JPS62233951A - Multiplex packet transmission system - Google Patents

Abstract

PURPOSE:To improve the transmission efficiency and the processing capability of a transmitter by inserting a packet length table between packet fields, sending the packet while averaging the frame length, analyzing the result by the reception section to separate packets. CONSTITUTION:A frame transmission means 3 inserting a packet length field between packet fields and multiplexing the rsult, and a frame reception means 5 analyzing the packet length field between the packet fields are provided. A transmission means approaches a packet subjected to queueing to a transmission standby queue 4 to a maximum frame length in a range not exceeding the maximum frame length defined between links, multiplexes the packet while inserting the packet length field, constitutes the multiplex packet frame whose field length is averaged and sends the multiplexed packet frame. A reception means 5 analyzes the packet length field from the received frame, splits the result at every packet and informs the packet from the top packet to a high- order level 2 sequentially.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a packet transmission system having a high-level data link (HDLC) procedure, and in particular to multiple packet transmission in which multiple packets are inserted into an l frame and transmitted. Regarding the method.

〔overview〕

In a multiple packet transmission method that inserts and transmits multiple packets in one frame, the present invention inserts a packet length field between packet fields, averages the frame length, and transmits it, and the receiving side analyzes this and determines the packet. By separating, the transmission efficiency is improved and the processing capacity of the transmission device is improved.

[Conventional technology]

Conventional multiple packet transmission technology includes the all-processing multiple packet transmission method (Reference: Shuuti, Yoshikawa, "Multi-packet transmission analysis in packet switching networks" (M.).

Nomura and Yoshida:
”Analysis on Multi-pa
cket Transmission in pack
et 5w1tched Net-works"+
Pacific Telecommunication
n Conf,+Honolulu,Ilawaii
Jan, 8-91979) ), All-processing multi-packet transmission method with priority (Reference Komatsu, previous edition: Institute of Electronics and Communication Engineers Transactions B Solj68-B No. 9. PP.

962-970 (Sho 6O-09), etc.

FIG. 3 shows a frame structure of a multiplex packet in a conventional multiplex packet transmission system.

In the conventional technology, the packets P3, P2, . . . Either they would send all of them as is, or they would send P+, Pz, . . . with appropriate priority.

[Problem that the invention seeks to solve]

The conventional multiplex packet transmission technology described above either inserts all packets that arrive until the end of frame transmission into a single frame, or prioritizes the packets and inserts them into the frame in the order of priority. The literature states that it is an effective transmission method as a result of traffic analysis.

However, if a frame in which a plurality of packets are multiplexed is directly reported to an upper level, the packet format in which the upper level sends the packet and the packet format in which it receives the packet are different, resulting in complicated processing.

In addition, conventional multiplex packet transmission technology does not take into account the maximum frame length limit defined between links.
The disadvantage was that the frame lengths varied, making it impossible to improve transmission efficiency.

SUMMARY OF THE INVENTION An object of the present invention is to provide a multiple packet transmission method that improves packet transmission efficiency and improves the processing ability of a transmission device.

[Means for solving problems]

The present invention relates to a multiplex packet transmission method that inserts and transmits a plurality of packets into one frame, and provides frame transmitting means that inserts and multiplexes a packet length field between packet fields, and a frame transmitter that inserts and multiplexes a packet length field between packet fields. and frame receiving means for analyzing, and the frame transmitting means multiplexes packets by approaching the maximum frame length within a range that does not exceed the maximum frame length defined between links by transmitting request packets from a higher level. The frame receiving means includes:
The present invention is characterized in that it includes means for disassembling a frame into packet units by analyzing a packet length field inserted between packet fields and notifying a higher level.

[Effect]

The transmitting means queues the packet in a transmission waiting queue, approaches the maximum frame length within a range that does not exceed the maximum frame length defined between links, multiplexes the packet while inserting a packet length field, and increases the frame length. An averaged multiple packet frame is constructed and the multiplexed packet frame is transmitted.

The receiving means analyzes the packet length field from the received frame, divides it into packets, and sequentially reports the packets from the first packet to a higher level.

〔Example〕

Next, the present invention will be explained in detail with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of a line control device to which a multiple packet transmission system according to an embodiment of the present invention is applied.

