JPH0287851A - Bit multiplexing transmission system - Google Patents

Abstract

PURPOSE:To decrease a transmission waiting time and to improve the transmission efficiency by decomposing and inserting plural packet data into an information part of an HDLC frame. CONSTITUTION:An information part 4 of an HDLC(high level data link control procedure) frame is divided in accordance with logical channels of a packet level. Subsequently, plural packet data are decomposed at every one bit or more, respectively, the packet data which are decomposed at every one bit or more are inserted into divided positions 101-10n, 201-20n... of the information part 4 determined at every use logical channel, and plural packet data are transmitted by the HDLC frame. In such a way, the transmission waiting time of the succeeding packet data is decreased remarkably and the transmission efficiency is improved, and also, the fairness of a service can be kept.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a bit multiplexing transmission system in data communications, and more particularly to a bit multiplexing transmission system in data communications having a packet multiplexing function.

[Conventional technology]

In data communications having a packet multiplexing function, packets are transmitted using HDLC (high-level data link control procedure) frames. In this type of data communication, the information transmission unit is basically one packet in an IHDLC frame.

[Problem to be solved by the invention]

In data communication with the packet multiplexing function described above, one packet is basically transmitted in an IHDLc frame, so if there are multiple packets to be transmitted, subsequent packets are not transmitted until the transmission process for one packet is completed. cannot be sent. Therefore, there is a drawback that a long transmission waiting time is required and the transmission efficiency is deteriorated.

The purpose of the present invention is to eliminate such drawbacks and to
The object of the present invention is to provide a bit multiplexing transmission method that enables transmission of multiple packets in a frame.

[Means to solve the problem]

The present invention is a bit multiplexing transmission method for transmitting multiple packet data using an information section of an HDLC frame that controls a link level in data communication having a packet multiplexing function, wherein the information section of the HDLC frame is transmitted at a packet level. The plurality of packet data are each divided into 1 or more bits each, and the packet data decomposed into 1 or more bits is divided into the information sections determined for each logical channel used. The HDLC frame is inserted into the HDLC frame, and a plurality of packet data are transmitted in the HDLC frame.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a diagram of bit multiplexed transmission showing one embodiment of the present invention. This embodiment is applied to data communication having a packet multiplexing function, and the packet data shown in FIG. 1(b) is transmitted using the HDLC frame that controls the link level shown in FIG. 1(a). do. Figure 1 (
b) is packet data from the first call to the nth call that requires transmission processing. Here, the first call refers to the call with the lowest number among the logical channels in use during multiplex transmission, the call with the next lowest number is the second call, and the calls are divided in order according to the logical channel. Is going.

Then, the call using the oldest logical channel is
Let's call it the nth call.

Such data communication in which a plurality of packets are transmitted is performed using the HDLC frame shown in FIG. 1(a). First, a start flag 1 indicating the start of an I HDLC frame is transmitted. Next, following this start flag 1, the address section 2 is transmitted. The address section 2 transmits the address of the other party receiving the frame. Following the address section 2, the control section 3 is transmitted. By the control unit 3,
Control information related to data communication is transmitted. Following the control section 3, the information section 4 is transmitted.

This information unit 4 transmits the packet/node data from the first call to the nth call shown in FIG. 1(b). To perform this transmission, the information section 4 is divided into logical channel correspondences at the packet level, and packet data decomposed into bits is inserted into pit positions determined for each logical channel used.

That is, the first bit of the first octet of the first call is HD.
It is inserted into the first bit position 10 of the information section 4 of the LC frame. The first bit of the first octet of the second call is inserted into the next pit position 10□.

Thereafter, the first bits of the third call to the nth call are inserted into pit positions 103 to 10□. Continuing pit position 20
1, the second bit of the first octet of the first call is inserted, and bit positions 20□ to 20. , the second bit of the first octet of the second call to the nth call are respectively inserted.

The third bit of the first octet of the first call to the nth call is inserted into the next pit positions 301 to 30n, respectively. Then, when the 8th bit of the 1st octet of the 1st call to the nth call is inserted into the pit position of the information section 4, the 1st bit of the 2nd octet of the 1st call to the nth call is inserted, respectively. It is inserted into the pit position of the information section 4. Similarly, HD
This bit insertion process is performed up to the maximum length that the information section 4 of the LC frame can take. If the information section 4 of one HDLC frame cannot insert all the packet data from the 1st call to the nth call, a new HDLC frame is generated and the bi-node disassembly and insertion process continues m is repeated. In this way, the first to 1000th octets
1st call of octets, 2nd call of 1st to 100th octets, 3rd call of 1st to 200th octets, ..., 1st to 500th octets, etc.
The data packet of the node's nth call is transmitted.

Following such information section 4, a frame check sequence 5 is transmitted. This frame check sequence 5 transmits information for error control in data communication. Following the frame check sequence 5, a termination flag 6 indicating the termination of the IHDLC frame is transmitted.

On the receiving side that receives such an HDLC frame, H
It is possible to assemble the original packet data for each used logical channel from the bit/node position inserted in the DLC frame.

In this way, according to this embodiment, multiple packet data can be transmitted in an I HDLC frame, and when small-sized packet data is transmitted following large-sized packet data, or when a call that transmits a large amount of data and a call that transmits a small amount of data Even if there are calls that transmit data, IHDLC
Can be sent as a frame.

〔Effect of the invention〕

As explained above, the present invention significantly reduces the transmission waiting time of subsequent packet data and improves transmission efficiency by inserting a plurality of bit-multiplexed packet data into the information section of one HDLC frame. This has the effect of protecting the fairness of services.

[Brief explanation of drawings]

FIG. 1 is a diagram of bit multiplex transmission showing an embodiment of the present invention. FIG. 1(a) is a diagram of the configuration of an HDLC frame.
b) is packet data that requires transmission processing.・Start flag ・Address section ・Control section ・Information section ・Frame check sequence ・End flag

Claims (1)

[Claims] (1) A bit multiplexing transmission method for transmitting multiple packet data using the information part of an HDLC frame that controls the link level of data communication having a packet multiplexing function, the information part of the HDLC frame being transmitted at the packet level. The plurality of packet data are divided into sections corresponding to logical channels, each of the plurality of packet data is decomposed into units of 1 or more bits, and the packet data which is decomposed into units of 1 or more bits is divided into sections of the information section determined for each logical channel to be used. The bit multiplexing transmission method is characterized in that a plurality of packet data are transmitted in the HDLC frame.