JP2003110558A - Communication quality monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication quality monitoring system for monitoring a communication quality for each application having a communication function. SOLUTION: In the communication quality monitoring system for monitoring the quality of communication between transmitting terminal equipment and receiving terminal equipment to communicate by using the application, the receiving terminal equipment is provided with an application judging means for judging the application related to a received signal, a communication quality evaluating means for evaluating the communication quality parameter of the received signal preset to that application, and a message preparing means for preparing a communication quality message on the basis of the communication quality evaluation of that application, and the transmitting terminal equipment is provided with a communication quality acquiring means for acquiring the communication quality of the application by receiving the communication quality message of that application from the message preparing means.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication quality monitoring system. For example, in a network communication system between a transmission terminal device and a reception terminal device (end-to-end) that communicates via a network, it can be applied to a system that monitors communication quality and reception processing status of each application.

[0002]

2. Description of the Related Art In recent years, with the sophistication of communication systems for delivering large amounts of data such as images, there has been a demand for higher speed and more reliable communication systems. There is a communication quality monitoring method for monitoring quality.

For example, in a communication quality monitoring method for monitoring communication quality in a general packet switching network, a node interposed in the network transmits communication quality information (communication quality parameter) for each virtual connection or each service class. Measure and measure NMS (Network Managemen
t System) monitors the communication quality of the network based on the measured communication quality information.

Here, the network means a physical network to which a user's data packet or the like is transmitted, and a node or NM.
S, EMS (Element Management System), SMS
(Service Management System).

EMS manages a node, and N
MS manages EMS and network.
The MS manages network applications and customer information.

The node monitoring the communication quality of the network, the header (identifier) of the communication packet at the time of transfer processing.
The communication quality information is measured based on. The communication quality information is a preset packet delay, packet delay, packet loss, or the like for each virtual connection or for each service class divided by traffic characteristics.

Further, the NMS mainly manages communication quality information of the network, and the SMS mainly manages fee / charge information and network service information such as acceptance of failure inquiry.

Network managers and service providers are
The communication quality of the network is monitored by accessing the NMS.

[0009]

However, the communication quality of the network generally differs depending on the type of communication application, but in the conventional communication quality monitoring method, the communication quality required for each application is satisfied. There is a problem that you can not know whether there is.

That is, the above-mentioned conventional communication quality monitoring method uses the NMS based on the communication quality information measured by the node.
Is monitoring the communication quality of the network. However, since the header of the communication packet from which the node obtains the communication quality does not include the information about the application, it cannot be known to which application the measured communication quality information belongs. Therefore, the conventional communication quality monitoring method cannot collect the communication quality information for each application, and thus cannot monitor the network communication quality for each application.

This means that, for example, in the case of an application such as a moving image which requires a real-time property, when a received packet whose quality is deteriorated is reproduced, there is a possibility that an obstacle such as an interruption of the image may occur. This is because the communication quality in consideration of application processing cannot be monitored only by the communication quality monitoring method for each virtual connection or each service class.

Therefore, there is a demand for a communication quality monitoring system that monitors communication quality for each application having a communication function and considers the application processing.

[0013]

In order to solve such a problem, a communication quality monitoring system according to the present invention is equipped with at least one or more applications having a communication function, and a transmitting terminal device for communicating using the application. And a communication quality monitoring system for monitoring the communication quality of communication with a receiving terminal device equipped with an application corresponding to the application, wherein the receiving terminal device is an application determining means for determining an application related to a received signal. For the application determined by the application determination means, the communication quality based on the communication quality evaluation means for evaluating the communication quality parameter of the received signal set in advance for the application and the communication quality evaluation of the application evaluated by the communication quality evaluation means. Compose message And a message creation means,
The transmission terminal device is characterized by including communication quality acquisition means for receiving the communication quality message of the application from the message generation means and acquiring the communication quality of the application.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION (A) First Embodiment Hereinafter, a first embodiment of a communication quality monitoring system according to the present invention will be described with reference to FIGS.

