JPH01220552A - Packet receiving system - Google Patents

Abstract

PURPOSE:To reduce complicated control at a reception part and to decrease the overhead of a packet by performing the insertion of a pseudo packet and the deletion of the packet. CONSTITUTION:The loss of the packet (n) or the mixing of an unauthorized packet (m') can be recognized by monitoring the arrival of the packet in a period from a time when the packet is reproduced to the time when the reproduction of the next packet is started. Since no arrival of the packet (m) is recognized in a period (n), a reception part inserts the pseudo packet (n). Also, since two packets, the packet (m) and the unauthorized packet (m'), arrive in a period (m), the reception part deletes either the packet (m) or (m,), and designates the packet received in the period (m) to one. For the sequence of arriving packets (n-2), (n-1), (n+1)-(m-1), (m), (m'), (m+1)-, the packets divided by the above operation go to (n-2), (n-1), (n), (n+1)-(m-1), (m), (m+1)-, then, time transparency can be kept.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method of communicating information having a periodic nature using a packet switching method.

(Prior art) When realizing continuous periodic communication of information such as voice communication using a packet switching network, while packets are periodically generated on the transmitting side, individual packets are transmitted in the network on the receiving side. It is necessary to reduce the effects of queuing delays and packet discards (hereinafter referred to as packet loss) and reproduce (decompose) the sound as close to the original sound as possible.

A problem that arises when packets are disassembled in the receiving section is that the time sequence of the original sound is disrupted (time translation error) due to packet loss or the inclusion of illegal packets. Mixing of invalid packets is caused by a bit error occurring due to a network failure or transmission error, and a packet originally sent to destination A is sent to destination B, which is different from destination A.
This occurs when the packet becomes an invalid packet with the following information and arrives at the receiving unit of destination B. To deal with the mixing of illegal packets, there is a known method of discarding the illegal packets using an error detection code, but this method cannot detect 100% illegal packets. Also, bucket loss occurs in the case of the above-mentioned transmission error and in the case of buffer overflow.

Generally, as a measure to prevent the disturbance, there is a method of inserting a pseudo packet (filling) in the case of the packet loss, and discarding the packet in the case of the mixing of the illegal packet. As information for realizing the above means, a serial number (sequence number) or a timestamp (hereinafter simply referred to as sequence number) in a packet header is generally used.

As shown in FIG. 2, by using the difference in sequence numbers, it is possible to detect the mixing of illegal packets and the loss of packets, and take measures to prevent the time transparency range from being disturbed.

By the way, when the network characteristics satisfy certain conditions,
In other words, in a situation where there is always one arriving packet during packet disassembly, if no packet arrives during packet disassembly, a packet loss will occur, or if two or more packets arrive, an invalid packet will be mixed in. It is possible to make a decision to maintain the time transparency range by simply observing the number of arriving packets.

Therefore, in the case of the above conditions, using the sequence number is redundant, increases costs due to packet overhead, and also complicates control of the receiving section.

(Problems to be Solved by the Invention) The purpose of the present invention is to eliminate the drawbacks of such conventional methods, reduce complicated control in the receiving section, and provide a reception reproduction procedure that reduces packet overhead. It's about doing.

(Means for Solving the Problems) The present invention provides a packet reception method in which packets periodically transmitted from a transmitting side are received and the received packets are periodically disassembled. If the number N of packets arriving at the receiving side during the period up to the start of disassembly of the next received packet after this packet is 0, one pseudo packet is sent instead of the packet that should arrive during the period. Insert, if there are 2 or more, N
- The one arriving packet is discarded.

(Operation) The present invention will be described in detail with reference to FIG. In the present invention, as shown in FIG. 1, from the start of packet reproduction,
By monitoring the arrival of packets during the period up to the start of reproduction of the next packet, it is possible to know if packet n is lost or if an invalid packet m' is mixed in. As shown in FIG. 1, since no packet n arrives during the period n, the receiver inserts a pseudo packet n. Also, since two packets, packet m and invalid packet m', arrive in period m, the receiving unit discards either packet m or invalid packet m' and narrows down the number of packets received in period m to one. . Order of arriving packets n-2, n-1°n+1. ..., m-1, m, m', m+
1. ..., the packets to be disassembled by the above operation are n-2, n-1, n.

n+1. ..., m-1, m, m+ 1.・・・
...and the time transparency range can be maintained. In FIG. 1, n+2=m.

