Source: https://patents.google.com/patent/TWI239514B/en
Timestamp: 2020-02-25 01:43:19
Document Index: 300411639

Matched Legal Cases: ['art 55', 'art 55', 'art 55', 'art 55', 'art 54', 'art 56', 'art 5', 'art 5', 'art 56', 'art 55', 'art 56', 'art 57', 'art 52', 'art 5', 'art 54', 'art 5', 'application No. 7', 'application No. 10']

TWI239514B - Optical disk apparatus and optical disk processing method and optical disc - Google Patents
Optical disk apparatus and optical disk processing method and optical disc Download PDF
TWI239514B
TWI239514B TW92121208A TW92121208A TWI239514B TW I239514 B TWI239514 B TW I239514B TW 92121208 A TW92121208 A TW 92121208A TW 92121208 A TW92121208 A TW 92121208A TW I239514 B TWI239514 B TW I239514B
TW92121208A
TW200412579A (en
2002-08-14 Priority to JP2002236618A priority Critical patent/JP2004079055A/en
2003-08-01 Application filed by Toshiba Corp filed Critical Toshiba Corp
2004-07-16 Publication of TW200412579A publication Critical patent/TW200412579A/en
2005-09-11 Publication of TWI239514B publication Critical patent/TWI239514B/en
An optical disk apparatus has a control portion for, based on address information and authentication information read out from an optical disk, providing access to a specific server via a communication line, thereby acquiring extensible information, and a reproducing portion for reproducing and outputting the acquired extensible information. In this optical disk apparatus, if an optical disk is not provided, authentication processing cannot be carried out, and extensible information cannot be acquired. Thus, extensible information can be reproduced with security.
1239514 (1) Description of the invention [Technical field to which the invention belongs] The present invention relates to an optical disc device. More particularly, the present invention relates to an optical disc device and an optical disc device communication method connected to a network content distribution server. [Prior art] In recent years, specifications for reproducing video images and / or audio information recorded on a DVD forum (f0rum) to an information recording medium-"the third part of the specification for CD-ROMs" Published August 1969. These specifications include presentation data and navigation data, where the display data has real video images and / or audio data recorded therein, and the navigation data is used to manage the display data. For display data, video data, audio data and sub-picture data are multiplexed according to the specifications of the program stream (2048 bytes) defined in MPEG2. In addition, the guide data also describes PGC (ProGram Chain program chain) and units, which are used to set the time structure or sequence of video images and / or sound data to be reproduced, and provide multiple perspectives, multiple plots and locks. Code and other functions. Regarding the above-mentioned conventional technology, in Japanese Patent Application Laid-Open No. 11-1 6 1 6 6 3, an image display device is disclosed that can provide a service so that a DVD video name and an HTML file can be mixed together . In this image display device, a URL (URL) is taken from a navigation pack (navi_pack) of a video object unit, and then connected to the Internet according to the extracted (2) 1239514 URL, so that it can be displayed An image and a picture during reproduction. However, in this patent document, the DVD video name and HTML content can only be displayed in parallel. Therefore, there is a problem that the display performance of a video image is insufficient. In addition, there is a problem of insufficient security of the distributed information. And, if you know the URL, it will be easy for some unspecified people to get it. That is to say, in the conventional technology, only the TMP content can be displayed in conjunction with the optical disc, and the display performance of video images and the like that cannot be provided sufficiently. Moreover, if the server address is known, the information will be leaked to unspecified persons. Therefore, there is a problem that the allocated information is not secure enough, so that it is difficult to provide high-value-added information. SUMMARY OF THE INVENTION An object of the present invention is to provide an optical disc device, an optical disc processing method, and an optical disc, wherein by using extensible information, the display size and display position of a video name or extensible information are displayed in each screen. Change to form individual content. The display of the video title or extensible information changes in each screen to increase the display freedom of video images and the like. Moreover, the information contained in the disc and the extensible information obtained through a communication line are quite safe in use. In view of the above-mentioned object, according to the present invention, an optical disc is provided for reproducing at least one of video image and sound information from an optical disc. The optical disc device includes a control section which can read the address information and (3) 1239514 Authentication information enters a specific server through a communication line in order to implement the authentication process, thereby obtaining extensible information from the specific server, and includes a regeneration section 'for regeneration and output of the control section. Get extensible information. The optical disc device according to the present invention has the following structure, and can be based on the address information or identification information of the contents of the enhanced guide bow (hereinafter referred to as ENAV), for example, the extensible information recorded on the optical disc, by using the Internet communication department Internet access to an external network content distribution server and perform authentication processing. With this authentication processing, for example, ENAV content as extensible information is distributed from a server whose validity of access has been checked. f The reproduction section reproduces this ENA V content so that it can be output, or ENAV content or DVD video content detected by the disc, which are mutually contained. In this way, the video image content reproduced from the disc and the latest video image information related thereto can be easily used via the Internet. In addition, access or authentication processing can be performed based on the information stored on the disc. Therefore, even if a third party who does not have a disc knows the server address, the authentication process can still be performed. Therefore, the distribution of ENAV content of extensible information will not be accepted, thereby enabling the server to reliably distribute extensible information with high premiums. [Embodiment] Hereinafter, a preferred embodiment of an optical disc device of the present invention and an optical disc processed by the apparatus will be described with reference to the drawings. (4) 1239514 &lt; Optical disc of the present invention &gt; First, an example of an optical disc processed by the optical disc apparatus of the present invention will be described with reference to the drawings. This disc is compatible with current DVD video specifications and has the following data structure. Fig. 2 shows an example of the data structure of a DVD video disc reproduced by a DVD player. The DVD video disc is an optical disc as shown in Fig. 1, which will be described later. Figure 2 shows an enhanced DVD video disc, in which DVD video content (with MPEG2 program stream) having the same data structure as the existing DVD video specification is stored in a DVD video area, resulting in an enhanced guide for extensible information 丨(Hereinafter referred to as ENAV) can be recorded in another recording area, in which the essence can be identified by the DVD video specification. ENAV content is a general name for still pictures, sounds, cartoons, or markup languages, and the reproduction of video content can be diversified. FIG. 3 shows a DVD video disc, which does not have ENA V content in the DVD video area. In the following, the contents of the DVD video area will be briefly described. That is, in FIG. 2, a recording area of the DVD video disc '' d 包括 includes a lead-in area 11, a volume 12, and a lead-out area 15 in order from the inner periphery. The volume space includes a volume / file structure information area 12 and a DVD video area 13, and may further optionally include another recording area (other area of the DVD) 14. The above-mentioned volume / file structure information area 12 is an area allocated to a U D F (Universal Disc Format) bridge structure. The U D F bridge format volume is designed to be identifiable according to the standards described in the second part of ISO / IEC 13 3 46. The space used to identify this volume includes most consecutive sectors, (5) 1239514 and starts from the first logical sector of the volume space in Figures 2 and 3. When the system is used according to the ISO 660 standard, the first logical sector 16 can be reversed. A volume / file structure with these contents is required to be truly compatible with existing DVD video specifications. In addition, the above-mentioned DVD video area is recorded with management information, also called video manager VMG 1 2 and recorded by one or more video contents, such as video title groups (VTS # 1 to VTS # n) 22 and 23. VGM21 is all VTS management information that exists in the DVD video area. Although not shown, it also includes control data VMG1, VMG menu data VMGM-VOBS (selection), and VMG backup data. In addition, although not shown, each VTS includes its own VTS control data VTS1, VTS menu data VTSM-VOBS, VTSTT_VOBS data on VTS (title) content (such as movies); and VTS1 backup data. DVD video areas with these contents are required to be truly compatible with existing DVD video specifications. . The reproduction selection menu of each title (VTS # 1 to VTS # n) is pre-allocated