JPH08181947A - Image compression recording medium and image compression recording medium reproduction device - Google Patents

Abstract

PURPOSE: To access desired I frames one after another in a short time by record ing in advance addresses being plural-preceding addresses in the forward and reverse directions from adjacent frames in the forward and reverse directions in a user's data area. CONSTITUTION: A user's data area is provided in the head of an I frame and MPEG user's data including address information are written to the area at recording. Let a left end I frame be I0 , a succeeding I frame in the forward direction be I1 and a succeeding I frame in the reverse direction be I-1 . Similarly frames are referred to as I2 , I3 ,... in the forward direction and as I-2 , I-3 ,... in the reverse direction. In this case, the forward search frame I1 is written in a first address, the reverse search frame I-1 is written in a 2nd address, a forward high speed search address being plural-preceding address, e.g. I10 is written in a third address and a reverse high speed search address being plural-preceding address, e.g. I-10 is written in a fourth address as address information of the MPEG user's data area of the I frame I0 .

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image compression recording medium and an image compression recording medium reproducing apparatus, and more particularly to an image compression recording medium in which an image is recorded by an image compression method using an intra-frame coded image (I picture). The present invention relates to an image compression recording medium reproducing device for reproducing a recorded image from an image compression recording medium.

[0002]

2. Description of the Related Art With the rapid progress of image compression technology, a relatively long time image, especially a moving image recorded on a recording medium such as a compact disc together with voice and character information is becoming popular. The one that is becoming popular as a video CD at present is ISO11172Vi, which is one of the international standards defined by MPEG (Movie Coding Experts Group).
Image compression is performed according to deo (commonly known as MPEG-1). MPEG-1 employs an image compression recording method that uses an I-frame, which is an intra-frame encoded image, a P-frame, which is an inter-frame encoded image, and a B-frame, which is a bidirectional predictive-encoded image. The reproduced image of is obtained. A reproducing device for reproducing images and sounds from such a video CD can perform operations such as play, stop, search, pause, etc., as in a normal CD player.

[0003]

In the above-mentioned conventional image compression recording medium and the image compression recording medium reproducing apparatus for reproducing an image or the like from the conventional image compression recording medium, when performing search or high speed reproduction,
For example, it is an intra-frame coded image arranged every 0.5 seconds and is an initial image of MPEG image data I
It is necessary to search for frames (also called I-pictures) continuously or in a plurality of steps. In a conventional playback device, after finding the first I frame, the forward (video C
It is necessary to jump for 0.5 seconds or an integral multiple thereof in the outer direction in the case of D) or in the opposite direction (in the inner direction in the case of a video CD), and to search for I frames again in the vicinity thereof, and find I frames one after another It took some time to get there. For this reason, the waiting time may be long, or the backward search may be unnaturally reproduced. In order to solve such a problem, the address of the I frame may be stored in advance in a memory or the like as an address map so that the necessary I frame can be accessed at high speed, and this can be read and used. When the method is adopted, an operation for creating an address map is required every time a video CD is exchanged, which not only makes the operation complicated but also requires a dedicated memory in terms of hardware.

Therefore, the present invention relates to an image compression recording medium on which an image is recorded by an image compression method using an intra-frame coded image (I picture) and an image compression recording medium reproducing apparatus for reproducing the recorded image from the image compression recording medium. An image compression recording medium in which desired I-frames can be accessed one after another in a short time when performing a search or high-speed reproduction by using, and thus the waiting time is short and the reproduction by the backward search is performed without feeling unnatural. Another object of the present invention is to provide an image compression recording medium reproducing device.

[0005]

According to the present invention, in order to achieve the above object, the addresses of adjacent I frames in the forward and backward directions of the I frame and / or the I frame in each user data area of the I frame. The addresses of a plurality of I frames ahead in the forward and backward directions of the frame are recorded in advance. Therefore, the image compression recording medium reproducing apparatus according to the present invention is configured to jump the frame to be accessed according to the address of the I frame recorded in the user's data area.

That is, according to the present invention, an image compression recording method using an I frame, which is an intra-frame coded image, a P frame, which is an inter-frame coded image, and a B frame, which is a bidirectional predictive coded image, is used. In the image compression recording medium on which an image is recorded, the addresses of adjacent I frames in the forward and backward directions of the I frame and / or the I
An image compression recording medium is provided in which the addresses of a plurality of I-frames in the forward and backward directions of the frame are recorded in advance.

