KR20160071748A - Video transmission network for repair - Google Patents

Abstract

The present invention relates to an image transmission system for general cable broadcasting. In particular, the present invention is a technology to promptly restore a failure in transmitting an image signal generated in a transmission path section of the system for the general cable broadcasting. The present invention comprises: an image editing means; a signal transmitting means; a subscriber receiving device; and a relay broadcast distribution means comprising multiple relay steps. The present invention further includes: an image failure detecting means which generates an alarm including relevant detailed information when the quality of the relay broadcast distribution means deteriorates; and a control monitoring means which displays the relevant detailed information included in the alarm generated by the image failure detecting means. In addition, the present invention provides a configuration which is easy to maintain and repair by using a portable application which enables remote monitoring and remote controlling. As a consequence, the present invention is capable of operating, especially, the system for the general cable broadcasting in a laborsaving way, which reduces time, labor and cost required for restoring the failure and has an effect of promoting service quality, etc. by minimizing mean time between failures (MTBF).

Description

(Video transmission network for repair)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a video transmission system for a general wired broadcasting, and more particularly, to a technique for quickly restoring a transmission failure of a video signal generated in a transmission line section of a general wired broadcasting system.

The technical system of the general wired broadcaster network selects video information or audio obtained from a camera or a VTR and additional information (subtitles, etc.) input from a computer or the like as a switcher to constitute video contents and transmit them to the subscriber receiving apparatus .

In the transmission step, a transmission system is configured with a 'modulator + combiner' system for modulating the image contents at a frequency suitable for the medium characteristics and combining the modulated signals and transmitting the modulated signals. In order to compensate the attenuation in the transmission system, By arranging the relay amplifiers in each section, the subscriber receiving apparatus located at a long distance is reproduced at a constant level to maintain the quality of the video signal.

Such a configuration is illustrated in Fig. 1.

1, a video signal receiving apparatus 1 is an image source collecting source for acquiring a raw image by a camera, a VTR, a subtitle, and the like. (2) is a device that selects or mixes an image source therefrom, and selects only a video image of a camera or the like, or adds a character caption from a caption device to edit a service image to be served to a subscriber. Of course, the video signal receiving apparatus 1 and the switcher 2 can be operated by an operator, and this operation function can be performed by a remote control unit It is also an element.

1, the modulator 3 is a modulator for transmitting image information output from the switcher 2 to a carrier frequency suitable for a light path, a copper path, a coaxial line, an RF (radio) channel, or the like. That is, the modulator 3 modulates the image information by mixing the image information with the carrier frequency to match the characteristics of the transmission section, so that the original image information, that is, the image content, It is modulated to a suitable video signal and transmitted to a long distance.

In FIG. 1, a combiner 4 combines each modulated signal generated by a plurality of modulators 3 into one integrated video signal group, for example, a combined signal for transmitting a plurality of channel signals to a single transmission path, And performs the functions of the apparatus.

In FIG. 1, the subscriber receiving apparatus 6 indicates an end to be finally served. That is, the system concept of FIG. 1 is a configuration in which the original image contents from the video signal receiving apparatus 1 to the subscriber receiving apparatus 6 are provided so as not to impair the signal quality.

In the relay distribution section 5 between the combiner 4 and the subscriber receiving apparatus 6 in FIG. 1, there are usually dozens (5-1 ..... 5-n) poles and amplifiers And a long distance section is transmitted while compensating for a loss due to a problem of a distance from the transmitter 4 to the subscriber receiving apparatus 6.

Particularly, the transmission line is composed of a simple line and a connection mechanism by using a copper line, a coaxial line, and an RF channel in a short section. However, in case of a relatively long distance, an optical line and its attached equipment FDF (Fiber Distribution Frame), pigtail, A connecting connector and the like, and a steel wire as a pole and a machining line for supporting the wire. Furthermore, microwave relay stations may be deployed in the case of book locales.

In addition, the transmission line may be composed of a single coaxial cable, a single copper wire, or a Hybrid Fiber & Coaxial (HFC) in which the optical fibers are mixed. It is needless to say that repeaters and amplifiers may also be included in each of these line configurations.

In the present invention, the accessory equipment of the optical line is referred to as the optical line accessory equipment, the accessory equipment of the copper line is the accessory equipment of the copper wire, and the accessory line of the RF line is the accessory equipment of RF, and the accessory equipment of copper wire and the RF accessory equipment include the amplifier. The term RF includes not only radio waves transmitted using an antenna but also video signals used when transmitting to a leakage coaxial cable using a coaxial cable.

As shown in FIG. 1, at least several tens of relay amplifiers are required in a relay distribution section when a long distance service is required. As a result, several tens to several hundreds of poles and relay amplifiers are used as a tree, Star) or a mesh shape is formed.

In this configuration, when the section fault occurs, it is necessary to check the operation state of the relay amplifier one by one and check the occurrence of the fault in which section, which is not easy in terms of time and manpower.

