JP2021034841A - Monitoring condition setting device, system, method, and program - Google Patents

Abstract

To enhance error detection accuracy in monitoring a transmission signal transmitted by a broadcast transmission system.SOLUTION: A monitoring condition setting device receives component information indicating information on a component constituting a transmission signal transmitted by the broadcast transmission system and, in response to the component information, sets a monitoring condition for detecting an error of the transmission signal to a monitoring device for detecting the error of the transmission signal based on the monitoring condition.SELECTED DRAWING: Figure 1

Description

The present invention relates to monitoring condition setting devices, systems, methods and programs.

The broadcast transmission system is a system that receives materials from inside and outside the broadcasting station and transmits a transmission signal, which is a signal corresponding to the program to be broadcast, to a transmission station or a line center according to a program operation table. In a broadcast transmission system, ensuring the reliability and quality of transmission signals is extremely important. Therefore, a monitoring device for monitoring the transmission signal transmitted by the broadcast transmission system is often provided.

The material is, for example, information (content information) corresponding to broadcasting content including video and audio. The content information includes at least one of the video information corresponding to the video and the audio information corresponding to the audio. In addition, various signals related to broadcast transmission in a broadcast transmission system, such as material signals including materials, transmission signals sent to a transmission station or line center, and input / output signals of transmission equipment included in a broadcast transmission system, are collectively transmitted. It shall be called a signal.

The transmission signal is composed of a huge amount of elements such as information according to the brightness and color difference of each video frame constituting the material, audio information, subtitle information, data broadcasting information, and the like. When monitoring this transmission signal, since the components of the transmission signal are enormous, the monitoring conditions for determining the transmission signal as an error state become complicated.

When this monitoring condition is set manually, the burden on the setter is heavy. In addition, the accuracy of monitoring conditions depends on the setter.

On the other hand, in the method described in Patent Document 1, the video monitoring device stores a threshold group according to the content of the video content (“movie”, “drama”, etc.), and the threshold group according to the content of the video content. Monitor using. Further, the video monitoring device updates the stored threshold value group based on the learning result.

In this way, when the monitoring device stores the monitoring conditions according to the contents in advance, it is possible to reduce the burden on the setter regarding the setting of the monitoring conditions.

International Publication No. 2019/008635

In the method described in Patent Document 1, monitoring is performed using a threshold group according to the content. Therefore, the accuracy of error detection may be low.

The reason will be explained. As described above, the transmission signal is composed of a huge number of components. Even if the content (classification) of the video content is the same, it is unlikely that even the detailed components will match. For example, even if the content is "movie", the type of sound may be stereo, dual stereo, 5.1 channel, or the like. Therefore, when there are two audio channels, it is necessary to monitor two types of audio signals. Further, in the case of 5.1 channel, it is necessary to monitor 6 types of audio signals. Even if the voice types are different, if monitoring is performed under the same monitoring conditions, the accuracy of error detection may decrease.

An object of the present invention is to provide a monitoring condition setting device, a system, a method and a program capable of improving error detection accuracy in monitoring a transmission signal transmitted by a broadcast transmission system.

In order to solve the above-mentioned problem, in one embodiment of the present invention, the monitoring condition setting device receives the component information indicating the information of the components constituting the transmission signal transmitted by the broadcast transmission system. A unit and a setting unit that sets monitoring conditions for detecting an error in the transmission signal for a monitoring device that detects the error in the transmission signal based on the monitoring conditions according to the component information. It is characterized by having.

Further, in another embodiment of the present invention, the monitoring condition setting method receives the component information indicating the information of the components constituting the transmission signal transmitted by the broadcast transmission system, and receives the component information indicating the information of the components, and responds to the component information. A monitoring condition for detecting an error in the transmission signal is set for a monitoring device that detects the error in the transmission signal based on the monitoring condition.

Further, in another embodiment of the present invention, the monitoring condition setting program has a component receiving function for receiving component information indicating information of components constituting a transmission signal transmitted by a broadcast transmission system to a computer. A setting function for setting monitoring conditions for detecting an error in the transmission signal for a monitoring device for detecting the error in the transmission signal based on the monitoring conditions is realized according to the component information. It is characterized by that.

The monitoring condition setting device, system, method and program of the present invention make it possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system.

It is a figure which shows the structural example of the monitoring condition setting apparatus of 1st Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of 1st Embodiment of this invention. It is a figure which shows the structural example of the monitoring system of the 2nd Embodiment of this invention. It is a figure which shows the configuration example of the monitoring condition setting apparatus of the 2nd Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of 2nd and 3rd Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of 2nd and 3rd Embodiment of this invention. It is a figure which shows the structural example of the monitoring system of the 3rd Embodiment of this invention. It is a figure which shows the configuration example of the monitoring condition setting apparatus of the 3rd Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of the 3rd Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of the 3rd Embodiment of this invention. It is a figure which shows the operation example of the monitoring condition setting apparatus of the 3rd Embodiment of this invention. It is a figure which shows the hardware configuration example of each embodiment of this invention.

[First Embodiment]
The first embodiment of the present invention will be described.

FIG. 1 shows a configuration example of the monitoring condition setting device 10 of the present embodiment. The monitoring condition setting device 10 of the present embodiment includes a component receiving unit 11 and a setting unit 12.

The component receiving unit 11 receives the component information indicating the information of the components constituting the transmission signal transmitted by the broadcast transmission system. The setting unit 12 sets the monitoring conditions for detecting the error of the transmission signal for the monitoring device that detects the error of the transmission signal based on the monitoring condition according to the component information.

