KR0175574B1 - Dynamic Mobile Boundary Method for Effective Bit Rate Bandwidth Allocation in Asynchronous Transfer Mode (ATM) Networks - Google Patents

Abstract

The present invention relates to a bandwidth allocation method for accommodating an available bit rate (ABR) service for transmitting high-speed data in an asynchronous transfer mode (ATM) (MB) method, the bandwidth allocation according to priority is performed while increasing the link utilization rate, which is a disadvantage of the mobile boundary method due to the characteristics of the effective bit rate service. However, when the mobile boundary method In the asynchronous transmission mode network in which it is difficult to accurately predict the characteristics of the input traffic because the threshold value is fixed, there is a problem that the connection acceptance according to the priority can not be guaranteed as the demand bandwidth of input traffic changes. In the present invention, the threshold value is input in the existing mobile boundary method The present invention provides a dynamic mobile boundary method for guaranteeing connection acceptance according to priorities regardless of a change in demand capacity of a pick, and it is an object of the present invention to provide a dynamic mobile boundary method that can perform connection admission control according to priority, It is possible to guarantee an equitable performance.

Description

Dynamic Mobile Boundary Method for Effective Bit Rate Bandwidth Allocation in Asynchronous Transfer Mode (ATM) Networks

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bandwidth allocation method for traffic control in an asynchronous transfer mode (ATM) network, and a method of allocating bandwidth in an asynchronous transfer mode (ATM) Complete Partitioning (CP) method, a Complete Sharing (CS) method in which all services share all transmission bands, and a Movable Boundary (MB) method in which transmission bands are limited by thresholds according to service priorities Have been studied.

Since the CP (Complete Partitioning) method allocates a dedicated band for the effective bit rate (ABR) service, it can not accommodate the characteristics of the effective bit rate service using the remaining bandwidth used by other services. Method.

Since the full sharing (CS) method shares all the bands, the bandwidth utilization is good but the bandwidth of the effective bit rate service having a small bandwidth requirement and a long connection duration is over-occupied, so that a constant bit rate (CBR) ) Service can not be allocated the bandwidth, so the connection is not accepted according to the priority.

Also, the mobile boundary method allocates a band of the effective bit rate service to a minimum cell rate (MCR) in a band used by all services, The bandwidth utilization rate is increased by using a band that is not used in a dedicated band of constant bit rate or variable bit rate.

Accordingly, if the mobile bit rate (MB) method is used to accommodate the effective bit rate service, bandwidth allocation according to priority is performed while increasing the link utilization rate, which is a disadvantage of the mobile boundary method due to the characteristics of the effective bit rate service. And can be used as a suitable bandwidth allocation method.

However, since the existing mobile boundary method has a fixed threshold, it is difficult to guarantee the connection acceptance by priority in the asynchronous transfer mode (ATM) network, It happens.

The present invention relates to a bandwidth allocation method for accommodating a constant bit rate (CBR), a variable bit rate (VBR), and an effective bit rate (ABR) service in an asynchronous transfer mode (ATM) We propose a bandwidth allocation method that guarantees connection acceptance according to priority regardless of the required bandwidth of input traffic by implementing a dynamic mobile boundary method that varies according to the demand bandwidth of input traffic.

FIG. 1 is a block diagram of an asynchronous transfer mode (ATM) switch to which the present invention is applied.

FIG. 2 is a block allocation diagram of a conventional mobile boundary (MB) method.

Figure 3 is a flow diagram of a dynamic mobile boundary (MB) method upon connection establishment request according to the present invention;

FIG. 4 is a flow diagram of a dynamic removable boundary (MB) method upon a connection release request according to the present invention;

In order to achieve the above object, the present invention provides a dynamic mobile boundary (MB) method for bandwidth allocation when an effective bit rate (ABR) service is accommodated in an asynchronous transfer mode (ATM) network.

A first step of discriminating whether a new connection setup request or an existing connection release request is made and determining a type of traffic for which connection is requested if the connection establishment request is received; and if it is determined that the constant bit rate (CBR) traffic is a new constant bit rate connection A second step of determining whether an allocated bandwidth of the constant bit rate traffic is greater than a highest allocated bandwidth of currently connected constant bit rate traffic, A third step of changing the upper limit value of the first threshold value; and a third step of comparing the highest allocated bandwidth of the currently connected variable bit rate traffic with the allocated bandwidth of the new variable bit rate connection when variable bit rate (VBR) The maximum allocated bandwidth value of the bit rate is updated, the lower limit value of the threshold value 1 is changed according to the value, and the second threshold value is changed to change the first threshold value A fourth step of updating the lower limit value and a fifth step of determining a first threshold value at an intermediate value between an upper limit value and a lower limit value of the first threshold value after the fourth step is performed.