In this case, the amplifier of each section is provided with a terminal for monitoring the signal of the output terminal so that it is easy to check the trouble, but since the maintenance technician has to go up and connect with each other every week, it is difficult to work and maintenance There is a very inefficient problem in terms of labor, cost and time consuming. Moreover, in case of a wireless repeater that penetrates the island villages, it takes several days to recover from a disaster because the user must visit the islands and low islands by aboard the fault.

Furthermore, when a lightning strike or a space charge occurs, a large-scale fault occurs in an entire area. In such a case, the degree of the fault is often a short circuit such as a short circuit, a break, or an insulation failure. In the conventional method of checking the probe, it is necessary to carry out confirmation investigation while raising and lowering the pole for the whole area where the fault occurs.

In addition, in the past, in order to perform maintenance, technical personnel dispatched to the site and a staff member operating the auxiliary system at the center in order to confirm whether or not the failure has been restored were grouped into one group. Thus, the maintenance worker and the inefficiency There was a problem.

The present invention has been devised as a comprehensive solution to this problem.

A first object of the present invention is to quickly detect a fault condition and a fault point of a video signal to quickly perform fault recovery in the event of a fault.

A second object of the present invention is to provide a portable maintenance control device to reduce the time, manpower, and cost related to the failure recovery, to confirm whether or not the service quality is restored immediately at the failure location, In the future.

In order to achieve the above object, the present invention provides a video transmission system having the following basic configuration and various application configurations. An image editing means (1000) for composing image contents as at least one image information collection means and a switcher;

Signal transmission means 2000 for converting the image contents from the image editing means into at least one transmission signal suitable for a transmission medium and transmitting the transmission signal;

A subscriber receiving apparatus 4000 capable of receiving and restoring a video signal from the signal transmitting means 2000 as video contents as an end terminal;

A relay distributing means (3000) arranged between the signal transmitting means (2000) and the subscriber receiving apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so that a predetermined signal quality is maintained until the subscriber terminal equipment;

An image failure detecting means (5000) connected to the relay distributing means (3000) and generating an alarm including the detailed information when it is recognized that the traffic light quality is deteriorated by monitoring the traffic light quality status of the relay distributing means;

And monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm. An application 7000 capable of performing remote monitoring and remote control for maintenance in conjunction with the basic configuration and the monitoring monitoring means 6000 and an additional configuration for facilitating maintenance as a remote control port 8000 .

According to the present invention as described above

First, it is possible to improve the quality of service by minimizing the MTBF (Mean Time Between Failure) and reducing the time, manpower, and cost required for disaster recovery in the operation of a general cable broadcasting system .

Second, since the operation status can be verified as a remote control while repairing on the spot with a smart phone, the maintenance workforce of one person is reduced to one person, and the reliability of confirming the obstacle can be confirmed directly by the naked eye.

Third, since it can be remotely checked daily, the manpower and cost for maintenance and preventive inspection are greatly reduced.

1 is a block diagram showing a conventional wired broadcasting system
2 is a block diagram showing a first embodiment of the present invention.
3 to 6 are block diagrams illustrating a first embodiment of the present invention in more detail.
7 and 8 are block diagrams showing a second embodiment of the present invention
9 to 11 are block diagrams showing an example of the third embodiment of the present invention
12 is a flowchart particularly showing an operation example of the third embodiment of the present invention

Since the present invention can make various changes and may have various embodiments, specific embodiments are illustrated in the drawings and described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for similar elements throughout the description of the drawings.

It is to be understood that the terms first, second, and so on may be used to describe various components, but the components should not be limited by the terms, and the terms may be used to distinguish one component from another It is used only for the purpose. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing an example of the first embodiment of the present invention,

Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;

Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;

A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;

Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;

An image failure detecting means 5000 connected to the relay distributing means 3000 to generate an alarm including the detailed information when it is recognized as a failure state in which the quality of the signal light is deteriorated by monitoring the signal quality state of the relay distribution means, ;

And monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm .

The operation of each component will be described as follows.

In general, a broadcast service system for a general cable broadcasting business is a switcher 2, which combines a video source 1 obtained from a camera, a VTR, and additional information such as voice and subtitles to form video contents.

In the first embodiment of the present invention, the first component is "image editing means 1000 that constitutes image content as at least one image information collection means 1 and switcher 2 ".

Therefore, such a component refers to a collection source configuration (1) of an image source in which a computer for inputting a general camera, a VTR, and a subtitle is connected to the switcher 2, and basically, This can be understood as a function of editing with subtitles.

In the definition of the present invention, the term "image source" refers to a raw image (1) of a raw state taken via a camera or a VTR, and the term "image information" Refers to processed video information at the rear end of the switcher 2 including all or selectively including voice, that is, video content serving as an object to be served to the subscriber. In a broad sense, the video signal means video content which is image information to be served to the subscriber in a broad sense, and in a narrow sense, the video information passed through the switcher 2 passes through the modulator, .

