JP2004056160A - Fixed form data broadcasting reproducing apparatus and fixed form data broadcast recording reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus operable, using a data broadcast screen for the output of a digital broadcast receiver. <P>SOLUTION: A data inserting means 110 inserts specified data to fixed form data 300 from a fixed form data saving means 111, an MPEG-TS converting means 108 MPEG-transports the data, and a fixed form broadcast reproducing means 108 reproduces and outputs data via a digital interface 320 to a digital broadcast receiver 3. This enables even a digital broadcast receiver having no function for controlling a fixed data broadcast reproducer 5 to operate this reproducer 5 and allows the operability of the screen and a remote controller to be standardized for the digital broadcast receiver 3 and the fixed form data broadcast reproducer. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fixed form data broadcast reproducing apparatus having a fixed form data broadcasting function useful for a digital broadcast receiver, and a fixed form data broadcast recording / reproducing apparatus.
[0002]
[Prior art]
Digital TV broadcasting has started, and with the spread of digital broadcast receivers called set-top boxes, recording / reproducing devices connectable to digital broadcast receivers have been developed.
[0003]
Hereinafter, a conventional technique will be described with reference to FIGS.
[0004]
FIG. 23 is a block diagram showing a digital content reproduction environment example 1 for realizing a program title display in a conventional recording and reproduction apparatus. The figure includes a digital content playback device 4 storing a program, a digital broadcast receiver 3 for reading out a program title from the digital content playback device 4, and a TV receiver 1 for displaying a list of program titles. The digital content reproducing device 4 includes a program title information storage unit 104, a content reproduction unit 105, and a content selection unit 106. The digital broadcast receiver 3 includes a display unit 101, a program title information acquisition unit 102, a program title information An analysis unit 103 is provided.
[0005]
The display means 101 displays various information on the screen of the TV receiver 1 in order to notify the user of the operation state of the digital broadcast receiver 3, program information being received, and information on the connected digital content reproduction device 4. This is a means for displaying graphics. The program title information obtaining means 102 is a means for transmitting a command for requesting program information to the connected digital content reproducing device 3 and obtaining information returned from the digital content reproducing device 4. For example, it is realized by exchanging AV / C commands on an IEE 1394 (IEEE 1394) interface. The program information includes a program title, recording date and time, program contents, genre, broadcasted channel, and the like. The program title information analyzing means 103 is means for analyzing the program information acquired by using the program title information acquiring means 102 and extracting only information necessary for the user. The program title information storage means 104 is a means for storing various information related to a program to be handled in the digital content reproduction device 4, and is stored on a storage medium for storing the program itself or a storage device of the digital content reproduction device 4. It is realized by doing. The content reproduction means 106 is a means for outputting content data of a program recorded on a storage medium handled by the digital content reproduction device 4, and reads a signal on a medium represented by a magnetic tape, an optical disk, a hard disk or the like. And a signal processing circuit. The content selection unit 106 is a unit that implements an operation of reproducing the specified program based on information indicating where on the storage medium the specified program is stored. Is achieved.
[0006]
Next, a description will be given of display of a program title in a digital content reproduction environment and designation of program reproduction based on the display of the program title.
[0007]
Upon receiving a request for displaying program information from the user, the digital broadcast receiver 3 inquires the digital content reproducing device 4 of program title information relating to the reproduced content through the program title information acquiring means 102. The digital content reproducing device 4 extracts the program title information from the program title information storage means 104 and sends the information to the digital broadcast receiver 3. The digital broadcast receiver 3 extracts necessary information from the program title information received through the program title information obtaining means 102 by using the program title analyzing means 103, and displays it on the screen of the TV receiver 1 by using the display means 101. Display. Thereafter, when the user specifies a program to be reproduced, the specified program is transmitted to the digital content reproduction device 4. The digital content reproduction device 4 extracts the contents of the transmitted program using the content selection means 106 and implements the reproduction of the program specified by the user using the content reproduction means 105.
[0008]
FIG. 24 is a block diagram showing a digital content reproduction environment example 2 for realizing an operation screen display in a device such as a conventional recording / reproduction device. FIG. 1 includes a plurality of devices 2 a to 2 n having an operation screen and a TV receiver 1 displaying the operation screen. Each device includes a display unit 101 for displaying an operation screen.
[0009]
The display unit 101 is a unit for displaying various information on the screen of the TV receiver 1 in a graphic manner in order to notify the user of the operation status of each of the devices 2a to 2n and information of the program to be handled.
[0010]
Each of the devices 2a to 2n includes a display unit 101, and displays information information to be notified to the user on the screen of the TV receiver 1 using the display unit 101. In the TV receiver 1, the video signals output from the devices 2a to 2n are received by separate video input terminals. Therefore, when operating each device, the signal input is switched, and the video output signal of the device to be operated is switched. Is operated while is displayed on the screen of the TV receiver 1.
[0011]
FIG. 25 shows a method of realizing a conventional storage-type data broadcasting service. In the figure, 317 is a satellite broadcast signal, 318 is a video signal, 319 is a data signal, 11 is a communication satellite for transmitting the satellite broadcast signal 317, and 12 is a satellite for receiving the satellite broadcast signal 317 transmitted from the communication satellite 11. A broadcasting antenna, 13 is a digital broadcasting receiver dedicated to storage type data broadcasting, 1 is a TV receiver, and 124 is a recording medium for recording a data signal 319.
[0012]
In the stored data broadcasting service, the video signal 318 and the data signal 319 are mixed and transmitted to the satellite broadcast signal 317, and the video signal 318 and the data signal 319 are separated by the digital broadcast receiver 13 for storage data broadcasting. 319 is recorded on the recording medium 124. The video signal 318 is sent to the TV receiver 1 for viewing. When the user wants to use data broadcasting, a storage-type data broadcasting service is provided by extracting the data signal 319 from the recording medium 124.
[0013]
[Problems to be solved by the invention]
The above-described conventional digital content reproduction environment examples 1 and 2 have the following problems.
[0014]
As is clear from the conventional digital content reproduction environment example 1 shown in FIG. 23, a control program for controlling all devices could not be provided in the digital broadcast receiver 3 in the future.
[0015]
For example, there are already many digital broadcast receivers 3 provided with a function of operating a D-VHS (registered trademark, the same applies hereinafter) recording / reproducing apparatus with a VCR command for a tape medium. It was not possible to control a recorder using a hard disk corresponding to the disk command developed in Japan. Therefore, a digital broadcast receiver 3 equipped with new control software is required to control a device operated by a new command. That is, when the digital information receiver 3 has no control function of the latest device, there is a first problem that only the old device can be controlled. Considering that the content of the inability to control the first problem can be further subdivided, the viewpoint that the control for displaying the operation state of the digital content reproduction device 4 cannot be performed and the operation of the digital content reproduction device 4 cannot be controlled by the digital broadcast receiver 3 There are two viewpoints that control from the side cannot be performed.
[0016]
In addition, a conventional recording / playback device such as a conventional D-VHS recording / playback device can record and play back a data broadcast, but cannot operate a data broadcast screen being played back from the recording / playback device. There were challenges.
[0017]
Next, as is apparent from the conventional digital content reproduction environment example 2, a plurality of devices individually have an operation screen display function, so that video signals corresponding to the number of devices 2 can be connected to the TV receiver 1. A means for switching is required. In addition, there is a third problem that a remote control and an operation screen exist in each device, and the operation of the viewer becomes complicated.
[0018]
Further, the conventional recording / reproducing apparatus only has a method of separately acquiring the program title information from the digital broadcast receiver side. Therefore, the recording / reproducing apparatus recorded from the digital broadcast receiver 3 having no means for notifying the program title to the recording / reproducing apparatus. There is a fourth problem that titles cannot be displayed for such programs.
[0019]
Further, in the conventional stored broadcast service, there is a fifth problem that the stored broadcast service cannot be viewed by a receiver other than the dedicated receiver.
[0020]
[Means for Solving the Problems]
In order to solve the above-described problems, a first aspect of the present invention (corresponding to claim 1) includes a fixed form data storage unit for storing fixed form data, a data insertion unit for inserting predetermined data into the fixed form data, A fixed-form data broadcast reproducing device characterized by comprising a fixed-form data broadcast reproducing means for converting the fixed-form data into which the data is inserted into an MPEG transport stream and sending it as reproduction data to a digital broadcast receiver.
[0021]
According to a second aspect of the present invention (corresponding to claim 2), the present invention provides a fixed form data storing means for storing fixed form data, a data inserting means for inserting predetermined data into the fixed form data, and a fixed form data having predetermined data inserted therein. A fixed form data broadcast comprising: a fixed form data broadcast reproducing means for forming an MPEG transport stream and sending the same as reproduced data to a digital broadcast receiver; and a state transition control means for controlling an operation state of the sent fixed form data broadcast. It is a playback device.