Further, according to the present invention, an image compression recording method using an I frame which is an intra-frame encoded image, a P frame which is an inter-frame encoded image, and a B frame which is a bidirectional predictive encoded image is used. An image compression recording medium reproducing apparatus for reproducing a recorded image from an image compression recording medium on which an image is recorded, in the search mode, means for searching for an I frame near the currently accessed frame,
Means for reading the address of an adjacent I frame in the forward or reverse direction of the I frame or the address of a plurality of I frames in the forward or reverse direction of the I frame from the user data area of the found I frame; Means for decoding the I frame and storing it as one piece of image information, means for reading and outputting the image information from the storing means, and jumping to another I frame according to the address of the read I frame. An image compression recording medium reproducing device is provided.

Further, according to the present invention, an image compression recording method using an I frame which is an intra-frame coded image, a P frame which is an inter-frame coded image, and a B frame which is a bidirectional predictive coded image is provided. An image compression recording medium reproducing apparatus for reproducing a recorded image from an image compression recording medium on which an image is recorded, in the search mode, means for searching for an I frame near the currently accessed frame,
Means for reading the address of an adjacent I frame in the forward or reverse direction of the I frame or the address of a plurality of I frames in the forward or reverse direction of the I frame from the user data area of the found I frame; A first storage unit that decodes the I frame and stores it as one image information, a unit that reads and outputs the image information from the first storage unit, and another I unit according to the address of the read I frame. Means for jumping to a frame, and second storage means for decoding a plurality of frames following the I frame and storing them as a plurality of pieces of image information until at least the jump to the other I frame is started. An image compression recording medium reproducing means for reading and outputting image information from the second storage means. Location is provided.

Further, according to the present invention, an image compression recording method using an I frame which is an intra-frame coded image, a P frame which is an inter-frame coded image, and a B frame which is a bidirectional predictive coded image is provided. In an image compression recording medium reproducing apparatus for reproducing a recorded image from an image compressed recording medium on which an image is recorded, a means for searching an I frame near the currently accessed frame in the forward or backward search mode, From the user data area of the I frame, the address of the adjacent I frame in the forward direction or the backward direction of the I frame or the address of a plurality of I frames ahead in the forward direction or the backward direction of the I frame is acquired according to the search mode. Means for reading and the I
First storage means for decoding a frame and storing it as one piece of image information, means for reading and outputting the image information from the first storage means, and another I frame according to the address of the read I frame Means for jumping, and in the forward search only, at least until the jump to the other I frame is started
Reproduction of an image compression recording medium, characterized by having a second storage means for decoding a plurality of frames following the frame and storing it as a plurality of pieces of image information, and a means for reading and outputting the image information from the second storage means. A device is provided.

[0010]

Since the image compression recording medium and the image compression recording medium reproducing apparatus of the present invention have the above-mentioned configuration, they are
When performing search or high-speed reproduction of a recorded image from a recording medium recorded by an image compression method using an I-frame, which is an intra-frame encoded image, desired I-frames can be accessed one after another in a short time, and thus the waiting time is increased. Is short and does not make the playback by reverse search feel unnatural. In the forward search, it is possible to sequentially access only the I frame and reproduce the content, but following the reproduction of the I frame, another type of frame (P
It is also possible to sequentially access only a plurality of frames and B frames) and reproduce the contents. However, such P
Playback of frames and B-frames is prohibited during reverse search. This is because in the backward search, the frame reading direction is not normal, so correct predictive decoding cannot be performed.If forward playback is incorporated during the backward search, the control becomes complicated and the search speed becomes slow. This is because it will end up.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of an image compression recording medium and an image compression recording medium reproducing apparatus of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram showing a relationship between a sector arrangement on one track and a data format in a video CD as an embodiment of an image compression recording medium of the present invention. This video CD is image data (M
PEG video) and audio data (MPEG audio) are recorded, and a synchronization signal (sync), a header, and a subheader are written at the beginning of each sector.
Next, video or audio data (main data) is written. The lower part of FIG. 1 shows the data format of MPEG video. The I frame at the left end is an intra-frame coded image (I picture), the next P frame is an inter-frame coded image (P picture), and the next B frame is a bidirectional predictive coded image. (B picture).