By configuring the monitoring condition setting device 10 in this way, the monitoring condition setting device 10 sets the monitoring conditions for detecting the error of the transmission signal for the monitoring device according to the component information of the transmission signal. .. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system.

Next, FIG. 2 shows an example of the operation of the monitoring condition setting device 10 of the present embodiment.

The component receiving unit 11 receives the component information indicating the information of the components constituting the transmission signal (step S101). The setting unit 12 sets the monitoring conditions for detecting the error of the transmission signal for the monitoring device that detects the error of the transmission signal based on the monitoring condition according to the component information (step S102).

By operating in this way, the monitoring condition setting device 10 sets monitoring conditions for detecting an error in the transmission signal for the monitoring device according to the component information of the transmission signal. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system.

As described above, in the first embodiment of the present invention, the monitoring condition setting device 10 sets the monitoring conditions for detecting the error of the transmission signal to the monitoring device according to the component information of the transmission signal. And set. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system.

[Second Embodiment]
Next, the monitoring condition setting device 20 according to the second embodiment of the present invention will be specifically described.

First, FIG. 3 shows a configuration example of the monitoring system 120 and the broadcast transmission system 110 of the present embodiment. The monitoring system 120 of the present embodiment includes a monitoring condition setting device 20 and a monitoring device 70. In FIG. 3, the transmission signal is transmitted along the route indicated by the broken line. The broadcast transmission system 110 includes a program control device 60, a material input unit 81, an ANCINS 82, ENC 83, MUX 84, a first output unit 85, and a second output unit 86.

The program control device 60 is a device that controls each transmission device included in the broadcast transmission system 110. The device included in the broadcast transmission system 110 is called a transmission device. The program control device 60 controls each transmission device of the broadcast transmission system 110 so that the program can be transmitted according to the program operation table, the program replacement information in an emergency, and the like.

Further, the program control device 60 stores the program operation status. The program operation status is time-series information of the component information indicating the information of the components constituting the transmission signal, and is composed of the program operation table, the program replacement information, and the like.

The component information is, for example, the following information.
・ Information about video (HDTV (High definition television) / SDTV (Standard definition television), etc.)
-Number of audio channels (2 channels / 5.1 channels)
-Presence / absence of sub-audio-Presence / absence of subtitles-Presence / absence of data broadcasting-Superimpose state of superimpose such as provided supermarket, station logo, clock supermarket The program control device 60 includes an automatic program control device and a manual program control device. The automatic program control device and the manual program control device transmit and receive the status to each other and share the program operation status.

The automatic program control device (often called APS (Automatic Program control System)) receives a program operation table from a system higher than the broadcast transmission system 110, and based on the program operation table, each transmission of the broadcast transmission system 110. Control the device automatically.

Further, the manual program control device controls each transmission device of the broadcast transmission system 110 based on the operation by the operator. The manual program control device is used when a special program or the like requires a broadcast different from the program operation table. The manual program control device is provided with, for example, a touch panel (TP (Touch Panel)) that is operated by an operator.

The program control device 60 controls each transmission device included in the broadcast transmission system 110, for example, an ancillary data processing device, a coding device, a multiplexing device, and the like, according to the program operation status.

The ancillary data processing device (ANCINS (Ancillary Inserter)) is a device that superimposes ancillary data such as an inter-broadcasting station control signal, a digital subtitle signal, and a CM (Commercial Message) confirmation signal on a material (transmission signal). In FIG. 3, ANCINS 82 corresponds to an ancillary data processing apparatus. In ANCINS 82, ancillary data is superimposed on the material input to the material input unit 81. A coding device (ENC (Encoder)) is a device that encodes video and audio to generate a video signal and audio signal. In FIG. 3, ENC83 corresponds to a coding device. A multiplexing device (MUX (Multiplexer)) is a device that multiplexes video information in which video is encoded, audio information in which audio is encoded, control information, data broadcasting, and the like. In FIG. 3, the MUX 84 corresponds to the multiplexing device.

Next, the monitoring device 70 will be described.

The monitoring device 70 is a device that monitors a transmission signal transmitted by a transmission device included in the broadcast transmission system 110. The monitoring device 70 detects an error in the transmission signal. In the case of the example shown in FIG. 3, the monitoring device 70 monitors the transmission signal transmitted by the ANCINS 82, ENC 83, and MUX 84.

The signal transmitted by the broadcast transmission system 110 includes a signal sent to the transmission station (a signal output by the first output unit 85 in FIG. 3) and a line center which is a relay point for sending video to another station. There is a signal (a signal output by the second output unit 86 in FIG. 3) and the like. Further, the signals transmitted to various places are processed by relaying the transmission equipment included in the broadcast transmission system 110. These signals are collectively called a transmission signal.

In order to monitor these transmission signals, transmission signals are input to the monitoring device 70 from one or more points to be monitored (for example, a transmission device, a module in the transmission device, a predetermined monitoring point of a circuit in the module, etc.). Will be done. In the example of FIG. 3, a transmission signal is input from the ANCINS 82, ENC 83, and MUX 84 to the monitoring device 70.

The monitoring device 70 monitors the transmission signal based on the monitoring conditions set by the monitoring condition setting device 20, and detects an error in the transmission signal. The monitoring condition is a condition for determining that an error has occurred in the transmission signal. The monitoring condition may be, for example, an error detection threshold value for a value indicated by the characteristic information of the transmission signal. In this case, the monitoring device 70 detects an error by converting the transmission signal into feature information or extracting the feature information from the transmission signal and comparing the value indicated by the feature information with the threshold value.

