JP2004235999A - Program recording system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a program recording system that has no possibility of increasing a recording time even in the case of requiring a plurality of signal formats of broadcasting materials from one and the same broadcasting material. <P>SOLUTION: When this program recording system performs recording from a video/sound signal reproducing device such as a VTR1 in a video/sound signal transmitting device such as a video server 4, the program recording system can optionally makes a branch to one between a path for transmitting a signal from the VTR1 directly to the video server 4 and a path for transmitting the signal via a video/sound signal converter 3 and to the both of the paths by using a video/sound signal switching device 4. In such a case, the video/sound signal converter 3 can optionally takes both an upconversion mode and a downconversion mode. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a program recording system using a video / audio signal transmitting device such as a video server, and more particularly to a program recording system suitable for a case where a broadcast material has a plurality of signal formats.
[0002]
[Prior art]
In recent years, broadcasting stations and the like use video and audio transmission equipment (video and audio signal transmission equipment) such as a video server, and for a program to be broadcast, read a plurality of broadcast materials recorded in advance on a magnetic tape or the like, for example. There is a case where a method is adopted in which the program is recorded on the video / audio signal transmitting device to be used as a program material and then broadcast.
[0003]
In this method, a plurality of pre-recorded broadcast materials are edited and recorded in advance on a video / audio signal transmitting device according to a broadcast program prior to broadcasting, and are edited and recorded on a scheduled broadcast date. Generally, the broadcast material is read from the video / audio signal transmitting apparatus and can be broadcast as it is as a program material (for example, see Patent Document 1).
[0004]
By the way, various kinds of signals such as an HD (High Definition) signal known as a high-quality image signal such as a high-definition image and an SD (Standard Definition) signal known as the NTSC system are included in the broadcast material at this time. For this reason, it is necessary to convert the same material into a desired signal format such as an HD signal or an SD signal and then record the same in a video / audio signal transmitting device.
[0005]
Therefore, in the prior art, when the same broadcast material is recorded as a plurality of video / audio signals (video / audio signals) having different signal formats, the same material is uploaded / updated for each signal format. The signal is input to a video / audio signal (video / audio signal) converter such as a down converter, and recorded in a video / audio signal transmission device such as a video server for each signal format.
[0006]
Here, if the required signal format of the broadcast material is the same as the signal format of the material reproduced from the magnetic tape, it may be recorded as it is on the video / audio signal transmitting device. After recording.
[0007]
[Patent Document 1]
JP-A-11-185451 [0008]
[Problems to be solved by the invention]
The prior art described above does not take into account the point that recording processing must be performed a number of times in accordance with the number of types of signal formats of broadcast materials to be recorded in a program, and has a problem that the recording processing takes time.
[0009]
In the case of the above-mentioned conventional technology, if the signal format of the material to be broadcast is, for example, two types, that is, an HD signal and an SD signal, twice the recording time is naturally required.
[0010]
SUMMARY OF THE INVENTION An object of the present invention is to provide a program recording system in which the recording time is not likely to increase even when a plurality of signal format broadcast materials are required from the same broadcast material.
[0011]
[Means for Solving the Problems]
The object is to provide at least a video / audio signal reproducing device, a video / audio signal switching device, a video / audio signal converter, a video / audio signal transmitting device, and a control device, wherein the video / audio signal reproducing device is a pre-recorded broadcast material. The video / audio signal switch branches the output of the video / audio reproduction device to one or more transmission systems, and the video / audio signal converter outputs at least one of the signals output by the video / audio switch. And a video / audio signal transmitting device converts at least one video / audio signal of at least one transmission system output from the video / audio signal switch into a video / audio signal converter. And at least one transmission system video / audio signal output from the control unit, and the control device switches at least the video / audio signal reproduction device and the video / audio signal The audiovisual signal converter, wherein is accomplished as those controlling the audio-video signal transmission device to it.
[0012]
At this time, at least one of the signal formats is an HD signal format such as HDTV, the other is an SD signal format such as the NTSC system, and the video / audio signal converter is a down conversion mode for converting an HD signal into an SD signal. The above object can also be achieved by switching between the two modes, ie, an up-conversion mode for converting an SD signal to an HD signal.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a program recording system according to the present invention will be described in detail with reference to the illustrated embodiments. Here, FIG. 1 shows an embodiment of the present invention, which comprises a VTR 1, a video / audio signal switch 2, a video / audio signal converter 3, a video server 4, and a control device 5, as shown. .
[0014]
First, the VTR 1 operates as a video / audio signal reproducing device, and plays a role of reproducing a video / audio signal recorded in advance as a broadcast material necessary for configuring a program.