by a supplier (manufacturer of a DVD video disc) using VMG. The playback chapter selection menu in a specific title (e.g., VTS # 1), or the program used to reproduce the recorded content (unit) is pre-assigned by a supplier using VTS1. Therefore, disc viewers (users of DVD players) can enjoy the record of the disc '' d 根据 according to the VMG / VTS1 menu provided by the supplier and the reproduction control information (program chain information p GCI) included in the VTSI. content. However, in the existing DVD video specifications, viewers (users) cannot reproduce VTS content (video or music) in the same way as the VGM / VTSI (6) 1239514 provided by the supplier. The optical disc of the present invention is an enhanced DVD video disc. As shown in FIG. 2, the content of the VTS (movie or alfalfa) can be reproduced according to a method different from the VGM / VTSI provided by the supplier, or can be reproduced. ENAV content. That is, the ENAV content contained in this disc is provided in the other recording area 14 mentioned above. For example, a mark / letter language 3 1 is also provided, a moving day data 3 2, a still picture data 3 3 and a sound data 3 4. Such ENA V content cannot be accessed by a DVD player made by a conventional existing DVD video standard (even if it can be accessed, its contents cannot be used). Access can only be generated by the DVD player of the present invention in connection with the same ENAV reproduction unit, and therefore its reproduction content can be used. &lt; EN..AV content &gt; Hereinafter, ΕΝΑ V content includes materials such as sound, still images, text, and animation, as well as information for controlling the reproduction of these materials (written in markup / description language). For information used to control its reproduction, ENAV content (including sound, still images, text, and animation) and / or DVD video content (such as display method, reproduction program, or choice of reproduction target) can be marked by a mark Language or description language. For example, HTML (Hypertext Markup Language) / XHTML (Extended Hypertext Markup Language), or SMIL (Synchronized Multimedia Integration Language), which is also a markup language, can also use ECMA (European Computer Manufacturers Association) starting from the description language ) Description or Java description. -9- (7) 1239514 In addition, the contents of the enhanced DVD video disc of FIG. 2 conform to the existing DVD video specifications, except for the contents in some other recording areas. Therefore, even if an existing DvD player 'is used, the video content recorded in the DVD video area can be reproduced. That is, it can provide compatibility with an earlier device than an optical disc device using an enhanced VD video disc. However, although the EN AV content recorded in other recording areas cannot be reproduced (utilized) by the existing DVD player, they can still be reproduced and used by the optical disc apparatus of the present invention shown in FIG. Therefore, ENAV content can be reproduced by using the optical disc device of the present invention, so that it can use more different kinds of rich video image display according to the ENAV specification, and is not limited to the VMG / VTSI content provided by the supplier in advance. In the optical disc `` d '', this optical disc is an enhanced DVD video disc of the present invention, and provides address information and information for authentication processing on a network content distribution server S. This server is transmitted through the Internet The network is connected to the above EN AV content, which can maintain a high degree of security, and can simultaneously use the information contained in the disc and the enhanced guidance content connected through the communication line. The address information and information used in the authentication processing on the network content distribution server S connected to the Internet can be set in the video management information or the video title set VT s 2 2 on the DVD video content without It needs to be set in the above ENAV content. In addition, even if the above-mentioned information is set in another area, as long as the access operation of the optical disc device of the present invention can be performed -10- (8) 1239514, the operation and advantages of the present invention can still be achieved. &lt; Optical disc device of the present invention &gt; The optical disc device of the present invention will now be described with reference to the drawings. Figure 1 is a block diagram showing an example of the structure of an optical disc device of the present invention; Figures A4 and 4B each show an example of internal parameters; Figure 5 is a flowchart showing an example of operation during startup; and Figure 6 is a flowchart Shows an example of the reproduction process of ENAV content containing network content; FIG. 7 shows an example of the structure of ENAV content operated by the optical disc device of the present invention; FIG. 8 is a flowchart showing an example of reproduction process of network content; 9 A to 9 D are graphics showing the content of the optical disc and ENAV content from the network operated by the optical disc device of the present invention; FIG. 10 is a figure showing a structural example of the network content processed by the optical disc device of the present invention; FIG. 1 1 is a graphic showing the use of the optical disc device of the present invention to connect to the network content distribution server via a database server; FIG. 12 is a flowchart showing the process performed by the network content distribution server of the optical disc device of the present invention Communication example; Figure 13 is a graphic showing the ENAV content encoding and / or decoding process of the optical disc device of the present invention; Figure 14 is a flowchart showing the optical disc device of the present invention CD taken out of the processing example; FIG. 15 is a graphic example of a display controller of the disc apparatus of the present invention. The optical disc device of the present invention can obtain and reproduce the ENAV content of the extensible information from a server through the Internet according to the enhanced guidance content, and at the same time reproduce an optical disc to have the above-mentioned ENAV content. In this way -11-(9) 1239514, in addition to the existing DVD content, the ENAV content contained in the disc and the obtained ENAV content are also selectively reproduced, so that a variety of reproductions can be implemented deal with. In addition, the security of the office can be ensured through the implementation of the authentication process, so that the EN A V content of the additional price of the office can be distributed, which was originally limited to the case of having a disc. Moreover, due to the implementation of individual authentication, it is easier to implement e-commerce via the Internet. (Structure of Optical Disc Apparatus) The structure of the optical disc apparatus of the present invention will be described below with reference to FIG. The optical disc device A of the present invention can reproduce content (DVD video content and / or ENAV content) recorded therein based on an enhanced DVD video disc that is compatible with the existing DVD video specifications shown in FIG. 2. In addition, this device is capable of extracting ENAV content (referred to as network content) from extensible information from communication lines such as the Internet. General description As shown in FIG. 1, the optical disc device A of the present invention can be divided into: a disc detection section 6 1 'for mounting an optical disc and rotating the disc at a predetermined rotation frequency' is emitted by an optical pickup head Laser light, receiving reflected light to detect DVD video content and / or ENAV content recorded on this disc, d ；; a DVD video reproduction unit R, for playing and processing on this disc '' d〃 MPEG2 program stream (Dvd video content) recorded inside; an ENAV reproduction section E for reproducing ENAV content; a user operation section (10) 1239514 5 3 for inputting a user who includes an external remote control 1 〇1 The operation information and an Internet communication department are used to connect to the channel I such as the Internet, and obtain content from a network content server S or the like. Below, there will be more detailed explanation. In addition, in the block structure of FIG. 1, the DVD video playback control 5 2. The user event control section included in the ENAV playback section E, an ENAV interface section 55, an ENAV interpretation section 56, and a buffer can be controlled by a microcomputer ( And / or firmware), this microcomputer performs the function of a block structure by displaying a built-in program (firmware). The working area with this firmware can be obtained in each block structure by using an unshown semiconductor memory (or hard disk if needed). The optical disc operated by the optical disc device A of the present invention records DVD content, which has an MPEG2 program stream structure and information other than the MPEG2 stream structure (such as video image information such as animation, still images, cartoons, sound information, text information, or Chain information). In addition, the video content, audio information, word information, and link information obtained on the Internet or the like will be captured on the disc as ENAV content. DVD video playback section The DVD video playback section R is structured to play back DVD video content based on existing DVD video frames. The structure of this part includes: a solution section 51 for decoding the video content read from a disc detection section 61; and a DVD video reproduction control section 5 2 'for implementation; similar to a cable The production department 54 and the department did not execute the memory video program uniformly.
