RU2095857C1 - Method for transmission of information using data carrier, data carrying medium and device which reads information from such medium - Google Patents

Abstract

FIELD: transmission of sound and video information using encoded sound or video disk. SUBSTANCE: channel of sub-code in reading-writing unit stores text information of encoded signal which is located near to sound or video signal. This information is split into packets. Packets that store information of different categories are interlaced. When information is read from disk, packets of given category are separated from information that has been read. Such system for transmission of additional information provides possibility to use its own category of packet for different languages so that user may select language he knows better. In addition menu information which stores lines of encoded menu text and command codes are stored in channel of sub-code of reading-writing unit in order to control reading of sound and/or video information of other connected devices in interactive mode. EFFECT: increased functional capabilities. 7 cl, 1 tbl, 9 dwg

Description

 The invention relates to the accumulation of information, in particular to a method of transmitting information using a storage medium on which the main information is recorded along with sub-information, and the set bits of the digital sub-information form a sub-information channel, and after reading the recorded information, the sub-information channel is separated. The invention also relates to an information medium and a device used for such a method.

 A known method of transmitting information using a data carrier, which consists in adding subcode data to the basic information, writing and reading data, followed by reformatting (1).

 Also known is a playback device with encoding for playing an audio digital disc, in which additional text information is recorded in the sub-code channels of the recording-reproduction, which can be displayed (2). The device comprises a demodulator, a processing unit, a processor, a signal converter, one or more playback units.

 The objective of the invention is to facilitate interaction using a device for reproducing a storage medium.

 In accordance with the invention, this goal is achieved using a method characterized in that packets of various categories of information alternating with packets of various categories are recorded in a subinformation channel, and after selecting information, packets of selected categories of information are separated from bits read from the information carrier.

 Using different packages for information of different categories allows you to use your package category for each of the different languages, so that the user can select the language of the text information to be displayed. Since the packets alternate, the average delay time after which the information of the selected category is available is small. In particular, when information is transmitted using sub-code read-write channels of an encoded audio signal, the delay time is very small due to the large number of (75) packets per second that are to be transmitted. This high data rate has the advantage that the same information can be repeated several times without noticeably reducing the delay time, so that transmission reliability is simply increased without any noticeable loss.

 An example of the method implementation is characterized in that in addition to the main category code, the packages contain a subcategory code indicating the subcategory to which the information packets belong, and that the combination of the main category code and the subcategory code are detected in the packages, and the packages in which the identified combination of the main code categories and subcategories corresponds to a given main and subcategories are separated. Using a subcategory of information allows you to transfer different types of information using packages with different types of subcategories. With this approach, the user can make a simple selection of various types of information such as song titles, artist names, and so on.

 Another example of the implementation of the method is characterized in that the predetermined code of the main category defines a blocking function that blocks pre-selected samples of the main category. The use of blocking the main category of information in relation to the pre-selected main category is favorable in that only the channel of the main category should be used to transmit language-independent information, all this when the channel of the specified (blocking) main category is indicated.

 Another example implementation of the method is characterized in that the predetermined subcategory code defines a blocking function that blocks pre-selected subcategory samples. This example makes it possible to send important messages regardless of the selected subcategory.

 Another example of the implementation of the method is characterized in that the packages contain coded lines of text and additional control codes. This example allows you to work so that the reading of information can simply be controlled by the information recorded on the packets. A very attractive control code is a text positional code indicating the position at which the line of encoded text transmitted by the selected packets should be displayed.

 Another example of the implementation of the method is characterized in that the control codes in packets containing encoded text include text positional codes for at least two display devices in which the number of lines that can be displayed is different. The use of two different text positional codes that are assigned to the same line of encoded text allows different display devices to be used, without requiring that for the same information a line of encoded text is transmitted for each display device.

 The method allows you to display the same text on a 21-line display with a cathode ray tube and on a two-line liquid crystal display. In the case of using a device for reproducing encoded video information, the text may be displayed on a television screen, which is usually used in combination with a digital video player. The same text can also be displayed on a two-line display consisting of a coded recording reproducing apparatus or a coded recording reproducing video device when there is no television equipment.

