JP3167894B2 - Packet communication method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packet communication method for transferring a packet while maintaining the quality of the packet at a required value using a packet transfer network in which priority control is performed based on the priority assigned to the packet. It is about.

[0002]

In the conventional packet communication system, a transmitting terminal assigns a fixed priority to a packet to be transmitted irrespective of the state of a network and transmits the packet. I have. Since the priority is fixed as described above, the packet transmission is performed with the packet quality desired by the transmitting terminal device in the normal state, but when the network state changes due to network congestion or the like, the transmission is performed. The packet transfer may not be performed with the packet quality desired by the terminal device.

In order to solve this problem, it is necessary to provide the network with a function having a very heavy processing load, such as a packet transmission admission control function or a resource reservation function. In some cases, quality control is performed using control to change the transmission rate in the transport layer, but in this case, even if the desired quality regarding delay and discard rate is obtained, the desired throughput cannot be obtained. There is.

An object of the present invention is to provide a packet communication method that can flexibly adapt to the state of a network and always maintain an optimal packet quality.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a packet transmitting terminal device for sending a packet to be transmitted with a priority order, and a packet receiving terminal device for receiving a packet. Analyzing the quality of the series of packets obtained, and notifying the quality information to the transmitting terminal device, and the packet transmitting terminal device dynamically changes the priority assigned to the transmission packet according to the notification content from the packet receiving terminal device Including the step of:

According to the present invention, by assigning priorities to packets transmitted by the packet transmitting terminal and transmitting them, the quality required by the packet transmitting terminal is notified to the network in packet units. Priority control is performed on the basis of the priority given to, and packets with high priority are transferred with priority.

In this case, according to the present invention, the quality of a series of packets received by the packet receiving terminal device is analyzed, and the quality information is transmitted to the transmitting terminal device so that the state of the network changes and the quality of the packet changes. Can be fed back to the transmitting terminal device when a change has occurred.

[0008] The packet transmitting terminal can dynamically change the priority assigned to the transmitted packet in accordance with the contents of the notification from the packet receiving terminal, thereby returning the changed packet quality to the original quality. Therefore, the optimum packet quality can always be maintained regardless of the state of the network.

According to the present invention, the packet receiving terminal device can analyze the quality of a series of received packets and periodically notify the result of the analysis. This allows the transmitting terminal device to always confirm that the receiving terminal device has performed quality analysis.

In the present invention, the packet receiving terminal device analyzes the quality of a series of received packets, and sends a notification requesting a change in the priority of the packet only when the quality is excessive or insufficient. It may be sent to. In this way, frequent quality notifications can be suppressed, and the overhead of traffic increase is reduced.

In the present invention, the packet transmitting terminal device may transmit the packet to be transmitted with the lowest priority in the initial stage of starting the packet transmission. In this way, when a new packet transmission is started, the packet transmission is performed without giving unnecessary disturbance to other packet communication because the priority is lower than all other packets, and then the quality is changed as necessary. Can be secured.

[0012]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a diagram showing an example of a configuration of a communication system for implementing the present invention, and FIG. 2 is a diagram showing a packet communication sequence in a transmitting / receiving terminal device. In this example, a transmission terminal device 1, a reception terminal device 2, and a packet network 3 are provided.

The transmitting terminal device 1 includes a packet transmitting application 11, a priority adding function 12, a packet transmitting function 13,
A priority request analysis function 14 and a packet reception function 15 are provided. The receiving terminal device 2 is a packet receiving application.
21, a quality notification function 22, a packet transmission function 23, a reception quality analysis function 24, and a packet reception function 25.

In such a configuration, the transmitting terminal 1
The packet generated by the packet transmission application 11 is transferred to the priority adding function 12, given an appropriate priority, and transferred to the packet transmitting function 13. Packet transmission function
At 13, the packet is transmitted to the packet network 3.

