KR100234272B1 - Transfer rate determining method of optical disc - Google Patents

Abstract

The present invention relates to a transmission rate measuring method of an optical disk, and more particularly, to a transmission rate measuring method of an optical disk for measuring the transmission rate of the entire section of the optical disk having a constant speed rotation method. A method of measuring a transmission rate of an optical disc includes: a method of measuring and displaying a transmission rate from an innermost circumference to an outermost circumference of an optical disk, the method comprising: a first step of identifying an area of the optical disk and setting transport blocks; A second step of measuring a transmission rate from the innermost circumference to the outermost circumference of the optical disc for each transport block set in the first step; And a third step of displaying the transmission rate measured in the second step. According to the present invention, since the transmission rate of the constant speed rotation type optical disk is measured and displayed as a graph, it is possible to verify the response and stability in each section.

Description

How to measure the transmission rate of an optical disk

The present invention relates to a transmission rate measuring method of an optical disk, and more particularly, to a transmission rate measuring method of an optical disk for measuring the transmission rate of the entire section of the optical disk having a constant speed rotation method.

CLV (Constant Linear Velocity), another rotation method of optical disk, measures the transfer rate in any section because the length of the trace is constant at a certain time. You can check the performance of the optical disc by measuring the transmission rate. There was an uncomfortable problem that can not check the performance.

The technical problem to be achieved by the present invention is to provide a method for measuring the transmission rate of an optical disk to implement a stable optical disk by measuring the transmission rate of the optical disk rotation type optical disk type and verify the response and stability in each section.

1 is a flowchart illustrating an embodiment of a method of measuring a transmission rate of an optical disk according to the present invention.

2 is a graph showing the results of FIG. 1.

In another aspect of the present invention, there is provided a method for measuring a transmission rate of an optical disk, the method for measuring and displaying a transmission rate from an innermost circumference to an outermost circumference of an optical disk, wherein the transmission blocks are set by checking an area of the optical disk. The first step to do; A second step of measuring a transmission rate from the innermost circumference to the outermost circumference of the optical disc for each transport block set in the first step; And a third step of displaying the transmission rate measured in the second step.

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

1 is a flowchart illustrating an embodiment of a method of measuring a transmission rate of an optical disk according to the present invention.

The flowchart shown in FIG. 1 includes the steps of identifying the area of the disc 100, setting the transport block 105, starting at the innermost sector 110, operating the timer 115, and reading- A step 120 of reading the data of the block with a read long command, a step 125 of determining whether an error has occurred in the data of the read block, a step of correcting the error 130, and whether the timer is 2 seconds Determining step 135, increasing the address of the block to be read 140, checking the block to be read 145, measuring the timer time (2 seconds) and the transmission rate with the read block 150 Storing the data rate as a file (155), determining whether the outermost sector is a file (160), outputting the data rate as a graph (165), and checking the status for each section (170).

2 is a graph illustrating an embodiment of FIG. 1.

Next, the present invention will be described with reference to FIGS. 1 and 2.

In order to display the transmission rate of the entire section in the optical disk of the constant speed rotation method, the area of the disk is checked (step 100). That is, the size of the total sector for measuring the transmission rate is checked. The number of tracks of a typical optical disc is 20,000.

Once the area of the disk is identified, the transport blocks for measuring the transmission rate are set (105). This can be set arbitrarily by the user, and can be set from 2 kilobytes (Kbytes) to 32 kilobytes. Here, as an embodiment, the transport block is set to 2 kilobytes.

If the transport blocks have been set up, it starts with the innermost sector (step 110).

The timer operates up to 2 seconds (step 115). The present invention measures the transmission rate by the number of blocks read in 2 seconds per unit time.

At the same time as the timer operation, a read is performed for each block set by the read-long command (step 120). A read-long command can read a larger block than a normal read command, and is a command used when reading a block from an optical disk of a specific character rather than a general character device. The read-long command specifies the address, block, and read mode of the optical disk to read before reading the block. Here, the address of the optical disk is designated as Min: Sec: Frame, and the block designation is designated as the block set above (2 kilobytes). In addition, the read mode is designated as one of a low mode and a cooked mode. The low mode is a mode of reading an optical disc section in 2352 bytes, and a cook mode of 2048 byte unit in a cook mode. Read mode.

It is determined whether an error has occurred during reading for each block (step 125).

If an error occurs while reading for each block, error correction is performed for each block in which the error occurs (step 130).

If no error occurs during the read-by-block, it is determined whether the timer is 2 seconds (135). Error correction is performed in this step and the process returns to this step.

If the timer is 2 seconds or less, the address of the block to be read is increased to read the block data until the timer reaches 2 seconds (step 140). This is because the transmission rate is measured based on the unit time of 2 seconds.

If the timer is 2 seconds, the number of blocks read in 2 seconds is checked (step 145).

The transmission rate is measured using a unit time of 2 seconds and the number of blocks read (step 150). The number of blocks read and the set blocks can be measured during the unit time, which can be measured.

As an example, if the number of blocks read is 3 blocks and the above-set block is 2 kilobytes and the unit time is 2 seconds, the transfer rate is

로 계산된다.

Is calculated.

The data rate is measured and stored in a file (step 155). At this time, the data stored in the file is stored not only with the transmission rate but also with the address (min: sec: frame) of the optical disk on which the transmission rate is measured.

The data rate is measured, stored in a file, and then determined to be the outermost sector of the optical disk (step 160). The timer is operated until the outermost sector of the optical disk is the outermost sector of the optical disk and the blocks are read to measure the transfer rate.

If it is the outermost sector of the optical disk, the data stored in the file is displayed as a graph (step 165). In the horizontal axis of this graph, the addresses of sectors for each block of the setting of the optical disc are shown, and the transmission rate of the optical disc is shown on the vertical axis. This embodiment is shown in FIG. When displaying the bit rate, not only graphs but also tabular or other user choices can be displayed on the screen.

The transmission rate of the optical disc displayed on the graph is measured (step 170).

By going through these steps, the transmission rate can be measured from the innermost sector to the outermost sector of the optical disk using the constant speed rotation method.

As described above, according to the present invention, since the transmission rate of the positive angular speed rotation type optical disk is measured and displayed as a graph, it is possible to verify the correspondence and stability in each section.

Claims (5)

In the method of measuring and displaying the transmission rate from the innermost to outermost circumference of the optical disk, Identifying a region of the optical disc and setting transport blocks; A second step of measuring a transmission rate from the innermost circumference to the outermost circumference of the optical disc for each transport block set in the first step; And And a third step of displaying the transmission rate measured in the second step. The method of claim 1, wherein the second step of measuring the rate Step 2-1 of operating the timer for a predetermined unit time to read the blocks set in the first step; Checking the number of blocks read if the timer equals a predetermined time in step 2-1; And a second to third steps of measuring the transmission rate by the number of blocks identified in the second step and the predetermined time. The method of claim 2, wherein if an error occurs during the execution of the step 2-1, the step 2-2 is executed after correcting the error. The method of claim 2, wherein the timer operating in the step 2-2 counts up to a predetermined unit time. The method of claim 1, wherein the third step stores the data rate calculated in the second to third files in a file and displays the result in a graph.

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