The second component of the present invention includes a signal transmission means 2000 connected to the image editing means 1000 for converting the image content from the image editing means 1000 into at least one transmission signal suitable for a transmission medium and transmitting the transmission signal, )"to be.

That is, the image information selectively or mixedly outputted through the switcher 2 as the first component is transmitted efficiently through the transmission line via the second component, the modulator 3 and the combiner 4 in order The block connected to the relay distribution means 3000 corresponds to the signal transmission means 2000, which is the second component in the present invention.

More specifically, the modulator 3 having an input terminal connected to the switcher 2 generates a modulation signal according to the characteristics of the transmission line 5 corresponding to the transmission medium of the relay distribution means 3000, and for example, If the relay transmission section 3000 is a medium using an optical line, the relaying carrier wave will be a light wave, so that the modulator 3 can transmit the modulated wave, Is an image signal, that is, an optical modulating signal, with a light wave as a carrier wave.

In this way, the modulator performs a function of converting a signal so that the video signal is transmitted with a minimum loss through the block of the relay distribution means 3000 composed of the medium 5 such as an antenna, a copper wire, a light wire, and a coaxial cable.

Here, the combiner 4 is a component for connecting the plurality of modulators 3 to a single or a small number of relay distribution means 3000. In comparison with the function of the switcher 2, the switcher 2 is a component for selecting or mixing the plurality of image sources or between the image source and the caption information, whereas the combiner 4 is provided with a plurality of modulators 3 to the relay distribution means 3000 as a bundle signal.

However, since the output of the modulator 3 can be directly connected to the relay distribution means 5 without the need for the combiner 4, the signal transmission means 2000 in the present invention Is defined as follows.

That is, the signal transmission means 2000 includes a modulator 3 alone, a single modulator 3 and a single combiner 4 connected in series, a plurality of modulators 3 and a single combiner 4) are connected in series or a plurality of modulators 3 and a plurality of combiners 4 are connected in parallel in parallel so that video information (video content) is transmitted to a video signal suitable for the medium of the relay distributing means 3000 And transmits it.

The third component in the first embodiment of the present invention is a "subscriber receiving apparatus 4000 capable of restoring a video signal from the signal transmitting means 2000 as a terminal and receiving it as video contents. &Quot;

The term " terminal " refers to a subscriber terminal installed in a place where a service is provided. The terminal can be associated with a TV, for example, in a type in which a video content service is provided.

Means restoring the transferred video signal back to the video information, that is, the video content, in the order reverse to that of the video information converted into the video signal by the modulator 3, Is generally referred to as a setup box. This set-up box generally has a function of selectively receiving a signal of only a selected channel by inserting a plurality of channel signals fed in the combiner 4.

The fourth component of the first embodiment of the present invention is characterized in that it is arranged between the signal transmission means 2000 and the subscriber reception device 4000 to perform a relay Distribution means 3000 ". Particularly, in this configuration, amplifiers having ports for service monitoring are installed at intervals of a predetermined unit interval, for example, 50 meters or 100 meters, so that a technician can judge a failure in the field.

Here, the predetermined signal quality is maintained. This compensates for the loss occurring in the transmission interval and minimizes the distortion and crosstalk of the signal generated in the transmission interval, so that a proper level and signal-to-noise ratio can be stably provided to the subscriber reception device 4000 . Here, the predetermined value refers to designation conditions such as various rules usually expressed in dBm, dB, and the like.

In the fourth component, a plurality of relaying steps refers to a relaying process according to a distance from a video signal transmission point for a general cable broadcasting service to a place where a subscriber receiving apparatus is located. Normally, this distance is at least several hundred meters, and in many cases it can reach up to several hundred km. Therefore, when a transmission line is arranged by coaxial cable, for example, a pole is raised every 50 meters, and a coaxial cable and a relay amplifier Thereby compensating for the loss of the video signal of the coaxial cable every 50 meters to reach the video signal to the subscriber receiving apparatus 4000 and then restoring the original video information in the setup box built in the subscriber receiving apparatus 4000, The user can receive the image contents.

Particularly, the relay distributing means 3000 is configured as a coaxial cable, a light beam + coaxial line, a light beam + UTP or a coaxial line + UTP cable when the distance is several tens of kilometers or more, Can be connected while branching to the receiving device. Also, depending on the characteristics of the medium, coaxial cable or optical line may be directly introduced into the customer's home, or FDF (fiber distribution frame) and splitter may be installed at the branch point of the optical line, As an HFC (hybrid fiber & coaxial) design, a branch path can be formed.

Further, the relay distribution means 3000 may be constituted of a radio frequency (RF) modulator, an antenna, and a relay facility as a radio relay means when connected to a book. In the present invention, a light path, a coaxial line , Copper wire, RF, etc., shall be defined as an accessory facility.

The above-described configuration is a technical system for providing a video signal to the subscriber receiving apparatus 4000 as a conventional integrated cable broadcasting service.