In the first embodiment, in a packet communication system between a transmitting terminal device and a receiving terminal device connected to a connection type network, the transmitting terminal device determines the communication quality of each of two applications provided in the receiving terminal device. This is the case of recognizing and applying it to the corresponding network system. However, the network service does not have to be connection type and may be connectionless type, and the first embodiment is connection type for convenience.

(A-1) Configuration of First Embodiment FIG. 1 is a conceptual diagram of the overall configuration of a communication quality monitoring system according to the first embodiment.

As shown in FIG. 1, the communication quality monitoring system according to the first embodiment comprises a transmitting terminal device 1, a receiving terminal device 2, and a network 3.

The transmitting terminal device 1 has two different server applications 4-1 and server applications 4-.
2 is equipped with a communication quality message processing unit 6.

The receiving terminal device 2 is equipped with two different client applications 5-1 and 5-2, and the communication quality monitoring function unit 7 is provided.
It is equipped with.

Here, the application means a communication application for communication between the transmitting terminal device (server) 1 and the receiving terminal device (client) 2.

The server application 4-1 and the client application 5-1 have the common application A installed therein, and the server application 4
The communication packet processed by -1 is given to the client application 5-1.

Similarly, the server application 4-2
, And the client application 5-2 are equipped with the application B, and the communication packet processed by the server application 4-2 is given to the client application 5-2.

The communication quality monitoring function unit 7 is provided in the transmitting terminal device 1.
The communication quality message processing unit 6 of the transmission terminal device 1 of the transmission terminal device 1 is discriminated based on the received packet given from To give to.

The communication quality monitoring function unit 7 is preset with communication quality information (communication quality parameter) to be evaluated for each application, and communication quality information of communication packets given to each client application 5-1 and 5-2. (Communication quality parameter) is evaluated. In addition, the communication quality monitoring function unit 7 uses the client application 5
-1 and 5-2 to obtain the information of the received packet until it is given.

The communication quality information is, for example, packet arrival intervals, packet delays, data amount of arriving packets, packet loss and the like.

Here, the "packet arrival interval" is, for example, the average time interval at which the packet of the client application A arrives at the receiving terminal device 2. "Packet loss" means that a packet does not arrive and times out. The "data amount of the arriving packet" is the amount of the data part included in the packet. The "packet delay" means that the packet arrives later than the time when the client applications 5-1 and 5-2 of the receiving terminal device 2 need the packet.

FIG. 2 is a conceptual diagram showing the internal structure of the communication quality monitoring function unit 7.

As shown in FIG. 2, the communication quality monitoring function unit 7
Includes an application discriminating unit 8, a setting communication parameter evaluating unit 9, a communication quality message creating unit 10, and a communication quality message transmitting unit 11.

The application discriminating unit 8 discriminates the application based on the header of the received packet, and gives communication quality information to the set communication quality parameter evaluating unit 9 for each application. For example, as shown in FIG. 3, in the case of the connection type Internet with high reliability of the network, the application determination method is TCP (Transmission Control Protocol).
The application is discriminated from the "sending port number" and the "destination port number" included in the header part of. Also, FIG.
As shown in, when the connectionless type Internet that attaches importance to the high speed of the network, UDP is used.
The application is identified from the "source port number" and "destination port number" included in the header part of (User Datagram Protocol). The application determination unit 8
Is only required to be able to determine the application related to the received packet, and may be determined from other information included in the header of the received packet.

The set communication parameter evaluation unit 9 is provided with the communication quality information for each application from the application discrimination unit 8, and evaluates the communication quality information set in advance among the communication quality information for each application. The evaluation of the communication quality monitored for each application is given to the communication quality message creating unit 10.

The communication quality message creating section 10 creates a communication quality message based on the evaluation of the communication quality from the set communication quality parameter evaluating section 9, and gives the created communication quality message to the communication quality message transmitting section 11. It is a thing.

The communication quality message transmitting section 11 gives the communication quality message from the communication quality message creating section 10 to the communication quality message processing section 6 of the transmitting terminal device 1.

The communication quality message processing unit 6 receives the communication quality message from the communication quality monitoring function unit 7 and can know the communication quality of the communication packet communicated to the receiving terminal device 2 based on the communication quality message. .

