KR20010058778A - Method for copying data of an optical disk - Google Patents

Abstract

PURPOSE: A data copy method of optical disk is provided to prevent occurrence of buffer under run and to reduce copy time by regenerating multi track data of source disk by track unit and storing this in memory of host and recording data of track unit stored in memory of host in a disk. CONSTITUTION: A host stores a transmitted data in memory of the host(301,302). It is judged as to whether a data of the first track of a disk inserted is regenerated fully if storing data is continued for a designated time(303). If the data to be regenerated leaves in an appropriate track as result of judgment(302)stage is executed continuously, and it is judged as to whether the track regenerated the data is the last track of a source disk in case that the data in the appropriate track is regenerated fully(304). If as the result of judgment the nth track regenerated the data is not the last track of the source disk a data recording command is transmitted to a drive for recording for data which is regenerated at the track while track number n="n+1" is changed and process of (302)(303) stage is executed for the next track. If the nth track is the last track a data recording command is transmitted to a drive for recording for data which is regenerated at the track(306). And recording information to store data in user area of the disk for recording is stored in read in area and read out area of the disk for recording(307).

Description

Method for copying data of an optical disk

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical recorder, and more particularly, to a data copying method of an optical disk, and more particularly to a buffer under run in copying multi-track recorded data to a disk. The present invention relates to a data copying method of an optical disk which can prevent the occurrence and copy quickly.

In general, optical recording media have a read only memory (ROM) type, a write once read many (WORM) type, and a rewritable recording type, depending on whether repeat recording is possible. It is classified into three types such as possible type.

Here, the ROM type optical recording medium includes a compact disc (CD) ROM and a digital versatile disc (DVD) ROM, and the WORM type optical recording medium is a write once compact disc (CD-R). Recodable Compact Discs and Recordable Digital Versatile Discs (DVD-R).

In addition, freely rewritable discs include a rewritable compact disc (CD-RAM) and a rewritable digital versatile disc (DVD-RAM).

On the other hand, when copying data from a disk on which data is recorded to a rewritable disk, data copying is generally performed using a data copy system of an optical disk as shown in FIG. Referring to FIG. 1, a data copy system of an optical disc includes a source drive 100 for driving a source disc, and a central processing unit 201 of a host 200 requesting the source drive 100 to play data of the source disc. And a recording drive 300 for driving a memory 202 and a recording disk of the host 200 in which data transmitted from the source drive 100 is stored.

Data is reproduced from the source disc inserted into the source drive 100 using the data copying system of the optical disc, and the reproduced data is directly transferred to the recording drive 300 through the host 200. Thus, when the data is directly recorded on the recording disk inserted into the recording drive 300, there is a risk that a buffer underrun will occur.

Here, the buffer underrun is a case where the transmission of data from the host 200 is interrupted or delayed during the recording operation of the data in the recording drive 300, and stored in the buffer of the recording drive 300. This means that all data is recorded on the recording disk, and the buffer of the recording drive 300 becomes empty.

When a buffer underrun is generated in this way, the recording drive 300 does not know the exact position on the disk of the last recorded data. Accordingly, even if the host 200 detects the position of the portion where transmission is interrupted in the series of source data and transmits the data to be recorded next, in the portion where the data is recorded on the disc, the generation of the dataless area or the data of the data to be recorded is performed. Overlapping or the like occurs, and eventually an error in data recording occurs.

On the other hand, such a buffer underrun is a case in which the reproduction performance of the source drive 100 is lower than the recording capability of the recording driver 300, or there is a defect such as a scratch on the source disc, thereby reducing the reproduction speed of data. Occurs in the case.

Therefore, in order to prevent such buffer underrun, conventionally, data recorded on the source disk is reproduced to store the reproduced data in the memory 202 of the host 200, and thus recorded on the source disk. When the data is reproduced and stored in the memory 202 of the host 200, data recording is performed on the recording disk by the recording drive 300 from then on.

However, according to the data copying method of the conventional optical disk as described above, in order to prevent the buffer underrun, as described above, the disk to be recorded again after all the data recorded on the source disk is reproduced and stored in the host memory. There is a disadvantage in that the copy time of the entire data is lengthened by recording the data in.

The present invention has been made in view of the above problems, and in copying the data of the source disk to the recording disk, the data of the optical disk which can prevent the occurrence of buffer underrun and shorten the total copying time of the data Its purpose is to provide a copying method.

1 is a configuration diagram schematically showing a data copying system of a general optical disc.