[0022]
According to a third aspect of the present invention (corresponding to claim 3), the present invention provides a fixed form data storing means for storing fixed form data, a data inserting means for inserting predetermined data into fixed form data, and a fixed form data having predetermined data inserted therein. A standard data broadcast reproducing means for forming an MPEG transport stream and sending it to a digital broadcast receiver as reproduction data, a recording medium for recording a program transmitted by the MPEG transport stream, and an MPEG-TS signal during or after recording. A fixed-form data broadcast recording / playback apparatus comprising: a program information acquisition unit for extracting program information; and a recording medium control unit for recording / reproducing an MPEG transport stream on a recording medium and managing program information.
[0023]
According to a fourth aspect of the present invention (corresponding to claim 4), the present invention provides a fixed form data storing means for storing fixed form data, a data inserting means for inserting predetermined data into the fixed form data, and a fixed form data having predetermined data inserted therein. A fixed form data broadcast reproducing means for forming an MPEG transport stream and sending the same as reproduction data to a digital broadcast receiver, a state transition control means for controlling an operation state of the sent fixed form data broadcast, and a program transmitted by the MPEG transport stream A program information acquisition means for extracting program information from an MPEG-TS signal during or after recording, and a recording medium control means for managing recording and reproduction of an MPEG transport stream on a recording medium and managing program information. A fixed-form data broadcast recording / playback apparatus comprising:
[0024]
According to a fifth aspect of the present invention (corresponding to claims 5 and 6), the fixed form data storage means is a rewritable medium, or a fixed form data broadcast reproducing apparatus or claim according to claim 1 or 2, wherein A fixed-form data broadcast recording / playback apparatus according to 3 or 4.
[0025]
According to a sixth aspect of the present invention (corresponding to claims 7 and 8), the fixed data broadcast reproducing apparatus or claim according to claim 1 or 2, wherein the insertion data is photograph, picture, or music data. A fixed-form data broadcast recording / playback apparatus according to 3 or 4.
[0026]
A seventh aspect of the present invention (corresponding to claims 9 and 10) is characterized in that the insertion data is information acquired inside the system, or a fixed form data broadcast reproducing apparatus or claim 3 according to claim 1 or 2. Or a fixed-form data broadcast recording / playback device according to 4.
[0027]
According to an eighth aspect of the present invention (corresponding to claims 11 and 12), the state transition control means includes: a request reception means for receiving a transition request; a state control management means for managing an operation state of the fixed form data broadcast; The fixed-form data broadcast reproducing device according to claim 2 or the fixed-form data broadcast recording / reproducing device according to claim 4 is constituted by a status notifying means for notifying the user.
[0028]
According to a ninth aspect of the present invention (corresponding to claims 13 and 14), the request receiving means is constituted by remote control light receiving means for receiving a remote control signal for a digital broadcast receiver, and analyzing means for analyzing the remote control signal. A fixed data broadcast reproducing apparatus according to claim 2 or a fixed data broadcast recording / reproducing apparatus according to claim 4.
[0029]
According to a tenth aspect of the present invention (corresponding to claims 15 and 16), the state change notification means uses an event message transmission method of data broadcasting. Item 14. A fixed-form data broadcast recording / playback device according to Item 12.
[0030]
According to an eleventh aspect of the present invention (corresponding to claims 17 and 18), the fixed form data broadcast reproducing means selectively converts predetermined data from the fixed form data into an MPEG transport stream based on a command from the state transition control means. A fixed data broadcast reproducing apparatus according to claim 2 or a fixed data broadcast recording / reproducing apparatus according to claim 4.
[0031]
According to a twelfth aspect of the present invention (corresponding to claim 19), according to the present invention, download data contained in a received MPEG transport stream is extracted, fixed data or predetermined data to be inserted into the fixed data, The fixed-form data broadcast recording / playback apparatus according to claim 3 or 4, wherein the notification means can be changed.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0033]
(Embodiment 1)
In the first embodiment of the present invention, a method for reproducing an internal state of a fixed data broadcast reproducing device as a fixed data broadcast will be described.
[0034]
FIG. 1 is a block diagram showing a configuration of a standard data broadcast reproducing apparatus for reproducing a standard data broadcast and displaying an internal state of the standard data broadcast reproducing apparatus via a digital broadcast receiver 3 and a connection environment with the receiver. is there. The fixed-form data broadcast reproducing device 5 includes a fixed-form data storage unit 111, a data insertion unit 110, and an MPEG-TS conversion unit 109. The digital broadcast receiver 3 includes a display unit 101 and a data broadcast execution unit 107.
[0035]
The data broadcast executing means 107 provided in the digital broadcast receiver 3 is a function generally mounted on a digital broadcast receiver for BS (Broadcasting Satellite) digital broadcasting. And "Digital Broadcasting System, Digital Broadcasting Apparatus and Receiving Apparatus in Digital Broadcasting" in JP-A-10-304325. In this data broadcast, a program described in a language called BML (Broadcast Markup Language), image data for display, and the like are transmitted to the digital broadcast receiver 3 via broadcast waves. By operating the digital broadcast receiver 3, the user can receive various services realized by data broadcasting.
[0036]
The data broadcast executing means 107 operates not only when the digital broadcast receiver 3 receives a data broadcast from a broadcast wave but also when the digital broadcast receiver 3 acquires the data broadcast via a digital connection called an IEEE 1394 interface, for example. That is, it is assumed that the data broadcast executing means 107 operates by the reproducing operation of the reproducing device connected to the digital broadcast receiver 3.
[0037]
Hereinafter, each component of the present embodiment shown in FIG. 1 will be described.
[0038]
In FIG. 1, reference numeral 5 denotes a fixed data broadcast reproducing apparatus according to the first invention of the present invention. Reference numeral 300 denotes fixed data serving as a template for a data broadcast transmitted by the fixed data broadcast reproducing apparatus. Reference numeral 301 denotes insertion data indicating a device state of the fixed data broadcast reproducing device 5 and the like. A unit 111 stores the fixed form data 300 in a storage unit (not shown) in the device. Reference numeral 110 denotes data insertion means for inserting the insertion data 301 into the fixed data 300. Reference numeral 109 denotes a unit for transmitting the data obtained by the data insertion unit 110 as an MPEG transport stream (hereinafter, abbreviated as MPEG-TS). Reference numeral 320 denotes a digital interface for exchanging digital signals between the fixed data broadcast reproducing device 5 and the digital broadcast receiver 3.
[0039]
Hereinafter, the operation of the fixed-form data broadcast reproducing device 5 of the present configuration will be described with reference to the drawings.
[0040]
When receiving the reproduction operation start request, the standard data broadcast reproducing device 5 sends the standard data 300, which is the template data of the data broadcast, from the standard data storage unit 111 to the standard data broadcast reproducing unit 108. The data insertion means 110 included in the fixed form data broadcast reproducing means 108 acquires the insertion data 301 indicating the state inside the fixed form data broadcast reproducing apparatus 5 and writes the data into the fixed form data 300. The MPEG-TS converting means 109 converts the fixed data into small units of data (packets) in the form of an MPEG-TS transmission stream, and transmits the data to the digital broadcast receiver 3. The fixed form data broadcast transmitted from the fixed form data broadcast reproducing device 5 is transmitted to the digital broadcast receiver 3 via the digital interface 320, and is interpreted and executed by the data broadcast executing means 107. The data broadcast executing means 107 displays the internal state of the fixed form data broadcast reproducing device 5 by the display means 101 and the TV receiver 1. As a result, even if the digital broadcast receiver 3 does not include a control unit for controlling the fixed data broadcast reproducing device 5, the user can know the internal state of the fixed data broadcast reproducing device 5 through the display screen of the digital broadcast receiver 3. be able to.
[0041]
In the above description, the method of prompting the standard data broadcast reproducing apparatus 5 to perform a reproducing operation can be performed by a command for a device having no function of displaying the internal state of the standard data broadcast reproducing apparatus. An example is a VCR command for tape exchanged on the interface. Alternatively, the same effect can be provided to the user by using a button of the main body of the fixed form data broadcast reproducing device 5, a dedicated remote control of the fixed form data broadcast reproducing device 5, or the like.
[0042]
By using the configuration of the first embodiment, the first problem described in the aforementioned “Problems to be Solved by the Invention” is that “the digital broadcast receiver 3 does not have a control function of the latest device. Can control only the old device ", it is possible to solve the problem from the viewpoint that control for displaying the operation state of the digital content reproduction device 4 cannot be performed.
[0043]
Next, the functions of the fixed form data broadcast reproducing means 108 according to the first embodiment will be described in detail.
[0044]
FIG. 2 shows an example of the processing performed by the data insertion means 110. In particular, the operation of the data structure of a data broadcast used in BS digital broadcasting will be described as an example.