The packet transferred through the packet network 3 is input to the packet transmitting function 23 of the receiving terminal device 2 and transferred to the packet receiving application 21 via the reception quality analyzing function 24. The reception quality analysis function 24 analyzes the quality of the received packet and reports the result to the quality notification function 22
Notify. The quality notification function 22 generates a quality notification packet according to the notified quality, and transfers the packet to the packet transmission function 23. The packet transmission function 23 transmits the quality notification packet to the packet network 3.

The quality notification packet transferred through the packet network 3 is input to the packet receiving function 15 of the transmitting terminal device 1 and transferred to the priority request analyzing function 14.
The priority request analysis function 14 notifies the priority addition function 12 to change the priority of the packet to be transmitted according to the content of the received quality notification packet.

Here, each packet can be assigned a transmission priority of eight levels, for example, from the highest priority 1 to the lowest priority 8, and the packet network 3 uses the priority assigned to the packet based on the priority. Performs priority control during packet transfer. In such a communication system, the transmission terminal device 1
When a series of packets is transferred between the receiving terminal device 2 and the receiving terminal device 2 via the packet network 3, the following transfer sequence is used.

A series of packet transfer sequences include an information packet transmission operation 101 to 108 and an information packet reception operation 109
, A quality notification packet transmitting operation 117 to 120, and a quality notification packet receiving operation 121 to 124. First, the transmitting terminal device 1 assigns an information packet a priority 8 (lowest priority).
And send it (101). Next, the receiving terminal device 2 receives the packet (109) and performs quality analysis. If the communication quality is good, the receiving terminal device 2 does not control anything.
Therefore, the transmitting terminal device 1 continues the packet transmission and transmits the subsequent information packet (102).

The receiving terminal device 2 receives this packet and performs (110) quality analysis. If the quality of the received packet deteriorates due to a change in the network condition, the quality notification packet is sent to the transmitting terminal device 1. Sent (117).
This packet may not reach the transmitting terminal device 1 immediately due to a transfer delay. In such a case, the transmitting terminal device 1 transmits the subsequent information packet without changing the priority (103). When this packet is also received by the receiving terminal device 2 (111), the quality analysis shows that the quality is not good, so the receiving terminal device 2 transfers the quality notification packet again (118).

On the other hand, the transmitting terminal device 1 receives the previous quality notification packet (117) (121), knows that the quality of the transmission packet is not good, and raises the priority of the next information packet by, for example, two to increase the priority. It is transmitted with a degree of 6 (104). This packet is transferred with priority over the packet transmitted so far in the packet network 3. This is received by the receiving terminal device 2 (112) and quality analysis is performed. When it is found that the quality is good, the receiving terminal device 2 does not perform any further control.

Further, since the second quality notification packet (118) arrives at the transmitting terminal device 1 (122), the transmitting terminal device 1 raises the priority of the next information packet by, for example, two more and sets the priority to 4 And send it (105). This packet is received by the receiving terminal device 2 with excessive quality due to its excessive priority (113), and is judged to be too good in the packet quality analysis. For this reason, the quality notification packet is transmitted from the receiving terminal device 2 to the transmitting terminal device 1 (119),
This is notified.

If the quality notification packet does not immediately arrive at the transmitting terminal device 1, the transmitting terminal device 1 also transmits the next information packet with a priority of 4 (106). This packet is also received by the receiving terminal device 2 with excessive quality (114), and is judged to be too excellent in the packet quality analysis, and the receiving terminal device 2 again transmits the quality notification packet to the transmitting terminal device 1.
(120), and this is notified.

On the other hand, the transmitting terminal device 1 receives the previous quality notification packet (119) (123), detects that the quality of the transmission packet is too good, and lowers the priority of the next information packet by, for example, one. The transmission is performed with the priority 5 (107). As a result of the lowering of the priority, this packet is received by the receiving terminal device 2 with an appropriate quality (115), and is analyzed as having good quality in the quality analysis. As a result, the receiving terminal device 2 does nothing.