Therefore, when a fault occurs in the relay section (any one of sections 5-1 to 5-n in FIG. 2), the relay amplifier installed at the upper end (or the predetermined height) of all the poles is visited by the engineer, As a result, the video signal is transmitted normally to any section of the video, and the video signal is transmitted from any section of the video signal to be inspected.

Naturally, it takes a considerable amount of time and manpower to find out the cause of the trouble with this operation. In order to accurately ascertain whether or not the repair has been completed normally after completing the repair, the test pattern should be transmitted to the studio, editing room or system operator. (If you do not want to send a test pattern, you should watch the video content that is broadcast on an irregular screen for a while, which is also ineffective.

This problem is very costly loss in view of technological disturbance confirmation by opening the case of the relay amplifier installed at every distance and the traveling distance to visit each one of the poles, There is a big problem that needs work.

Therefore, in order to solve such a problem, the present invention is configured to separate the following components from the path of the subscriber receiving apparatus 4000. For this purpose, the configuration for starting the fifth component and the sixth component to be.

The fifth component of the first embodiment of the present invention is characterized in that when it is recognized as a degraded fault condition of the traffic light quality by being connected to the relay distribution means 3000 and monitoring the traffic light quality status of the relay distribution means, (5) " for generating an alarm that includes an " alarm "

In this case, the signal level of the signal level before the amplifier 5-n-2 to be input at a level of -10 dBm or more is reduced to -30 dBm, for example. Or the signal level of the output terminal of the amplifier 5-1-2 to be outputted at 0dBm is maintained at a low level of -20dBm for a long period of time. Of course, even if the signal-to-noise ratio falls below a predetermined level, the quality of the video signal may deteriorate, resulting in complaints from the subscriber, and even when crosstalk between channels occurs, 5000) is the first role to play.

Specifically, this structure will be shown in Fig. 3.

That is, the relay amplifier 5-1-2 provided on the electric pole 5-1-1 in FIG. 2 has a monitoring terminal (video input, audio input , HD video input, HDMI input, and the like) are connected to the controller 7 by the controller 7 so that the controller 7 recognizes whether the current state of the video signal being transmitted is normal or in a faulty state.

In addition, the controller 7 can be provided with a pseudo alarm input terminal to check its own function, input / modify / delete / backup the program from the outside via USB, or interfere with the external network as a LAN (LAN) 6000), alarm output, video output, audio output, etc. can be transmitted.

For reference, it is preferable that the amplifier 5-1-2 included in the relay distributing means 3000 is integrated with the controller 7 at the time when the present invention is applied in the future, from the viewpoint of reduction in the equipment cost.

The second role to be performed by the image failure detecting means 5000 is an alarm generating function including detailed information when a failure state is recognized.

That is, since it is the key of fault recovery to quickly know whether a fault has occurred in a section corresponding to a certain pole among a plurality of relay sections, for example, a large number of poles, the fifth component of the first embodiment of the present invention includes a function As a second role. For this purpose, in the fifth component, the position information may be created by pre-entering a unique ID of a pole or a device (amplifier, etc.), and in some cases, an alarm may be generated by using a position measured by a GPS.

This is illustrated schematically in Figs. 4 and 5.

In other words, in FIG. 4, a serial number (for example, 10-2004-001 ....) is transmitted from the first relay point 5-1 to the n-th relay point 5-n in the relay line 5 using the optical line or the like. 10-2004-n), and FIG. 5 shows the sequence numbers from the first relay point 5-1 to the nth relay point 5-n in the LTE network or other radio relay sections ID. This ID is inputted as position information which is one of detailed information to the controller 7 installed in the previous week. In addition, it is possible to include the location information measured by the GPS separately or in parallel with the detailed information. In the case of the GPS, the advantage that the location information is automatically generated when the user enters the installation site without manually inputting the ID Price and high price. Thus, the configuration using GPS may or may not be optional.

In summary, the main function of the fifth component of the first embodiment of the present invention is to determine whether or not there is a fault as a controller 7 interlocked with the relay amplifier 5-1-2, to generate an alarm when there is a fault, It is a matter of fact that the alarm is generated by adding detailed information including the positional information measured in advance as the GPS or measured by the GPS.

Further, the detailed information may include at least one of signal level, noise level, channel crosstalk, and distortion information between the input and output stages of the amplifier as specific numerical values. For this purpose, , An output stage, and an internal state of the device, so that the state of the device can be recognized. Of course, this function is output as a result of measuring the signal from the amplifier 5-12 as a software technique included in the controller 7.

The sixth component of the first embodiment of the present invention is a device for detecting the alarm generated by the image failure detecting means 5000 connected to the image failure detecting means 5000 and displaying the detailed information included in the alarm Monitoring means (6000) ".

2, when an alarm is generated by the image failure detection unit 5000, the signal is first transmitted to the communication network 12, which is a separate path, for example, the relay distribution unit 3000 for the broadcast service, which is the first path 5 And transmits the alarm signal through an Internet network or the like. Of course, the communication network 12 of the second path may divide and utilize the existing line 5 of the broadcast relay distribution means 3000 as a virtual channel. However, the line 12 is usually disconnected from the line 5, It is more effective to utilize auxiliary lines such as a dedicated alarm-only Internet or a fiber-optic distribution cable in consideration of this.