 In addition to codes for controlling the display of encoded text or visual information that are in the process of transmission, control codes can also be transmitted to control the playback device and other peripheral devices via dedicated packets. Very convenient control codes are codes for initiating a read transition to another part of the information track and a command for switching the display to ON or OFF to display text information transmitted using packets.

 Another example of the implementation of the method is characterized in that the sets of information packets of one category form groups, the beginning of each group is indicated by a start code, and after changing the selected category, the separation of packets with information of the newly selected category is delayed until the start code of the packet group with the newly selected information category is selected. This allows you to get a single group of text lines, which is always presented sequentially from a given position on the screen forward, for example, from top to bottom.

 Another example of the method implementation is characterized in that the encoded lines of the menu text and the corresponding codes are recorded in packets and in that the lines and corresponding command codes of the separated packets are stored in the menu memory, the lines of the menu text written in the menu memory are displayed, the displayed menu text line is selected, and as a control code serves a command code stored in the memory and corresponding to the selected line of the menu text, in one of the devices. This device has the advantage that it can be implemented in a simple way by controlling the interaction of the reproducing device.

 Another example of the implementation of the method is characterized in that the packages contain an index code indicating the address where the memory location of the encoded menu and the corresponding command codes should be remembered. This example has the advantage that loading memory to store menu information is simple because the organization of the menu is completely transmitted with other information.

 Another example implementation of the invention is characterized in that the storage medium is a digital disc or digital video disc with a TABLE of CONTENTS recorded on the introductory track preceding the main information tracks in which the main information is recorded, and that the Transition Command and channel are recorded on the introductory track a write-read subcode in combination with functional control codes.

 The invention is further described in more detail by way of example.

 In FIG. 1 and 2 show the data structure of a standardized digital signal; in FIG. 3 an information packet formed from bits of a read / write subcode signal of one block of a standard digital signal; in FIG. 4 sequence of a series of interleaved packets of various categories of information; in FIG. 5-12 an example implementation of a packet data format for use in the method of the invention; in FIG. 13 is an example of a device used in the method of the invention; in FIG. 14 is a diagram of an information track of an information carrier in accordance with the invention.

 In FIG. 1 shows a digital data stream recorded on a CD or in an audio channel of a digital video disc. Each FRAME consists of 588 data recording bits, each FRAME has a frame clock in the header with a specific bit distribution. The sync pulse of the FS frame is followed by the bits of the communication channel restriction RB in the form of three bits. This is followed by the 0-32th bits of the DB data, each of which has fourteen bits, and then three bits of the restriction bits of the RB communication channel can be recorded. Zero bits from among these DB data bits are called a subcode signal and are used to control disc playback and display relevant information or similar data. The first, twelfth, and 17-18th bits of the DB data are for audio data in the main channel. The remaining 13-16th and 29-32th data bits are intended for the parity of the error correction code data in the main information channel. Each group of data bits consists of 14 bits, into which 8-bit data is converted due to the conversion of 8-14 when recording.

 In FIG. 2 shows the state of one BLOCK (98 frames), in which 98 frames are arranged sequentially and in parallel, with each of the data bits represented by 8 bits, and the restrictive bits of the data channel DS are excluded. The read-write subcode signals in the Qth and Ith frames form synchronization structures that are predetermined bit structures. For the Q-channel, CRC codes were introduced to detect errors in the last 16 FRAMES from among 98 FRAMES.

 The P-channel signal is a flag to indicate the music program and pause and has a lower level throughout the music program and a higher level throughout the pause and in the output section has pulses with a period of 2 Hz. You can select and play a given music program by identifying and counting this signal in the P-channel. Q-channel allows for more complex control of this type. For example, when the Q-channel information is entered into the microcomputer available in the disc reproducing apparatus, it is possible to quickly switch from one music program to another while playing the music program; thus, the corresponding music programs can be selected arbitrarily.

