KR100569398B1 - Apparatus for identifying pixel data in holographic rom system - Google Patents

Abstract

According to the present invention, a reference pattern for discriminating each pixel is recorded in advance in a holographic storage medium, and on / off discrimination of each pixel data can be effectively performed by using reference data reproduced simultaneously in the reference pattern through reproduction light during reproduction. To this end, the present invention, unlike the conventional method for determining whether each pixel data to be played on the holographic storage medium on / off by using only one reference threshold set in the holographic storage medium, The reference data for discriminating each pixel that can be simultaneously reproduced by the reproduction light is recorded in advance, and the reference data reproduced simultaneously with the reproduction data using one reproduction light source during reproduction (that is, the reference data recorded at the same position and at different angles). Calculate threshold values for pixel data determination for each pixel using By using each pixel adaptive threshold value calculated through this, whether or not each playback pixel is turned on or off can be determined, thereby enabling the determination of active pixel data in a playback environment or playback conditions. It is possible to effectively prevent deterioration of image quality due to reproduction data.

Description

Apparatus and method for determining pixel data in holographic ROM system {APPARATUS FOR IDENTIFYING PIXEL DATA IN HOLOGRAPHIC ROM SYSTEM}

1 is a schematic structural diagram of a ROM system for reading (reproducing) pixel data in a holographic storage medium for discriminating pixel data according to the present invention;

FIG. 2 is a block diagram of an apparatus for determining pixel data reproduced in the ROM system of FIG. 1 in accordance with the present invention. FIG.

<Description of Symbols for Main Parts of Drawings>

102 light source 104 reproduction optical system

106: half mirror 108: reflection mirror

110a: reproduction output optical system 110b: reference output optical system

112a: first optical detection block 112b: second optical detection block

202: first storage block 204: second storage block

206: threshold calculation block 208: pixel determination block

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a holographic ROM system, and more particularly, to an apparatus and method for determining pixel data in a holographic ROM system suitable for determining whether a pixel data read from a holographic disk is turned on or off. It is about.

As is well known, a holographic ROM system stores capacitive data in the form of a disc, such as a DVD, as an interference fringe on a storage medium (holographic disc), and detects the data by detecting it as an optical signal through a reproduction system including an optical pickup. System to play.

In such a holographic ROM system, similar to a DVD or the like, data is reproduced by scanning a data track through an optical pickup using a reference light used when storing data in a storage medium as a reproduction light, wherein the reproduced pixel The data is determined as on-pixel or off-pixel, which is digital data by comparing with a predetermined reference value (i.e. threshold value), and the pixel data obtained through the pixel data determination is subsequently processed and provided to the display side. Display through.

However, as described above, in the conventional method of determining each pixel data by using one preset reference value, a problem cannot be effectively replaced when detection data values change due to various external factors. If the intensity of the pixel data is degraded due to the disk shaking or failure of servo tracking, it is determined to be an off pixel (a pixel of "0" value) despite being on pixel (a pixel of "1" value). In reality, there are problems such as discrimination of on-pixel (pixel of "1" value) even though it is off-pixel (pixel of "0" value). This problem eventually causes deterioration of image quality of holographic playback data. The situation is working.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of the prior art. The reference pattern for discriminating each pixel is recorded in advance in a holographic storage medium, and reference data reproduced simultaneously in the reference pattern through reproduction light during reproduction It is an object of the present invention to provide an apparatus and method for determining pixel data in a holographic ROM system capable of effectively performing on / off determination of each pixel data by using the same.

According to an aspect of the present invention, there is provided an apparatus for determining whether a playback pixel is on / off in a holographic ROM system using a ROM disk as a storage medium, wherein the storage medium is turned on. A reference pattern for on / off determination is recorded, and the apparatus reads and detects reference data from the reference pattern sequentially while simultaneously reading and detecting reproduction data from any reproduction pattern using one reproduction light. Means for storing the detected reproduction data and the reference data, and means for calculating a threshold for determining comparison of the current reproduction pixel data to be determined based on the N reference data provided from the storage means. And compares the currently reproduced pixel data with the calculated discrimination comparison threshold value. And a device for discriminating pixel data in a holographic ROM system including means for discriminating whether the current reproduction pixel data is on or off.

