JPH07115437A - Method for controlling packet retransmission by time stamp - Google Patents

Abstract

PURPOSE:To prevent retransmission of unnecessary packets in the case that packet transmission is delayed not by the loss of packets but by the congestion of a communication line or the like. CONSTITUTION:When transmitting a packet to a communication equipment 14, a communication equipment 11 adds the time stamp indicating the transmission time to this packet. Each of repeating installations 12 and 13 on the network from the communication equipment 11 as the transmission source to the communication equipment 14 as the transmission destination compares the time indicated by the time stamp in the received packet with the present time; and with respect to the packet which a preliminarily determined time or longer elapses after the transmission time of, a line 18 only for report is used to transmit the report signal, which indicates that this packet is processed at present, to the communication equipment 11 as the transmission source. When receiving the report signal from repeating installations 12 and 13, the communication equipment 11 initializes a timer for packet retransmission and holds packet retransmission.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packet retransmission control method, and more particularly to a packet retransmission control method for preventing excessive packet retransmission by using a time stamp.

[0002]

2. Description of the Related Art In a communication system in which various types of information are transmitted and received in a packet format between communication devices on a network such as a LAN, a destination communication device returns an arrival notification to a source communication device when a packet is received. The source communication device retransmits the same packet for packets for which the arrival notification has not been returned even after a lapse of a predetermined time after the packet is transmitted.

By performing such packet retransmission control, the same packet can be reliably delivered to the destination communication device even if the packet is lost without reaching the destination communication device. The integrity of the transmission is guaranteed.

[0004]

However, the reason why the source communication device cannot receive the arrival notification from the destination communication device even after a lapse of a predetermined time after the packet is transmitted is, in addition to the loss of the packet, Since there is a delay in packet transmission due to congestion in the communication line, if the source communication device transmits a packet while the communication line is congested, the packet will be retransmitted even though the packet is not lost,
There is a problem in that this retransmitted packet further burdens the communication line, and as a result, the transmission of the packet is further delayed, resulting in a further packet retransmission, resulting in a vicious circle.

As disclosed in, for example, Japanese Patent Laid-Open No. 4-47825, a technique has been proposed in which the retransmission interval for retransmitting a packet is changed based on the traffic condition of the network. This kind of technology is effective under certain conditions, such as when traffic conditions change slowly, but it is necessary to accurately predict future traffic conditions such as when traffic conditions change frequently and rapidly. The effect cannot be expected in the situation that cannot be done.

The present invention has been proposed in view of such circumstances, and an object of the present invention is to promptly notify a sender communication when a packet transmission is delayed due to congestion of a communication line or the like. By notifying the device and suppressing the retransmission of the packet, it is possible to reliably prevent the unnecessary retransmission of the packet when the packet transmission is delayed due to the congestion of the communication line or the like instead of the loss of the packet.

[0007]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention is designed so that a source communication device retransmits a transmission packet for which an arrival notification has not been obtained from a destination communication device connected by a network. In the packet retransmission control method in the configured communication system, the transmission source communication device, when transmitting the packet to the transmission destination communication device, adds a time stamp indicating the transmission time to the packet and transmits the packet. The relay device on the network from the device to the destination communication device compares the time indicated by the time stamp in the received packet with the current time, and regarding the packet which has passed a predetermined time or more from the transmission time, , A notification signal indicating that the packet is currently being processed is transmitted to the source communication device using the notification dedicated line, Device, by receiving the notification signal from the relay device, so that initializes the packet retransmission timer.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings.

Referring to FIG. 1, an example of a communication system to which an embodiment of the present invention is applied is a communication device 11 that is a packet transmission source and a communication device 14 that is a packet reception source.
A relay device 12 or 13 that relays a packet transmitted from the communication device 11 to the communication device 14, a communication line 15 that connects the communication device 11 and the relay device 12, and a relay device 12
A communication line 16 for connecting the relay device 13 to the relay device 13, a communication line 17 for connecting the relay device 13 and the communication device 14, and a notification dedicated line 18 for connecting the communication devices 11, 14 and the relay devices 12, 13 to each other. It is configured.

