JP2004328373A - System, device and method for adjusting digital television - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that production efficiency of television receivers with different specifications by every destination is poor since memory capacity of a microcomputer of the television receiver is small. <P>SOLUTION: Mass production of a digital television of each destination specification becomes possible according to the number of production by every destination by storing pieces of digital data such as data for an OSD display screen which are different by every destination generated by an intensive signal broadcast device A1 in a common memory provided to a digital television main body 20 onto a production line. In addition, the production efficiency is enhanced more by judging whether or not storage processing to a memory of the digital television main body 20 is appropriately executed on the side of the intensive signal broadcast device A1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital television adjustment system, a digital television adjustment device, and a digital television adjustment method, and more particularly, to a digital television adjustment system, a digital television adjustment device, and a digital television adjustment method for performing various adjustments using a centralized signal during production. .
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in production of a television receiver in a factory, in order to perform various adjustments of video and audio of the television receiver, various adjustment data are transmitted on a centralized signal to a production line in the factory. Then, the television receiver flowing on the production line receives the adjustment data for each adjustment item and performs various adjustments such as video and audio.
[0003]
Techniques for separately distributing on-screen display (OSD) display data, which is different from a normal reception function, to a digital broadcast receiver include a data broadcasting center that manages and broadcasts the created digital data, Digital broadcast receiving apparatus for receiving digital data broadcast from a broadcasting center, temporarily recording the digital data, selecting digital data to be stored from the recorded digital data, and storing the selected digital data Is known (for example, see Patent Document 1).
In the digital data distribution system, OSD display data created according to a predetermined format is distributed to a digital broadcast receiver by data broadcasting. On the digital broadcast receiver side, the OSD display data is downloaded and stored according to the program name and recording start time specified by the user, and a screen such as a program guide is displayed using the stored OSD display data. By doing so, it is possible to display an OSD that suits the user's preference.
[0004]
[Patent Document 1]
JP 2001-298670 A
[0005]
[Problems to be solved by the invention]
In the production of the conventional television receivers described above, since the memory capacity of the microcomputer is small, a program having a basic function as a television receiver that performs signal processing after broadcast wave demodulation is provided, and a program such as video and audio is provided. After the adjustment, there was almost no remaining memory capacity. Therefore, if a television receiver having common basic performance is to be provided with programs and data for OSD display and icon graphics for each destination, a unique memory in which the programs and data for these destinations are recorded is required. It had to be separately mounted on the television receiver for each production unit in the destination area. However, when attempting to mass-produce a television receiver having different specifications for each destination, the production line is stopped once in order to mount a memory storing a program and data for another destination each time the destination changes. There was a problem that it was difficult to improve production efficiency.
[0006]
Further, in the digital data distribution system described in Patent Document 1 described above, which data of the broadcast digital data is received is determined by the control of the digital broadcast receiving device. Therefore, there has been a problem that different digital data cannot be distributed for each destination to digital television receivers having common basic performance.
[0007]
【Purpose】
The present invention has been made in view of the above problems, and has as its object to provide a digital television adjustment system, a digital television adjustment device, and a digital television adjustment method capable of increasing the efficiency of digital television production.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 is a digital broadcast signal generating unit that executes a process of generating a digital broadcast signal including predetermined digital data, and the digital broadcast signal generated by the digital broadcast signal generating unit. A centralized signal broadcasting device including a server that performs a signal transfer process, a digital broadcast signal transmitting unit that transmits a digital broadcast signal transferred from the server from a first antenna unit, and the transmitted digital broadcast signal. A tuner for connecting to a second antenna unit for receiving, selecting a predetermined channel from a plurality of channels and outputting a reception signal, and performing digital conversion while performing predetermined error processing based on the reception signal output by the tuner Digital signal generation unit for generating a digital signal generated by the digital signal generation unit, and various digital signals included in the generated digital signal. A digital data extraction unit for extracting data, a decoding unit for decoding the MPEG-compressed digital data extracted by the digital data extraction unit, and a conversion of the video data decoded by the decoding unit to an analog video signal. An analog video signal conversion unit, an analog audio signal conversion unit that converts audio data decoded by the decoding unit into an analog audio signal, a display that performs display based on the analog video signal, A speaker having an output, a memory having a dedicated writable area for storing destination-specific digital data used for differentiating specifications for each destination, and the destination-specific digital data in the digital data extracting unit. At the same time, and store the digital data for each destination in the memory. A digital television adjustment device including a microcomputer that executes a process for causing the display device to perform a pattern matching based on an input result by the CCD camera unit; and a CCD camera unit that inputs a display result on the display. And a pattern matching unit that transmits the recognition result to the digital broadcast signal generation unit.
[0009]
In the invention according to claim 1 configured as described above, the digital broadcast signal generation unit executes a process of generating a digital broadcast signal including predetermined digital data, and the server transmits the digital broadcast signal generated by the digital broadcast signal generation unit. Execute the transfer processing of the broadcast signal. Then, the digital broadcast signal transmitting unit receives the transfer of the digital broadcast signal from the server, and transmits the digital broadcast signal from the first antenna unit to the second antenna unit.
[0010]
Next, the tuner selects a predetermined channel from the digital broadcast signals of a plurality of channels output from the second antenna unit connected to the tuner, and outputs a received signal. Since the received signal output by the tuner is an analog signal, the digital signal generation unit generates a digital signal that is digitally converted while performing a predetermined error process based on the received signal. Next, the digital data extracting unit extracts various digital data included in the generated digital signal. The decoding unit decodes the MPEG-compressed digital data extracted by the digital data extraction unit. The analog video signal conversion unit converts the video data decoded by the decoding unit into an analog video signal, and the display can output a video based on the analog video signal. The analog audio signal conversion unit converts the audio data decoded by the decoding unit into an analog audio signal, and the speaker can output audio based on the analog audio signal.
