KR20070084977A - System and method for processing call in diffserv based centralized controlled network - Google Patents

Abstract

A call processing system in a centralized control-type transmission network and a method thereof are provided to use a shared bandwidth having a low resource usage rate if traffic is concentrated on a particular service class, thereby increasing overall bandwidth efficiency. A centralized network manager(200) comprises as follows. A CAC(Call Admission Control) unit(210) takes charge of a call requested from a soft switch(100). An SBM(Shared Bandwidth Manager)(240) manages shared bandwidths for each service class. A VPM(Virtual Path Manager)(230) manages information on a routing path within a network management area. A TRM(Topology/Resource Manager)(250) manages a mirror image on a resource state and topology of a substantial network. A PM(Policy Manager)(220) manages input/output policies.

Description

System and method for processing call in DiffServ based centralized controlled network

1 is a block diagram illustrating an internal block configuration of a call processing system considering the use of a shared band for each class in a transmission network of a centralized control method according to the present invention.

2 is a detailed block diagram of the call processing system according to the present invention shown in FIG.

3A to 3C illustrate an example of a shared band allocation method in a call processing system according to the present invention.

4 is a flowchart illustrating an operation of a call processing method in a transmission network of a centralized control method according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: SS (Soft switch) 200: Centralized Network Manager

210: Call Admission Contrller

220: PM (Policy Manager)

230: Virtual Path Manager

240: SBM (Share Bandwidth Manager)

250: Topology / Resource Manager

300: NE (Network Element)

The present invention relates to a call processing system and a method in a centralized control transmission network, and particularly, to perform efficient Call Admission Control (CAC) and band resource management in a centralized control transmission network for guaranteeing QoS. The present invention relates to a call processing system and a method in a transmission network of a centralized control method.

Centralized network control manages the topology and resources of the network in the jurisdiction instead of distributed control method to satisfy various multimedia services such as VoIP, VoD, Video Phone and increasing end to end QoS requirements. This is how the call request is handled. In the centralized network, QoS can be guaranteed at the flow level by reserving and managing resources in the unit of calls requested from the DiffServ network, which has been guaranteed QoS by service class.

DiffServ (differentiated services) is a protocol for assigning and controlling network traffic by class so as to give priority to traffic that data flow should not be interrupted such as voice. DiffServ is an advanced way of managing traffic as a class of service. To determine how to forward a given network packet, use more complex policies or rules rather than just priorities. A packet flow is specified using a six-bit field called DSCP (DiffServ code point) in the IP header.

In general, a bandwidth manager (BM) that manages network bandwidth is a device for dynamic QoS control in an IP network. The BM then checks the available resource status of the underlying network to determine accept / reject for the request call.

In addition, RSM (Resource Manger) for managing the resources of the network has a topology and resource information for the underlying network so that the BM can quickly identify and process the resource status for the request call. Therefore, instead of checking the available resource status of each network element (NE) according to the call request, the call processing is performed quickly using mirror information on the RSM. In addition, the RSM collects information on topology changes so that the BM can respond to the changed topology.

In the conventional DiffServ-based centralized control scheme, when a band for each service class is allocated, the allocated band is maintained regardless of traffic conditions. Although it is possible to change the allocated band on a policy basis to improve the efficiency of the band, the process from the decision of changing the band to the time when it is set in the device requires a long time, so it is flexible in the rapidly changing class traffic situation. Can't cope

In addition, if the traffic is concentrated only in a specific class and there is no traffic in another class, even if there is a lot of idle bands in the non-traffic class, there may be insufficient bandwidth for the other class. In this case, a problem arises in that only the Call Reject Probability (CRP) of a specific class lacking an available band is increased.

Also, in order to process one call, it checks the status of all available resources on the requested path and decides whether to accept the requested call when the reservation is completed, so if there is a lot of resource information to compare, call processing for bandwidth reservation There is a problem that the performance may be lowered for the call processing speed per hour because the time can be delayed.

Accordingly, the present invention is to solve the above problems according to the prior art, an object of the present invention is to provide a CAC using a Shared Bandwidth Manager (SBM) in a DiffServ-based centralized network control network. The present invention provides a call processing system and a method in a transmission network of a centralized control method to improve a function.

