JP2005061848A - Digital broadcasting program transmitter, time information generator of the same, and method for controlling generation of time information in digital broadcasting program transmitter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To execute processing to standard time without affecting each processing of each program information processing section even if current time varies to the standard time as in daylight saving time. <P>SOLUTION: When the daylight saving time begins in a switchboard clock device 17, a time information converter 18 generates standard time information from time information by the daylight saving time and sends it to a data server 14, an automatic program transmission controller 15, and a coding multiplexer controller 16 before the time information is transmitted from the switchboard clock device 17 to the data server 14, the automatic program transmission controller 15, and the coding multiplexer controller 16. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is applied to, for example, a program transmission system of a broadcasting station, and performs processing of program information according to a change in time as a processing reference, and time information used in the digital broadcast program transmission device The present invention relates to a generation apparatus and a time information generation control method used in a digital broadcast program transmission apparatus.
[0002]
[Prior art]
In recent years, for example, in a program transmission system of a broadcasting station, a time management control system that performs control corresponding to a change in time as a processing reference is applied. This type of system employs a time adjustment system that adjusts the time with respect to the standard time. As a typical example, the time is set a few hours ahead of the standard time only in summer. There is a daylight saving time system as described above (for example, Patent Document 1).
[0003]
[Patent Document 1]
JP 2002-181970 A.
[0004]
[Problems to be solved by the invention]
By the way, when the daylight saving time is entered, if the time is advanced by the master clock device, the time at which the slave program information processing device operates is also corrected. It will have a great influence. In particular, if the time is advanced from 13:00 to 14:00, a program information signal to be broadcast at the standard time of 14:00 will be broadcast.
[0005]
Accordingly, an object of the present invention is to provide a digital that can execute processing in accordance with the standard time without affecting the processing of each program information processing unit even when the current time fluctuates with respect to the standard time during the summer time period, for example. An object of the present invention is to provide a broadcast program transmission device, a time information generation device for the digital broadcast program transmission device, and a time information generation control method for the digital broadcast program transmission device.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is configured as follows.
(1) A digital broadcast program transmission device that transmits a digital broadcast program information signal based on a standard time, and a plurality of programs that perform processing related to the program information signal to be transmitted based on input time information Time information obtained by either the information processing unit, the first timekeeping method for keeping the current time along the standard time, or the second timekeeping method for keeping the time shifted from the standard time by the fixed time as the current time Time information providing unit for transmitting the information to a plurality of program information processing units, and when the second time measuring method is selected by the time information providing unit, the time information is obtained from the time information providing unit and timed by the second time measuring method. Time information generating means for generating second time information along the standard time from the first time information and supplying the second time information to a plurality of program information processing units. Ah .
[0007]
According to the configuration of (1), when the second timing method is selected, the first time information is transmitted prior to the transmission of the first time information from the time information providing unit to each of the plurality of program information processing units. Since the second time information according to the standard time is generated and provided to each program information processing unit, the time information providing unit was changed from the first time measuring method to the second time measuring method. However, each program information processing unit can continue processing along the standard time without affecting the processing of each program information processing unit.
[0008]
(2) The time information generating means is provided in the time information providing unit.
According to the configuration of (2), the device configuration can be simplified.
(3) When the second timekeeping method is selected by the time information providing unit, the time information generating means sends the first time information to the requesting program information processing unit in response to a request from the program information processing unit. It is characterized by transmitting to.
According to the configuration of (3), when the acquisition request for the first time information is generated from the program information processing unit, the first time information is transmitted to the request information processing unit. For one program information processing unit, the first time information is presented to the operator, while for another program information processing unit, processing related to the program information signal is executed to broadcast according to the second time information. As described above, optimal time information acquisition processing can be performed for each program information processing unit.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing an embodiment of an in-station system to which a digital broadcast program sending apparatus according to the present invention is applied.
As shown in the figure, this system includes a switcher (SW) 11, an encoder (ENC) 12, a multiplexer (MUX) 13, a data server (DS) 14, and an automatic program transmission control device (APC) 15. , An encoding multiplex control device (SCS) 16 and a local clock device 17 are provided.
[0010]
The switcher 11 selectively outputs program material data. The program material data output from the switcher 11 is compressed and encoded by the encoder 12 to be generated into a TS (Transport Stream), multiplexed with another TS by the multiplexer 13, and transmitted as a multiplexed TS. . Further, the multiplexer 13 generates data such as PMT (Program Map Table), PAT (Program Association Table), etc. based on the information output from the encoding and multiplexing control device 16, and multiplexes the data to the TS.
[0011]
The automatic program transmission control device 15 controls the switcher 11 according to the broadcast schedule data provided from the data server 14 and the program scheduling time counted by the local clock device 17, and also instructs the encoding multiplex control device 16 to Is transmitted to control the encoding / multiplexing process of the encoding / multiplexing control device 16.
