JP2005051411A - Data reproducing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide data reproducing apparatus that allows a user to easily select a position for program search when searching for the reproduction position. <P>SOLUTION: According to input from an operation part 2, a selection frame 1 and a selection frame 2 of a 9-division screens on a menu screen are identified, the period of reproduction from the specified selection frame 1 to the selection frame 2 is divided into nines, and addresses of encoded image data corresponding to screens of head frames in respective partial moving images corresponding to divided periods are calculated respectively. Nine pieces of encoded image data corresponding to the calculated addresses are read out of a hard disk drive 10 and decoded by an MPEG decoder 12, and screens corresponding to the nine pieces of decoded image data are embedded at specified positions on the menu screen. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data reproducing apparatus for reproducing video data, and more particularly to a display configuration for searching a reproduction position for cue reproduction.
[0002]
[Prior art]
Conventionally, in a data reproduction apparatus, when a user performs an operation of reproduction from a specific reproduction position, moving image data is displayed on one screen for each frame. Therefore, when searching at a high speed search (for example, 260 × speed), when searching for a specific playback position by rewinding or fast forwarding, frames are displayed on a single screen at predetermined frame intervals or at predetermined intervals. It was skipped every time interval.
[0003]
In addition, there is a recording / playback apparatus that displays a plurality of fixed still images on a display screen and allows a user to select a playback position for cue playback from the displayed still images.
[0004]
For example, as a conventional example, the following configuration is known for an image recording / reproducing apparatus capable of easily and quickly confirming recorded contents and searching for a recording location (see, for example, Patent Document 1).
[0005]
That is, in the conventional example, the first screen of the program divided by the index signal is stored as a multi-screen at the beginning of the magnetic tape by the recording circuit, and when the program is searched, this multi-screen is displayed as a list and a linear time counter display A configuration of an image recording / reproducing apparatus for selecting a desired program based on a count value of an index signal counted by a unit is disclosed.
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 6-168545
[0007]
[Problems to be solved by the invention]
However, as described above, in the recording / reproducing apparatus as in Patent Document 1, what can be displayed on the screen is the initial screen for each recorded program.
[0008]
For this reason, when the user searches for a playback position to be specified other than the still image displayed on the menu screen, the user selects and plays back the still image displayed on the menu screen, and then the playback specified by the user. It was necessary to conduct a search for the position further, which was troublesome twice.
[0009]
The present invention has been made to solve the above-described problems, and an object of the present invention is to reproduce data so that a user can easily select a position for cue reproduction when searching for a reproduction position. Is to provide a device.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, according to one aspect of the present invention, an input unit for receiving an input instruction from the outside and a plurality of screens reproduced along a time axis constituting a moving image are provided. Data reading means for reading out encoded image data at a designated address from a medium in which encoded image data is stored in association with an address; and reproducing means for decoding and reproducing the read out encoded image data And a buffer means for temporarily storing the decoded decoded image data, and a predetermined number of a plurality of screens constituting a moving image on the menu screen based on the decoded image data. Control means for generating a signal for displaying the screen is further provided, and the control means has a predetermined number on the menu screen in response to an input from the input means. The selection control means for specifying the first screen and the second screen of the screen, the reproduction period from the specified first screen to the second screen is divided by a predetermined number, and the divided period Address calculating means for calculating each address of encoded image data corresponding to one of a plurality of screens constituting the partial moving image with respect to each of the partial moving images corresponding to A predetermined number of encoded image data respectively corresponding to the calculated addresses, read by the data reading means, decoded by the reproducing means, and stored in the buffer means; and a predetermined number of image data reading control means Display image generating means for embedding a screen corresponding to the decoded image data at a predetermined position on the menu screen, and the identified first screen and second screen are the same Particular response, starting from the same screen identified, further comprising an image output means for outputting a video signal to an external corresponding to a plurality of coded image data stored in the medium.