In addition, another object of the present invention, by setting a shared area for the allocated resources for each service class to concentrate the traffic in a specific service class to be able to variably use the shared bandwidth of the low resource utilization class to improve the overall bandwidth efficiency The present invention provides a call processing system and a method in a centralized control delivery network that can be flexibly and cope with the problem of increasing a disproportionately only a specific class of CRP.

In addition, another object of the present invention is to provide a call processing system in a delivery control network of a centralized control system to increase the processing speed for a request call by simplifying a procedure for identifying resources for call acceptance and call rejection. To provide a method.

According to an aspect of a call processing method in a centralized control network according to the present invention for achieving the above object, setting a shared band to be distributed to each class according to the base band and traffic volume of each class ; If the shared band is being used in a virtual path for processing a call according to a call request, determining whether an available band of the shared band exists; As a result of the determination, if there is an available band, the method may include accepting the request call, updating the available band, and updating the set shared band and virtual allocation band information for each class for processing the next request call. .

In the determining, rejecting the request call when there is no available band and updating the call rejection rate for the corresponding class; When the updated call rejection rate exceeds the set reference call rejection rate, the weight factor is updated, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to correspond to the corresponding class. Variably allocating a shared band.

The updated shared band and the virtual allocation band may be calculated using an initial allocation band for each class, a band sharing ratio for each class, a band used for each class, and a weight factor for each class.

On the other hand, according to one aspect of the shared band processing method according to the call request of the transmission network of the centralized control method according to the present invention, the base band for each class and the shared band that can be shared variably according to the traffic volume of each class Setting up; The method may include counting call rejection rates of each class according to a call request and variably allocating a virtual allocation band for the set shared band according to the counted call rejection rates for each class.

According to another aspect of a shared band processing method according to a call request of a transmission network of a centralized control method according to the present invention, the method includes: setting a base band for each class and a shared band to be variably assigned to each class; Obtaining virtual path information using source and destination information on a call when there is a call request; Determining whether the shared band set for the corresponding path is in use according to the obtained virtual path information; Determining whether the available band exists when the shared band is in use; If an available band exists, accept the call request, update the virtual allocation band for the shared band to the class as much as the requested band, and update.If there is no available band, reject the request call and then The method may include updating a virtual allocation band for reallocating the shared band for each class according to a call rejection rate.

The updating may include: rejecting a request call when there is no available band and updating a call rejection rate for the corresponding class; When the updated call rejection rate exceeds the set reference call rejection rate, the weight factor is updated, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to correspond to the corresponding class. Variably allocating a shared band.

On the other hand, according to an aspect of the shared band processing apparatus according to the call processing of the transmission network of the centralized control method according to the present invention, a base band for each class and a shared band that can be shared variably according to the traffic volume A band setting unit for setting; A shared band for counting call rejection rates of each class according to a call request and variably allocating a virtual allocation band for the set shared band to each class according to the counted call rejection rates for each class and updating the band setting unit It may include a processing unit.

According to another aspect of the call processing system of the centralized control transmission network according to the present invention, when the shared band is used in a virtual path for processing a call according to a call request, an available band of the shared band is used. A call processing unit which determines whether there is a call and handles call acceptance and rejection according to whether an available band exists; Set the shared band to be distributed to each class according to the base band and the traffic volume of each class, update the available band according to the call processing result of the call processor, and then the set shared band and each class for the next request call processing It may include a shared band processor for updating the star virtual allocation band information.

The shared band processing unit rejects the request call if there is no available band, and then updates the call rejection rate for the corresponding class, and if the updated call rejection rate exceeds the set reference call rejection rate, a weight factor. By using the updated weight factor, the shared band (SB) and the virtual allocation band (VAB) of the class is calculated to variably allocate the shared band to the class.

The shared band and the virtual allocation band updated by the shared band processor are calculated by using an initial allocated band for each class, a bandwidth sharing ratio for each class, a band used for each class, and a weight factor for each class. Can be done.

In addition, according to an aspect of the shared band processing apparatus according to the call request of the transmission network of the centralized control method according to the present invention, a setting unit for setting the base band for each class and the shared band to be variably assigned to each class; If there is a call request, the virtual path information is obtained using the source and destination information of the call, and if the shared band set for the corresponding path is in use according to the obtained virtual path information, the available band is used. A call processing unit for processing the acceptance and rejection of the request call according to whether an available band exists by determining whether there is an available band; When the call processing is performed in the call processing unit, a virtual allocation band for the shared band is additionally allocated to the corresponding class as much as the requested band and updated in the setting unit. If there is no available band, the call is rejected and the corresponding class is rejected. The shared band processor may include a shared band processor configured to update a virtual allocation band for re-allocating the shared band for each class according to a call rejection rate by increasing the call rejection rate.

