JP2005069749A - Method of correcting time and method and apparatus for evaluating network quality - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a method of correcting time which enables a correct correction of time without being influenced by a temporal deterioration in network quality, and to realize a method and an apparatus for evaluating the network quality which can obtain a correct network evaluation result. <P>SOLUTION: It is characterized in that at least the latest time information and the mean value of a plurality of time correction values in the past or the minimum value of the plurality of time correction values in a prescribed period of time is used to correct the internal reference time of the apparatus by acquiring standard time information from a time server via a communication network. The method for performing the network quality evaluation measurement and the network quality evaluation apparatus are realized using such a time correction result. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to a time correction method, a network quality evaluation measurement method, and a network quality evaluation apparatus.
Specifically, a time correction method between a plurality of devices incorporating clocks connected via a network, a network quality evaluation measurement method for measuring communication quality of a network by capturing communication packets, and a time in the network quality evaluation device This is to improve the correction.

  Patent Document 1 discloses unnecessary synchronization control by determining whether or not synchronization has occurred in synchronizing the clocks of the clocks of a plurality of nodes connected to a single communication network. Techniques for avoiding this are disclosed.

  Patent Document 1 describes a statistical distribution having a time difference estimated from a sample obtained by the previous time difference measurement as a population and a time difference estimated from a sample obtained by the current time difference measurement as a population. The hypothesis that the statistical distribution is equal is tested, and when the hypothesis does not hold within a predetermined error range, the times of the two clocks are synchronized according to the current time difference measurement result.

  Patent Document 2 discloses a technology relating to a set time control device that can reliably output a processing control signal even when a time jump occurs due to time correction, and a network quality evaluation device using this device.

  In contrast, the present invention relates to a specific method for reducing time correction error, a method for performing network quality evaluation using time information corrected based on these methods, and a network quality evaluation apparatus. The inventions described in Patent Document 1 and Patent Document 2 are different.

JP 11-27269 A

JP 2002-250786

  The Internet is a familiar communication network. On the Internet, not only text information but also voice and image information can be exchanged as data, and its services include data transmission services such as e-mail, net news, file transfer (ftp), remote login (telnet), Gopher, There are also information retrieval services such as WWW and real-time voice communication services such as Internet telephone (VoIP). According to the Internet, information can be exchanged instantly without being restricted by companies and countries, so it is widely used in various fields such as individuals, companies, government offices, educational institutions, and research institutions. Yes.

  By the way, in such an Internet, if the communication quality of the communication network does not sufficiently satisfy the quality required by the service to be used, packet loss or delay time fluctuation occurs, and in the case of voice information If the received audio is interrupted, or if it is video information, the motion of the received video may become unnatural.

However, in the Internet, a route along the communication network is shared by a plurality of terminals and services, so if the number of users accessing at the same time increases, the communication quality will be lower than when the number of users is small. In addition, although the bandwidth of the line constituting the communication network is generally designed to be wide in the main line system part and narrow in the access system part, the access system part may be overloaded when actually operated.
Furthermore, the processing speed, buffer length, processing method, etc. of connected devices such as routers have a great influence on the characteristics of the network.

In any case, Internet service providers must provide users with a more stable service from the standpoint of providing a part of the communication network for a fee, and if the quality varies from service to service, each cause Must be analyzed accurately.
It is also desirable for the user to be able to accurately grasp the quality of various services in real time in order to determine whether the quality of various services used on the Internet is commensurate with the communication network usage fee.

  FIG. 4 is a block diagram showing an example of a conventional network quality evaluation apparatus. In the figure, a communication network ISP1 is provided by a provider. In the communication network ISP1, lines are connected via a plurality of routers R. A company (head office) 2 and a company (branch office) 3 are connected as users to the communication network ISP 1 via a router R, and a probe manager 4 and a time server 5 are also connected via the router R. In addition, other users and communication networks are also connected via a router, but not shown.

  The probe P has a function of extracting packet data propagating on the communication network ISP1 from the communication network ISP1, and is connected to a port of the router R from which packet data is to be extracted as necessary.

  For example, as shown in FIG. 5, the probe P operates as an apparent through circuit and extracts packet data without interfering with communication, a physical layer circuit 12 that converts the extracted packet data into a logic signal, A filter circuit 13 including a packet filter and a data filter for extracting only necessary information from a designated communication packet to be stored; a memory control circuit 15 for storing information extracted by the filter circuit 13 in a memory 14 together with a time stamp; A control circuit 17 that controls the stored information to be transmitted to the probe manager 4 via the external communication circuit 16, a time correction circuit 18, a reference time circuit 19, and the like.