[0011]
According to another aspect of the present invention, there is provided a data reproducing apparatus including an input unit for receiving an input instruction from the outside, and encoded image data corresponding respectively to a plurality of screens reproduced along a time axis constituting a moving image. Is read out from the medium stored in association with the address, data reading means for reading the encoded image data at the specified address, reproduction means for decoding and reproducing the read encoded image data, and Control means for generating a signal for displaying a predetermined number of screens out of a plurality of screens constituting a moving image on the menu screen based on the decoded image data, and the control means comprises input means Selection control means for specifying the first screen and the second screen among the predetermined number of screens on the menu screen in response to the input from the second screen, and the second screen from the specified first screen to the second screen The reproduction period up to the plane is divided by a predetermined number, and each of the partial moving images corresponding to the divided period corresponds to one of a plurality of screens constituting the partial moving image on the basis of the first screen. Address calculating means for calculating the address of each of the encoded image data, and an image for causing the data reading means to read out a predetermined number of encoded image data respectively corresponding to the calculated addresses and for decoding by the reproducing means Data read control means and display image generation means for embedding each of the screens corresponding to a predetermined number of decoded image data at a predetermined position on the menu screen.
[0012]
Preferably, the control means further includes a reproduction position designation means for designating a reproduction start position in the moving image in response to an input from the input means, and the medium designated from the screen designated by the reproduction position designation means Is further provided with an image output means for outputting a video signal corresponding to the plurality of encoded image data stored in.
[0013]
Preferably, the reproduction position designating unit designates the identified same screen as the reproduction start position in response to the first screen and the second screen identified by the selection control unit being the same.
[0014]
Preferably, the reproduction position designating unit is configured to select the first screen and the second screen according to the specification of either the first screen or the second screen by the selection control unit and the input from the input unit. One of the specified ones is designated as the reproduction start position.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, the same components are denoted by the same reference numerals, and their names and functions are also the same. Therefore, detailed description thereof will not be repeated.
[0016]
FIG. 1 is a functional block diagram showing a configuration of an information recording / reproducing apparatus 100 which is an example of a data reproducing apparatus of the present invention.
[0017]
Referring to FIG. 1, information recording / reproducing apparatus 100 receives an operation unit 2 for receiving an instruction input from a user and an analog television signal (hereinafter referred to as a TV signal) included in the television broadcast. A tuner 6 for encoding, a moving picture expert group (MPEG) encoder 8 for encoding a TV signal supplied from the tuner 6 into moving image digital data (hereinafter referred to as moving image data), and moving image data are stored. A hard disk device 10 for decoding, an MPEG decoder 12 for decoding moving image data into a TV signal, an output terminal 14 for connecting to an external device, and a control unit for controlling the operation of the information recording / reproducing device 100 16 and an external memory 4 for buffering frame data. The TV signal includes at least a video signal. If the signal received by the tuner 6 is a digital signal, the encoding process by the MPEG encoder 8 may be omitted.
[0018]
The control unit 16 includes a system control circuit 18 having an internal memory 26 for temporarily storing reproduction / recording information, and an OSD (On Screen Display) image generation circuit 20 for generating a menu screen. Information stored in the internal memory 26 may be stored in the external memory 4.
[0019]
Further, the hard disk device 10 correlates each of a plurality of encoded frame data included in the moving image data with an address corresponding to a plurality of frames reproduced along the time axis constituting the moving image data. A hard disk 22 for storing data and a recording / reproducing head 24 for writing and reading data from the hard disk 22.
[0020]
Next, the operation of the information recording / reproducing apparatus 100 in the embodiment of the present invention will be described.
[0021]
When the user performs various operations using the operation unit 2, the system control circuit 18 can operate the information recording / reproducing apparatus 100 based on the various operations.
[0022]
“Various operations” are, for example, a channel (hereinafter referred to as CH) designation operation, a recorded program designation operation, a recording command operation, a reproduction command operation, a recording stop operation, a reproduction stop operation, and the like.
[0023]
Further, the operation unit 2 supplies various operation signals to the system control circuit 18 in accordance with user operations. The operation unit 2 may be a remote controller (not shown) that is separated from the information recording / reproducing apparatus 100.
