Recording medium for storing the virtual remote information, a still image, a method of recording and/or playback device to implement them

 

(57) Abstract:

The invention relates to the recording and playback of still images. It helps to ensure the technical result of reducing the file information when you record still images with the virtual remote information. This technical result is achieved due to the fact that the write set of the input still image in the first area of the data carrier, share this aggregate data of still images on a pre-defined maximum number of groups and write in a second area of the data carrier information of the group of still images having the first virtual deletion information for the respective still images, established by the user in the virtual removal, and playback information related to playback, and if you have a virtual deletion information, the corresponding data of the still images do not reproduce. 3 S. and 63 C.p. f-ly, 33 ill.

BACKGROUND OF THE INVENTION

1. The technical field to which the invention relates.

This invention relates to a recording and/or voprosu remembering information of the virtual removal in order to prevent excessive increase of the data extent of the file when some part of the data file is deleted at the user's request; and the method of recording and/or playback, and the device for their implementation.

2. Art

Fig. 1 depicts the structure for different types of information in the film image and the data of the image when recording/playing back audio and/or video data on a recordable and/or rewritable storage medium, specifically on digital versatile disk (DVD), and more specifically this Fig.1 depicts the relationship between the information sequence programs (PP) 11 for logical processing of data, information of image 12, consisting of information of the video object (PSA), and the file of image data 13, in which the compressed audio/video (AV) data is written in blocks of PSA.

Next comes the definition of the terms used in this description. Suppose the film was recorded in the first and second parts, the whole movie is a sequence of programs (PP), and the first and second parts are programs. Each program can determine its subsequent division into multiple cells, called subunits. The information in each cell can be fully or partially defined as a video object (VO is like information for connectivity between the set of cells.

Because the data is actually subdivided into blocks of video objects (BLOB) and recorded in the data file of the image, the information of PSA consists of different types of information related to the data BLOB, i.e. BLOB 1, BOB 2, and sample data of PSA in the file of image data is performed using information of PSA. Here the data in the PSA is used as the unit of random sampling devices recording/playback of a disc. BOB is based on one GUY (Group of Pictures) in the case of video signals, standard MPEG, and audio data corresponding to video data collected, i.e., the AV data is compacted in the sectors to be BOB.

Depicted in figs.1 data format refers to the film image in which the actual data, PSA, contains the data of the image within a fixed period of time. Synchronization or the coding of the signals AB performed in blocks of PSA. But in the case of still images, each PSA is a still image. In the designation of PSA in the structure of cells for each still image required cell. Thus, the greater the number of still image recording, the more information is added.

Usually can be formed oshi is La overwrites data on the disk. All the information remembered in a storage device controller that controls the system to limit the number of single write operations and to make a quick sampling of the data. But, as mentioned above, in the case of a still image, if the amount of information increases, it takes a long time to read the information. Also there is a limit to the amount of information that can be memorized in a memory device having limited storage capacity. Accordingly, the recording large still image impossible.

In a two-dimensional recording medium such as a disk, the file can be distributed in a physically fragmented spaces for recording, and information that connects disparate areas, record the file system information file extent. Information file extent is the information for the logical linking of the file, with scattered areas, and is usually isolated areas consistently as starting positions and lengths data. For example, referring to Fig.2, some file is distributed and recorded in two parts, each of which presents the original Polo is Adelaja this file into three parts, the number of file extento information will increase in accordance with Fig.3.

In other words, in accordance with Fig.3 the number of file extento information is determined according to the level of fragmentation of the file regardless of its capacity. Therefore, when a certain set of still images recorded in the file, then, if some still images removed at the request of the user, thereby causing fragmentation of the file, then the number of file extento information will increase dramatically.

THE INVENTION

To solve the above problems, a first object of this image is to provide a recording medium for grouping some together large still images in order to manage as a group of still images and for storing the information group of still images containing information for the virtual removal of the desired still image.

The second object of this image is to provide a recording medium for grouping together some additional audio data, which are not the original audio data added is the mention for more information audiography, containing information for the virtual removal of additional audio data.

A third object of this image is to provide a method of recording and/or playback device for grouping together large still images and to include information virtual deletion information managed at the level of an additional group of still images for virtual removal of the desired still picture and related to the original audio data.

The fourth object of this image is to provide a method of recording and/or playback device for grouping together the additional audio data related to the still images, and to include information virtual deletion information, which operate at the level of additional audiography, for virtual removal of the additional audio data corresponding to the virtual remote stationary image.

To provide the first object to provide a recording medium containing a first region having a set of still images, and the second region having the first information Wirth is podvijnyh images in the first area by a predetermined maximum number of groups in order to manage the still pictures at a group level, with the first virtual deletion information is information of a group of still images, and if the first virtual deletion information to enter into the state of the virtual removal, the corresponding still image is not reproduced.

To provide a second object to provide a method for recording and/or reproducing audio and/or video data on a recordable and/or rewritable storage medium, comprising stages of: (a) write the aggregate input still image, and (b) separation of the population still images on a predetermined maximum number of groups, and account information of a group of still images having the first virtual deletion information for the respective still images, established in the state of the virtual removal by the user, and information playback.

The method according to this invention also includes the steps of reading a group of data of still images for playback according to the playback information, and calculating the position of the desired still image in souzani, located at the calculated position, while not reproducing the data of still images having the first virtual deletion information contained in the read data group of still images, established in the state of the virtual removal.

The device according to this invention contains a processor write signal processing together of still images to be recording in the first area on the recording medium, and a controller for controlling the first virtual deletion information for still images, established by the user in the virtual removal, while the first virtual deletion information contained in the information group of still images to separate still images in the first area by a predetermined maximum number of groups in order to manage the still pictures at a group level, for the formation of the information playback relating to the playback order, and to control the generated playback information to be written in the second area.

According to another aspect of the present invention the device also includes a processor play Vigny image in the second region, if this does not play a still image having the first virtual deletion information set to the virtual delete.

BRIEF DESCRIPTION OF DRAWINGS

The above objects and advantages of this image will become more apparent from the detailed description of its preferred implementations with reference to the accompanying drawings, on which:

Fig. 1 - connection structure for different types of information and data in the still image;

Fig.2 is an example of the provisions of the file entry and file extento information;

Fig. 3 - the relationship between the distribution of the file and the file extento information;

Fig.4 is an example of the structure of General information in accordance with this invention;

Fig.5 - relationship between different types of information and data of still images in the still image according to this invention;

Fig. 6 is a block diagram of a recording device/playback according to this invention;

Fig.7 - the relationship between the still image data and information of a group of still images according to this invention;

Fig. 8 - the relationship between the additional audio data added to the data is IG. 9 - relationship between cell information and information group of still images;

Fig. 10 - relationship between cell information, information of a group of still images and information for more audiography;

Fig.11 - file virtual remote still images and information group of still images according to the command to delete a still image;

Fig. 12 - file virtual remote for more audio and information for more audiography according to the command to delete a still image;

Fig.13 - the actual removal of the still image file and information of the group of still images according to the command for deleting all still images in the group of still images;

Fig. 14 - the actual deletion of the file for more audio and information for more audiography in accordance with the command for deleting all still images in an additional audiogramme;

