KR20000004564A - Routing method for satisfying quality of service by using network management system - Google Patents

Abstract

PURPOSE: A routing method for satisfying quality of service(QoS) is provided to store a network topology and network resources information for providing QoS in a management information base(MIB) and to satisfy QoS more accurately by using the MIB. CONSTITUTION: A network topology to be managed and network resources information for providing QoS are stored in a MIB(40) in network management system(NMS). If the routing requirement for satisfying QoS is transmitted from the network elements, network routes are displayed on the basis of the network topology and network resources information, and a node and a link which are unable to provide a required bandwidth are removed from the displayed network routes. Sequentially, the optimum route is determined by performing the shortest route algorithm with respect to a delay in the network routes which remain after removing the unnecessary node and link. Thereby, the routing determination for satisfying QoS can be effectively achieved by using the information of NMS without adding any device.

Description

Route Determination Method to Satisfy Service Quality Requirements Using Network Management System

The present invention relates to a routing method for satisfying a Quality of Service (QoS) using a network management system (NMS). By managing network topology and network resource information together in the Management Information Base (MIB) for managing management information generated from Network Elements, each network element can be reserved for resources without using separate devices and methods. A route determination method for enabling route determination management.

As the modern society progresses to a highly information society, a high-speed information communication network has emerged, and the demand for multimedia services is explosively increasing.

Therefore, there is a need to develop technologies for providing multimedia services. In order to provide multimedia traffic services in a network, a network operator provides a path that can guarantee QoS required by a user in setting up each call. shall.

In general, in order to provide a multimedia service, a procedure for determining a route at the origin when setting up a call, reserving resources according to the determined route, and transmitting a call setup confirmation signal at a destination is required.

In the conventional routing guaranteeing method, since all network elements must broadcast the resource information necessary for path determination, network resources are wasted unnecessarily, and the amount of information that each network element has to manage Overloading caused an overload of the system. In addition, there is no guarantee that the resource information used for path determination is valid until resource reservation because the information is inaccurate due to transmission delay, and the network element system becomes complicated because each node must include a path determination function module. There was this.

In order to solve the above problems, the present invention, by using a network management system (NMS), the management information base (MIB) for managing the management information generated from the network elements of the network to be managed Include information about the topology and network resources to provide quality of service requirements (QoS), and use them to determine how to reduce the resource usage of network resources and network elements and to determine paths to meet more accurate quality of service requirements. The purpose is to provide.

1 is an exemplary configuration of a network management system (NMS) used in the present invention.

2 is an exemplary diagram of a network management system (NMS) for managing domains and network elements of domains used in the present invention.

3 is a flow diagram of one embodiment of a route determination method according to the present invention;

4 is a detailed flowchart illustrating an embodiment of a method for updating network resource information of FIG. 3 according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: user interface module 20: network management function module

30: management information base access function module 40: management information base (MIB)

50: communication function module

In order to achieve the above object, the present invention provides a network resource information for providing a topology and service quality requirements of a network to be managed in a management information base in a network management system in a path determining method for providing a multimedia service. A first step of storing; When a path determination request for guaranteeing the quality of service requirements is received from the network elements, the network path is displayed based on the topology and network resource information of the network, and nodes or links that do not provide the required bandwidth among the displayed network paths are identified. A second step of removing; And a third step of determining an optimal path by performing a shortest path algorithm with respect to latency on the remaining network path after the node or link that cannot provide the bandwidth is removed.

In addition, after determining the path, the fourth step of updating the network resource information for managing the information necessary for determining the path to ensure the quality of service requirements, stored in the management information database, and transmitting the determined path information to the network element It further includes.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary configuration diagram of a network management system (NMS) used in the present invention.

Network Management System (NMS) is an integrated system configured to control devices for monitoring and controlling the network through a single interface that can be used by the administrator. It manages the entire network as a single unified system.

Each network element is distinguished by an address, and the links connecting the network elements each have a characteristic value. The network management system collects network resource information and state information from each network element and manages network elements in the network.

In general, the network management system performs the functions of performance management, failure management, billing management, congestion control, security control, the structure of such a general network management system is shown in FIG.

The user interface module 10 interfaces a network management system (NMS) with a user.

The network management function module 20 is interconnected with the user interface module 10, and collects and controls information on network elements in the network to be managed through the communication function module 50, and manages the management information in the management information base ( MIB) performs a network management function by managing using the access function module 30.