The line control device 1 of this embodiment has a high-level processing means 2.
a frame transmitting means 3 that queues a transmission request packet from a higher level to a transmission waiting queue 4 and transmits it to a line 6; and a frame receiving means that transmits a frame received from the fourth line 6 to a higher level processing means 2. FIG. 2 is an explanatory diagram showing the frame structure of the embodiment. In FIG. 2, the transmission waiting queue 4-1 is the same as the transmission waiting queue 4 shown in FIG. and includes transmission request packets P8, P2, P from a higher level.
4, P4, and PS are queued, and these are each multiplexed to form a frame.

10 and 11 indicate the frame formats of the framed multiple packets in this embodiment. This frame 10.11
10-A and 11-A indicate frame header sections, and 10-B and 11-B indicate frame tail sections. Further, LI to L indicate packet length fields indicating the packet lengths of packets P + to ps.

Here, Li (in this example, i=1, 2...5
) is a field indicating the packet length of the i-th packet Pi, and the field L is a constant length (byte length) regardless of i. The length of this packet length field L is expressed as LL. Further, the length of the i-th packet P is expressed as LP. Furthermore, let N be the maximum frame length defined between links.

The operation of the embodiment will be explained below.

First, the operation of the frame transmitting means will be explained.

When configuring a frame, first determine the number of packets in the transmission queue that can be multiplexed without exceeding the maximum frame length. That is, find m, ax(Σ (LLi +LP,)≦N). In this embodiment, when i is 3, it does not exceed the maximum frame length N and is closest to the maximum frame length N. Therefore, using this formula, as shown in FIG. 2, the first to third packets P+, Pl, Pi is multiplexed into packets and transmitted in frame 10 format.

Similarly, the remaining packets P4 and P5 are configured into frame 11 and transmitted.

In this way, as shown in FIG. 2, a field L indicating each packet length is inserted between multiplexed packets.
, ~L, while constructing a frame and transmitting it.

Next, the operation of the frame receiving means will be explained using frame 10 as an example.

When a multi-packetized frame 10 is received, from the total frame length of frame 10, and the length of Pl LLI
+LPl is subtracted, and if there is a remainder, the packet Pl
Notify higher levels.

Furthermore, from the remaining length, the length LL of L2 and Pl
, +LP2, and if there is any remaining bucket) Pg is notified to a higher level. This process is repeated, and when the remaining length becomes 0, the last bucket) Pg is notified to a higher level and the process is terminated.

FIG. 4 is a flowchart showing the operation of the above-mentioned frame transmitting means, and FIG. 5 is a flowchart showing the operation of the above-mentioned frame receiving means.

〔Effect of the invention〕

As explained above, according to the present invention, by performing multiplex packetization, in addition to preventing a reduction in transmission efficiency due to frame headers and frame tails, it is possible to achieve a frame length as close as possible to the maximum frame length defined between links. By performing multiple packetization, packet transmission is performed using frames whose frame lengths are averaged, so that the maximum amount of information can be transmitted and received with the minimum number of times. Thereby, the memory and CPU processing time of the line control device can be used efficiently, and the packet transmission processing capacity can be improved.

In addition, when a multi-packetized frame is received, the packet length information inserted between the packets is analyzed, broken down into individual packets, and notified to a higher level, so there is no need to change the processing at a higher level. A packet transmission/reception transmission device can be realized.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. FIG. 2 is an explanatory diagram showing the frame structure of the embodiment of the present invention. FIG. 3 is an explanatory diagram showing a conventional frame structure. FIG. 4 is an operation flowchart of the frame transmitting means according to the embodiment of the present invention. FIG. 5 is an operation flowchart of the frame receiving means according to the embodiment of the present invention. 1... Line control device, 2... High-level processing means,
3...Frame transmission means, 4...Transmission waiting queue,
5... Frame receiving means, 6... Line, 10, ll
, 20...frame.

Claims (1)

[Claims] (1) In a multiplex packet transmission method that inserts and transmits multiple packets in one frame, analyze the frame transmission means that inserts a packet length field between packet fields and multiplexes them, and the packet length field between packet fields. The frame transmitting means includes a means for multiplexing packets requesting transmission from a higher level by approaching the maximum frame length within a range that does not exceed the maximum frame length defined between links. A multiple packet transmission system, characterized in that the frame receiving means includes: means for disassembling the frame into packet units by analyzing a packet length field inserted between packet fields and notifying a higher level.