Fig. 15 - the information structure of the group of still images according to this invention;

Fig.16 is a table depicting an example of the detailed contents General information the group of still images shown vfig.18 - table example of the detailed contents of display in the map table of Fig.17;

Fig.19 is a table of example of the detailed contents of the original audiolibrary associated with videotorrent Fig.18;

Fig. 20 - structure information of the additional audio groups for still images according to this invention;

Fig. 21 is a table of example detailed contents General information additional audiography for still image shown in Fig.20;

Fig.22 - the table structure of audiolibrary for a still image of Fig.20;

Fig. 23 is a table of example, the detailed content of the table display the additional audio data for a still image, depicted in Fig. 22;

Fig.24 is a table of example detailed content information of the cell for a still image, depicted in Fig.9 and 10;

Fig.25A and 25V - sequence diagram of the method of recording a still image in accordance with the implementation of the present invention;

Fig. 26 is a sequence diagram of a method of recording additional audio data after recording a still image in accordance with the implementation of the given image;

Fig. 27 diagram of the serial is Fig. 28A and 28C is a schematic sequence of reproduction of the still image in accordance with another implementation of the present invention;

Fig. 29 is a diagram of the sequence of reproduction of the still image in accordance with another implementation of the present invention; and

Fig. 30A and 30B is a sequence diagram of the method of deleting data using the virtual deletion information in accordance with this invention.

DESCRIPTION OF THE PREFERRED IMPLEMENTATIONS

Next follows the description of the preferred implementations of the recording media for storing the virtual deletion information for a still image, and method and device for recording and/or reproducing for them.

Fig. 4 depicts an example of the structure of General information in accordance with this invention, in which information containing information PP, information of image information and still image can be recorded in the information file or informational site.

Here General information PP contains information such as the number of programs in PP. Software General information contains information such as the number of cells in this program. what about the image (hereinafter for brevity - "a group of still images") instead of PSA in the case of a still image according to Fig.5. Since the information of image already described with reference to Fig.1, its description will be omitted, and further description information of a still image in accordance with this invention. General information a still image contains information related to the number of types of information of a group of still images and General information of the additional audio data for a still image contains information related to the number of types of information for more audiography.

Fig.5 depicts the structure of the communication of different types of information and data of a still image in the still image. In other words, in the still image recorded in blocks of PSA in the data file, the set of PSA for still images is controlled by a group of still images and information of the cell information contained in paragraphs 21, identifies information of the group of still images (GWOB) and not the information of one PSA. Also, the audio data can be recorded in addition to still image. Audio data recorded after the recording of a still image, a still image, call the original audio data which are contained in the group of still images. In this invention, except where otherwise stated - still image is a still image with only one videocast, and a still image having the original audio part and videocast. By controlling the still picture by grouping it so you can reduce the amount of information of the cell and information of a still image. For example, similarbut attributes of coding and initial attributes of audio encoding in the group of still images, and thus form General information the group of still images, and remember her as General information. For the respective still images must be specified in a data file of still images. In the case where a still image is not divided into groups, you must specify the starting position of the respective still images. In the case where still images are grouped, the initial position, in which the corresponding group still image starts to be recorded in the file C is data of images recorded as information for the respective still images. Since the amount information indicating the amount of data of still images, i.e. the number of bytes in total is less than the number indicating the position in the file, the total amount of information can be reduced.

The user can add a single additional audio data in a still image after recording a still image and original data file of still images 23. At this time, only the additional audio data are collected and recorded in a separate section in the file of the additional audio data 24 and the file 23 of still images, retain the original audio data. Additional audio data is also managed by grouping the same way as the data of a still image, and the concept of this control is the same as data for a still image. In other words, the set of additional audio data having the same attribute, e.g. the attributes of the audio group in additional audiograph (abbreviated as "DAG"), and then General information additional audiography written as General information. For the corresponding additional audio data record only the amount of information. General is selected audiograph (DAG). Information links to additional audio data added to a specific still image specified by the arrows in Fig.4, is present in the information group of still images GUOB 1, GOB 2. In other words, information identifying additional audiography to designate additional audio data existing in the information group of still images, and information identifying additional audiography in the corresponding additional audiogramme contained in the information group of still images.

Locate the specific record still images in the group of still images original position data group of still images contained in the General information group of still images, add to the volume of data prior to still image to be detected. Similarly to search for provisions specific record additional audio source position data for more audiography contained in the General information for more audiography add to the size of the data, subject to prior discovery of additional audio data.

In accordance with Fig.5 there is a file of still images 23, in which you can add the original audio data, and the file of the additional audio data 24 is added to the still image file includes information PP 21, and the still image information 22 is information of a group of still images (GWOB) and information for more audiography (DAG). But the additional audio data can be recorded in a separate section of the file still images 23 and not file additional audio data 24. The file still image 23 can define the first area, the file of the additional audio data 24 can define a second area, and an information file containing information paragraphs 21 and information still image 22 can Obama recorder/playback for the implementation of this invention. The function of the device for recording/playback of AV (audio/video) data using a recordable and rewritable disc is generally divided into recording and playback.

During the recording codec AVI 110 simultaneously encodes and compresses the supplied external AV signal through a predetermined procedure, compression and provides information about the size for the compressed data. Digital signal processor (DSP) 120 receives the AV data from the AV codec 100, adds additional data for processing by error correction code (KIO) and performs the modulation according to the given procedure of modulation. Amplifier radio frequency (URC) 130 converts the electrical data from the DSP 120 in the RF signal. The pickup 140 performs a disk drive, and records the RF signal from URC 130 containing the actuator for focusing and following. The servo system 150 receives information necessary for applied from the system controller 160 and stably performs the function is applied. System controller 160 controls the entire system through the user interface, so as to control a still image recorded on the disc, and record the individual information for zapisywai the information group of still images from the information for the respective still images, including information of amount of data of still image information volume of the original audio data, time information of the playback of the original audio data, etc. and information about the position of the respective still images in order of recording of the recorded still images and audio data. Adding additional audio data to still picture additional audio data is recorded in another file or the same file that is intended for a still image, but in the plot, which is not a lot for still images. Additional audio data are managed at group level by making information more audiography of the information recorded for the additional audio data including information of amount of additional audio data, the time information of the playback of additional audio data, etc. and the position information corresponding additional autogroup. Information for the respective still images contains information indicating additional audio data.

In that case, when the user intends to delete something or other stationary isoprene, and sets information deleting information of the group of still images into a state of virtual deletion, causing it to virtual removed. In other words, since the data is not reproduced during playback, although they actually exist, then the user gets the impression that the data is deleted. Therefore, if a particular still image virtual removed and the original audio data recorded in the sequence with a still image, the original audio data is also not reproduce. Also, if additional audio data added to the still image, the virtual remote for more audio information for more audiography set in the state of the virtual removal, as a result, although the additional audio data do exist, the user has the impression that the additional audio data is removed.