 In accordance with the invention, other reading and writing channels are used to translate test information and instructions for mutually controlling the reading of recorded information. The format in which this data is transmitted will be described in detail below.

 Of the 98 bits of the Q-channel, the first two bits are used for the synchronization circuit, the next four bits for bit control, the next 72 bits for data bits, and finally, a CRC code is added to detect the error. The TNR code of the track number and the index code X are included in 72 bits representing data bits. The track number code can vary from 00 to 99, and the index code can also vary from 00 to 99. In addition, the data in the Q-channel contains a time indication code representing the duration of music programs and pauses, and a time indication code representing the absolute duration, which continuously changes from start to finish along the very edge of the area of the CD program. These time indication codes contain a code indicating minutes, seconds, and FRAME, each consisting of two digits. One second is divided into 75 FRAMES. To create a CD, for example, to digital data with a shorter unit base than music, a time indication code is used with respect to the absolute duration indicated above.

 The read and write bits of each BLOCK contain a packet of 96 characters out of every six bits. In FIG. 3, such a package is shown by number 1. Package 1 is divided into four packages 2, 24 characters each, each package is assigned a main category code and a subcategory code indicating the category to which the information in the package belongs. Packages of different categories alternate. The information recorded in packets may be test or visual information displayed on the display, or command codes to control the reading of information.

 In FIG. 4 shows a sequence of alternating packets of different categories. Packages of various categories are indicated by 1a, 1b and 1c, respectively. Packets of the same main category form the main channel. Packets of the same subcategory in the main channel form a subchannel.

 The choice of the main channel can be determined by the language of the text information to be displayed. The application of the sub-information channel can be selected depending on the sub-information categories such as album, track name, track list, artist, etc.

 Using channels of various categories allows you to select the language and category of sub information to be displayed during disc playback.

 In FIG. 5-8 show packet formats 0, 1, 2, and 3, respectively, suitable for transmitting linear encoded text. The 0 character of each packet is used to indicate the type of format. The format shown, designated Mode 2, group 0, is used to transmit an encoded text string of 40 text groups. Bits of symbol 1 and bit 5 of symbol 5 of packet 0 and bit 4 of symbol 4 of packet 3 are used to transmit eight bits (sic 7 sic 0) indicating the sub-information category. The bits (mic 5 mic 0) of character 1 of packet 1 are used to indicate the main category. With this approach, 64 different main categories and 256 different subcategories can be selected. Bit 5 of character 4 of each packet is used to synchronize the packet. Symbols 2, 3 and 20-33 of each package are used to check the error and correct the error. Symbols 6-19 of packet 0, symbols 6-18 and bits 5 and 4 of symbol 19, symbols 6-18 of packet 2 and symbols 6-18 of packet 3 are used to transmit 40 bits, each of which indicates an encoded test group, for example, alphanumeric symbol. Bits 4-0 (L4-L0) of character 4, packet 0, cause the first text position code indicating the vertical position at which the transmitted line of text should be displayed on the first display capacity, for example, a cathode ray tube display with a capacity display 21 lines of text. The bits LSD 1 and LSD 0 in symbol 4 of packet 1 cause a second text position code indicating the vertical position at which the encoded line of text should be displayed on a display with a second display capacity, for example, a liquid crystal display or two-line light emitting diodes. The use of two different text position codes prescribed for the same line of text allows the use of different types of displays: in the case of a 21-line display and a two-line display. A 21-line display made in the form of a television screen is usually available when video information is transmitted using an encoded video disc. However, in the absence of a 21-line display, information or parts of it may be displayed on a two-line display. You can also display different information on two different displays, for example, a 2-line display can be used to display text information to indicate the function of the so-called variable-function keys, while a 21-line display is used to display other text information. When both different displays are used in this way, it may be indicated by lowercase position codes in the text L4-L0 00000 and LCD 1, LCD 0 00 that the encoded string of the package text should not be displayed on the 21-line display or, respectively, on the 2-line display.