[0045]
In FIG. 2, reference numeral 200 denotes a state in which a block of data to be transmitted is arranged on a memory in the device. This data is repeatedly transferred to a digital broadcast receiver by a method called a data carousel. The data carousel system is a system defined in the ISO / IEC13818-6 standard. Since the data carousel system is a system name, it is distinguished from each other, and the data entity is referred to as carousel data. The carousel data 200 is mainly divided into a part called DII in which data arrangement information is described, and a part called DDB in which actual data itself is written. DII and DDB mean a DownloadInfoIndication message and a DownloadDataBlock message in the Unse-to-Network download protocol defined by the ISO / IEC13818-6 standard. Reference numeral 201 denotes a DDB structure corresponding to the payload portion of the data carousel. The DDB is divided into a plurality of PESs (Packetized Elementary Streams), and each PES structure 202 has a fixed area at the beginning, several rewrite target data parts, and data reliability at the end. (Cyclic Redundancy Check) 32 which guarantees the above. The fixed form data 300 has the structure of the data carousel shown in FIG. 2, and the data to be rewritten in the PES structure 202 is undefined. The data insertion unit 110 searches the rewrite target data portion of the PES structure 202 and updates the rewrite target data portion with the insert data 301 acquired inside the device.
[0046]
The position information of the data to be rewritten for updating the data in the memory may be stored in a table in advance, or may be searched and checked. The processing of the insertion data 301 to be written in each data portion to be rewritten is simple in the case of a fixed length, but data of various sizes can be inserted by devising the way of holding the data. In any case, after updating each data to be rewritten, the CRC 32 is recalculated for the purpose of guaranteeing consistency as data at the time of transfer.
[0047]
Data broadcasting is carried out in digital broadcasting, and construction of a carousel structure for forming the data broadcasting and implementation of MPEG transport are carried out in equipment of a broadcasting station in accordance with a similar standard. The present invention is different from the broadcasting station equipment in that the present apparatus is used by general users, and the processing in the digital broadcast receiver 3 is not reception as a broadcast wave but data reproduction as reproduction data from an external device. The point to get. In such a use environment, an apparatus having a configuration different from conventional broadcast station equipment in terms of price and processing speed is required. According to the first embodiment described above, the necessary processing is minimized by treating the data broadcast to be reproduced in a fixed form, and the fixed form data broadcast that is practical in terms of price and processing speed is realized. There is a feature that can be.
[0048]
In addition, the insertion data 301 representing the internal state of the fixed-form data broadcast reproducing device 5 in the present embodiment does not need to be limited to character data, but is music data or image data such as JPEG (Joint Photographic Experts Group). You may. The data may not be a value inside the device, and may be, for example, data of a memory card connected to the standard data broadcast reproducing device 5 or recorded on an optical disk inserted into an optical disk drive connected to the standard data broadcast reproducing device 5. It may be music data or title information of the music data.
[0049]
Next, the operation of the MPEG-TS converting means 109 for transmitting the carousel data 200 created by the data inserting means 110 as MPEG-TS will be described.
[0050]
FIG. 3 shows an example of a processing method for transmitting the created carousel data as MPEG-TS data.
[0051]
130 is a carousel data division packetizing means for dividing the carousel data 200 and generating a packet defined by the MPEG-TS standard. Reference numeral 131 denotes a control packet generation unit that generates a packet such as a PAT (Program Association Table) or a PMT (Program Map Table) determined by the MPEG-TS standard. Reference numeral 132 denotes a continuity index updating unit that updates the continuity index of the packet data generated thereby. 133 is a "packet transmitting means" for transmitting packet data onto the bus. With these configurations, the data of the data carousel generated by the data insertion unit 110 can be transmitted.
[0052]
In general, when substituting data in a predetermined format, it is clearly stated that "data is inserted into fixed data". However, in the present invention, a data broadcast screen reproduced by the digital broadcast receiver 3 is displayed. Kanji, a fixed form, was used for all notations because it was visually shaped in a predetermined manner to the user. Below, please re-read the fixed form as the fixed form for the parts that do not fit. Of course, this is not intended for the present invention to standardize the display screen. For example, a value for changing the shape of the display screen can be inserted as the insertion data 301 in FIG.
[0053]
(Embodiment 2)
In the second embodiment of the present invention, an example having a function of rewriting the fixed form data 300 in addition to the configuration described in the first embodiment will be described.
[0054]
FIG. 4 is a block diagram showing a configuration of a fixed form data broadcast reproducing apparatus according to Embodiment 2 of the present invention, and shows a device configuration according to a fifth aspect of the present invention. 4, the same components as those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0055]
4 includes a transfer request processing unit 127, a recording medium control unit 123, and a recording medium 124. For example, a personal computer (hereinafter abbreviated as PC) can be used as the fixed form data transfer means 126 in FIG. The PC is connected to the fixed form data broadcast reproducing apparatus 5 by a cable, and the PC transmits a fixed form data write request and write data to the fixed form data reproducing apparatus 5.
[0056]
The transfer request processing unit 127 is a transfer request processing unit that interprets the fixed data write request issued from the fixed data transfer unit 126 and performs processing. Reference numeral 124 denotes a rewritable recording medium, which is a place where data transferred from the fixed form data transfer means 126 is written and stored. Reference numeral 123 denotes a recording medium control unit that controls the recording medium 124 and performs a read (Read) process and a write (Write) process on the recording medium 124.
[0057]
Next, the operation of the fixed-form data broadcast reproducing device 5 according to the second embodiment will be described.
[0058]
The fixed form data transfer means 126 issues a fixed form data transfer request to the fixed form data broadcast reproducing apparatus 5 and starts transferring the fixed form data. Upon receiving the request, the transfer request processing unit 127 understands the meaning of the request and starts receiving fixed data. After the completion of the reception, the transfer request processing unit 127 issues a storage request to the recording medium control unit 123 for storing the received fixed form data. The recording medium control unit 123 controls the rewritable recording medium 124 and stores the received fixed form data.
[0059]
Further, the fixed data broadcast reproducing device 5 having the configuration shown in the present embodiment operates as follows when reproducing a fixed data broadcast.
[0060]
That is, when reproducing a fixed data broadcast, the recording medium control unit 123 reads the fixed data 300 from the recording medium 124 and transfers the fixed data 300 to the fixed data broadcast reproducing unit 108. The fixed form data broadcast reproducing means 108 inserts the insertion data 301 into the fixed form data and performs a reproduction operation of the fixed form data broadcast.
[0061]
With the above configuration, the fixed form data broadcast reproducing device 5 can rewrite the fixed form data from outside the device.
[0062]
FIG. 4 shows a hard disk as a magnetic recording medium as an example, but may have a configuration of an optical recording medium or a memory with data storage function (flash memory).
[0063]
As a result, for example, there is an advantage that it is easy to change the display content of the fixed data for each delivery destination in the manufacturing process of the fixed data broadcast reproducing device. Also, a general user who is the final user of the fixed-form data broadcast reproducing device 5 can change the fixed-form data to a color scheme, a design, or the like of his / her preference.
[0064]
In the second embodiment, a PC is used as the fixed form data transfer means 126. However, the data may be written by using the digital broadcast receiver 3 instead of the PC. Further, writing may be performed using an exchange medium such as an optical disk or a memory card.
[0065]
(Embodiment 3)
Next, a third embodiment of the present invention will be described. In the third embodiment, a configuration for instructing the data broadcasting application running on the digital broadcast receiver 3 to change the operation state will be described.
[0066]
FIG. 5 is a block diagram showing a configuration of a fixed form data broadcast reproducing device according to the third embodiment, and shows a device configuration according to the second invention of the present invention. Also, in this figure, the same components as those in FIG. FIG. 6 shows a method according to the tenth invention.
[0067]
The state transition control unit 112 shown in FIG. 5 includes a request reception unit 115, a state transition management unit 114, and a state change notification unit 113.
[0068]
In the figure, a request receiving unit 115 is a unit that receives a command from a remote controller, a push button, or the like and receives a request. The state management transition unit 114 performs information collection and management for controlling the state of the data broadcast program operated by the data broadcast execution unit 107 of the digital broadcast receiver 3. The state change notifying unit 113 performs control for notifying the digital broadcast receiver 3 of a state change.
[0069]
The operation in the third embodiment configured as described above will be described.
[0070]
A request instructed by a remote controller, a push button, or the like is interpreted by the request receiving unit 115, and the content is notified to the state transition managing unit 114. The notified information is processed by the state transition management means 114 according to the state transition management method described in advance, and a corresponding control code is generated. The state transition management method described in advance describes how to make a state transition for a data broadcasting application running on the digital broadcast receiver 3 that is started by receiving a fixed data broadcast. It is described. That is, according to the configuration of the present invention, the data broadcast application and the state transition management unit 114 operate in cooperation. Next, the control code generated by the state control management unit 114 is changed to a format of the event message transmission system by the state change notification unit 113, and the result is sent to the MPEG-TS conversion unit 109. The transmitted information is processed by the MPEG-TS converting means 109 and reproduced together with the fixed data as an MPEG-TS signal. The MPEG-TS signal reproduced by the MPEG-TS conversion means 109 is reproduced by the digital broadcast receiver 3 and processed by the data broadcast execution means 107.