The communication quality message processing unit 6 controls or instructs other transmission control means (not shown) to improve the communication quality of the communication packet based on the communication quality message from the communication quality message transmitting unit 11. Is. That is, according to the reception quality of the receiving terminal device 2,
The transmission rate of the communication packet can be set.

For example, if the communication quality message relates to the packet arrival interval from the server application 4-1 to the client application 5-1 and is a message that the packet arrival interval is large,
Control is performed so that the transmission rate is increased so that the time interval of the packet is reduced. Further, it is possible to instruct a transmission control means (not shown) to increase the transmission rate.

Further, the transmitting terminal device 1 is the receiving terminal device 2
It is possible to set the charge for each application according to the reception quality of.

(A-2) Operation of the first embodiment FIG. 5 shows the communication quality of each application for the received packet received by the receiving terminal device 2 in the communication quality monitoring system according to the first embodiment. 6 is a flowchart of a monitoring process.

When a connection is established between the applications of the transmission terminal device 1 and the reception terminal device 2 via the network 3, the application activates the communication quality monitoring function unit 7 (S1).

In the activated communication quality monitoring function unit 7,
Communication quality parameters to be evaluated are set for each application (S2).

For example, the communication quality parameters set here are the packet arrival interval and the packet delay in the case of application A, and the data amount and the packet loss in the case of application B. Quality parameters are set.

When the communication quality parameter is set, communication is started between the transmitting terminal device 1 and the receiving terminal device 2 (S
3).

The received packet arriving at the receiving terminal device 2 is (S4), the client applications 5-1 and 5
-2, the communication quality monitoring function unit 7 monitors every predetermined period T.

The header information of the received packet is taken out by the application discrimination section 8 (S5).

The application discrimination section 8 discriminates the application based on the port number (for example, "transmission port number" or "destination port number") included in the retrieved header information (S6).

When the port number matches the application A, it is determined that the received packet belongs to the application A, and the set communication quality parameter evaluation unit 9 causes the communication quality parameter set by the application A to be set. Is evaluated (S7). That is, the packet arrival interval and the packet delay are monitored,
It checks to see if there is a delay.

If the port number of the header information does not match with the application A, the application determining unit 8 determines next with the application B. After that, similarly, the set communication quality parameter evaluation unit 9 evaluates the set communication quality parameter of the application B (S9). That is, the amount of data and packet loss are monitored to see if any loss has occurred.

In this way, each application is discriminated and the communication quality of each application is evaluated.

If the port numbers of the header information do not match in both applications A and B, it is considered that there is no matching application, and S is returned after a predetermined period T has elapsed.
Returning to step 4, the monitoring process is continued (S10 to S4).

When the communication quality parameter for each application is evaluated (S7 and S9), the communication quality message creating section 10 creates a communication quality message using the evaluation of the communication quality as communication quality information (S10).
S11).

Communication quality monitoring processing up to this point (S4 to S
9) is processed with a predetermined cycle T as a cycle, and the predetermined cycle T
After the lapse of time, the process returns to S4 and is continuously processed.

Such communication quality monitoring processing is performed until the application ends (S13 to S14).

The communication quality message created during the predetermined period T is transmitted by the communication quality message transmitting unit 11 to the communication quality message processing unit 6 of the transmitting terminal device 1 every predetermined period T.

The communication quality message processing unit 6 analyzes the transmitted communication quality message and controls the communication quality for each application according to the reception quality based on the communication quality message.

(A-3) Effects of First Embodiment As described above, according to the network communication system of the first embodiment, the receiving terminal device 2 is provided with the communication quality monitoring function unit 7 so that the details of each application can be obtained. You can know the communication quality.

Further, the receiving terminal device 2 transmits the evaluation of the communication quality for each application to the transmitting terminal device 1, so that the transmitting terminal device 1 transmits the communication packet with the quality according to the receiving quality of the receiving terminal device 2. Can be transmitted, so that communication quality between applications can be improved.

Further, the transmitting terminal device 1 can perform appropriate processing such as determining the charging rate of the service according to the reception quality of the receiving terminal device 2.