 Bits 3-0 of symbol 19 of packet 1, symbol 19 of packet 2 and symbol 19 of packet 3 are used to transmit a two-byte index code to indicate the storage position in the menu memory. The function of the index code will be described later. Bit 4 of character 5 of packet 2 indicates whether the display means should be switched to ON or OFF. Other bits of packets 0-3 are used for other data for displaying encoded text, for example, determining color, determining the area of movement, determining the display mode for text only, text in combination with the previous video, etc.

 In FIG. 9-12 show an example format that is suitable for transmitting command codes. The bits used to indicate the main channel and subchannel, check for errors and corrections, synchronize and switch to ON and OFF displays are the same as in the format shown in FIG. 5. The characters 0 in bits 0-2 used for the group code of the packet 0-3 are used to indicate the type of format used. Using the 4-bit code DAT4-DAT0 in bits 4-0 of character 4 of packet 0, you can indicate that the packet contains command codes. The bits used in transmitting the command codes are the same as for transmitting groups of encoded text in the format shown in FIG. 6. For each command code, a group of 7 bytes is transmitted, with two bytes used for a two-byte index code indicating the storage position in the menu memory, the other five bytes are used to specify the command.

 Using packets for transmitting coded text and command codes allows for interactive control of a playback device using menu information transmitted to a reproducing device using packets recorded in a sub-code read-write channel.

 In FIG. 13 shows an apparatus for reproducing information recorded on a storage medium. This device is equipped with a display for displaying text information written in packets, as well as a means for dialog control reading using menu information recorded in packets. A signal is recorded on the information medium 3, which contains an encoded read-write subcode signal, in which the bits are recorded in the formats described above. Such a storage medium may be a digital video disc on which an FM modulated video signal and an encoded signal are recorded. The disk storage medium is rotated by a drive motor 4. The read head 5 can be moved in the radial direction using a radial positioning system, for example, a motor 6 and a spindle 7 under the control of a conventional control circuit 8 for retrieving address information on the storage medium. The read signal is fed to circuit 9, which separates the encoded signal and the FM modulated video signal.

 An FM modulated video signal is supplied to a processing circuit 10 provided with an FM demodulator for demodulating into a video signal, for example, in a PAL or NTSC system. Also, the video signal processing circuit 10 comprises means for separating image number codes transmitted together with the video information. The image number codes are supplied to the control circuit 8. The encoded signal is supplied to the encoded signal processor 11 to convert the encoded signal into an audio signal and separate sub-read signals for recording. The subcode read signals are written to a subcode signal processing circuit, which may consist of a microcomputer 12 of a known type. The microcomputer is downloaded by the program to determine if the received packets have the format described in FIG. 9-13 using packet symbols. Next, master codes and subcategory codes are read in packets and compared with codes representing selected master codes and subcategory codes. Packages for which the identified category code corresponds to the selected categories are separated and approved. Coded text groups and display control signals of the selected packets are supplied to a conventional type converter circuit 13 for converting coded text groups to video signals for displaying a line of text at a line position on a display screen indicated by text location codes contained in control signals. The video signal generated by the video processing circuit 10 is also supplied to the conversion circuit 13.

 Depending on the control signals received from the microcomputer 12, the conversion circuit 13 will cause a combined image of the video information represented by the video signal and the text represented by the received groups of encoded text; display only video information, display only text information.

 As described above, packets of various categories of main information can advantageously be used to transmit test information in different languages. Packages of various categories of subinformation can be used for various types of information, for example, submenus, albums, track names and indexes, a list of track names or lyrics. With this approach, the user can select the type of text information to be displayed, and the language in which the text information should be displayed.

 Preferably, one main category code is reserved to indicate blocking of the main category, and one subcategory code is reserved to indicate blocking of the subcategory. Information in packets with blocking the main category code and blocking the subcategory code is always fed to the conversion circuit 13 using a microcomputer by bypassing the current selection of the main category and subcategory. The information in packets with blocking the main category code and the subcategory code, which is not a blocking subcategory code, is only fed to the conversion circuit 13 if the subcategory code corresponds to the selected subinformation category.

