JP2576804B2 - Communication channel setting method in ATM network - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication channel setting method in an ATM network, and more particularly to a communication method for reducing a block rate of a channel setting request in a situation where a switch is used at a high rate and free bandwidth resources are insufficient. It relates to a channel setting method.

[0002]

2. Description of the Related Art In ATM networks, data transfer rates of communication channels are possible. For example, the maximum rate R
Is set between the transmitting and receiving terminals, rates 0 to R
Data can be sent in the range of Also, the value of this maximum rate can be set freely within a range not exceeding the line speed. The communication channel is set using a signaling procedure, and the transmission rate is set according to a request from the terminal. The request value of the rate from the terminal is sent to an ATM switch in the network through a signaling procedure, and if the rate can be set in view of available resources, this request is accepted. For example, if a certain port of the switch has a transmission capacity of 150 Mbps, until the total value of the transmission rates of the communication channels passing through the port is within 150 Mbps,
A new channel setting request can be accepted, and bandwidth resources requested by each channel are allocated and reserved. When the statistical multiplexing effect of traffic is considered, it is possible to accept even higher total values. However, when the usage rate of the switch is high and setting at the transmission rate requested by the terminal is impossible, the signal is blocked and the signaling ends in failure.

As a specific example, when the terminal 1 requests the terminal 2 to set a communication channel in the state 10 of FIG. 1, the request is sent to the switch 3 and after a necessary band is reserved,
A setting request is sent to the switch 4. However, since there is not enough free bandwidth in the switch 4, the state changes to the state 20, and this request is blocked and returned to the switch 3. Then, the switch 3 releases the previously reserved band and notifies the terminal 1 of the failure of the channel setting. In a situation where the network is congested in this way, it is conceivable that the terminal declares two of the ideal required value (A) and the minimum required value (B) in order to prevent blocking due to lack of available resources. I have. In this method, even when the required value (A) cannot be satisfied, it is possible to set a channel with the required value (B) and slightly reduce the possibility of being blocked. In order to further reduce the possibility that the request will be blocked, a method of setting the channel low enough to set the channel once, and then issuing a request to change the transmission rate and lowering the rate to the required rate by the terminal. is there.

When a request from a terminal is blocked by a switch as in the invention described in Japanese Patent Application Laid-Open No. 5-344146, the request is camped on, and if a free band is generated by the switch, the band is changed. There is also a method of setting a communication channel without making a request again from the user by making a reservation.

[0005]

The conventional method for setting a communication channel in an ATM network has the following disadvantages when the network utilization is high. When a communication channel setting request from a terminal is blocked by a switch in the middle, the bandwidth of another switch reserved for the channel must be released. When the utilization rate of the network increases, signaling blocks are likely to occur. Therefore, a communication channel request from a terminal causes a useless operation of reserving a band and releasing the band without using it. If the terminal fails to set a channel, it must keep issuing requests repeatedly until it succeeds. Also, during this time, even if there is a bandwidth resource equal to or less than the value requested from the terminal in the network, communication between the terminals cannot be performed at all.

[0006] Even when the terminal declares both the ideal value and the minimum required value, the possibility of being blocked is not so low unless the minimum required value is sufficiently reduced. If the terminal adds a procedure to change the rate after setting the channel, the block rate can be reduced by reducing the initial setting sufficiently, but if you try to change to the rate required by the terminal, the procedure Is still not reduced, and after failure, the terminal must repeat the request to increase the rate again.

[0007] Even when a request is camped on by a blocked switch, the number of procedures for a terminal to issue a request again is reduced, but it is the same that communication between terminals is impossible during a period when there is no free bandwidth in the switch. is there.

Accordingly, it is an object of the present invention to quickly set a communication channel requested by a terminal when an idle resource is generated in a switch that has caused a communication channel setting request block.