According to another aspect of the present invention, a holographic ROM system using a ROM disk as a storage medium is a method for determining whether pixels of a playback pixel are turned on or off. Recording reference patterns for on / off discrimination, and sequentially reading and detecting reproduction data from an arbitrary reproduction pattern using one reproduction light and sequentially reading and detecting reference data from the reference pattern Calculating a threshold for discriminating comparison of the current reproduced pixel data based on the N reference data corresponding to one current reproduced pixel data to be determined; and comparing the calculated reproduced pixel data with the calculated discrimination. Compares a threshold value for each pixel to determine whether the current playback pixel data is on or off A method of determining pixel data in a holographic ROM system including a process of performing the same is provided.

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

The core technology of the present invention is different from the above-described conventional method of determining whether each pixel data reproduced on a holographic storage medium (for example, a holographic disk) is on / off pixel using only one preset threshold value. Alternatively, the reference data for discriminating each pixel that can be simultaneously reproduced by the reproduction light is recorded in advance on the holographic storage medium, and the reference data reproduced simultaneously with the reproduction data using one reproduction light source (that is, the same position and angle) is reproduced. Calculates pixel data discrimination thresholds for each pixel by using differently recorded reference data), and determines whether each pixel is on or off using each pixel adaptive threshold value calculated through each pixel. Through such technical means, it is possible to easily achieve the object of the present invention.

1 is a schematic configuration diagram of a ROM system for reading (reproducing) pixel data from a holographic storage medium for discriminating pixel data according to the present invention, which includes a light source 102, a reproducing optical system 104, and a half mirror 106. ), A reflection mirror 108, a storage medium 100, a reproduction output optical system 110a, a reference output optical system 110b, a first light detection block 112a, and a second light detection block 112b.

Prior to the description, in order to determine the pixel data according to the present invention, a reference pattern is recorded for data slicing for discriminating the pixel data in one layer of the storage medium, and the pixel data recorded as the reference pattern on the storage medium is thus determined. The reference data are used to determine threshold values for determining each pixel data using a time delay. In other words, in order to realize the present invention, it is a prerequisite that the reference patterns which are simultaneously reproduced through the reproduction light are recorded in advance in the storage medium.

Referring to FIG. 1, the laser light (eg, green laser light having a wavelength of 532 nm) generated from the light source 102 in the reproduction mode is the reproduction optical system 104 such as a polarizing plate, a parallel lens, or the like. The half mirror 106 is transmitted to the half mirror 106 via the light source, and a part of the laser light transmitted through the reproduction optical system 104 is reflected, and the other part is transmitted to the reflective mirror 108.

That is, the half mirror 106 reflects the reference reproduction light for reproducing the predetermined predetermined reference pattern recorded in the storage medium 100 at an arbitrary angle and transmits the reflected reference light to a target position of the storage medium 100, and reflects the reflection mirror. In 108, a signal reproduction light for reproducing a reproduction pattern (i.e., reproduction data) recorded on the storage medium 100 is reflected at an arbitrary angle and transmitted to the target position of the storage medium 100.

Thus, the reference light signal and the reproduction light signal respectively reproduced from an arbitrary position of the storage medium 100 by the reference reproduction light and the signal reproduction light transmitted through the half mirror 106 and the reflection mirror 108 are respectively output to the reference output. The light is transmitted through the optical system 110b and the reproduction output optical system 110a to the second light detection block 112b and the first light detection block 112a, respectively. Although the detailed illustration in the drawings is omitted, the reproduction output optical system 110a and the reference output optical system 110b include a constituent member such as an imaging lens, SLI, or the like for processing reproduction light.

