JP2003258855A - System and method for managing real time communication quality - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce a router load and a network load, to ensure communication quality in real time and to adapt to a large scale network. <P>SOLUTION: Routing information is set so as to uniquely determine a communication path from an originating terminal to a receiving terminal when a network is constructed. The routing information and the resource use situation of each section when the network is constructed are stored in a database 3-1 to be managed. A management server 3 calculates a uniquely determined communication path S from the originating terminal 5 to the receiving terminal 4 on the basis of the routing information in the database 3-1. The resources use situation in the database 3-1 is confirmed with respect to respective sections S1 to S5 of the calculated communication path S, and if free resources that supply needed resources are available in all sections, a communication request is allowed. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a real-time communication quality management system and method for managing communication quality in a network in real time.

[0002]

2. Description of the Related Art When viewing content such as moving images on an IP network, communication with a large capacity and less packet loss is required, and a mechanism for maintaining a certain quality of goods required on the network side is required. As one of the mechanisms for maintaining this communication quality, RSVP by router autonomous control
(Resource Reservation Protocol) adaptive communication quality assurance method, MPLS (Multiple Protocol label Switches) by controlling router by management server
There has been proposed a method for ensuring communication quality that is compatible with RSVP.

[0003]

[Problems to be Solved by the Invention] However, RSV
In the communication quality assurance method that adapts P, there is a problem that the load of the router that manages the path due to the increase in the number of set paths and the increase in the network load due to the control signal used by each router increase. However, there is a problem in that the load on the management server for path route determination processing and path management, and the increase in load due to the path management performed by the router itself, which makes it impossible to ensure real-time response to each communication request It was difficult to apply to various networks.

The present invention has been made in order to solve such a problem, and an object thereof is to reduce the router load and the network load and to secure the communication quality in real time, and to achieve a large scale. It is to provide a real-time signal quality management system and method that can be adapted to a network.

[0005]

In order to achieve such an object, the present invention is provided with a router accommodating a plurality of terminals and a link connecting these routers, and is generated by preset routing information. Provided is a network in which a communication path from a terminal to a destination terminal is uniquely determined, and a management server having management means for managing resource usage status of each section in this network and routing information set in the network. , A communication which, when receiving a communication request from the destination terminal, further calculates a uniquely determined communication path from the source terminal to the destination terminal based on the routing information managed by the management means. The route calculation means and the usage status of the resource managed by the management means for each section in the communication route calculated by the communication route calculation means are confirmed. However, if a free resource that can cover the resource required for the communication request remains in all sections, the communication request is permitted, and even if there is only one free resource that can cover the resource required for the communication request. Communication request determining means for disabling the communication request if not left is provided.

In the present invention, the communication path from the calling terminal to the called terminal is uniquely determined by the routing information set in the network in advance (routing information set when the network is constructed). Further, the management server manages the usage status of resources in each section of the network and the routing information set in the network. Upon receiving the communication request from the destination terminal, the management server calculates a uniquely determined communication path from the source terminal to the destination terminal based on the managed routing information. Then, the usage status of the resources of each section in the calculated communication route is confirmed, and if there are free resources that can cover the resources required for the communication request in all the sections, the communication request is permitted. . If there is no free resource that can cover the resource required for the communication request even in one section, the communication request is not permitted.

That is, according to the present invention, a communication path from the calling terminal to the called terminal, which is uniquely determined, is calculated for each communication request from the called terminal, and each section in the calculated communication path is calculated. The communication request is permitted only when there is a free resource that can cover the resource required for the communication request in all the sections according to the usage status of the resource.
As a result, the occurrence of congestion due to the flow of traffic over resources is avoided and packet loss is suppressed,
Communication quality is secured. Also, when determining the communication route,
Since there is no need to control the router as in the case of applying MPLS or RSVP, the router load and network load are light, and high-speed response to communication requests is possible.
Communication quality can be secured in real time.

