KR20090071114A - Apparatus for optical information processing and method for optical information processing - Google Patents

Abstract

An optical information processing apparatus and an optical information processing method are provided to improve the security of optical information data by coding data through a coding mask separately stored in recording of the optical information and by decoding data through a coding mask separately stored in reproducing the optical information. An optical information processing apparatus comprises: a step for inputting optical information data to be recorded; a step for producing coded data by coding inputted the data; a step for producing a data page(10) by encoding the coded data; and a step for storing the data page in an optical information storage medium(D) by loading the data page at signal beam and crossing reference beam with the data page.

Description

Optical information processing apparatus and optical information processing method {apparatus for optical information processing and method for optical information processing}

The present invention relates to an optical information processing apparatus, and more particularly, to an optical information processing apparatus and an optical information processing method which provide an encryption means to stored optical information to prevent illegal use of data in advance. .

Recently, there is an increasing demand for an optical information recording and / or reproducing apparatus (hereinafter referred to as an "optical information processing apparatus") having a large capacity of information storage capability and capable of high speed operation. Such optical information processing apparatuses include, for example, digital versatile disc (DVD) devices, high density digital versatile disc (HD-DVD) devices, blue-ray disc (BD) devices, proximity light processing devices, and holographic processing devices.

Among them, the holographic optical information processing apparatus has attracted attention as a next-generation optical information processing apparatus because it has superior information storage capability and data processing speed than a DVD apparatus, an HD-DVD apparatus or a BD apparatus.

The optical information processing apparatus using the holography superimposes an information beam and a reference beam including image information of the input data onto an optical information recording medium, and investigates the interference pattern. ) Is recorded on the optical information recording medium.

In order to reproduce the recorded optical information, when the reference light is irradiated onto the optical information recording medium, the reference light is diffracted by the interference pattern to generate the reproduced light. If the recording reference light and the reproduction reference light are the same, reproduction light containing the same optical information as the optical information included in the signal light during recording is generated.

Then, the image of the data page reproduced through the reproduction light is detected through a light receiving array element such as a complementary metal-oxide semiconductor (CMOS) or a charge coupled device (CCD). The detected data page is restored to output data through a series of demodulation and decoding processes.

On the other hand, in recent years, analogue to the digital age, the content has been digitized, including many analog media. Digitized data, unlike analog, is easy to copy and store, providing users with a lot of convenience.

However, because digitized data can be copied exactly like the original, piracy of copyrighted digital contents is always exposed. Piracy is a very serious problem because it blocks the author's legitimate income and eliminates the desire for creation.

On the other hand, in the optical information processing apparatus as described above, a series of data processing is digitized and processed. When reproducing optical information data that is stored after being encoded by the encoder at the time of data recording, the optical information processing apparatus has the same code value as that at the time of encoding. Is decoded by

In this case, since the reproduced optical information data is decoded in the same manner as the encoding method, there is a problem in that unauthorized data, illegal copying, and the like can be relatively easily performed in the case of data requiring security of the optical information data.

The present invention has been made to solve the above problems, by coding data using an encryption mask that is stored separately when recording the optical information, and to decode the data by using a separately stored encryption mask when playing the optical information It is an object of the present invention to provide an optical information processing apparatus and processing method for improving the security of optical information data.

The optical information processing method according to an embodiment of the present invention for achieving the above object is an input step of inputting the optical information data to be recorded, an encryption step of encrypting the input data to generate encrypted data, the encrypted data A page generating step of encoding and generating a data page, and storing the data page on the optical information storage medium by loading the data page on the signal light and crossing the reference light.

The encrypting step may include generating an encryption mask corresponding to the data and the data, generating an encryption key corresponding to the encryption mask as the encryption mask is generated, and calculating and encrypting the data and the encryption mask. Forming data.

The forming of the encrypted data includes calculating the encrypted data by calculating the data and the encryption mask with an exclusive OR.

And storing the encryption key in a separate removable storage device after generating the encryption key.

An optical information processing method according to an embodiment of the present invention for achieving the above object is a method for reproducing the data page stored in an optical information storage medium, the detecting step of detecting the data page, the detected data page An encryption data generating step of generating the encrypted data by decoding the decoding, and a decrypting step of generating the data by decrypting the generated encrypted data.