FIG. 2 is a diagram showing an example of a format of a transmission packet, and FIG. 3 is a communication device 11 which is a transmission source of the packet.
4 is a flowchart showing an example of the processing of each of the relay apparatuses 12 and 13, and FIG. 5 is a flowchart showing an example of the processing of the communication apparatus 14 that is the destination of the packet. The operation of this embodiment will be described below with reference to the drawings.

When transmitting various data to the communication device 14, the communication device 11 executes the process shown in FIG. 3 by software operating on the communication device 11.

First, when transmitting data to the communication device 14, the communication device 11 transmits to the transmission data 22 in the packet including the header 21, the transmission data 22, the time stamp 23 and the footer 24 as shown in FIG. The communication device 11 that sets the data, sets the transmission time at the time stamp 23, and sets the transmission source in the header 21
Address, the address of the communication device 14 which is the destination, the packet number, etc. are set and transmitted to the communication line 15 (see FIG. 3).
Step 3-1).

Next, the communication device 11 initializes a retransmission timer (step 3-2) and monitors whether or not an arrival notice is returned from the destination communication device 14 via the notification dedicated line 18. Step 3-3), intermediate relay device 12, 1
3 whether or not a notification of processing is notified via the notification dedicated line 18 (step 3-4), whether or not the retransmission timer has timed out, that is, whether or not a predetermined time T has elapsed since transmission. Monitoring is performed (step 3-5).

When an arrival notification is received from the communication device 14 of the transmission destination via the notification dedicated line 18 within the fixed time T until the retransmission timer times out (Yes in step 3-3), the packet is Assuming that the packet has arrived safely, the processing relating to the packet transmission is terminated, and the process returns to step 3-1 to proceed to the processing of the packet to be transmitted next.

Also, when a processing notification is received from any of the relay devices 12 and 13 via the notification dedicated line 18 within a fixed time T until the retransmission timer times out (Yes in step 3-4). Assuming that the packet is not lost and the relay process is currently being performed, the process returns to step 3-2 to initialize the retransmission timer, and the monitoring of steps 3-3 to 3-5 is started again.

On the other hand, if neither an arrival notification nor a processing notification is received within a fixed time T before the retransmission timer times out (Yes in step 3-5), the packet is considered to be lost and the packet is retransmitted. Yes (Step 3-
6). The time stamp 23 in the packet retransmitted at this time is the transmission time of the retransmission.

The packet transmitted from the communication device 11 to the communication line 15 is relayed by the relay device 12 and is transmitted to the communication line 16
Is sent to the relay device 13 via the relay device 13, further relayed by the relay device 13, and delivered to the communication device 14 via the communication line 17.

Each of the relay devices 12 and 13 performs the processing shown in FIG. 4 by the software operating on the device.

First, when each of the relay devices 12 and 13 receives a packet (step 4-1), it compares the originating time set in the time stamp 23 shown in FIG. 2 of the received packet with the current time. , Whether or not a packet has been transmitted for a certain time t or more (step 4-
2). Here, the fixed time t is set to a time shorter than the fixed time T until the retransmission timer in the communication device 11 of the transmission source times out, for example, about half the time.

If the predetermined time t has not elapsed since the packet was transmitted (No in step 4-2), the received packet is relayed as it is without tampering with the value of the time stamp 23 (step 4-5). .

On the other hand, if a certain time t or more has elapsed from the packet transmission (Yes in step 4-2), for example, the packet number assigned to each packet is designated, and the packet is currently being processed. Through the notification dedicated line 18 to the communication device 11 which is the transmission source of the packet (step 4-3). Then, the current time is reset to the time stamp in the received packet (step 4-
4), relay the packet after this resetting (step 4)
-5).