[0009]

According to the present invention, A
In the communication channel setting method in the TM network, when the switch utilization rate is high and the rate required by the terminal cannot be satisfied, once the channel is set at a lower transmission rate, and when the switch utilization rate falls and free resources are generated, , The switch sends a change request to the rate requested by the terminal. Until this time, the terminal and other switches
The above purpose has been achieved by waiting for this request.

That is, according to the communication channel setting method for an ATM network of the present invention, a plurality of terminals are connected by a plurality of switches, and a transmission terminal and a receiving terminal are connected according to a first band requested by the transmitting terminal. In the method of setting a communication channel of an ATM network for setting a communication channel, if the first switch cannot secure the first band, the first switch reserves a second band that can be secured at that time and establishes a communication channel. In another switch that can secure the first band, a communication channel is set by reserving the first band, and thereafter, the band of the first switch is monitored. When it becomes possible to secure the band, the band is changed to the first band, a band is reserved, and a communication channel is set.

Further, according to the communication channel setting method for an ATM network of the present invention, a plurality of terminals are connected by a plurality of switches and a communication channel setting request for setting a first band requested by a transmitting terminal. , A communication channel setting method for an ATM network for setting a communication channel between a transmitting terminal and a receiving terminal, wherein the switch comprises:
The communication channel request is input, the first band is compared with a vacant band, and if the first band can be secured according to the comparison result, the first band is reserved and the first band is reserved.
And the next-stage switch or terminal is notified as the communication channel setting request that the band has been reserved and the band reserved by the switches up to the previous stage.
If the bandwidth cannot be secured, the second bandwidth that can be secured at that time is reserved, and the fact that the first bandwidth could not be secured and the minimum value of the bandwidth that could be actually reserved in the switch up to the previous stage and The first band is notified to the next-stage switch or terminal as the communication channel setting request, and the switch sets a communication channel in the first band, and then only fills the first band. It monitors whether or not a free band has been generated, and if a free band that satisfies the first band has been generated, reserves the first band and confirms that the first band has been reserved in the preceding stage. A switch or a terminal and a subsequent switch or terminal are notified as a band change request, and all switches and terminals related to the connection that has received the notification of the band change request change the reserved band, and And setting a communication channel of the first band.

Further, according to the method for setting a communication channel in an ATM network of the present invention, a plurality of terminals are connected by a plurality of switches, and a transmission terminal and a reception terminal are connected according to a first band requested by the transmission terminal. In a communication channel setting method of an ATM network for setting a communication channel,
If there is a switch that cannot secure the first band, the switch reserves all the switches related to the channel in the second band that can be secured at that time and sets a communication channel. Monitoring the band, and when it becomes possible to secure the first band, the switch sets the second band to the first band in all switches.
, And a communication channel is set.

Further, according to the communication channel setting method for an ATM network of the present invention, a plurality of terminals are connected by a plurality of switches, and a communication channel setting request for setting a first band requested by a transmitting terminal. , A communication channel setting method for an ATM network for setting a communication channel between a transmitting terminal and a receiving terminal, wherein the switch comprises:
If the first band is reserved by the previous switch, the first band is reserved. If the first band is not reserved by the previous switch, the first band is reserved by the previous switch. The minimum value is set as a required bandwidth for the switch. The switch searches for an available bandwidth, compares the required bandwidth requested by the communication channel setting request with the available bandwidth, and secures the required bandwidth based on the comparison result. In the case, reserve the required bandwidth, notify the next-stage switch or terminal that the required bandwidth has been reserved as the communication channel setting request, and if the required bandwidth cannot be secured by the comparison result, at that time, The second band that can be reserved is reserved, and the fact that the requested band could not be reserved and the second band that was actually reserved in the switch are Notify the switch or the terminal as the communication channel setting request, and then monitor whether or not an available bandwidth that satisfies the required bandwidth occurs. Reserves a band, notifies the preceding switch or terminal and the next-stage switch or terminal that the requested band can be reserved as a band change request, and by notifying the band change request, all switches and terminals are reserved. Changing a band and setting a communication channel of the requested band.