The generating of the encrypted data may include receiving the encryption key, generating the encryption mask corresponding to the input encryption key, and calculating the data by calculating the generated encryption mask with the encrypted data. Include.

The calculating of the data may include calculating the data by calculating the encrypted data and the encryption mask by an exclusive OR.

In the receiving of the encryption key, the encryption key is provided by a portable storage device storing the encryption key.

Optical information processing apparatus according to an embodiment of the present invention for achieving the above object is a light source, an optical splitter for separating the light emitted from the light source into a reference light and a signal light, encryption to encrypt the optical information data to generate encrypted data A processing unit, an input data processing unit for encoding the encrypted data and modulating it through modulation code conversion to generate a data page, a spatial light modulator for reproducing the data page to the signal light, and reproduction light reproduced on a recording medium by the reference light A detector for generating the data page by detecting a signal, an output data processor for decoding the data page generated by the detector, demodulating the data page, and decrypting the encrypted data to generate the data. It is provided.

The encryption processing unit generates an encryption mask for encrypting the data and an encryption key corresponding to the encryption mask, and generates the encrypted data by operating the encryption mask and the data.

The encryption processing unit calculates the data and the encryption mask by an exclusive OR to form the encrypted data.

A portable storage device for storing the encryption key is further provided.

The decryption processing unit generates the data by calculating the encryption mask and the encrypted data to decrypt the encrypted data.

The decryption processing unit calculates the encrypted data and the encryption mask by an exclusive OR to form the data.

The encryption mask is provided with the encryption key from a removable storage device in which the encryption key is stored.

According to the optical information processing apparatus and processing method according to the present invention, the data is coded using an encryption mask that is stored separately when recording the optical information, and the data is decoded by using the encryption mask that is stored separately when the optical information is reproduced. There is an effect that can improve the security of the information data.

Hereinafter, an optical information processing apparatus and an optical information processing method according to the present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, the names of the elements defined are defined in consideration of functions in the present invention, and should not be understood as meanings that limit the technical elements of the present invention. May be referred to by other names in the art. In addition, the code added to each component is described for convenience of description, and the contents shown in the drawings in which these codes are described do not limit each component to the range in the drawing. In addition, as long as the functional similarity and identity thereof, even if the modified embodiment is adopted, it can be seen as an equivalent configuration, and even if the embodiment in which the modified part of the configuration is employed, it can be seen as an equivalent configuration.

First, the optical information processing apparatus according to the present invention will be briefly described with reference to the accompanying drawings.

1 is a block diagram showing an optical information processing apparatus according to the present invention.

As shown, the optical information processing apparatus 100 according to the present invention includes a light source 110, a beam splitter 120, a multiplexer 130, a spatial light modulator 140, And an optical information detector 150, an input data processor 170, and an output data processor 180. The input data processor 170 is provided with an encryption processor 160 for encrypting input data by a separate encryption mask. The output data processor 180 is provided with a decryption processor 190 for decrypting the output data by a separate encryption mask.

In the processing apparatus 100, the light irradiated from the light source 110 is separated into the reference light R and the signal light S through the light splitter 120. The reference light R passes through the first shutter 125a and is reflected by the multiplexer 130 to be incident on the optical information recording medium D at a predetermined angle.

The signal light S passes through the second shutter 125b and enters the spatial light modulator 140 after the path is changed by the reflector 130a. In this case, the spatial light modulator 140 receives a data page encrypted by the encryption processing unit 160 and provided by the input data processing unit 170.

In the data page, input data to be recorded by the encryption processing unit 160 is encrypted by an encryption mask, and at the same time, an encryption key corresponding to the encryption mask 160 is generated by the encryption processing unit 160.

Meanwhile, the encrypted encrypted data is converted into a data page which is a page unit of binary data through encoding and modulation code conversion by the input data processing unit 170 and provided to the spatial light modulator 140.

Accordingly, the data page input from the input data processing unit 170 in the spatial light modulator 140 is optically modulated to generate a two-dimensional imaged data page, and the generated data page is projected onto the signal light S to record the optical information. It enters into the medium D.