[0024]
When an instruction to change the channel is input to the operation unit 2 by the user, an analog television broadcast (NTSC (National Television Standards Committee) method, PAL (Phase Alternation by Line) method), or SECAM (Sequential) is input from the system control circuit 18. A CH designation signal such as (Coolur A Memory) system) is supplied to the tuner 6. The tuner 6 receives an analog television broadcast wave corresponding to the designated CH. At this time, the tuner 6 supplies a TV signal obtained by demodulating the received analog television broadcast wave to the MPEG encoder 8. The MPEG encoder 8 performs an MPEG encoding process on the TV signal based on the encode control signal of the system control circuit 18. The TV signal that has been subjected to the MPEG encoding process is converted into moving image data. The moving image data is written into the hard disk device 10 by the system control circuit 18. The hard disk device 10 writes moving image data and also reads out the written moving image data by a read control signal from the system control circuit 18. Then, the MPEG decoder 12 performs an MPEG decoding process on the read moving image data based on the decoding control signal from the system control circuit 18. The moving image data that has been subjected to the MPEG decoding process is converted into a TV signal. The converted TV signal is output to an external device via the output terminal 14. Although it does not specifically limit as an external apparatus, For example, it is the display apparatus 200.
[0025]
The OSD image generation circuit 20 generates an information display image for displaying an image corresponding to various information display signals supplied from the system control circuit 18. The generated information display image is output to the outside through the output terminal 14 as a video signal. The information display image includes, for example, a menu screen for searching for a reproduction position specified by the user in the moving image data.
[0026]
The display device 200 displays the information display image generated by the OSD image generation circuit 20 based on the video signal output from the output terminal 14.
[0027]
In addition, the information recording / reproducing apparatus 100 operates as an operation mode in which a menu screen for a user to search for a specific reproduction position is output as a video signal to the display device 200 for display, and normal reproduction is performed. And a normal playback mode for performing.
[0028]
Next, when the information recording / reproducing apparatus 100 according to the embodiment of the present invention is in the menu output mode, the menu screen for the user to specify the reproduction position is output to the display apparatus 200 according to the selection of the moving image data by the user. The operation at that time will be described.
[0029]
The system control circuit 18 divides the total reproduction time by a predetermined number of divisions based on the reproduction information included in the header portion of the moving image data in response to the selection of moving image data by the user's operation unit 2 operation. . The predetermined number of divisions may be stored in the internal memory 26 in advance, or may be stored in the internal memory 26 in accordance with the designation of the number of divisions by the user. Further, the predetermined number of divisions is not particularly limited as long as it is three divisions or more. Further, the reproduction time may be divided equally or may be divided at a predetermined ratio.
[0030]
At this time, the system control circuit 18 specifies nine partial data areas on the hard disk 22 in which the selected moving image data is stored so as to correspond to the divided time divided into nine. Then, the system control circuit 18 calculates the address of the first frame in each of the nine specified partial data areas based on the address information associated with the moving image data stored in the hard disk 22. The partial data area may not necessarily be a continuous area as long as the data corresponding to the moving image data of the divided time can be specified by the specific address. The frame whose address is calculated by the system control circuit 18 is not particularly limited to the first frame of each of the nine partial data areas. For example, in each of the partial data areas, the system control circuit 18 may calculate the address of a frame after a predetermined frame interval on the basis of the first frame.
[0031]
Based on the calculated address, the system control circuit 18 reads out encoded encoded frame data included in the nine partial data areas, and performs an operation of generating a menu screen.
[0032]
FIG. 2 is a schematic diagram showing the structure of moving image data when nine partial data areas are specified on the hard disk 22 based on the selected moving image data.
[0033]
Referring to FIG. 2, moving image data 28 includes a header portion 34 having management information such as reproduction time and bibliographic information such as a title, and an actual data portion 30 having a moving image main body. The actual data portion 30 includes partial data areas 30.1 to 30.9 divided into nine areas. Partial data areas 30.1 to 30.9 include the top frames 32.1 to 32.9 of the partial data areas.
[0034]
The system control circuit 18 divides the total reproduction time into nine based on the reproduction information included in the header section 34 in accordance with the selection of the moving image data 28. Then, the system control circuit 18 specifies partial data areas 30.1 to 30.9 on the hard disk 22 in which the moving image data 28 is stored so as to correspond to the divided time divided into nine. The system control circuit 18 sets addresses corresponding to the first frames 32.1 to 32.9 included in the partial data areas 30.1 to 30.9 based on the address information of the moving image data 28 stored in the hard disk 22. To calculate.