[0014]

Next, a first embodiment of the present invention will be described with reference to FIGS. 2, 3 and 4. FIG. In the present embodiment, the next stage indicates the downstream side where the message is sent, and the previous stage indicates the upstream side where the message is sent. FIG. 2 is a configuration diagram showing one embodiment of the present invention. In the state 31 of FIG. 2, the terminal 11 requests setting of a communication channel having the transmission rate A. This request is transmitted to the switch 21. After the switch 21 reserves the bandwidth resource, the switch 21 requests the switch 22 to set a communication channel having the rate A. In the switch 22, the terminal 1
It is assumed that the maximum rate A requested by No. 1 cannot be reserved. At this time, the switch 22 reserves a rate B (<A) that can be reserved at that time, and sends a communication channel request including the request rate A from the terminal 11 and the rate B set by the switch 22 to the switch 23. The switch 23 sets the rate A
The communication channel setting request including the request rate A of the terminal 11 and the rate B reserved up to the previous stage is transmitted to the switch 24. Switch 2
4 sets a channel of rate A, and notifies the terminal 12 that there is a communication request at the rate A from the terminal 11 and that the communication channel reserved in the network is the rate B. When the terminal 12 accepts it, it returns an acceptance message including the reserved rate B to the switch 24, which is transmitted to the switches 23, 22, and 21 to transmit the terminal 1
1 and a communication channel is set between the terminals 11 and 12 at the maximum rate B, and a state 32 is entered.

When the utilization rate at the switch 22 decreases and free resources are generated, and the channel can be set at the maximum rate A, the procedure of the state 33 is started. Switch 22
Changes the band in its own switch to the maximum rate A, and changes the band B
To the switch 21 and the switch 23 as a change signaling message. The switch 21 notifies the terminal 11 of the change as a change message. The change message sent to the switch 23 is sent to the switch 24, and further sent to the terminal 12. When terminals 11 and 12 accept the change, they send an acknowledgment message to switches 21 and 24, respectively. Upon receiving these acknowledgment messages, the switch 22 sends to the switches 21 and 23 a start message for permitting the terminal to transmit in the changed band. When these messages are sent to terminals 11 and 12, the maximum rate A between terminals 11 and 12
And the channel is set, and a state 34 is set.

FIG. 3 is a flowchart showing processing in the switch when a communication channel setting request is received by signaling. This setting request includes the band requested by the transmitting terminal and the minimum band among the bands actually reserved by the switches up to the previous stage.

The first state is step 100, and when a request is received, step 101 is reached. Next, in step 102,
It checks the free resources in its own switch to see if a channel with the maximum rate requested by the sending terminal can be set.
If there is a vacancy (Yes), the bandwidth is reserved in step 103, and in step 104, the channel setting request including the bandwidth requested by the transmitting terminal and the minimum bandwidth which can be actually reserved by the switches up to the previous stage. Is sent to the next switch or terminal, and the process ends in step 105. FIG.
The switches 21, 23, and 24 perform the processing in this procedure. When the receiving terminal receives a channel setting request including the minimum bandwidth of the bandwidth requested by the transmitting terminal and the bandwidth actually reserved by the switches up to the preceding stage, the bandwidth actually reserved can be obtained by each switch. To the sending terminal via.

In step 102, if there is no free space (No), the process moves to step 106, where a free resource currently in the own switch is reserved for this communication channel. This processing is performed by the switch 22 in FIG. Then step 1
As 07, it notifies the next-stage switch that the band requested by the terminal could not be secured in the switch and the minimum one of the bands that were actually set by the own switch up to the previous stage. Each switch associated with the communication channel is
At 05 or 107, a communication connection having the maximum bandwidth that can be realized at that time is set between the transmitting and receiving terminals. Next, at step 108, the free resources in the switch are monitored. In step 109, the available resources in the switch at that time are compared with the resources necessary to satisfy the request of the terminal. If it is insufficient (No), step 10
Return to step 8 and monitor the availability again. If the available bandwidth is sufficient (Yes) in step 109, the bandwidth requested by the terminal is reserved in step 110. Then step 11
As 1, a band change request indicating that the requested band has been newly secured is notified to the switches of the preceding and next stages. In step 112, a change approval message is received from both switches, and in step 113, a start message for permitting transmission in the band is sent to both switches.
The process ends at step 114.