[0071]
The event message transmission method provides a means for transmitting message information from a broadcast station to an application operating on the digital broadcast receiver 3 immediately or at a specified time. See, for example, the Radio Industry Association, Standard STD-B24, 3.2 Edition, Chapter 7. The standard defined for Japanese BS digital broadcasting defines a general-purpose event message descriptor, and operates on the digital broadcast receiver 3 by transmitting the general-purpose event message descriptor according to the event message transmission method. Can change the state of the application.
[0072]
Next, a method of notifying the digital broadcast receiver of a state change from the fixed data broadcast reproducing device 5 will be described with reference to FIG.
[0073]
FIG. 6 visually shows on the time axis how the MPEG-TS is formed and reproduced in the MPEG-TS converting means 109 using the event message generated by the state change notifying means 113. Things. FIG. 6 shows two cases. Case 1 shows a processing method in the case where the size of one carousel composed of fixed data is small. When the size of the carousel is small, the transmission period of the carousel is shortened, and therefore, as shown in the figure, an event message can be inserted into a gap of the repeating unit of the carousel. Case 2 shows a processing method when the size of one carousel is large. When the size of the carousel is large, the transmission period of the carousel becomes long. In such a case, one carousel can be divided into a predetermined number and transmitted as shown in the figure, and an event message can be inserted into a gap between these divided transmission units. By inserting the event message in this manner, the event message can be sent to the digital broadcast receiver 3 at a high response speed. The digital broadcast receiver 3 that has acquired the event message notifies the content to the running fixed form data broadcasting application. As a result, the fixed form data broadcasting application makes a state transition according to the operation specifications described in advance.
[0074]
As described above, by using the configuration of the third embodiment, the first problem described in the above-mentioned “Problems to be Solved by the Invention” is that the digital broadcast receiver 3 has a control function of the latest device. Out of the problem of not being able to control only the old device without having a digital broadcast receiver ", there is a problem that the control of instructing the operation of the digital content device 4 from the digital broadcast receiver 3 cannot be performed. The problem can be solved by performing the reverse control from the side of No. 5.
[0075]
As is apparent from the configuration of the third embodiment, the state transition management unit 114 of the present invention can also share processing involving complicated operations that require a long processing time. That is, according to the configuration of the present invention, it is possible to execute an application having a heavy processing load, which cannot be realized by the data broadcast executing means provided in the existing digital broadcast receiver 3 of the related art.
[0076]
(Embodiment 4)
In the fourth embodiment, a method for speeding up the processing in the state change notification unit 113 and the MPEG-TS conversion unit 109 described in the third embodiment will be described with reference to FIGS. .
[0077]
FIG. 7 is a conceptual diagram for explaining a conventional data transmission method in data broadcasting. 8 and 11 show a method according to the eleventh aspect of the present invention.
[0078]
FIG. 7 is a diagram showing a data transmission method of a conventional data broadcast transmitted as a broadcast wave. The BML document is described in the DDI in the fixed data 501 in FIG. 3, a first still image 1 in DDB-0, a second still image 2 in DDB-1, a third still image 3 in DDB-3, It is assumed that the fourth still image 4 is contained in DDB-4 and the fifth still image 5 is contained in DDB-5. The data broadcast is reproduced by repeatedly reproducing the data in units of one carousel as indicated by a reproduction signal 502. When a fixed data broadcast is reproduced with a data structure similar to that of a broadcast wave, it is necessary to include all still images to be displayed on a screen in one carousel. As shown in FIG. 7, in the case of data broadcasting, by repeating this one carousel repeatedly, it is possible to view the data broadcasting in a relatively short time regardless of the point in time when reproduction is started. However, in the case of the conventional data broadcasting, as is clear from FIG. 7, when the number of still images to be selected is large or when the size of the still images is large, the period of the carousel data to be transmitted is long, and it is desired to display the data. There is a problem that it takes time to obtain a still image. In FIG. 7, for example, it is assumed that the still image 5 is selected on the operation screen while the third lump DDB-0 is being reproduced. In this case, in the conventional method, the target image data cannot be acquired unless the number of blocks of 4 to 6 has elapsed at least. That is, for example, when the size of the still image data is large and the time to reproduce the block of 4 to 5 is long, it takes time to display.
[0079]
8 and 9 provide two types of methods for solving the above problem.
[0080]
Hereinafter, the operation of the first type of data transmission method for speeding up image acquisition in the digital broadcast receiver 3 will be described with reference to FIGS.
[0081]
FIG. 8 is a diagram showing a first data transmission method for speeding up image acquisition of the digital information receiver 3.
[0082]
FIG. 11 is an expanded version of the output signal of the status change notifying means 113 of the standard data broadcast reproducing device 5 shown in FIG. The difference between FIG. 11 and FIG. 5 is that a new image selection command 321 is added to the signal sent from the state change notification unit 113. The same parts as those in FIG.
[0083]
In FIG. 8, it is assumed that the same carousel as in FIG. 7 is repeatedly reproduced. In the figure, for example, when the still image 5 is selected by the user while the reproduction signal is the third lump, that is, the still image 1 is subjected to the standard data broadcast reproduction processing, the state change notification means 113 shown in FIG. By transmitting H.321 to the MPEG-TS conversion means, the MPEG-TS conversion means 109 instructs rearrangement in the carousel packet. As a method of rearrangement, there is a method of interrupting in the order as shown in the figure, and a method of reproducing the original carousel after the interruption (not shown).
[0084]
As described above, by immediately rearranging and reproducing the DDB corresponding to the selected data, the digital broadcast receiver 3 starts drawing with a faster response than the data broadcast transmitted by the conventional broadcast wave. can do.
[0085]
Next, the operation of the second type of data transmission system for speeding up image acquisition in the digital broadcast receiver 3 will be described with reference to FIGS. 9, 10 and 11.
[0086]
FIG. 9 is a diagram illustrating an example of newly defined fixed data, and FIG. 10 is a diagram illustrating a second data transmission method for speeding up image acquisition of the digital information receiver 3.
[0087]
First, as shown in FIG. 9, a carousel composed of DII and DDB is assigned to the 100th transport packet ID. At this time, unlike the first type of data transmission method, the DDB does not include image data to be selected in the DDB. As shown in the drawing, image data to be selected are assigned transport packet IDs 101 to 105 different from the carousel.
[0088]
The operation when the fixed data defined as described above is reproduced by the MPEG-TS conversion means 109 will be described with reference to FIG.
[0089]
First, when no image is selected, only the transport packet ID number 100 is reproduced. Next, it is assumed that the still image 2 is selected by a user operation. At this time, the status change notification unit 113 shown in FIG. 11 issues an image selection command 321 to the MPEG-TS conversion unit 109. Upon receiving this instruction, the MPEG-TS conversion means 109 multiplexes and reproduces the transport packet ID No. 102 in addition to the transport packet ID No. 100 which has been transmitted so far, as shown in FIG. As described above, by immediately multiplexing and reproducing the data of the transport packet ID corresponding to the selected data, the digital broadcast receiver 3 can compare with the data broadcast transmitted by the conventional broadcast wave. Drawing can be started with a quick response.
[0090]
As described above, by promptly rearranging or multiplexing the requested data as shown in the fourth embodiment, it is possible to realize a faster response than in the conventional data broadcasting.
[0091]
In the example of the fixed data shown in FIG. 9, the transport packet corresponding to the still image data can be defined as a portion into which the insertion data 301 described in the first embodiment is inserted. As described above, moving images, sounds, animations, games, and the like may be assigned to this portion. Furthermore, normal playback, fast forward playback, rewind playback, etc. may be assigned using a recorded program.
[0092]
(Embodiment 5)
In the fifth embodiment according to the present invention, an example using a remote controller will be described with reference to FIGS. 12 to 15 based on the configuration described in the third embodiment.
[0093]
FIG. 12 is a conceptual diagram showing a conventional remote control operation, and FIG. 13 is a conceptual diagram showing an example of a device operation via a conventional digital broadcast receiver. FIG. 14 is a conceptual diagram showing a remote control light receiving method in the fixed form data broadcast reproducing apparatus according to the fifth embodiment, and shows a configuration according to the ninth invention of the present invention.
[0094]
FIG. 15 is a block diagram showing a configuration of a fixed form data broadcast reproducing apparatus according to Embodiment 5 of the present invention. 5, the same components as those in FIG. 5 are denoted by the same reference numerals, and description thereof will be omitted.