The cell information about the playback order record as described above. The cell information contains information indicating a recorded group of still images, so you can play capitanational signal from the disk, where the data is stored, and the data extracted from the optical signal. URC 130 converts the optical signal into an RF signal, and allocates zerosignal to perform serveronly and modulated data. DSPS 120 demodulates the modulated data from URC 130, according to the procedure of modulation used in the modulation, and performs a process KIO to fix bugs and fixes added data. Servolock 150 receives the information necessary to applied, from URC 130 and the system controller 160 and consistently performs serveronly. Codec AVI 110 decodes the compressed AV data from the DSP 120 to issue the AV signal. System controller 160 controls the entire system to reproduce the user data (only a still image, the still image + original audio data or still image + audio) using the information in the cell and information of the group of still images stored on the disk when a user interface, such as the processing of input data entered by the user using the keys.

In other words, to play a specific still image and audio information of the group neointimal, as the amount of still image data and information data and the playback time of the original audio data, if available, is obtained from the group information to the still image, thereby reproducing the data you need. Also, if additional audio data added to the still image, we need an additional audio data is reproduced using the information on the amount of data or time of play additional audio data from the additional information data group specified by the information group of still images.

Also, if the virtual remote information still images read from the information group of still images, the corresponding still image and the original audio data is not reproduced, as a result, although the data actually exist, the user has the impression that they do not exist. Similarly, if additional audio data added virtual removed, they do not reproduce.

Here the AV codec 110, 120 DSPS, URC 130 and the device 140, the current during recording, you can call processor account. The readout device 140, URC 130, 120 DSPS and AVI codec is continuing relationship between a still image and information of a group of still images, where information for a set of still images (e.g. , maximum 64) that have the same attributes, write in the appropriate information 201 of the group of still images (GWOB). The number of still images forming each group of still images, define such a way that it is the limit of the maximum number of still images. Each information group still images 202 contains General information the group of still images and information for the respective still images and information for the data 203 of still images consists of videocosta and video or audiocasts in the sequence recorded bit streams. Information form the group of still images has a source address corresponding group of still images.

Also like information for the respective still image information, still image having original audio data is contained in the information display, consisting of information of the video portion for videocosta, and information for the audio portion of audiodata. Here video displaying and audiolibrary for a still image are the same is there in the display view, having only the video portion. In the information group of still images 202 is a virtual deletion information for virtually deleting as a still image, and the original audio data added to it. Data is a still image recorded in PSA.

Fig. 8 depicts the relationship between the additional audio data added to the still image information and the additional audiography according to this invention, where information 211 for more audiography (DAG) contains the information for the additional audio data recorded in blocks together groups of still images. Information 212 for more audiography has General information for more audiography containing the source address of the corresponding additional audiography and audiolibrary (AO), following the sequence of additional audio data. Information for the additional audio data 213, consisting of additional audiodata a still image recorded in each additional audiolibrary, including the amount of additional information of the audio data. Also information 212 for more audiography contains Fig.9 depicts the relationship between the information cell (which can also be called by the playback information) and information of a group of still images, where the cell is a logical unit for the indication of the playback order. The cell information contains information identifying a group of still images (GVOB_ID), information identifying the beginning of playback of a still image (START VOB_ ID) of the corresponding group of still images, and information identifying end of playback of a still image (END VOB_ID). The cell information may correspond to all groups of still images, or may correspond to certain groups of still images to be played.

Additional audio data is remembered in a separate section of data of still images, that is, in a file that is not a data file, a still image, or in another area of the file that contains the data of still images.

For example, in the case when the additional audio data is remembered in a separate file, not a data file of still images, as shown in Fig. 7, GOB 1, 2, 3, with data still image form file. Also according to Fig.8 DAG 1, 2, 3, with additional audio data form the file. Therefore, in the case of recording/phospho file make a selection of still images or additional audio data.

In either case, when the additional audio data and still image remember in the same file, GLOB 1, 2 and 3, and DAG 1, 2 and 3 in Fig. 7 and 8 form a file. During the formation of the file so appropriate GOB and DAG can be mixed in order entry, for example, in order GUOB 1, GOB 2, DAG 1, GOB 3, DOUG 2 and DAG 3. Or GUAB and DAG combine in pairs and include in each series for the education of the file.

Fig. 10 depicts the relationship between the information of the cell information of the group of still images and information of the additional audio group to indicate the need for the additional audio data in the additional group of audio data recorded in a separate section, and also the original audio data as the audio data added to the still image. The cell information contains information identifying a group of still images (GVOB_ ID) information identifying the beginning of playback of a still image (START VOB_ID) in the group of still images, and information identifying the end of playback of a still image (END VOB_ID). Information the video portion in the information for a group of still images GUOB 1 can be iiu identify additional audiography and additional information autoidentification in the corresponding additional audiogramme. For example, information identifying additional audiography DOUG j and identification information 2, indicating that additional audigane are the second audio representation, DOUG j, exists in the information of the video portion for still picture group 2 still images GOB 1.

In this invention, when a set of still images recorded in the file and a still image is removed and fragmenting into several parts according to the user's query in order to avoid a sharp increase in file extento information, a set of still images are grouped and it is managed on a group of still images, and each still image is virtual deletion information. Thus, if a user deletes a still image, the still image is not actually removed from the file, but it looks as remote as it does not reproduce in accordance with the information of the virtual removal. In some cases, the user removes a still image in order to reserve space (vacant lot) to write new data on it in addition to the exception playback data using information of the virtual removal impossible. If all still images in the group data of still images virtual removed, they are actually removed from the file in blocks of groups of still images, thereby reserving a free spot. In other words, since the group of still images is formed by the combination of still images, remove this group gives a significant amount of free space.

In accordance with Fig.11, if a command to delete a still image is entered by the user via the input device 301, such as a keypad mounted on the output device a still image 302 or on the remote control, information virtual deletion information for the respective still image information of the group of still images set to "1" indicating the state of the virtual removal, and the actual file still images 304 not modified. Because in the actual file still images 304 no changes, then the information section of the file still images does not increase. The virtual deletion information is usually used for pervonachalnogo removed, the original audio data are also treated as deleted. Here, if the virtual deletion information set to "1" is reset to "0", the still image can be restored.

But if the additional audio data added to the still image instead of the virtual deletion information (which can be called the first virtual deletion information for a still image according to Fig. 12, it is possible to use the information of the virtual deletion information for more audiography (which can be called the second virtual deletion information). When a command to delete a still image is entered by the user through the input device 311, the virtual deletion information for the respective still image information of the group of still images set to "1" indicating the state of the virtual removal, and the virtual deletion information for the additional audio information for more audiography 314 for a still image is also set to "1". Therefore, the corresponding additional audio data in the additional audio file 315 is also not actually removed. Somnitelnye audio data.

The actual file deletion occurring in the group of still images or additional audiogramme described with reference to Fig.13 and 14. In other words, when all the information in the virtual group is removed, then the group can actually be removed from the file.

According Fig. 13, if a command to delete a still image to a virtual delete all still images in the information for a group of still images 2 is to be entered by the user via the input device 321, and information virtual deletion information for a group of still images 2 in the information group of still images 323 set to "1" indicating the state of the virtual deletion information for a group of still images 2 in the information group of still images 323 is removed, resulting in creating the adjusted information 324 group of still images, and the data for GUOB 2 in the file of still images 325 actually removed to assign them as unassigned. So even if you delete a set of still images, intermittent section in the file of still images is determined by the removal of the entire group, resulting in the information part is also represented in the sequence. But if the numbers identify explicitly memorize the information group of still images, you can save them in the form in which they are.