[0011]
Here, the microcomputer causes the digital data extraction unit to extract destination-specific specification digital data used for differentiating specifications for each destination, and to store the destination-specific digital data in the memory. Execute.
That is, by providing a fixed memory area in the digital television receiver, digital data having different specifications depending on the destination is stored. Therefore, it is possible to adjust a digital TV receiver having a specification in which fonts, icon graphics, and the like of OSD display are different depending on a destination based on a digital TV receiver having a specification having a common basic performance. In addition, since memory for recording digital data is provided in common for all digital television receivers, fonts and icon graphics for OSD display differ depending on the destination during mass production at factories. Digital television receivers can be efficiently produced.
[0012]
Next, the CCD camera section inputs a display result on a display, and the pattern matching section executes pattern matching based on the input result from the CCD camera section, and recognizes the recognition result by the pattern matching to the digital broadcast signal. Send to the generator. As described above, by performing pattern matching on the display result on the display, and transmitting the recognition result of the pattern matching to the digital broadcast signal generation unit, whether or not the process of storing in the memory has been properly performed, It is possible to establish a processing path for making a determination on the centralized signal broadcasting device side.
[0013]
Here, the invention according to claim 2 is a centralized signal broadcasting device comprising: a digital broadcast signal generating means for generating a predetermined digital broadcast signal; a digital broadcast signal transmitting means for transmitting the digital broadcast signal; Digital broadcast signal receiving means for receiving a digital broadcast signal including predetermined digital data transmitted from the signal transmitting means, and destination-specific specification digital used for differentiating specifications for each destination from the received digital broadcast signal Digital data extracting means for extracting data; a memory having a writable dedicated area for storing the extracted digital data for each destination; executing a predetermined adjustment process; Adjustment processing executing means for executing processing for storing the digital data of another specification in the memory. A digital television adjustment device, an image input unit that captures a display result of the digital television adjustment device, and recognizes a result of processing performed by the adjustment processing execution unit based on an imaging result obtained by the image input unit. A display result processing device including a recognition result transmitting unit that transmits the recognition result to the digital broadcast signal generating unit.
[0014]
In the invention according to claim 2 configured as described above, the digital broadcast signal generating means generates a predetermined digital broadcast signal, and the digital broadcast signal transmitting means converts the digital broadcast signal into a digital signal of the digital television adjustment device. Transmit to the broadcast signal receiving means. The digital broadcast signal receiving means receives the digital broadcast signal including the transmitted predetermined digital data, and the digital data extracting means uses the digital broadcast signal received from the digital broadcast signal to identify a destination used for differentiating specifications for each destination. Extract digital data for each area. The adjustment process executing means executes a predetermined adjustment process and executes a process of storing the extracted digital data for each destination in the memory. Next, the image input means captures the display result of the digital television adjustment device. Then, the recognition result transmitting means recognizes the result of the processing by the adjustment processing executing means based on the imaging result by the image input means, and transmits the recognition result to the digital broadcast signal generating means. With the above configuration, it is possible to store the digital data for each destination generated in the centralized signal broadcasting device in a fixed memory area in the digital television adjustment device. Further, since the display result of the digital television adjustment device is fed back to the digital broadcast signal generation means, it is possible for the centralized signal broadcast device to determine whether or not the storage processing has been properly performed.
[0015]
As an aspect of a method of utilizing the digital data for each destination, the invention according to claim 3 is the digital television adjustment system according to claim 2, wherein the adjustment processing execution means has the dedicated writable area. The above-mentioned destination-specific digital data is obtained from the memory, and based on the obtained destination-specific digital data, a digital signal for displaying a screen display having a different specification for each destination is formed, and the formed digital data is formed. It is configured to perform a process of displaying a screen display having different specifications for each destination on a display based on a signal.
[0016]
In the invention according to claim 3 configured as described above, the adjustment processing executing means acquires the destination-specific digital data from the memory, and sets the destination digital data based on the acquired destination-specific digital data. A digital signal for displaying a screen display having different specifications for each location is formed, and the formed digital signal is converted into an analog signal, and a screen display having different specifications for each destination is displayed on a display. That is, based on the destination-specific specification digital data, an OSD display or an icon graphic having different specifications for each destination is displayed on the display, whereby a design on a display having different specifications for each destination is provided.
[0017]
Here, the invention according to claim 4 is an example of a process for confirming that the storage process of the specification-specific digital data for each destination in the memory having the writable dedicated area is completed. 4. The digital television adjustment system according to claim 3, wherein the adjustment processing execution unit is configured to store the destination-specific digital data in the memory having the writable dedicated area when the processing is properly completed. A predetermined display pattern indicating that the processing has been properly completed is displayed on the display.
[0018]
In the invention according to claim 4 configured as described above, the adjustment processing execution means may execute the storage processing appropriately when the processing of storing the destination-specific digital data in the memory is properly completed. A predetermined display pattern indicating the end is displayed on the display. By performing the display, the image input means can capture a predetermined display pattern. The recognition result transmitting means recognizes that the storage processing has been properly completed based on the imaging result, and transmits the recognition result to the digital broadcast signal generating means. Then, the digital broadcast signal generating means receiving the transmission of the recognition result recognizes that the storage processing has been properly executed. By performing the above-described processing, a processing path for recognizing that the storage processing has been appropriately executed on the side of the centralized signal broadcasting device is established, and the adjustment efficiency of the digital television receiver is increased.
[0019]
Further, according to a fifth aspect of the present invention, in the digital television adjustment system according to the fourth aspect, display pattern data for displaying a predetermined display pattern indicating that the storage processing has been properly completed on a display is: The digital broadcast signal is transmitted together with the destination-specific digital data.