The error detected by the monitoring device 70 includes an error in the transmission signal and a state in which the broadcast content output by the receiving side after decoding is inappropriate (for example, a state in which the video is frozen).

The feature information is information based on the transmission signal. The feature information is, for example, the following information.
-Video information-Audio information of each channel-Data broadcasting information-Subtitle information-Phase synchronization status (for example, phase shift between the reference synchronization signal and transmission signal)
In addition, each of the above information may be more subdivided information. Regarding the video information, for example, the following information can be considered as feature information.
-Brightness / color difference of each video frame-Still image detection information (information for detecting video freeze)
-Blinking detection information (detection information of images that may induce photosensitive epilepsy in the viewer)
-Comparison information between mainline video and 1Seg video Next, the monitoring condition setting device 20 will be described. The monitoring condition setting device 20 is a device that sets monitoring conditions for the monitoring device 70.

FIG. 4 shows a configuration example of the monitoring condition setting device 20 of the present embodiment. In the monitoring condition setting device 20 of the present embodiment, the learning information input unit 23, the learning information storage unit 24, the model generation unit 25, and the model storage unit 26 are added to the configuration of the monitoring condition setting device 10 illustrated in FIG. It is configured. That is, the monitoring condition setting device 20 of the present embodiment includes the component receiving unit 11, the setting unit 12, the learning information input unit 23, the learning information storage unit 24, the model generation unit 25, and the model storage unit 26.

The component receiving unit 11 receives component information indicating the components constituting the transmission signal. The component receiving unit 11 can receive the component information from the program control device 60. As described above, since the program control device 60 stores the program operation status, which is the time-series information of the component information, the component information of the transmission signal can be grasped.

The setting unit 12 sets the monitoring conditions for detecting the error of the transmission signal in the monitoring device 70 according to the component information. For example, the setting unit 12 can generate a monitoring condition by using deep learning and set the generated monitoring condition in the monitoring device 70. In addition, the setting unit 12 can generate and set monitoring conditions by using an arbitrary method other than the method using deep learning. For example, the setting unit 12 can store the monitoring conditions according to the component information in advance. In the present embodiment, it will be described below that the setting unit 12 generates a monitoring condition by using deep learning.

The learning information input unit 23 receives the learning information and stores the received learning information in the learning information storage unit 24. The learning information storage unit 24 is realized by, for example, a memory, and stores learning information.

In the case of the present embodiment, the learning information includes the component information of the transmission signal, the feature information of the transmission signal, and the error time information which is the time when the monitoring device 70 should determine that an error has occurred in the transmission signal. including.

The learning information input unit 23 can receive the component information from the program control device 60. Further, the learning information input unit 23 receives the feature information of the transmission signal from the monitoring device 70. Further, the error time information may be received by the learning information input unit 23 from another device, or may be input by an operator to an input means (not shown) such as a button or a touch panel in the learning information input unit 23. .. Then, the learning information input unit 23 stores the received or input information in the learning information storage unit 24.

The type and number of feature information input from the monitoring device 70 to the monitoring condition setting device 20 changes according to the component information. When the component information is exactly the same, the same type / number of feature information is input from the monitoring device 70 to the monitoring condition setting device 20.

The model generation unit 25 generates a monitoring condition generation model that generates monitoring conditions according to the component information of the transmission signal by deep learning. Then, the model generation unit 25 stores the generated monitoring condition generation model in the model storage unit 26. The model storage unit 26 stores, for example, a monitoring condition generation model realized by a memory and generating a monitoring condition. The model generation unit 25 generates a monitoring condition generation model that generates a monitoring condition that can be determined to have generated an error at the time indicated by the error time information. For example, a multi-stage neural network can be used to generate a monitoring condition generation model.

Before the operation of the broadcast transmission system 110, the worker may have the monitoring condition setting device 20 learn the learning information under various situations, and have the monitoring condition setting device 20 generate the monitoring condition generation model. ..

Then, the setting unit 12 generates a monitoring condition based on the monitoring condition generation model stored in the model storage unit 26, and sets the generated monitoring condition in the monitoring device 70.

By configuring the monitoring condition setting device 20 in this way, the monitoring condition setting device 20 sets the monitoring conditions for detecting the error of the transmission signal for the monitoring device according to the component information of the transmission signal. .. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

Further, the monitoring condition setting device 20 of the present embodiment generates a monitoring condition generation model that generates monitoring conditions according to the component information of the transmission signal based on the learning information, and is also based on the generated monitoring condition generation model. To generate monitoring conditions. Therefore, it is possible to generate monitoring conditions that do not depend on the differences between workers.

Next, FIGS. 5 to 6 show an operation example of the monitoring condition setting device 20 of the present embodiment. FIG. 5 is a sequence diagram showing an operation example of the monitoring condition setting device 20 relating to the generation of the monitoring condition generation model. FIG. 6 is a sequence diagram showing an operation example of the monitoring condition setting device 20 regarding the generation of the monitoring condition.

First, the operation of the broadcast transmission system 110 and the monitoring system 120 before operation will be described.

First, the operator prepares component information (program operation status) assuming actual operation and a transmission signal (material, superimposed signal, etc.) including an error to be detected. Then, the operator sets the component information for the program control device 60, and inputs the transmission signal to the material input unit 81. Further, the operator inputs error time information to the monitoring condition setting device 20, which is a time when the monitoring device 70 should determine that an error has occurred.

Each transmission device (material input unit 81, ANCINS 82, ENC 83, MUX 84) of the broadcast transmission system 110 transmits a transmission signal according to the component information set in the program control device 60. The monitoring device 70 receives the transmission signal from the point where monitoring is required, extracts the feature information of the transmission signal, and inputs the extracted feature information to the monitoring condition setting device 20.