The I frames are arranged at a predetermined interval, and a plurality of P frames and B frames are arranged between two consecutive I frames. The arrangement mode of the P frame and the B frame can be set as desired at the time of recording. A user data area indicated by hatching in FIG. 1 is provided at the head of the I frame, and MPEG user data is written at the time of recording. The MPEG user data includes address information as well as data indicating that this frame is an I frame.
In the example of FIG. 1, the leftmost I frame is I ₀ , and the next I in the forward direction (after the time, that is, from the outer circumference in the video CD) is the next I frame.
Let I ₁ be the frame, I ₋₁ be the next I frame in the reverse direction (temporally earlier, ie from the inner circumference in the case of a video CD), and similarly I ₂ , I ₃ , I ₄ . ． ． , I- ₂ , I- ₃ , I- ₄ . ． ． Then, for example, as the address information of the MPEG user data area of the I frame I ₀ , the addresses shown in the following table are written.

[0013]

[Table 1]

As can be seen from the above table, the address _{1 has} the address of I ₁ which is the next I frame in the forward direction, and the address 2 has the address of I _-1 which is the next I frame in the backward direction. Address 3 is an I-frame of a plurality of forward destinations, for example, an address of I ₁₀ , and address 4 is an I-frame of a plurality of destinations in the backward direction, for example, an address of I _-10. It is recorded. The address at address 1 is for forward search, and the address at address 2 is for reverse search. The address at address 3 is for forward high speed search, and the address at address 4 is for reverse high speed search. It should be noted that the search and high-speed search mentioned here are concepts including high-speed reproduction. As MPEG user data, 16 bytes are used as the address information and 4 bytes as other information.
Approximately 20 bytes can be used, and the total is approximately 20 bytes.

FIG. 2 is a block diagram of a preferred embodiment of the image compression recording medium reproducing apparatus of the present invention for reproducing the image and sound from the video CD. In FIG. 2, the CD player unit 1 has a CD decoder / servo control circuit 5, a second CPU 3, an input instructing unit 4, and an indicator 4A in addition to a disc drive system, an optical pickup and its drive system. The input instructing section 4 has keys for the user to instruct operations such as play, stop, search, and pause. The signal processing / image reproduction unit 70 is the first CPU 3
0, MPEG decoder 75, video signal processing circuit 76,
NTSC / PAL encoder 78, DRAM 34, RO
It has M36, crystal oscillators 74, 77 and 79, and further has SRAM 32 as required. Video signal processing circuit 7
Reference numeral 6 has an interface, a D / A converter, a synchronizing signal generator and the like. The audio signal processing circuit 80 has a digital filter and a D / A converter.

The search in the image compression recording medium reproducing apparatus of the present invention is mainly performed by the control of the first CPU 30. Several search modes will be described below with reference to the flowcharts of FIGS. 3 to 5 and the timing chart of FIG. The selection and designation of these search modes is performed by the user operating the input instruction unit 4. The second CPU 3 controls in accordance with the selected search mode and sends information on the selected search mode to the first CPU 30. The first CPU 30 executes any one of the flows of FIGS. 3 to 5 according to the selected search mode.

As the MPEG decoder 75, M
A PEG signal processing IC (for example, 450A manufactured by the company) can be used. This IC includes a decoder and a memory. The MPEG decoder 75 decodes the data of each frame, determines the type of frame, and determines the first CPU 3
The information is sent to 0.

(1) Forward search mode (I frame only) The forward search mode (I frame only) shown in FIG. 3 will be described with reference to FIGS. 6A and 6B. When the forward search mode (I frame only) is started, as shown in FIG. 3, first, an I frame is searched for, the reproduction data most recent to the current address is decoded (step S1), then written to the memory, and then output. Yes (step S2). Next, a predetermined forward outer address is set to jump from the current address to the next I frame (step S3). If the address has not reached the end address (NO in step S4) reproduction is performed (step S5; time t ₁ of the (A) Fig. 6), the picture coding in the pack data following the pack header By checking the type identification code and confirming that it is an I frame, a predetermined I frame written in this user's data is detected, read and stored (step S6; same time t ₁ ), and I frame image data is obtained. Decode and store in memory (step S7;
At the same time, t ₂ ).