[0008] If free resources that can cover the resources required for the communication request are left in all the sections, the resources used in each section managed as the resource usage status are used for the communication request. And add the required resources to make the resource currently used. In this case, when the communication between the authorized receiving terminal and the calling terminal is finished, the addition is made from the currently used resources of each section in the communication path between the called terminal and the calling terminal which are managed. Subtract the resource you made.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described below in detail with reference to the drawings. FIG. 1 is a block diagram of a real-time communication quality management system showing an embodiment of the present invention. In the figure, 1 is an IP network, 2 is a server such as a Web server or AP server, and 3 is a management server.

The IP network 1 includes routers RT1 to RT6 accommodating a plurality of terminals and these routers RT1 to RT
It is provided with links L1 to L8 connecting T6, and routing information [topology information or OSEF (Op (Op
en Shortest Path First) etc. routing policy]
Thus, the communication route from the calling terminal to the called terminal is uniquely determined.

That is, as shown in the figure, the router RT1 is used as a destination edge router, the router RT2 is used as a source edge router, and the routers RT3 to RT6 are used as core routers, and the terminal 4 accommodated in the destination edge router RT1 is used as a destination terminal. When the terminal 5 accommodated in the edge router RT2 is the calling terminal, the communication path from the calling terminal 5 to the called terminal 4 is uniquely determined as shown by the dotted line in the figure.

Further, in this embodiment, the routing information set for the routers RT1 to RT6 when constructing the network is stored as network information (NW information) in the database 3-1 in the management server 3 and managed. I am trying. In addition, the resource usage status of each section in the IP network 1 is stored in the database 3-1 and managed.

In this embodiment, as the resource usage status of each section, total resources (all available resources), used resources (currently used resources), free resources (currently available resources) are used. : Total resources-used resources) are managed.

In addition to the database 3-1, the management server 3 receives a communication request from the destination terminal 4 via the server 2 and returns a communication permission / non-permission to be described later, and a communication request. Communication that is uniquely determined from the calling terminal to the called terminal based on the NW information managed by the database 3-1 with the information of the called terminal included in the communication request accepted by the accepting unit 3-2 as input The communication route calculation unit 3-3 for calculating the route, the communication route calculated by the communication route calculation unit 3-3, and the resources required for the communication request accepted by the communication request acceptance unit 3-2 are input. , A communication request determination unit 3-4 that determines whether communication is permitted or not based on the usage status of resources managed by the database 3-1 and a call-out terminal that is authorized by the communication request determination unit 3-4. With the terminal And a communication monitoring unit 3-5 for monitoring communications between.

The operation of this real-time communication quality management system will be described below, with the functions of the communication request determination unit 3-4 and the communication monitoring unit 3-5 being included. Now, in the IP network 1, the router RT1 serves as a destination edge router, the terminal 4 accommodated in the destination edge router RT1 serves as a destination terminal, and a communication request (for example, a request for viewing content such as video) is issued from the destination terminal 4. Suppose The communication request from the destination terminal 4 is given to the management server 3 via the server 2.

In response to the communication request from the destination terminal 4, I of the destination terminal 4 is sent.
The P address is included. Further, when passing through the server 2, the IP address of the calling terminal 5 which is the source of the requested information and the band required for the transmission of the requested information are added as necessary resources. A communication request including the IP address of the calling and receiving terminal and necessary resources is given to the communication request receiving unit 3-2 of the management server 3. The communication request receiving unit 3-2 sends the IP address of the calling / receiving terminal included in the communication request from the called terminal 4 to the communication route calculation unit 3-3,
The required resource, that is, the band required for the communication request is sent to the communication request determination unit 3-4.

The communication route calculation unit 3-3 is the terminal 4 whose destination terminal is accommodated in the router RT1 based on the IP address of the destination terminal from the communication request reception unit 3-2, and the source terminal is the router R.
It recognizes that it is the terminal 5 accommodated in T2, and based on the NW information managed by the database 3-1 the communication path uniquely determined from the calling terminal 5 to the called terminal 4 (see FIG. 1). The communication path S) indicated by the dotted line is calculated, and the calculated communication path S is sent to the communication request determination unit 3-4.