The learning information input unit 23 of the monitoring condition setting device 20 receives the component information from the program control device 60. Further, the learning information input unit 23 of the monitoring condition setting device 20 receives the feature information of the transmission signal from the monitoring device 70. Then, the learning information input unit 23 of the monitoring condition setting device 20 associates the error time information input by the operator with the component information and the feature information, and stores them in the learning information storage unit 24 as learning information ( Step S201). Then, the model generation unit 25 generates a monitoring condition generation model based on the learning information stored in the learning information storage unit 24. Then, the model generation unit 25 stores the generated monitoring condition generation model in the model storage unit 26 (step S202).

Next, the operation of the broadcast transmission system 110 and the monitoring system 120 during operation will be described.

During operation, the monitoring condition setting device 20 generates monitoring conditions according to the component information received from the program control device 60 and sets them in the monitoring device 70.

First, the component receiving unit 11 of the monitoring condition setting device 20 receives the component information of the transmission signal from the program control device 60. Then, when the configuration indicated by the component information changes (step S204), the setting unit 12 generates monitoring conditions according to the component information based on the monitoring condition generation model stored in the model storage unit 26 (step S204). Step S205). Then, the setting unit 12 sets the generated monitoring condition in the monitoring device 70 (step S206).

By operating in this way, the monitoring condition setting device 20 sets monitoring conditions for detecting an error in the transmission signal for the monitoring device according to the component information of the transmission signal. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

As described above, in the second embodiment of the present invention, the monitoring condition setting device 20 sets the monitoring conditions for detecting the error of the transmission signal to the monitoring device according to the component information of the transmission signal. And set. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

Further, the monitoring condition setting device 20 of the present embodiment generates a monitoring condition generation model that generates monitoring conditions according to the component information of the transmission signal based on the learning information, and is also based on the generated monitoring condition generation model. To generate monitoring conditions. Therefore, it is possible to generate monitoring conditions that do not depend on the differences between workers.

[Third Embodiment]
Next, a third embodiment of the present invention will be described. In the present embodiment, the monitoring condition is regenerated when an error is erroneously detected or a detection omission occurs in the monitoring device 70.

FIG. 7 is a block diagram showing a configuration example of the broadcast transmission system 110 and the monitoring system 130 of the present embodiment. In the monitoring system 130 of the present embodiment, the alarm monitoring device 50 is added to the configuration of the monitoring system 120 of the second embodiment illustrated in FIG. 3, and the monitoring condition setting device 20 is changed to the monitoring condition setting device 30. It is a composition. The monitoring system 130 of the present embodiment includes a monitoring condition setting device 30, a monitoring device 70, and an alarm monitoring device 50.

When the monitoring device 70 detects an error, the monitoring device 70 transmits an error notification to the alarm monitoring device 50. The error notification includes error occurrence time information indicating the time when the error occurred in the transmission signal. The error notification may include information indicating which transmission signal caused the error and information indicating which component the error occurred. Upon receiving the error notification, the alarm monitoring device 50 notifies the user that an error has been detected by an output means (not shown) such as a GUI (Graphical User Interface). Further, the alarm monitoring device 50 monitors the false detection notification indicating that the error notification is based on the false detection when the user performs an operation corresponding to the false detection of the error that triggered the error notification. It is transmitted to the setting device 30. The false detection notification includes error occurrence time information indicating the time when the false detection occurred or the time corresponding to the event that triggered the false detection. For example, suppose that the monitoring device 70 detects an error in the transmission signal scheduled to be transmitted at time T2 at time T1. In this case, the false positive notification may include either time T1 or time T2 as the error occurrence time information.

Further, the alarm monitoring device 50 presents to the user that an alarm has occurred in the transmission device when the alarm information is received from the transmission device of the broadcast transmission system 110. Further, the alarm monitoring device 50 transmits a detection omission notification to the monitoring condition setting device 30 when an operation corresponding to the fact that an error to be detected has not been detected is performed by the user. The detection omission notification includes detection omission time information (for example, alarm occurrence time information) indicating a time corresponding to an error to be detected. For example, suppose that the monitoring device 70 cannot detect an error that should be detected at time T3 for a transmission signal scheduled to be transmitted at time T4. In this case, the detection omission notification may include either time T3 or time T4.

Upon receiving the false detection notification or the detection omission notification, the monitoring condition setting device 30 updates the monitoring condition generation model, regenerates the monitoring condition based on the new monitoring condition generation model, and sets the monitoring condition in the monitoring device 70.

Next, FIG. 8 shows a configuration example of the monitoring condition setting device 30 of the present embodiment. The configuration example of the monitoring condition setting device 30 of the present embodiment is a configuration in which the temporary storage unit 37 is added to the configuration of the monitoring condition setting device 20 of the second embodiment illustrated in FIG. That is, the monitoring condition setting device 30 of the present embodiment includes the component receiving unit 11, the setting unit 12, the learning information input unit 23, the learning information storage unit 24, the model generation unit 25, the model storage unit 26, and the temporary storage unit 37. Including.

The temporary storage unit 37 is realized by, for example, a memory, and stores component information for a predetermined time in the past and characteristic information of a transmission signal. In the operation mode, the learning information input unit 23 stores the component information received from the program control device 60 and the feature information of the transmission signal received from the monitoring device 70 in the temporary storage unit 37. In the learning mode, the learning information input unit 23 stores the learning information in the learning information storage unit 24 as in the case of the second embodiment. The operation mode or the learning mode may be set by the user in the monitoring condition setting device 30. The operation mode is a mode in which the broadcast transmission system 110 and the monitoring system 130 are in operation, and the learning mode is a mode in which learning information is learned by a large amount of transmission signals in advance before the operation of the broadcast transmission system 110 and the monitoring system 130. is there. Then, the monitoring condition setting device 30 mutually transitions the operating state between the operation mode and the learning mode.