The management information base (MIB) 40 stores the total amount and current usage state information for all network resources of the domain managed by the network management system (NMS).

Network management system (NMS) as described above may vary depending on the type of management system, but generally manages the topology of the network (topology), the total amount of network resources and the current state of use.

Therefore, the network management system manages network resource information such as topology, bandwidth, delay, etc. necessary for path determination in the management information base 40 to ensure the quality of service (QoS) in the network. Provide decision services.

The path determination method of satisfying the service quality using the network management system as described above is as follows.

Assuming that the QoS requirement required by the user for any link (i, j) connecting the network elements is m ((i, j)), any path consisting of one or more adjacent links (I.e., the QoS condition (m (P (1, k))) required for P (l, k) = {1,2,3,4, ...., k-1, k} This may vary depending on the latency and bandwidth conditions.

If the requirement is expressed as a delay time, the QoS condition m (P (1, k)) is expressed by Equation 1 below.

On the other hand, in the case where the requirement is expressed in bandwidth, the QoS condition m (P (1, k)) is expressed by the following equation (2).

Referring to (Equation 2), it can be easily seen that for any link, if the bandwidth value that the link can provide is not more than the required bandwidth, then that link should not constitute the path to be found.

And, in order to satisfy the delay condition, the path to be obtained should be composed of links having a small delay time, but the delay time of the path can be known only after all links constituting the path are determined.

As described above, the network management system (NMS) manages the domain and the network resource information of the domain in the management information base 40 to provide a path determination service that guarantees the quality of service requirements (QoS) in the network. An example of a network management system (NMS) that manages these domains and their network elements is shown in FIG. 2.

3 is a flowchart illustrating an embodiment of a method for determining a path according to the present invention.

The path determination method according to the preferred embodiment of the present invention provides a network resource for providing a topology and quality of service requirements (QoS) of a network to be managed in data of a management information base 40 of a network management system (NMS). Information about the quality of service requirements.

First, when a path determination request for guaranteeing a quality of service (QoS) request is received from network elements managed by the network management system (NMS) (301), data managed by the management information base 40 (i.e., Based on the total amount of all network resources of the domain and current usage status information), a network including a source and a destination is graphed (302). That is, based on the data of the MIB 40, a topology graph of the management network including the currently available bandwidth and delay time of each node and link is constructed.

Then, all the nodes or links that do not provide the required bandwidth in the configured graph is removed (303).

Next, graphs with all unnecessary nodes or links removed can provide more than the bandwidth required for any possible path, based on these graphs to perform the shortest path algorithm for latency (also called the "Digkstra" algorithm). (304) Determine the requested path from the network elements (305). That is, since the path having the optimal value for the bandwidth can be obtained, the path satisfying the quality of service requirements is determined.

Subsequently, the network resource information is updated and stored in the management information base 40 (306), and the determined path information is transmitted to a network element (that is, a node) requesting a path determining service (307).

Thereafter, the network element requesting the route determination service reserves resources according to the path determined by the network management system (NMS).

If the resource reservation is successful, the network management system provides the service through this path.

On the other hand, if the resource reservation fails, the network resource information managed by the management information base 40 of the network management system can be regarded as inaccurate, so the network element informs the fact to the network management system of the management information base 40. Revise the information and request the route determination service again.

Considering the resource status information of the network as a fixed value that changes only during resource allocation and return, and assuming that all network path decisions are made by the NMS, path decisions for all call establishment are made through the NMS. NMS) has all the resource information in the domain managed by itself, which is changed by new call setup, and can use this again to determine the correct path.

As described above, the path determination method enables the user to know the resource usage status of the domain without relying on broadcast for information diffusion, and the path determination that guarantees QoS can be performed without each network element managing all the resource information of the network. Do. In addition, since the path determination for all call setup is made only in the NMS, the resource information does not degrade in accuracy due to the transmission delay time. The resource information management method by the NMS is independent of the specific path determination method.

4 is a detailed flowchart of an embodiment of the network resource information update method of FIG. 3 according to the present invention, and manages information necessary for determining a path to guarantee a service quality requirement (QoS) using a network management system (NMS). A network resource information update process 306 is shown.

First, it is analyzed whether there is a new path decision performed by the network management system (NMS) (401).

As a result of the analysis, if there is a new path decision, each node and link of the network managed by the management information base 40 to reflect the resource allocation required to provide the quality of service requirements (QoS) required for the new path. The resource information is updated (402).

For example, if there is a path that satisfies the required quality of service (QoS), the network resource information is updated by subtracting the resources necessary to provide the path with the required quality of service (QoS).