[0035]
At this time, the system control circuit 18 generates an address table based on the calculated nine addresses. The system control circuit 18 stores the generated address table in the internal memory 26.
[0036]
Then, the system control circuit 18 reads the encoded frame data corresponding to the first frames 32.1 to 32.9 from the hard disk 22 based on the stored address table, and the MPEG decoder 12 It is converted into decoded frame data and stored in the external memory 4.
[0037]
Alternatively, the system control circuit 18 sequentially reads the encoded frame data. The read encoded frame data is stored in the external memory 4. Then, the system control circuit 18 sequentially reads the encoded frame data corresponding to the first frames 32.1 to 32.9 from the external memory 4. The read encoded frame data is decoded by the MPEG decoder 12. The decoded frame data may be stored in the external memory 4 again.
[0038]
Then, the system control circuit 18 changes the decoded frame data stored in the external memory 4 to a predetermined size. The system control circuit 18 sends the decoded frame data, which is stored in the external memory 4 and changed to a predetermined size, to the OSD image generation circuit 20. The OSD image generation circuit 20 sequentially embeds the decoded frame data at a predetermined position on the menu screen. The menu screen generated in the OSD image generation circuit 20 is output to the outside as a video signal via the output terminal 14.
[0039]
FIG. 3 is a diagram conceptually illustrating an operation in which the OSD image generation circuit 20 embeds the frames included in the partial data areas 30.1 to 30.9 in the menu screen.
[0040]
Referring to FIG. 3, system control circuit 18 reads out decoded frame data corresponding to head frames 32.1 to 32.9 in partial data areas 30.1 to 30.9 from external memory 4, and performs predetermined processing. Change to the size of. Then, the OSD image generation circuit 20 embeds the decoded frame data whose size has been changed at a predetermined position on the menu screen. The generated menu screen is output as an image signal to an external device via the output terminal 14.
[0041]
As a result, a menu screen displaying nine frames is displayed on the display screen of the display device 200.
[0042]
Here, in response to the specification of one of the nine frames by the user, the system control circuit 18 starts reproduction with the identified frame as the reproduction position.
[0043]
Further, according to the specification of two of the nine frames by the user, the system control circuit 18 further divides the reproduction period between the two frames into nine. The system control circuit 18 causes the OSD image generation circuit 20 to display the first frame of each divided period on the menu screen.
[0044]
That is, the user can select two frames out of the nine frames by moving the selection cursor by operating the operation unit 2 (hereinafter, the first selected frame is the selected frame 1, 2). The frame selected by the eye is selected frame 2). That is, according to the selection of the selection frame 1 and the selection frame 2 by the user, the system control circuit 18 further divides the reproduction period of the moving image data between the selected selection frame 1 and the selection frame 2 into nine. Then, the OSD image generation circuit 20 embeds the head frame in a predetermined position on the menu screen in each partial moving image corresponding to the divided period.
[0045]
FIG. 4 is a diagram for explaining the operation of the information recording / reproducing apparatus 100 when the selection frame 1 and the selection frame 2 are selected by the user on the menu screen.
[0046]
FIG. 4A shows the operation of the information recording / reproducing apparatus 100 when the selected frame 1 and the selected frame 2 selected by the user are the same.
[0047]
Referring to FIG. 4A, the user selects selection frame 1 and selection frame 2 by inputting an instruction to operation unit 2. When the selected frame 1 and the selected frame 2 selected by the user are the same frame, the system control circuit 18 starts playback with the selected frame as the playback start position. That is, the user can start reproduction by the system control circuit 18 by specifying one of the nine frames and performing the selection operation twice. However, the reproduction start position is not particularly limited to being designated according to the fact that the selected frame 1 and the selected frame 2 are the same. For example, the reproduction may be started with the selected frame as the reproduction start position in accordance with the selection of the selected frame 1 and the input to the reproduction start operation key by the user.
[0048]
On the other hand, FIG. 4B is a diagram showing the operation of the information recording / reproducing apparatus 100 when the selection frame 1 and the selection frame 2 selected by the user are different.