  The probe manager 4 includes an arithmetic processing device 41 and a display device 42. The arithmetic processing device 41 and the display device 42 operate asynchronously.

  The arithmetic processing unit 41 is extracted with the packet information of interest extracted by the probe P connected to the port of the router R of the company (head office) 2 and the probe P connected to the port of the router R of the company (branch office) 3. The same packet information of interest is fetched at a predetermined period, and both pieces of packet information are collated. Then, statistical processing for measurement is performed on communication quality items such as packet loss, delay time, delay fluctuation, and throughput between the company (head office) 2 and the company (branch office) 3. These statistical processing results are output to, for example, a snmpMIB (simple network management protocol management information base) database.

  Specifically, when measuring the network quality of the communication network ISP1 between the company (head office) 2 and the company (branch office) 3, the probe P connected to the port of the router R of the company (head office) 2 and the company The probes P connected to the ports of the router R of the (branch office) 3 obtain standard time information from the time server 5 at a predetermined cycle (for example, 15 minutes), and from the reference time circuit 19 by the time correction circuit 18. Correct the output reference time.

  These probes P also capture real packets flowing from the company (head office) 2 through the communication network ISP1 to the company (branch office) 3 or the opposite direction, and time information is included in part of the captured real packets. A time stamp based on the reference time corrected by the correction circuit 18 is attached, and the measurement data is transferred to the arithmetic processing unit 41.

  The arithmetic processing unit 41 finds a pair of real packets from the measurement data from the pair of probes P, and obtains network quality such as delay time, packet loss, and traffic volume from the time stamp difference.

  The display device 42 accesses the snmpMIB database via snmp, for example, via the router R, extracts the statistical processing result of the arithmetic processing device 41, and displays it in a desired form such as a graph.

  By the way, the probe P connected to the port of the router R of the company (head office) 2 and the probe P connected to the port of the router R of the company (branch office) 3 obtain time information from the time server 5 to obtain the time correction circuit 18. 6 corrects the reference time output from its own reference time circuit 19, burst quality degradation occurs in the communication network ISP1 between the probe P and the time server 5 as shown in FIG. If the time becomes worse, a time correction error may occur. In the operation explanatory diagram of FIG. 6, when the standard time information T8 is fetched from the time server 5, the network quality of the communication network ISP1I is temporarily deteriorated, so that the correct standard time information cannot be obtained, and the time correction C4 performs correction including an error. It shows the situation that was supposed to happen.

  And it cannot be said that the correct network quality evaluation result is obtained in the evaluation measurement of the network quality evaluation apparatus based on the time correction including such an error.

  The problems to be solved by the present invention are a time correction method capable of correct time correction without being affected by temporary deterioration of network quality, a network quality evaluation measurement method and network quality evaluation capable of obtaining a correct network quality evaluation result. To implement the device.

The invention described in claim 1 for achieving such a problem is as follows.
In taking the standard time information from the time server via the communication network and correcting the reference time inside the device,
An average value of the latest time correction value and a plurality of past time correction values at regular or specified time intervals is used.

The invention according to claim 2 is the time correction method according to claim 1,
When the latest time correction value is not within a predetermined range with respect to the past average value, the latest time correction value is not used.

The invention described in claim 3
In taking the standard time information from the time server via the communication network and correcting the reference time inside the device,
It is characterized in that a minimum value of a plurality of time correction values is used periodically or at a specified time interval in a predetermined period.

The invention according to claim 4
In capturing communication packets and measuring network communication quality based on that information,
The time information corrected by the time correction method according to any one of claims 1 to 3 is used as time information at the time of network quality evaluation measurement.

The invention according to claim 5
In a network quality evaluation device that captures communication packets and measures the communication quality of the network based on the information,
A time correction mode selection means for selecting time information corrected by the time correction method according to any one of claims 1 to 3 as time information at the time of network quality evaluation measurement is provided.

  According to the present invention, it is possible to obtain a correct time correction result without being affected by temporary quality deterioration of the network as in the prior art, and to obtain a highly accurate network quality evaluation measurement result.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. Components common to those in FIG.

  The time correction circuit 18 according to the present invention performs time correction at a fixed time interval or a specified time interval, and includes a time correction average circuit 18a, a correction minimum detection circuit 18b, and a correction mode selection circuit 18c. .

