JPH114277A - Transmission line control device - Google Patents

Abstract

(57) [Problem] To provide a transmission path control device for obtaining a high-quality transmission path with less occurrence of transmission errors. SOLUTION: A transmission error measuring unit 6 for measuring the frequency of information transmission error for each transmission channel, and statistically processing the frequency of the measured information transmission error for each channel, the channels are arranged in ascending order of the frequency of occurrence of the transmission error. The apparatus includes a statistical processing unit 7 for setting a priority use order and a switch control unit 8 for controlling a switch unit 10 for switching a use channel according to the priority use order.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a control device for controlling a transmission path for transmitting information and data.

[0002]

2. Description of the Related Art Conventionally, in a transmission path for transmitting information using a transmission path having a plurality of frequency-divided transmission channels, if a transmission error occurs in some channels of the transmission path, the transmission error is reduced. Binary control of whether to use or not use a channel that has occurred has been performed to cope with this.

[0003]

When information is transmitted using a transmission path having a plurality of frequency-divided transmission channels, it is assumed that no transmission error occurs. When this occurs, it is required to control a transmission path in which a transmission error is less likely to occur.

[0004] However, in response to such demands, the above-described conventional configuration uses a channel in which a transmission error frequently occurs due to the influence of external noise during a specific time zone, or a channel that has become unused due to a transmission error. There is a problem that control for efficient use cannot be performed.

The present invention solves the above-mentioned conventional problems. By controlling a transmission line in consideration of the frequency of information transmission errors for each transmission channel, a high-quality transmission line with less occurrence of transmission errors is provided. It is an object of the present invention to provide a transmission path control device that obtains

[0006]

According to the present invention, there is provided a transmission path control apparatus for measuring a frequency of an information transmission error for each transmission channel, and statistically processing the measured frequency of an information transmission error for each channel. Means for setting the priority use order of the channels in the order of the lowest frequency of transmission errors, and performing control to preferentially use the transmission path from the channel with the lowest frequency of occurrence of transmission errors. is there.

According to the present invention, when information traffic transmitted on a transmission path is light, transmission is performed using a channel which is estimated to have a low frequency of transmission errors.
Since control is also performed to use a transmission path in which a transmission error frequently occurs when information traffic transmitted on the transmission path increases, the occurrence frequency of a transmission error in the transmission path can be reduced.

[0008]

Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) FIG. 1 is a block diagram showing an outline of a transmission line control device according to the present invention, wherein a transmission device 2 to which a transmission line control device 1 is connected and a transmission line control device 1-a are connected. The transmission device 2-a is connected by a transmission line 4 such as a transmission cable to transmit the digital data 3 and the digital data 3-a. The transmission line control device 1 and the transmission line control device 1-a is configured to control which of the frequency-divided transmission channels in the transmission path are used and how.

FIG. 2 is a block diagram showing the configuration of the transmission line control device according to the first embodiment of the present invention. The transmission line control device 1 and the transmission device 2 in FIG. 1 are shown as specific examples in this embodiment. Things. In FIG. 2, a transmission unit 9 includes a modem unit 11, a modem unit 11-a, a modem unit 11-b,
There is a modem section 11-c, which indicates that there are four frequency-divided transmission channels on the transmission path 14. Here, an example in which the digital data 13 is transmitted through the transmission path 14 is shown. The digital data 13 is distributed by the switch unit 10 of the transmission device 9 to the modem unit corresponding to the channel used on the transmission line 14. The modems distributed at this time are: modem 11, modem 11-a, modem 11-b, modem
One of 11-c. Which switch is to be selected is determined by the switch controller 8 of the transmission path controller 5. The data that has passed through the modem section is combined in the combiner / distributor 12 and transmitted to the transmission line 14. When a transmission error occurs in this series of processing, a signal indicating that a transmission error has occurred is transmitted from the modem unit to the transmission error measuring unit 6 of the transmission path control device 5. The error observed by the transmission error measuring unit 6 is sent as a signal to the statistical processing unit 7, and the statistical processing unit 7 has a built-in storage device.
Each time a signal arrives, statistical processing of transmission errors is performed, and the transmission error frequency for each channel is calculated. The statistical processing unit 7 performs a process of obtaining a priority use order for each channel based on the transmission error frequency, and passes the data to the switch control unit 8. The switch control unit 8 controls the switch unit 10 based on the passed priority use order for each channel, and performs transmission to the transmission line 14 as described above.

Next, the case of reception will be described. Here, the information transmitted through the transmission path 14 is received by the transmission device 9,
An example in the case of converting to digital data 13 will be described. Transmission line 14
The data of one transmission channel in is input to the modem unit of the frequency corresponding to each channel in the combiner / distributor of the transmission apparatus 12. The modem section at this time is the modem section 11,
One of the modem unit 11-a, the modem unit 11-b, and the modem unit 11-c. The information demodulated by the modem is sent to the switch 10
And is output as digital data 13 through. When a transmission error occurs in this series of processing, a signal indicating that a transmission error has occurred is transmitted from the modem unit to the transmission error measuring unit 6 of the transmission path control device 5. The error observed by the transmission error measuring unit 6 is sent as a signal to the statistical processing unit 7, and the statistical processing unit 7 has a built-in storage device. To calculate the transmission error frequency for each channel. The statistical processing unit 7 performs a process of obtaining a priority use order for each channel based on the transmission error frequency, and passes the data to the switch control unit 8. The switch control unit 8 controls the switch unit 10 based on the received priority order of use for each channel.

