JPH0449741A - Frame repeating system - Google Patents

Abstract

PURPOSE:To quickly and surely complete the transfer of information to be transferred to an opposite device via a multi-link by providing a re-transmission information means at each single link mechanism, and a plural frame request change means at a multi-link mechanism. CONSTITUTION:The re-transmission informing means 100 detects the fact that the re-transmission of the same frame to a single link are tried for prescribed number of times, and performs a re-transmission notice to the multi-link mechanism 2. The plural frame request change means 200 requests and changes all the frames whose transfer are incomplete and whose transfer is requested to the single link mechanism 3 to another single link mechanism 3 when receiving the re-transmission notice from an arbitrary single link mechanism 3. Therefore, it is possible to quickly and surely transfer all the frames whose transfer are incomplete and whose transfer is being requested to the single link mechanism from which the re-transmission notice is issued to the opposite device.

Description

[Detailed Description of the Invention] (Summary) Regarding a frame retransmission method in a data communication device that transfers frames via a multilink consisting of a plurality of single links, information transferred via the multilink is In order to quickly and reliably complete the transfer to the opposite device, each single link mechanism detects that the same frame has been retransmitted a predetermined number of times to the corresponding single link, and notifies the multi-link mechanism of retransmission. If the multi-link mechanism receives a re-transmission notification from any single link mechanism that forms a single link constituting the multi-link, the multi-link mechanism indicates that the single link mechanism ζ has requested the transfer and has not yet transferred it. Multi-frame dependence M where all completed frames are re-requested to other single link mechanisms that form single links that make up the multi-link.
The configuration is such that a changing means is provided.

[Industrial application field]

The present invention relates to a frame retransmission method in a data communication device that transfers frames via a multilink composed of a plurality of single links.

CCITT Recommendation X25 or X7 that connects data communication devices with multiple communication lines and is formed on each communication line
Attempts have been made to construct a high-speed, high-transmission-capacity data link (hereinafter referred to as a multilink) using a data link (hereinafter referred to as a single link) with a transmission control procedure based on 5.5.

[Conventional technology]

FIG. 4 is a diagram showing an example of a conventional data communication device, and FIG. 5 is a diagram showing an example of the frame retransmission method in FIG. 4.

In FIG. 4, the data communication device has two sets of communication lines 5 (individual communication lines 5-1 and 5-2) connected to the same data communication device (hereinafter referred to as opposite device) (not shown).
A line interface section (PLC) 4 and a single link mechanism (SLP) 3 are provided corresponding to each communication line 5.

Each single link mechanism (SLP) 3 forms a single link SL of a transmission control procedure based on, for example, CCITT recommendation X25 on the corresponding communication line 5.

Furthermore, the data communication device includes each single link mechanism (SLP).
) 3 are equipped with a multi-link mechanism (MLP) 2 in common, and each single link mechanism (SLP) 3-1 and 3 are equipped with a multi-link mechanism (MLP) 2.
-2 forms multi-link ML on single links 5L-1 and 5L-2 formed on corresponding communication lines 5-1 and 5-2, respectively.

4 and 5, the packet switching processing unit (P
SC) 1 transfers three sets of data packets DT (0,0), DT (
1,0) and DT(2,0) using a multi-link mechanism (M
LP) 2, multilink machine 1 (MLP) 2
is each transmitted data packet DT (0,0),
A multilink control field including a multilink transmission order number is added to DT (1,0) and DT(2,0) to create multilink frames M(0), M(1) and M
(2) Edit [however, 0), (1), and (2) indicate multilink transmission order numbers] and sequentially transmit it to one single link mechanism (SLP) 3-1 to request transfer. together with each transmitted multilink frame M(0), M
(1) and M(2) are connected to a single link mechanism (SLP).
) 3-1 frame register (FRC) 21-
Save within 1.