Further, when the learning information input unit 23 receives the false detection notification or the detection omission notification from the alarm monitoring device 50, the learning information input unit 23 stores the learning information in the learning information storage unit 24. The learning information to be stored in the learning information storage unit 24 is the information stored in the temporary storage unit 37 and the error time information based on the error occurrence time information included in the false detection notification or the detection omission time information included in the detection omission notification. And include. When the false detection notification is received, the learning information input unit 23 learns the error time information indicating that it should not be determined that an error has occurred at the time corresponding to the error occurrence time information included in the false detection notification. It is stored in the information storage unit 24. Further, when the detection omission notification is received, the learning information input unit 23 indicates that the error time information should be determined that an error has occurred at the time corresponding to the detection omission time information included in the detection omission time information. Is stored in the learning information storage unit 24.

The learning information input unit 23 is set to a predetermined time before and after the time indicated by the time information (error occurrence time information or detection omission time information) received from the alarm monitoring device 50 among the information stored in the temporary storage unit 37. The information within the range may be stored in the learning information storage unit 24.

Further, the learning information input unit 23 stores the information stored in the temporary storage unit 37 in the learning information storage unit 24, and then instructs the model generation unit 25 to update the monitoring condition generation model.

The model generation unit 25 updates the monitoring condition generation model stored in the model storage unit 26 in accordance with the instruction from the learning information input unit 23. Further, the model generation unit 25 notifies the setting unit 12 that the monitoring condition generation model has been updated. Upon receiving the notification that the monitoring condition generation model has been updated, the setting unit 12 regenerates the monitoring conditions according to the component information and sets them in the monitoring device 70.

Since the other components of the monitoring condition setting device 30 are the same as those in the second embodiment, the description thereof will be omitted.

By configuring the monitoring condition setting device 30 in this way, the monitoring condition setting device 30 sets the monitoring conditions for detecting the error of the transmission signal for the monitoring device according to the component information of the transmission signal. .. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

Further, the monitoring condition setting device 30 of the present embodiment receives the error false detection information and the error detection omission information from the alarm monitoring device 50, and updates the monitoring condition generation model. Information on error false positives and error detection omissions can be said to be information for correcting monitoring conditions to more appropriate contents. In the monitoring condition setting device 30, the learning cycle is advanced so that the error detection accuracy of the monitoring condition is improved by inputting the information (correction information) of the error false detection or the detection omission and using it for the deep learning. Therefore, it is possible to further improve the error detection accuracy of the monitoring conditions.

Next, an operation example of the monitoring condition setting device 30 of the present embodiment will be described with reference to FIGS. 5, 6, 9, and 10. FIG. 5 is a diagram showing an operation example of the monitoring condition setting device 30 of the present embodiment in the learning mode before operation. Further, FIGS. 6, 9 and 10 are diagrams showing an operation example of the monitoring condition setting device 30 of the present embodiment in the operation mode during operation.

First, before the operation of the broadcast transmission system 110 and the monitoring system 130, the monitoring condition setting device 30 generates a monitoring condition generation model based on the learning information and stores it in the model storage unit 26, as in the second embodiment. (Fig. 5). The monitoring condition setting device 30 shall determine that it is before operation when the learning mode is set for the monitoring condition setting device 30 by the user.

Further, during operation, the monitoring condition setting device 30 generates monitoring conditions according to the component information received from the program control device 60 and sets them in the monitoring device 70 (FIG. 6). The monitoring device 70 monitors the transmission signal based on the monitoring conditions set by the monitoring condition setting device 30.

When the monitoring device 70 detects an error, the monitoring device 70 transmits an error notification to the alarm monitoring device 50. The alarm monitoring device 50 indicates to the user that an error has been detected. When the user determines that the detected error is an erroneous detection, the alarm monitoring device 50 is operated by the user according to the erroneous detection of the error. Then, the alarm monitoring device 50 transmits a false detection notification to the monitoring condition setting device 30.

Further, the alarm monitoring device 50 receives the information of the alarm information generated by the transmission device of the broadcast transmission system 110, and presents to the user that the alarm has occurred. When the user determines that the error to be detected has not been detected, triggered by an alarm or the like, the alarm monitoring device 50 is operated according to the fact that the error to be detected has not been detected. Then, the alarm monitoring device 50 transmits a detection omission notification to the monitoring condition setting device 30.

When the detected error is determined to be an erroneous detection by the user, the alarm monitoring device 50 is operated by the user according to the erroneous detection of the error. Then, the alarm monitoring device 50 transmits a false detection notification to the monitoring condition setting device 30.

The learning information input unit 23 of the monitoring condition setting device 30 stores the component information received from the program control device 60 and the feature information of the transmission signal received from the monitoring device 70 in the temporary storage unit 37 during operation (FIG. FIG. Step S301 of 9. It is assumed that the monitoring condition setting device 30 determines that the monitoring condition setting device 30 is in operation when the operation mode is set for the monitoring condition setting device 30 by the user.