Signal Controller DVD DVD -13- (11) 1239514 Video content reproduction control. The decoder unit 51 has the following function ', which is to decode the video image data, sound data, and sub-picture data according to the existing D v D video specifications, and output the decoded video image and / or sound data. In this way, the D V D video reproduction section R has the same function as a normal D V D player reproduction engine manufactured according to the existing D V D video specifications. That is to say, the optical disc A shown in FIG. 1 can reproduce the video image and sound with MPEG2 program stream in the same manner as the DVD player. In this way, the existing DVD video disc (that is, conforming to DVD-specific discs). The DVD video playback control section 52 is structured to control the playback of DVD video content based on the "DVD control signal" output from the ENAV playback section E. Specifically, when an event (such as a menu call or title jump) occurs during DVD video playback, the DVD video playback control section 52 may output a `` DVD event signal '' to represent the DVD video related to the ENAV playback section E. The reproduction status of the content. At this time (at an appropriate time before or after the d VD event signal is output), the DVD video playback control section 52 may output a 'DVD status signal' to the Ν AV playback section Ε, which represents the attribute information of the DVD player (Such as the sound language set in the player, sub-picture overlay language, playback operation, playback position information, time information, and disc content, etc.). The structure of the ENAV reproduction section ENAV reproduction section E includes: a user event control section -14-(12) 1239514 54, an ENAV interface section 55, an ENAV interpretation section 56, a component decoder 58, and a video image and And / or the sound output control section 5 9. The user event interpretation unit 54 used here can generate a user event corresponding to a user operation of the DVD video reproduction device. The ENAV interpretation unit 56 (language interpretation unit) can syntactically analyze and interpret the contents of reproduction control information contained in ENAV content. The ENAV interface section 55 (information processing section) can grammatically analyze the grammar in the ENAV interpretation section 56 and execute the instructions (ENAV instructions) contained in the decoded reproduction control information. The component decoder 58 can generate a video image and / or sound data corresponding to other content, such as audio, still images, text, and animation included in ENAV content. An output section (video image and / or sound output control section 59) may output the video image and / or sound data generated by the component decoder 58 according to the execution result of the ENAV instruction at the ENAV interface section 55, and the The data is composed of video image and / or audio data reproduced by the DVD video reproduction section R. On the other hand, this control section selectively outputs one of the reproduced video images and / or audio data on the DVD content. Now, each part will be explained in detail. Buffer section Buffer section 5 7 temporarily stores the information contained in the disc 'd 〃, and this information is also detected by the disc detection section 61 or the buffer section stores the information captured from the Internet communication section 62 The received ENAV contents, and then transmit these contents to the ENAV interpretation section 56 or the component decoder 58. By capturing (15) (13) 1239514 the EN A V content in the buffer unit 57, even when both the D V D video content and the ENAV content are reproduced at the same time, seamless reproduction of the DVD video content can be achieved. On the other hand, the disc detection unit 61 needs to access the DVD video content and ENAV content contained in the disc, DVD, and ENAV at a high speed, which makes it difficult to implement seamless reproduction. The user control section may set a user event control section 54 according to a user operation in order to perform control. The structure of this control section is used to accept a user event (such as menu call, title jump, playback start, playback stop, playback pause, etc.), which can correspond to user operations from the user operation section 53, or it can also A user event control is received from an ENAV interface 55, thereby generating user events U) to (c), so as to correspond to the content of the user operation or the user event control signal. Here, the user event control unit 54 performs the following operations based on the `` user event control signal '' output from the ENAV interface section 55 for the user operation signal transmitted by the user operation. (1) the DVD video playback control section 52 transmitted to the DVD video playback section R (user event signal (a〃)); (2) stopping (X) transmission (user event signal ('' b〃)); and (3) Transmission to the ENAV interface part 55 (user event signal (c （)). At this time, the following control is performed to transmit the user event signal. (1 1) In outputting the video image (full video mode) of the D V D video reproduction section R, the user event signal a 〃) is directly output to the DVD video and then -16- (14) 1239514 production section R. This is because the user operation in full video mode is the same as in normal DVD video playback. (12) When outputting the video image of ENAV playback section E (full EN AV mode), or when outputting the video image of DVD video playback section R and the video image of ENA V playback section E (mixed) Frame mode), the following operations are performed. (12 1) When the user event signal (user event signal (c)) is output to the ENAV interface 55, the ENAV interface 55 outputs a function call (such as a menu call) corresponding to the event, so as to be a DVD Control signal, and output this function call to the DVD video playback control unit 52 of the DVD video playback unit R. (122) The user event (user event signal (a)) and the user event signal ((c) 〃) are simultaneously output to the D VD video reproduction section R and the ENAV interface section 55. (123) When it is possible to implement DVD video reproduction which the system does not intend to implement (for example, if a reproduction method is provided, it cannot be executed when the DVD video reproduction unit R is operated, or under the current DVD specifications, it is impossible to use User operation controls UOP to implement operation), then the transmission of user event signals will be blocked (disabled or disabled) (X of user event signal (b)). The content of the user event signal (c) transmitted to the E N A V interface 5 5 can be appropriately transmitted to the ENAV interpretation unit 56 in the form of an ENAV event (and / or ENAV). Then, the ENAV interpretation section 56 can generate a layout control signal -17- (15) 1239514 by referring to the content of the user event signal (c). For example, 'when the content or window size is changed by the cursor key 1 07 of the remote control 1 〇 丨 shown in FIG. 15 and a display operation is generated that shifts the display position', it will be controlled from the user event The section 54 provides this operation to the ENAV interface part 55 as a user event signal (c). The user event signal is then transformed into a corresponding ENav event (such as a window size change event) and / or an EN AV property (such as a variable / parameter representing the window size after the change), and then transformed into a corresponding layout control The event 'transformed after the signal can be provided to the video image output control section 59. Here, the remote control 101 can provide an operation signal from the user to the user operation section 53. For example, as shown in FIG. 15, the remote control 101 has: a power switch; an output mode selection switch 1 0 2; an input key 1 0 3; for example, stop, scan, reproduce, scan, record (if there is a record Function) and other operation switches 104 (), and a temporary stop key; a cursor key 107, for operating the cursor generated by the output signal on the screen; a decision key 106 and a release key 105. A 1C card 108 is installed, which is a removable recording medium and can generate a personal identification so that information can be read or written. In addition, an IC card interface 63 can be provided in the main body of the optical disc device, so that the IC card 108 can read and write personal identification information. ENAV interface part -18-1239514 (16) The ENAV interface part 55 transmits or receives a DVD status signal, a DVD event signal and / or a DVD control signal to or from a DVD video reproduction control unit 52. On the other hand, this interface transmits or receives a user event and / or a user event control is number to or from a user event control unit 54. The structure of the E N A V interface 5 5 can further transmit or receive the e N A V event, the ENAV property, and / or the ENAV instruction to or from an ENAV interpretation unit 56. That is to say, the structure of the EN AV interface section 5 can be used as an interface between the DVD video reproduction section R and the ENAV reproduction section E, and performs the following functions: outputting the input DVD status signal into ENAV nature; The DVD event signal output is used as an ENAV event signal; or the input DVD event signal is output as an EnaV event signal; or the input DVD event signal is converted into a corresponding DVD control signal to be output. Then, 'ENAV interface part 55 is a signal for controlling the output state of the video image and / or sound according to a user event from the user event control part 54 and / or an ENAV instruction from the En AV interpretation part 56'. Provided to the video image and / or sound output control unit 5 9. In addition, when attention is paid to the handshake, the structure of the ENAV interface part 5 5 can be generated with the DVD video reproduction control part 5 2 according to the content (instruction) interpreted by the ENAV interpretation part 56 or a user event from an input unit. Exchange of the first signal (Dvd control signal, DVD event signal, or DVD status signal) related to the playback status of the video disc. Furthermore, it is also possible to exchange the second signal (ENAV event, eNAV instruction, or ENNAV nature) related to ENAV content (description) with ENAV comment unit 56 (17) 1239514. According to at least one of the first signal and the second signal exchanged, the interface section controls the signal output state by the video image and / or sound output control section 59. Regarding the signal processing, the E.NAV interface part 55 can interpret the contents of ENAV and convert a control signal between the DVD video reproduction section R and the ENAV reproduction section E. Specifically, a processing unit performs the following signal output / signal conversion. &lt; a &gt; After interpreting the ENAV content, the processing section outputs the following signals: (a) 'user event control signal' for controlling a user event so as to correspond to the input from the user