 Information in packets with a code of the main category, which is not the code of the main category with blocking, is only fed to the conversion scheme if the code of the main category corresponds to the selected main category of information. The use of categories of information with blocking is favorable in the case when information should be displayed in the form of text, regardless of the language, in this case it is sufficient to record language-independent information only in the main channel with blocking. The use of blocking categories is also beneficial when important messages are to be displayed.

 In the case where it is necessary to display a series of lines of text as a single group of information, it is preferable to use a predetermined bit in the packet indicating the first packet in the group. In the format shown in FIG. 9-13, this is the CDS bit / bit 4 in symbol 1 of packet 2. After changing the category, the start of the packet information of the newly selected category is delayed until the CDS bit indicating the beginning of the packet groups is highlighted. This allows you to get a situation when a group of text lines is always present in sequence with a start from a given position on the screen forward, for example, from top to bottom.

 The microcomputer 12 is connected to a menu memory 14, in which codes for lines of text forming a menu group for dialog control are stored. Each line of the menu text must be assigned a command code, which is also stored in the menu memory. The microcomputer is loaded with a program for supplying test lines of the encoded menu to the conversion circuit 13 so that the menu can be displayed on the display 15. The microcomputer is connected to the menu selection means 16 for the displayed menu text line. This menu selection tool contains label control keys for moving a label displayed on the display screen and a selection key for selecting a menu text string indicated by a label. When the user selects the menu text line indicated by the label, the corresponding command code is executed.

 The table shows an example of how menu information can be stored in the menu memory 82.

 The first column on the left indicates the index position address in the memory in which the combinations of the menu text string and the command code are recorded. Command codes containing five bytes are indicated in the third column of the table.

 In the table, the menu information for four different menus is in memory: the index address menu 001-006, the index address menu 080-83, the index address menu 0100-0103 and the index address menu 0123-0125.

Four different types of commands should differ in the table if:
the first type (TRANSIT COMMAND) for initiating the search for information recorded in a place on the recording medium indicated by the address consisting of the command code. This address can be an absolute time code recorded in the Q-channel of the subcode, or a picture number recorded along with video information. When a line of text corresponding to this type of command is selected, the microcomputer initiates a search function by the control circuit 8. A control scheme is a conventional type scheme that can control the search for text indicated by an address code. Command lines of this first type are stored in memory at locations indicated, for example, by index addresses 0080 and 0081;
the second type, allowing the display of another menu indicated by the index address, composed of command codes. This type of command codes is stored, for example, in memory locations indicated by index addresses 0006 and 0083;
the third type for selecting the main and / or subcategory of packets to be separated from the packet stream received by the microcomputer 12. This type of command codes is stored in memory locations, for example, indicated by index addresses 001 and 0082;
the fourth type is to set the display on and off to display encoded text filed from the microcomputer to the conversion circuit 13. This type of command is stored in memory locations indicated, for example, by index addresses 004 and 0125. The computer also loads the program to set the display in response to pressing a given key. With this approach, pressing this key is detected by the microcomputer and the display is set to the ON position by sending the INSTALL ON command to the conversion circuit 13.

 In the example shown in the table, only four types of different command codes are shown. However, it should be clear to a specialist in this field that other types of commands can also be used to control devices of any type by interactively reading information such as pause-command codes to pause playback, silent commands to silence a video or audio output, commands to a game to start reading information.

 The menu information is recorded in a sub-code read write channel in the formats shown in FIG. 9-13 and preferably the information is also made visual before starting to play the program on the information medium 3. When the storage medium is an encoded disk or a video encoded disk, the menu information may be recorded before the first information track starts: in the read-write channel of the pre-pause track (track 01 at 00) between the end of the title of the track and the beginning of the first information track. When the menu information is recorded before the first information track, the menu information can be restored and loaded into memory before starting playback by using the jump command executed immediately after reading the TOC from the encoded subcode in the input area. To load the menu information into the menu memory, the microcomputer is programmed to detect index codes in packets of the selected main category and store lines of text of the encoded menu and corresponding command codes at the addresses indicated by the index code.