[0015]
The broadcast material itself at this time is not limited to the one recorded by the VTR 1, but may be the one recorded by another VTR. In this embodiment, a VTR (Video Tape Recorder) is used, but an optical disk device or a hard disk device may be used as long as a broadcast material composed of video and audio signals can be recorded and reproduced.
[0016]
Next, the video / audio signal switch 2 is a switch for selectively distributing the video / audio signal reproduced from the VTR 1. Here, the video / audio signal supplied from the VTR 1 is input to the video / audio signal converter 3. It has a contact a for switching and a contact b for switching to an input of the video server 4.
[0017]
When the contacts a and b are selectively turned ON and OFF, the video / audio signal supplied from the VTR 1 is supplied to the video server 4 via the video / audio signal converter 3 and the video server 4 is directly transmitted to the video server 4. It functions to switch to one or both of the direct supply paths and branch.
[0018]
At this time, the video / audio signal converter 3 is constituted by a device called, for example, an up / down converter, and thereby, the signal format of the video / audio signal input from the VTR 1 via the video / audio signal switch 2 Is converted from an HD signal to an SD signal, so-called down conversion, or converted from an SD signal to an HD signal, so-called up conversion.
[0019]
Here, as described above, the video server 4 is used to edit and record a plurality of pre-recorded broadcast materials in advance according to a broadcast program prior to broadcasting, and read and broadcast the scheduled broadcast date. It functions as a video / audio signal transmitting device. For this purpose, video / audio signals are input from both the video / audio signal switch 2 and the video / audio signal converter 3, and both video / audio signals are input from both paths. Can be recorded at the same time.
[0020]
The control device 5 includes, for example, a computer that operates according to a predetermined program, and thereby functions to control the entire system. For this reason, for example, the VTR 1 and the video / audio signal switch are connected via a control line based on the standard RS422. 2. It is connected to each device included in this system, such as the video / audio signal converter 3, and the video server 4, so that it can control these devices and monitor their operation. I have.
[0021]
Next, the processing operation of the control device 5 of this embodiment will be described with reference to the flowchart of FIG. First, here, the video / audio signal switch 2 is referred to as the switch 2, and the video server 4 is simply referred to as the server 4.
[0022]
Then, when the processing is started here, first, the control device 5 interprets the content of the given operation command (S1). The operation command at this time is recorded in the VTR 1 and instructs whether the signal format of the broadcast material to be transferred to the server 4 is SD or HD. This is a command indicating whether the signal format is SD or HD, or furthermore, both SD and HD, that is, SD + HD.
[0023]
Next, in processing step S2, if the signal format of the broadcast material to be transferred from the VTR 1 to the server 4 is SD, the flow branches to processing step S3, and if it is HD, the flow branches to processing step S4.
[0024]
First, in one processing step S3, when the signal format of the broadcast material to be recorded in the video server 4 is SD, the process branches to a process step S5, and when the signal format is SD, the process branches to a process step S6. If SD + HD, the process branches to processing step S7.
[0025]
When the process branches to step S5, the contact a of the switch 2 is turned off (opens the contact) and the contact b is turned on (closes the contact), and the process proceeds to step S13.
[0026]
Next, when branching to the processing step S6, first, the contact a of the switch 2 is turned ON and the contact b is turned OFF, and then the conversion mode of the converter 3 is set to up conversion in the processing step S11. Then, the process proceeds to the processing step S13.
[0027]
When the process branches to the processing step S7, both the contact a and the contact b of the switch 2 are turned ON here. After that, in the processing step S11, the conversion mode of the converter 3 is similarly up-converted before proceeding to the processing step S13.
[0028]
In the other processing step S4, when the signal format of the broadcast material to be recorded in the video server 4 is SD, the processing branches to processing step S8, when the signal is HD, the processing branches to processing step S9, and when the signal format is SD + HD, It branches to processing step S10.
[0029]
Then, first, when the process branches to the processing step S8, as in the processing step S5, the contact a of the switch 2 is turned OFF and the contact b is turned ON, and then the process proceeds to the processing step S13.
[0030]
Next, when the flow branches to the processing step S9, the contact a of the switching device 2 is turned ON and the contact b is turned OFF in the same manner as the processing step S6. After setting the conversion mode to down conversion, the process proceeds to processing step S13.
[0031]
When the flow branches to the processing step S10, as in the processing step S7, both the contact a and the contact b of the switch 2 are turned ON. After that, the conversion mode of the converter 3 is changed in the processing step S12. After down conversion, the process proceeds to step S13.
[0032]
After the processing step S13, first, a recording control signal is sent to the server 4 to prepare for recording of the number of input video / audio signals as broadcast materials at this time (S13), and then a reproduction control signal is sent to the VTR1. Then, reproduction of the requested broadcast material is started (S14).