[0049]
Referring to FIG. 4B, when the selection frame 1 and the selection frame 2 selected by the user input to the operation unit 2 are different frames, the system control circuit 18 performs the selection frame 1 to the selection frame 2. The playback period is divided into 9 again. Then, the OSD image generation circuit 20 performs an operation of embedding the head frame at a predetermined position on the menu screen described with reference to FIG. 3 in each partial moving image corresponding to the divided period.
[0050]
In the following, in accordance with the selection of the selection frame 1 and the selection frame 2 by the user, the system control circuit 18 again divides the reproduction period from the selection frame 1 to the selection frame 2 into nine, and the divided partial moving image is divided into nine. The operation of embedding the first frame of data in the menu screen will be described.
[0051]
FIG. 5 is a conceptual diagram for explaining an operation of dividing the reproduction period from the selection frame 1 to the selection frame 2 into nine.
[0052]
Referring to FIG. 5, the system control circuit 18 specifies an area corresponding to the reproduction period from the selection frame 1 to the selection frame 2 in the moving image data by the selection of the selection frame 1 and the selection frame 2 by the user. To do. Then, the system control circuit 18 divides the reproduction period from the selection frame 1 to the selection frame 2 into nine. At this time, the nine divisions of the reproduction period are not particularly limited, but for example, the system control circuit 18 firstly, from the reproduction start time to the selection frame 1 and from the selection frame 2 to the reproduction end time. The difference between the sum and the total playback time is taken. Then, the system control circuit 18 divides the obtained difference into nine. As a result, the system control circuit 18 can calculate a time interval that divides the reproduction period from the selected frame 1 to the selected frame 2 into nine. Then, the system control circuit 18 specifies the reproduction period divided into nine based on the calculated time interval.
[0053]
Alternatively, the system control circuit 18 can calculate the number of frames that divide the reproduction period into 9 between the selected frame 1 and the selected frame 2. Then, the system control circuit 18 may specify the reproduction period divided into nine based on the obtained number of frames.
[0054]
Then, the system control circuit 18 specifies partial data areas 38.1 to 38.9 corresponding to the reproduction period divided into nine. Then, the system control circuit 18 calculates an address corresponding to one of a plurality of frames constituting each partial moving image corresponding to the specified partial data areas 38.1 to 38.9. For example, the address of the first frame among a plurality of frames constituting each partial moving image may be calculated, or the address of a frame after a predetermined frame interval may be calculated using the first frame as a reference. Shall.
[0055]
In the embodiment of the present invention, the system control circuit 18 calculates addresses corresponding to the top frames 36.1 to 36.9 in the partial data areas 38.1 to 38.9, respectively. Then, the system control circuit 18 overwrites the address table stored in the internal memory 4 based on the calculated address. The system control circuit 18 calculates the addresses corresponding to the top frames 36.1 to 36.9 and stores them in the internal memory 4 in the same manner as when displaying the menu screen described with reference to FIG. Overwrite the address table.
[0056]
Then, the system control circuit 18 reads the encoded frame data from the hard disk 22 based on the overwritten address table. Then, the system control circuit 18 causes the MPEG decoder 12 to convert the encoded frame data into decoded frame data. The converted decoded frame data is stored in the external memory 4. Subsequently, the system control circuit 18 reads the decoded frame data from the external memory 4. Then, the system control circuit 18 changes the read decoded frame data to a predetermined size. Next, the OSD image generation circuit 20 embeds the decoded frame data whose size has been changed at a predetermined position on the menu screen. Subsequently, the generated menu screen is output as a video signal to an external device via the output terminal 14.
[0057]
As a result, a menu screen displaying nine frames on the display screen of the display device 200 is displayed. As described above, the user can identify two of the nine frames by moving the selection cursor again by operating the operation unit 2. Then, when the selected frame 1 and the selected frame 2 are the same frame, the system control circuit 18 starts reproduction with the selected frame as a starting point. On the other hand, when the selection frame 1 and the selection frame 2 are different frames, the system control circuit 18 divides the moving image data from the selection frame 1 to the selection frame 2 into nine as described with reference to FIG. The operation to display the menu screen is performed again.