 Coded text lines and command codes with a given index code, for example 00, are not stored. Command codes with these index codes are executed directly. This allows you to execute a number of commands before loading the menu information into memory, for example, commands for setting the main and subcategories, start searching and reading places where the menu information is recorded, followed by displaying, for example, a menu or picture, and display the main menu after recording information menu to internal memory.

 In FIG. 14 shows cells in which trigger information can be stored in a sub-code read-write channel of an encoded disc or encoded video disc. 17 denotes a track in which an encoded signal is recorded. The beginning of the tracks is an introductory track 18 in which a table of contents (TOC) is recorded in the Q-channel of the subcode.

 The first information track with audio information (track 1 index 1) is indicated by the position 19. Between the input track 18 and the first information track 19 is a preliminary pause track (track 1 index 0). In the part of the track 17 located after the introductory track, the absolute time code indicating the position of the information (address) is recorded in the Q-channel of the subcode.

 A Transition Command is written in the sub-code channel for reading the record, containing the address TA indicating the start of the recording of start-up information, for example, menu information in the sub-code channel for reading and writing on track 20 of the preliminary pause. SA symbols indicate safety distances between the end of the Table of Contents and the beginning of menu information. The read-write channel in the first information track (track 1 index 1) may contain further menu information. When the reading of track 17 begins, the Content Table is first written to the internal memory, and the Transition Command containing the TA address is read from the read-write channel. After writing to the internal memory of the Table of Contents, the Transition Command is executed containing the TA address, and the menu information is read and written to the menu memory. Using command codes that are directly executed after recovery allows you to call the pause function after loading the menu information and displaying the menu or picture. When using directly executed command codes, you can start by reading one of the information tracks without displaying the menu. The duration of the pre-pause track 19 corresponds to a playback time of 2-3 seconds, which means that about 200 lines of menu text can be stored in the pre-pause track 20. However, if it is necessary to write more lines of menu text to the internal memory, further menu information can be written in the sub-code read-write channel in parallel with any part of the main information program. In this case, it is preferable to drown out the output of audio and visual information during the recovery of read-write information using the jamming command recorded on track 20 to mute the output audio and video information while reading track 19. In addition to simple and powerful interactive controls for the code player and code For video players, the described read-write signal formats allow the quick display of additional text information near audio or video deformations of recorded on the recording medium.

 Using different categories of information allows you to write text information in different languages in packages with different codes of the main category, so that each user can choose a language with which he is almost familiar. The use of various subcategories allows a simple selection of the type of information to be displayed. Since packets of different categories alternate, and the transmission rate of information recorded in the read-write signal is high (75 packets per second), the selected type of information in the desired language is presented quickly. This high data transfer rate has the advantage that information in packets can be repeated several times without noticeable reduction in access time to information.

 The program for transmitting information through read-write subchannels is especially convenient for a 5-inch encoded video disc, on which about 20 minutes of audio information and 6 minutes of video information can be recorded. During the time interval when only audio information can be reproduced, information recorded in the read-write channel may be displayed. Another advantage of the system from using the sub-code read-write channel for transmitting information is that these channels are usually not used in the corresponding coded disks with audio information and video information. This means that encoded audio discs and encoded video discs with information recorded in a sub-code read-write channel can be read without any problems on known encoded audio and video disc players.

 Shown in FIG. 13, the device can be expanded with a two-line liquid crystal display 15a, which can be controlled by a microcomputer according to a conventional type control circuit 13a in order to display text lines with a position code in the text LSD 1, LSD 0 01, or 10 indicating the first or second line of a two-line display. As mentioned, the position code in the text LSD 0, LSD 1 00 is used to indicate that a line of text should not be displayed with two lines. The position code in the text LSD 1, LSD 1 11 causes the information displayed on the two-line display 15a to curl before a new line of text appears on the bottom line.