(B) Second Embodiment Hereinafter, a second embodiment of the communication quality monitoring system according to the present invention will be described with reference to FIGS. 6 and 7.

(B-1) Configuration of the Second Embodiment FIG. 6 is a conceptual diagram of the overall configuration of the communication quality monitoring system according to the second embodiment.

As shown in FIG. 6, the communication quality monitoring system of the second embodiment has two transmitting terminal devices 1-1 and 1-2 connected to the network 3 and two receiving terminal devices 2-1. And 2-2, and the network administrator terminal device 2
1 is provided. The same reference numerals are given to the same constituent elements described in the first embodiment, and the functional description thereof will be omitted.

The transmitting terminal device 1-1 is provided with one server application 4-1 and the transmitting terminal device 1-2.
Includes one server application 4-2.

The receiving terminal device 2-1 has one client application 5-1 and the receiving terminal device 2-2 has one client application 5-2.
Is equipped with. Also, the receiving terminal devices 2-1 and 2-2
Respectively include communication quality monitoring function units 7-1 and 7-2. Each communication quality monitoring function unit 7-1 and 7-2
As shown in FIG. 2, this is the same as the first embodiment.

The communication quality monitoring function unit 7-1 will be described below.
And 7-2 are shown with corresponding branch numbers. For example, like the application discrimination unit 8-1 included in the communication quality monitoring function unit 7-1, the same branch number is assigned.

The communication quality message processing unit 6 receives communication quality messages from the receiving terminal device 2-1 or the receiving terminal device 2-2 and analyzes the communication quality messages. The communication quality message processing unit 6 can instruct the corresponding transmitting terminal device to improve the communication quality based on the communication quality message. In addition, the network administrator terminal device 21 can charge according to the communication quality of each application.

The network administrator terminal device 21 is a terminal for the network administrator to manage the network. The network administrator terminal device 21 includes a communication quality message processing unit 6.

The network administrator manages network communication such as a service provider.

(B-2) Operation of the Second Embodiment Hereinafter, the operation of the communication quality monitoring process according to the second embodiment will be performed by the application A between the transmitting terminal device 1-1 and the receiving terminal device 2-1. Communication will be described as a representative with reference to FIG. 7.

Similar communication quality monitoring processing is performed for communication using other applications.

The operation from the activation of the communication quality monitoring function unit 7-1 to the start of communication between the transmitting terminal device 1-1 and the receiving terminal device 2-1 is the same as that of the first embodiment (S31 to S).
33). The communication quality parameters set in the set communication quality parameter 9-1 are packet arrival intervals and packet delays.

The application discrimination section 8-1 of the communication quality monitoring function section 7-1 discriminates the application based on the header information of the received packet.

In the set communication parameter setting section 9-1, the preset communication quality parameter is evaluated (S34), that is, the packet arrival interval and the packet delay are monitored.

On the basis of the evaluation of the communication quality, the communication quality message creating section 10-1 creates a communication quality message (S35).

The communication quality message is given to the communication quality message processing unit 6 of the network manager terminal device 21 by the communication quality message transmitting unit 11.

Such a communication quality monitoring process is performed every predetermined period T, and is continuously performed until the application ends.

The communication quality message given to the communication quality message processing unit 6 is analyzed and the corresponding transmitting terminal device 1-1 is instructed to improve the communication quality. For example, it instructs to adjust the transmission rate of the communication packet.

(B-3) Effects of the Second Embodiment As described above, according to the second embodiment, the network manager terminal device 21 for managing the network is also provided, which is similar to the first embodiment. It is possible to exert an effect.

Further, by providing the communication quality message processing unit 6 in the network administrator terminal device 21, the network administrator can obtain detailed communication quality for each application, and the service charge is charged according to the communication quality of the network. Appropriate processing such as determining the rate can be performed.

(C) Third Embodiment Hereinafter, a third embodiment of the network communication system of the present invention will be described with reference to FIGS.

In the third embodiment, in the communication quality monitoring system described in the first and second embodiments, not only the communication quality monitored by the communication quality monitoring function unit but also the processing status of the client application is monitored. This is a case where it is possible to adjust the transmission suitable for the communication quality and the processing status depending on the application processing status.