The shared band processing unit rejects the request call when there is no available band, updates the call rejection rate for the corresponding class, and sets the updated call rejection rate to exceed the set reference call rejection rate. In this case, the weight factor is updated to the setting unit, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to variably allocate the sharing band to the setting unit.

Hereinafter, a preferred embodiment of a call processing system and a method in a transmission network of a centralized control method according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a call processing system in a transmission network of a centralized control method according to the present invention.

As shown in FIG. 1, a call processing system according to the present invention is connected to a soft switch 100, a plurality of network elements (NE) 300, and the soft switch 100 and the NE 300 to be soft. It may include a centralized network manager 200 to perform the call processing according to the call request from the switch 100.

The centralized network manager 200 may include a call admission controller (CAC) 210 in charge of processing a call requested from the soft switch 100, a shared band manager managing a shared band for each service class (CAC). Shared Bandwidth Manager (SBM) (240), Virtual Path Manager (VPM) (230) that manages information about routing paths within the network management area, Mirror image of the topology and resource status of the physical network It may include a topology / resource manager (TRM) 250 that manages the policy manager 250 and a policy manager 220 that manages input and output policies.

First of all, the present invention provides a method for accepting / rejecting a largely requested call, setting up a virtual allocation band from the policy manager (PM) 220 to the NE 300, and a shared band manager (hereinafter referred to as SBM) ( In operation 240, the process may be divided into a shared band and a virtual allocated band processing operation.

First, when control of the network is started, the policy manager 220 (hereinafter referred to as PM) 220 is applied to each NE 300 based on the topology / resource information collected by the topology / resource manager (hereinafter referred to as TRM) 250. Information about the bandwidth to be allocated for each service class and the bandwidth sharing rate is transmitted to the shared band manager (SBM) 240.

The SBM 240 calculates the shared band and the virtual allocated band for each class using the information and the shared band weight factor, and assigns the virtual allocated band to the NE 300 through the TRM 250 to the DiffServ policer's class. Set the rate limit value for the traffic. Here, the weight factor is a reciprocal value of the CRP threshold exceeding the currently measured Call Reject Probability (CRP), which is normalized to the maximum value, and varies the size of using the shared band at a time for each class. This can alleviate the rapid increase in CRP in one class. CRP characteristics may vary depending on the time T set to the number of times rejected compared to the requested call for a certain time T.

Call processing procedure according to resource reservation request is handled differently depending on whether shared band is used or not. First, if the shared band of the corresponding VP (Virtual Path) is not in use, the process of skipping the existing individually available resource check is skipped and the process of checking the available resource is performed only when the shared band is in use. will be.

A detailed configuration and detailed operation of the centralized network manager 200 that performs such a configuration and operation will be described with reference to FIG. 2.

First, the call admission controller 210 of the centralized network manager 200 shown in FIG. 1 includes the NRCP I / F module 211, the Policy module 212, the Search VP module 213, and the BW Check module 214. , Call Admission / BW Reservation module 215, Ex I / F module 216, and In I / F module 217.

Meanwhile, as illustrated in FIG. 2, the shared band manager (SBM) 240 of the centralized network manager 200 illustrated in FIG. 1 may include an Ex I / F module 241 and an In I / F module 242. And a shared band management module 243.

First, the NRCP I / F module 211 of the CAC 210 is an interface for communicating with the SS 100 using the NRCP. The EX I / F module 216 of the CAC 210 and the EX I / F module 241 of the SBM 240 are interfaces for communicating with an internal module, and the EX I / F 241 of the SBM 240 is used. ) Receives and responds to a policy message that is changed from the PM 220 shown in FIG. 1, responds to it, and shares a SB (Share Bandwidth) flag set message and a VAB (Virtual Allocated Bandwidth) setting message received from the PM 220. To process

Meanwhile, the EX I / F module 216 of the CAC 210 receives a VP request message from the Search VP module 213 of the CAC 210 and processes a policy message and a response message from the PM 210.