The single link machine 1 (SLP) 3-1 stores the multilink frames M(0), M(1), and M(2) transmitted from the multilink machine (MLP) 2 in a transmission queue (QUE) 31 in the order of arrival. −1, then send queue (Q
UE) 31-1 starts the multilink frame M(0
), edits the information frame I (0°0) based on a predetermined transmission control procedure, and sends it to the line interface unit (PLC).
) 4-1 to the single link 5L-1 formed on the communication line 5-1.

The transmitted information frame I(0,0) is transmitted through the communication line 5-
When the information frame I(0,0) is transferred to the opposite device via single link 5L-1, the opposite device transfers the monitoring frame RR(,1) that fi acknowledges the reception of information frame I(0,0) to the single link via single link 5L-1. Return it to the organization (SLP) 3-1.

The single link mechanism (SLP) 3-1 that received the monitoring frame RR(,1) sends the multi-link mechanism (MLP) 2
In order to notify that the transfer of the multilink frame M(0) has been completed, the monitor frame RR(,1) is transferred to the multilink mechanism (MLP) 2, and then sent to the transmission queue (QUE) 31- The next multilink frame M(1) is extracted from 1 and the information frame r(1,
0) and send it to single link S L -1.

Multilink II that received monitoring frame RR(,1)
III (MLP) 2 is a multilink frame M(0)
The frame register (F
RG) 21-1 is deleted.

At this time, if a failure occurs in the communication line 5-1 and the monitoring frame RR (, 2) that confirms the reception of the information frame ■ (1°0) is not returned from the opposing device, the single link mechanism (SLP) il is an information frame! Measure the elapsed time after sending out the information frame N (1, 0), and if the monitoring frame RR (, 2) is not returned even after the predetermined time T elapses, the information frame N (1°0) is sent again. Single link 5L-1
Send to.

If the fault in the communication line 5-1 is not repaired and the monitoring frame RR(,2) is still not returned even after a predetermined time T has elapsed after retransmission, the single link mechanism (SLP) 3-1 sends the information frame I Repeat retransmission of (1,0).

On the other hand, the MN one-time retransmission processing unit (MNIC) 32-1 in the single link mechanism (SLP) 3-1 counts the number of times the information frame I(1,0) is retransmitted by the single link mechanism (SLP) 3-1. When the number of retransmissions reaches a predetermined number of times (for example, MN 1 time in accordance with the above-mentioned recommendation In order to send the MN one-time retransmission notification MNI EM (1)] to the multi-link mechanism (MLP) 2, the information frame is sent to the multi-link mechanism (MLP) 2. Continue retransmission of (1,0).

The multi-link mechanism (MLP) 2 that received the MN one-time retransmission notification MNI [M (1)] transmits the single frame retransmission unit (
SFC) 22 is started.

When the activated single frame retransmission unit (SFC) 22 recognizes that the multilink frame M(1) is not likely to be transferred to the opposite device via the single link 5L-1, it sends a message from the frame register (FRG) 21-1. Extract the multilink frame M(1) and add the other single link III
(SLP) 32 to request transfer to the opposite device, and at the same time, it is stored in the corresponding frame register (FRG) 21-2 of the single link mechanism (SLP) 1-2L.

As described above, the single link mechanism (SLP) 3-2 stores the multilink frame M(1) transmitted from the multilink mechanism (MLP) 2 in the transmission queue (QUE) 31-.
2, extracts the multilink frame M(1) from the transmission queue (QUE) 31-2, edits the information frame I(0,0) based on a predetermined transmission control procedure, and connects the line interface unit ( Communication line 5 via PLC) 4-2
The signal is sent to the single link 5L-1 formed on -2.

On the other hand, in single link mechanisms (SLP) 3 to 1 that continue to retransmit information frame I(1,0), N2
The retransmission processing unit (N2C) 33-1 counts the number of retransmissions of the information frame I (1,0) by the single link mechanism (SLP) 3-1, and
When a predetermined number of times greater than one time (for example, N2 times (however, N22MHI) according to the above-mentioned recommendation X25) is reached, the single link 5L-1 formed on the communication line 5-1 is temporarily released and then re-formed. Repair 2, multi-link mechanism (
MLP) 2 is notified of the re-formation of the single link 5L-1.