At this time, the reference optical signal reproduced through one reproduction light is set to read out data (reference optical signal) preceding the reproduction optical signal (that is, reading the previous reference optical signal by adjusting the angle of the reflection mirror). For example, playback data (playback pattern) is recorded in the storage medium in the order of x0, x1, x2, x3, x4, ------, and correspondingly y0, y1, y2, y3 at the same position. Assuming that reference data (reference pattern) is recorded in the order of, y4, ------, the half mirror (when reading the reproduction data of x1 through the signal reproduction light emitted from the reflection mirror 108) The angles of the half mirror 106 and the reflection mirror 108 are set to read the reference data of y3 through the reference reproduction light emitted from 106. Here, x0 and y0, x1 and y1, x2 and y2 are the same storage location, but only the angle is wrong.

As a result, the first and second light detection blocks 112a and 112b detect the regenerated light and the reference light respectively transmitted through the reproducing output optical system 110a and the reference output optical system 110b, respectively. The optical signal and the reference optical signal are passed to the first and second storage blocks 202, 204 of FIG. 2 and stored for subsequent processing of pixel data (ie, pixel determination, etc.).

2 is a block diagram of an apparatus for determining pixel data reproduced in the ROM system of FIG. 1 according to the present invention, and includes a first storage block 202, a second storage block 204, and a threshold value calculation block ( 206 and pixel determination block 208.

Referring to FIG. 2, the first storage block 202 stores a reproduction light signal transmitted from the first light detection block 112a of FIG. 1, and the second storage block 204 stores the second light detection of FIG. 1. The reference optical signal transmitted from the block 112b (i.e., the optical signal read from the reference pattern recorded in the storage medium for determination of the pixel data) is stored. Here, the reproduction optical signal stored in the first storage block 202 is transferred to the pixel determination block 208 described later through the line L21, and the reference optical signal stored in the second storage block 204 calculates a threshold value. Passed to block 206.

Next, the threshold calculation block 206 calculates a threshold for on / off determination of the pixel data detected serially, assuming that the reproduction data and the reference data are as shown in the table below, and also presently read pixels. Assuming this x2, the second storage block 204 fetches the reference data values of y1 and y2 or y2 and y3 and transfers them to the threshold calculation block 206. Here, x0 and y0, x1 and y1, x2 and y2 and the like refer to reproduction and reference data read in the same storage location but only in the wrong angle, respectively.

location 0 One 2 3 4 --- Playback data x0 x1 x2 x3 x4 --- Reference data y0 y1 y2 y3 y4 ---

Thus, in the threshold value calculation block 206, each time one reproduction pixel is outputted, the corresponding two reference data provided from the second storage block 204, namely, the preceding reference preceding the reproduction pixel data in the recording position By performing two operations (that is, calculating an average value) by summing two reference data including trailing reference data following the reproduction pixel data in the data or recording position and dividing by two (i.e., calculating an average value), on / off determination of the corresponding reproduction pixel data is performed. A threshold value (i.e., an average value of two reference data) is calculated, and the calculated threshold value is passed to the next pixel decision block 208 via the line L22.

Subsequently, the pixel determination block 208 reproduces by comparing the reproduction pixel data provided from the first storage block 202 through the line L21 and the corresponding threshold value provided from the threshold calculation block 206 through the line L22. It determines whether the pixel data is an "on" pixel or an "off" pixel, and transfers the data value of the "on" pixel or the "off" pixel to the pixel data processing block (not shown) based on the determination result. In the pixel data processing block, the processed and post-processed pixel data are post-processed, converted into displayable signals, and transmitted to the display side.

That is, in the present invention, the threshold values for pixel determination are calculated for each of the reproduction pixel data using reference data read from the reference pattern recorded on the storage medium, and the corresponding angles are calculated based on the respective threshold values calculated as described above. Determine whether the pixel is "on" or "off".