[0095]
First, an example of an operation using a conventional remote controller will be described with reference to FIGS.
[0096]
FIG. 12 is a diagram showing a conventional remote control operation. FIG. 1 shows a TV receiver 1, a conventional AV device A6 connected thereto, a conventional AV device B7, a remote control 8 of the conventional AV device A6 for operating the TV receiver 1, and a remote control of the conventional AV device B7. 9. FIG. 13 shows an example of a device operation via a conventional digital broadcast receiver. The figure comprises a TV receiver 1, a digital broadcast receiver 3, and a digital content player 4.
[0097]
As shown in FIG. 12, there is a problem that a conventional AV device has a remote controller individually, and there is a plurality of remote controllers although there is only one viewing screen. In addition, as shown in FIG. 13, in order to operate the digital content reproducing device 4 with one remote control, it was necessary to perform control via a digital broadcast receiver. That is, in order to add a new function involving remote control operation to the digital content player 4 with one remote controller, a new program for supporting the new function is installed in the digital broadcast receiver 3 or a dedicated program is provided for the digital content player 4. There was no other way but to prepare a remote control. That is, there is a problem that it is not possible to add a new function involving remote control operation to the digital content player 4 with only one remote control while using the conventional digital broadcast receiver.
[0098]
In the fifth embodiment, a configuration for solving the above problem will be described with reference to FIGS.
[0099]
FIG. 14 shows a TV receiver 1, a digital broadcast receiver 3, a fixed form data broadcast reproducing device 5 according to the fifth embodiment of the present invention, a remote controller 10 for the digital broadcast receiver 3, and a remote controller for receiving signals from the remote controller 10. It comprises a light receiving means 117.
[0100]
In FIG. 15, the request receiving unit 115 includes a remote control light receiving unit 117 and an analyzing unit 116. The remote control light receiving unit 117 is a light receiving unit that receives a remote control signal transmitted from the remote control 10. The analysis means 116 is an analysis means for analyzing the meaning of the received remote control signal.
[0101]
As shown in FIG. 14, by receiving and processing the remote control signal transmitted from the remote control 10 for the digital broadcast receiver 3 on the fixed data broadcast reproducing apparatus side, processing by a single remote control becomes possible. Also, as shown in FIG. 15, the configuration of the request receiving unit 115 in the third embodiment is configured by the remote control light receiving unit 117 and the analyzing unit 116, so that the fixed data broadcasting application screen displayed on the TV receiver 1 can be displayed. The state can be controlled by the user's hand.
[0102]
Next, the operation of the present embodiment shown in FIG. 15 will be described in detail.
When the down arrow is pressed by the remote control 10, the remote control light receiving unit 117 receives the remote control signal 310 and sends the received remote control code 310 to the analysis unit 116. The analyzing means 116 decodes the meaning of the received remote control signal. However, in the case of the receiving method shown in FIG. 13, the digital receiver 3 is not limited to a specific receiver. In this case, the control code of the remote controller differs for each device maker. In a case corresponding to this, the analysis means 116 identifies each device maker. Remote control code 312 analyzed by analysis means 116 is sent to state transition management means 114. The state transition management unit 114 determines that the down arrow has been pressed with the remote control code 312, and generates a screen operation control code 311 for instructing a state change for moving the cursor position on the operation screen down by one. The screen operation control code 311 assigns a control code that uniquely specifies still image data incorporated in the fixed data broadcast. There is also a method of defining a control code indicating a state change as the screen operation control code 311. In this method, when reception on the digital broadcast receiver 3 fails, the digital broadcast receiver 3 is fixed. There is a discrepancy in the state management of the data broadcast reproducing device 5. That is, this discrepancy will be continued in subsequent operations. In order to avoid this problem, the state transition management unit 114 of the present invention generates the screen control code 311 corresponding to the screen information to be displayed one by one as described above, and sends the screen control code 311 to the state change notification unit 113. The state transition management means 114 changes the state of the application running by the data broadcast execution means 107 based on a command from the remote control 10. The information for managing the application operation is based on only the operation of the remote control 10. Not necessarily. For example, the state transition management unit 114 may manage the total number of still images to be displayed, the number of image file information 401 to be displayed in one page, and the like.
[0103]
In the case of BS digital broadcasting, since the buttons used for the remote controller are determined, there is an advantage that a similar operation environment can be provided even when digital broadcasting receivers 3 of different device manufacturers are used.
[0104]
As described above, by using the configuration of the fifth embodiment, the third problem described in the above-mentioned “Problems to be Solved by the Invention” is that “Each device is provided with a dedicated remote control. The operation becomes complicated. "
[0105]
Further, it is possible to solve the problem that a new function involving remote control operation cannot be added to the digital content player 4 with only one remote control while using the conventional digital broadcast receiver.
[0106]
Next, with reference to FIG. 16, an outline of an operation example in a screen configuration example of an album function that can be realized by using the fifth embodiment will be described.
[0107]
In FIG. 16, five frames displayed on the right half of the screen are display frames of image file information 401 indicating the contents of a still image file to be selected. In the title display frame, a name indicating the name of the image is displayed. The screen selection mark 402 is moved by the down arrow button and the up arrow button provided on the remote controller of the receiver. At this time, the still image indicated by the image selection mark 402 is selected and reduced and displayed in the preview area 403. Further, a full-screen display of the selected still image is performed by pressing the enter button.
[0108]
By using the configurations of Embodiments 3 to 5 described above, the above-described operation environment can be provided.
[0109]
In the fifth embodiment, the control method using the remote controller 10 of the digital broadcast receiver 3 has been described, but a dedicated remote controller having a different remote control code may be used. Although a remote control is used as a component of the request receiving unit 115 in FIG. 15, a push button used in a conventional recording / reproducing apparatus may be used, or a command is issued from outside via an IEEE1394 interface or the like. May be adopted. Although the example of displaying a still image is used in the screen configuration of the album function in FIG. 14, the data to be handled may be a moving image, a sound, an animation, a game, or the like. That is, not only can a still image be converted into an album, but also a moving image or audio can be converted into an album.
[0110]
(Embodiment 6)
Next, an example in which the fixed form data broadcast recording / playback apparatus according to Embodiment 6 of the present invention has a recording function will be described.
[0111]
FIG. 17 is a block diagram showing a configuration of a fixed-form data broadcast recording / reproducing apparatus according to the present embodiment, and shows a configuration according to the third invention of the present invention.
[0112]
In the following description, new components will be numbered and described, and already described components will be assigned the same numbers as previously described and description thereof will be omitted.
[0113]
FIG. 17 shows the contents of adding a new function to the portion corresponding to the insertion data 300 described in the first embodiment shown in FIG.
[0114]
FIG. 17 includes a program information acquisition unit 120, a recording medium control unit 123, and a recording medium 124. Further, the program information acquisition means 120 includes a program information acquisition means 121 and a program information analysis means 122. Further, the recording medium control means includes an attached information management means 125.
[0115]
Hereinafter, the operation of FIG. 17 will be described.
[0116]
FIG. 17 shows a configuration for extracting the additional information of the program from the MPEG-TS data recorded in the fixed-form data broadcast reproducing apparatus and creating the insertion data shown in FIG.
[0117]
In the figure, reference numeral 302 denotes an MPEG-TS signal to be recorded on the fixed data broadcast reproducing device. Reference numeral 120 denotes a unit for acquiring information on a program from the MPEG-TS signal, and reference numeral 121 denotes a unit for extracting a packet in which the program information is written from the MPEG-TS signal 302. Reference numeral 122 denotes a unit that interprets the meaning of the extracted packet data and extracts broadcast date and time and title information of a recorded program, and genre information of a program such as a movie or a sports program.
[0118]
303 is program information extracted by the program information acquisition means 120.
[0119]
Hereinafter, the operation of the sixth embodiment having the above configuration will be described.
[0120]
When an MPEG-TS recording request is issued from a controller, a main body button (not shown), or the like, the standard data broadcast reproducing device 5 converts the video / audio signal transmitted by the MPEG-TS signal 302 into the recording medium control unit 123. Then, recording on the recording medium 124 is started. At the same time, the program information acquisition unit 120 delivers the program information 303 extracted from the MPEG-TS signal to the recording medium control unit 123, and the recording medium control unit 123 writes and stores the information on the recording medium 124. Acquisition of program information is roughly performed in two steps. First, in a first step, the program information extracting means 121 extracts a SIT (Selection Information Table) packet containing program information from the MPEG-TS signal 302 and transmits it to the program information analyzing means. The SIT packet is a packet in which information of a stream and a summary of information necessary for providing information of a service included in the stream are described. The digital broadcast receiver 3 generates and gives this SIT packet when transmitting digital video to an external device. Next, in a second step, the program information analysis means 122 extracts the current time, the program start time, the program broadcast time, the program title, the genre code, etc. from the SIT packet. The attached information 303 extracted in this way is sent to the attached information management means. The attached information management means 125 includes, in addition to the attached information 303, the total number of recorded programs (described as the number of Total Objects in the figure), and the order based on the date and time of the recorded program (described as the Position number in the figure). , The remaining amount of the recording medium 124, and the like.