The In I / F module 217 of the CAC 210 and the In I / F module 242 of the SBM 240 are interfaces for processing messages transmitted and received between the CAC 210 and the SBM 240. Process BW reservation, call reject count, shared band management information message. Here, the shared band information may include VAB, SB, Free BW, and CRP information.

Meanwhile, the Search VP module 213 of the CAC 210 receives the source address information included in the received message when the resource reservation NRCP message according to the call request of the SS 100 is received through the NRCP I / F module 211. The VP information is requested to the VPM 230 through the EX I / F module 216 using the source address and destination address information, and the VP information is received from the VPM 230.

In addition, in the SBM, the VP has a flag according to whether the shared band is used, so the Search VP module 213 of the CAC 210 has only the flag of the corresponding VP, that is, the VP received from the VPM 230 uses the shared band. First, it decides whether to accept the request call.

If the shared band is not in use, the Call Admission / BW Reservation module 215 immediately transmits a Call Accept message to the SS 100 and performs a resource update on the requested band.

The BW Check module 214 of the CAC 210 determines whether the resources on the VP are available from the VPM 230 in units of hops when the VP in the Search VP module 213 is using a shared band. Perform the verification process.

If the available resources are sufficient, the Call Admission / BW Reservation module 215 transmits a call acceptance message for the requested call to the SS 100 and performs an update for the available resources by the requested bandwidth. The shared band update information is provided to the SBM 240.

On the other hand, if the available resources are insufficient in the BW Check module 213 of the CAC 210 transmits a rejection message for the call request to the SS 100 through the NRCP I / F module 211, and does not perform the resource update It also increments the Call Reject Counter value for the VP. In this case, if the CRP is updated and the CRP threshold is exceeded, the weight factor value is set again in the SBM 240.

The shared band management module 243 of the SBM 240 basically calculates and manages resources for the shared band by using the allocation band and the bandwidth sharing ratio for each class determined by the PM 220. That is, as shown in FIG. 3A, the band shared by one class is represented by the product of the sharing ratios for the initial allocation band, and the remaining bands are the minimum bands guaranteed for the class. The total shared band is the sum of the shared bands for each class. Since the virtual allocation band for each class is determined by adding the size of the total shared band multiplied by the weight factor of the class to the minimum guaranteed band, the size of the available band is larger than the initially allocated band in one class.

Meanwhile, even when the reserved band exceeds the minimum guaranteed band, the shared band is used because the requested band is reserved within the virtual allocated band. When the shared band is used, the size of the available shared band is reduced, thereby reducing the size by updating the virtual allocation band for each class (see FIGS. 3B and 3C). Therefore, the bandwidth can be allocated to the class by the size of the shared band without exceeding the physical band of the interface of the NE 260 on the VP. 3A to 3B, VAB denotes a virtual allocation band, AB denotes an initially allocated band, MGB denotes a minimum guaranteed band, and SB denotes a shared band.

Referring to a specific operation of the SBM 240, first, when the class-specific band and shared band information arrives from the PM 230, the shared band SB and the virtual allocated band VAB are calculated in consideration of the shared-band weight for each class. . Here, the shared band and the virtual allocation band may be calculated by Equations 1 and 2 below.

Here, in the above Equations 1 and 2, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class.

The virtual allocation band (VAB) is set to the NE 260 through the TRM 250.

When a call is requested from the SS 100, the SBM 240 provides the SB flag of the corresponding VP to the CAC 210. On the other hand, when the available band check request from the CAC 210, the SBM 240 searches for resources on the VP and provides the minimum available resources to the CAC 210.

Meanwhile, the CAC 210 updates and updates the resources on the corresponding VP to the SBM 240 for the band for which resource reservation is requested when the call is accepted for the requested call, and updates the SB flag value of the corresponding VP when the shared band is used on the VP. Set and update the SB and VAB values.

If the shared band is not used, the CAC 210 does not perform a separate SB and VAB update procedure, and calculates the CRP on the VP when the call is rejected for the requested call and if the CRP exceeds the threshold, the shared band for each class This will update the weight factor. And the CAC 210 is to ensure that the weight factor for each class is updated to use a shared band differentially to secure more shared band in the high CRP class.

Detailed operation of the call processing system and the call processing method according to the present invention in the transmission control network of the centralized control method according to the present invention will be described step by step and in detail. .

4 is a flowchart illustrating an operation of a call processing method in a transmission network of a centralized control method according to the present invention.