[0012]
The encoding multiplex control device 16 controls the encoder 12 and the multiplexer 13 based on the instruction information provided from the automatic program transmission control device 15, the broadcast schedule data, and the knitting time measured by the local clock device 17.
By the way, the local clock device 17 uses either the (UTC + 9H) method of measuring the current time according to the standard time, or the summer time method of measuring the time that is one hour earlier than the standard time as the current time. 14. Time information is transmitted to the automatic program transmission control device 15 and the encoding multiplex control device 16. In this case, as shown in FIG. 2, an event is not set so that the operation is not affected by the jump of the time that occurs when the daylight saving time is entered, and the repetition of the time that occurs when the summer time falls as shown in FIG. It is necessary to do so.
[0013]
Therefore, in the present embodiment, the time information conversion device 18 is interposed between the local clock device 17 and the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16. When the time information conversion device 18 receives a flag indicating that the daylight saving time method has been selected from the local clock device 17, the time information conversion device 18 uses the time information obtained from the local clock device 17 to obtain time information along the standard time (hereinafter, standard time). This standard time information is supplied to the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16, respectively.
[0014]
These data server 14, automatic program transmission control device 15, encoding multiplex control device 16, and time information conversion device 18 are SECNET (Studio Equipment Control Network) 19 for transmitting signals that require real-time performance. Connected by
[0015]
Next, the operation in the above configuration will be described.
That is, the time information converter 18 executes the control process shown in FIG.
The time information conversion device 18 monitors whether or not a flag indicating that the daylight saving time is entered is received from the local time clock device 17 (step ST4a). When the daylight saving time is entered (Yes), the time information conversion device 18 outputs the daylight saving time. Standard time information is generated from the time information (step ST4b), and the time information based on the daylight saving time is held in an internal buffer (not shown) (step ST4c).
[0016]
At this time, the flag sent from the local clock device 17 includes information indicating the shift amount (time) that is earlier than the standard time with respect to the current time. For this reason, the time information conversion device 18 can obtain the standard time information by delaying the time information earlier than the time information sent from the local clock device 17 based on the received flag.
[0017]
Subsequently, the time information conversion device 18 determines whether or not a time information acquisition request by daylight saving time has arrived, for example, from the data server 14 (step ST4d).
If there is no acquisition request (No), the time information conversion device 18 transmits the standard time information to the data server 14 via the SECNET 19 (step ST4e).
On the other hand, when an acquisition request arrives (Yes), the time information conversion device 18 transmits time information based on daylight saving time held in the buffer to the data server 14 via the SECNET 19 (step ST4f).
[0018]
The processes in steps ST4a to ST4f are performed in parallel for the automatic program transmission control device 15 and the encoding multiplex control device 16.
The time information conversion device 18 stops the standard time information generation process when the daylight saving time method is switched to the (UTC + 9H) method.
[0019]
Further, in the above processing, an example in which time information based on daylight saving time is held in a buffer in the time information conversion device 18 has been described. However, when daylight saving time is entered, the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device. 16, both time information based on daylight saving time and standard time information may be transmitted. In this case, any one of the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16 may be selected.
[0020]
As described above, in the above embodiment, when the local clock device 17 enters the daylight saving time, the local clock device 17 transmits time information to the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16. Prior to this, the time information conversion device 18 generates standard time information from the time information based on the daylight saving time, and provides it to the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16.
[0021]
Therefore, even if the local clock device 17 changes from the (UTC + 9H) system to the summer time system, the data server 14 does not affect the processing of the data server 14, the automatic program transmission control device 15, and the encoding multiplex control device 16. 14. The automatic program transmission control device 15 and the encoding multiplex control device 16 can continue processing along the standard time.
[0022]
As a result, the broadcast should be broadcast at 14:00, the standard time, when the time is advanced from 13:00 to 14:00, for example, when daylight saving time is entered, without taking measures to prevent the operator from setting up an event. The problem of broadcasting the program information signal by mistake can also be solved.
Further, according to the above embodiment, since the known in-station clock device 17 can be used as it is, a low-cost system can be constructed as the entire in-station system.
[0023]
In the above embodiment, the time information conversion device 18 transmits time information according to daylight saving time to the requesting data server 14 when, for example, a request for obtaining time information according to daylight saving time occurs from the data server 14. Yes.
For this reason, the data server 14 presents time information according to daylight saving time to the operator, while the automatic program transmission control device 15 and the encoding multiplex control device 16 perform processing related to the program information signal to broadcast according to the standard time information. The optimal time information acquisition process can be performed for each device.
[0024]
In addition, this invention is not limited to the structure of the said embodiment. For example, as shown in FIG. 5, the time information conversion device may be incorporated in the local clock device. In FIG. 5, the same parts as those in FIG.
That is, in the system shown in FIG. 5, instead of the local clock device 17, the local clock device 20 including the time information conversion unit 201 is provided, and the connection device 21 for connecting the local clock device 20 to the SECNET 19. Is prepared.