As a result of the analysis, if there is no new path determination, it is checked whether a network resource return message is received from any node in the network managed by the network management system (403).

As a result of the check, when the network resource return message is received, the resource information for each node and link of the network managed in the management information database 40 is updated (404), and if the network resource return message is not received, the network management system manages it. In operation 405, it is determined in which node of the network a message indicating a path mismatch by a path determination service is received.

As a result of the determination, when a message indicating a path mismatch is received, the resource information for each node and link of the network being managed is updated to the management information base 40 (404). Go to step 401.

As described above, each network element in the domain entrusts the path decision to the network management system of each corresponding domain when determining a path for establishing a connection. This is because each network management system (NMS) knows the network topology of the domain and the resource usage of all nodes and links.

When network resource information is routed through NMS, feedback when resource reservation fails due to path determination result due to mismatch of resource status information, and resource release sent to NMS when call start node is terminated Since it is updated in the management information base 40 by the information, each network management system has all the current resource usage status information of each link and node in the area.

Accordingly, the path determination method according to the present invention can manage information necessary for path determination to guarantee QoS by the NMS without broadcasting resource information by each network element. Path determination to guarantee QoS is possible by the NMS.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

In the present invention as described above, each network element is included in the management information base (MIB) for managing management information generated from the network elements using a network management system (NMS), including the topology of the network and the network resource information. Enables route decision management that satisfies QoS requirements without using separate devices and methods, and uses user information by using network management system information without adding many functions to network elements. There is an effect that can efficiently perform the path determination to satisfy.

Claims (9)

In the path determination method for providing a multimedia service, A first step of storing network resource information for providing a topology and service quality requirements of a network to be managed in a management information base in the network management system; When a path determination request for guaranteeing the quality of service requirements is received from the network elements, the network path is displayed based on the topology and network resource information of the network, and nodes or links that do not provide the required bandwidth among the displayed network paths are identified. A second step of removing; And The third step of determining the optimal path by performing the shortest path algorithm for latency on the remaining network path after the node or link that cannot provide the bandwidth is removed. Path determination method comprising a. The method of claim 1, A fourth step of updating the network resource information for managing the information necessary for determining the path for guaranteeing the quality of service requirements after storing the path in the management information database and transmitting the determined path information to the network element; Path determination method further comprising a. The method of claim 2, The updating of the network resource information in the fourth step may include: Analyzing whether there is a new path decision by the network management system, if there is a new path decision, it manages the management information base to reflect the resource allocation required to provide the required quality of service (QoS) requirements for the new path. Updating resource information for each node and link in the network; When the network resource return message is received from the node in the network managed by the network management system and the network resource return message is received, the resource information for each node and link of the network managed in the management information database is updated. A sixth step; And It is determined which node of the network managed by the network management system has received a message indicating a path mismatch by a path determination service, and when a message indicating a path mismatch is received, the network managed by the management information database is determined. Seventh step of updating resource information for each node and link Path determination method comprising a. The method of claim 2, A fifth step in which the network element reserves resources according to a path determined by the network management system; Path determination method further comprising a. The method of claim 4, wherein A sixth step of, if the resource reservation of the network element is successful, the network management system providing a multimedia service through the determined path; And If the resource reservation of the network element fails, the network element informs the management information system of inaccuracy of the network resource information, and then corrects the network resource information in the management information system, and then proceeds to the second step. step Path determination method further comprising a. The method according to any one of claims 1 to 5, The second step, An eighth step of receiving a path determination request for guaranteeing a quality of service (QoS) request from the network elements managed by the network management system; A ninth step of displaying the network path including a starting point and a destination based on data managed in the management information base of the network management system; And A tenth step of removing all nodes or links in the displayed network path that do not provide the required bandwidth; Path determination method comprising a. The method of claim 6, The third step, An eleventh step of performing the shortest path algorithm with respect to a delay time for the network path remaining after all nodes or links which do not provide the requested bandwidth are removed; And A twelfth step of determining an optimal path that satisfies a quality of service requirement having an optimal value for the bandwidth requested from the network elements Path determination method comprising a. The method of claim 7, wherein The data managed in the management information base of the ninth step is Path determination method comprising the total amount and current usage status of all network resource information of the domain. The method of claim 8, The route determination method, The route determination method, characterized in that the route determination service provided by the network management system can determine the path that the network elements satisfy the quality of service requirements (QoS) without additional burden.