(Example) Next, an example for realizing the present invention will be described using FIGS. 3 and 4.

FIG. 3 is a diagram showing a packet receiving device according to the present invention. In the packet receiving device 300 of FIG. 3, the packet disassembly device 315 sequentially takes out the packets stored in the packet buffer 317 and disassembles the packets into pit streams or byte streams. The packet disassembly device 315 sends a disassembly start signal 305 to the counter 312 and switch P313 at the time of starting the disassembly. In response to the decomposition start signal 305, the counter 312
will be reset to The count value 304 of the counter 312 is
Instructs switching of switch 5311 and switch P313.

The switch 83.11 sends the arriving packet 303 arriving from the packet network to the data line 301 or the data line 302 according to the count value 304 as shown in FIG. 4(a). The count value 304 indicates the number of packets that have arrived since the start of packet disassembly, and if the count value 304 is 0, it means that no packet has arrived by the arrival time of the packet 303, so the switch 5
311 sends the arriving packet 303 to the data line 301. Conversely, when the count value 304 is greater than or equal to 1, it means that at least one packet other than the arriving packet 303 has already arrived, so the packet 303 is sent to the data line 302 and discarded.

The packet sent from the switch 5311 to the data line 301 passes through the detector 316 and is sent to the packet buffer 317.
be put into. Detector 316 increments counter 312 each time the packet passes.

The switch P313 operates according to the count value 304 as shown in FIG. 4(b). The fact that the count value 304 is O at the time when the disassembly start signal 305 is generated means that no packet has arrived during the packet disassembly period, that is, the packet is lost. , is output as a packet insertion signal 306.

The pseudo packet generator 318 generates the packet insertion signal 306
Thus, one pseudo packet is created and the pseudo packet is sent to the bucket buffer 317.

In addition, in the present invention, the fluctuation of the network delay QD (assumed to be the maximum value of QD @QD') is determined by the packet creation time PD.
It is effective when it is somewhat smaller than , and strictly speaking,
The relationship between PD and QD' that makes the present invention effective differs depending on the delay difference absorption method used in the receiving section. The delay difference absorption method in the receiving section was developed by Murase and Suzuki.

Intra, [Method for realizing voice communication in high-speed packet switching]
, IEICE Technical Research Report, 5E-87-56
゜VOL, 87. NO, 104G: In the case of the described method, it is necessary to satisfy the condition QD'<PD/2. For example, in a network where QD = 1 msec, if voice is communicated at a speed of 64 kbps, if the packet length is 16 bytes or more, the PD
= 2m5ec or more, so the above condition is satisfied.

(Effects of the Invention) In the present invention, the overhead due to sequence numbers of several percent to several tens of percent, which was conventionally required in the header part of a packet, is reduced to 0.
This allows for efficient communication. For example, in the case of a packet with a sequence number of 1 byte and information of 32 bytes, the overhead of 3% becomes 0% in the present invention.

Furthermore, since there is no need to calculate the difference in sequence numbers of consecutively arriving packets, the packet receiving device and control become simpler, and a low-cost receiving section can be realized.

[Brief explanation of the drawing]

FIG. 1 is a diagram illustrating the principle of the present invention, FIG. 2 is an explanatory diagram of a conventional reception method, and FIGS. 3 and 4 (a) and (b) are receiving apparatuses in an embodiment of the present invention FIG. In the figure, 300...Packet receiving device, 305...Disassembly start signal, 311...Switch 51, 317...Bucket buffer, 318...Pseudo packet creation device, 315...Packet disassembly device. .

Claims (1)

[Claims] In a packet reception method that receives packets periodically transmitted from the sending side and periodically disassembles the received packets, the period from the start of disassembly of each received packet to the start of disassembly of the next received packet If the number N of packets arriving at the receiving side in is 0, one pseudo packet is inserted in place of the packet that should arrive during the period, and if it is 2 or more, N-1 A packet receiving method characterized in that the arriving packets are discarded.