[0121]
By adopting such a configuration, the fixed-form data broadcast recording / reproducing apparatus including the structure shown in the sixth embodiment can use the information on the recorded program as the insertion data 301 of the fixed-form data broadcast. As a result, the fixed-form data broadcast recording / playback apparatus can display the information on the recorded program as a data broadcast via the digital broadcast receiver 3.
[0122]
By using the configuration of the sixth embodiment, the fourth problem described in the above-mentioned “Problems to be Solved by the Invention” is that “the conventional recording / reproducing apparatus transmits the program title information from the digital broadcast receiver side. Since there is only a method of separately acquiring the program, the program recorded from the digital broadcast receiver having no means for notifying the program title to the recording / reproducing apparatus cannot display the title. "
[0123]
In addition, as information managed by the recording medium control means 123, not only program information but also accompanying information (for example, the remaining amount of the recording medium) can be similarly displayed. Furthermore, by using the current time included in the program information, there is also an effect that the recording start time can be managed without providing a dedicated time management timer on the fixed data broadcast recording / reproducing apparatus side. Further, when a dedicated time management timer is provided, there is an effect that the time can be adjusted.
[0124]
(Embodiment 7)
Next, Embodiment 7 of the present invention has a function of recording and reproducing a program transmitted from the digital broadcast receiver 3 in the MPEG-TS format, and insert data 301 for inserting the title of the recorded program into the standard data. The configuration of an apparatus capable of selectively playing back a recorded program with a remote controller in fixed data broadcasting will be described.
[0125]
FIG. 18 is a block diagram showing a configuration of a fixed form data broadcast recording / playback apparatus according to the seventh embodiment, which is described according to the fourth invention of the present invention. In the present embodiment, a program title is extracted and displayed on an operation screen to realize selective reproduction.
[0126]
This configuration is similar to that of FIG. 15 in Embodiment 5 (method of reproducing a recorded program by fixed data broadcasting using a remote controller or the like) and FIG. 17 in Embodiment 6 (writing of program information to fixed data broadcasting in recording operation). Are added. Regarding individual components, the same components as those described above will be assigned the same reference numerals, and descriptions thereof will be omitted.
[0127]
In FIG. 18, reference numeral 1 denotes a TV receiver. Reference numeral 3 denotes a digital broadcast receiver provided with the data broadcast executing means 107. 10 is a remote controller. Reference numeral 15 denotes a fixed data broadcast recording / playback device.
[0128]
Further, the fixed-form data broadcast recording / playback device 15 includes a program information acquisition unit 120, a recording medium control unit 123, a recording medium 124, a fixed-form data broadcast reproduction unit 108, and a state fiber control unit 112. The function of each component is the same as that described above, and a description thereof will be omitted. Reference numeral 313 denotes an internal state notification signal for notifying the state change of the recording medium control unit 123 to the state transition management unit 114, which is a part of the state transition control unit 112.
[0129]
The operation of the fixed data broadcast recording / playback apparatus having the configuration shown in FIG. 18 will be described below with reference to the drawings.
[0130]
First, a program is recorded using the device operation function of the digital broadcast receiver 3. The recording operation is performed by issuing a command from the digital broadcast receiver 3 to the standard data broadcast recording / reproducing apparatus 15, or by using the main body operation of the standard data broadcast recording / reproducing apparatus 15 as a recording start request and outputting the MPEG output from the digital broadcast receiver 3. The recording medium control unit 123 receives the TS signal 302 and records the MPEG-TS signal 302 on the recording medium 124.
[0131]
At that time, a part of the MPEG-TS signal 302 is extracted and analyzed by the program information acquisition means 120. Further, the obtained additional information 303 relating to the recorded program is recorded on the recording medium 124 via the recording medium control means 123. FIG. 18 shows a configuration in which the auxiliary information 303 is recorded and stored in the same storage medium 124 as the storage medium that records the MPEG-TS signal 302. However, the same operation mode is possible even when the additional information 303 is stored in another storage medium. can do.
[0132]
Next, the operation when generating the fixed data in the fixed data recording / reproducing apparatus 15 of FIG. 18 will be described.
[0133]
As described above, as a result of the recording operation performed by the fixed data broadcast recording / reproducing device 15, it is necessary to newly insert title information and the like of a newly recorded program into the fixed data 300 as insertion data.
[0134]
The data insertion operation to the fixed data accompanying this recording operation may be performed at the time when the program information is acquired during the recording operation, but during the recording operation, information such as the remaining disk amount and the object size may be changed at any time. Since it has changed, it is necessary to perform the data insertion operation to the fixed data 300 again after the recording operation is stopped. The data insertion operation may be performed when the program recording operation is stopped. In addition, it may be performed when the reproduction of the object of the fixed data broadcasting is instructed.
[0135]
Next, the operation when the fixed data is reproduced in the fixed data recording / reproducing apparatus 15 of FIG. 18 will be described.
[0136]
In order to transmit the fixed data broadcast to the digital broadcast receiver 15 as reproduction data, the fixed data can be made operable as a part of the recording data in the fixed data recording / reproducing device 15. In the present embodiment, for example, when operating the standard data recording / reproducing device 15 as a tape device, it is assumed that the one recorded at the head of the tape is a standard data broadcast portion, and the tape is rewound to the front, and When a reproducing operation is performed, a fixed data broadcast can be reproduced and transmitted.
[0137]
As another method, when a specific button of the remote controller 10 of the digital broadcast receiver 3 is pressed, a fixed data broadcast can be reproduced and transmitted. However, in this case, it is necessary to select a button that does not congest with the operation of the ordinary digital broadcast receiver 3.
[0138]
Further, by detecting that a button on the main body of the fixed form data broadcast recording / reproducing apparatus 15 is pressed, or by receiving a remote control signal 310 from a dedicated remote control, the state transition control means 112 causes the fixed form data broadcast reproducing means 108 Then, the operation start request is transmitted, and the reproduction and transmission of the fixed form data broadcast can be started.
[0139]
When a normal recorded program is reproduced, the recording medium control means 123 reads out the data of the recorded program from the recording medium 124 and starts a reproducing operation. On the other hand, the fixed data broadcasting need not always follow the procedure. That is, after the reproduction operation of the fixed form data broadcast is requested, the reading of the fixed form data and the insertion of the data may be performed, or before the reproduction operation is requested, the data insertion means 110 may add the fixed form data 300 to the fixed form data 300 in advance. The insertion data 301 can be inserted and held in a temporary storage location such as a memory or a magnetic recording medium.
[0140]
The fixed form data broadcast is transmitted by the fixed form data broadcast reproducing means 108.
[0141]
By operating the remote controller 10, it is possible to operate a fixed data broadcast.
[0142]
The contents of the remote control signal 310 are transmitted to the state transition managing means 114 by the request receiving means 115. On the other hand, reference numeral 313 denotes a signal indicating the internal state of the recording medium control unit 123, and management information of the recording medium control unit 123 (for example, the remaining capacity of the recording medium 124, information related to generation / deletion of a file system, etc.). Is notified by the internal state notification signal 313. By providing such a means for notifying the state transition management means 114 of the internal state from the recording medium control means side, an application for changing the state change notification according to the state of the recording / playback operation side is prepared. be able to. For example, when the recording capacity is full, a notice for urging the user to pay attention to that is displayed.
[0143]
A first problem that when the digital information receiver 3 does not have a control function of the latest device by the configuration such as the fixed data broadcast recording / reproducing device 15 shown in the present configuration, only the old device can be controlled, A second problem is that a recording / reproducing device such as a conventional D-VHS recording / reproducing device can record / reproduce a data broadcast but cannot operate a data broadcast screen reproduced from the recording / reproducing device. The third problem that a remote control and an operation screen are present in each device, which complicates the operation of the viewer, and further, a program recorded from a digital broadcast receiver having no means for notifying a program title to a recording / reproducing apparatus. Can solve the fourth problem that a title cannot be displayed.
[0144]
FIG. 19 is a conceptual diagram showing an example of a screen configuration for displaying program title information.
[0145]
Hereinafter, the operation of the fixed-form data broadcast recording / playback device 15 according to the seventh embodiment will be described more specifically with reference to FIG.
[0146]
In FIG. 19, reference numeral 404 denotes an area for displaying information for each display screen of fixed data broadcasting, and here, an area for displaying the number of the page being displayed.
[0147]
Reference numeral 405 denotes a column for displaying information about a recorded program, such as a program title, a broadcast station, and a broadcast time.