Similarly, you can actually delete the data file for more audiography. According Fig.14 the virtual deletion information for the respective still image information 331 group of still images set to "1" that indicates the state of the virtual delete command to delete a still image, and information of the virtual removal of all additional audio information for a group of still images 3 in information 332 for more audiography corresponding to still images set to the virtual delete status is set to "1" of the virtual removal.

Information for additional audiography 3 in information 332 for more audiography delete and create the corrected information 333 for more audiography. Data for DAG 3 in the actual audio file 334 is removed to define them as a free site. In this case, the file extentia information increases by a very small amount. In Fig.14 again given non-idii additional audiography, you can then save them in the form in which they are.

Fig. 15 illustrates the structure information of the group of still images according to this invention, which contains General information the group of still images and a table display of still images and can also include attribute information for still images, such as images or volumes modes coding of video signals.

Fig. 16 is a table depicting an example of the detailed contents General information the group of still images, depicted in Fig. 15, which includes GVOB_ID representing information for identifying a group of still images in the file of still images, GVOB_ S_ADR representing the source address of the first data of still images in the respective group of still images in the file of still images, GVOB_ Ns, representing the number of still images in the group of still images, GVOB__Ds representing the number of virtual delete still images in the corresponding group of PSA, etc. If GVOB_Ds and GVOB_Ns equal to each other, a group of PSA can be removed from the file. If GVOB_Ds not explicitly remember Rtraline deleted state, to then be removed effectively. Also identification information GVOB_ ID can be explicitly written as special for each group of still images in the file of still images, or they can alternatively be specified in the order of the groups still images, i.e., - 1, 2.

Fig.17 depicts the structure of a table displaying stationary images that depicted in Fig.15. There are two types of mappings: display to videocosta and audiolibrary JSC for the initial audiodata added to a still image. The order of the mappings is the same as the procedure for data recorded bit streams in the file of still images according to Fig. 7. Therefore, in the case where a still image has only two video portion, there are only display. In the case where a still image is the original audio data, except videocosta, record and display and audiolibrary, and they almost treated as a single display, using the same identification information.

Fig. 18 is an example of the detailed contents of display in the map table of Fig.17; contains MAP_TY indicating the type according to which the taxable identification information for videocosta and are in the range from 1 to 64 in the preferred implementation. Also VOB ID can be explicitly or implicitly specified in the order, i.e. 1, 2, 3...

Also contains video displaying V_ DELETE, which is a binary value indicating the removal or failure of PSA, i.e., indicating that PSA is not removed if it is "0" and that of PSA virtual removed, if its value is "1"; V_ PART_ SZ, indicates the extent of the video portion, GOAB_ID, which is the information identifying additional audiography, the value of which has, if a still image has additional audio data, and the value "0" if a still image has no additional audio data, and AOB_ID, which is the identification information of the additional audio data in the additional audiogramme, if a still image has additional audio data, and the value of which is "0", if a still image has no additional audio data.

Here V_ DELETE, represented by a binary value "1" indicates that a still image of the virtual removed. That is, if a still image has the original audio data, the original audio data is also considered as a virtual remote. This is caused by the fact that the original is you can call information of the position of the still image, a GAOB_ID and OB_ID you can call for more information audiocassette.

Fig. 19 is an example of a detailed content of the original audio display containing MAP_TY indicating the type of the corresponding display and represented by a binary value "1" in the case of audiolibrary for audiodata, ALLTM indicating the playback time of the audio portion, and A_ PART_SZ indicating the volume of the audio portion.

Fig. 20 illustrates the structure of information for more audiography for a still image according to this invention, containing additional General audio data and supplementary table audiolibrary for a still image. Also this may be supplemented with additional information audioacrobat for still images.

Fig.21 represent a table example of the detailed contents of additional common audio information for a still image, depicted in Fig. 20, containing GAOB_ID indicating identification information for additional audiography additional audio file, GOAB_S_ADR indicating the source address of the first additional audio data in the corresponding additional audiogramme in dopolnitelnoj. GAOB_ID can be specified explicitly or implicitly in the order of entries.

Fig. 22 illustrates the structure of additional tables audiolibrary consisting of n additional audiolibrary shown in Fig.20.

Fig.23 is a table depicting an example of the detailed contents table audiolibrary for a still image of Fig.22, containing AOW ID indicates identification information for a particular audio portion of the additional audiogramme and are in the range from 1 to 64 in the preferred implementation, A_DELETE indicating whether the additional audio part of a virtual remote or not, ALLTM indicating the playback time of the additional audio data, and A_PART_SZ indicating the amount of additional audio data, such as number of sectors. Here AOW ID can be specified explicitly or implicitly in the order of recording, that is, as 1, 2, 3.

Fig. 24 is a table depicting an example of a detailed content information of the cell for a still image of Fig.9 and 10, containing S_GVOB ID indicates identification information for a group of still images, S_ VOB_ ID indicates identification information for the and for a still image, which ends the play.

Fig. 25A and 25 depict a sequence diagram of a method for recording a still image according to the implementation of this invention, i.e. the method for recording a still image and the original audio data. First, determine whether to write a still image or a still image and the original audio data together (step S101). Form information group of still images, assign identification for a group of still images; still images in the group of still images set to "0" and write the source address of the group of still images in the file of still images (step S102). Then define entered or not the signal start recording a still image by the user (step S103). If the signal start recording is entered, then the still image record in the file of still images, the identification information for a still image is prescribed for the information of the group of still images, the number of still images in the group of still images increase per unit, and the information volume of still images recorded in videotopia and the original audio data (step S105). If set, audio data for a still image recorded after the corresponding still image file of still images, and information volume of the audio data recorded in audiolibrary information group of still images (step S106).

Determine whether the number of recordable still images for education information for a group of still images (e.g., a maximum of 64) (step S107). If the information group of still images is completed, the procedure returns to step S102 for the formation of another group's information still images. In the opposite case, the procedure goes to step S103 to determine whether the user signal start recording a still image.

If the user has set the mode for recording only a still image at step S105, step S106 is passed, and the procedure proceeds to step 107 to record the next still image. If the signal start recording a still image is not entered by the user at step S103, it is determined whether to stop recording (step S108). If it is determined to stop recording, then record the cell information and the procedure Zack is otvedeniya all still images.

Fig. 26 is a sequence diagram of a method for recording additional audio data after recording a still image according to the implementation of the present invention. First, the form for more information audiography, assign identification information for additional audiography, the number of additional audiodata additional audiogramme set to "0", and writes the source address of audiography additional audio file (step S201).

Then determine whether the signal start recording additional audio data by the user (step S202). If the signal start recording input, then assign a certain still image to which the user intends to add additional audio data (step S203). Additional audio data recorded in the additional audio file, assign identification information for the additional audio data in the audio-information display additional audiography, the number of additional audiodata additional audiogramme increase in the unit write data amount of additional audio data in audiolibrary (step S204). Despite the fact that according to the present description will Supplement Joannie can be recorded in a separate section of the same file, which is a still image.