operation section 53 User operation; (b) — DVD control signal 〃, used to control the playback of DVD video content in the DVD video reproduction unit R; and / or (c) a 'video image and / or sound output control signal 〃, used To switch the video image and / or sound output from the DVD video reproduction section R and the video image and / or sound output from the ENAV reproduction section R. &lt; b &gt; The processing section interprets the content of the "DVD event signal" (such as a menu call or title jump), where this signal represents the playback status of the DVD video content provided from the DVD video playback section R, and interprets this The DVD event signal content is transformed into a corresponding event signal defined in ENAV content. For example, a DVD event signal of a menu call is converted into an event signal of a menu call in ENAV. &lt; c &gt; The processing section interprets the contents of the 'DVD status signal' (for example, the sound δ, why is it?) or whether the disc reproduction operation is in progress, where this signal represents the d provided by the DVD video reproduction section R The nature of the VD player, -20- (18) 1239514, and convert this interpreted content into the corresponding nature signal defined in ENAV content. For example, the D V D status signal, which indicates that the sound language currently used is Japanese, is converted into a character signal that is used in EN A V to designate the language as Japanese. ENAV interpretation section Generally speaking, ENAV commenting section 56 has the function of parsing and interpreting ENAV content from DVD video discs or reproduction control information from the Internet and included in ENAV content, so that ENAV reproduction can be moved Department E. The above markup languages (such as HTML / XHTML or SMIL) can be used for this reproduction control information. Alternatively, on the other hand, a description language (such as ECMASript or JAVAScript) can be used together with the above markup language. The method used for parsing and commenting markup or description can be a technique similar to that known for parsing or interpretation, such as for HTML / XHTML and SMIL or ECMAS cript or JAVAScript (hardware used here (The body is the microcomputer previously described in FIG. 1). As for the instructions or variables used in the description, there will be some differences due to different control targets. For the reproduction control information used to implement the present invention, specific instructions or variables related to the reproduction of DVD video discs and / or ENAV content can be used. For example, an instruction for switching reproduction content of a DVD video or ENAV content to correspond to an event is unique to a mark or description in the reproduction control information. As for another example of the mark and letter-specific instructions and the -21-(19) 1239514 variable in the reproduction control information, the size of the video image from the D VD video reproduction section R and / or ENAV reproduction section E (for An instruction 'indicating a change in size' and a variable for specifying the size after the change) and the position of the image have changed. (It refers to a festival that does not display the position M and a variable that specifies the coordinates after the customization. When a display object is superimposed on the screen, a variable is added to specify the position of the overlapping top and bottom positions. A change in the relationship.) On the other hand, the sound level from the DVD video reproduction section R and / or the ENAV reproduction section E changes (an instruction to indicate a change in the sound level, and a change Specify a variable of the sound level), and select a sound language to be used (an instruction to indicate a change in the used sound language, and a variable to specify the type of language after the change). In addition, the user event control section 54 controls a user event (change of the user event signal (a), the user event signal (b), and the user event signal (c)). According to the marks / description commands / variables used in the above reproduction control information, the following information will be provided from the EN AV interpretation section 5 6 to the video image and / or sound output control section 5 9: — ”Layout control signal 〃, use To control the layout of the video image to be displayed on an external monitor unit (not shown): the size of the video image; the output timing of the video image; 'the output time of the video image and / or from an external Speaker (not shown) The level of the volume of the reproduced sound; the timing of the sound output; and the timing of the sound output. Component Decoder -22- (20) 1239514 The Component Decoder 58 is used to decode the content contained in EN AV content, such as sound, still images, text, or animation. This solution includes a sound decoder, a still image decoder, a text decoder, and an animation decoder corresponding to the decoding target. For example, audio data encoded in MPEG1 in EN AV is coded by a sound decoder, and the decoded sound data is converted into uncompressed sound data. In addition, still image data encoded with M p E G 2 or J p E G is decoded by a still image decoder, and the decoded data is converted into uncompressed image data. Similarly, the data encoded with MPG 2 is decoded by an animation decoder, and the decoded data is replaced with an uncompressed type of animation data. In addition, the text data contained in ENAV is decoded by a text decoder, and this decoded data is converted into text image data 'which can be superimposed on an animation or still image. The video image and / or sound data containing these encoded audio data, image data, moving materials and text image data are supplied from the decoder 58 to the video image and / or sound output control sound. Video image and / or sound output control section Video image and / or sound output control section 5 9 Switches and selects the video image and / or sound data encoded by the borrowing decoder 5 8 and the video image output by the video reproduction section R And / or audio data, or, on the one hand, appropriately combine them. The control section includes a video image output control section and a sound output control section. The data decoder decodes the content to decode the audio data. It is borrowed into the animation and is being transferred. The image data element 5 59 is repackaged by the original DVD -23- (21) 1239514 The video image output control unit 5 9 includes the following: Functions: The function of selecting a video image from the D v D video reproduction section R or the ENAV reproduction section E; the function of changing the size of the video image and / or moving the position of the image; and the simultaneous output of both video images Its function. Specifically, the control unit 59 may include a digital video image mixer and / or switch. The structure of the video image output control section 59 in the ENAV playback section E can perform any of the following functions: output a video image from the DVD video playback section R (full video mode); output a video image from the ENAV playback section E (full video mode) ENAV mode); a video image is output from the DVD video reproduction section R and a video image is output from the ENA V reproduction section E to be combined with each other (mixed frame mode). These functions are generated based on the `` video and / or sound output control signal '' output from the ENAV interface section 55 and / or the `` layout control signal '' output from the EN AV reading section 56. In addition, the video image output control section 59 has the following functions: (1) When only a video image is output from the DVD video reproduction section R and no video image is output from the ENAV reproduction section E, the video from the DVD video reproduction section R is selected. A video image is output as a video image of a DVD video player; (2) When only a video image is output from the ENAV reproduction section E, and a video image is not output from the DVD video reproduction section R, select one from the ENAV reproduction section E The video image is output as the video image of the] dVD video player; (3) Switching and selecting from the DVD video reproduction according to the output method selected by the user operation section 53 users-24-1239514 (22) method The video image output from the part R and / or the video image output from the ENAV reproduction part E is output. And 'this control section 59 can start or end the output of a video image at a specific timing by a layout control signal; continuously output a video image for a specific time; or output a sound image at a specific object position (such as Chapter number or time information). In addition, the sound output control section 59 has the following functions: a function of selecting a sound from each of the D VD video reproduction section R and the ENA V reproduction section E; performing a volume level change and / or mixing individual sounds; and combining these sounds The composition is output. Specifically, the control unit 59 includes a digital sound mixer and / or switcher. That is, the structure of the sound output control section 59 can perform any of the following functions: output a sound from the DVD video playback section R; output a sound from the ENAV playback section; combine and output the DVD video playback section R and the ENAV playback section ESelected sounds. These functions are generated based on the 'video image and / or sound output control signal' output from the ENAV interface section 5 and / or the 'layout control signal' output from the ENAV interpretation section 56. For example, when the sound from the DVD video reproduction section R and the sound from the ENAV reproduction section E are outputted to be combined with each other, the sound output control section 59 can adjust and mix the levels of these sounds and output these sound data. In addition, the sound output control section 59 also has the following functions: (1) When only a sound is output from the DVD video playback section R, and no sound is output from the ENAV playback section E, the DVD video playback is selected -25- ( 23) A sound output from 1239514 part R is used as sound data of the DVD video player; (2) When only a sound is output from ENAV reproduction part E and no sound is output from DVD video reproduction part R, choose to play from ENAV reproduction part A sound output of E is used as sound data of the DVD video player; and (3) switching and selecting the sound output from the DVD video reproduction section R and / or according to the output method selected by the user of the user operation section 53 The sound is output from the ENAV reproduction unit E. Moreover, the control unit 59 can start or terminate the output of a sound at a specific timing by a layout control signal; continuously output a sound for a specific time; or output a sound (such as a chapter return number or Time information). Interface Internet communication section 62 is an interface for receiving ENAV content from communication lines such