When the reference light (R) and the signal light (S) is incident on the optical information recording medium (D), the interference generated by the interference between the incident reference light (R) and the signal light (S) in the optical information recording medium (D) According to the intensity of the pattern, a light induced generation of mobile charge occurs and the interference pattern is recorded.

Meanwhile, the multiplexer 130 adjusts the angle at which the reference light R is incident on the optical information recording medium D to implement angle multiplexing. The multiplexer 130 is preferably provided with a rotating mirror such as a galvano mirror.

On the other hand, in order to reproduce the recorded encrypted data, only the reference light R may be irradiated to the optical information recording medium D. During reproduction, the first shutter 125a passes through the reference light R separated by the light splitter 120, and the signal light S is blocked by the second shutter 125b.

At this time, the reference light R irradiated from the multiplexer 130 through the first shutter 125a is diffracted by an interference pattern recorded on the optical information recording medium D, so that reproduction light having an image of a data page is obtained. Is generated.

The reproduced light is detected by the optical information detector 150 as an image of the data page. At this time, the image of the detected data page is an image of the encrypted data. Here, the optical information detector 150 is composed of a light receiving array element such as a CMOS or a CCD.

The detected data page is converted into encrypted data by performing demodulation code conversion and decoding by the output data processing unit 180.

The encrypted data is calculated in an exclusive OR by an encryption mask corresponding to the encryption key stored at the time of encoding by the decryption processing unit 190 to generate final output data.

Hereinafter, the above-described modulation of the optical information by the encryption processing unit 160 and the input data processing unit 170 will be described with reference to the accompanying drawings. Each element mentioned below should be understood with reference to the above description and drawings.

2 is a block diagram illustrating modulation of optical information by the optical information processing apparatus according to the present invention, and FIG. 3 is a block diagram showing signal processing of an encryption processing unit when modulating optical information in the optical information processing apparatus according to the present invention. 4 is an exemplary view illustrating encryption of optical information in the optical information processing apparatus according to the present invention.

As shown, the input data of the optical information is encrypted by the encryption processing unit 160 is converted by the input data processing unit 170 to the data page through encoding and modulation code conversion.

The encryption processing unit 160 encrypts the input data to be recorded and then generates an encryption key corresponding to the encryption mask at the same time as encrypting the encryption data. The encryption processing unit 160 generates encrypted data by calculating the exclusive data with the input data and the encryption mask (see FIG. 4).

Here, the above-described encryption key may be stored in a separate removable storage device (for example, floppy disk, CD, memory card, USB memory, etc.) (not shown). In addition, the encryption key may correspond to a common encryption mask that may be used in common.

The input data processing unit 170 includes an encoder 172 that performs encoding using the input encrypted data, and a modulator 174 that changes the code generated by the encoder 172 based on the modulation code conversion.

According to the input data processor 170, as the optical information data is input, a code corresponding to the data is generated at the encoder 172, and the generated code is modulated by the modulator 174 to generate a data page.

The modulation-converted data page is loaded onto the signal light S by the spatial light modulator 140, and the signal light S on which the optical information is loaded is incident on the recording medium D while being connected to the reference light R. Optical information is recorded by the interference of.

Meanwhile, demodulation of the optical information by the optical information processing apparatus according to the present invention is performed by the output data processor 180 and the decoding processor 190 of the optical information processing apparatus.

Hereinafter, repeated demodulation of optical information by the above-described output data processing unit 180 will be described with reference to the accompanying drawings. Each element mentioned below should be understood with reference to the above description and drawings.

5 is a block diagram showing demodulation of optical information by the optical information processing apparatus according to the present invention, and FIG. 6 is a block diagram showing signal processing of an encryption processing unit when demodulating optical information in the optical information processing apparatus according to the present invention. 7 is an exemplary diagram illustrating decoding of optical information in the optical information processing apparatus according to the present invention.

First, the output data processor 180 will be described briefly. The output data processor 180 includes a demodulator 182, a decoder 184, and the like.

Here, the demodulator 182 demodulates the data page through modulation code conversion of the image of the data page read by the optical information detector 150.