First, as shown in FIG. 4, a process of initializing a shared band according to a new policy will be described.

When a new policy is set from the PM 220 and new policy information is received (S101), the SBM 240 determines whether a Call Reject Probability (CRP) threshold is set (S102).

As a result of determination, when the CRP threshold is not set, the SBM 240 calculates the weight factor to set the CRP threshold (S103).

If the CRP threshold is set in step S102 or the weight factor is calculated in step S103, the SBM 240 calculates SB and VAB using Equations 1 and 2 described above. (S104, S105).

When the SB value is calculated as described above, the SBM 240 sets the SB flag ("1" or "0") (S106), and then the shared bandwidth and virtual for each class according to the policy request of the operator in the PM 220. Notifying that the band setting is completed, the calculated VAB is set to each NE 300 (S107 and S108). As such, when the initialization process of setting the shared shared band and the virtual allocation band is completed, the initialization process of the centralized network manager 200 ends and enters an idle state.

In the idle state, when there is a call request from the SS 100 via the NRCP I / F module 211 shown in FIG. 2 (S201), the Search VP module 213 of the CAC 210 is an EX I / F module. The VP information is requested to the VPM 230 through step 216 (S202). Accordingly, the VPM 230 provides the VP information, that is, the SB flag information set according to the request of the CAC 210, to the Search VP module 213 through the EX I / F module 216 of the CAC 210.

Receiving the VP information, the Search VP module 213 uses the received VP information to check whether the VP's SB flag ("1" or "0") is set, that is, whether the virtual path is using a shared band. (S203).

If it is determined that the virtual path uses the shared band, the Search VP module 213 of the CAC 210 requests SBM information, that is, VAB, SB, and weight factor information, to the BW Check module 214. Then, the BW Check module 214 requests the SBM 240 through the IN I / F module 217 to obtain the corresponding information (S204).

The BW Check module 214 of the CAC 210 checks the available band using the obtained information (S205), when an available band exists as a result of the available band check and in step S203, the shared band is used as a result of the SB flag check. If not, after the call acceptance message is transmitted to the SS 100 through the Call Admission / BW Reservation module 215 (S206), the Call Admission / BW Reservation module 215 transmits the available bandwidth information to the SBM 240. The update is to be performed (S207). That is, according to the use of the band for processing the requested call, the SBM 240 updates the available band.

In addition, the SBM 240 determines whether the shared band is in use in preparation for the next call request (S212), and if the shared band is in use, that is, if any shared band of all shared bands is in use according to the call request. AB and VAB are updated (S213 and S214).

The SBM 240 updates the SB flag of the VPM 230 through the EX I / F module 241 (S215). That is, it sets the flag "1" or "0" that the shared band is in use.

On the other hand, if the available band does not exist in step S205 provides a message that there is no available band information to the Call Admission / BW Reservation module 215 to the NRCP I / F module in the Call Admission / BW Reservation module 215 The call rejection message is transmitted to the SS 100 through S211 (S208).

After sending the call rejection message, the Call Admission / BW Reservation module 215 provides the CRP information according to the call rejection to the SBM 240 through the IN IF module 217, and the SBM 240 receives the received CRP information. Update the CRP information accordingly.

In addition, the SBM 240 compares the updated CRP with the CRP threshold set at the initialization (S210).

As a result of the comparison, when the updated CRP is larger than the CRP threshold set at the initialization, the weight factor is updated (S211), and ZAB and VAB are updated (S213 and 214). Here, the update of the weight factor is to ensure more shared bands for the class with high CRP by differentially using the shared bands for each class.

The SBM 240 updates the SB flag of the VPM 230 through the EX I / F module 241 (S215). That is, it sets the flag "1" or "0" that the shared band is in use.

Accordingly, the present invention can variably adjust the usage of the shared band when traffic is concentrated in a specific class due to the inequality of traffic for each class by setting and managing a shared band in a sense of service class.

In addition, if a call request occurs, if the shared band is not used in the corresponding class, the call request is immediately accepted, and if the band request is made beyond the reference band or when the shared band is used, the status of the used resources on the path is checked to respond quickly to the call request. I would have to.

The call processing system and the method in the transmission network of the centralized control method according to the present invention as described above, when the traffic is concentrated in a specific class due to the inequality of traffic by class by setting and managing a shared band between service classes Since the CRP is increased and the utilization of idle resources is increased, the bandwidth efficiency of the network can be increased.