A first step of determining a type of traffic for which a connection release request is issued if the connection request is an existing connection release; A third step of updating the maximum allocated bandwidth value of the constant bit rate after the second step and changing the upper limit value of the first threshold value according to the updated maximum allocated bandwidth value, A third step of determining whether the highest allocated bandwidth of the variable bit rate traffic currently connected and the allocated bandwidth of the variable bit rate traffic requested to be disconnected are the same when variable bit rate (VBR) traffic is performed after the first step; The maximum allocated band value of the variable bit rate is updated, the lower limit value of the first threshold value is changed according to the value, the second threshold value is changed, And a fourth step of updating the lower limit value of, characterized in that it includes a fifth step of determining the first and then step 4 is performed, a first threshold value to an intermediate value of the upper limit and lower limit threshold value.

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

FIG. 1 is a block diagram of an asynchronous transfer mode (ATM) switch to which the present invention is applied.

(ATM) connected to the subscriber / trunk line matching apparatuses 11 and 12, and a subscriber line interface unit 12 connected to the subscriber / trunk line interface units 11 and 12. The subscriber- A unit switch 13 and a call control module 14 connected to the asynchronous transfer mode (ATM) unit switch 13. The present invention is embodied in a call control module.

FIG. 2 illustrates a bandwidth allocation structure according to a conventional mobile boundary (MB) method. Referring to FIG. 2, a bandwidth allocation scheme using a first threshold value 24 and a second threshold value 25, Band 21, a dedicated band 22 for a constant bit rate and variable bit rate (VBR) service, and a common band 23 for all services.

If the band allocated by the services in the entire link band is larger than the first threshold value 24, only the constant bit rate (CBR) service is accepted. If the allocated band is smaller than the first threshold value 24 and the second threshold value 25 ), Only the constant bit rate and the variable bit rate service are accepted, and if the allocated band is smaller than the second threshold value (25), both the constant bit rate, the variable bit rate and the effective bit rate service are accepted.

The present invention relates to a dynamic mobile boundary (MB) method for varying a threshold value according to the traffic demand bandwidth of an input service in a mobile boundary (MB) method in which a threshold value is fixed.

FIG. 3 is a flow diagram of a dynamic mobile boundary (MB) method for requesting connection establishment according to the present invention, embodied in a call control module 14 in an asynchronous transfer mode (ATM) switchboard.

The call control module 14 initializes the parameters used for the connection establishment in the dynamic mobile boundary method (step 301), and if a connection establishment request is received (step 302), it first determines the type of traffic (step 303 ) And a constant bit rate (CBR) traffic, the upper limit value of the first threshold value 24 according to the highest allocated bandwidth value among the constant bit rate traffic currently connected to the allocated bandwidth BW _CBR of the new constant bit rate connection is updated 306 ).

In order to keep the range width of the first threshold value constant, the second threshold value is varied to update the lower limit value of the first threshold value (310), and the intermediate value of the upper limit value and the lower limit value of the first threshold value (24) To determine a first threshold value (24).

If the traffic type is a variable bit rate (VBR) traffic, it is determined whether the allocated bandwidth (BW _VBR ) of the new variable bit rate connection is larger than the highest allocated bandwidth value (HBW _VBR ) among the currently connected variable bit rate traffic, allocation changing the bandwidth value (HBR _VBR), a variable bit rate allocated bandwidth (BW _VBR) (308), and updates the lower limit value of the first threshold value 24 according to the highest value assigned bandwidth (HBW _VBR) (309).

In order to keep the range width of the first threshold value 24 constant, the second threshold value 25 is varied to update the lower limit value of the first threshold value 24 to the first threshold value 24, The first threshold value 24 is determined to be an intermediate value between the upper limit value and the lower limit value (311).

FIG. 4 is a flow diagram of a dynamic mobile boundary (MB) method for a connection release request according to the present invention, implemented in a call control module 14 in an asynchronous transfer mode (ATM) switchboard.

The call control module 14 initializes the parameters used in the dynamic mobile boundary (MB) method (401). If a connection release request is received (402), the type of traffic is first determined (403) In case of bit rate (CBR) traffic, it is determined whether the allocated bandwidth of the constant bit rate traffic (HBW _CBR ) among the currently connected constant bit rate traffic is equal to the allocated bandwidth of the constant bit rate traffic requesting the connection release (404).

(405) a maximum allocated bandwidth of the constant bit rate connection that is disconnected from the allocated bandwidth value (HBW _CBR ) having the highest allocated bandwidth of the constant bit rate traffic according to the determination, and a first threshold value 24 is updated (406).

The first threshold value 24 is updated by varying the second threshold value 25 to maintain the range width of the first threshold value 24 constant, The first threshold value 24 is determined as an intermediate value between the upper limit value and the lower limit value.

If the traffic type is a variable bit rate (VBR) traffic, it is determined whether the highest allocated bandwidth value (HBW _VBR ) of the currently connected variable bit rate traffic and the allocated bandwidth BW _VBR of the variable bit rate traffic requesting the connection release are the same (407).