By re-forming single link 5L-1, the transmission queue (
All multilink frames M(1) and M(2) connected to QUE) 31-1 are deleted.

Single link mechanism (SLP): Multi link mechanism (M
LP) 2 extracts all multilink frames M(2) stored in the frame register (FRG) 211, requests transfer to another single link mechanism (SLP) 3-2, and stores them in the frame register (FRG) 211. FRG) 21-2.

[Problem to be solved by the invention]

As is clear from the above explanation, in a conventional data communication device, the multi-link mechanism (MLP) 2, which has received the MN one-time retransmission notification MN1 [M(1)] from the single link mechanism (SLP) 3-1, sends the notification Only the multi-link frame M(1) that has been
) 3-2, and the remaining multilink frame M(2) is further transferred to single link machine 1 (SLP) 31.
After trying to retransmit N2 times (N22MNI), it finally requested another single link mechanism (SLP) l-2 to transfer, so it took a long time before multilink frame M(2) was reliably transferred. There was a problem that took a long time.

Note that after attempting to retransmit the information frame I (1,0) MN1 times, the failure of the communication line 5-1 is recovered L7 and the transfer of the information frame I (1°0) is completed by the time the number of retransmissions reaches N2 times. However, it is extremely unlikely that the information frame I(1,0), which has not been completely transferred after MN1 retransmission, will be completely transferred by the time it is retransmitted N2 times.

The present invention enables information transferred via multi-links to
The purpose is to complete the transfer to the opposing device as quickly and reliably as possible.

[Means to solve the problem]

FIG. 1 is a diagram showing the principle of the present invention.

In FIG. 1, 2 is a multi-link mechanism, 3 is a single link mechanism, and 5 is a communication line.

100 is a retransmission notification means provided in each single link mechanism 3 according to the present invention.

200 is a multiple frame request changing means provided in the multi-link mechanism 2 according to the present invention.

[Operation] The single link devices tN3 each form a single link on the corresponding single communication line 5.

The multi-link mechanism 2 forms a plurality of single-link multi-links and requests a plurality of single-link mechanisms 3 corresponding to each single link to transfer frames.

The retransmission notification means 100 detects that the same frame has been attempted to be retransmitted a predetermined number of times to each corresponding single link, and notifies the multilink mechanism 2 of the retransmission.

When receiving a retransmission notification from any single link mechanism 3 forming a single link constituting a multi-link, the multiple frame request changing means 200 changes all frames that are requested to be transferred to the single link device 113 but have not yet been transferred. The frame is changed to another single link mechanism 3 forming a single link forming a multi-link.

Note that the retransmission notification means 100 transmits the same frame to CCITT.
It is considered to issue a retransmission notification when the MN attempts to retransmit one time as shown in recommendation X25 or X75.

Accordingly, all untransferred frames requested by the single link mechanism that has issued the retransmission notification are quickly and reliably transferred to the opposing device, improving the reliability and transmission capability of the data communication device.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 2 is a diagram showing a data communication device according to an embodiment of the present invention, and FIG. 3 is a diagram showing an example of the frame retransmission method in FIG. 2. Note that the same reference numerals indicate the same objects throughout the figures.

In FIG. 2, the data communication device accommodates two communication lines 5 as in FIG. 4, and two sets of non-glue link mechanisms (
SLP) 3 and a line interface section (PLC) 4 are provided, and a bucket exchange processing section (PSC) 1 and a multi-link mechanism (MLP) 2 are provided in common.

Each single link mechanism (SLP) 3, as described above,
A single link SL is formed on each corresponding communication line 5, and the multi-link mechanism (MLP) 2 forms a multi-link ML on the single links 5L-1 and 5L-2 as described above.