FIG. 4 is a flowchart showing a process performed by the switch when a band change request message requesting a change to a new band is received. When the switch receives the bandwidth change request message, the switch is in step 105 or 108 in FIG. In step 122, it is checked whether or not the requested bandwidth has already been reserved. If the reservation has been made (Yes), this change request is sent to the next switch in step 123, and the process ends in step 124.
If the reservation has not been made (No), the available bandwidth in the switch is monitored in step 125 and it is checked in step 126 whether the change request can be satisfied. If the condition cannot be satisfied (No), the process returns to step 125. When the condition is satisfied (Yes), at step 127, the bandwidth requested for change is reserved, and at step 128, the change request is notified to the next-stage switch and waits for approval. At step 129, the acknowledgment message received from the previous stage is sent to the next stage. At step 130, the start message received from the previous stage is sent to the next stage.
The process ends at 31.

Next, a second embodiment of the present invention will be described with reference to FIGS. In the switches 21, 23, and 24 in the state 31 of the first embodiment, the bandwidth requested from the terminal is reserved.
The switches 51, 53, and 54 in the state 61 are different in that the bandwidth reserved by the switch 52 is reserved.

In the state 61 of FIG. 5, the terminal 41 requests the setting of a communication channel having the transmission rate A. This request is transmitted to the switch 51 and, after reserving the band, is transmitted to the switch 52. It is assumed that the switch cannot reserve the rate A requested by the terminal due to a shortage of resources due to other communication. At this time, the switch 52 reserves a rate B that can be obtained at that time, and sends a communication channel setting request including the requested rate A from the terminal and the rate B set by the switch 52 to the switch 53.

The switch 53 sets a channel at the rate B, and sends to the switch 54 a communication channel setting request including the fact that the terminal is requesting the rate A and the rate B that was actually reserved by the switch. send. Switch 54
Sets a channel of rate B, and sends a communication channel setting request including a request from the terminal 41 to the terminal 42 at the rate A and a notification that the communication channel set on the network is the rate B.

If the terminal 42 accepts this request,
A modification message is sent to the switch 54 requesting a bandwidth change to the rate B currently set in the network. This message is sequentially sent to the switches 53, 52, and 51. Since the switch 51 reserves the message at the rate A, when this message is received, the channel rate is reduced to B. Thereafter, this message is transmitted to the terminal 41, and if it is approved, the rate B is transmitted between the terminals 41 and 42.
The communication channel is set in and the state 62 is set.

When the utilization rate at the switch 52 decreases and free resources are generated, and the channel can be set at the rate A, the procedure of the state 63 is started. The switch 52 reserves a band in its own switch at the rate A, and notifies the switch 51 and the switch 53 of a band change request as a signaling message. The switch 51 reserves the rate of the channel by A, and notifies the terminal 41 of the band change request as a message. The switch 53 also reserves the channel rate by A and sends the bandwidth change request to the switch 54. The switch 54 also reserves the rate at A, and then sends a bandwidth change request message to the terminal 42. When the terminals 41 and 42 accept this change, their respective acknowledgment messages are passed on to the switch 52 via the switches 51, 53 and 54. Terminals 41 and 4 with switch 52
2 receives an acknowledgment message from both the switch 51 and the switch 51,
These are sent to terminals 41 and 42 via 53 and 54. As a result,
A communication channel is set between the terminals 41 and 42 at the rate A initially requested, and a state 64 is set.