The quality notification packet (120) continues to arrive at the transmitting terminal device 1 (124), and the next information packet is transmitted with the priority lowered by, for example, one and given a priority of 6 (108).
This packet is also received by the receiving terminal device 2 with an appropriate quality.
(116) In the quality analysis, the quality is analyzed as good, and the receiving terminal device 2 does nothing.

Thereafter, as long as the state of the packet network 3 does not change, the transmitting terminal device 1 continues to transmit the subsequent information packet with a priority of 6, and the receiving terminal device 2 also transmits the information packet while the quality of the received packet is moderate. Does not send quality notification packets. Thus, the stable state continues thereafter.

In the example described above, the quality notification packet is transmitted only when the priority needs to be changed. However, the same operation can be performed even if the quality notification packet is transmitted periodically regardless of the quality analysis result. it can.

[0027]

According to the present invention, the optimum packet quality can always be maintained by flexibly adapting to the state of the network and dynamically controlling the packet quality. In addition, the quality control function in the network does not require a special processing function with a heavy processing load such as a packet transmission admission control function or a resource reservation function, and is always optimized by processing between terminal devices with only a simple priority packet priority transmission function. Packet quality can be maintained.

Further, when weight charging is performed on the transmission packet and weighting charging is performed according to the priority, the priority of the transmission packet is automatically set to an optimum value with respect to the required quality, and communication is performed. Costs can be set to optimal values. Also, by requesting a change in the priority of a packet only when the packet receiving terminal device detects that there is an excess or deficiency in packet quality, frequent quality notifications can be suppressed, and the overhead of traffic increase is reduced. You.

Further, when a new packet transmission is started, the packet is transmitted with the lowest priority given to the transmission packet, so that packet quality control is performed without giving unnecessary disturbance to other packet communication. be able to. In the present invention, the same effect can be obtained even if "packets" are replaced with "cells", "frames", "messages", and the like.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an example of a configuration of a communication system that implements the present invention.

FIG. 2 is a diagram showing a packet communication sequence in a transmission / reception terminal device.

[Description of Signs] 1 transmitting terminal device 2 receiving terminal device 3 packet network 11 packet transmission application 12 priority addition function 13 packet transmission function 14 priority request analysis function 15 packet reception function 21 packet reception application 22 quality notification function 23 packet transmission Function 24 Reception quality analysis function 25 Packet reception function 101 to 124 Operation in packet communication sequence

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-7-183900 (JP, A) JP-A-8-32623 (JP, A) Special table JP-A-11-503885 (JP, A) “Time-critical communication architecture” Proposal of Communication Control Method for Wireless Communication ”, 1995 IEICE General Conference B-746 (58) Fields investigated (Int. Cl. ⁷ , DB name) H04L 12/56 H04L 29/06

Claims (4)

(57) [Claims] 1. A packet communication method for transmitting a series of packets in a system including a transmitting terminal device, a receiving terminal device, and a packet transfer network, wherein the packet transmitting terminal device transmits packets to be transmitted with priorities. The packet receiving terminal device analyzes the quality of a series of received packets and notifies the transmitting terminal device of the quality information; and the packet transmitting terminal device transmits the packet in accordance with the notification content from the packet receiving terminal device. Characterized by a step of dynamically changing a priority assigned to a packet. 2. A step in which the packet receiving terminal analyzes the quality of a series of received packets and notifies the transmitting terminal of the quality information is a step of periodically notifying the transmitting terminal of the quality information. The packet communication method according to claim 1, wherein: 3. The step of the packet receiving terminal device analyzing the quality of a series of received packets and notifying the quality information to the transmitting terminal device changes the priority of the packets only when the quality is excessive or insufficient. 2. The packet communication method according to claim 1, further comprising the step of notifying the transmitting terminal device. 4. The packet transmission apparatus according to claim 1, wherein the packet transmission terminal device transmits a packet to be transmitted with a lowest priority in an initial stage of starting packet transmission. Packet communication method.