(C-1) Configuration and Operation of Third Embodiment The overall configuration of the communication quality monitoring system according to the third embodiment is the same as the overall configuration of the communication quality monitoring system according to the first and second embodiments. And is shown in FIGS. 8 and 9.

FIG. 10 is a block diagram showing the internal structure of the communication quality monitoring function unit according to the third embodiment. The communication quality monitoring function unit is provided in each of the receiving terminal devices 2, 2-1 and 2-2 shown in FIGS. 8 and 9.

The communication quality monitoring function unit will be described below with reference to FIG.
The case where the receiving terminal device 2 in FIG.

As shown in FIG. 10, the communication quality monitoring function unit 17 according to the third embodiment has an application discriminating unit 8, a set communication quality parameter evaluating unit 9, a communication quality message creating unit 10, and a communication quality. Message transmitter 11
And an application processing status monitoring unit 18.

The application processing status monitoring unit 1
8 is different from the communication quality monitoring function unit 7 of the first and second embodiments, and the other components have the same function.

The application processing status monitor 18
The processing status of the client application 5-1 or 5-2 is monitored and the client application 5
-1 or 5-2 processing status information, the message creation unit 1
It is given to 0.

Here, the application processing status is
It refers to the real-time property relating to the reproduction of the received packet. Applications generally play back compressed data.

For example, VoIP (Voice Over IP)
The audio playback process is about 1 / 8th on the order of 1 to several milliseconds.
(G.729 (8 Kbps)) to 1/10 (G.72
3.1 Annex A (6.3 Kbps, 5.3 Kbps))
Play the data compressed to.

Further, for example, in the reproduction processing of an image such as MPEG2, 1/10 (about 0.8 bit per pixel) to 1/1 / depending on the quantization level in the order of 1/60 to 1/30 second per image. The data compressed to 20 (about 0.4 bits per pixel) is reproduced.

As described above, the reproduction processing of the compressed data requires real time property.

The application processing status monitor 18
The reproduction processing status of the compressed data is monitored.

The message creating section 10 and the message transmitting section 11 have the same functions as those in the first and second embodiments, and based on the application processing information from the application processing status monitoring section 18, send a processing status message. The message is created and given to the message transmitting unit 11, and the message is transmitted from the message transmitting unit 11 to the transmitting terminal device 1.

The message creating section 10 creates a communication quality message together with the processing status message, and sends the processing status message and the communication quality message to the transmitting terminal device 1.

The receiving terminal device 2 may perform other application processing than the client application processing. Even if the communication quality is good, the client application processing is not processed in real time (for example, one to several received packets). May be skipped).

In this way, the communication quality monitoring function unit 17
By also transmitting the processing status message to the transmitting terminal device 1, the transmitting terminal device 1 adjusts not only the reception quality of the receiving terminal device 2 but also the compression rate of the data to be communicated according to the application processing. Data can be sent.

For example, when the communication quality monitoring function unit determines that the communication quality of each application satisfies the predetermined condition, but determines that the application processing does not satisfy the real-time processing, such information is used as a message. It transmits to the transmission terminal device 1.

Receiving the message, the transmitting terminal device 1 improves the communication quality (for example, increases the occupancy rate of the transmission capacity of the line), and further receives the communication packet with the reduced compression rate. 2 can be ordered to send.

In addition, according to such adjustment of the compression rate,
It may be possible to adjust the charge. That is, when the compression rate is lowered, the additional fee can be collected.

(C-2) Effects of Third Embodiment As described above, according to the third embodiment, the communication quality monitoring function unit 1 is provided.
Since 7 can monitor the application processing status and give the processing status information as a message to the transmitting terminal device 1, the communication packet can be transmitted according to the application processing status of the receiving terminal device.

Further, since the receiving terminal device 2 can process the data whose compression ratio is lowered according to the application processing situation, the load of the receiving terminal device 2 can be reduced and the client application processing can be performed. The obstacles of the real-time processing that occurs between them are reduced.