[0020]
In the invention according to claim 5 configured as described above, display pattern data for displaying a predetermined display pattern indicating that the storage processing has been properly completed on the display is provided together with the destination-specific specification digital data. It is included in the digital broadcast signal and transmitted. That is, the predetermined display pattern data is generated and transmitted on the centralized signal broadcasting device side similarly to the destination-specific digital data. Accordingly, it is not necessary for the digital TV adjustment device to previously provide the predetermined display pattern data, so that adjustment of a digital TV receiver based on a digital TV receiver having specifications having common basic performance is performed. It can be performed efficiently.
[0021]
In the above, the digital television adjustment system has been described. However, the present invention is useful even when individually configured as a digital television adjustment device.
As an example of a case where the digital broadcast adjusting device is individually configured, the invention according to claim 6 includes a digital broadcast signal receiving unit that receives a digital broadcast signal including predetermined digital data, Digital data extraction means for extracting digital data for each destination used for differentiating specifications for each destination, and a memory having a readable dedicated area for storing the extracted digital data for each destination And an adjusting process executing means for executing a predetermined adjusting process and executing a process for storing the extracted digital data for each destination in the memory.
[0022]
In the invention according to claim 6, the digital broadcast signal receiving means receives a digital broadcast signal containing predetermined digital data, and the digital data extracting means receives a digital broadcast signal from the received digital broadcast signal. The specification digital data for each destination, which is used for differentiating the specifications for each destination, is extracted. Then, the adjustment processing executing means executes a predetermined adjustment process and a process of storing the extracted destination-specific specification digital data in the memory.
[0023]
According to a seventh aspect of the present invention, as the digital television adjustment device individually configured as a digital television adjustment device, in the digital television adjustment device according to the sixth aspect, the adjustment processing executing means includes a memory having the writable dedicated area. The above-mentioned destination-specific digital data is obtained from the above, and based on the obtained destination-specific digital data, a digital signal for displaying a screen display having different specifications for each destination is formed, and the formed digital signal is formed. Based on the above, a process for displaying on the display a screen display having different specifications for each destination is provided.
[0024]
In the invention according to claim 7 configured as described above, the adjustment processing execution means acquires the destination-specific digital data from the memory, and sets the destination digital data based on the acquired destination-specific digital data. A digital signal for displaying a screen display having different specifications for each location is formed, and the formed digital signal is converted into an analog signal, and a screen display having different specifications for each destination is displayed on a display.
[0025]
According to an eighth aspect of the present invention, in the digital television adjustment apparatus according to the sixth or seventh aspect, the adjustment processing execution means stores the digital data for each destination in the memory having the writable dedicated area. When the processing for storing the data has been properly completed, a predetermined display pattern indicating that the storage processing has been properly completed is displayed on the display.
[0026]
In the invention according to claim 8 configured as described above, the adjustment processing execution means may appropriately execute the storage processing when the processing for storing the destination-specific digital data in the memory is properly completed. A predetermined display pattern indicating the end is displayed on the display.
[0027]
According to a ninth aspect of the present invention, in the digital television adjustment device according to the eighth aspect, display pattern data for displaying a predetermined display pattern indicating that the storage processing has been properly completed on a display is: The digital broadcast signal is transmitted together with the destination-specific digital data.
[0028]
In the ninth aspect of the present invention, the predetermined display pattern data is generated and transmitted on the centralized signal broadcasting device side in the same manner as the destination-specific digital data.
[0029]
As described above, the method of executing the process of storing the predetermined digital data of the digital television is not necessarily limited to a substantial system or apparatus, and it can be easily understood that the method also functions as the method.
For this reason, the invention according to claim 10 is a digital television adjustment method for performing a process of storing predetermined digital data for a digital television, wherein the digital broadcast adjustment method includes the steps of: receiving a digital broadcast signal including predetermined digital data; A signal receiving step, a data extracting step of extracting destination-specific specification digital data used for differentiating specifications for each destination from the received digital broadcast signal, and a predetermined adjustment process are performed. An adjustment process executing step of executing a process of storing the extracted destination-specific digital data in a memory having a writable dedicated area for storing the destination-specific digital data.
That is, there is no difference in that the present invention is not necessarily limited to a substantial system or apparatus, and is also effective as a method.
[0030]
【The invention's effect】
As described above, according to the first and second aspects of the present invention, there is provided a digital television adjustment system suitable for adjusting a digital television receiver that stores digital data for each destination in a memory having a fixed area where a certain amount of data can be read. Can be provided.
Further, according to the third aspect of the present invention, it is possible to display an OSD display and an icon graphic based on the digital data for each destination specification on a display, and a design on a display having specifications that are actually different for each destination is provided. You.
Furthermore, according to the invention of claim 4, by displaying a predetermined display pattern on the display indicating that the storage processing of the specification-specific digital data for each destination has been properly completed, whether or not the storage processing has been properly performed. Can be determined efficiently.
Further, according to the invention of claim 5, display pattern data for a predetermined display pattern indicating that the storage processing has been properly completed is generated and transmitted together with the digital data for each destination by the centralized signal broadcasting device. Therefore, digital data for each destination can be efficiently stored in a digital television receiver having a common specification.
[0031]
Further, according to the invention according to claim 6, it is possible to provide a digital television adjustment device which stores digital data for each destination in a memory having a dedicated area where a certain amount of data can be read.
Furthermore, according to the invention of claim 7, it is possible to display an OSD display and an icon graphic based on the digital data for each destination specification on a display, and a design on a display having specifications that are different for each destination is provided. You.