[0148]
Reference numeral 406 denotes a column for displaying information on a program in which a program similar to 405 is recorded, and indicates information that can be operated by the user. The deletion prohibition information in the figure is an example, and is an area for displaying the result of selecting and specifying whether or not deletion is possible for each program.
[0149]
Reference numeral 409 denotes an area for displaying information common to each page. In the example of FIG. 19, the area 409 is an area for displaying information on an operation method.
[0150]
407, 408, 413, and 414 are buttons that can be pressed by the user with the remote control. In the example of FIG. 19, the playback operation start button 407, the program deletion prohibition designation button 408, the page forward button 413, and the page return button 414 are defined.
[0151]
Reference numerals 410 and 411 denote areas for displaying device internal information. In the example shown in FIG. 19, the remaining area of the recordable area is displayed.
[0152]
These areas may change during the display of the fixed data broadcast. For example, if the content indicated by the remaining amount display 410 and the remaining amount display graph 411 is defined as a value that changes according to the designation of the deletion prohibition information 406, the user can operate the 410, 411 Area changes. Reference numeral 412 is an example of a program selection mark, which changes in real time by a user's remote control operation. This mark is moved by the user's operation of the up and down arrows on the remote controller.
[0153]
In the system with the structure of the seventh embodiment, the display contents that are changed by the user's button operation, such as 410 and 404, are controlled by the state transition control unit 112 in FIG. The screen is switched by transmitting the event message issued by the change notifying unit 113 to the digital broadcast receiver 3 by the MPEG-TS converting unit 109.
[0154]
Further, remote control operation in fixed data broadcast recording / playback device 15 shown in the seventh embodiment will be described.
[0155]
Buttons such as 407, 408, 413, and 414 shown in FIG. 19 can be selected with an arrow key for moving a cursor, which is attached to the remote control of the digital broadcast receiver 3. However, when the selection method is congested with the operation method in the device operation function of the digital broadcast receiver, a reaction different from the user's intention may occur.
[0156]
In such a case, the respective functions of 407, 408, 413, and 414 can be assigned to other buttons of the remote controller. For example, in the case of a Japanese BS digital broadcast receiver, the remote control is provided with four color-coded buttons, each of which can be assigned to 407, 408, 413, 414.
[0157]
It is also possible to assign other buttons. For example, when returning to the original fixed data broadcasting screen while selecting and playing a playback program from the fixed data broadcasting selection screen, instead of using the “return” button used in the original data broadcasting operation, Buttons that are not normally used when viewing a data broadcast, such as a “program guide,” can be substituted for the operation of the standard data broadcast.
[0158]
As a result, by using the remote controller attached to the digital broadcast receiver 3, it is possible to use "the digital information receiver 3 can control only the old device if the digital information receiver 3 does not have the control function of the latest device." Can be solved further.
[0159]
(Embodiment 8)
Next, an eighth embodiment of the present invention will be described. FIG. 20 is a block diagram showing the configuration of a fixed form data broadcast recording / playback apparatus according to the eighth embodiment of the present invention described in the twelfth invention of the present invention. In the following description, new components will be numbered and described, and already described components will be assigned the same numbers as previously described and description thereof will be omitted.
[0160]
In FIGS. 20 and 21, reference numeral 128 denotes a download data extraction unit for extracting the download data transmitted by being inserted into the private packet of the MPEG transport stream, and 314 denotes a download signal extracted by the download data extraction unit 128. The download signal 314 includes fixed form data for download 322 for updating the fixed form data 300, download insert data 323 for updating the insert data 301, and state transition management for instructing a management method of the state transition management unit 114. A system signal 315 and a state change notification system signal 316 for instructing a notification method of the state change notification unit 113 are included. Reference numeral 129 classifies the fixed form data for download 322 and the insert data for download 323 included in the download signal 314, the state transition management method signal 315, and the state change notification method signal 316. Distribution means for transmitting to the means 110, the state transition management means 114, and the state change notification means 113.
[0161]
Hereinafter, an operation according to the eighth embodiment of the present invention will be described.
[0162]
The download data extracting means 128 simultaneously acquires the MPEG-TS signal 302 transmitted from the digital broadcast receiver 3 and stored in the recording medium 124 through the recording medium control means 123, and is inserted into the private packet of the MPEG-TS signal 302. And extract the download signal 314 transmitted. The download signal 314 extracted by the download data extraction unit 128 is sent to the distribution unit 129. The distribution unit 129 confirms the content of the download signal 314, and if the download signal 314 is fixed data, sends the fixed download data 322 extracted from the download signal 314 to the recording medium control unit 123. The recording medium control means 123 downloads the fixed form data 300 by replacing the fixed form data 322 sent from the distribution means 129 with the fixed form data 300 already recorded on the recording medium 124 as fixed form data. When the distribution unit 129 checks the content of the download signal 314 and extracts the download insertion data 323 from the download signal 314, the extracted data is sent to the recording medium control unit 123. The recording medium control unit 123 downloads the insertion data 301 by replacing the data sent from the distribution unit 129 with the insertion data 301 already recorded on the recording medium 124 as insertion data. Further, the distribution unit 129 can directly insert the download insertion data to the data insertion unit 110, insert it into the fixed data broadcast as the insertion data 301 in real time, and send it to the digital broadcast receiver. Further, when the distribution unit 129 checks the content of the download signal 314 and extracts the state transition management system signal 315 from the download signal 314, the distribution unit 129 sends the state transition management system signal 315 to the state transition management unit 114. Upon receiving the state transition management method signal 315, the state transition management means 114 changes the management method accordingly. Thus, the management method of the state transition management unit can be updated, and the operation control on the operation screen can be changed. When the distribution unit 129 checks the content of the download signal 314 and extracts the state change notification system signal 316, the distribution unit 129 sends the state change notification system signal 316 to the state change notification unit 113. When receiving the state change notification signal 316, the state change notification means 113 changes the state change notification method accordingly. By changing the state change notification method, it is possible to change the meaning of the event message. By using this together with the change of the state transition management method described above, it is possible to extend the application functions such as screen operation that can be realized by the fixed data broadcasting. It becomes possible.
[0163]
With the above configuration, the fixed data broadcast recording / playback device 15 can download the fixed data and the insertion data recorded on the recording medium 124. Further, by changing the state transition management method of the state transition management unit 114 and the notification method of the state change notification unit, it is possible to realize the function expansion of the application that can be realized by the fixed data broadcasting.
[0164]
FIG. 22 shows a method of realizing a storage-type data broadcast service using a fixed-form data broadcast recording / playback apparatus according to the eighth embodiment of the present invention.
[0165]
22, 317 is a satellite broadcast signal, 318 is a video signal, 319 is a data signal, 11 is a communication satellite for transmitting the satellite broadcast signal 317, and 12 is a satellite for receiving the satellite broadcast signal 317 transmitted from the communication satellite 11. A broadcasting antenna, 14 is a conventional digital broadcast receiver, 1 is a TV receiver, and 15 is a fixed data broadcast recording / playback apparatus of the present invention.
[0166]
In FIG. 22, it is assumed that the conventional digital broadcast receiver 14 sends the received satellite broadcast signal 317 as it is to the standard data broadcast recording / playback apparatus 15 as the MPEG-TS signal 302 as it is. The fixed-form data broadcast recording / playback device 15 can download the fixed-form data and the insertion data as described above. Therefore, the application and information data provided as the storage-type data broadcast service are inserted into the MPEG-TS as private packets. By broadcasting as a satellite broadcast signal 317, it can be stored in the fixed-form data broadcast recording / playback device 15. When the user wants to use the data broadcast, the user can retrieve the data stored in the fixed data broadcast recording / reproducing apparatus 15 by reproducing the fixed data broadcast.
[0167]
With such a configuration, it is possible to newly realize a service equivalent to an existing storage-type data broadcasting service using a conventional digital broadcast receiver without introducing a new digital broadcast receiver 13 exclusively for stored data broadcasting. I can do it. Further, by adding the fixed data broadcast recording / reproducing device 15, the capacity of the storage medium can be easily expanded.
[0168]
As described above, the present invention has been described with reference to the first to eighth embodiments. However, the fixed data broadcast reproducing apparatus and the fixed data broadcast recording / reproducing apparatus described in the respective embodiments are adapted to record the video used in the embodiment. The present invention may be applied to a wide range of general devices such as acoustic devices, white goods such as washing machines, door phones, etc., in addition to the devices.
[0169]
A particularly remarkable effect realized in the present invention is that an old digital broadcast receiver can be used. However, even when a new function / service is realized by using the digital broadcast receiver in combination with a newly developed digital broadcast receiver. good.