FIG. 6 shows a process in the switch when a communication channel setting request is received by signaling. This setting request includes the band requested by the transmitting terminal and the minimum band that can be actually reserved by the switches up to the previous stage. In the first-stage switch, these two values are the same. Initial state is step 200
When a request is received, step 201 is performed. Next, in step 202, the available resources in the own switch are checked to determine whether a channel having the minimum band among the bands actually reserved by the switches up to the previous stage can be set. If there is a vacancy (Yes), the bandwidth is reserved in step 203, and in step 204, the channel setting request including the bandwidth requested by the transmitting terminal and the minimum bandwidth actually reserved in the previous steps. Is sent to the next-stage switch or terminal, and the process ends in step 205. Switch 5 in FIG.
In steps 1, 53 and 54, processing is performed in this procedure. If the receiving terminal receives a channel setting request that includes the bandwidth requested by the transmitting terminal and the smallest one of the bandwidths actually reserved by the switches up to the previous stage, the bandwidth is corrected to the minimum bandwidth that can be reserved. The message is notified to each switch and the transmitting terminal. The switch which has received the correction message changes the requested bandwidth in any step. The transmitting terminal that has received the correction message can start communication in this band.

In step 202, if there is no vacancy (No), the process proceeds to step 206, where a vacant area in the current switch is reserved for this communication channel. This processing is performed by the switch 52 in FIG. Then step 2
As 07, it notifies the next-stage switch that the band requested by the terminal could not be secured in the switch and the minimum one of the bands that were actually set by the own switch up to the previous stage. Each switch associated with the communication channel is
At 05 or 207, a communication connection having the maximum bandwidth that can be realized at that time is set between the transmitting and receiving terminals. Next, at step 208, the available bandwidth in the switch is monitored. In step 209, the available resources in the switch at that time are compared with the resources required to satisfy the request of the terminal. If it is insufficient (No), step 20
Return to step 8 and monitor the availability again. If the available bandwidth is sufficient (Yes) in step 209, the bandwidth requested by the terminal is reserved in step 210. Then step 21
As 1, a band change request indicating that the requested band has been newly secured is notified to the switches of the previous stage and the next stage. At step 212, a change approval message is received from both switches, and at step 213, a start message for permitting transmission in the band is sent to both switches.
The process ends with the switch 214.

FIG. 7 is a flowchart showing a process in the switch when a band change request message requesting a change to a new band is received. When the switch receives the bandwidth change request message, the switch is in step 205 or 208 in FIG. 6, and in either case, the switch proceeds to step 222. In step 222, it is checked whether the requested bandwidth can be reserved. If you can make a reservation (Yes),
Step 223 reserves the bandwidth requested to be changed,
In step 224, a change request is sent to the next switch, and the process ends in step 225. If it is not reserved (No), the available bandwidth in the switch is monitored in step 226, and it is checked in step 227 whether the change request can be satisfied. If the condition cannot be satisfied (No), the process returns to step 226. When satisfying (Yes), as step 228,
The bandwidth requested for change is reserved, and in step 229, the change request is notified to the next-stage switch, and waits for approval. At step 230, the acknowledgment message entered from the previous stage is sent to the next stage, and at step 231 the start message entered from the previous stage is sent to the next stage, and the process ends at step 232.

[0028]

As described above, the AT according to the present invention is used.
The communication channel setting method in the M network is to set the rate once lower than the required value when the communication channel requested by the terminal cannot be set due to the high utilization of the switch, and then set the rate to the required value when there is free space. To reduce the possibility that the channel setting request will be completely blocked, and if the request cannot be satisfied, resolve the cause of the switch itself and reduce unnecessary procedures of other switches and terminals. Can be.

[Brief description of the drawings]

FIG. 1 is a diagram showing a control message when a communication channel request is blocked due to a lack of network resources in the related art.

FIG. 2 is a diagram showing a control message sent in a network from when a terminal sends a communication channel request to when it is set in the first embodiment.

FIG. 3 is a state transition diagram from when a switch receives a communication channel request to when it is set in the first embodiment.

FIG. 4 is a state transition diagram from when a switch receives a bandwidth change request until it is set in the first embodiment.

FIG. 5 is a diagram showing a control message sent in a network from when a terminal sends a communication channel request to when it is set in the second embodiment.