The stored image is immediately output (step S8). Then, the process returns to step S3 to jump to the next I frame. In this case, the next I frame is jumped for a normal speed search, but for the high speed search, for example, the 10th I frame is jumped.
This control is performed depending on whether the address of the user's data shown in Table 1 is 1 or 3. If the read address has reached the end address (YES in step S4), the process returns. With such a series of flows, I-frames can be accurately extracted at regular intervals,
It can be decoded as a normal image. Note that in FIG. 6B and the later-described (D), the portion described as “hold” indicates a state in which the image of the I frame read out immediately before is displayed as it is. The above-mentioned jump and the following jump are executed by sending an instruction from the first CPU 30 to the second CPU 3.

(2) Reverse Search Mode (I Frame Only) Next, the reverse search mode shown in FIG. 4 will be described with reference to FIGS. 6 (A) and 6 (D). When the backward search mode is selected, the reproduction data of the latest I frame that does not exceed the current address is decoded while predicting the latest I frame of the current address (step S1).
Write from 1) to the memory and output it (step S
12) and the inner address which is the return direction is set to jump from the current address to the next I frame (step S13). If not if reached the address to the end address (in the step S14 NO) playback is performed (step S15; time t ₁₁ of FIG. 6 (A)),
It is confirmed that the frame is an I frame by looking at the picture coding type identification code in the pack data following the pack header. Next detects a predetermined I-frame written to the user's data, and reading stored (step S16; the time t _11), and decodes and stored in the memory (step S17; same, time t _12).

The stored image is immediately output (step S18). Then, the process returns to step S13. If the read address has reached the end address (YES in step S14), the process returns. By such a series of flows shown in FIG. 4, I frames can be accurately taken out at regular intervals and decoded as a normal image.

(3) Forward Search Mode (I Frame and Other Several Frames Following It) The forward search mode shown in FIG. 5 will be described with reference to FIGS. 6A and 6C. . When the forward search mode (I frame and several other frames following it) is started, as shown in FIG. 3, first, an I frame is searched for, and the reproduction data immediately before the current address is decoded (step S1) and then the memory is stored. , And outputs it (step S2). Next, a predetermined forward outer address is set to jump from the current address to the next I frame (step S3). If the address does not reach the end address (N in step S4
O) reproduction is performed; time t ₁ (step S5 in (A Fig 6)), to confirm that an I frame watching the identification code of the picture coding type in the pack data following the pack header while detecting a predetermined I-frame written to the user's data, reading, and stored (step S6; same, time t _1), decodes the I-frame image data is stored in the memory (step S7;
At the same time, t ₂ ).

The stored image is immediately output (step S8). Then a predetermined time (eg 0.2 seconds)
After that, a plurality of frames indicated by X in FIG. 6A are continuously reproduced (until time t _{4 in} FIG. 6). The frame indicated by X is P
These are frames or B frames, and some of these frames, that is, frames other than the I frame are continuously reproduced. If the address does not reach the end address (NO in step S10), the process returns to step S3. Then, the same flow is repeated. As a result, the output is as shown in FIG. By such a series of flows shown in FIG. 5, the I frame and the subsequent frames can be accurately taken out at regular time intervals and decoded as a normal image. If the image information to be reproduced is insufficient by the time t _{4 in} FIG. 6, the final image may be held as shown in (E) of FIG. In this case, the jump is large, but in any case, this flow makes it possible to take out the I frame and the subsequent frames at regular intervals.

In the above-mentioned embodiment, the case where the video CD is the storage medium has been described. However, if the video CD is produced by using the image compression method according to MPEG-1, the shape of the storage medium,
The recording method does not matter. Therefore, the present invention is applicable to magnetic tapes, magnetic disks, and other storage media.

[0025]

As described above, according to the image compression recording medium and the image compression recording medium reproducing apparatus of the present invention, the user data area of each I frame is adjacent to the I frame in the forward and backward directions. The address of the I frame and / or the addresses of a plurality of I frames ahead of the I frame in the forward direction and the backward direction are recorded in advance, and the image compression recording medium reproducing apparatus records the I frame recorded in the user data area at the time of searching. Since the frames to be accessed are jumped according to the address of the frame, desired I-frames can be accessed one after another in a short time. Therefore, the waiting time is short and the reproduction by the backward search does not feel unnatural. In the forward search, only I frames can be sequentially accessed and their contents can be reproduced.
After reproduction of a frame, a plurality of other types of frames (P frames and B frames) following the I frame are sequentially accessed, and the contents thereof are reproduced to obtain a reproduced image of higher quality. You can

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a relationship between a sector arrangement on one track and a data format in a video CD as an embodiment of an image compression recording medium of the present invention.

