KR100265376B1 - Optical disc reproducing method - Google Patents

Abstract

PURPOSE: A playing method of an optical disk is provided to reproduce a disk normally even though a part of most of a lead-in area of the optical disk is damaged. CONSTITUTION: A pickup unit is moved to a lead-in area and a focus is fixed. When a disk is rotated at constant velocity, TOC(Table Of Contents) of the lead-in area is checked. The kind of the disk is decided by complete check of the TOC, and the disk is played back. If the TOC is not checked completely by damage of the lead-in area, existence of effective data in the other parts is checked. In occurrence of error, a disk player jumps to the next track and obtains data of the track. The disk player finds the start point of reproducing signals in a program area with the data and outputs the signals therefrom. Therefore, the disk player searches effective data on the optical disk.

Description

How to play optical disc

The present invention relates to an optical disc reproducing method for reproducing an optical disc such as a CD (Compact Disc), VCD (Video Compact Disc) and LD (Laser Disc). More specifically, the present invention relates to a method for reproducing an optical disk having a damaged lead-in area.

In general, optical discs such as CDs, VCDs, and LDs have the advantages of being robust and not losing the recorded data as well as being able to reproduce the recorded data neatly using laser light. It is becoming.

Fig. 1 shows the general structure of such an optical disc.

As shown in the figure, an optical disc is divided into three signal regions, namely, a lead-in area, a program area, and a lead-out area. It has data in the form of a projection called a pit along a track wound spirally outward from the center.

A lead-in area is often a TOC (such as the type of disc, the number and size of programs stored on the disc, the address of each program or location on the disc, the start time of each track, the total playing time of the disc, etc.). It has a data table called Table of Contents.

The program area has substantial program data, and the lead-out area has data indicating the end of the program.

Fig. 2 is a flowchart showing a data reproduction process from a conventional optical disc for reading data from an optical disc having a structure as described above.

As shown in the drawing, the pickup unit is moved to the lead-in area (S210) to determine whether the focus is fixed (S220). If the focus is not fixed, it is determined that the disk is not mounted. When the focus is fixed, the disk motor is driven to determine whether the disk rotates at a constant speed (constant speed or regular speed) (S230). At this time, if the disk does not rotate at a constant speed, it is determined that the disk is not mounted. When the disk rotates at a constant speed, the TOC, which is a part storing various information about the disk, is checked in the lead-in area (S240). When the TOC is completely checked, the type of the disk is recognized (S250). The disc is reproduced (S260).

However, if the TOC is not checked completely, the device will determine that the disk is not loaded. As described above, when it is determined that the disc is not mounted, the device performs the next operation such as stopping the playback operation.

In the conventional data reproducing process from the above-described optical disc, although valid data is kept in good condition in the program area, if the lead-in area is damaged for some reason, the data of the corresponding part cannot be read and the TOC Cannot be checked completely. Therefore, since the device determines that the disk is not mounted and does not perform the playback process, the user cannot access the contents of the true disk, that is, the data of the program area, that the user wants.

As a result, the entire disk was recognized as defective due to partial damage of the lead-in area and could not be used.

Accordingly, it is an object of the present invention to provide a method for reproducing an optical disc, which enables the disc to operate normally even if part or most of the lead-in area of the optical disc is damaged.

1 is a schematic diagram showing the structure of a typical optical disc.

2 is a flow chart showing a data reproduction process from a conventional optical disc.

3 is a flowchart showing a data reproducing process of the optical disc reproducing method to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

10: optical disc 11: lead-in area

12: program area 13: lead-out area

S341: Search process of an effective lead-in area

S342: Size determination process of the loss part of the lead-in area

S343: Determination process of program area check

S344: Searching for Effective Program Area

A feature of the optical disc reproducing method according to the present invention for achieving the above object is that data valid in other parts or program areas of the lead-in area exists even if the lead-in area of the optical disc is damaged and the TOC cannot be completely checked. It is to determine whether or not to determine whether or not valid data exists, and to play the disc normally.