[0058]
It should be noted that even if the selection frame 1 and the selection frame 2 are selected retroactively, that is, even if the frame of the selection frame 2 is played back earlier, When the selected frame 2 is selected, the system control circuit 18 compares the reproduction times of the selected frame 1 and the selected frame 2. Then, in accordance with the comparison result, the system control circuit 18 switches the frame of the selected frame 1 and the frame of the selected frame 2.
[0059]
Next, the operation when the information recording apparatus 100 displays a nine-frame menu screen on the display screen of the display apparatus 200 according to the selection of moving image data by the user will be described.
[0060]
FIG. 6 is a flowchart of the operation when the information recording / reproducing apparatus 100 displays nine frames on the menu screen according to the selection of moving image data.
[0061]
With reference to FIG. 6, first, the system control circuit 18 reads a header portion included in the moving image data in accordance with the selection of the moving image data by the user (step S101).
[0062]
Then, based on the reproduction information included in the header part, the system control circuit 18 divides the total reproduction time into nine (step S102).
[0063]
Next, based on the address information corresponding to the moving image data stored in the hard disk 22, the system control circuit 18 performs partial data areas 30.1 to 30... On the hard disk 22 so as to correspond to nine division times. 9 is specified (step S103).
[0064]
Subsequently, in the specified partial data areas 30.1 to 30.9, the addresses corresponding to the first frames 32.1 to 32.9 are calculated (step S104).
[0065]
Subsequently, the system control circuit 18 generates an address table based on each of the calculated addresses and stores it in the internal memory 26 (step S105).
[0066]
Then, the system control circuit 18 starts a menu display process for nine divided frames (step S106).
[0067]
FIG. 7 is a flowchart of the operation of the information recording / reproducing apparatus 100 when the menu display process of nine divided frames is performed.
[0068]
Referring to FIG. 7, first, system control circuit 18 reads addresses corresponding to the first frames of the nine partial data areas based on the address table (step S201).
[0069]
Next, in response to the read control signal from the system control circuit 18, the hard disk device 10 reads encoded frame data corresponding to the read address from the moving image data (step S202).
[0070]
Next, the MPEG decoder 12 decodes the read encoded frame data into decoded frame data and stores the decoded frame data in the external memory 4 (step S203).
[0071]
Then, the system control circuit 18 reads the decoded frame data from the external memory 4, changes it to a predetermined size, and stores it again in the external memory 4 (step S204).
[0072]
At this time, the system control circuit 18 determines whether or not nine pieces of decoded frame data have been acquired (step S205).
[0073]
If the decoded frame data for nine divisions has not been acquired in step S205, the system control circuit 18 returns the process to step S202.
[0074]
On the other hand, when the decoded frame data for nine divisions is acquired in step S205, the OSD image generation circuit 20 reads out the nine decoded frame data stored in the external memory 4 to obtain a predetermined position on the menu screen. And a menu screen is generated (step S206).
[0075]
Then, the system control circuit 18 outputs the generated menu screen to the outside as a video signal via the output terminal 14 (step S207).
[0076]
Next, the operation of the information recording apparatus 100 when the selection frame 1 and the selection frame 2 are selected in response to an instruction input to the operation unit 2 by the user will be described.
[0077]
8, 9 and 10 are flowcharts of the operation of the information recording / reproducing apparatus 100 when the selection frame 1 and the selection frame 2 are selected by the user.
[0078]
First, referring to FIG. 8, the system control circuit 18 determines the selected frame as the selected frame 1 based on the frame designated by the user's selection cursor on the menu screen (step S301).
[0079]
Next, the system control circuit 18 determines the selected frame as the selected frame 2 based on the frame designated by the user's selection cursor on the menu screen (step S302).
[0080]
Here, the system control circuit 18 determines whether or not the selected selection frame 1 and the selection frame 2 are the same frame (step S303).
[0081]
If the selected selection frame 1 and the selection frame 2 are not the same in step S303, the system control circuit 18 determines that the total playback time, the time from the start of playback to the selection frame 1 and the selection frame 2 to the end of playback. The time interval is calculated by dividing the time obtained by subtracting the time into nine (step S304).
[0082]
Then, the system control circuit 18 specifies the partial data areas 38.1 to 38.9 in the moving image data from the selected frame 1 to the selected frame 2 on the hard disk 22 based on the calculated time interval (step S305). .
