the input port of the final destination network element. 9. Path discovery system of the shortest multilayered route between the final source network element and the final destination network element according to claim 6 or 7, characterized by the fact that an initial port of this path layer exists in the initial network element of each path layer in the determination module of the initial-final network element of the path, and the final port of that path layer exists in the final network element of each path layer. 10. Path finding system of the shortest multilayer route between the final source network element and the final destination network element according to claim 6 or 7, characterized by the fact that the route junction module process shortest path comprises: a junction module of the shortest route path 01: take the innermost path as the current path, and enter the process of a junction module of the shortest route path 02; a junction module of the shortest route path 02: determining a route in each network element through which the current path passes, the route in the network element comprises an input port of the network element, an output port of the element network, and optical fibers necessary for the connection between the input port of the network element and the output port of the network element; determining a route between the adjacent network elements in the current path, the route between the network elements comprises the connection ports of the adjacent network elements, and a link between the connection ports; and entering the process of a junction module of the shortest path path 03; a junction module of the shortest path path 03: judge whether the current path is the most external path; if applicable, enter a junction module for the shortest route path 06; if not, enter a junction module for the shortest route path 04; a junction module of the shortest route path 04: determining a route in the connecting network elements of the outer layer of the path adjacent to the current path, the route in the connecting network element comprises a route in the starting network element of the outer layer the path adjacent to the current path and a route in the final network element of the outer layer of the path adjacent to the current path; determine a route between the connection network elements of the outer layer of the path adjacent to the current path, the route between the connection network elements comprises a route between the initial network element of the current path and the initial network element of the external layer the path adjacent to the current path; the route between the connecting network element also comprises a route between the final network element of the current path and the final network element of the outer layer of the path adjacent to the current path; and entering the process of a junction module of the shortest path path 05; a junction module of the shortest route path 05: form the shortest route of the current path according to the route in each network element through which the current path passes, the route between adjacent network elements in the current path, the route in the connection network elements of the outer layer of the path adjacent to the current path, and the route between the connection network elements of the outer layer of the path adjacent to the current path, and enter the process of a route junction module plus path short 03 after taking the outer layer of the path adjacent to the current path as the current path again; and a junction module of the shortest route path 06: form the shortest route of the current path according to the route in each network element through which the current path passes and the route between adjacent network elements in the current path .