[0170]
Although the terms of digital broadcasting are basically used in terms of BS digital used in Japan, this does not limit the effects of the present invention to Japan. If the technically the same condition as the present invention is satisfied, the present invention may be applied to digital broadcasting which is studied or implemented overseas.
[0171]
【The invention's effect】
As is apparent from the above description, the present invention does not equip the new control software, that is, even if it is a digital broadcast receiver that can control only the old external device, the screen display or the operation is performed by using the device of the present invention. It is possible to provide a fixed-form data broadcast reproducing apparatus or a fixed-form data broadcast recording / reproducing apparatus which can perform the same.
[0172]
Further, it is possible to provide a fixed data broadcast reproducing apparatus or a fixed data broadcast recording / reproducing apparatus which can be easily operated using the same remote controller as the digital broadcast receiver.
[0173]
Further, even in a digital broadcast receiver having no means for notifying the program title to the recording / playback apparatus, it is possible to provide a fixed-form data broadcast recording / playback apparatus having a function of acquiring the program title and further selecting the display. .
[0174]
In addition, even a receiver that does not support stored broadcast can newly provide a stored broadcast service having the same content as the existing stored data broadcast service.
[0175]
Further, there is an effect that the operation screen and the remote control operation environment are unified, and the operation is simplified.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a fixed data broadcast reproducing apparatus according to a first embodiment of the present invention.
FIG. 2 is a conceptual diagram for explaining an operation of a data insertion unit in the identification type data broadcast reproducing device.
FIG. 3 is a flowchart showing the operation of MPEG-TS conversion means in the identification-type data broadcast reproducing apparatus
FIG. 4 is a block diagram showing a configuration of a fixed form data broadcast reproducing device according to a second embodiment of the present invention;
FIG. 5 is a block diagram showing a configuration of a fixed form data broadcast reproducing device according to a third embodiment of the present invention.
FIG. 6 is a diagram showing a configuration of a carousel and a method of state notification by a state change notification unit in the identification type data broadcast reproducing apparatus
FIG. 7 is a conceptual diagram for explaining a conventional data transmission method in data broadcasting.
FIG. 8 is a conceptual diagram for explaining a first data transmission method for speeding up image data acquisition in a fixed data broadcast reproducing device according to a fourth embodiment of the present invention.
FIG. 9 is a diagram showing types of fixed data in the identification-type data broadcast reproducing apparatus.
FIG. 10 is a conceptual diagram for explaining a second data transmission method for speeding up image data acquisition in the identification-type data broadcast reproduction device.
FIG. 11 is a block diagram showing a configuration of an identification-type data broadcast reproducing apparatus.
FIG. 12 is a conceptual diagram showing a conventional remote control operation.
FIG. 13 is a conceptual diagram showing an example of device operation via a conventional digital broadcast receiver.
FIG. 14 is a conceptual diagram showing a remote control light receiving method in a fixed form data broadcast reproducing device according to a fifth embodiment of the present invention.
FIG. 15 is a block diagram showing a configuration of an identification-type data broadcast reproducing device.
FIG. 16 is a conceptual diagram showing a screen configuration of an album function in the identification type data broadcast reproducing device.
FIG. 17 is a block diagram showing extraction of inserted data in a fixed-form data broadcast recording / playback apparatus according to a sixth embodiment of the present invention.
FIG. 18 is a block diagram showing a configuration of a fixed form data broadcast reproducing device according to a seventh embodiment of the present invention.
FIG. 19 is a conceptual diagram showing a screen configuration of a program title information display in the identification type data broadcast recording / playback apparatus.
FIG. 20 is a block diagram showing a configuration of a fixed data broadcast recording / playback apparatus according to an eighth embodiment of the present invention.
FIG. 21 is an explanatory diagram for extracting and distributing various data from download data in the identification type data broadcast recording / playback apparatus.
FIG. 22 is a conceptual diagram showing a method of realizing a storage type data broadcast using an identification type data broadcast recording / playback apparatus.
FIG. 23 is a block diagram showing a digital content playback environment 1 in a conventional recording / playback apparatus.
FIG. 24 is a block diagram showing a digital content playback environment 2 in a conventional recording / playback apparatus.
FIG. 25 is a conceptual diagram showing a method of realizing a conventional storage-type data broadcasting service.
[Explanation of symbols]
1 TV receiver
3 Digital broadcast receiver
5 Fixed data broadcasting playback device
101 display means
107 Data Broadcast Execution Means
108 Fixed data broadcasting playback means
109 MPEG-TS conversion means
110 Data Insertion Means
111 Fixed data holding means
300 fixed data
301 Insert data
320 Digital interface

Claims (19)

Fixed-form data storage means for storing fixed-form data; data insertion means for inserting predetermined data into the fixed-form data; and a MPEG broadcast stream of the fixed-form data having the predetermined data inserted therein, and a digital broadcast receiver as reproduction data. A fixed form data broadcast reproducing means for transmitting the data to a fixed form data broadcast. Fixed-form data storage means for storing fixed-form data, data insertion means for inserting predetermined data into the fixed-form data, and converting the fixed-form data into which the predetermined data is inserted into an MPEG transport stream, as a reproduction data, a digital broadcast receiver A fixed form data broadcast reproducing means for transmitting the fixed form data broadcast to the personal computer; and a state transition control means for controlling an operation state of the sent fixed form data broadcast. Fixed-form data storage means for storing fixed-form data, data insertion means for inserting predetermined data into the fixed-form data, and converting the fixed-form data into which the predetermined data is inserted into an MPEG transport stream, as a reproduction data, a digital broadcast receiver , A recording medium for recording a program transmitted by an MPEG transport stream, a program information acquisition means for extracting program information from an MPEG-TS signal during or after recording, and an MPEG transport A recording / reproducing apparatus for fixed-form data broadcasting, comprising: a recording medium control unit for recording and reproducing a port stream on a recording medium and managing program information. Fixed-form data storage means for storing fixed-form data, data insertion means for inserting predetermined data into the fixed-form data, and converting the fixed-form data into which the predetermined data is inserted into an MPEG transport stream, as a reproduction data, a digital broadcast receiver , A state transition control means for controlling an operation state of the sent fixed data broadcast, a recording medium for recording a program transmitted by an MPEG transport stream, and a recording medium during or after recording. A fixed data broadcast recording comprising: a program information acquisition means for extracting program information from an MPEG-TS signal; and a recording medium control means for managing recording and reproduction of an MPEG transport stream on a recording medium and managing the program information. Playback device. 3. The fixed-form data broadcast reproducing apparatus according to claim 1, wherein the fixed-form data storage means is a rewritable medium. The fixed-form data broadcast recording / playback apparatus according to claim 3 or 4, wherein the fixed-form data storage means is a rewritable medium. 3. The fixed-form data broadcast reproducing apparatus according to claim 1, wherein the insertion data is a photograph, a picture, or music data. 5. The recording / reproducing apparatus according to claim 3, wherein the insertion data is photo, picture, or music data. 3. The fixed-form data broadcast reproducing apparatus according to claim 1, wherein the insertion data is information acquired inside the system. 5. The recording / playback apparatus according to claim 3, wherein the insertion data is information acquired in the system. The state transition control means includes request reception means for receiving a transition request, state control management means for managing an operation state of the fixed form data broadcast, and state change notification means for notifying a state change. The fixed-form data broadcast reproducing device according to claim 2. The state transition control means includes request reception means for receiving a transition request, state control management means for managing an operation state of the fixed form data broadcast, and state change notification means for notifying a state change. The fixed-form data broadcast recording / playback apparatus according to claim 4. 3. The fixed form data broadcast reproducing apparatus according to claim 2, wherein the request receiving means comprises a remote control light receiving means for receiving a remote control signal for the digital broadcast receiver, and an analyzing means for analyzing the remote control signal. 5. The fixed-form data broadcast recording / reproducing apparatus according to claim 4, wherein the request receiving means comprises remote control light receiving means for receiving a remote control signal for a digital broadcast receiver, and analysis means for analyzing the remote control signal. The fixed-form data broadcast reproducing apparatus according to claim 11, wherein the state change notifying means uses a data broadcast event message transmission method. 13. The fixed-form data broadcast recording / playback apparatus according to claim 12, wherein the status change notification means uses a data broadcast event message transmission system. 3. The fixed form data broadcast reproducing apparatus according to claim 2, wherein the fixed form data broadcast reproducing means selectively converts predetermined data from the fixed form data into an MPEG transport stream based on a command from the state transition control means. 5. The recording / reproducing apparatus according to claim 4, wherein the standard data broadcasting reproducing means selectively converts predetermined data from the standard data into an MPEG transport stream based on a command from the state transition control means. . 5. The fixed form data according to claim 3, wherein the download data contained in the received MPEG transport stream is extracted and fixed form data or predetermined data to be inserted into the fixed form data, and the state control management means and the state notification means can be changed. Broadcast recording and playback device.

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