as the Internet, and providing reproduction control information contained in the received content to a ΝΑ V through a buffering step 5 7 Interpretation Department 5 6 on. Furthermore, the communication unit supplies the data (such as sound data, still image data, text data, or animation data) included in the received ENAV content to the component decoder 58 through the buffer unit 57. Moreover, the interface function 'ENAV reproduction section E has the following function: the reproduction control information included in the ENAV content read by the DVD video disc' is provided to the ENAV interpretation through the buffer section 57. Part 56; and provide the data (such as sound data, still image data, text data or motion picture data) contained in the ENAV content read. Setting the operation mode In the optical disc device A of the present invention, as shown in FIGS. 4A and 4B, the structure information parameters of the player are changed in order to set whether to select one of the D V D reproduction function and the Internet connection function operation mode. Figure 4 shows an enhanced DVD compatible player, and Figure 4B also shows an enhanced DVD compatible player. This player has an internet connection capability, and the choice of setting other functions can be changed to an operation mode by changing the structure information of the expandable player. That is, the optical disc apparatus A of the present invention can perform the reproduction of the enhanced DVD video disc shown in FIG. 2 and the conventional DVD video disc shown in FIG. 3. Therefore, when the enhanced DVD video disc shown in FIG. 2 is reproduced, both the DVD content and the ENAV content can be reproduced as an enhanced DVD video disc, and only the DVD video content can be reproduced as a DVD video disc. Such regeneration is assumed to occur when a user makes a choice or a device makes a choice. In the existing DVD video player, when a reverse area is enlarged to P_CFG_ENAV and a DVD video disc is reproduced, a parameter (P-CFG) representing the structure information of the player in the player will become invalid. An operation mode is set to reproduce and enhance a DVD video disc (based on reproduction information on ENAV content) or a DVD video disc (based on reproduction of management information on DVD content). For example, the operation mode is set as follows: Strong 4 A, strong performance, y, video production, and video production. • 27- (25) 1239514 P_CPG —EWAV = 〇b: DVD video disc reproduction lb: Enhanced DVD video disc In the existing players, in which the enhanced DvD video cannot be reproduced (where ENAV content cannot be reproduced), the image representing a reverse zone has been created again. As shown in Figures 4 A and 4 B, a player in which enhanced DVD video can be reproduced (that is, enAV content can be reproduced) can be set to represent a DVD video disc, 〇b 〃 or enhanced 0v D video disc Film regeneration 1 b 再生. This is obtained by reflecting the user's preference to a set of device setting menus and the like as P-CFG_ENAv. On the other hand, the player can automatically switch the 値 of P-Cdg_enav. In addition, the optical disc device A of the present invention includes an Internet communication section 62. This disc device can download ENAV content from the dedicated server to the buffer unit 57 and reproduce (decode) the ENAV content. At this time, as an operation mode, the parameter (P-CFG) representing the structure information of the player maintained in the player is expanded to P-VFG_WEB in order to select whether to connect to the Internet. Or on the other hand, it can be discerned whether an Internet connection is to be made or an Internet connection function exists. For example, the method of setting the Internet connection is as follows: P —CFG —WEB = Ob: No Internet connection 1 b: With Internet connection As shown in Figure 4 A, enhanced DVD without Internet connection function In compatible players, '' Ob〃, which represents a reverse zone, has been set to an unoccupied area. As shown in Figure 4B, in an enhanced DVD-compatible player with Internet connection function -28- (26) 1239514, it can be set to "Ob 〃" to indicate that no Internet connection has been implemented. Or set to '' 1 b 〃 to represent Internet connection. The enhanced DVD compatible player with the Internet connection function shown in FIG. 4B can automatically set a P — CFG — WEB 値, and the user can manually set this 値. For example, the user can identify a network status, choose whether to perform an Internet connection on a device setting menu, and reflect this as P_CFG__WEB. On the other hand, the player can automatically distinguish a network status and automatically switch —P_CFG_WEB 値. This is effective when the connection to a server cannot be established for any reason (for example, the server of the connection destination is not started). (Operation of the optical disk device) The optical disk device of the present invention has the above-mentioned structure, and the operation of the optical disk device having such a structure will be described in detail using a number of flowcharts. Operation During Startup The startup operation of the optical disc device A of the present invention will be described with reference to a flowchart of FIG. First, in the flowchart of FIG. 5, when the DVD video player is started and a disc is inserted (step S 10), the player refers to whether or not many parameters indicate the structure information of the player maintained in the player. A parameter (P-CFG-WEB) for implementing an Internet connection (step S1. In the optical disc device A of the present invention, in the stage of setting the initial operation mode, an operation mode is implemented to determine whether an Internet connection is generated. With this -29- (27) 1239514, the above parameters are changed. Moreover, in the Internet connection, a temporary connection mode is provided to temporarily implement the connection during each connection operation, and a full connection mode is used when When the power is turned on, the connection is 'so that the user can choose freely. At this time, in the case of P — CFG — WEB = 0 b', it can be discriminated whether the inserted disc is a DVD video disc or an enhanced DVD. Video disc (step S 1 6). As shown in Figures 2 and 3, the 'DVD video disc only contains DVD video content with a DVD video area, and the enhanced DVD video disc contains DVD video content and ENAV content in another recording area. When the discriminating result is a DVD video disc, that is, the same situation as the existing DVD player, the management information in the DVD video disc is read, and according to the management information contained in this management information, The first PGC is played and playback is started (step S17). In the case where the discriminating result is an enhanced DVD video disc, from the parameters maintained in the DVD player indicating the player structure information, a reference is made to whether a DVD is implemented Parameter (P_CFG — ENAV) for video disc reproduction or enhanced DVD video disc reproduction (step S18). At this time, when P_CFG — ENA = Ob, that is, in the case where DVD disc reproduction is implemented (step S1 7). As described above, the management information in the DVD video disc is read, and the reproduction is started according to the first playback PGC included in this management information. When P —CFG —ENA = lb, that is, among them In the case where enhanced DVD video disc reproduction is implemented (step S 1 9), according to a startup file (for example, -30- (28) 1239514 DVD — existing in the ENAV directory — ,, index htm &quot; files '' index, sml〃 file) 'This file is already scheduled for the enhanced dVd video disc. On the other hand, in step sii, the inserted case is first identified by the same situation as p —CFG —WEB = lb'. Whether the disc is a DVD video disc or an enhanced DVD video disc (step S12). When the discrimination result is limited to a DVD video disc, no e NAV content exists in the disc. Therefore, the E N A V content (network content) downloaded from a specific web server via the Internet is reproduced (step S15). The network content reproduction processing in step S 1 5 will be described later by a flowchart of FIG. 8. On the other hand, when the discriminating result is an enhanced DVD video disc, 'from the parameters maintained in the DVD player indicating the structure information of the player', a reference is made to whether a DVD video disc reproduction or an enhanced DVD video disc is implemented The reproduced parameter (p_CFG_ENAV) (step S13). At this time, when P_CFG —ENAV = 〇b, that is, in a case where DVD video disc reproduction is implemented, ENAV content (network content) downloaded from a specific network content distribution server via the Internet It will be reproduced without the ENAV content in the disc (step S 1 5) ° in step S 1 3 'When P_CFG_ENA = 1 b, that is, in the case where enhanced DVD video disc reproduction is implemented (Step S 1 8), according to ~ the startup file determined in advance in the enhanced DVD video disc (for example, one, index existing in the DVD_ENAV directory). htm 〃 file or, '! 11 (1 ^. 51111 (Archives). That is, first, the boot file in the disc is read -31-(29) 1239514, and according to the read, the ENAV content in the disc or the EN AV downloaded from a specific web server via the Internet The content (for the sake of clarity, hereinafter referred to as web contents °) is reproduced (step S 1 4) 〇 The operation of reproducing ENAV content containing web content is now used to reproduce the step containing FIG. 5 The operation of the Internet content in S14 will be explained with reference to the flowchart of FIG. 6. As described above, first, a boot file (for example, one directly under the DVD_ENAV root directory "index. htm "file or an" i n d e X. The s m Γ file is read (step S 2 2), and reproduction is performed based on the read. This startup file is written in a markup language such as HTML / XHTML or SMIL, or in a description language such as ECMA letters or JAVAScript. This file refers to ENAV content on disc or web content distribution server S. If the request to reproduce the network content is not provided to the startup file (step S23), the reproduction of the ENAV content on the disc is implemented (step S 2 4). However, if a request is made to reproduce network content, and ENAV content on the network content distribution server S is subject to the startup file. A reference to address information or authentication information, where the startup file is a markup / description language 3 1 that enhances, for example, guiding content in a disc, by the operation of the user event control section 5 4 and the Internet communication section 6 2 , You can enter the network content distribution server S. Then, according to the authentication information stored in the startup file or the decoded data having the following content, a -32-1239514 (30) authentication work for downloading the network content is performed (step S 2 5). When a disc is first inserted in the flowchart of Fig. 5, this authentication process can be performed without waiting for