Identification information for a group of still images of a given still image and identification information for a still image is read, and information for a still image, that is, identification information for additional audiography for additional audiocasts and identification information for the additional audio data recorded in videoautoplay for a given still image (step S205).

Then determine is whether N is the number of additional audiodata additional audiogramme, i.e. enough whether it's for education group (step S206). If it is, then the procedure goes to step S201 to form another information for more audiography. In the opposite case, determine whether the signal start recording additional audio data by the user (step S202). If the signal start recording additional audio data by the user at step 202 is not entered, then the procedure stops.

Here, the phase assignment of a certain still image (step S203) may precede the step of determining the following: whether entered by the user (step S202) with a still image in accordance with the implementation of this image, that is, the method for reproducing a still image and added to the original audio data. Referring to Fig.27, read the information PP and the cell information (phase spider S301 demonstration). Identification information for the currently playing group of still images, the identification information of the beginning of the play, and the information identifying the playback is finished read from the data cells: read the information group of still images, the specified cell (step W302). Get information display for the video portion corresponding to the information identifying the beginning of the play within the band still images to read the volume of the video portion, or both the information display and information audiolibrary obtained in the case of a still image having original audio data, to read the volume of the video portion and the volume of the audio portion (step S303).

The position of the desired still image is calculated by using the read information of the video portion and read and decode for playback of a still image (step S304) video data located at the calculated position. Here the position of the desired still image full still image. When playing back a still image to determine whether it's been the original audio data to the still image (step S305). If added, the original audio data is read and decode for playback of the original audio data (step S306). Here, the position reading original audio data is obtained by summing the calculated position of the still image and the amount of videocosta a still image. Check whether all still images belonging to a given cell, reproduced using the information in the cell, and then determine whether there is a next still image to be reproduced (step S307). If so, are read (step S303) information for the video portion to be playing still images.

In the opposite case, the procedure stops. If there is a set of information cells, then the above procedure is repeated.

Here, the step of determining whether the addition of the original audio data to the still image (step S305) can be performed directly after step of reading information of a group of still images (step W302). This is because the possibility of the display for audiodata add after display for videocosta in accordance with the information of a group of still images.

Fig. 28A and 28C depict a sequence diagram of reproduction of the still image according to one implementation of the image, that is, the method for reproducing a still image, a still image having original audio data or still image that has additional audio data. Referring to Fig.28A, the cell information read from the information PP (step S401) and then read the information group of still images, specified by the cell to be reproduced (step 402). Information for the original position of the group of still images read from the read information of the group of still images, and calculates the position of the desired still image (step S403). The position of the desired still image is obtained by summing the original position of the group of still images and the amount of data preceding the desired still image. Video data is read and decode according to the position of the desired still image to play back a still image (step S404).

Then check whether there are additional audio data in the band motionless from the additional audio data in the information display for videocosta need a reproduced still image can be identified using the identification information for additional audiography and identification information for the additional audio data. About the presence of the original audio data can be read, determining whether the audio information (audiolibrary) in the table display a still image to be reproduced.

If at step S406 have the original audio data, then calculate the position reading original audio data (step S407). The position reading original audio data is obtained by summing the calculated position of the still image and the amount of videocosta a still image. The original audio data read from the information of the calculated position of a still image, and decode for playback of the original audio data (step S408), and the procedure goes to step S411 according to Fig.21B.

If at step S405 has additional audio data, that is, if the read information for additional audiography marked for still images and identification information for the additional audio data are not "0", the original position of the additional audiography read from the additional information of audiography to calculate the desired position of the additional audio data (step S409 in Fig.28V). Position desired dopolniteljnij audio data, prior to the additional audio data having identification information for the desired additional audio data in the additional audiogramme.

Additional audio data read from the calculated status information for the desired additional audio data, and decode them to play additional audio data (step S410). Then determine whether a still image to be next reproduced (step S411). If so, the procedure returns to step S403. In the opposite case, the procedure stops (step S411). In the case of playback of a set of cells repeat the whole procedure.

Or instead of step 405 of determining the presence or absence of additional audio data, and step 406 to determine the presence or absence of the original audio data using first information group still images read in step S402, determine whether subject to playback a still image a still image having only videocast, have added to the original audio data, or have added additional audio data. If a still image has only videocast, then perform the steps S403 Aphodiinae image has additional audio data, then perform the steps S403, S404, S409, S410 and S411.

According to another aspect of this image, to playback the playback mode set using the user interface to determine whether to play only a still image, the still image and the original audio data, the still image and the additional audio data together.

Fig. 29 is a sequence diagram of reproduction of the still image according to another implementation of the given image, i.e., how to replay data in the case when the virtual deletion information in the still image is set to the virtual delete. Referring to Fig.29, read the information PP and the cell information (step S501). Identification information for the subject to group playback of still images, the identification information of the beginning of the play, and the information identifying the playback is finished reading from the information of the cell to read the group of still images, the specified cell (step S502). Information display for the video portion, relevant information, and is considered the volume of the video portion and the virtual deletion information (step S503).

When it is determined that the virtual deletion information set to the virtual delete, the still image is set to the virtual delete, reproduce should not be. Therefore, playback skipping, and the procedure goes to step S508.

If the virtual deletion information is set to the virtual delete at step S504, the position of the desired still image is calculated by using the read information to the video portion, and video data located at the calculated position, read and decode for playback of a still image (step S505). The position of the desired still image is obtained by summing the original position of the group of still images and the size of data preceding the desired still image. When playing back still images to determine that you've added audio to still images (step S506). If added, then the audio data is read and decode for playback of audio data (step S507). To still image add two types of audio data, namely: the original audio data recorded with the video data of a still image, and Ni is and audio data, the additional audio data is automatically reproduced, either one type of the audio data selected by the user for playback.

The position reading original audio data is obtained by summing the calculated position of the still image for more audiography and volume of videocosta a still image. The position of the additional audio data is obtained by summing the initial position for more audiography and amount of additional audio data preceding the additional audio data having identification information for the additional audio information for more audiography.

Check whether reproduced all still images belonging to a given cell, using the information in the cell, and then determines whether a still image for the next playback (step S503). If so, read the information for the video portion of the next playback a still image (step S503). In the opposite case, the procedure stops. In the case of playback of a set of cells repeat the whole procedure.

Fig. 30A and 30B depict a sequence diagram of a method for UDA who isolately actually intends to remove certain still image and/or additional audio data. Referring to Fig.30, the user enters the delete command to delete a specific still image (step S601). According to the delete command information, the virtual removal of still images corresponding to the information group of still images set to the virtual delete "1" (step S602). Determine whether the state of the virtual delete "1" virtual deletion information for all still images in the relevant information of the group of still images (step S603). If the virtual delete all still images in the relevant information of the group of still images set to the virtual delete "1", then the corresponding group of still images is actually removed from the information, still image information of the group still image adjust (step S604). All data in the corresponding group of still images is actually removed from the data file of still images, and plot the corresponding group of still images set as a free area (step S605). In the free section, you can record other still image is EET whether the virtual remote still picture additional audio data (step S606). If so, the virtual deletion information for the additional audio data in the corresponding information for more audiography set in state "1" of the virtual removal (step S607). Determine whether the virtual deletion information for all additional audiodata in the appropriate information for more audiography in the state "1" of the virtual removal (step S608). If the virtual deletion information for all additional audiodata in the appropriate information for more audiography is set to "1" virtual deletion, then audiograph actually removed from the additional audio information, and information for more audiography correct (step S609). All data in the corresponding additional audiogramme actually removed from the file of the additional audio data (step S610).