As described above, according to the present embodiment, the frequency of transmission errors for each channel in a transmission path having a plurality of transmission channels is measured, and the value is statistically processed, thereby giving priority to the use order of the transmission channels. The transmission path is determined in the order in which transmission errors are unlikely to occur, and the channel to be used is determined in accordance with this priority.

(Embodiment 2) FIG. 3 is a block diagram showing a configuration of a transmission line control device according to a second embodiment of the present invention. The transmission line control device 1 and the transmission device 2 in FIG. Is shown as a specific example. In FIG. 3, the transmission unit 19 includes a modem unit 21, a modem unit 21-a,
There are a modem section 21-b and a modem section 21-c, which indicate that there are four frequency-divided transmission channels in the transmission path 24. Here, digital data 23 is transmitted
Here is an example of transmission through 24. The digital data 23 is distributed by the switch unit 20 of the transmission device 19 to the modem unit corresponding to the channel used in the transmission path 24. The modem unit at this time is any one of the modem unit 21, the modem unit 21-a, the modem unit 21-b, and the modem unit 21-c. The switch control unit 18 of the transmission path control device 15 determines which modem unit to select. The data that has passed through the modem section is combined in the combiner / distributor 22 and transmitted to the transmission path 24. When a transmission error occurs in this series of processing, a signal indicating that a transmission error has occurred is transmitted from the modem unit to the transmission error measuring unit 16 of the transmission path control device 15. Transmission error measurement section 16
The error observed at is signaled to the statistical processing unit 17,
At this time, the statistical processing unit 17 acquires data of the time when the transmission error occurred from the clock unit 25. The statistical processing unit 17 has a built-in storage device, performs statistical processing of transmission errors each time a signal from the transmission error measuring unit 16 arrives, and calculates the transmission error frequency of each channel for each time. The statistical processing unit 17 performs a process of obtaining a priority use order for each channel at each time based on the transmission error frequency at each time, and a switch control unit 18.
Pass that data to. When controlling the switch unit 10 thereafter, the switch control unit 18 controls the transmission path 24 to the transmission line 24 in the same manner as described above, based on the passed priority use order for each channel and the time at which the control obtained from the clock unit 25 is performed. Transmission is performed.

Next, the case of reception will be described. Here, information transmitted through the transmission path 24 is received by the transmission device 19,
An example in the case of converting to digital data 23 will be described. Transmission line 24
The data of one transmission channel is input to the modem unit of the frequency corresponding to each channel in the combiner / distributor of the transmission device 22. The modem section at this time is the modem section 21,
One of the modem unit 21-a, the modem unit 21-b, and the modem unit 21-c. The information demodulated by the modem is sent to the switch 20.
Is output as digital data 23. When a transmission error occurs in this series of processing, a signal indicating that a transmission error has occurred is transmitted from the modem unit to the transmission error measuring unit 16 of the transmission path control device 15. The error observed by the transmission error measuring unit 16 is sent as a signal to the statistical processing unit 17, and the statistical processing unit 17 acquires the data of the time at which the transmission error occurred from the clock unit 25. The statistical processing unit 17 has a built-in storage device, performs statistical processing of transmission errors each time a signal from the transmission error measuring unit 16 arrives, and calculates the transmission error frequency for each channel for each time. The statistical processing unit 17 performs a process of obtaining the priority use order for each channel at each time based on the transmission error frequency at each time, and performs a switch control unit 18.
Pass that data to. The switch control unit 18 is a switch unit 20
Is performed based on the received priority order of use for each channel and the time at the time of performing the control obtained from the clock unit 25.

As described above, according to the present embodiment, the frequency of a transmission error for each channel in a transmission path having a plurality of transmission channels is measured at each time, and the value is statistically processed, whereby the transmission channel is allocated. The priority of the use order of the transmission channel is determined in the order in which the transmission error is less likely to occur at the time of use, and the channel to be used is determined according to this priority. Even when there is an increasing transmission channel, a transmission path with less transmission errors can be obtained.

In the description of each of the above embodiments, an example has been described in which the number of transmission channels in the transmission path is four. However, it is needless to say that the number of transmission channels may be plural and the number of transmission channels other than four may be similarly reduced.

[0017]

As described above, according to the present invention, it is possible to preferentially use a channel with a small transmission error in a transmission path having a plurality of frequency-divided channels, and as a result, An advantageous effect that errors are reduced is obtained.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an outline of a transmission path control device of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a transmission path control device according to a first embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a transmission path control device according to a second embodiment of the present invention.

[Explanation of symbols]

1,1-a, 5,15 ... transmission line control device, 2,2-a, 9,
19 ... Transmission equipment, 3,3-a, 13,23 ... Digital data,
4, 14, 24 ... transmission line, 6, 16 ... transmission error measuring unit,
7, 17: statistical processing unit, 8, 18: switch control unit, 1
0, 20 ... switch part, 11, 11-a, 11-b, 11-c, 21, 21-
a, 21-b, 21-c: modem section, 12, 22: combining / distributor,
25 ... Clock section.

Claims (2)

[Claims] An apparatus for controlling a transmission path having a plurality of frequency-divided transmission channels, comprising: means for measuring a frequency of an information transmission error for each transmission channel; Statistical processing of the frequency, means for setting the priority use order of the channel in the order of the lowest frequency of transmission error occurrence, and performing control to preferentially use the transmission path from the channel of the lowest frequency of transmission error occurrence. Characteristic transmission line control device. 2. A control apparatus for a transmission line having a plurality of frequency-divided transmission channels, comprising: means for measuring a correlation between a frequency of an information transmission error for each transmission channel and time; A transmission path control device, comprising means for setting a time at which a transmission error frequently occurs from the relationship, and performing control for restricting use of the channel at the set time.