Since FIG. 6 shows this configuration in more detail in FIG. 2, it is easy to understand the configuration with reference to FIG. 6. However, this configuration is not limited to the structure shown in FIG.

Referring to FIG. 6, it can be seen that the system further includes a second path 5000 as a monitoring monitoring network 12 for monitoring a fault condition in addition to the first path ('5' Even if a failure occurs in the first route 3000 in which the monitoring monitor 8 for display is connected to the monitoring monitoring network and the video signal is supplied to the subscriber receiving apparatus 4000, 2 routes 5000 and 6000, it is possible to secure a condition that the first route 3000 can be returned quickly. That is, the first route 3000 and the second routes 5000 and 6000 achieve a failure-countermeasure function as mutually complementary synergies.

Here, the monitoring monitoring network 12 may utilize not only the Internet but also a private network or a commercial mobile communication network using LTE. The control monitor 8 includes a server and a client for storing and processing information (correction / deletion / display) from the second path 12 interlocked with the image failure detection unit 5000, An input device, a display device, and the like.

Displaying the detailed information included in the alarm means that it is determined whether the fault has occurred, and furthermore, the location where the fault has occurred is displayed.

According to the display information, the technician who is in charge of the maintenance manages the trouble in the relay section at a certain position, determines the degree of the specific fault condition, prepares the corresponding disaster recovery material, dispatches it to the site, .

7 is a block diagram showing an example of the second embodiment of the present invention,

Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;

Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;

A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;

Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;

An image failure detecting means 5000 connected to the relay distributing means 3000 to generate an alarm including the detailed information when it is recognized as a failure state in which the quality of the signal light is deteriorated by monitoring the signal quality state of the relay distribution means, ;

Monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm;

At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000, which is added to the monitoring means 6000, Reverse control means for controlling at least any one or more of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 in cooperation with each other The signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000 for matching with the reverse direction control means 7000, And a remote control port 8000 provided on at least one of the plurality of remote control ports 8000.

7, the image editing means 1000; Signal transmission means 2000; Subscriber receiving apparatus 4000; Relay distribution means (3000) image failure detection means (5000); The configuration and operation of the monitoring monitoring means 6000 are the same as those of FIG. 2 described above, so that the reverse control means 7000 newly added and omitted in the description of the operation; And the remote control port 8000 will be described.

That is, since the independent claim of the present invention starts from FIG. 2 and gradually expands, it constitutes three independence terms as a whole, so that detailed description should also be explained and taken in consideration of such a structure. Accordingly, from the description of the configuration of FIG. 7, only the configuration of the monitoring monitoring unit 6000 will be described while referring to the configuration of FIG. 1 through FIG. 6, . In other words, when considering the detailed description for interpreting the claims, the claims should be interpreted in the same way as in FIGS. 1 to 6 and in the entire description of FIG. 7 added thereto.

The seventh component added in the second embodiment of the present invention is

At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000 is added to the monitoring monitoring means 6000 Which is capable of remotely controlling at least one of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000, (7000) ".

That is, the monitoring monitoring means 6000 displays the fault status included in the alarm and the detailed information described above, so that the system administrator can monitor the fault status. In addition, due to the added configuration, When the fire extinguisher is operated as a remote control, such as CO2 gas operation, or as a first aid to turn off the power immediately, it is possible to operate to secure the safety before the maintenance worker is caught.

This function is effective mainly by the touch screen operation on the computer screen. Therefore, it is possible to transmit the alarm from the control monitoring means 6000 as bidirectional communication in the opposite direction to the reception of the alarm to the monitoring monitoring means 6000 via the monitoring monitoring network 12 The information controlled by the user is interlocked with at least any one of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 through the monitoring monitoring network 12 .

In other words, the signal coming from the image failure detecting means 5000 to the monitoring monitoring means 6000 corresponds to the monitoring means 6000 in the forward direction, and the signal from the monitoring monitoring means 6000 to the image editing means 1000, A signal arriving at at least any one of the relay apparatus 2000, the relay distribution means 3000 and the image failure detection means 5000 corresponds to the control means 7000 in the reverse direction.

The eighth component added in the second embodiment of the present invention is

At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000 for matching with the backward control means 7000 Remote control port 8000 provided in the "

That is, in order to transmit the remote control result from the above-described reverse control means 7000, the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000, Means 5000 includes a remote control port 8000 provided in at least one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000, the image failure detection means 5000 (7000) signal from the control monitoring means 6000 in addition to the unidirectional supervisory signal transmission, and function as a signal input / output function for operating the power, internal setting value or additional fire extinguisher of each device To be achieved.