According to the above description, the present invention during playback of the virtual remote still image does not reproduce using the virtual deletion information. It is possible to prevent the scatter plots of the record, when some data files are removed upon request polzovatelyami, added to the virtual remote stationary image, you can virtually remove, and also you can virtually remove the additional audio data corresponding to a still image. Virtual remote still image or additional audio data in units of groups are actually removed from the file and so you can reserve a free spot to write new data.

Using the maximum information you can burn a significant number of still images added to them initial audiocasts and additional audio data. During playback, the data can be displayed and edited in units of still images. It is also possible using an optional audio to listen to the audio after recording. Display and/or audiolibrary for still images can be formed in the order they were recorded bit streams, thereby enabling effective information management.

1. Recording medium, characterized in that it contains the first area having a set of data of still images and a second region having the first virtual deletion information for the data of still images, and a specified maximum number of groups in order to manage the data of still images at the group level, with the first virtual deletion information is information of a group of still images and if the first virtual deletion information set to the virtual delete the corresponding data of the still images do not reproduce.

2. The recording medium under item 1, characterized in that the video portion for still image data and the original audio portion recorded consecutively after videocosta, contained in the first region and not the video portion of a still image or the original audio portion does not reproduce if the first virtual deletion information set to the virtual delete.

3. The recording medium on p. 1, wherein if the state of the virtual removal of the first virtual deletion information is cancelled, the corresponding data is a still image restore.

4. The recording medium under item 1, characterized in that if the data are all still images belonging to the group of still images within the group of still images set to the virtual delete, delete all data belonging to the group of still images, and the different themes, which also contains a third region having a set of additional audiodata added to the data of still images and the group of still images also contains information for connectivity between the data of still images in the first area and additional audiocasts in the third area.

6. The recording medium on p. 5, characterized in that the second region also contains information for more audiography to group a set of additional audio data and management information for more audiography also contains the second virtual deletion information for virtually deleting the additional audio data, while the second virtual deletion information for additional audiodata corresponding to still image data, the first virtual deletion information which is in the state of the virtual removal is set to the virtual delete and additional audio portion installed in the state of the virtual removal, do not reproduce.

7. The recording medium on p. 6, wherein if the state of the second virtual deletion information of the virtual UD and on p. 6, characterized in that if all the additional audio portion of the additional audiography information for more audiography are in a state of virtual delete all data relevant for more audiography actually removes and deletes the corresponding information for more audiography.

9. The recording medium on p. 5, characterized in that each region from among the first, second and third regions is in a separate file.

10. The recording medium on p. 5, characterized in that the first and third areas are in the same file.

11. The recording medium under item 5, wherein information for the second area also contains General information the group of still images containing information relating to the number of groups still images, and for more General audio information contains information related to the number of additional autogroup.

12. The recording medium according to any one of paragraphs.1-5, characterized in that information of the group of still images contains General information the group of still images containing the source position of the group of still images, information related to the number of VI is containing information of position for the respective still images.

13. The recording media according to p. 12, characterized in that General group of still images also contains identification information for a group of still images.

14. The recording media according to p. 12, characterized in that the information provisions for the respective still images contains the amount of videocosta and the first virtual deletion information.

15. The recording media according to p. 14, characterized in that the information provisions for the respective still images also contains the amount of audiodata for the original audio data for a still image.

16. The recording media according to p. 14, characterized in that the information provisions for the respective still images also contains identification information for data of a still image in the group of still images.

17. The recording media according to p. 12, wherein the information for the respective still images also contains information connectivity, indicating additional audio data.

18. The recording medium under item 17, characterized in that the information connectivity also contains identification information for additional audiography, Okaloosa additional audiogramme.

19. The recording medium on p. 5, characterized in that the additional information audiography contains General information for more audiography containing the source position data for more audiography and information related to the number of additional audiodata additional audiogramme, and information for the additional audio data, and said information includes information provisions for additional audio data.

20. The recording media according to p. 19, wherein the General information for more audiography also contains identification information for additional audiography and information for the respective additional audiodata also contains identification information for the additional audio data in the additional audiogramme.

21. The recording media according to p. 19, characterized in that the information provisions for appropriate additional audiodata contains the second virtual deletion information and information of the amount of additional audiodata.

22. The recording medium under item 1 or 5, characterized in that the second area also remembers the playback information related to playback.

23. Media nepodvizhnykh images and information for the beginning and end of playback in a group of still images.

24. The recording media according to p. 22, wherein the playback information is used for all or some groups still images.

25. Method for recording and/or reproducing audio and/or video data on a recordable and/or rewritable storage medium, wherein (a) write a set of input data of still images and (b) divide the set of data of still image for a pre-defined maximum number of groups, and record information of the group of still images having the first virtual deletion information for the respective still images, established in the state of the virtual removal by the user, and playback information related to playback.

26. The method according to p. 25, wherein when recording the aggregate input still picture original audio data added to the input data is a still image, write sequentially after the data still image.

27. The method according to p. 25, characterized in that the information g the position to the initial position data of a group of still images, and information related to the number of videocosta in the group of still images, and information for the respective still images has information provisions for the respective still images.

28. The method according to p. 25, characterized in that it further (in) write in a separate section of the additional audio data added to the data of a still image after the recording of the still image data, and (g) record information for more audiography with the second virtual deletion information for virtually deleting the additional audio data corresponding to the still image having the first virtual deletion information set to the state of the virtual deletion information for the separation of the additional audio data at the specified maximum number of groups in order to control additional audio data at the group level, and the second virtual deletion information is information division additional audio data, and information indicating the additional audio data corresponding to the still image information of the group of still images.

29. The method according to p. 28, is their original position data group of still images, information relating to the number of videocosta in the group of still image information for the respective still images with information provisions for the respective still images, and information indicating the additional audio data.

30. The method according to p. 29, characterized in that the information provisions for the respective still images contains the first virtual deletion information and information volume for the video portion.

31. The method according to p. 30, characterized in that the information provisions for the respective still image information volume of the original audio data added to the data of still images.

32. The method according to p. 28, wherein the information indicating the additional audio data contains identification information for additional audiography and identification information for the additional audio data in the additional audiogramme.

33. The method according to p. 28, characterized in that information for more audiography contains General information for more audiography containing the source position data for more audiography, information, unisadhuguna, moreover, this information contains the second virtual deletion information and the volume information for the additional audio data.

34. The method according to p. 33, wherein the General information for more audiography also contains identification information for additional audiography and information for the respective additional audiodata also contains identification information for additional audiodata additional audiogramme.

35. The method according to p. 28, wherein the additional audio data memorize the file is not a file for the data of still images.

36. The method according to p. 28, wherein the additional audio data is remembered in a separate section of the same file that stores data of still images.