FIG. 6 is a state transition diagram from when a switch receives a communication channel request to when it is set in the second embodiment.

FIG. 7 is a state transition diagram from when a switch receives a band change request to when it is set in the second embodiment.

[Explanation of symbols]

1,2,11,12,41,42 Terminal 3,4,5,6,21,22,23,51,52,5
3,54 switch

Claims (4)

(57) [Claims] 1. A communication channel setting method for an ATM network in which a plurality of terminals are connected by a plurality of switches and a communication channel is set between a transmitting terminal and a receiving terminal according to a first band requested by the transmitting terminal. If the first switch cannot secure the first band, the first switch reserves a second band that can be secured at that time, sets a communication channel, and secures the first band. In the switch, the communication band is set by reserving the first band, and then the band of the first switch is monitored, and when the first band can be secured, the first band is set. A communication channel setting method in an ATM network, characterized in that a communication channel is set by reserving a band by changing the communication channel to a communication channel. 2. A plurality of terminals are connected by a plurality of switches, and a communication channel is set between the transmitting terminal and the receiving terminal by a communication channel setting request for setting a first band requested by the transmitting terminal. In the communication channel setting method for an ATM network, the switch receives the communication channel request, compares the first band with a vacant band, and when the first band can be secured based on the comparison result, Reserves the first band, notifies the switch or terminal of the next stage that the first band has been reserved and the band reserved by the switch up to the previous stage as the communication channel setting request, and If the first band cannot be secured, reserve a second band that can be secured at that time,
Notifying that the first band could not be secured and the minimum value of the band actually reserved in the switch up to the previous stage and the first band and the first band to the next-stage switch or terminal as the communication channel setting request. In the switch, a communication channel is set in the first band, and thereafter, it is monitored whether or not an empty band that satisfies the first band is generated. When an empty band occurs, the first band is reserved, and the fact that the first band has been reserved is notified to a preceding switch or terminal and a next switch or terminal as a band change request, and the band is notified. All switches and terminals related to the connection that has received the notification of the change request change the reserved band and set a communication channel of the first band.
Communication channel setting method in TM network. 3. A communication channel setting method for an ATM network in which a plurality of terminals are connected by a plurality of switches and a communication channel is set between a transmitting terminal and a receiving terminal according to a first band requested by the transmitting terminal. When there is a switch that cannot secure the first band, a communication channel is set by reserving all switches related to the channel in a second band that can be secured at that time in the switch; , And when it becomes possible to secure the first band, the second band is changed to the first band in all switches.
A communication channel setting method in an ATM network, wherein the communication channel is set by changing the band to a predetermined bandwidth. 4. A plurality of terminals are connected by a plurality of switches, and a communication channel is set between the transmitting terminal and the receiving terminal by a communication channel setting request for setting a first band requested by the transmitting terminal. In the method for setting a communication channel of an ATM network, the switch can reserve the first band in the first band if the switch can be reserved in the first stage by the switch in the preceding stage. If not, the minimum value of the bandwidth that can be reserved up to the preceding switch is set as the required bandwidth for the switch.The switch searches for an available bandwidth, and the required bandwidth requested by the communication channel setting request and the available bandwidth. If the required bandwidth can be secured by the comparison result,
Reserves the required bandwidth, notifies the next-stage switch or terminal that the required bandwidth has been reserved as the communication channel setting request, and when the required bandwidth cannot be secured by the comparison result,
At this time, a second band that can be reserved at that time is reserved, and the fact that the requested band could not be reserved and the second band that was actually reserved within the switch are set to the next-stage switch or terminal by the communication channel setting. Notify as a request, and then monitor whether or not an available bandwidth that satisfies the required bandwidth occurs.If an available bandwidth that satisfies the required bandwidth occurs, reserve the required bandwidth and reserve the required bandwidth. The switch or terminal at the previous stage and the switch or terminal at the next stage are notified that the reservation has been made as a band change request, and by the notification of the band change request, all switches and terminals change the reserved band, and Setting a communication channel of the ATM network.