user operation. Therefore, the 'user can order to reproduce the disc content and download the ENAV content from the network content distribution server S via the Internet. In addition, referring to Figs. 9A to 9D, when the DVD content in the disc and the ENAV content of the network are combined with each other, the user can obtain a video image. In the case of successful identification, the optical disc device compares the E N A V content on the disc with the E N A V content on the web server. For example, by using the time stamp or version number of each file, a comparison can be made to confirm which file is the newer one. If the Internet content is not a newer form compared to the ENAV content on the disc (step S26), the ENAV content on the disc will be reproduced (step S27) without downloading to the disc. Otherwise, the download operation of the referenced network content is performed (step S28). When the download is complete (step S 2 9), the downloaded network content can be reproduced (step S30). In the authentication operation of step S 2 5, if the authentication is unsuccessful, the reproduction of the E N A V content recorded on the disc will be carried out instead (step S 31, step S 3 3). At this time, when the reproduced ENAV content does not exist on the disc, an error message is displayed to notify the user that the ENAV content cannot be reproduced (step S32 2). In the download operation, in the case where the download fails due to any reason (such as canceling the connection) -33- (31) 1239514, the reproduction of the ENAV content recorded on the disc is carried out instead (step S33). In the case where the ENAV content to be reproduced does not exist on the disc, an error message is displayed so as to notify the user that the ENAV content cannot be reproduced (step S32). FIG. 7 shows the ENAV that does not contain network content Sample structure of content. ENAV content includes: a markup language of HTML / XHTML or SMIL, data for controlling reproduction of ENAV content described in ECMAScript or JAVAScript, image data such as animation or still images, and sound data. In order to control the reproduction of ENAV content, in addition to the above-mentioned materials with ENAV content structure, reference can also be made to the materials on DVD video content. For example, in FIG. 7, a startup file is recorded on a disc. In this file, you can refer to one of the internal parameters of the player P — CFG — WEB 値. When P_CFG —WEB = Ob, BeiJi will not implement Internet connection, and read the data recorded on the disc to control the reproduction. When P_CFG_WEB = lb, an Internet connection (network connection) is implemented, and the data for controlling reproduction on the network content distribution server is read by downloading. These operations are written in a description language, etc. In this way, a player in the case where P_CFG_WEB = Ob has been set (existing DVD player, enhanced DVD compatible player without Internet connection function, or one with but not activated Internet connection function Enhanced DVD compatible players, etc.) will read data recorded on the disc to control reproduction. All ENAV-34- (32) 1239514 contents referenced in this material will be recorded on a disc and all will be reproduced. On the other hand, a player in which P — CFG-WEB = lb has been set (enhanced DVD-compatible player with Internet connection enabled) will read the network content distribution server by downloading The device S controls reproduction data. The ENAV content referred to in this material is the ENAV content on the reference network content distribution server S or the ENA content on the disc. By placing ENAV content on a network, an Internet-connected player can always read the latest data. At this time, for the unchanged data, the data on the disc is read based on the data for controlling reproduction. Operation for Regenerating Network Content Now, the operation for regenerating network content in step S15 of FIG. 5 will be explained. This operation assumes that one of the DVD video discs with ENAV content does not exist on the disc, or an enhanced DVD video disc with ENAV content but is not used. In the flowchart of FIG. 8, first, in an optical disc device a, a network content distribution server S is entered, and there is content corresponding to the inserted DVD disc. At this time, the method for specifying the network content distribution server δ includes the following: (1) 丨 #Manually use a device setting menu of the optical disc device to enter information (such as a URL address Or IP address), this information type is included in the network content distribution server s to be accessed (step S4 1) ° -35- (33) 1239514 (2) The disc device reference network server information exists in In a specific part of the disc (for example, the video management information VMG21 contained in the DVD video area 13 of the DVD video disc), and the URL address or IP written in the markup / description language 31 stored in the startup file The address is ENAV content in the other recording area 14 of the DVD video disc) (step S42). (3) The optical disc device first enters a specific database server B, as shown in FIG. 11. This disc device then uses DVD information (for example, DVD video disc management information VMG21, or part of the video title set 22 for object information) to specify the web server (network content distribution) corresponding to the disc Server) addresses of S 1 to S 3 (step S 4 3). The optical disc device A will enter the network content distribution server S specified above (step S44) and perform an authentication operation in order to download the entered network content distribution server S and network content. Then, in the case where the authentication is successful (step S45), the operation of downloading ENAV content from the server S is started (step S46). When the download is completed (step S47), the reproduction of the ENAV content can be performed (step S48). If the authentication fails or the download fails (for example, the connection is cancelled), an error message will be generated to notify the user that the ENAV content cannot be reproduced (step s 4 9). Reproduction and combination of ENAV content The downloaded ENAV content can be displayed independently or mixed with DVD content on the disc or ENAV content on the disc. Figures 9A to -36- (34) 1239514 9D show the disc content and EN A V content from the network by the disc device of the present invention. FIG. 9A shows a screen on which a disc video content or an ENAV content is displayed. Figure 9B shows a screen with a small window showing the disc video content or ENAV content D, with the ENAV content for network distribution as the background. Figure 9C shows a screen with ENAV content for network distribution displayed on a small window. Figure 9D shows a screen with ENAV content W displayed for network distribution. That is, in the case where the downloading is completed in step S46 of FIG. 8, the reproduction of the ENAV content is performed in step S48, and at least four of the above-mentioned cases can be displayed. That is, the ENAV content distributed from the network content distribution server S via the Internet communication section 62 is decoded by an ENAV interpretation section 56 and the corresponding ENAV instruction is provided to the ENAV interface 5 And it is supplied from the buffer part 57 to the element decoder 58. Then, the video image and / or sound data is supplied to a video image and / or sound output control section 59. On the other hand, the user event control section 54 receives an operation signal from a user operation section 53, or operates an output mode selection switch 1 〇2 of the remote control 1001, thereby supplying a control signal to the video The video and / or audio output control unit 59 performs switching between the four situations (a), (b), (c), and (d). The video image and / or sound output control section 59 appropriately combines the audio data with the video image and / or sound data from the component decoder 58 and generates a composite video image of (b) and (c). Then, “this control unit selectively outputs the desired video image data and sound data according to the control signal from the user event control unit 54” (35) 1239514. In addition, it is possible to output either the E N A V content in the disc or the ENA V content distributed on the network according to an operation signal, without using the DVD content in the disc. In this way, in the optical disc device A of the present invention, in addition to the DVD content or ENAV content stored in the optical disc d ′, the ENA V content distributed from the network content distribution server S can be displayed independently, or Mixed display with DVD content or ENAV content on the disc. At this time, as will be explained later, the process of accessing the network content distribution server S is implemented according to the address information stored in the disc. In addition, an authentication process is performed based on the information stored on the disc '. Therefore, if the disc is not provided, the evaluation of ENAV content cannot be achieved. In this way, according to the present invention, there is provided an optical disc device, an optical disc processing method, and an optical disc, which can use high-value-added enhanced guidance content from a network content distribution server S via a communication line, and include the The information in the movie is still highly secure. Personal identification and purchase procedures and 'According to the present invention, when the Internet valley is reproduced in step S48 according to the flowchart of FIG. 8, it is provided via an IC card interface 6 3 shown in FIG. 1 or provided in FIG. 15. Interface of the remote control ι〇1, and insert a 1C card with personal identification information stored in it to read personal information. In this way, it is very easy to perform a personal authentication process for the web content distribution server S. For example, you can easily implement the shopping process to purchase the information in the DVD-38-1239514 (36) This information is the result of the ENAV content reproduction shown in Figure 9D. Therefore, the user installs a disc on the disc detection section 6; of the optical disc device A of the present invention, so as to reproduce the disc, so that it can automatically connect to the Internet according to the address information contained in the disc, and The authentication step is performed automatically, and then the ENAV content can be downloaded from the network content distribution server S. Therefore, as shown in FIG. 9C, the user can see a composite image of the content related to the reproduced video image. Then, according to the personal identification information from the above-mentioned IC card 108, a screen can be entered to purchase the related disc, as shown in FIG. 9D, so that the purchase process can be implemented. ENAV Content Figure 10 shows an example of the structure of ENAV content (network content) obtained from the network content distribution server S. ENAV content contains: materials used to control the reproduction of ENAV content, these