[0033]
Thereafter, it is monitored whether or not the recording is completed. When the recording is completed, the server 4 is controlled, the recording by the server 4 is terminated (S16), and the processing is terminated.
[0034]
Then, according to this embodiment, the following operation is automatically obtained.
[0035]
If the signal format of the broadcast material recorded on the VTR 1 and to be transferred to the server 4 is SD and the signal format of the broadcast material to be recorded on the server 4 is also SD, the switch 2 Since only the contact b is turned ON (S5), the broadcast material reproduced from the VTR 1 is recorded in the server 4 as it is.
[0036]
Also, if the signal format of the broadcast material that is recorded on the VTR 1 and should be transferred to the server 4 from now on is SD, but the signal format of the broadcast material to be recorded on the server 4 from now on is HD, then The switch 2 is turned ON only at the contact point a (S6), and the converter 3 is set to the up-conversion mode (S11). Therefore, the signal format of the broadcast material reproduced from the VTR 1 is converted from SD to HD. This is recorded on the server 4.
[0037]
Furthermore, if the signal format of the broadcast material recorded on the VTR 1 and to be transferred to the server 4 is SD, but the signal format of the broadcast material to be recorded on the server 4 is SD + HD this time, The switch 2 is turned on at both the contact points a and b (S7), and since the converter 3 is in the up-conversion mode (S11), the broadcast material reproduced from the VTR 1 has a signal The format is recorded on the server 4 as it is, and on the other hand, after the signal is converted from SD to HD, it is also recorded on the server 4 at the same time.
[0038]
Next, when the signal format of the broadcast material recorded on the VTR 1 and to be transferred to the server 4 is HD and the signal format of the broadcast material to be recorded on the server 4 is also HD, the switching is performed. Since only the contact b of the device 2 is turned ON (S8), the broadcast material reproduced from the VTR 1 is recorded in the server 4 as it is.
[0039]
If the signal format of the broadcast material recorded on the VTR 1 and to be transferred to the server 4 from now on is HD, but the signal format of the broadcast material to be recorded on the server 4 from now on is SD, then The switch 2 is turned ON only at the contact a (S9), and the converter 3 is set to the down-conversion mode (S12), so that the signal format of the broadcast material reproduced from the VTR 1 is converted from HD to SD. This is recorded on the server 4.
[0040]
Further, if the signal format of the broadcast material recorded on the VTR 1 and to be transferred to the server 4 from now on is HD, but the signal format of the broadcast material to be recorded on the server 4 from now on is SD + HD, then The switch 2 is turned on at both the contact points a and b (S10), and the converter 3 is set to the down-conversion mode (S12).
[0041]
Therefore, at this time, the broadcast material reproduced from the VTR 1 is recorded on the server 4 while the signal format remains SD, and on the other hand, the signal is converted from the SD to the HD and is also transmitted to the server 4 in parallel. 4 will be recorded.
[0042]
Therefore, according to this embodiment, even when broadcasting materials of a plurality of signal formats are required from the same broadcasting material, program recording can be automatically obtained in the same time as recording of one broadcasting material. it can.
[0043]
【The invention's effect】
According to the present invention, even when the same broadcast material is recorded as a plurality of video / audio signals, there is no possibility that the recording time will increase, and the program material can be automatically recorded.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a program recording system according to the present invention.
FIG. 2 is a flowchart for explaining the operation of one embodiment of the present invention.
[Explanation of symbols]
1 VTR (video / audio signal playback device)
2 Video / audio signal switch (video / audio signal switch)
3 Video / audio signal converter (video / audio signal converter)
4 server (video / audio signal transmission equipment)
5 Control equipment

Claims (2)

At least a video and audio signal playback device and a video and audio signal switch, a video and audio signal converter, a video and audio signal transmission device, including a control device,
The video and audio signal playback device outputs a broadcast material recorded in advance,
The video / audio signal switcher branches the output of the video / audio reproduction device to one or more transmission systems,
The video / audio signal converter converts a video / audio signal in at least one transmission system branched by the video / audio switch into a different signal format,
The video / audio signal transmitting device is configured to output a video / audio signal of at least one transmission system output from the video / audio signal switch and a video / audio signal of at least one transmission system output from the video / audio signal converter. Recorded,
The program recording system, wherein the control device controls at least the video / audio signal reproducing device, the video / audio signal switching device, the video / audio signal converter, and the video / audio signal transmitting device. The program recording system according to claim 1,
At least one of the signal formats is an HD signal format such as Hi-Vision, and the other is an SD signal format such as the NTSC system.
The video / audio signal converter can be operated by switching between two modes, a down-conversion mode for converting an HD signal to an SD signal and an up-conversion mode for converting an SD signal to an HD signal. Program recording system.

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