37. The method according to p. 25, characterized in that it further (d) read the data of the group of still images to be reproduced according to the reproduction, (e) calculate the position of the desired still image according to the read data group of still images and reproduce data of still images in the calculated position, and not what I read data group of still images, established in the state of the virtual removal.

38. The method according to p. 37, characterized in that it further (g) calculate the initial position of the audio data for a still image according to the read information of the group of still images and reproduce the original audio data located at the calculated position, it does not reproduce the original audio data added to the still image data having the first virtual deletion information contained in the read information of the group of still images, established in the state of the virtual removal.

39. The method according to p. 38, characterized in that the position of the desired still image is obtained by summing the original position of the group of still images in a matter of information group of still images and volumes of data preceding the desired still image, and the position of the original audio data is obtained by summing the calculated position of the still image and the size of videocosta still image.

40. The method according to p. 37, wherein if the state of the first virtual deletion information of the virtual UDA is audica fact, in the calculation of the position of the desired still image (E1) actually deletes all the data in the group of still images and delete the relevant information of the group of still images, if it is determined that all the still images in the group of still images set to the virtual delete.

42. The method according to p. 28, characterized in that it further (C) calculate the position of the additional audio data corresponding to a still image according to the additional audiography if there is information indicating additional audiograph in the read data group of still images, and reproduce the additional audio data, it does not reproduce the additional audio data having the second virtual deletion information corresponding to the still image data having the first virtual deletion information set to the virtual delete, and installed in the state of the virtual removal.

43. The method according to p. 42, wherein if the state of the virtual removal of the second virtual deletion information is cancelled, then reproduce the relevant updat the selected audio data (1) actually deletes all the data in the additional audiogramme and remove relevant information for more audiography, if it is determined that all the additional audio portion of the additional audiogramme data for more audiography set to the virtual delete.

45. The method according to p. 42, characterized in that the positioning of the additional audio data is obtained by summing the initial position for more audiography information for more audiography and amounts of data preceding the desired additional audio data.

46. A device for recording and/or reproducing audio and/or video data on a recordable and/or rewritable storage medium, characterized in that it contains a CPU write signal processing together of still images to be written to the first area on the recording medium, and a controller for controlling the first virtual deletion information for still images, established in the state of the virtual removal by the user, with the first virtual deletion information contained in the information group of still images to separate still images in the first area on the specified maximum number of groups in order to manage the data of still images at the group level, for the formation of the formation playback, which should be recorded in the second area.

47. The device according to p. 46, wherein the processor records are also made with the possibility to record the original audio data added to the input data of a still image sequentially after the data still image.

48. The device according to p. 46, wherein the information of the group of still images contains General information the group of still images containing the source position of the group of still images, and information related to the number of videocosta in the group of still images, and information for the respective still images, and this information contains information provisions for the respective still images.

49. The device according to p. 46, wherein the processor records configured to record additional audio data added to the data for a still image after the recording of the still image data in the third area, and the controller is configured to manage information for more audiography with the second virtual deletion information for the virtual removal of additional audioline in the state of the virtual removal, with the first virtual deletion information is information of a group of still images to separate the additional audio data at the specified maximum number of groups in order to control additional audio data at the group level, and information indicating the additional audio data subject to entry in the second field.

50. The device according to p. 49, characterized in that each region from among the first, second and third regions is in a separate file.

51. The device according to p. 49, wherein the first and second areas are in the same file.

52. The device according to p. 49, wherein the information of the group of still images contains General information the group of still images containing the source position of the group of still images, and information related to the number of videocosta in the group of still images, and contains information for the respective still images, and this information contains information provisions for the respective still images, and information indicating the additional audio data.

53. The device according to p. 52, characterized in that the information progenitalis removal.

54. The device according to p. 53, characterized in that the information provisions for the respective still images contains information volume audiodata for the original audio data added to data of a still image.

55. The device according to p. 52, wherein the information indicating the additional audio data contains identification information for additional audiography and identification information for the additional audio data in the corresponding additional audiogramme.

56. The device according to p. 52, wherein the information further audiography contains General information for more audiography containing the source position data for more audiography, information relating to the number of additional audiodata additional audiogramme, and information for relevant additional audiocasts, and this information contains the second virtual deletion information and information volume for additional audiodata.

57. The device according to p. 56, wherein the General information for more audiography also contains information for additional audiography and information are appropriate to the particular additional audiogramme.

58. The device according to p. 46, wherein the playback information includes identification information indicating additional audiograph, and information identifying the position of the start and end of playback, additional audiogramme.

59. The device according to p. 46, characterized in that it further comprises a processor to play back data of still images in the first area on the basis of information of a group of still images in the second field when the processor is not mentioned reproduces the still image data having the first virtual deletion information set to the virtual delete.

60. The device according to p. 59, wherein the processor virtual deletion does not play any of the video portion of a still image having the first virtual deletion information set to the virtual delete, or their original audio data, if the video portion of still images and the audio portion of the original recorded consecutively after videocosta, contained in the first area.

61. The device according to p. 59, wherein if the status virtualbinding image.

62. The device according to p. 46, characterized in that the controller is actually made with the possibility to delete all data in the group of still images and delete the relevant information of the group of still images, if it is determined that all the still images in the group of still images set to the virtual delete.

63. The device according to p. 59, wherein the playback processor has a capability to play back still images in the first region and the additional audio data added to the data of still images, on the basis of information of a group of still images in the second area, in fact the processor does not play additional audio data having the second virtual deletion information set to the virtual delete, and the state of the virtual removal corresponds to the still image having the first virtual deletion information set to the virtual delete.

64. The device according to p. 63, wherein if the state of the virtual removal of the first virtual deletion information cancel, reproduce zootechnichesky made with the possibility to delete all data in the additional audiogramme and delete the corresponding information for more audiography, if it is determined that all the additional audio portion of the additional audiogramme set to the virtual delete.

66. The device according to p. 63, wherein the processor virtual deletion is made with the ability to play back a still image, based on the position obtained by summing the original position of the group of still images in the group information to the still image in the second area and volume of data, the previous data for a still shows the original audio data located at the position obtained by summing the calculated position of the still image, and volumes of videocosta still image data and the additional audio data located at the position obtained by summing the initial position for more audiography information for more audiography in the second region and the amount of data preceding the desired additional audio data.

Priorities for items:

24.06.1998 on PP.1-45;

26.10.1998 on PP.46-66.

 

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16 cl, 11 dwg

FIELD: printing industry.

SUBSTANCE: invention relates to manufacturing of wall-paper on the basis on digital image. Method of printing wall-paper in printing system, containing main computer connected with printing devices, subscriber computer, and means of communication, providing interaction of subscriber computer and main computer, including stages: (a) setting of overall dimension of produced wall-paper, (b) transmission of digital image from subscriber computer to main computer via means of communication for formation of wall-paper pattern, (c) change of wall-paper pattern dimensions on main computer to dimensions in fact equal to overall dimension of final wall-paper, (d) dividing of wall-paper pattern with changed dimensions for printing by parts on several pieces in such way that printed pieces could be matches in order to restore wall-paper pattern, (e) transmission from main computer to subscriber computer via means of communication of several printed pieces, (f) reproduction of several printed pieces on subscriber computer display screen in order for customer to look them through, and (g) printing on printing devices of main computer of several pieces.