 The device shown in FIG. 13 can be further expanded by a second menu memory 14a of a non-volatile memory type in which menu text lines and corresponding commands are continuously recorded in order to provide a device control circuit-dependent type, such as setting an audio output level, setting a video display system or controlling additional devices such as a tuner, VCR, etc. To enable switching from the memory 14 to the menu memory 14a and vice versa, a selective command code for changing RAM memory menu, which is used, or control keys. The use of both menu storage devices in which the menu information is stored in the same format has the advantage that the circuit-dependent function of the device and the interactive recovery of recorded information on the storage medium can be controlled by the user in the same way, which means that it turns out very convenient interface.

 In the above example, the invention is shown for an encoded disc. However, the present invention can be applied with other information recording systems such as audio tape systems.

 And finally, it can be noted that in the given example, only encoded text and command codes are transmitted. However, you can also write other information in packets such as compressed image information, object codes, synthetic speech, etc.

Claims (44)

 1. A method of transmitting information using a data carrier, which consists in formatting the data with digital subcode data added to the main information, recording the received information on the data carrier with sections of samples having various physical properties and representing the main and subcode information, reading the recording medium with sample conversion sections of the carrier into a signal, changes in the physical quantity of which represent the main and subcode information, and in the reformatting of the read data with p separation of the main and subcode information, characterized in that before formatting, the subcode information is divided into packets of various categories of information and the packets are interleaved, and after reformatting, packets of the selected category are isolated from subcode information, taking into account the changes in the physical quantity of the signal during reading.  2. The method according to claim 1, characterized in that the code of the main category is allocated in packets of different categories and the groups in which the selected code of the main category corresponds to the main category of information are separated.  3. The method according to claim 2, characterized in that the combinations of the main category code and the subcategory code are detected in packets of various categories of information and packets in which the selected combination corresponds to the selected main category and subcategory are separated.  4. The method according to claims 2 or 3, characterized in that the given codes of a smooth category or subcategory determine the data of the corresponding blocking functions of previously selected samples of the main category and subcategory.  5. The method according to claims 1 to 4, characterized in that the information packets are formed with encoded text or image and additional codes.  6. The method according to claim 5, characterized in that the control codes in packets having encoded text or image information contain position codes indicating in which position on the display this information should be displayed.  7. The method according to claim 6, characterized in that the control codes contain codes for the position of the text for at least two displays, in which the number of displayed lines may be different.  8. The method according to PP.5 to 7, characterized in that at least one packet contains at least one command code for the control blocks.  9. The method according to p. 8, characterized in that the command codes contain codes for enabling and disabling the display of encoded information.  10. The method according to claims 8 or 9, characterized in that the command codes comprise codes for selecting the category of information of the packets to be separated.  11. The method according to claims 7 to 10, characterized in that address information is generated on the recording medium showing the recording position of the main information, and the command codes contain transition command codes to initiate the search for the main information with the address indicated by the command code.  12. The method according to claims 1 to 11, characterized in that groups are formed from packets of the same information category, the beginning of each of which is shown by a start code, and after changing the selected category, packet separation with information of the newly selected category is delayed until the start code is detected in the packet group with newly selected category of information.  13. The method according to PP.5 to 12, characterized in that the packets write the lines of encoded menu text and the corresponding command codes, the lines of text and the corresponding command codes are loaded into the menu memory, the stored lines of the menu text are displayed, the displayed menu text line is selected, and the stored in memory, the command code corresponding to the selected line of the menu text is supplied as a control code to one of the control devices.  14. The method according to item 13, wherein the command codes contain the address code of the menu to initiate the display of another menu stored in memory at the address indicated by the address code of the menu.  15. The method according to item 13 or 14, characterized in that the packages contain an index code indicating the address of the cell in which the strings of the encoded menu text and the corresponding command codes are to be stored.  16. The method according to PP.1 to 15, characterized in that the information packets are transmitted through a sub-code reading channel of the recording signal of the CD recorded on the storage medium.  17. The method according to one of paragraphs.11-16, characterized in that the storage medium is a compact disc or video compact disc with a table of contents recorded on the introduction track preceding the tracks of the main information, and a transition command in the subcode reading channel is recorded on the input track records.  