Further, according to the invention of claim 8, by displaying on the display a predetermined display pattern indicating that the storage processing of the specification-specific digital data for each destination has been properly completed, whether or not the storage processing has been appropriately performed. Can be determined efficiently.
Further, according to the ninth aspect of the present invention, display pattern data for a predetermined display pattern indicating that the storage processing has been properly completed is generated and transmitted together with the digital data for each destination by the centralized signal broadcasting device. Therefore, digital data for each destination can be efficiently stored in a digital television receiver having a common specification.
Further, according to the tenth aspect of the present invention, it is possible to provide a digital television adjustment method suitable for adjusting a digital television receiver that stores digital data for each destination in a memory having a dedicated area where a certain amount of data can be read. it can.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic configuration diagram of a digital television adjustment system according to the present invention.
In FIG. 1, a digital television adjustment device A2 is used for an adjustment process in a digital television production line at a factory, and includes a digital television main body 20 and an antenna unit 10. In the factory, a digital broadcast signal is transmitted from the centralized signal broadcasting device A1, and the digital broadcast signal is generated by a computer 93 in charge of a digital broadcast signal generation unit. The digital broadcast signal includes digital data for displaying an OSD display having different specifications for each destination of the digital television. The centralized signal broadcasting device A1 transmits the digital broadcast signal generated by the computer 93 to the digital television adjustment device A2. Then, the digital television adjustment device A2 switches the channel to a predetermined channel for receiving the signal, acquires digital data, and executes a predetermined process of storing the digital data. Further, the display result processing device A3 inputs a display result on the display 28 of the digital television adjustment device A2, and transmits a pattern matching recognition result based on the input result to the centralized signal broadcasting device A1.
[0033]
FIG. 2 is a block diagram showing the configuration of the digital television adjustment device A2 according to the present invention.
In the figure, a digital television adjustment device A2 includes an antenna unit 10 and a digital television main body 20. The antenna unit 10 converts the frequency of the digital broadcast signal of the 12 GHz band received by the antenna 11 into an intermediate frequency signal of the 1 GHz band by the low noise converter unit 12, and outputs the intermediate frequency signal from the output terminal 13. Then, the intermediate frequency signal is input to the tuner unit 22 of the digital television main body 20 via the input terminal 21. The tuner unit 22 selects one channel from a plurality of channels included in the input intermediate frequency signal according to a channel selection control signal output from the CPU 23.
[0034]
Then, the output of the tuner unit 22 is supplied to the front end unit 24. The front end unit 24 includes an A / D converter, a demodulation unit, a channel equalizer, an error correction decoding unit, and the like. The front end unit 24 converts a signal output from the tuner unit 22 into a digital signal. The front end unit 24 performs so-called ghost cancellation on the converted digital signal based on control information from the CPU 23, corrects a bit error occurring on the transmission path, and obtains a transport stream output.
[0035]
Further, the front end unit 24 sends a transport stream obtained by performing the demodulation and error correction processing to the transport unit 25. Transport streams are typically scrambled. The transport unit 25 includes a descramble unit 25a, a demultiplex unit 25b, and a DRAM 25c used as a work area at the time of demultiplex processing. Then, the transport stream output from the front end unit 24 is supplied to the descramble unit 25a of the transport unit 25. The descrambling unit 25a performs descrambling processing on the transport stream and cancels scrambling.
[0036]
The descrambled transport stream has multiplexed video and audio signals and the like, and is supplied to the demultiplex unit 25b. The transport stream is also supplied to a digital interface unit 26 for providing the transport stream and the like to a digital external device.
[0037]
The decoding section 27 includes an MPEG decoding section 27a, a DRAM 27b used as a work area at the time of MPEG decoding processing, an NTSC encoding section 27c, and an audio signal D / A conversion section 27d. The video signal and audio signal multiplexed in the transport stream are MPEG-compressed. Therefore, the MPEG decoding unit 27a decompresses the MPEG-compressed video signal and audio signal output from the demultiplex unit 25b.
[0038]
Further, the MPEG decoding unit 27a includes an OSD processing unit 27a1, and can perform a process of displaying a predetermined still screen such as program information on video in a superimposed manner. The decompressed video signal is supplied to an NTSC encoding unit 27c, which converts the video signal into an analog video signal of the NTSC system. The converted video signal is supplied to a display 28, and the display 28 outputs a video based on the video signal.
[0039]
On the other hand, the decompressed audio signal is supplied to the audio signal D / A converter 27d, and the audio signal D / A converter 27d converts the audio signal into an analog audio signal. Then, the analog audio signal is supplied to a speaker 29, and the speaker 29 outputs audio based on the analog audio signal. In the present embodiment, the video signal and digital audio signal decompressed in the MPEG decoding unit 27a are also supplied to a digital interface unit 26 for providing to an external device. The digital interface unit 26 forms data for output, outputs the data to a digital external device through the input / output terminal 30, and processes data input from the digital external device through the input / output terminal 30 in the digital television main body 20. Perform processing to accept as possible data.
[0040]
The above-described CPU 23 is connected to the bus 31, and the CPU 23 executes a control process for realizing various functions of the digital television main body 20 while using the RAM 32 connected to the bus 31 as a work area. The program for executing the control processing is stored in the ROM 33 in advance, and the CPU 23 executes the control processing while reading a predetermined program from the ROM 33 into the RAM 32 as appropriate.