ENAV content are written in the above markup language (HTML / XHTML or SMIL) or description language (ECMA letters or JAVAScript); video materials such as animation or still images ; And audio materials. For the materials controlling the reproduction of ENAV content, in addition to the materials used to construct the above ENAV content, reference may also be made to the data on the DVD video content itself. This example is assumed to be a DVD video disc or an enhanced DVD video disc, which only refers to a DVD video area. Therefore, as for the data for controlling the reproduction, only the ENAV content obtained from the network content distribution server S or the DVD video content recorded on the disc can be referred to. -39- (37) 1239514 Authentication process Now, the procedure of the authentication process will be described with reference to the flowchart of FIG. 12 'This authentication process is implemented on a disc device A with a network connection function and a network capable of distributing ENAV content The content is distributed between servers S. This identification processing is shown in steps S 2 5 and S 4 5 in FIG. 6 or similarly to FIG. 8. In this flowchart, first, the optical disc device A sends a distribution request to the network content distribution server S to request the specified ENAV content (step S 51). The network content distribution server that has received the distribution request The device (step S52) then generates a request to send the inspection data (authentication information) for performing the authentication in order to perform the authentication process to check that the optical disk device A that has been requested for distribution is from an ordinary DVD video disc Alternatively, the DVD video disc is enhanced (step S52). As an example of inspection data (identification information), some of the data contained in a DVD video disc and / or an enhanced DVD video disc can be used. For example, a part of the control data contained in the lead-in area 11 or a part of the data on the video management information V M G 21 may be used. Moreover, in most DVD video content, the data is encoded. As the inspection data, after the data on the DVD video content has been decoded, a part of the data on the DVD video content can be used, thereby enabling an ordinary DVD player and an ordinary DVD video disc and / or enhanced DVD video to be used. Confirm identification information on the disc. Therefore, in the optical disc device, after decoding the encoded information contained in the DVD disc (which can be a video title set 22 of the DVD video content-40- (38) 1239514, or an animation data of the ENAV content 32), The obtained data will be transmitted to the network content distribution server as inspection data (authentication information) (step S 5 3). After the network content distribution server S has performed a syntax analysis on the authentication check data transmitted from the optical disc device A, when the data is determined to be valid, the server requests to specify the DVD video disc and / or the enhanced DVD Inspection data of the title of the video disc (step S 54). For example, the inspection data is transmitted by a part of the control data contained in the lead-in area 11, a part of the data on the video management information VMG21, or a part of the data on the DVD video content after decoding (step S5 5) . In addition, the inspection data may be compatible with the inspection data for identification. The network content distribution server S can analyze the data by grammatical analysis. The check data is transmitted from the optical disc device A for specifying the title, and then the database provided by the network content distribution server S is used to indicate insertion Title of the DVD video disc and / or enhanced DVD video disc in optical disc device A. Then, the network content distributor S sends the ENAV content corresponding to the title of the DVD video disc and / or the enhanced DVD video disc to the optical disc device A (step S56). Then, the optical disc device A stores the received ENAV content in the Internet buffer section (step S 57). At this time, as the ENAV content to be distributed, the encoded ENAV content may be distributed, or the decoded ENAV content may be distributed. However, in the case where the encoded ENAV content is distributed, the content must be decoded in the optical disc device A. For example, 'ENAV content on the buffer area is decoded by key information recorded in the disc -41-1239514 (39) (step S 5 7). The decoded EN A V content can then be reproduced and output for mixing with the D V D video content, or it can be output and reproduced independently. Here, the encoded content in the disc has been decoded as authentication information, that is, inspection data. In addition, dedicated authentication information can be provided as DVD content or ENAV content on the disc. As long as the authentication process is performed using the information stored on the disc, its security can be ensured. Encoding and / or Decoding Process The encoding and / or decoding process in step S 5 7 of FIG. 12 will be described below with reference to FIG. 13. The ENAV content placed in the network content distribution server S is pre-encoded (as key information) by using the data contained in the DVD video disc and / or the enhanced DVD video disc. As the above-mentioned key information ', a part of control data contained in the lead-in area 11 can be used. For example, on a part where the data coding on the video management information VMG21 is not implemented, or on a part where the coding of the video title group VTS 22 is not implemented. In this way, even if the disc device A has received ENAV content, the ENAV content cannot be decoded unless a normal DVD video disc and / or enhanced DVD video disc has been inserted. Therefore, regeneration cannot be performed. The optical disc device a which has received the encoded ENAV content stores the ENAV content in the buffer section 57 and then performs a decoding operation. As long as the DVD video disc and / or enhancement corresponding to the received ENAV content is 1239514 (40) when the DVD video disc is inserted into the optical disc device a of the present invention, the optical disc device A is always sufficient to have a DVD video disc and / Or enhance the key information contained in the dv D video disc. The optical disc device A decodes the encoded ENAV content stored in the buffer section 47 by the golden mirror information, and stores them in the buffer section 57. In this way, security can be maintained, and ENAV content can be transferred from the content distribution server s to the optical disc device a. Full Authentication Process Now, the procedure of automatically performing the above-mentioned authentication process in a predetermined cycle in a repetitive manner will be described, whereby the recording content can be cancelled when and after the disc has been removed. That is, in a repeating manner and within a predetermined period, the request allocation in step S51, the check requirement data in step S52, the decoded data transmission in step S53, and the completion authentication processing in step S54 are implemented, and so on. It is possible to monitor that the disc is always stored. As a result, the identification processing can be performed a plurality of times. With this process, if the disc is removed, the result of the authentication process is set to invalid, so the recorded content containing EN A V content cannot be obtained, so higher security can be ensured. According to the method shown in the flowchart of FIG. 14, after the authentication process has been completed, when it is checked that the disc has been removed by the user's operation (step S6 1), the authentication status is assumed to be used by the user at this time. The determination by the event control unit 54 is cancelled. Then, the state of being connected to the network distribution server S is canceled (step S61). Then, playback of the DVD video content -43- (41) 1239514 (step S 6 3) can be performed to perform playback that does not include network content (step S64), or only a connection that does not require it. With the method shown in Figure 14 above, as in the re-authentication process, it is possible to ensure the security to be allocated. As described in detail above, in addition to the information stored in the disc according to the present invention, the ENAV content distributed by the network S via the communication line and the information contained in the disc can be linked with the DVD. Independent regeneration. In addition, the storage and retrieval processing and identification processing can be performed according to the disc. Therefore, no disc information is available. Therefore, a high degree of security is ensured and the extensible information can be increased. According to the embodiment described above, many modifications are made to the well-known technique. Therefore, the present invention exemplifies the above embodiments. According to the above, the present invention is provided with an optical disc device and an optical disc, which can use extensible information via a communication line and within the disc. [Brief description of the figure] FIG. 1 is a block diagram showing an example of the optical disc of the present invention; the network for ENAV content processing within the ENAV is based on the preparation and disc of the ENAV content that is reloaded within a predetermined period. To allow for mixed or available information, the implementation depositor cannot ask for the distribution of those with a high degree of attachment, but it can be safely not limited to only one disc processing method of information
E-44-1239514 (42) Figure 2 is a graphic showing the structure of the optical disc operated by the optical disc device of the present invention; Figure 3 is a graphic showing the optical disc operated by the optical disc device of the present invention Features of the optical disc example; Figures 4 A and 4 B are graphs each showing an example of internal parameters of the optical disc device of the present invention; Figure 5 is a flowchart showing an operation example when the optical disc device of the present invention is started; Figure 6 is A flowchart 'shows an example of ENAV content generation processing including the network content of the optical disc device of the present invention; FIG. 7 is a diagram showing a structure example of the enaV content processed by the optical disc device of the present invention; FIG. 8 is a flowchart showing the present Examples of regeneration processing of network content of the invented optical disc device; Figures 9A to 9D are graphics showing the content of the optical disc and ENAV content from the network operated by the optical disc device of the present invention; and Figure 10 is a graphic showing the optical disc device of the present invention An example of the structure of the processed network content; Figure 11 is a graphic showing the use of the optical disc device of the present invention to connect to the network content distribution server via a database server Figure 12 is a flowchart showing an example of communication with the network content distribution server of the optical disc device of the present invention; Figure 13 is a graphic showing the ENAV content encoding and / or of the optical disc device of the present invention Decoding process; (43) 1239514 FIG. 14 is a flowchart showing an example of a disc ejection process of the optical disc device of the present invention; and FIG. 15 is a graph showing an example of a controller of the optical disc device of the present invention. Main component comparison table 11 lead-in area 12 volume space 13 DVD video area 14 other recording area 15 lead-out area 16 first logical sector 2 1 video management information 22 video title group 23 video title group 3 1 markup / description language 3 2 animation Data 3 3 Still image data 34 Audio data 3 5 Font data 5 1 Decoder part 52 DVD video playback control part 5 3 User operation part 54 User event control part 5 5 ENAV face