As described above, according to the present invention, unlike the above-described conventional method of determining whether each pixel data reproduced on the holographic storage medium is on / off pixel using only one preset threshold value, the holographic method The reference data for discriminating each pixel that can be simultaneously reproduced by the reproduction light is recorded in advance in the storage medium, and the reference data reproduced simultaneously with the reproduction data using one reproduction light source (i.e., the same position and different angles are recorded at the time of reproduction). The threshold value for determining pixel data for each pixel is calculated using reference data), and whether each playback pixel is turned on or off is determined by using each pixel adaptive threshold value calculated therefrom. Discrimination of active pixel data can be realized under reproducing conditions. It is possible to prevent the image quality deterioration of the reproduced data effectively.

On the other hand, in the above description of the preferred embodiment of the present invention, the present invention is not necessarily limited thereto, and various changes and modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims below. Of course.

Claims (12)

An apparatus for determining whether a playback pixel is on / off pixel in a holographic ROM system using a ROM disk as a storage medium. A reference pattern for on / off determination of reproduction pixel data is recorded in the storage medium. The device, Means for sequentially reading and detecting reproduction data from an arbitrary reproduction pattern using one reproduction light and sequentially reading and detecting reference data from the reference pattern; Means for storing the detected reproduction data and reference data, respectively; Means for calculating a threshold for determining comparison of the currently reproduced pixel data to be determined based on the N pieces of reference data provided from the storage means; Means for determining whether the current playback pixel data is on / off by comparing the current playback pixel data with the calculated discrimination comparison threshold value. Apparatus for determining pixel data in a holographic ROM system comprising a. The method of claim 1, And reference data corresponding to the pixel data are recorded at different angles at the same position. The method according to claim 1 or 2, And the reference data reproduced at the same time when the reproduction pixel data is reproduced by using the one reproduction light is data trailing by N pixel positions in the recording position. The method of claim 3, wherein N is 2, the pixel data discrimination apparatus in a holographic ROM system. The method of claim 1, The N reference data includes reference data corresponding to the current reproduction pixel data and the preceding reference data preceding the current reproduction pixel data in the recording position or the trailing reference data subsequent to the current reproduction pixel data in the recording position. Apparatus for determining pixel data in a holographic ROM system, characterized in that. The method of claim 5, wherein The determination comparison threshold value, the pixel data determination device in the holographic ROM system, characterized in that the average value of the two reference data. A holographic ROM system using a ROM disk as a storage medium, the method for determining whether a playback pixel is on / off pixel, Recording a reference pattern for on / off determination of each pixel data in the storage medium; Sequentially reading and detecting reproduction data from an arbitrary reproduction pattern using one reproduction light, and sequentially reading and detecting reference data from the reference pattern; Calculating a threshold value for discrimination comparison of the current playback pixel data based on the N pieces of reference data corresponding to one current playback pixel data to be determined; Comparing the current playback pixel data with the calculated discrimination comparison threshold to determine whether the current playback pixel data is on / off pixel; Pixel data determination method in a holographic ROM system comprising a. The method of claim 7, wherein And each reference data corresponding to the pixel data is data recorded at different angles at the same position. The method according to claim 7 or 8, And the reference data reproduced at the same time when the reproduction pixel data is reproduced by using the one reproduction light is data which follows the N pixel position in the recording position. The method of claim 9, N is 2, the pixel data discrimination method in a holographic ROM system. The method of claim 7, wherein The N reference data includes reference data corresponding to the current reproduction pixel data and the preceding reference data preceding the current reproduction pixel data in the recording position or the trailing reference data subsequent to the current reproduction pixel data in the recording position. Pixel data discrimination method in a holographic ROM system, characterized in that. The method of claim 11, The determination comparison threshold value is a pixel data determination method of a holographic ROM system, characterized in that the average value of the two reference data.

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