2 is a diagram conceptually showing a data storage state when data is recorded in a plurality of tracks on an optical disc;

3 is a flowchart illustrating a process of copying data of an optical disk recorded in a plurality of tracks as shown in FIG. 2 according to the data copying method of the optical disk according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100 ... Source Drive 200 ... Host

201 ... central processing unit 202 ... memory

300 ... drive for recording

In order to achieve the above object, a data copying method of an optical disk according to the present invention,

(a) reproducing and storing the data recorded on the source disk in a memory of the host;

(b) when data recorded in a predetermined unit area of the source disk is stored in the memory of the host, the host transmits a data write command to a recording drive, while the predetermined unit of the source disk stored in the memory of the host Reproducing and storing the data recorded in the next unit area following the area in the memory of the host; And

(c) characterized in that it comprises the step of recording data on the recording disk into which the recording drive is inserted, in accordance with the data recording command transmitted in step (b).

In the case where the source disc is a multi-track disc in which data is recorded in a plurality of track units, the predetermined unit area in which the data is processed in step (b) is divided in track units so that data is processed. There is this.

According to the present invention, the multi-track data of the source disc is reproduced in track units and stored in the memory of the host. When all the track-level data is stored in the host memory, the next track of the reproduced track is stored. By reproducing data and storing it in the memory of the host, the data of track units stored in the memory of the host is recorded on a disc to record, thereby preventing the occurrence of a buffer underrun and reducing the copy time of the entire data. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a diagram conceptually showing a data storage state when data is recorded in a plurality of tracks on an optical disc, and FIG. 3 is recorded in a plurality of tracks as in FIG. 2 according to a data copying method of an optical disc according to the present invention. It is a flowchart showing a process of copying data of a conventional optical disk.

1 to 3, according to the data copying method of an optical disk according to the present invention, first, when a source disk is inserted into the source drive 100, the host 200 sends data to the source drive 100. Pass the play command. Accordingly, the source drive 100 reproduces the data recorded on the first track of the inserted disc, and transfers the reproduced data to the host 200. Then, the host 200 stores the transmitted data in the memory 202 of the host 200 (step 301, step 302). Here, in the case of a disc in which audio data is recorded, as shown in FIG. 2, data is stored in a plurality of tracks on the disc, and one track is normally recorded in each track, and in the lead-in area and the lead-out area. Recording information in which data is stored on the disc is recorded.

On the other hand, if the data storage is continued for a predetermined time in this way, it is determined whether or not all the data of the first track of the inserted disc has been played back (step 303). If all the data on the track are played back, it is determined whether the track playing the data is the last track of the source disc (step 304).

If the nth track that reproduced the data is not the last track of the source disc, the data recording command is transmitted to the recording drive 300 with respect to the data reproduced in the track. Change the track number n = n + 1 to perform the steps 302 and 303 for the next track.

On the other hand, if it is determined in step 304 that the nth track that reproduced the data is the last track of the source disc, a data recording command is transmitted to the recording drive 300 for the data reproduced in the track (step 306). Then, in the lead-in area and the lead-out area of the recording disk, recording information in which data is stored in the user area of the recording disk is recorded (step 307).

In this way, by transmitting a data write command to the recording drive 300 with respect to the data stored in the memory 202 of the host 200, the data is recorded on the inserted recording disc, thereby allowing the data to be written from the source drive 100. Regardless of the data transfer rate, the buffer underrun problem does not occur.

As described above, in the data copying method of the optical disk according to the present invention, the multi-track data of the source disk is reproduced in track units and stored in the memory of the host. While reproducing and storing the data of the next track of the reproduced track in the host's memory, while recording the track unit data stored in the host's memory on a disc to be recorded to prevent the occurrence of a buffer underrun, This has the advantage of reducing the copy time.

Claims (2)

(a) reproducing and storing the data recorded on the source disk in a memory of the host; (b) when data recorded in a predetermined unit area of the source disk is stored in the memory of the host, the host transmits a data write command to a recording drive, while the predetermined unit of the source disk stored in the memory of the host Reproducing and storing the data recorded in the next unit area following the area in the memory of the host; And and (c) recording data on a recording disk into which a recording drive is inserted, in accordance with the data recording command transmitted in step (b). The method of claim 1, In the case where the source disc is a multi-track disc in which data is recorded in a plurality of track units, an optical disc characterized in that a predetermined unit area in which data is processed in step (b) is divided into track units and data is processed. How to copy.