18. The method according to clause 16, wherein the transition command recorded on the introductory track shows a search for packets recorded in a preliminary pause of the main information track.  19. The method according to p, characterized in that the preliminary pause of the track represents the first track of the main information.  20. The method according to one of claims 1 to 19, characterized in that the packages of information categories are re-recorded until there is no new information to be transmitted.  21. A storage medium containing samples of sections with various physical properties recorded on a track, representing code symbols of the main information and code symbols of subcode information associated with the main information and recorded as a sequence of frames on consecutive parts of the track, characterized in that the code symbols are several consecutive subcode information frames are located in several information packets, the information category of each of which is represented by the code symbol of the head Noah category, the interleaved data packets having different main categories of information.  22. The medium according to item 21, wherein the information packages of various categories contain the code of the main category, showing the main category to which the information belongs in the respective packages.  23. The medium of claim 22, wherein the information packets contain a subcategory code indicating a subcategory to which the packet information relates.  24. The media according to paragraphs. 21 23, wherein the information packets contain encoded text or image information and additional control codes.  25. The medium according to paragraph 24, wherein the control codes in packets contain position codes for displaying encoded text or image information on the display.  26. The medium of claim 25, wherein the control codes comprise position codes for at least two displays having a different number of displayed lines.  27. The medium according to one of paragraphs.24, 25 or 26, characterized in that at least one information packet contains at least one command code for the control blocks.  28. The medium according to item 27, wherein the command codes contain codes to enable or disable the display of encoded information.  29. The medium of claim 27 or 28, wherein the command codes comprise codes for selecting a category of packet information that should be separated.  30. The medium according to p. 26 29, characterized in that it contains address information showing the recording position of the main information, and the command codes contain a jump command to initiate a search for the main information with the address indicated by the command code.  31. A medium according to claims 21-30, characterized in that information packets of the same category are formed into groups, the beginning of each of which is indicated by a start code.  32. The medium according to paragraphs 24 to 31, characterized in that the packets contain encoded lines of menu text corresponding to command codes.  33. The medium of claim 32, wherein the command codes comprise a menu address code.  34. The medium of claim 32 or 33, wherein the packets comprise an index code indicating a cell address for storing strings of encoded menu text and corresponding command codes.  35. The medium according to one of paragraphs.21 to 34, characterized in that the information packets are recorded in a sub-code reading channel of the recording of the encoded signal of the CD.  36. The medium according to one of claims 30 to 35, characterized in that the information medium is made in the form of a CD or video compact disc with a “table of contents” recorded on the introduction track preceding the tracks of the main information, and the command is recorded on the introduction track transition in a sub-code channel for reading a record.  37. The medium of claim 36, wherein the transition command recorded on the introductory track indicates a search for packets recorded in a preliminary pause of the main information track.  38. The medium according to clause 37, wherein the preliminary pause of the track is part of the first track of the main information.  39. The medium according to one of paragraphs.21 to 38, characterized in that the packages of categories of information are re-recorded until there is new information to be transmitted.  40. A device for reproducing information from a recording medium containing a reproducing head kinematically connected to a drive unit and an output connected to the input of the demodulator, the first output of which is connected to the input of the audio signal processing unit, the output of the subcode information of which is connected to the input of the data processor, the output of which is connected through a signal converter with one or more signal reproduction units, a memory unit associated with a data processor, a search control unit, an output associated with a bl drive window, and information and control inputs with sub-code information output of the audio signal processing unit and with the output of the data processor, characterized in that a selection block is introduced, the output associated with an additional input of the data processor.  41. The device according to p, characterized in that the memory unit associated with the data processor represents a menu memory unit.  42. The device according to paragraph 41, wherein a second fixed-type menu memory unit is introduced associated with the data processor.  43. The device according to PP.40, 41 or 42, characterized in that a video signal processing unit is introduced, with an input connected to the second output of the demodulator and an output with a video input of a signal converter.  44. The device according to PP.40 to 43, characterized in that two blocks of signal reproduction from several such blocks are made in the form of displays with a different number of image lines.

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