-46-ENAV Interpretation Section Buffer Section Component Decoder Video Video and / or Sound Output Control Section Disc Detection Section Internet Communication Section 1C Card Interface Remote Control Output Mode Selection Switch Input Key Operation Switch Release Key Cursor Key Decision Key 1C Card-47-
1239514 (1) Pickup and patent application scope 1. An optical disc device for reproducing at least one of video image and sound information from an optical disc, the optical disc device includes: a control section, based on the address information read from the optical disc And identification information for providing access to a specific server via a communication line for implementation (identification processing to obtain extensible information from the specific server; and a reproduction section for reproducing and outputting the information obtained by the control section资讯 2-As in the optical disc device of the first scope of the patent application, the reproduction unit simultaneously generates composite information for reproducing at least one of the video image and sound information reproduced from the optical disc, and reproduces the control. The extensible information obtained by the Ministry of Education. ^ 3. For the optical disc device in the scope of patent application item 2, wherein the reproduction unit selectively outputs one of the video image and sound information, the extensible information, and the composite according to an operation signal. 4) For example, the optical disc device in the first scope of patent application, in which when the extensible information read from the optical disc is equal to the control When the extensible information obtained by the production department is compared, the reproduction unit compares the two extensible information with each other, and is characterized in that when it is judged that the extensible information obtained by the control unit is compared with that read by the optical disc When the extensible information is still new, the reproduction department will output the extensible information obtained by the control β department, instead of the extensible information read from the optical disc. 5 · For example, the optical disc equipment in the first scope of the patent application, where When the disc is removed, the reproduction unit will invalidate the identification processing result of the control unit, -48-(2) 1239514, and when or after the disc has been removed, the extensibility cannot be obtained from the specific server of the control unit 6. For example, the optical disc device in the first scope of the patent application, in which by using the key information read from the optical disc, the reproduction department decodes the extensible information obtained by the control department. 7. If the scope of the patent application The optical disc device of item 1, wherein the control unit can enter a specific server through a communication line to perform authentication based on the address information and identification information read from the optical disc. And then perform personal identification based on the user's personal information. 8. For the optical disc device under the scope of patent application item 7, wherein after the personal identification, the control section implements the process of purchasing an item based on the extensible information. 9 For example, the optical disc device under the scope of patent application No. 7 in which the control section reads personal information from a recording medium with personal information in order to implement personal identification. 1 0. — A method for processing a disc, including the following steps: Reading from a disc Take out the address information and identification information; enter a specific server through a communication line according to the read out address information and identification information, so as to perform the identification process; according to the result of the identification process, obtain from the specific server Extensible information; and regenerating and outputting the obtained extensible information. 11. The optical disc processing method according to item 10 of the patent application scope, wherein the reproduction step can simultaneously generate composite information for reproducing at least one of the video image and sound information generated from the optical disc-49- (3) 1239514 'And reproduce the extensible information obtained by the control unit. 12. The optical disc processing method according to item 11 of the scope of patent application, wherein the reproduction step selectively outputs one of video image and audio information, extensible information, and the composite information according to the operation signal. 1 3. If the method for processing a disc in item 10 of the scope of patent application, wherein when the extensible information read from the disc is equal to the extensible information obtained by the control section, the reproduction process will extend these two extensible The information is compared with each other, and when it is determined that the extensible information obtained by the control section is newer than the extensible information read by the optical disc, the reproduction process outputs the extensible information obtained by the control section, and Replaces extensible information read from the disc. 14. If the disc processing method of item 10 of the scope of patent application is applied, when the disc is removed, the reproduction process will invalidate the identification processing result of the control section, and when or after the disc has been removed, it cannot be used. Get extensible information from specific servers in the control section. 15 · For the optical disc device under the scope of patent application No. 10, the reproduction process decodes the extensible information obtained by the control unit by using the key information read from the optical disc. 16. The optical disc processing method according to item 10 of the scope of patent application, wherein the authentication process can enter a specific server through a communication line based on the address information and authentication information read from the optical disc, and then according to the use Personal identification of the individual. 1 7 · If the disc processing method of item 16 in the scope of the patent application, -50- (4) 1239514 After personal identification, the control unit implements the process of purchasing an item based on the extensible information. 18. The optical disc processing method according to item 16 of the scope of patent application, wherein the authentication step reads personal information from a recording medium having personal information 'in order to perform personal authentication. 1 9. An optical disc, characterized in that video content is stored in a first area, and address information and identification information used to obtain extensible information are stored in a second area via a communication line.
TW92121208A 2002-08-14 2003-08-01 Optical disk apparatus and optical disk processing method and optical disc TWI239514B (en)
JP2002236618A JP2004079055A (en) 2002-08-14 2002-08-14 Optical disk device, optical disk processing method, and optical disk
TW200412579A TW200412579A (en) 2004-07-16
TWI239514B true TWI239514B (en) 2005-09-11
ID=30768049
TW92121208A TWI239514B (en) 2002-08-14 2003-08-01 Optical disk apparatus and optical disk processing method and optical disc
US (1) US20040126095A1 (en)
EP (1) EP1389777A3 (en)
JP (1) JP2004079055A (en)
KR (1) KR100584708B1 (en)
CN (1) CN100355278C (en)
TW (1) TWI239514B (en)
PL375841A1 (en) * 2002-10-17 2005-12-12 Samsung Elektronics Co, Ltd. Data storage medium having information for controlling buffered state of markup document, and method and apparatus for reproducing data from the data storage medium
JP2008511942A (en) * 2004-08-30 2008-04-17 コーニンクレッカ フィリップス エレクトロニクス エヌ ヴィ Provision of pre-recorded content and additional content
JP2008525939A (en) * 2004-12-29 2008-07-17 コーニンクレッカ フィリップス エレクトロニクス エヌ ヴィ Apparatus and method for reproducing optical disk
JP4387962B2 (en) 2005-02-18 2009-12-24 株式会社東芝 Content reproduction apparatus, content reproduction method, and program
JP4876504B2 (en) 2005-09-27 2012-02-15 株式会社日立製作所 Playback apparatus and playback method
CN101390165B (en) * 2006-04-27 2012-06-20 三菱电机株式会社 Reproducing device for optical type recording medium, reproducing method for optical type recording medium
EP1865722A1 (en) * 2006-06-07 2007-12-12 Sony NetServices GmbH Video-on-demand system
KR100969255B1 (en) * 2008-08-26 2010-07-09 김봉춘 System and method of deodorization
JP2014106987A (en) * 2012-11-27 2014-06-09 Sharp Corp Information distribution system, terminal device, and server
KR20170039921A (en) 2015-10-02 2017-04-12 주식회사 에스에이치디디알 odor removing equipment for dryer
JPH08317148A (en) * 1995-05-23 1996-11-29 Minolta Co Ltd Image reader
DE69736137T2 (en) * 1996-03-15 2007-04-19 Gemstar Development Corp., Los Angeles Method and device for displaying television programs and associated text
CN1126342C (en) * 1997-12-22 2003-10-29 意符设计有限责任公司 Method and devices for transmitting and displaying data and information
CA2388558A1 (en) * 1999-04-21 2000-10-26 Research Investment Network, Inc. System, method and article for tracking the distribution of content electronically of a laser-disc-medium
AU2097102A (en) * 2000-12-20 2002-07-01 Koninkl Philips Electronics Nv Apparatus and method for reading data from a data carrier and data carrier for use in the apparatus and method
2002-08-14 JP JP2002236618A patent/JP2004079055A/en active Pending
2003-08-01 TW TW92121208A patent/TWI239514B/en active
2003-08-05 EP EP03017878A patent/EP1389777A3/en not_active Withdrawn
2003-08-13 CN CN 03127879 patent/CN100355278C/en not_active IP Right Cessation
2003-08-14 KR KR20030056600A patent/KR100584708B1/en not_active IP Right Cessation
2003-08-14 US US10/640,260 patent/US20040126095A1/en not_active Abandoned
TW200412579A (en) 2004-07-16
CN1484445A (en) 2004-03-24
CN100355278C (en) 2007-12-12
EP1389777A3 (en) 2006-06-21
US20040126095A1 (en) 2004-07-01
EP1389777A2 (en) 2004-02-18
KR100584708B1 (en) 2006-05-30
KR20040016425A (en) 2004-02-21
JP2004079055A (en) 2004-03-11