The packet from the communication device 11 relayed by the relay devices 12 and 13 is received by the communication device 14 which is the final destination. The communication device 14 performs the processing as shown in FIG. 5 by the software operating on the device, and when receiving the packet addressed to itself (step 5
-1 is Yes), the arrival notification of the packet is transmitted to the communication device 11 of the transmission source through the notification dedicated line 18 (step 5-2).

By performing the above operation,
Regarding the delay due to the congestion of the communication line among the delays in the packet transmission, the notifications are sent from the relay devices 12 and 13 at fixed time intervals, so that the packet retransmission is not performed and unnecessary packet retransmission can be suppressed. .

[0024]

As described above, according to the packet retransmission control method by the time stamp of the present invention, the following effects can be obtained.

When a time stamp indicating the transmission time is added to the packet and transmitted, each relay device compares the time stamp of the packet with the current time when processing the packet, and a certain time or more has elapsed from the transmission. For a packet that has already been processed, the packet communication is sent to the source communication device, and the source communication device initializes the packet retransmission timer by receiving this notification. Instead, it is possible to prevent useless packet retransmission when packet transmission is delayed due to congestion of communication lines and the like.

Since the transmission delay time of the transmitted packet itself is checked, it is possible to deal with the case where the traffic changes abruptly.

Since the notification signal from each relay device is sent to the transmission source communication device using the notification dedicated line, the notification signal itself does not overload the communication line for packet transmission.

Since the relay device relays the packet by resetting the time indicated by the time stamp to the current time when the notification signal indicating that the packet is currently being processed is transmitted to the source communication device, basically the packet is Can delay the retransmission of the same packet from the source communication device, no matter how much the transmission of the packet is delayed.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of a communication system to which an embodiment of the present invention is applied.

FIG. 2 is a diagram showing an example of a format of a transmission packet.

FIG. 3 is a flowchart showing an example of processing of a communication device which is a packet transmission source.

FIG. 4 is a flowchart showing an example of processing of a relay device.

FIG. 5 is a flowchart showing an example of processing of a communication device which is a destination of a packet.

[Explanation of symbols]

 11 ... Communication device that is a source of packet 12, 13 ... Relay device 14 ... Communication device that is a destination of packet 15 to 17 ... Communication line for transmitting packet 18 ... Notification dedicated line

Claims (3)

[Claims] 1. A packet retransmission control method in a communication system configured such that a source communication device retransmits a transmission packet for which an arrival notification has not been obtained from a destination communication device connected by a network. When transmitting a packet to the destination communication device, the packet is added with a time stamp indicating the transmission time and transmitted, and the relay device on the network from the source communication device to the destination communication device, The time indicated by the time stamp in the received packet is compared with the current time, and for a packet that has passed a predetermined time or more from the transmission time, the notification signal indicating that the packet is currently being processed is transmitted. To the source communication device, and the source communication device receives the notification signal from the relay device to retransmit the packet. A packet retransmission control method using a time stamp, which comprises initializing a timer. 2. A packet retransmission control method in a communication system configured such that a source communication device retransmits a transmission packet for which an arrival notification has not been obtained from a destination communication device connected by a network. When transmitting the packet to the destination communication device, the packet is added with a time stamp indicating the transmission time and transmitted, and the relay device on the network from the source communication device to the destination communication device, The time indicated by the time stamp in the received packet is compared with the current time, and for a packet which has passed a predetermined time or more from the transmission time, the notification signal indicating that the packet is currently being processed is transmitted. The packet is transmitted to the original communication device, the time indicated by the time stamp is reset to the current time, and the packet is relayed. The original communication device initializes the packet retransmission timer by receiving the notification signal from the relay device, and retransmits the packet when the packet retransmission timer times out. Packet retransmission control by time stamp Method. 3. The method of controlling packet retransmission by time stamp according to claim 1, wherein a notification dedicated line is used for transmitting the notification signal from the relay device to the transmission source communication device.