[0041]
Further, in the present embodiment, it is necessary to write digital data for OSD display or the like that is different for each destination of the digital television into a writable memory, so the bus 31 has a dedicated flash memory for storing the digital data. The memory 32a is connected. The dedicated memory may be a non-volatile memory, and is not limited to a flash memory. Here, in the present embodiment, since it is sufficient that a certain memory area for storing the digital data exists, the digital data is stored in a certain area in the RAM 32 without separately providing the flash memory 32a. It is good also as a structure which memorizes. Further, a remote control I / F 34 is connected to the bus 31 so that an infrared blinking signal output from a remote control transmitter 40 as an external device can be input. The remote control I / F 34 converts the infrared blinking signal into an electric signal. Then, the electric signal is sent to the CPU 23 via the bus 31, and the CPU 23 executes a corresponding control process. Further, an IC card I / F 35 is connected to the bus 31. The IC card I / F 35 reads information stored in the inserted IC card 50 and sends the information to the CPU 23 via the bus 31.
[0042]
FIG. 3 is a configuration diagram showing an internal configuration of the demultiplex unit 25b.
In the figure, the demultiplex unit 25b includes a packet ID filter 25b1 and a section filter 25b2. The packet ID filter 25b1 extracts data such as a predetermined video signal and audio signal from the transport stream based on the packet ID added to the header information of each transport stream. Then, the packet ID filter 25b1 supplies data such as the video signal and the audio signal to the MPEG decoding unit 27a. On the other hand, the header information is supplied to the section filter 25b2, and predetermined control information is extracted from the header information and transmitted to the bus 31. The CPU 23 receives the control information and executes a predetermined control process. The demultiplex unit 25b reproduces a program clock reference, which is a reference for synchronous reproduction of the video signal and the audio signal, based on the synchronization bit included in the header information.
[0043]
In the present embodiment, a process for storing the digital data for each destination in a predetermined memory in the digital television main body 20 is performed using a digital broadcast signal. Here, the destination-specific digital data refers to digital data necessary for displaying an OSD display, an icon graphic, a font, or the like that differs for each destination of the digital television. In addition, it refers to digital data necessary for outputting a screen or sound having different specifications for each destination.
[0044]
FIG. 4 is a configuration diagram showing a configuration of the adjustment station ST that performs the above-described storage processing in the digital television main body 20.
In the figure, the adjustment station ST includes a production line 60, a connection facility 70, and an antenna unit 10. The production line 60 conveys the digital television main body 20 from the back side to the front side in FIG. The connection equipment 70 inserts an antenna jack 72 into the input terminal 21 of the digital television main body 20.
[0045]
The antenna jack 72 connects the digital television main body 20 and the antenna unit 10 via a cable 73 connected to the output terminal 13 of the antenna unit 10. With this connection, a digital broadcast signal received by the antenna 11 of the antenna unit 10 can be input to the digital television main body 20.
The antenna jack 72 is supported by a cylinder of the pneumatic cylinder 71. Then, when the digital television main body 20 is transported to the adjustment station ST by the flow of the production line, the antenna jack 72 is inserted into the input terminal 21 by the pushing operation of the pneumatic cylinder 71 as shown in FIG.
[0046]
FIG. 6 is a configuration diagram showing a configuration of a transport stream in which the above-mentioned destination-specific digital data is multiplexed.
In the figure, a transport stream 200 is a bit string defined by the MPEG System and is a set of 188-byte fixed-length packets (transport packets). Each transport packet is composed of header information, an adaptation field for putting additional information in a specific individual packet, and a payload indicating the contents of the packet.
The payload is capable of storing a compressed video signal, a compressed audio signal, and the like. In the present embodiment, the above-described destination-specific digital data is stored. In the present embodiment, a so-called checksum value obtained by calculating the sum of the numerical values by regarding the destination-specific digital data as a numerical value is also stored together with the destination-specific digital data. The checksum value is generated in advance by the computer 93 in charge of the digital broadcast signal generation unit. As described later, whether the process of storing the digital data for each destination in the flash memory 32a is properly completed or not. This is a value used when the CPU 23 determines whether or not it is not.
[0047]
The header information of each transport packet is composed of 4 bytes, and the head of the header information is a synchronization byte. The header information stores, in addition to the synchronization byte, control information such as a packet ID, which is identification information of the packet, and a flag indicating the presence or absence of a subsequent adaptation field or payload.
In the present embodiment, predetermined data indicating that the destination-specific digital data is included in the packet ID of the transport packet storing the destination-specific digital data is stored. By storing the predetermined data, it is possible to identify which transport packet stores the destination-specific digital data. In the present embodiment, when the packet ID is “1”, it is assumed that destination-specific digital data is stored in the transport packet.
[0048]
In the present embodiment, a process of receiving a digital broadcast signal composed of the transport stream 200 by the antenna unit 10 and storing digital data for each destination in the flash memory 32a is performed. On the other hand, when receiving the digital broadcast signal, the digital television main body 20 needs to recognize on which channel the digital broadcast signal is being transmitted. FIG. 7 is a configuration diagram showing a configuration for performing such recognition. FIG. 8 is a flowchart showing the contents of a channel instruction process executed by the CPU 23 to perform such recognition.
[0049]
In the figure, the channel of the digital broadcast signal is stored in a predetermined area 52 of a memory 51 of the IC card 50. The digital broadcast signal transmitting section 90 of the centralized signal broadcasting device A1 transmits a digital broadcast signal based on the channel, and in the digital television main body 20, the CPU 23 reads out the channel via the IC card I / F 35 (step S100). , The stored channel number. Is acquired (step S105). Then, the CPU 23 outputs a tuning control signal to the tuner unit 22 (step S110). The tuner unit 22 operates based on the channel selection control signal, and selects a digital broadcast signal composed of the transport stream 200.
[0050]
Further, the configuration for recognizing the channel of the digital broadcast signal in the digital television main body 20 may be as follows.