The channel of the switcher 2 is connected to the remote control port 8000 of the video editing means 1000 such that the power of the camera or the VTR 1 is turned on or off or the TV channel is operated by the remote controller, . ≪ / RTI >

FIG. 8 is a block diagram illustrating the second embodiment described above. That is, in FIG. 8, the monitoring means 8 can receive status information from the image editing means 1000 or the signal transmitting means 2000 including the relay distribution means 3000 through the monitoring monitoring network 12 The image editing means 1000 or the signal transmission means 2000 including the relay distribution means 3000 may be remotely controlled through the monitoring monitoring network 12 in the reverse direction. This function is diagrammed as (6000 + 7000) in Fig.

9 is a block diagram showing a third embodiment of the present invention,

Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;

Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;

A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;

Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;

An image failure detecting means 5000 connected to the relay distributing means 3000 to generate an alarm including the detailed information when it is recognized as a failure state in which the quality of the signal light is deteriorated by monitoring the signal quality state of the relay distribution means, ;

Monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm;

At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000, which is added to the monitoring means 6000, Reverse control means for controlling at least any one or more of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 in cooperation with each other 7000), and the monitoring means 6000 includes a portable type reverse control means 7000-1 for interlocking with the mobile communication network, and the portable type reverse monitoring means 7000-1 includes a portable reverse direction control means 7000-1 A remote control port 8000 is provided in at least one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000 .

Also, referring to FIG. 9, the image editing means 1000 may be used as the image editing means 1000, as shown in FIG. Signal transmission means 2000; Subscriber receiving apparatus 4000; Relay distribution means (3000) image failure detection means (5000); The configuration of the monitoring monitoring means 6000 is the same as the configuration and operation of the above described FIGs. 2 to 6, so that the portable reverse control means 7000-1 newly added, omitting redundant portions in the detailed description; And the remote control port 8000 will be described.

Accordingly, the description of the detailed description of the configuration of FIG. 9 is also applicable to the configurations of FIGS. 1 to 6 (up to the sixth configuration of the present invention) described above, do.

The seventh component added in the third embodiment of the present invention is

At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000 is added to the monitoring monitoring means 6000 Which is capable of remotely controlling at least one of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000, (7000), and the monitoring means (6000) is a portable type reverse control means (7000-1) interlocked with the mobile communication network.

That is, the control monitoring unit 6000 not only displays the fault condition included in the alarm and the detailed information described above and allows the system administrator to monitor the control unit, but also controls the control unit 7000 such as overheating, It is possible to take safety measures such as turning off the power immediately or remote operation of the fire extinguisher such as CO2 gas operation.

That is, in this function, failure occurrence information is transmitted to the monitoring monitoring means 6000 through the monitoring monitoring network 12, and information from the monitoring monitoring means 6000 is also transmitted through the monitoring monitoring network 12 as the same path Means a bidirectional communication network (6000 + 7000) interworking with at least one of the means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000.

At this time, a signal coming from the image failure detecting means 5000 to the monitoring monitoring means corresponds to the forward monitoring means 6000 and the signal from the monitoring monitoring means 6000 to the image editing means 1000, The path of the signal that can remotely control at least one of the relay distribution means 3000 and the image failure detection means 5000 corresponds to the reverse direction control means 7000.

This configuration, that is, the monitoring monitoring means 6000 and the backward control means 7000 is interlocked so as to be remotely controlled by the mobile communication network terminal device as the portable backward control means 7000-1, for example, the smartphone 10 .

To this end, it is desirable to provide a connection function such as a number authentication and a connection log function for recording who has connected and controlled the operation.

In the present invention, such connection authentication and access log management functions are defined as a security system 9. The security system 9 permits connection by a user ID such as a telephone number input in advance, It is preferable that the authentication procedures such as individual passwords are performed in multiple steps each time the authentication is performed.

In addition, a smartphone for remotely controlling the smartphone is ported to a smartphone through an application program (referred to as 'app' in the present invention) for a certain portion of the screen operated by the monitoring means 6000, It is preferable to configure it so that it can be utilized.

According to this configuration, not only the above-mentioned remote control but also the information captured and recorded by the smartphone 10 can be supplied to the switcher 2 as an image source or image information to be uploaded as broadcast information .

The eighth component added in the second embodiment of the present invention is

At least any one of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 for matching with the portable reverse control means 7000-1 Remote control port 8000 provided ".

That is, in the seventh component operation of the second embodiment of the present invention, the image editing means 1000, the signal transmitting means 2000, the relay distribution means 7000, And a remote control port 8000 provided in at least one of the remote control unit 3000 and the image failure detection unit 5000. The image editing unit 1000, the signal transmission unit 2000, the relay distribution unit 3000) and the image failure detecting means 5000 also receives the signal of the reverse direction control means 7000 from the monitoring monitoring means 6000 as well as the unidirectional monitoring signal transmission, and sets the power source, internal function setting or fire extinguisher It means that additional facilities can be operated.