EFFECT: invention allows conveniently and cheaply to print custom-designed wall-paper, customer being able to make decisions with respect to correctness of piece edge location on wall-paper pattern.

8 cl, 4 dwg

FIELD: information technology.

SUBSTANCE: method of creating static, dynamic or animation images on a mobile communication device equipped with a photographic camera involves recording templates of static and/or dynamic and/or animation images, in which there are allocated places or an allocated place in which there is no image, into the memory of a mobile telephone during its manufacture or use. When creating static, dynamic or animation images, the user pulls out the template of a static image or template key frame of a dynamic image or key frame of an animation image onto the screen of the mobile communication device and superposes borders of the photographed fragment with borders of the allocated places of the templates and takes a photograph. For dynamic and animation images, the photographed object is distributed to all frames. Further, the obtained image is displayed as an icon and/or stored.

EFFECT: broader functional capabilities of mobile communication devices.

FIELD: information technologies.

SUBSTANCE: final image is produced by means of aiming and fixation of photographed object into identified areas by template of previously made image in static or dynamic form.

EFFECT: invention provides for the possibility to simply and accurately create combined high-quality creative images with ambient sound for users without special skills, with the possibility to clearly see supposed result of combination with the help of individual communication devices.

14 cl

FIELD: information technologies.

SUBSTANCE: modular structure of content may include container of file format joined to modular parts. Fire format includes logically separate modular parts, which are joined to each other by means of one or more connections, besides each modular part is related to type of connection. Modular parts include the following: part "presentation", representing initial part for presentation, part "slide master", related to part "presentation", and "slide model" related to part "master slide". Modular parts may also include part "properties of document", comprising inbuilt properties related to file format, part "miniature sketch" comprising joined miniature sketches, and part "slide" comprising slide in presentation. Each modular part may be requested separately, extracted from presentation and/or repeatedly used in other presentation.

EFFECT: expansion of functional capabilities due to provision of repeated use of parts "slide model" and "slide master" in other presentation together with joined modular parts.

16 cl, 7 dwg

FIELD: information technology.

SUBSTANCE: generation employs a method of searching for exact matching on all three channels RGB and optimised colouring in case of insufficient exact matching of colours. The data base of initial images is collated and the images are then sorted and a static and a dynamic coordinate grid are then superimposed onto the target image, where the image is placed in the cells of the grid. A tile-image is generated and then converted to digital form with possibility of transmission by electronic devices and printing on a printer. The initial image is broken into elements of fixed dimensions with possibility of changing dimensions of the cells depending on dimensions of the initial images. The initial image is selected from the sum of moduli of deviation on all three colour channels RGB. The initial image is corrected such that its average value becomes equal to the average value of the colour of the tile on the target image. Each initial image is then scaled to given dimensions and inserted into the corresponding position of the created tile-image.

EFFECT: high quality of tile-images and broader functional capabilities.

9 cl, 6 dwg

FIELD: technology for encoding and decoding of given three-dimensional objects, consisting of point texture data, voxel data or octet tree data.

SUBSTANCE: method for encoding data pertaining to three-dimensional objects includes following procedures as follows: forming of three-dimensional objects data, having tree-like structure, with marks assigned to nodes pointing out their types; encoding of data nodes of three-dimensional objects; and forming of three-dimensional objects data for objects, nodes of which are encoded into bit stream.

EFFECT: higher compression level for information about image with depth.

12 cl, 29 dwg

FIELD: information technology.

SUBSTANCE: disclosed is a method for graphic processing, comprising steps on which: depth of at least two blocks of pixels is tested in parallel, and it is determined whether all pixels of both blocks are excluded and if so, these blocks are ignored when testing depth. In another version, said block of pixels is a rectangular array of pixels, and pixels with minimum and maximum depth values among all pixels in the block correspond to corners of the said rectangular array of pixels.

EFFECT: high rate of testing depth in order to exclude a hidden surface during graphic processing.

10 cl, 4 dwg

FIELD: information technology.

SUBSTANCE: invention relates to image processing, in particular, to a method of objects replacement in a video stream. Said technical result is achieved due to that a stereoscopic field image is created, which serves to measure a distance from the camera and to determine foreground objects, background objects and overlapping objects. Stereoscopic image can be provided by a 3D camera or it can be created by means of a signal coming from one or several cameras. Texture of objects to be replaced can be static or dynamic. Method requires no special equipment to monitor the camera position, and it can be used for live content, as well as an archive material. Invention uses the advantage of initial material to be replaced, in a specific case, when the object to be replaced is filled in electronically.

EFFECT: technical result is inserting replacement images into a video stream without the need to receive and transmit parameters of the camera via a sensor equipment mounted on a tripod and without the need of a static model of the real environment.

21 cl, 8 dwg

FIELD: optical data carriers.

SUBSTANCE: method includes stages, during which manufacturer information is recorded on carrier, which is used for supporting specific function of manufacturer, while manufacturer information contains identification information of recorder manufacture, which recorded and/or modified data of data carrier, different from identification information before recording or modification.

EFFECT: higher speed of operation, higher efficiency.

6 cl, 8 dwg

FIELD: optical data carriers.

SUBSTANCE: information of manufacturer, recorded by recording controller for recording manufacturer information, is used for supporting specific manufacturer-provided functions, and has an individual format, incompatible to those of other manufacturers. Also, manufacturer information recorded on data carrier contains identification information of recording device manufacturer, which can include model code of recording device. Manufacturer information recorded by device can be used during recording, editing or reproduction of data.

EFFECT: shorter time span, required for determining, whether information units of manufacturer, recorded on data carrier, are valid for current recording and/or reproducing device.

6 cl, 8 dwg

FIELD: systems for creating data on moving objects.

SUBSTANCE: system for creating data on moving images has developing aid which serves for film development presented to consumer, reading-out device which serves for reading data out on multiplicity of motionless images received from developed film, aid for creating difference data for data on any image from multiplicity of motionless images. Mentioned difference data have to be difference between data on specific number of motionless images. Mentioned number of images is calculated on base of preset time of representation of single image. Device also has recording aid used for recording data on moving images, of data on motionless images, program for showing slides and musical data on carrier for data recording. Described system provides easy demonstration of photographic image onto screen of domestic device for reproduction of moving images.

EFFECT: comfort at use.

19 cl, 16 dwg

FIELD: information technologies.

SUBSTANCE: invention is related to coding of video data, and more precisely, to editing of video fragments. Device is suggested for editing of multimedia file, which comprises frame analyser to identify whether input vide frames have frame characteristics suitable for editing in compressed area or editing in spatial area. For those frames that are suitable foe editing in compressed area, frame analyser provides data of frames for processing processor in compressed area so that data of video frames could be modified in compressed area. For those frames that are suitable for editing only in spatial area, frame analyser transmits frame data into decoder and then to processing processor in spatial area for modification of these frames. Modified data in various fields are combined and converted into file format by file former of formats. Besides syntactical analyser of file formats is used for separation of audio data from video data so that sound data could also be modified, if required.

EFFECT: higher efficiency of multimedia data editing with reduction of computer resource of mobile device.

47 cl, 10 dwg

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