The communication request judging section 3-4 receives the communication path S from the communication path calculating section 3-3 and the necessary resources from the communication request receiving section 3-2 as inputs, and manages them in the database 3-1. Communication permission / non-permission is determined based on the usage status of resources in the section.

[Judgment of Communication Permission / Non-Permission by Communication Request Judgment Unit 3-4] The judgment of communication permission / non-permission by the communication request judgment unit 3-4 will be described in detail. The communication request determination unit 3-4,
Each section S1 to S1 of the communication path S from the communication path calculation unit 3-3
Regarding S5, the usage status of the resource managed by the database 3-1 is confirmed.

The communication request determination unit 3-4 accepts a communication request when a free resource (free band) that can cover the resource (band) required for the communication request is left in all sections. Send to section 3-2. If there is no free resource that can cover the resource required for the communication request even in one section, the communication request acceptance unit 3-2 indicates that communication is not permitted.
Send to. Note that the communication request determination unit 3-4, when sending the communication permission to the communication request reception unit 3-2, selects the destination terminal as the used resource in the sections S1 to S5 managed by the database 3-1 as the resource use status. The resources required for the communication request from 4 are added to be the currently used resource.

The communication request accepting section 3-2 sends the communication permission / non-permission from the communication request determining section 3-4 to the destination terminal 4 and the calling terminal 5 via the server 2. When the communication request determination unit 3-4 issues a communication disapproval, information is not transmitted from the calling terminal 5 to the called terminal 4. Communication request determination unit 3-4
When the communication permission is issued from, the information is transmitted from the calling terminal 5 to the called terminal 4 via the communication path S uniquely determined in the IP network 1.

Communication between the destination terminal 4 and the source terminal 5 is monitored by the communication monitoring section 3-5. The communication monitoring unit 3-5
When the communication between the destination terminal 4 and the source terminal 5 ends, each section S1 in the communication route S managed by the database 3-1.
~ From the currently used resources of S5, the receiving terminal 4 and the calling terminal 5
The resource added at the start of communication with and is subtracted.

In this embodiment, the router RT1
The operation has been described with the terminal 4 accommodated in the router RT2 as the destination terminal and the terminal 5 accommodated in the router RT2 as the source terminal. However, the terminal accommodated in another router, for example, the router RT3 is the destination terminal, the router RT4. The same operation is performed even when the terminal accommodated in is the calling terminal. In this case, the router RT3 is the destination edge router, the router RT4 is the source edge router, and the routers RT1 and RT2 are the core routers.

In this embodiment, the resource managed by the database 3-1 is the band of each section, but it may be the processing capacity of the router or the link capacity.

[0025]

As is apparent from the above description, according to the present invention, the communication route from the calling terminal to the called terminal that is uniquely determined is calculated for each communication request from the called terminal.
Depending on the calculated resource usage of each section in the communication path, the communication request is permitted only when all the sections have free resources that can cover the resources required for the communication request. As a result, congestion caused by traffic flowing over resources is avoided, packet loss is suppressed, and communication quality is secured. Also,
When deciding the communication path, there is no need to control the router as in the case of applying MPLS or RSVP, so the router load and network load are light, high-speed response to communication requests is possible, and communication quality is secured in real time. You can This enables application to large-scale networks.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a real-time communication quality management system showing an embodiment of the present invention.