The decoder 184 performs decoding through the data obtained by the demodulator 182, and generates data by checking the integrity of the decoded data through a parity check. At this time, the output data is encrypted data generated when data modulation of the above-described optical information.

On the other hand, the demodulation processing unit generates the output data by calculating the encrypted data in an exclusive OR with the encryption mask corresponding to the encryption key using an encryption mask corresponding to the encryption key (see FIG. 7).

Here, the above-described encryption key may be provided by a separate removable storage device (for example, floppy disk, CD, memory card, USB memory, etc.) (not shown). In addition, the encryption key may correspond to a common encryption mask that may be used in common.

Although described in detail with respect to preferred embodiments of the present invention as described above, those of ordinary skill in the art, without departing from the spirit and scope of the invention as defined in the appended claims Various modifications may be made to the invention. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

For example, a component having another additional function may be added to the optical information processing apparatus and the optical information processing method according to the present invention, or replaced with another component. However, all other modified embodiments include the essential elements of the present invention should be considered to be included in the technical scope of the present invention.

1 is a block diagram showing an optical information processing apparatus according to the present invention.

2 is a block diagram showing modulation of optical information by the optical information processing apparatus according to the present invention.

3 is a block diagram showing signal processing of an encryption processing unit when modulating optical information in the optical information processing apparatus according to the present invention.

4 is an exemplary view illustrating encryption of optical information in the optical information processing apparatus according to the present invention.

5 is a block diagram showing demodulation of optical information by the optical information processing apparatus according to the present invention.

6 is a block diagram showing signal processing of an encryption processing unit when demodulating optical information in the optical information processing apparatus according to the present invention.

7 is an exemplary diagram illustrating decoding of optical information in the optical information processing apparatus according to the present invention.

** Explanation of symbols in main part of drawing **

110: light source

120: light splitter

130: multiplexer

140: spatial light modulator

150: optical information detector

170: input data processing unit

180: output data processing unit

Claims (12)

An input step of inputting optical information data to be recorded, An encryption step of generating encrypted data by encrypting the input data; A page generation step of generating a data page by encoding the encrypted data; And storing the data page in the optical information storage medium by loading the data page on the signal light and crossing the reference light. The method of claim 1, wherein the encrypting step, Generating an encryption mask corresponding to the data and the data; Generating an encryption key corresponding to the encryption mask as the encryption mask is generated, Computing the data and the encryption mask to form encrypted data. 3. The method of claim 2, wherein forming encrypted data And encrypting the data and the encryption mask by an exclusive OR to form the encrypted data. A method for reproducing the data page stored in the optical information storage medium of claim 1, A detecting step of detecting the data page; Generating an encrypted data by decoding the detected data page; And decrypting the generated encrypted data to generate the data. The method of claim 4, wherein the generating of the encrypted data comprises: Receiving the encryption key; Generating the encryption mask corresponding to the input encryption key; And calculating the data by calculating the generated encryption mask with the encrypted data. 6. The method of claim 5, wherein calculating the data And calculating the data by calculating the encrypted data and the encryption mask by an exclusive OR. Light Source, A light splitter separating the light emitted from the light source into a reference light and a signal light, An encryption processing unit for encrypting optical information data to generate encrypted data; An input data processor which encodes the encrypted data and modulates it through modulation code conversion to generate a data page; A spatial light modulator for repeating the data page on the signal light; A detector for detecting the reproduction light reproduced from the recording medium by the reference light to generate the data page; An output data processor for decoding and demodulating the data page generated by the detector to generate the encrypted data; And a decryption processing unit which decrypts the encrypted data to generate the data. The method of claim 7, wherein the encryption processing unit And an encryption mask for encrypting the data and an encryption key corresponding to the encryption mask, and generating the encrypted data by calculating the encryption mask and the data. The method of claim 8, wherein the encryption processing unit And encrypting the data and the encryption mask by an exclusive OR to form the encrypted data. The method of claim 7, wherein the decoding processing unit And generating the data by calculating the encryption mask and the encrypted data to decrypt the encrypted data. The method of claim 10, wherein the decoding processing unit And computing the encrypted data and the encryption mask by an exclusive OR to form the data. The method of claim 10, And the encryption mask receives the encryption key from a portable storage device in which the encryption key is stored.

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