Hereinafter, one preferred embodiment of the optical disc reproducing method according to the present invention will be described in detail.

3 is a flowchart showing a data reproducing process of the optical disc reproducing method to which the present invention is applied.

As shown, by moving the pickup to the lead-in area (S310), it is determined whether the focus is fixed (S320), and if the focus is not fixed, it is determined that the disk is not mounted. If the focus is fixed, it is determined whether the disk rotates at a constant speed by driving the disk motor (S330). At this time, if the disk does not rotate at a constant speed, it is determined that the disk is not mounted.

When the disk rotates at a constant speed, the TOC of the lead-in area, which stores various information about the disk, is checked (S340). When the TOC is completely checked, the type of the disk is recognized (S350). The disc is played (S360).

However, if there is a portion where data is not read due to damage of the lead-in area or the like during the TOC check, the TOC check is not completed. In this case, the presence of valid data is checked for the other part of the lead-in area (S341), and then it is checked whether the size of the lost part is partial or substantial (S342).

The method of checking whether the disc reproducing means exists in the other area of the lead-in area as in step S431 described above uses a jump method that is commonly known to those skilled in the art.

That is, when an error occurs during the first time or during playback, the disc reproducing means jumps to the next track and reads the information recorded on the track to obtain information of a signal to be reproduced.

Therefore, the disc reproducing means finds the starting point of the signal to be reproduced in the program area by using the above-described information, and reproduces the signal from the starting point and outputs it to the outside.

As described above, when the optical disc reproduced by the disc reproducing means is partially damaged and the signal recorded on the optical disc cannot be read, the disc reproducing means jumps at intervals of several seconds from the damaged portion and performs the reproducing operation in the jumped area again. By repeating the process, valid data existing on the optical disk can be found.

That is, according to the present invention, when any part of the optical disc that has a damaged state and affects the entire optical disc contains valid data, the disc reproducing means is repeatedly jumped to move to the part where the valid data exists. The user can reproduce the valid data of the intact part.

If the size of the loss portion of the lead-in area is partial in the above-described process, the disc is normally played. However, if the lost area is a substantial portion, it is determined whether valid data exists for the program area, which is set in advance at the time of manufacture of the device or by the user (S343). If it is set not to check the program area, it is determined that the disc is not loaded. Otherwise, the program area is searched to check whether there is valid data (S344).

In this process, if valid data exists in the program area, the disk reproducing operation is performed (S345). Otherwise, it is determined that the disc is not loaded and the reproducing operation is stopped.

As described above, according to the optical disc reproducing method according to the present invention, even when a part of the lead-in area of the optical disc is damaged and the TOC cannot be checked completely, the disc reproducing operation is normally performed, thereby resulting in damage to the lead-in area. In addition to increasing the responsiveness of the reproducing apparatus to the existing bad disk, the retention period of the optical disk can be extended.

Claims (3)

The optical disc reproducing means includes: a first step of checking the valid data of the remaining lead-in area by jumping the optical disc reproducing means at intervals of several seconds if it is determined that the lead-in area of the optical disc is damaged while reproducing the lead-in area; A second step of determining a size of a loss part of valid data as a result of the check of the first step; A third step of determining whether to check valid data of a program area after performing the second step; And a fourth process of checking the valid data of the program area according to the result of the third process and performing a disc playback operation. The method of claim 1, wherein if the size of the effective data loss portion of the lead-in area is negligibly damaged as a result of the determination in the second process, the optical disc reproducing means moves to a track having data existing in the program area and performs the reproducing operation. Optical disc playback method. The method according to claim 1, wherein in the third and fourth processes, when the valid data of the program area is not checked and the valid data does not exist in the program area, it is determined that the disc is not mounted and the playback operation is stopped. Optical disc playback method characterized in that.

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