Each single link mechanism (SLP) 3 includes an MN one-time retransmission processing unit (MN
The multi-link mechanism (MLP) 2 is provided with a multi-frame retransmission unit (MFC) as the multi-frame switching means 200 in FIG.
) 23 are provided.

In FIGS. 2 and 3, the packet switching processing unit (P
SC)l is to transfer three sets of data packets DT(0,0), DT(1,0) to the opposite device via the multilink configured by the multilink mechanism (MLP) 2.
and DT(2,0) as multi-link mechanism (MLP) 2
DT (0,0), DT (1
. The transmission is sequentially transmitted to the single link mechanism (SLP) 3-1 to request transfer, and each transmitted multilink frame M (OL M (1) and M (2)
is stored in the frame register (FRG) 21-1 corresponding to the single link II (SI, P) 3-1.

Single link mechanism (SLP) 3-1! ! , multilink frames M(O), M(1), and M(2) transmitted from multilink device 1 (MLP) 2 are connected to a transmission queue (QUE) 31-1 in the order of arrival, and then (Q
UE) 31-1 to the first multilink frame M(0
), edits the information frame I (0°0) based on a predetermined transmission control procedure, and sends it to the line interface unit (PLC).
) 4-1 to the single link 5L-1 formed on the communication line 5-1.

The transmitted information frame I(0,0) is transmitted through the communication line 5-
1 to the opposite device, the opposite device sends a monitoring frame R to confirm reception of the information frame I(0,0).
R(,1) is returned to the single link mechanism (SLP) 3-1 via the single link 5L-1.

The single link mechanism (SLP) 3-1 that received the monitoring frame RR(,1) sends the multi-link mechanism (MLP) 2
In order to notify that the transfer of the multilink frame M(0) is completed, the monitor frame RR(1) is transferred to the multilink mechanism (MLP) 2, and then sent to the transmission queue (QUE) 31-1. Next multilink frame M from
(1) and extract the information frame I(1,0
) and send it to Single Link 5L-1.

The multi-link mechanism (MLP) 2 that received the monitoring frame RR(,1) recognizes that the transfer of the multi-link frame M(0) has been completed, and registers the frame register (FRG).
Multilink frame M(0) stored in 211
Delete.

At this time, if a failure occurs in the communication line 5-1 and the monitoring frame RR (, 2) that confirms the reception of the information frame I (1, 0) is not returned from the opposite device, the single link mechanism (SLP) 3-i measures the elapsed time after sending the information frame 1 (1, 0), and if the monitoring frame RR (, 2) is not returned even after the predetermined time T elapses,
Single link information frame I (10) again to 5L-1
Send 4.

If the fault in the communication line 5-1 is not repaired and the monitoring frame RR (, 2) is still not returned even after a predetermined time T has elapsed after retransmission, the single link mechanism (SLP) sends the information frame to 3-1. Repeat the retransmission of D (1,0).

On the other hand, MN in the single link mechanism (Sl, , P) 3-1
The one-time retransmission processing unit (MNIC) 311 receives the information frame I(1,0) by the single link mechanism (SLP) 3-1.
The number of retransmissions is counted, and when the number of retransmissions reaches a predetermined number (for example, MN1 times), it is notified to the multilink mechanism (MLP) 2 that the multilink frame M(1) has been retransmitted once by MN. In order to notify, the MN resends the notification MN1 [M(1)
At the same time, the retransmission of information frame 1 (1°0) continues.

The multi-link mechanism (MLP) 2 that received the MN one-time retransmission notification MNI [M (1)] transmits the multiple frame retransmission unit (
Start MFC)23.

The activated multiple frame retransmission unit (MFC) 23 converts multilink frame M(1) and subsequent frames to single link 5L-
When it is recognized that the data will not be transferred to the opposite device via the frame register (FRG) 21-1, all of the information stored in the frame register (FRG) 21-1 that is being requested to be transferred to the single link mechanism (SLP) 3-1 and has not yet been transferred is displayed. Multilink frame M(1)
and M(2), and extract the other single link mechanism (
The frame register (FRG) 21-2 corresponding to the single link machine 1 (SLP) 3-2 stores the frame register (FRG) 21-2.