[0083]
Next, referring to FIG. 9, the system control circuit 18 calculates an address corresponding to the first frame 36.1 of the partial data area 38.1 (step S306).
[0084]
Then, the system control circuit 18 overwrites the address table based on the calculated address and stores it in the internal memory 26 (step S307).
[0085]
Next, the system control circuit 18 calculates an address corresponding to the frame after the calculated time interval (step S308).
[0086]
Then, the system control circuit 18 overwrites the address table based on the calculated address and stores it in the internal memory 26 (step S309).
[0087]
The system control circuit 18 determines whether addresses for nine frames have been acquired (step S310).
[0088]
If the addresses for nine frames have not been acquired in step S310, the system control circuit 18 returns the process to step S308.
[0089]
On the other hand, if the addresses for nine frames have been acquired in step S310, the system control circuit 18 starts display processing for nine divided frames (step S311). The display process of nine divided frames performed based on the acquired addresses for nine frames is the same as the flowchart described with reference to FIG. Therefore, the description will not be repeated.
[0090]
Then, the system control circuit 18 returns the process to step S301.
If the selected frame 1 and the selected frame 2 are the same in step S303, the system control circuit 18 reads the address corresponding to the selected frame based on the address table with reference to FIG. Step S312).
[0091]
Next, the hard disk device 10 reads moving image data from an address corresponding to the selected frame (step S313).
[0092]
Subsequently, the MPEG decoder 12 decodes the read moving image data into a TV signal (step S314).
[0093]
Then, the system control circuit 18 outputs the decoded TV signal to the outside via the output terminal 14 (step S315).
[0094]
As described above, according to the present invention, in order to search the playback position, the playback time is divided into a predetermined number (for example, 9 divisions), and the head of each division time is displayed among the nine frames displayed. The user can easily select the position of the cue playback by repeatedly selecting the two and repeating the display of the moving image data between the selected frames into nine.
[0095]
Further, in response to selecting the same frame, the system control circuit 18 performs reproduction from the selected frame, so that the user can easily start reproduction from a desired scene.
[0096]
Alternatively, based on the selection of one of the nine frames and the operation signal from the user, the system control circuit 18 starts playback from the selected frame, so that the user can start from the desired scene. Playback can be performed.
[0097]
The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0098]
【The invention's effect】
A selection control means for specifying the first screen and the second screen among a predetermined number of screens on the menu screen in response to an input from the input means, and a second control from the specified first screen The playback period up to the screen is divided by a predetermined number, and each of the partial moving images corresponding to the divided period corresponds to one of a plurality of screens constituting the partial moving image on the basis of the first screen. Address calculating means for calculating the address of each of the encoded image data, and an image for causing the data reading means to read out a predetermined number of encoded image data respectively corresponding to the calculated addresses and for decoding by the reproducing means By including data read control means and display image generation means for embedding each of the screens corresponding to the predetermined number of decoded image data at predetermined positions on the menu screen, The can easily select the position of the cue playback.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a configuration of an information recording / reproducing apparatus 100 as an example of a data reproducing apparatus of the present invention.
FIG. 2 is a schematic diagram showing the structure of moving image data when nine partial data areas are specified on the hard disk 22 based on selected moving image data.
FIG. 3 is a diagram conceptually illustrating an operation in which an OSD image generation circuit 20 embeds frames included in partial data areas 30.1 to 30.9 in a menu screen.
FIG. 4 is a diagram for explaining the operation of the information recording / reproducing apparatus 100 when a selection frame 1 and a selection frame 2 are selected by a user on a menu screen.
FIG. 5 is a conceptual diagram for explaining an operation of dividing a reproduction period from a selection frame 1 to a selection frame 2 into nine.
FIG. 6 is a flowchart of an operation when the information recording / reproducing apparatus 100 displays nine frames on a menu screen in response to selection of moving image data.
FIG. 7 is a flowchart of the operation of the information recording / reproducing apparatus 100 when performing menu display processing for nine-divided frames.
FIG. 8 is a flowchart of the operation of the information recording / reproducing apparatus 100 when a selection frame 1 and a selection frame 2 are selected by a user.