(D) Other Embodiments In the above-described first to third embodiments, the communication quality parameters for evaluating the communication quality are the packet arrival intervals, packet losses, and the like. However, in evaluating the communication quality, various parameters such as other occupied bandwidth can be set without being limited to these.

Further, in the first to third embodiments, the communication quality monitoring function unit or the message processing unit is expressed as a logical function and does not represent the configuration of software / hardware or the like. Therefore, these are
It is not limited to the configuration described, but can be widely applied.

Further, in the first to third embodiments, the transmitting terminal device is described as a terminal device, but the transmitting terminal device is not limited to the terminal device, and communication quality characteristics such as a transmission rate and a compression rate of communication data can be adjusted. It can also be applied to a transmitter.

Furthermore, the communication quality monitoring system according to the present invention can be applied to a wireless communication system using a mobile phone, a mobile terminal device or the like.

[0103]

As described above, according to the communication quality monitoring system of the present invention, the receiving terminal device can give a message in which the communication quality parameter set for each application is evaluated to the transmitting terminal device. The communication quality can be monitored.

[Brief description of drawings]

FIG. 1 is a conceptual diagram showing an overall configuration of a communication quality monitoring system of a first embodiment.

FIG. 2 is a block diagram showing an internal configuration of a communication quality monitoring function unit.

FIG. 3 is an explanatory diagram showing a configuration of a TPC segment.

FIG. 4 is an explanatory diagram showing a structure of a UDP segment.

FIG. 5 is a flowchart of the communication quality monitoring system of the first embodiment.

FIG. 6 is a block diagram showing an overall configuration of a communication quality monitoring system of a second exemplary embodiment.

FIG. 7 is a flowchart of a communication quality monitoring system according to a second embodiment.

FIG. 8 is a block diagram showing an overall configuration of a communication quality monitoring system of a third exemplary embodiment.

FIG. 9 is a block diagram showing an overall configuration of a communication quality monitoring system of a third exemplary embodiment.

FIG. 10 is a flowchart of the communication quality monitoring system of the third embodiment.

[Explanation of symbols]

1, 1-1 and 1-2 ... Sending terminal device, 2-1, 2-1 and 2-2 ... Receiving terminal device, 3 ... Network, 4-1 and 4-2 ... Server application, 5-1 and 5-2 …
Client application, 6, 16 ... Message processing unit, 7, 17, 7-1 and 7-2 ... Communication quality monitoring function unit, 8 ... Application determination unit, 9 ... Set communication parameter evaluation unit, 10 ... Communication quality message creation unit , 11
... communication quality message sending unit, 18 ... application processing status monitoring unit.

Claims (4)

[Claims] 1. A communication quality of communication between a transmitting terminal device, which is equipped with at least one application having a communication function, and communicates using the application, and a receiving terminal device, which is equipped with an application corresponding to the application. In the communication quality monitoring system, the receiving terminal device includes an application determining unit that determines an application related to a received signal and an application determining unit that determines the application that the application determining unit determines in advance. Communication quality evaluation means for evaluating the communication quality parameter of, and, based on the communication quality evaluation of the application evaluated by the communication quality evaluation means, a message creating means for creating a communication quality message, the transmission terminal device, Messe Receive application communication quality message from di creating means, the communication quality monitoring system comprising: a communication quality acquisition unit that acquires the communication quality of the application. 2. The receiving terminal device includes a reception processing status monitoring means for monitoring a reception processing status of an application performed on the received signal, and the message creating means includes an application monitored by the reception status monitoring means. The communication quality monitoring system according to claim 1, wherein a processing status message is also created based on the reception processing status of the above. 3. A system management device for managing the communication quality monitoring system according to claim 1, wherein said system management device is based on a communication quality message of an application from said message creating means of said receiving terminal device, Based on the communication quality management means for managing the communication quality of the application and the communication quality of the application managed by the communication quality management means, the transmission terminal device communicating using the application is instructed to process the communication quality. And a processing instruction means for performing the communication quality monitoring system. 4. The communication quality monitoring system according to claim 3, wherein the communication quality management device has a charging means for charging based on a communication quality message of the application.