Further, when the learning information input unit 23 receives the false detection notification or the detection omission notification from the alarm monitoring device 50 (step S302 in FIG. 10), the learning information input unit 23 stores the learning information in the learning information storage unit 24 (step S303). The learning information to be stored in the learning information storage unit 24 is the information stored in the temporary storage unit 37 and the error time information based on the error occurrence time information included in the false detection notification or the detection omission time information included in the detection omission notification. And include. When the false detection notification is received, the learning information input unit 23 learns the error time information indicating that it should not be determined that an error has occurred at the time corresponding to the error occurrence time information included in the false detection notification. It is stored in the information storage unit 24. Further, when the detection omission notification is received, the learning information input unit 23 should determine that an error has occurred at a time corresponding to the detection omission time information included in the detection omission notification. Information is stored in the learning information storage unit 24.

Further, the learning information input unit 23 stores the information stored in the temporary storage unit 37 in the learning information storage unit 24, and then instructs the model generation unit 25 to update the monitoring condition generation model.

The model generation unit 25 updates the monitoring condition generation model stored in the model storage unit 26 in accordance with the instruction from the learning information input unit 23 (step S304). Further, the model generation unit 25 notifies the setting unit 12 that the monitoring condition generation model has been updated. Upon receiving the notification that the monitoring condition generation model has been updated, the setting unit 12 regenerates the monitoring conditions according to the component information and sets them in the monitoring device 70 (step S305).

In the operation example shown in FIG. 10, the monitoring condition setting device 30 generates a monitoring condition generation model and regenerates the monitoring condition each time an error error detection or an error detection omission occurs. However, as shown in FIG. 11, the monitoring condition setting device 30 may generate the monitoring condition generation model and regenerate the monitoring condition at a timing different from the timing of error error detection or error detection omission. .. For example, the monitoring condition setting device 30 may generate a monitoring condition generation model and regenerate the monitoring condition at predetermined time intervals, or when the number of error false positives or error detection omissions reaches a predetermined number of times. ..

By operating in this way, the monitoring condition setting device 30 sets monitoring conditions for detecting an error in the transmission signal for the monitoring device according to the component information of the transmission signal. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

As described above, in the third embodiment of the present invention, the monitoring condition setting device 30 sets the monitoring conditions for detecting the error of the transmission signal to the monitoring device according to the component information of the transmission signal. And set. This enables the monitoring device to monitor the transmission signal under the monitoring conditions according to the component information of the transmission signal, and as a result, the transmission signal error is more accurate than when monitoring according to the content. Can be detected. Therefore, it is possible to improve the error detection accuracy in monitoring the transmission signal transmitted by the broadcast transmission system 110.

Further, the monitoring condition setting device 30 of the present embodiment receives the error false detection information and the error detection omission information from the alarm monitoring device 50, and updates the monitoring condition generation model. Information on error false positives and error detection omissions can be said to be information for correcting monitoring conditions to more appropriate contents. In the monitoring condition setting device 30, the learning cycle is advanced so that the error detection accuracy of the monitoring condition is improved by inputting the information (correction information) of the error false detection or the detection omission and using it for the deep learning. Therefore, it is possible to further improve the error detection accuracy of the monitoring conditions.

[Hardware configuration example]
An example of a configuration of hardware resources for realizing the monitoring condition setting device (10, 20, 30) in each embodiment of the present invention described above by using one information processing device (computer) will be described. The monitoring condition setting device may be realized by using at least two information processing devices physically or functionally. Further, the monitoring condition setting device may be realized as a dedicated device. Further, only a part of the functions of the monitoring condition setting device may be realized by using the information processing device.

FIG. 12 is a diagram schematically showing a hardware configuration example of an information processing device capable of realizing the monitoring condition setting device of each embodiment of the present invention. The information processing device 90 includes a communication interface 91, an input / output interface 92, an arithmetic unit 93, a storage device 94, a non-volatile storage device 95, and a drive device 96.

For example, the component receiving unit 11 and the setting unit 12 of FIGS. 1, 4, and 8 can be realized by the arithmetic unit 93. Further, the learning information input unit 23 and the model generation unit 25 of FIGS. 4 and 8 can also be realized by the arithmetic unit 93. Further, for example, the learning information storage unit 24 and the model storage unit 26 of FIGS. 4 and 8 and the temporary storage unit 37 of FIG. 8 can be realized by the storage device 94 and the non-volatile storage device 95.

The communication interface 91 is a communication means for the monitoring condition setting device of each embodiment to communicate with an external device at least one of wired and wireless. When the monitoring condition setting device is realized by using at least two information processing devices, the devices may be connected so as to be able to communicate with each other via the communication interface 91.

The input / output interface 92 is a man-machine interface such as a keyboard which is an example of an input device and a display as an output device.

The arithmetic unit 93 is realized by, for example, an arithmetic processing unit such as a CPU (Central Processing Unit) or a microprocessor, or a plurality of electric circuits. The arithmetic unit 93 can, for example, read various programs stored in the non-volatile storage device 95 into the storage device 94 and execute processing according to the read programs.

The storage device 94 is a memory device such as a RAM (Random Access Memory) that can be referred to by the arithmetic unit 93, and stores programs, various data, and the like. The storage device 94 may be a volatile memory device.

The non-volatile storage device 95 is, for example, a non-volatile storage device such as a ROM (Read Only Memory), a flash memory, etc., and can store various programs, data, and the like.

The drive device 96 is, for example, a device that processes data reading and writing to a recording medium 97, which will be described later.

The recording medium 97 is any recording medium capable of recording data, such as an optical disk, a magneto-optical disk, and a semiconductor flash memory.

In each embodiment of the present invention, for example, a monitoring condition setting device is configured by the information processing device 90 illustrated in FIG. 12, and a program capable of realizing the functions described in each of the above embodiments for the monitoring condition setting device. It may be realized by supplying.