In addition, it is possible to increase the resource utilization rate and lower the CRP by quickly responding to the above problem in the shared bandwidth set up from the policy based on the imbalance problem of the bandwidth occupancy of each class traffic and the slow response method for reducing the CRP.

In addition, since the bandwidth allocation and sharing rate for each service class can be determined, the policy manager can have more flexibility in determining the policy.

In addition, when a call request occurs, if the shared band is not used in the corresponding class, the call request is accepted because it accepts the call request immediately and checks the status of the used resources on the pass only when the band request exceeds the reference band or when the shared band is used. If concentrated, the delay for call processing can be reduced.

Claims (24)

In the shared band processing method according to the call processing of the transmission network of the centralized control method, Setting a base band for each class and a shared band that can be variably shared by each class according to the traffic volume; Centralized control method comprising the step of counting the call rejection rate of each class according to the call request and variably allocating a virtual allocation band for the set shared band according to the counted call rejection rate for each class Shared Band Processing According to Call Processing in Transport Networks The method of claim 1, The allocating step, If the shared band is being used in a virtual path for processing a call according to a call request, determining whether an available band of the shared band exists; If it is determined that the available band exists, accepting the request call, updating the available band, and then updating the set shared band and virtual allocation band information for each class for processing the next request call. A shared band processing method according to call processing in a transmission network of a type control method. The method of claim 2, In the determining, rejecting the request call when there is no available band and updating the call rejection rate for the corresponding class; When the updated call rejection rate exceeds the set reference call rejection rate, the weight factor is updated, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to correspond to the corresponding class. A method of processing a shared band according to call processing in a transmission network of a centralized control method, comprising the step of variably allocating a shared band. The method of claim 3, The shared band and the virtual allocation band are calculated by using an initially allocated band for each class, a band sharing ratio for each class, a band used for each class, and a weight factor (call rejection rate) for each class. Shared band processing method according to call processing in transmission network of centralized control method. In the call processing method of the transmission network of the centralized control method, Setting a shared band to be distributed to each class according to the base band and the traffic amount of each class; If the shared band is being used in a virtual path for processing a call according to a call request, determining whether an available band of the shared band exists; If it is determined that the available band exists, accepting the request call, updating the available band, and then updating the set shared band and virtual allocation band information for each class for processing the next request call. Call Handling Method of Transmission Network of Type Control Method The method of claim 5, In the determining, rejecting the request call when there is no available band and updating the call rejection rate for the corresponding class; When the updated call rejection rate exceeds the set reference call rejection rate, the weight factor is updated, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to correspond to the corresponding class. Call processing method of a transmission network of a centralized control method comprising the step of variably allocating a shared band The method of claim 6, The shared band is a call processing method of a transmission network of a centralized control method calculated using the following equation

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. The method of claim 6, The virtual allocation band (VAB) is a call processing method of the transmission network of the centralized control method calculated using the following equation

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. In the shared band processing method according to the call request of the transmission network of the centralized control method, Setting a base band for each class and a shared band to be variably assigned to each class; Obtaining virtual path information using source and destination information on a call when there is a call request; Determining whether the shared band set for the corresponding path is in use according to the obtained virtual path information; Determining whether the available band exists when the shared band is in use; If an available band exists, accept the call request, update the virtual allocation band for the shared band to the class as much as the requested band, and update.If there is no available band, reject the request call and then A method for processing a shared band according to a call request of a transmission network of a centralized control method, comprising: updating a virtual allocation band for reallocating the shared band for each class according to a call rejection rate by increasing a call rejection rate; The method of claim 9, The updating step, Rejecting the request call if there is no available band, and updating the call rejection rate for the set class; When the updated call rejection rate exceeds the set reference call rejection rate, the weight factor is updated, and the shared band (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor to correspond to the corresponding class. A method of processing a shared band according to a call request of a transmission network of a centralized control method, comprising the step of variably allocating a shared band. The method of claim 10, The shared band processing method according to the call request of the transmission network of the centralized control method calculated using the following equation.

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. The method of claim 10, The virtual allocation band (VAB) is a shared band processing method according to the call request of the transmission network of the centralized control method calculated using the following equation.