  The time correction averaging circuit 18a performs time correction using an average value of time correction values for a plurality of past times including the time correction performed so far.

FIG. 2 is an explanatory diagram of the operation of the time correction averaging circuit 18a. For example, the time correction C4 uses an average value of the latest time information T8 and time correction values C1 to C3 based on the plurality of past time information T5 to T7.
This utilizes the fact that the change with time of the deviation of the reference clock is small. However, the latest time information is ignored when it is outside the predetermined range compared to the past average value, and is not included in the next past average value. The average value processing in the present invention includes weighted average processing and the like.

  The minimum correction detection circuit 18b performs time correction using a minimum value of a plurality of predetermined time correction values in a predetermined period, for example, after the previous time correction execution.

FIG. 3 is an explanatory diagram of the operation of the corrected minimum detection circuit 18b. For example, the time correction C4 is executed by using the minimum value of the time correction values based on a plurality of times of time information T17 to T20 after the previous time correction execution C3.
This utilizes the fact that the probability of network quality degradation always occurring is low. Time information is obtained multiple times, and time correction is performed with the smallest time correction value obtained when the network quality is considered to be the best, thereby reducing the time information error.

The correction mode selection circuit 18c selects and designates which mode is executed as the time correction method.
In particular,
1) Whether to use the average value of the latest time information by the time correction averaging circuit 18a and a plurality of past time correction values 2) To use the minimum value of a plurality of time correction values in a predetermined period by the correction minimum detection circuit 18b 3) It is selected and specified whether the average value of the latest time information and the past time correction values and the minimum value of the plurality of time correction values in a predetermined period are used simultaneously.

  As a result, correct time correction can be performed without being affected by temporary deterioration of network quality.

  Then, by performing network quality evaluation measurement using these time correction results, a correct network quality evaluation result can be obtained without being affected by temporary deterioration of the network quality.

  Furthermore, by incorporating these time correction functions, it is possible to realize a network quality evaluation apparatus that can obtain a correct network quality evaluation result without being affected by temporary deterioration of the network quality.

  When the average value is obtained by the time correction averaging circuit 18a, the neighborhood value may be weighted.

  Further, in the operation of the time correction averaging circuit 18a, if the comparison result between the time correction average value based on a plurality of time information up to the previous time and the time correction value based on the current time information is different within a certain multiple range, The time information may be deleted, and an average value of time correction based on a plurality of time information up to the previous time may be used as the current time correction value.

In the operation of the minimum correction detection circuit 18b, when the time interval for time correction is T, and the time from the time when the previous time correction is performed to the time when the smallest time correction value tcomp min is obtained is Tmin, the reference is actually used. The time correction value tcomp for the time is
tcomp = T / Tmin × tcomp min
It is good.

1 is a configuration block diagram illustrating an embodiment of the present invention. It is operation | movement explanatory drawing of a time correction average circuit. It is operation | movement explanatory drawing of the correction | amendment minimum detection circuit 18b. It is a block diagram which shows an example of the conventional network quality evaluation apparatus. It is a block diagram which shows an example of the conventional probe P. It is explanatory drawing of the example of the conventional time correction.

Explanation of symbols

1 Communication Network 18 Time Correction Circuit 18a Time Correction Average Circuit 18b Correction Minimum Detection Circuit 18c Correction Mode Selection Circuit 2 Company (Branch)
3 companies (head office)
4 Manager 41 Arithmetic processing device 42 Display device P Probe

Claims (5)

In taking the standard time information from the time server via the communication network and correcting the reference time inside the device,
A time correction method using an average value of a latest time correction value and a plurality of past time correction values periodically or at a specified time interval.   2. The time correction method according to claim 1, wherein when the latest time correction value is not within a predetermined range with respect to the past average value, the latest time correction value is not used. In taking the standard time information from the time server via the communication network and correcting the reference time inside the device,
A time correction method using a minimum value of a plurality of time correction values periodically or at a specified time interval in a predetermined period. In capturing communication packets and measuring network communication quality based on that information,
A network quality evaluation measurement method using time information corrected by the time correction method according to any one of claims 1 to 3 as time information at the time of network quality evaluation measurement. In a network quality evaluation device that captures communication packets and measures the communication quality of the network based on the information,
A network quality characterized by comprising time correction mode selection means for selecting time information corrected by the time correction method according to any one of claims 1 to 3 as time information at the time of network quality evaluation measurement. Evaluation device.

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