In this case, the embodiment can be realized by the arithmetic unit 93 executing the program supplied to the monitoring condition setting device. It is also possible to configure some functions of the monitoring condition setting device, not all of them, in the information processing device 90.

Further, the program may be recorded on the recording medium 97, and the program may be appropriately stored in the non-volatile storage device 95 at the shipping stage, the operation stage, or the like of the monitoring condition setting device. In this case, as the supply method of the above program, a method of installing the program in the monitoring condition setting device by using an appropriate jig at the manufacturing stage or the operation stage before shipment may be adopted. Further, as the method of supplying the above program, a general procedure such as a method of downloading from the outside via a communication line such as the Internet may be adopted.

It should be noted that each of the above-described embodiments is a preferred embodiment of the present invention, and various modifications can be made without departing from the gist of the present invention.

Some or all of the above embodiments may also be described, but not limited to:

(Appendix 1)
A component receiving unit that receives component information indicating information on components that make up a transmission signal transmitted by a broadcast transmission system, and a component receiving unit that receives component information.
A setting unit for setting monitoring conditions for detecting an error in the transmission signal for a monitoring device for detecting the error in the transmission signal based on the monitoring conditions is provided according to the component information. A monitoring condition setting device characterized by.

(Appendix 2)
The monitoring condition setting device according to Appendix 1, wherein the component receiving unit receives the component information from the program control device.

(Appendix 3)
The monitoring condition setting device according to Appendix 1 or Appendix 2, wherein the setting unit generates the monitoring condition based on a monitoring condition generation model that generates the monitoring condition according to the component information.

(Appendix 4)
The monitoring condition is based on learning information including the feature information of the transmission signal, the component information of the transmission signal, and the error time information which is the time when the error of the transmission signal should be determined to occur. The monitoring condition setting device according to Appendix 3, further comprising a model generation unit that updates the generation model.

(Appendix 5)
The monitoring condition setting device according to Appendix 4, further comprising a learning information input unit that receives input of the learning information and stores the learning information in the learning information storage unit.

(Appendix 6)
When the learning information input unit receives a false detection notification indicating that the error has been erroneously detected, the learning information input unit stores the learning information regarding the false detection notification in the learning information storage unit. The monitoring condition setting device described in.

(Appendix 7)
A temporary storage unit for storing the feature information and the component information of the transmission signal is provided.
The learning information input unit stores the feature information and the component information of the transmission signal in the temporary storage unit.
The false detection notification includes error occurrence time information indicating the time corresponding to the event that triggered the false detection.
The learning information related to the false detection notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the error occurrence time included in the false detection notification. The monitoring condition setting device according to Appendix 6, wherein the learning information storage unit stores the error time information indicating that the error should not be determined at a time corresponding to the information.

(Appendix 8)
The learning information input unit is characterized in that when it receives a detection omission notification indicating that the error to be detected has not been detected, the learning information storage unit stores the learning information regarding the detection omission notification. The monitoring condition setting device according to Appendix 5 or Appendix 6.

(Appendix 9)
A temporary storage unit for storing the feature information and the component information of the transmission signal is provided.
The learning information input unit stores the feature information and the component information of the transmission signal in the temporary storage unit.
The detection omission notification includes detection omission time information indicating a time corresponding to the error to be detected.
The learning information regarding the detection omission notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the detection omission time included in the detection omission notification. The monitoring condition setting device according to Appendix 8, wherein the learning information storage unit stores the error time information indicating that the error should be determined at a time corresponding to the information.

(Appendix 10)
The monitoring condition setting device according to any one of Supplementary notes 1 to 9 and the monitoring condition setting device.
A monitoring system including the monitoring device.

(Appendix 11)
Receives component information that indicates information on the components that make up the transmission signal transmitted by the broadcast transmission system.
Monitoring characterized in that monitoring conditions for detecting an error in the transmission signal are set for a monitoring device that detects the error in the transmission signal based on the monitoring conditions according to the component information. Condition setting method.

(Appendix 12)
The monitoring condition setting method according to Appendix 11, wherein the component information is received from the program control device.

(Appendix 13)
The monitoring condition setting method according to Appendix 11 or Appendix 12, wherein the monitoring condition is generated based on a monitoring condition generation model that generates the monitoring condition according to the component information.

(Appendix 14)
The monitoring condition is based on learning information including the feature information of the transmission signal, the component information of the transmission signal, and the error time information which is the time when the error of the transmission signal should be determined to occur. The monitoring condition setting method according to Appendix 13, wherein the generation model is updated.

(Appendix 15)
The monitoring condition setting method according to Appendix 14, wherein the input of the learning information is received and the learning information is stored in the learning information storage unit.

(Appendix 16)
The monitoring condition setting method according to Appendix 15, wherein when a false detection notification indicating that the error has been erroneously detected is received, the learning information regarding the false detection notification is stored in the learning information storage unit. ..

(Appendix 17)
The characteristic information and the component information of the transmission signal are stored in the temporary storage unit.
The false detection notification includes error occurrence time information indicating the time corresponding to the event that triggered the false detection.
The learning information related to the false detection notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the error occurrence time included in the false detection notification. The monitoring condition setting method according to Appendix 16, wherein the learning information storage unit stores the error time information indicating that the error should not be determined at a time corresponding to the information.

(Appendix 18)
In Appendix 15 or Appendix 16, the learning information regarding the detection omission notification is stored in the learning information storage unit when the detection omission notification indicating that the error to be detected has not been detected is received. Described monitoring condition setting method.