FIG. 2 is a block diagram showing an embodiment of an image compression recording medium reproducing apparatus of the present invention.

FIG. 3 is a flowchart showing the operation of the first CPU in the embodiment of the image compression recording medium reproducing apparatus of the present invention.

FIG. 4 is a flowchart showing the operation of the first CPU in the embodiment of the image compression recording medium reproducing apparatus of the present invention.

FIG. 5 is a flowchart showing the operation of the first CPU in the embodiment of the image compression recording medium reproducing apparatus of the present invention.

FIG. 6 is a timing chart showing the operation of the embodiment of the image compression recording medium reproducing apparatus of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 player 2 signal processing unit 3 second CPU (constituting means for jumping together with player and first CPU) 4 input instruction unit 4A indicator 5 CD decoder / servo circuit 4A indicator 30 first CPU (means for searching I frame together with MPEG decoder, address Means for reading out, means for storing,
70 constitutes a means for outputting) 70 signal processing / image reproducing section 75 MPEG decoder 76 video signal processing circuit 78 NTSC / PAL encoder 80 audio signal processing circuit

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location G11B 27/10 D H04N 7/32 G11B 27/10 D

Claims (4)

[Claims] 1. An image is recorded by an image compression recording method using an I frame that is an intra-frame encoded image, a P frame that is an inter-frame encoded image, and a B frame that is a bidirectional predictive encoded image. In the image compression recording medium, the I data is stored in each user data area of the I frame.
An image compression recording medium characterized in that the addresses of adjacent I-frames in the forward and backward directions of the frame and / or the addresses of a plurality of I-frames in the forward and backward directions of the I-frame are recorded in advance. . 2. An image is recorded by an image compression recording method using an I frame that is an intra-frame encoded image, a P frame that is an inter-frame encoded image, and a B frame that is a bidirectional predictive encoded image. In an image compression recording medium reproducing apparatus for reproducing a recorded image from an image compression recording medium, in the search mode, means for searching an I frame near the currently accessed frame and the I frame from the user data area of the found I frame Means for reading the address of an adjacent I frame in the forward or reverse direction of I or the address of a plurality of I frames ahead in the forward or reverse direction of the I frame, and decoding the I frame to obtain one piece of image information. A means for storing as, a means for reading and outputting image information from the storing means, According to the address of the I-frame, and means for jumping to another I-frame, image compression recording medium reproducing apparatus characterized by having. 3. An image is recorded by an image compression recording method using an I frame which is an intra-frame encoded image, a P frame which is an inter-frame encoded image, and a B frame which is a bidirectional predictive encoded image. In an image compression recording medium reproducing apparatus for reproducing a recorded image from an image compression recording medium, in the search mode, means for searching an I frame near the currently accessed frame and the I frame from the user data area of the found I frame Means for reading the address of an adjacent I frame in the forward or reverse direction of I or the address of a plurality of I frames ahead in the forward or reverse direction of the I frame, and decoding the I frame to obtain one piece of image information. A first storage means for storing the image information, a means for reading and outputting image information from the first storage means, Means for jumping to another I frame according to the address of the issued I frame, and decoding a plurality of frames following the I frame until at least the jump to the other I frame is started. An image compression recording medium reproducing apparatus comprising: a second storage unit that stores the image information of one sheet; and a unit that reads out and outputs the image information from the second storage unit. 4. An image is recorded by an image compression recording method using an I frame that is an intra-frame encoded image, a P frame that is an inter-frame encoded image, and a B frame that is a bidirectional predictive encoded image. In an image compression recording medium reproducing apparatus for reproducing a recorded image from an image compression recording medium, in forward or backward search mode, means for searching an I frame near the currently accessed frame and user data of the found I frame A unit for reading an address of an adjacent I frame in the forward direction or the backward direction of the I frame or an address of a plurality of I frames ahead of the I frame in the forward direction or the backward direction from the region, A first storage unit for decoding the I frame and storing it as one image information; Means for reading and outputting image information, means for jumping to another I frame according to the address of the read I frame, and at least a jump to the other I frame is started only during a forward search. Until then, a second storage unit that decodes a plurality of frames following the I frame and stores them as a plurality of pieces of image information, and a unit that reads and outputs the image information from the second storage unit are provided. Characteristic image compression recording medium reproducing apparatus.