As described above, the single link mechanism (SLP) 3-2 stores the multilink frames M(1) and M(2) transmitted from the multilink mechanism (MLP) 2 in the transmission queue (
QUE) 31-2, the transmission queue (QUE)
31-2 to multilink frames M(1) and M(
2) sequentially extract information frames based on a predetermined transmission procedure! (0,0) and 1 (1°0) are edited and a single link 5L-2 is formed on the communication line 5-2 via the line interface unit (PLC) 4-2.
Send to.

As is clear from the above description, according to this embodiment, the multi-link mechanism (which received the MN one-time retransmission notification MNI [M (0) U) from the single link mechanism (SLP) 3-1
MLP) 2 considers that there is a high possibility that the single link set by the single link mechanism (SLP) 3-1 will be re-formed, and requests the single link mechanism (SLP) 3-1 to transfer it, but has not yet transferred it. Connect all completed multi-link frames M(1) and M(2) to another single-link mechanism (S
Since the transfer is requested again to LP) 3-2, all multilink frames M(1) and M(2) are promptly transferred to the opposite device.

Note that FIGS. 2 and 3 are only one embodiment of the present invention, and for example, the communication line 5 accommodated by the data communication device is not limited to two lines, and many other modifications may be considered. However, the effects of the present invention remain the same in either case.

It goes without saying that the configuration of the data communication device to which the present invention is applied is not limited to that shown in the drawings.

[Effects of the Invention] As described above, according to the present invention, in the data communication device,
All uncompleted frames being requested to be transferred to the single link mechanism that has issued the retransmission notification will be quickly and reliably transferred to the opposite device, improving the reliability and transmission capacity of the data communication device.

FIG. 3 is a diagram showing an example of the frame retransmission method in FIG. 2, and FIG.
The figure shows an example of a conventional data communication device, and FIG. 5 is a diagram showing an example of the frame retransmission method in FIG. 4.

In the figure, numeral 1 is the packet switching processing unit (PSC), 2 is the multilink IIm (MLP), 3 is the single link mechanism (SLP), and 4 is the line interface unit (PLC).
), 5 is a communication line, 21 is a frame register (FRG)
, 22 is a single frame retransmission unit (SFC), 23 is a multiple frame retransmission unit (MFC), and 31 is a transmission queue (QUE).
, 32 is the MN one-time retransmission processing unit (MNIC), and 33 is the N
2 retransmission processing unit (N2C), 100 is retransmission notification means, 2

[Brief explanation of drawings]

Figure 1 is a diagram showing the principle of the present invention, Figure 2 is a diagram showing the basic principle of the present invention.
(f) Principle diagram 1 Figure 7 Chrysanthemum 7 Openings 6 Frames Sending tank 3 Figure

Claims (2)

[Claims] (1) Multiple single link mechanisms (3) each forming a single link on a corresponding single communication line (5)
and a multi-link mechanism (2) that forms a multi-link on the plurality of single links and requests frame transfer to a plurality of single-link mechanisms (3) corresponding to each of the single links. In each single link mechanism (3), it is detected that the same frame has been attempted to be retransmitted a predetermined number of times to the corresponding single link, and the multi-link mechanism (2)
a retransmission notification means (100) is provided to issue a retransmission notification to the multilink mechanism (2), and when the multilink mechanism (2) receives the retransmission notification from any single link mechanism (3) forming a single link constituting the multilink; , all the frames that have been requested to be transferred to the single link mechanism (3) but have not yet been transferred are re-requested to other single link mechanisms (3) that form the single links constituting the multi-link. A frame retransmission method characterized by providing a request change means (200). (2) The frame retransmission method according to claim 1, wherein the retransmission notification means (100) performs the retransmission notification when an MN attempts to retransmit the same frame once as indicated in CCITT recommendations X25 or X75. .