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. In the shared band processing apparatus according to the call processing of the transmission network of the centralized control method, A band setting unit configured to set a base band for each class and a shared band that can be variably shared by each class according to the traffic volume; A shared band for counting call rejection rates of each class according to a call request and variably allocating a virtual allocation band for the set shared band to each class according to the counted call rejection rates for each class and updating the band setting unit Shared band processing apparatus according to the call processing of the transmission network of the centralized control method including a processing unit. The method of claim 13, The shared band processor, When the shared band is used in a virtual path for processing a call according to a call request, it is determined whether an available band exists in the shared band. If the available band exists, after accepting the request call, the available band is determined. After updating the band setting unit, the shared band processing apparatus according to the call processing of the transmission network of the centralized control method for updating the set shared band and virtual allocation band information for each class for the next request call processing to the band setting unit . The method of claim 14, The shared band processing unit rejects the request call when there is no available band, updates the call rejection rate for the corresponding class set in the band setting unit, and the updated call rejection rate exceeds the set reference call rejection rate. In this case, the weight factor is updated, and the shared bandwidth (SB) and the virtual allocation band (VAB) of the corresponding class are calculated using the updated weight factor, and the centralized control method of variable allocation of the shared band to the corresponding class is performed. Shared band processing apparatus according to call processing in transport network. The method of claim 15, The shared band and the virtual allocation band are calculated by using an initially allocated band for each class, a band sharing ratio for each class, a band used for each class, and a weight factor (call rejection rate) for each class. Shared band processing device according to call processing in transmission network of centralized control method. In the call processing system of the transmission network of the centralized control method, A call processing unit for processing call acceptance and rejection according to whether an available band exists in the shared band when the shared band is used in a virtual path for processing a call according to a call request; Set the shared band to be distributed to each class according to the base band and the traffic volume of each class, update the available band according to the call processing result of the call processor, and then the set shared band and each class for the next request call processing A call processing system of a transmission control network of a centralized control method comprising a shared band processing unit for updating star virtual allocation band information. The method of claim 17, The shared band processing unit rejects the request call when there is no available band, updates the call rejection rate for the corresponding class, and sets a weight factor when the updated call rejection rate exceeds the set reference call rejection rate. A call processing system of a centralized control transmission network that updates and allocates a shared band to a corresponding class by calculating a shared band (SB) and a virtual allocated band (VAB) of the class using the updated weight factor. . The method of claim 18, And a shared band updated by the shared band processor using a following equation.

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. The method of claim 18, And a virtual allocation band (VAB) updated by the shared band processor is calculated using the following equation.

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. In the shared band processing apparatus according to the call request of the transmission network of the centralized control method, A setting unit for setting a base band for each class and a shared band to be variably allocated to each class; If there is a call request, the virtual path information is obtained using the source and destination information of the call, and if the shared band set for the corresponding path is in use according to the obtained virtual path information, the available band is used. A call processing unit which determines whether there is an available band and processes the acceptance and rejection of the request call according to whether the available band exists; When the call processing is performed in the call processing unit, a virtual allocation band for the shared band is additionally allocated to the corresponding class as much as the requested band and updated in the setting unit. If there is no available band, the call is rejected and the corresponding class is rejected. Call request of the centralized control transmission network including a shared band processing unit for updating the setting unit to the virtual allocation band for reallocating the shared band for each class according to the call rejection rate by increasing the call rejection rate Shared band processing apparatus according to. The method of claim 21, The shared band processing unit, If the available band does not exist, rejects the request call, updates the set call rejection rate for the corresponding class, and sets the weight factor if the updated call rejection rate exceeds the set reference call rejection rate. A centralized control network for calculating a shared band (SB) and a virtual allocated band (VAB) of the class using the updated weight factor and variably allocating the shared band to the setting unit. Shared band processing device according to call request. The method of claim 22, The shared band processing apparatus according to the call request of the transmission network of the centralized control method for updating the shared band is calculated using the following equation.

Here, B _n is an initial allocated band for each class, α _n Is the bandwidth sharing ratio for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class. The method of claim 22, Shared bandwidth processing apparatus according to the call request of the transmission network of the centralized control method is calculated by using the following equation, the virtual allocation band (VAB) is updated by the shared band processor.

Here, B _n is an initial allocated band for each class, α _n Is the band sharing rate for each class, B _n is the bandwidth used for each class, and w _n is the weight factor for each class.

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