FIG. 9 is a flowchart of the operation of the information recording / reproducing apparatus 100 when a selection frame 1 and a selection frame 2 are selected by a user.
FIG. 10 is a flowchart of the operation of the information recording / reproducing apparatus 100 when a selection frame 1 and a selection frame 2 are selected by a user.
[Explanation of symbols]
2 operation unit, 4 external memory, 6 tuner, 8 MPEG encoder, 10 hard disk drive, 12 MPEG decoder, 14 output terminal, 16 control unit, 18 system control circuit, 20 OSD image generation circuit, 22 hard disk, 24 recording / reproducing head , 26 Internal memory, 28 Moving image data, 30, Real data part, 30.1 to 30.9 Partial data area, 32.1 to 32.9 First frame, 34 Header part, 36.1 to 36.9 First frame 38.1 to 38.9 Partial data area, 100 information recording / reproducing apparatus, 200 display apparatus.

Claims (5)

Input means for receiving external input instructions;
Data reading for reading out encoded image data at a specified address from a medium in which encoded image data respectively corresponding to a plurality of screens reproduced along a time axis constituting a moving image is stored in association with an address Means,
Reproduction means for decoding and reproducing the read encoded image data;
In a data reproducing apparatus comprising buffer means for temporarily storing decoded decoded image data,
Control means for generating a signal for displaying a predetermined number of screens among the plurality of screens constituting the moving image on a menu screen based on the decoded image data,
The control means includes
Selection control means for specifying a first screen and a second screen among the predetermined number of the screens on the menu screen in response to an input from the input means;
The reproduction period from the specified first screen to the second screen is divided by the predetermined number, and the partial moving image is determined with reference to the first screen in each of the partial moving images corresponding to the divided period. Address calculating means for calculating each of the addresses of the encoded image data corresponding to one of a plurality of screens constituting an image;
Image data read control means for causing the data reading means to read the predetermined number of the encoded image data corresponding to the calculated addresses, decoding the reproducing means, and storing the decoded data in the buffer means When,
Display image generating means for embedding a screen corresponding to the predetermined number of the decoded image data at a predetermined position on the menu screen,
Corresponding to the plurality of encoded image data stored in the medium, starting from the specified same screen, in response to the specified first screen and the second screen being the same A data reproducing apparatus, further comprising an image output means for outputting a video signal to the outside. Input means for receiving external input instructions;
Data reading for reading out encoded image data at a specified address from a medium in which encoded image data respectively corresponding to a plurality of screens reproduced along a time axis constituting a moving image is stored in association with an address Means,
Reproduction means for decoding and reproducing the read encoded image data;
Control means for generating a signal for displaying a predetermined number of screens out of the plurality of screens constituting the moving image on a menu screen based on the decoded image data,
The control means includes
Selection control means for specifying a first screen and a second screen among the predetermined number of the screens on the menu screen in response to an input from the input means;
The reproduction period from the specified first screen to the second screen is divided by the predetermined number, and the partial moving image is determined with reference to the first screen in each of the partial moving images corresponding to the divided period. Address calculating means for calculating each of the addresses of the encoded image data corresponding to one of a plurality of screens constituting an image;
Image data read control means for causing the data read means to read the predetermined number of the encoded image data respectively corresponding to the calculated addresses, and decoding by the reproducing means;
And a display image generating means for embedding each of the screens corresponding to the predetermined number of the decoded image data at a predetermined position on the menu screen. The control means further includes a reproduction position designation means for designating a reproduction start position in the moving image in response to an input from the input means,
The image output means for outputting the video signal corresponding to the said some encoded image data stored in the said medium from the said screen designated by the said reproduction | regeneration position designation | designated means to the outside is further provided. The data reproducing apparatus described. The reproduction position designating unit designates the identified same screen as the reproduction start position in response to the first screen and the second screen identified by the selection control unit being the same. 4. A data reproducing apparatus according to claim 3. The reproduction position designating unit is configured to select the first screen and the second screen in accordance with the specification of either the first screen or the second screen by the selection control unit and the input from the input unit. 4. The data reproduction apparatus according to claim 3, wherein any one of the second screens specified is designated as the reproduction start position.

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