The digital TV main body 20 inputs an infrared blink signal output from the remote control transmitter 40 as an external device to the digital TV main body 20 via the remote control I / F 34. Next, the CPU 23 selects the channel No. selected by the electric signal based on the infrared blinking signal. To get. Then, the CPU 23 outputs a tuning control signal to the tuner unit 22. The tuner unit 22 operates based on the tuning control signal and selects a digital broadcast signal composed of the transport stream 200.
[0051]
FIG. 9 is a flowchart showing the contents of the processing for storing the destination-specific digital data in the flash memory 32a when the destination-specific digital data is stored in the transport stream 200.
In the figure, the CPU 23 controls the demultiplex unit 25b to sequentially acquire transport packets from the transport stream 200 (Step S200). Then, the header information of the acquired transport packet is extracted, and it is determined whether or not the packet ID is “1” (step S205). If the packet ID is "1", since the transport packet stores the digital data for each destination, the digital data for each destination is acquired from the payload (step S210). Then, the obtained destination-specific digital data is transferred to the flash memory 32a, and the destination digital data is stored in the flash memory 32a (step S215). Then, the CPU 23 obtains the next transport packet from the transport stream 200, repeatedly executes the above-described processing, and stores all the destination-specific digital data stored in the transport packet in the flash memory 32a (step). S220).
[0052]
FIG. 10 is a flowchart showing the processing performed by the CPU 23 to display on the display 28 a display based on the destination-specific digital data stored in the flash memory 32a.
In the figure, the CPU 23 acquires the above-mentioned destination-specific digital data from the flash memory 32a (step S300). Next, the acquired destination-specific digital data is transferred to the MPEG decoding unit 27a (step S305). Then, the CPU 23 controls the OSD processing unit 27a1 of the MPEG decoding unit 27a to form an image signal for displaying a display of a specification different for each destination based on the digital data for each destination (step S310). .
In response to the above processing, the NTSC encoding unit 27c converts the image signal into an analog video signal, and the display 28 displays a display having different specifications for each destination based on the video signal. That is, an OSD display, an icon graphic, and the like having different specifications for each destination are actually displayed on the display 28.
[0053]
Hereinafter, a predetermined process and a predetermined device for confirming whether or not the storage process described in FIG. 9 has been appropriately executed will be described.
First, the CPU 23 needs to determine whether or not the storage processing has been properly completed. In the present embodiment, the determination is made by executing a so-called checksum process. Checksum processing is one of the methods of checking whether there is an error in transmitted data in data transmission. For example, the transmitting side calculates the number of bytes of data in a data packet, writes the calculated value as a checksum value in the packet, and transmits the packet. On the other hand, the receiving side compares the checksum value calculated based on the received data with the checksum value transmitted from the data transmitting side. Then, whether or not the transmitted data has been properly received is determined based on whether or not the two checksum values match.
Further, in the present embodiment, based on the result of the checksum processing, the CPU 23 performs a predetermined display pattern indicating that the storage processing has been properly completed, or a predetermined display pattern indicating that the storage processing has not been properly completed. A process for displaying one of the patterns on the display 28 is executed.
[0054]
FIG. 11 is a flowchart showing processing contents for the CPU 23 to execute the checksum processing and display a predetermined display pattern on the display 28 based on the result of the checksum processing.
In the figure, the CPU 23 acquires a stored checksum value (first checksum value) from the transport packet (step S400). The checksum value is generated in advance by the computer 93 in charge of the digital broadcast signal generation unit, and is transmitted from the centralized signal broadcast apparatus A1 together with the destination-specific digital data. Next, the CPU 23 calculates a checksum value (second checksum value) based on the specification-specific digital data stored in the flash memory 32a (step S405).
Then, the CPU 23 compares the first checksum value with the second checksum value (step S410). If the two checksum values match, the CPU 23 determines that the destination-specific digital data transmitted from the centralized signal broadcasting device A1 is appropriately stored in the flash memory 32a. On the other hand, if the two checksum values do not match, the CPU 23 determines that the transmitted destination-specific digital data has not been properly stored in the flash memory 32a (step S415).
[0055]
Next, in accordance with the determination, the CPU 23 executes a process for displaying a predetermined display pattern indicating that the storage process has been properly completed or a predetermined display pattern indicating that the storage process has not been properly completed on the display 28. I do. In the present embodiment, the display pattern data relating to the predetermined display pattern is generated by the computer 93 together with the destination-specific digital data, transmitted in the form of a digital broadcast signal, and stored in the flash memory 32a. It is assumed that
Further, as the predetermined display pattern indicating that the storage processing has been properly completed, for example, a destination in which the destination is displayed in alphabets, such as US in the United States and EU in Europe, may be considered. On the other hand, as the predetermined display pattern indicating that the storage processing has not been properly completed, for example, a pattern in which NG is displayed in alphabetical characters can be considered.
[0056]
If the CPU 23 determines in the processing up to step S415 that the specification-specific digital data for each destination has been properly stored in the flash memory 32a, the CPU 23 determines from the flash memory 32a that the storage processing has been properly completed. The display pattern data concerning the display pattern is obtained (step S420). On the other hand, if it is determined that the digital data for each destination has not been properly stored in the flash memory 32a, display pattern data relating to a predetermined display pattern indicating that the storage processing has not been properly completed is obtained. (Step S425).
Then, the CPU 23 transfers the obtained display pattern data to the MPEG decoding unit 27a (step S430), and controls the OSD processing unit 27a1 of the MPEG decoding unit 27a to display a predetermined display pattern based on the display pattern data. An image signal is generated (step S435).
[0057]
In response to the above processing, the NTSC encoding unit 27c converts the image signal into an analog video signal, and the display 28 displays a predetermined display pattern based on the video signal. That is, when the storage process is properly completed, a display pattern such as US if the destination is the United States or EU if the destination is Europe is displayed on the display 28. On the other hand, if the storage process has not been properly completed, a display pattern such as NG is displayed in alphabet.