The highest allocated bandwidth value (HBW _VBR ) among the variable bit rate traffic is switched to the maximum allocated bandwidth of the variable bit rate connection remaining after connection is disconnected (408), and the lower bound of the first threshold value (24) according to the allocated bandwidth value (409).

The second threshold value 25 is varied to maintain the range width of the first threshold value 24 constant to update the lower limit value of the first threshold value 24 to the value of the first threshold value 24 The first threshold value 24 is determined as an intermediate value between the upper limit value and the lower limit value (411).

The present invention relates to a bandwidth allocation method in an asynchronous transfer mode (ATM) network accommodating a constant bit rate (CBR), a variable bit rate (VBR) and an effective bit rate (ABR) By dynamically changing the priority, the connection admission control according to priority can be performed, and the fair performance between the requested services can be guaranteed.

The present invention relates to a bandwidth allocation method for accommodating a constant bit rate (CBR), a variable bit rate (VBR) and an effective bit rate (ABR) service in an asynchronous transfer mode (ATM) The present invention is to provide a bandwidth allocation method that realizes connection acceptance according to priorities regardless of the required bandwidth of input traffic by implementing a dynamic mobile boundary method that varies according to the demand bandwidth of input traffic.

Claims (6)

A dynamic mobile boundary (MB) method as a bandwidth allocation method for accommodating a constant bit rate (CBR), a variable bit rate (VBR) and an effective bit rate (ABR) service in an asynchronous transfer mode (ATM) A first step of determining the type of traffic when the traffic is received; A second step of updating a maximum allocated bandwidth value of the constant bit rate and determining an upper limit value of the first threshold value if the traffic is constant bit rate (CBR) traffic; A third step of updating a maximum allocated bandwidth value of the variable bit rate and determining a first threshold value according to the variable bit rate (VBR) after the first step; A fourth step of varying a second threshold value and updating a lower limit value of the first threshold value to maintain a range width of the first threshold value constant after the second or third step; And a fifth step of determining a first threshold value as an intermediate value between an upper limit value and a lower limit value of the first threshold value after performing the fourth step. A dynamic mobile boundary method for bandwidth allocation in. 2. The method of claim 1, wherein the second step comprises: a first step of determining whether an allocation request bandwidth of a new constant bit rate (CBR) connection is greater than a highest allocated bandwidth of currently connected constant bit rate traffic; A second sub-step of updating the maximum allocated bandwidth value of the constant bit rate to the requested bandwidth of the new connection if the allocated bandwidth of the constant bit rate (CBR) connection is larger than the allocated bandwidth of the highest allocated bandwidth, (ABR) service in the asynchronous transfer mode (ATM) network. The method of claim 1, wherein the first sub-step comprises: The method of claim 1, wherein the third step comprises: a first sub-step of determining whether an allocation request bandwidth of a new variable bit rate (VBR) connection is greater than a highest allocated bandwidth of currently connected variable bit rate traffic; A second sub-step of updating the maximum allocated bandwidth value of the variable bit rate to the requested bandwidth of the new connection if the allocation request bandwidth of the variable bit rate connection is larger than the allocated bandwidth of the highest variable bandwidth rate, And determining a lower limit value of the threshold value. The method of claim 1, further comprising the step of: A dynamic mobile boundary (MB) method for allocating a constant bit rate (CBR), a variable bit rate (VBR) and an effective bit rate (ABR) service in an asynchronous transfer mode (ATM) A second step of determining a type of the traffic when it is determined that the traffic is a constant bit rate (CBR) traffic, determining a maximum allocated bandwidth value of the constant bit rate traffic being connected and determining an upper limit value of the first threshold value, And a third step of updating the maximum allocated bandwidth value of the variable bit rate traffic being connected and determining a lower limit value of the first threshold if the variable bit rate (VBR) traffic is determined as a result of the determination, A fourth step of varying a second threshold value to update a lower limit value of the first threshold value to maintain a constant range width of the threshold value; Dynamic movable boundary method for the first available bit rate (ABR) bandwidth allocation of the service in an asynchronous transfer mode (ATM) network comprising a fifth step of determining the threshold value as a median value. 5. The method of claim 4, wherein the second step comprises: a first sub-step of determining whether an allocated bandwidth of a constant bit rate (CBR) requesting a connection release is equal to a maximum allocated bandwidth of constant bit rate traffic; A third sub-step of determining an upper limit value of a first threshold according to a maximum allocated band value of the constant bit rate, (ABR) service in an asynchronous transfer mode (ATM) network. 5. The method of claim 4, wherein the third step comprises: a first sub-step of determining whether an allocated bandwidth of the variable bit rate (VBR) requesting connection release is equal to a maximum allocated bandwidth of the variable bit rate traffic; And a third sub-step of determining a lower limit value of the first threshold value according to a maximum allocation detail value of the variable bit rate, (ABR) service in an asynchronous transfer mode (ATM) network.