(Appendix 19)
The characteristic information and the component information of the transmission signal are stored in the temporary storage unit.
The detection omission notification includes detection omission time information indicating a time corresponding to the error to be detected.
The learning information regarding the detection omission notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the detection omission time included in the detection omission notification. The monitoring condition setting method according to Appendix 18, wherein the error time information indicating that the error should be determined to occur at a time corresponding to the information is stored in the learning information storage unit.

(Appendix 20)
On the computer
A component receiving function that receives component information indicating information on the components that make up a transmission signal transmitted by a broadcast transmission system, and a component receiving function.
A setting function for setting a monitoring condition for detecting an error in the transmission signal for a monitoring device for detecting the error in the transmission signal based on the monitoring condition is realized according to the component information. A monitoring condition setting program characterized by this.

(Appendix 21)
The monitoring condition setting program according to Appendix 20, wherein the component receiving function receives the component information from a program control device.

(Appendix 22)
The monitoring condition setting program according to Appendix 20 or Appendix 21, wherein the setting function generates the monitoring condition based on a monitoring condition generation model that generates the monitoring condition according to the component information.

(Appendix 23)
The monitoring condition is based on learning information including the feature information of the transmission signal, the component information of the transmission signal, and the error time information which is the time when the error of the transmission signal should be determined to occur. The monitoring condition setting program according to Appendix 22, wherein a model generation function for updating a generation model is further realized in a computer.

(Appendix 24)
The monitoring condition setting program according to Appendix 23, wherein the computer further realizes a learning information input function that accepts input of the learning information and stores the learning information in the learning information storage unit.

(Appendix 25)
The appendix 24 is characterized in that, when the learning information input function receives a false detection notification indicating that the error has been erroneously detected, the learning information regarding the false detection notification is stored in the learning information storage unit. The monitoring condition setting program described in.

(Appendix 26)
The learning information input function stores the feature information and the component information of the transmission signal in a temporary storage unit.
The false detection notification includes error occurrence time information indicating the time corresponding to the event that triggered the false detection.
The learning information related to the false detection notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the error occurrence time included in the false detection notification. The monitoring condition setting program according to Appendix 25, wherein the learning information storage unit stores the error time information indicating that the error should not be determined at a time corresponding to the information.

(Appendix 27)
The learning information input function is characterized in that when a detection omission notification indicating that the error to be detected has not been detected is received, the learning information regarding the detection omission notification is stored in the learning information storage unit. The monitoring condition setting program according to any one of Supplementary note 24 to Supplementary note 25.

(Appendix 28)
The learning information input function stores the feature information and the component information of the transmission signal in a temporary storage unit.
The detection omission notification includes detection omission time information indicating a time corresponding to the error to be detected.
The learning information regarding the detection omission notification includes the feature information stored in the temporary storage unit, the component information stored in the temporary storage unit, and the detection omission time included in the detection omission notification. The monitoring condition setting program according to Appendix 27, wherein the learning information storage unit stores the error time information indicating that the error should be determined at a time corresponding to the information.

10, 20, 30 Monitoring condition setting device 11 Component receiving unit 12 Setting unit 23 Learning information input unit 24 Learning information storage unit 25 Model generation unit 26 Model storage unit 37 Temporary storage unit 50 Alarm monitoring device 60 Program control device 70 Monitoring device 90 Information processing device 91 Communication interface 92 Input / output interface 93 Computing device 94 Storage device 95 Non-volatile storage device 96 Drive device 97 Recording medium

Claims (10)

A component receiving unit that receives component information indicating information on components that make up a transmission signal transmitted by a broadcast transmission system, and a component receiving unit that receives component information.
A setting unit for setting monitoring conditions for detecting an error in the transmission signal for a monitoring device for detecting the error in the transmission signal based on the monitoring conditions is provided according to the component information. A monitoring condition setting device characterized by. The monitoring condition setting device according to claim 1, wherein the component receiving unit receives the component information from the program control device. The monitoring condition setting according to claim 1 or 2, wherein the setting unit generates the monitoring condition based on a monitoring condition generation model that generates the monitoring condition according to the component information. apparatus. The monitoring condition is based on learning information including the feature information of the transmission signal, the component information of the transmission signal, and the error time information which is the time when the error of the transmission signal should be determined to occur. The monitoring condition setting device according to claim 3, further comprising a model generation unit that updates the generation model. The monitoring condition setting device according to claim 4, further comprising a learning information input unit that receives input of the learning information and stores the learning information in the learning information storage unit. The claim is characterized in that, when the learning information input unit receives a false detection notification indicating that the error has been erroneously detected, the learning information storage unit stores the learning information regarding the false detection notification. The monitoring condition setting device according to 5. The learning information input unit is characterized in that when it receives a detection omission notification indicating that the error to be detected has not been detected, the learning information storage unit stores the learning information regarding the detection omission notification. The monitoring condition setting device according to claim 5 or 6. The monitoring condition setting device according to any one of claims 1 to 7.
A monitoring system including the monitoring device. Receives component information that indicates information on the components that make up the transmission signal transmitted by the broadcast transmission system.
Monitoring characterized in that monitoring conditions for detecting an error in the transmission signal are set for a monitoring device that detects the error in the transmission signal based on the monitoring conditions according to the component information. Condition setting method. On the computer
A component receiving function that receives component information indicating information on the components that make up a transmission signal transmitted by a broadcast transmission system, and a component receiving function.
A setting function for setting a monitoring condition for detecting an error in the transmission signal for a monitoring device for detecting the error in the transmission signal based on the monitoring condition is realized according to the component information. A monitoring condition setting program characterized by this.

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