Further, the display pattern displayed on the display 28 is input to a computer 82 in charge of a pattern matching unit via a CCD camera unit 81 of the display result processing device A3, as described later, and is subjected to pattern matching.
[0058]
FIG. 12 is a configuration diagram showing a configuration in a case where the display result processing device A3 is arranged in the above-described adjustment station ST.
In the figure, a display result processing device A3 is arranged so as to face the adjustment station ST described above. The display result processing device A3 includes a CCD camera unit 81 and a computer 82 which is in charge of a pattern matching unit. In the above configuration, the CCD camera unit 81 of the display result processing device A3 captures a predetermined display result on the display 28 and transfers the captured result to the computer 82 as input pattern data. The computer 82 compares the input pattern based on the transferred input pattern data with a standard pattern registered in advance, executes pattern matching, and outputs a standard pattern most similar to the input pattern as a recognition result.
[0059]
FIG. 13 is a flowchart showing the content of the pattern matching process executed by the computer 82.
In the figure, the computer 82 acquires the input pattern transferred from the CCD camera unit 81 (Step S500). Next, one standard pattern registered in advance in the computer 82 is obtained (step S505). The standard pattern is a pattern in which all the displays that may be displayed on the display 28 as the display patterns are registered in the computer 82 in advance.
[0060]
Then, the input pattern and the standard pattern are matched, and the degree of similarity is detected (step S510). The pattern matching is performed by a rough search based on the normalized correlation, and as a matching result, the coordinates of the matched area and the correlation value are obtained. The correlation value is a value indicating the degree of matching, and is indicated by a value from 0 to 1000, and becomes 1000 if they completely match.
The pattern matching detects the degree of similarity between one input pattern and all the plurality of standard patterns (step S515). Then, the standard pattern having the largest correlation value among all the standard patterns, that is, the standard pattern with the smallest error is the recognition result (step S520). Then, the computer 82 transmits the recognition result to the computer 93 as recognition result data (step S525).
[0061]
FIG. 14 is a route diagram showing a communication route network in a factory where the production line 60 is arranged.
In the figure, the computer 82 of the display result processing device A3 is connected to the private LAN. In addition, a computer 93 for executing digital broadcast signal generation processing and a server 94 for collecting and transferring digital broadcast signals are also connected to the local LAN. The server 94 transfers the digital broadcast signal to the digital broadcast signal transmitting unit 90, and the digital broadcast signal transmitting unit 90 converts the transferred digital broadcast signal by the converter 91 and transmits the digital broadcast signal from the antenna 92.
[0062]
The recognition result data output from the computer 82 is transmitted to the computer 93 via the private LAN. The computer 93 can recognize the display pattern displayed on the display 28 of the digital television main body 20 by receiving the recognition result data, and the storage process can be appropriately performed according to the content of the recognition result data. It can be recognized whether or not the execution has been performed.
Therefore, if the computer 93 displays the standard pattern based on the recognition result data on the display of the computer 93, the person who monitors the display can visually recognize the display such as US or NG. . In addition, it is also possible to take measures such as removing the digital television receiver from the production line with respect to the digital television receiver that has been recognized as having not been properly executed in the computer 93 by the storage processing. That is, the computer 93 collectively recognizes the result of the digital broadcast signal generation process and the result of the storage process in the digital television adjustment device A2, thereby controlling the digital television adjustment system on the centralized signal broadcast device A1 side. And the efficiency of digital television receiver production is improved.
[0063]
In this way, by storing digital data different for each destination such as OSD display screen data generated by the centralized signal broadcasting device A1 on a production line in a common memory provided in the digital television main unit 20, it is possible to store digital data for each destination. It is possible to mass-produce digital TVs of each destination specification according to the number of products produced. In addition, the centralized signal broadcasting device A1 determines whether or not the storage processing in the memory of the digital television main body 20 has been properly executed, thereby further improving the production efficiency.
[Brief description of the drawings]
FIG. 1 is a conceptual configuration diagram of a digital television adjustment system according to the present invention.
FIG. 2 is a block diagram showing a configuration of a digital television adjustment device according to the present invention.
FIG. 3 is a configuration diagram showing an internal configuration of a demultiplex unit.
FIG. 4 is a configuration diagram illustrating a configuration of an adjustment station.
FIG. 5 is a diagram showing a method of inserting an antenna jack.
FIG. 6 is a configuration diagram showing a configuration of a transport stream.
FIG. 7 is a configuration diagram showing a configuration for recognizing a channel of a digital broadcast signal.
FIG. 8 is a flowchart showing the contents of a channel instruction process for instructing a channel of a digital broadcast signal.
FIG. 9 is a flowchart showing a process for storing specification digital data for each destination.
FIG. 10 is a flowchart showing a process for displaying a display based on digital data for each destination specification on a display;
FIG. 11 is a flowchart showing the contents of a checksum process and a process for displaying a predetermined display pattern on a display.
FIG. 12 is a configuration diagram showing a configuration in a case where a display result processing device is arranged in an adjustment station.
FIG. 13 is a flowchart showing the processing contents of pattern matching.
FIG. 14 is a route diagram showing a communication route network in a factory.