[Explanation of symbols]

1 ... IP network, RT1 to RT6 ... Router, L1
-L8 ... Link, 2 ... Server, 3 ... Management server, S ... Communication path, S1-S5 ... Section, 3-1 ... Database, 3
-2 ... Communication request receiving unit, 3--3 ... Communication path calculating unit, 3-
4 ... Communication request determination unit, 3-5 ... Communication monitoring unit, 4 ... Arrival terminal, 5 ... Originating terminal.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Masaru Ichinose             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation (72) Inventor Akira Kurokawa             2-3-1, Otemachi, Chiyoda-ku, Tokyo             Inside Telegraph and Telephone Corporation F term (reference) 5K030 HA08 HD03 KA05 LB05 LC09

Claims (4)

[Claims] 1. A network comprising a router accommodating a plurality of terminals, and a link connecting these routers, wherein a communication route from the calling terminal to the called terminal is uniquely determined by preset routing information. A management server having management means for managing the resource usage status of each section in this network and the routing information set in the network, wherein the management server further receives a communication request from the destination terminal. In this case, based on the routing information managed by the managing means, a communication path calculating means for calculating a uniquely determined communication path from the calling terminal to the called terminal, and the communication path calculating means Check the usage status of the resource managed by the management means for each section in the communication path, and it is necessary for the communication request. The communication request is permitted if a free resource that can cover the resource is left in all sections, and if there is no free resource that can cover the resource required for the communication request even in one section, A real-time communication quality management system, comprising: a communication request determining means for disabling a communication request. 2. A network comprising a router accommodating a plurality of terminals and a link connecting these routers, wherein a communication route from the calling terminal to the called terminal is uniquely determined by preset routing information. A management server having management means for managing the resource usage status of each section in this network and the routing information set in the network, wherein the management server further receives a communication request from the destination terminal. In this case, based on the routing information managed by the managing means, a communication path calculating means for calculating a uniquely determined communication path from the calling terminal to the called terminal, and the communication path calculating means Check the usage status of the resource managed by the management means for each section in the communication path, and it is necessary for the communication request. If a free resource that can cover the resource is left in all the sections, the resource used in each section managed by the management unit as the resource usage status is a resource required for the communication request. Is added as the currently used resource, the communication request is permitted, and the available resource that can cover the resource required for the communication request is 1
If the communication request determination means for disallowing the communication request is not left even in the section and the communication between the called terminal and the calling terminal permitted by the communication request determination means is completed, the management means manages And a means for subtracting the added resource from the currently used resource of each section in the communication path between the called terminal and the calling terminal, the real-time communication quality management system. 3. A network comprising a router accommodating a plurality of terminals and a link connecting these routers, wherein a communication route from a calling terminal to a called terminal is uniquely determined by preset routing information. A real-time communication quality management method applied, comprising: a first step of managing resource usage status of each section in the network and the routing information set in the network; and a case of receiving a communication request from a destination terminal. A second step of calculating a communication path uniquely determined from the calling terminal to the called terminal based on the routing information managed in the first step, and within the communication path calculated by the second step Check the usage status of the resources managed in the first step for each section of If a free resource that can cover the resource required for the request is left in all sections, the communication request is permitted, and even one section remains that can cover the resource required for the communication request. If not, a third step of disapproving the communication request is provided, and a real-time communication quality control method is provided. 4. A network comprising a router accommodating a plurality of terminals and a link connecting these routers, wherein a communication route from a calling terminal to a called terminal is uniquely determined by preset routing information. A real-time communication quality management method applied, comprising: a first step of managing resource usage status of each section in the network and the routing information set in the network; and a case of receiving a communication request from a destination terminal. A second step of calculating a communication path uniquely determined from the calling terminal to the called terminal based on the routing information managed in the first step, and within the communication path calculated by the second step Check the usage status of the resources managed in the first step for each section of If a free resource that can cover the resource required for the request is left in all the sections, the use resource of each section managed as the resource usage status in the first step is used for the communication request. Required resources are added to obtain the currently used resources, the communication request is permitted, and if there is no free source left to cover the resources required for the communication request, the communication is performed. A third step of disallowing the request, and when the communication between the destination terminal and the source terminal permitted by the third step is completed, the destination terminal and the source terminal managed in the first step A fourth step of subtracting the added resource from the currently used resource of each section in the communication path between Quality control method.