Further, in the operation of the seventh constituent of the third embodiment of the present invention, it has been described that these configurations can be remotely controlled (7000-1) through, for example, the smartphone 10, The port 8000 is each control channel for this purpose and is matched with the function of the monitoring monitoring means 7000 in the case of the second embodiment of the present invention. In the case of the third embodiment of the present invention, the port 8000 is connected to the portable reverse control means 7000-1 And performs a function as a matching configuration.

A block diagram illustrating this configuration is shown in FIG.

10, the smartphone 10-4 linked to the control monitor 8 is interlocked with the remote control operation function 7000 by sharing the screen for failure monitoring 6000 in the control monitor 8, The functions are connected through a number authentication or a special number 10-1, an input 10-2 such as a password capable of operating the security system, and an authentication means 10-3 for establishing a connection port for remote operation Later.

After the connection is established, the image editing means 1000, the signal transmission means 2000, and the relay distribution means 3000 are connected to the monitoring monitoring means 12 via the monitoring monitoring network 12 within a range permitted by the monitoring means 8 And can be remotely operated and monitored and controlled as it is operated by the control monitor 8 from then on.

FIG. 11 is a conceptual view of the configuration of the server system and the portable remote control means, that is, the configuration handled by the smartphone. 11, the smartphone 10 is provided with an application 1 for connecting a special number, an app 2 capable of operating a security system, and an app 10-3 capable of operating various system means such as a controller The above has an integrated app.

The server 8-1, the client 8-2, the display 8-3, and the security system 9 corresponding to the application are configured in the corresponding control monitor 8, And a configuration for setting a user password management and a connection port allowable range are provided. The range that allows the remote control function after the connection is established can also be set here.

The monitoring unit 8-4 and 8-5 are provided in the smartphone 10 as a configuration to be interlocked with the control monitor 8 so that these functions can be integrated into a smart phone or can be separated and monitored by a separate notebook PC .

Figure 12 is a simplified schematic diagram of the overall operation when utilizing the present invention for maintenance.

First, when a service quality defect 101 occurs in a state of a general wired broadcasting service 100, an alarm signal including an ID is generated (102).

This alarm is information recognized from the image failure detecting means 5000 as described above.

Next, the operator confirms the control monitor and analyzes the alarm information to recognize the specific obstacle place and situation (102-1, 103).

In this case, the position information measured from the GPS may be utilized (103-1).

Next, the technician who is in charge of maintenance visits the site based on the recognized state as an alarm and completes the failure recovery process (104)

After completion of the treatment, the recovery state is confirmed by the smartphone in the field (105), and finally, the operation state is checked remotely at the site and the operation state is controlled as necessary (106, 107) I will operate.

Through the above-described configuration of the present invention, it is possible to remotely perform the normal inspection without visiting a technician by monitoring and connecting each of the image editing means, the signal transmission means, and the relay distribution means as a remote control.

Particularly, through the remote control configuration added to the image editing means 1000, the channel of the switcher 2 can be remotely controlled to operate a test pattern for maintenance to be transmitted as if the TV channel is operated by a remote controller, And provides the captured image source to the remote control port so that a smart phone that is routinely used can be used as a camera or the like.

By the remote control of the test pattern, it is possible to know immediately whether or not the completion of the maintenance is completed on the previous week, and it is possible to know immediately and correctly. The technician directly integrates them by remote control, thereby reducing the cost and manpower of one person to one person.

In addition, the function of providing the video source directly to the video editing means 1 with the smart phone has a useful effect of securing the editing information in real time. It is preferable that the test pattern signal is stored and utilized in the form of an image file by applying a computer for caption processing or by means of separate maintenance contents storage means 1-1.

In addition, the constitution and operation of the present invention can be derived in various forms, and in particular, the range in which reasoning can be performed through the above-described principles should be regarded as being the same as or equivalent to the present invention.

1000; Image editing means
2000; Signal ship means
3000; Distribution transfer means
4000; Subscriber receiving device
5000; The video failure detection means
6000; Monitoring monitoring means
7000; The reverse control means
7000-1; Portable reverse control means
8000; Remote control port

Claims (22)

Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;
Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;
A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;
Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;
An image failure detecting means (5000) connected to the relay distributing means (3000) and generating an alarm including the detailed information when it is recognized as a degraded failure state of the signal quality by monitoring the signal quality status of the relay distributing means; ;
And monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm Wherein the image processing apparatus further comprises: Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;
Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;
A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;
Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;
An image failure detecting means 5000 connected to the relay distributing means 3000 to generate an alarm including the detailed information when it is recognized as a failure state in which the quality of the signal light is deteriorated by monitoring the signal quality state of the relay distribution means, ;
Monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm;
At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000, which is added to the monitoring means 6000, Reverse control means for controlling at least any one or more of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 in cooperation with each other The signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000 for matching with the reverse direction control means 7000, And a remote control port (8000) provided on at least one of the remote control port (8000) and the remote control port (8000). Image editing means (1000) constituting image contents as at least one image information collecting means and a switcher;
Signal transmitting means (2000) connected to the image editing means (1000) for converting the image contents from the image editing means into at least one or more image signals suitable for a transmission medium and transmitting the converted image signals;
A subscriber receiving apparatus 4000 as an end terminal capable of restoring a video signal from the signal transmitting means 2000 and receiving the video signal as video contents;
Relay distribution means (3000) arranged between the signal transmission means (2000) and the subscriber reception apparatus (4000) and constituting a transmission medium to a plurality of relaying stages so as to maintain a predetermined signal quality;
An image failure detecting means 5000 connected to the relay distributing means 3000 to generate an alarm including the detailed information when it is recognized as a failure state in which the quality of the signal light is deteriorated by monitoring the signal quality state of the relay distribution means, ;
Monitoring means (6000) connected to the image failure detecting means (5000) for detecting an alarm generated from the image failure detecting means (5000) and displaying the detailed information included in the alarm;
At least any one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image disturbance detection means 5000, which is added to the monitoring means 6000, Reverse control means for controlling at least any one or more of the image editing means 1000, the signal transmitting means 2000, the relay distributing means 3000 and the image failure detecting means 5000 in cooperation with each other 7000), and the monitoring means 6000 includes a portable type reverse control means 7000-1 for interlocking with the mobile communication network, and the portable type reverse monitoring means 7000-1 includes a portable reverse direction control means 7000-1 A remote control port 8000 is provided in at least one of the image editing means 1000, the signal transmission means 2000, the relay distribution means 3000 and the image failure detection means 5000 With enhanced fault-handling capabilities The transmission system. The method according to any one of claims 1, 2, and 3,
Wherein the image editing means comprises means configured by mixing a video signal source and a caption. The method according to any one of claims 1, 2, and 3,
Wherein the signal transmission means includes means for combining a modulator for matching the media frequency and a combiner for combining the modulated signals from the plurality of modulators and transmitting the modulated signals to a medium. The method according to any one of claims 1, 2, and 3,
Characterized in that said relay distribution means comprises means constituted by combining optical lines and optical line accessory facilities. The method according to any one of claims 1, 2, and 3,
Wherein the relay distribution means comprises means constituted by a combination of a copper line and a copper line accessory. The method according to any one of claims 1, 2, and 3,
Characterized in that the relay distribution means comprises means constituted by combining RF and RF accessory equipment. The method according to any one of claims 1, 2, and 3,
Wherein the relay distribution means includes means for configuring a monitor port for service monitoring. The method according to any one of claims 1, 2, and 3,
Wherein the image disturbance detection means includes means for recognizing the position by incorporating at least one or more of at least one of an electric pole ID, a device ID, and GPS position information in an alarm when the quality of a signal light is deteriorated. The method according to any one of claims 1, 2, and 3,
Characterized in that the image disturbance detecting means includes means for recognizing the state of the apparatus by including at least one or more of at least one of an input end, an output end, and an internal state of the apparatus, . The method according to any one of claims 1, 2, and 3,
Wherein the monitoring means comprises a network using the Internet, a server for storing and processing information received from the Internet network, and a monitoring device for displaying information from the server. The method according to any one of claims 1, 2, and 3,
Wherein the monitoring means comprises a network using LTE, a server for storing and processing information received from the LTE network, and means configured as a monitor device for displaying information from the server. The method according to any one of claims 1, 2, and 3,
Wherein the monitoring means comprises a network using a mobile communication network, a server for storing and processing information received from the mobile communication network, and a monitoring device for displaying information from the server. system. The method of claim 3,
The portable reverse control unit 7000 may include means configured to remotely control at least one of the image editing unit, relay distribution unit, image failure detection unit, and monitoring unit in a smartphone Video transmission system. The method of claim 3,
Before the mobile communication smartphone controls at least one of the image editing means, the relay distribution means, the image failure detection means, and the monitoring means, the portable reverse control means 7000 of the monitoring means changes the number authentication, Wherein the means for transmitting the video data comprises means configured to transmit the video data via any one of the security systems. 17. The method of claim 16,
Wherein the smartphone linked to the portable reverse control means (7000) comprises a connection log application capable of operating in correspondence with the security system. 17. The method according to any one of claims 3 to 16,
The image editing means, the relay distribution means, the image disturbance detection means, and the image display means are connected to the portable reverse control means 7000 through any one of the following operations: And an application capable of directly controlling at least one of the monitoring means and the monitoring means. The method according to any one of claims 1, 2, and 3,
Wherein the portable reverse control means (7000) comprises means for interlocking with a monitoring screen displayed on the smart monitoring device and an alarm for maintenance service, . The method according to any one of claims 1, 2, and 3,
Wherein the monitoring monitoring means (7000) comprises means configured to be connected to the monitoring monitoring means (6000) for each relay distribution period and to control the alarm generation and monitor the result of the alarm generation for each interval. . The method according to any one of claims 1, 2, and 3,
Further comprising a maintenance content storage means connected to the video signal collection device. The method according to any one of claims 1, 2, and 3,
Wherein the image editing means (1000) comprises means capable of taking a picture from a smart phone and uploading it to an image editing means.

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