[Explanation of symbols]
A1: Centralized signal broadcasting device
A2: Digital TV adjustment device
A3: Display result processing device
10 Antenna section
11 ... antenna
12 ... Low noise converter
13 Output terminal
20 Digital TV body
21 ... Input terminal
22 ... Tuner section
23 ... CPU
24 Front end part
25 ... Transport part
25a ... descrambling section
25b: Demultiplex part
25c DRAM
26 Digital interface section
27 ... Decoding part
27a: MPEG decoding unit
27a1 OSD processing unit
27b ... DRAM
27c: NTSC encoding unit
27d: audio signal D / A converter
28 ... Display
29… Speaker
30 ... I / O terminal
31 ... Bus
32 ... RAM
32a: Flash memory
33… ROM
34 Remote controller I / F
35 ... IC card I / F
40 ... Remote control transmitter
50 ... IC card
81: CCD camera unit
82 ... Computer
90 ... Digital broadcast signal transmitter
91 ... Converter 91
92 ... antenna 92
93 ... Computer
94 ... Server

Claims (10)

A digital broadcast signal generation unit that performs a generation process of a digital broadcast signal including predetermined digital data,
A server that executes a transfer process of the digital broadcast signal generated by the digital broadcast signal generation unit;
A digital broadcast signal transmitting unit that transmits a digital broadcast signal transferred from the server from the first antenna unit,
A centralized signal broadcasting device comprising:
A tuner that is connected to the second antenna unit that receives the transmitted digital broadcast signal, selects a predetermined channel from a plurality of channels, and outputs a received signal,
A digital signal generation unit that generates a digital signal that is digitally converted while performing predetermined error processing based on the received signal output by the tuner,
A digital data extraction unit for extracting various digital data included in the generated digital signal,
A decoding unit for decoding the MPEG-compressed digital data extracted by the digital data extraction unit;
An analog video signal conversion unit that converts the video data decoded by the decoding unit into an analog video signal,
An analog audio signal conversion unit that converts the audio data decoded by the decoding unit into an analog audio signal,
A display that performs display based on the analog video signal,
A speaker for outputting the analog audio signal,
A memory having a writable dedicated area for storing destination-specific digital data used for differentiating specifications for each destination;
A microcomputer that causes the digital data extraction unit to extract the destination-specific digital data, and executes a process of storing the destination-specific digital data in the memory.
A digital television adjustment device comprising:
A CCD camera unit for inputting a display result on the display,
A pattern matching unit that executes pattern matching based on an input result by the CCD camera unit and transmits a recognition result by the pattern matching to the digital broadcast signal generation unit;
A display result processing device comprising:
A digital television adjustment system comprising: Digital broadcast signal generating means for generating a predetermined digital broadcast signal;
Digital broadcast signal transmitting means for transmitting the digital broadcast signal,
A centralized signal broadcasting device comprising:
Digital broadcast signal receiving means for receiving a digital broadcast signal including predetermined digital data transmitted from the digital broadcast signal transmitting means,
Digital data extracting means for extracting destination-specific digital data used for differentiating specifications for each destination from the received digital broadcast signal,
A memory having a writable dedicated area for storing the extracted destination-specific digital data,
An adjustment process executing means for executing a predetermined adjustment process and executing a process of storing the extracted digital data for each destination specification in the memory;
A digital television adjustment device comprising:
Image input means for capturing the display result of the digital television adjustment device,
Recognition result transmitting means for recognizing a result of the processing by the adjustment processing executing means based on an imaging result by the image input means, and transmitting the recognition result to the digital broadcast signal generating means;
A display result processing device comprising:
A digital television adjustment system comprising: The adjustment processing execution means obtains the destination-specific digital data from the memory having the writable dedicated area, and, based on the obtained destination-specific digital data, displays a screen having different specifications for each destination. 3. A digital television adjustment as claimed in claim 2, wherein a digital signal for displaying is displayed, and a process of displaying a screen display having different specifications for each destination on a display is performed based on the formed digital signal. system. The adjustment processing execution means, when the processing for storing the destination-specific digital data in the memory having the writable dedicated area is properly completed, a predetermined display indicating that the storage processing has been properly completed. The digital television adjustment system according to claim 2 or 3, wherein the pattern is displayed on a display. Display pattern data for displaying a predetermined display pattern on the display indicating that the storage process has been properly completed is transmitted in the digital broadcast signal together with the destination-specific digital data. The digital television adjustment system according to claim 4, wherein Digital broadcast signal receiving means for receiving a digital broadcast signal containing predetermined digital data,
Data extraction means for extracting destination-specific digital data used for differentiating specifications for each destination from the received digital broadcast signal,
A memory having a writable dedicated area for storing the extracted destination-specific digital data,
An adjustment process executing means for executing a predetermined adjustment process and executing a process of storing the extracted digital data for each destination specification in the memory;
Digital television adjustment device comprising: The adjustment processing execution means obtains the destination-specific digital data from the memory having the writable dedicated area, and, based on the obtained destination-specific digital data, displays a screen having different specifications for each destination. 7. A digital television adjustment as claimed in claim 6, wherein a digital signal for displaying is displayed, and a process of displaying a screen display having different specifications for each destination on a display based on the formed digital signal is performed. apparatus. The adjustment processing execution means, when the processing for storing the destination-specific digital data in the memory having the writable dedicated area is properly completed, a predetermined display indicating that the storage processing has been properly completed. The digital television adjustment device according to claim 6, wherein the pattern is displayed on a display. Display pattern data for displaying a predetermined display pattern on the display indicating that the storage process has been properly completed is transmitted in the digital broadcast signal together with the destination-specific digital data. The digital television adjustment device according to claim 8, wherein A digital television adjustment method for performing a process of storing predetermined digital data for a digital television,
Digital broadcast signal receiving step of receiving a digital broadcast signal containing predetermined digital data,
A data extraction step of extracting destination-specific digital data used for differentiating specifications for each destination from the received digital broadcast signal,
A predetermined adjustment process is executed, and a process of storing the extracted destination-specific digital data in a memory having a writable dedicated area for storing the extracted destination-specific digital data is executed. An adjustment process execution step;
A digital television adjustment method, comprising:

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