[0025]
In this case, in the local clock device 20, when the daylight saving time is entered, the internal time information conversion unit 201 generates standard time information from the time information based on the daylight saving time. Therefore, the wiring structure between the local clock device 20 and the time information conversion unit 201 can be simplified.
[0026]
In the above embodiment, switching between the (UTC + 9H) method and the daylight saving time method has been described as an example. However, the present invention is not limited to this. For example, in addition to daylight saving time, switching between a timekeeping method in which a time shifted from a standard time by a certain time as a current time and a (UTC + 9H) method may be targeted.
[0027]
Furthermore, in the above-described embodiment, the example in which the time information conversion device and the data server, the automatic program transmission control device, and the encoding multiplex control device are connected by SECNET has been described. However, the present invention is not limited to this. The device and the switcher, encoder, and multiplexer may be connected by SECNET. This is very effective when the time management is performed by each of the switcher, the encoder and the multiplexer, for example.
In addition, the type and configuration of the in-station system, the standard time information generation procedure and the time information provision procedure during the daylight saving time period can be variously modified and implemented without departing from the scope of the present invention.
[0028]
【The invention's effect】
As described above in detail, according to the present invention, even when the current time fluctuates with respect to the standard time such as daylight saving time, the processing is performed in accordance with the standard time without affecting the processing of each program information processing unit. An executable digital broadcast program transmission device, a time information generation device for the digital broadcast program transmission device, and a time information generation control method for the digital broadcast program transmission device can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of an in-station system to which a digital broadcast program sending apparatus according to the present invention is applied.
FIG. 2 is a diagram showing a state of time jumping that occurs when daylight saving time is entered.
FIG. 3 is a diagram showing a state of repetition of time that occurs when summer time falls.
FIG. 4 is a flowchart showing a control procedure and control contents of the time information conversion apparatus in the embodiment.
FIG. 5 is a block configuration diagram showing an in-station system according to another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Switcher, 12 ... Encoder, 13 ... Multiplexer, 14 ... Data server, 15 ... Automatic program transmission control apparatus, 16 ... Coding multiplexing control apparatus, 17 ... Local clock apparatus, 18 ... Time information conversion apparatus, 19 ... SECNET, 20 ... In-office clock device, 21 ... Connection device, 201 ... Time information converter.

Claims (6)

A digital broadcast program sending device for sending a digital broadcast program information signal based on a standard time,
A plurality of program information processing units for performing processing related to the program information signal to be transmitted based on input time information;
The plurality of pieces of time information obtained by any one of a first timekeeping method that measures the current time along the standard time and a second timekeeping method that measures a time shifted from the standard time as a current time. A time information providing unit to be transmitted to the program information processing unit,
When the second timekeeping method is selected by the time information providing unit, the first time information obtained from the time information providing unit and timed by the second timekeeping method is in accordance with the standard time. A digital broadcast program sending apparatus comprising: time information generating means for generating second time information and supplying the second time information to the plurality of program information processing units. 2. The digital broadcast program transmitting apparatus according to claim 1, wherein the time information generating means is provided in the time information providing unit. The time information generation means obtains the first time information in response to a request from the program information processing unit when the second timekeeping method is selected by the time information providing unit. 2. The digital broadcast program sending device according to claim 1, wherein the digital broadcasting program sending device is sent to a broadcasting unit. 2. The digital broadcast program transmitting apparatus according to claim 1, wherein the time information providing unit transmits time information to the plurality of program information processing units by a summer time method as the second timekeeping method. A plurality of program information processing units for performing processing related to the program information signal of the digital broadcast to be transmitted based on the input time information, a first timing method for measuring the current time along a standard time, and Digital broadcast program transmission comprising: a time information providing unit for transmitting time information obtained by any one of the second clocking methods for measuring a time shifted from a standard time as a current time to the plurality of program information processing units A time information generating device used in the device,
When the second timekeeping method is selected by the time information providing unit, the first time information obtained from the time information providing unit and timed by the second timekeeping method follows the standard time. A time information generating device for a digital broadcast program transmitting device, wherein second time information is generated and the second time information is supplied to the plurality of program information processing units. A plurality of program information processing units for transmitting a program information signal of digital broadcasting based on a standard time and performing a process related to the program information signal to be transmitted based on the input time information, and along the standard time The plurality of program information processing units obtain time information obtained by any one of a first clocking method for clocking the current time and a second clocking method for clocking a time shifted from the standard time by a predetermined time as the current time. A time information generation control method of a digital broadcast program sending device comprising a time information providing unit for transmitting to
A first step of determining whether or not the second timing method is selected in the time information providing unit;
When the second timekeeping method is selected according to the determination result, the second time along the standard time from the first time information obtained from the time information providing unit and timed by the second timekeeping method. A time information generation control method for a digital broadcast program transmission device, comprising: a second step of generating information and supplying the second time information to the plurality of program information processing units.

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