KR20020024447A - Optical Data Storage Method And Device Using Color On Film Or Photograph - Google Patents

Abstract

PURPOSE: An optical information storing method and apparatus for recording information on a film or print paper using colors are provided to record information having various characteristics on one point using many colors having different luminances and wavelengths to improve recording density. CONSTITUTION: Multiple signals of above 2bits are recorded on one point of media using wavelength difference or luminance difference, and the recorded signals are converted into binary codes, to be used for a multimedia apparatus or computer. The media includes a slide film, camera film, micro-film, print paper and plastic film. Information is stored in such a manner that a signal having various colors is recorded on a plurality of points on a print paper using a digital development system or laser printer.

Description

Optical data storage method and device using color on film or photograph

The present invention relates to an information storage device and method for recording data or images of a computer and a multimedia device. Conventional digital information storage devices usually have optical method using light and dark of light and magnetic method using direction of magnetic force. This method has been used since the beginning of computer development. It is less affected by external noise and can reproduce accurate data. Although there is an advantage, the method of recording 1 bit of data on one point has a limitation in the recording capacity. A typical magnetic recording digital medium is a hard disk, and a typical optical recording medium is a CD-ROM. Both of these methods record two signals, 0 and 1, 1 bit at a point on the media.The recording media are made of plastic or metal, so the unit price is relatively expensive, and they are not decomposed when disposed of. It also provides. In addition, when carrying multiple sheets, the volume and weight are increased, which is inconvenient when applied to portable equipment such as a camcorder or a notebook.

The problem to be solved in the present invention is a slide film or photographic film as a variety of colors of 2bit ~ 24bit different in wavelength and brightness that can be clearly distinguished at one point, compared to conventional media recording two signals, that is 1bit signal Or to record data on photo paper. If you use 256 colors, you can record 8-bit signals at a point. If you use 65536 colors, you can record 16-bit signals at a point. Slide film, photographic film, and photo paper can prevent color bleeding or deterioration over time, which is a concern in the general printing method using ink in expressing color, and express color difference according to wavelength and brightness. It is a suitable medium. When using a digital developing machine or a color laser printer, it is possible to record various colors at a minute size of about 10 micrometers, thereby enabling a large amount of data recording. In addition, since photo paper and film are light and compact, they can be usefully used in portable devices such as notebooks and camcorders.

The present invention converts general data into color data through a conversion process using a program or integrated circuit serving as a bitmap converter, and then converts the data into a slide film or photographic film using a device such as a digital developer or a color laser printer. It writes on photographic paper, reads color data through a color-recognizing sensor, and converts it to general data so that it can be used on multimedia devices or computers.

Description of each drawing

1 is a flow chart illustrating the overall process of the invention.

Figure 2 is an enlarged version of the English sentence of the ASCII format "I love you." Converted to 16-color (4-bit) bitmap code for Windows using a bitmap converting program. Two units of color represent one character.

3 is an example of converting a general MP3 music file as in the method of FIG. 2 and recording it on photo paper using a digital developer.

4 shows two ways in which data is recorded on photo paper or film. 4 is a general rectangular recording medium, and 2 is a disk type recording medium identical to a CD or a hard disk.

5 is an example of data recorded in 200 dot * 200 dot * 16bit color, and 4 is an enlarged view of the inside of the circle of 3. .

The present invention is a method of recording data using a color on a slide film or photo paper, the overall process proceeds in the order shown in FIG. First, the number of colors to express the data we want to record is determined and converted into bitmap codes as shown in FIG. 2, and then, using a digital developer, a color laser printer, or a recording-only developer, Print the dots on photo paper or film in different colors with different wavelengths and brightness. FIG. 2 is an example in which a general ASCII format sentence is expressed in a 16-bit bitmap format, and FIG. 3 is an example in which an MP3 format sound file is recorded on photo paper. One point is composed of colors with various brightness and wavelength bands, and information about the size of the point and the number of colors is recorded in the data area to be recorded first, so that information necessary for reading data can be obtained. When 16 colors are used for one point, 4 bits can be recorded. When using true color supported by a general SVGA adapter, up to 24 bits can be recorded in one point. 5 is an example in which data is recorded using 16-bit color on photo paper, and 4 in FIG. 5 is an enlarged view of part thereof.

As shown in Figure 4, the printing method can be divided into two, the first is a method that is generally used to write a point from the upper left to the right, in the spiral direction like a typical CD or hard disk as shown in Figure 2 There is a method of recording and printing data sequentially. Either way, there is a part that sets the reference color and the reference point spacing, such as 4 of FIG. 2, on the top, bottom, inside, or outside of the media as shown in FIG. To accommodate various dot sizes.

Photo paper or film on which information is recorded can be subjected to a special surface treatment to prevent data from deterioration.

The present invention achieves an increase in information capacity by recording multiple signals of two or more bits at one point, rather than the one-bit recording method used in conventional digital media, by using colors having different wavelengths and brightness, and for slide films or photographs. Since printing media such as film and photo paper are used, there is no color bleeding, and fine and accurate recording is possible. When printing in 16bit color at 1200dpi dot space, about 103MB can be stored in 15cm x 15cm area. In addition, it is inexpensive, simple in structure, and easy to transport, carry, and store compared to media using a metal plate or a plastic plate, and thus can be useful for devices such as a camcorder, a walkman, and a notebook computer. In addition, it can be used as an identification code used for credit cards or books, and it saves resources because it requires less resources to compose media compared to existing media. It can also be widespread. In the case of a 12cm media such as a disc type CD, it may have compatibility with existing devices, and may be expected to develop into a large-capacity media according to technology development.

Claims (5)

How to record multiple signals of 2 or more bits instead of 1-bit digital signal by using wavelength difference or brightness difference on one minute point on media, and convert it to binary code and use it for multimedia device or computer The method according to claim 1, wherein a slide film, a camera film, a micro film, a photo paper, and a plastic film are used as media, and various signals with different colors, luminosity, and amount of light are used. How to record information by recording a signal of bits The color printing method information storage medium according to claim 2, wherein the printed recording medium has a circular disk shape or a rectangular shape, and records at least one bit at a point where both sides can be used. Converts a general data file into a data structure with multi-signal at one point with color information in the bitmap format for Windows, and saves it to media such as slide film, photographic film, microfilm, and photo paper, and reads the bitmap from the media. How to convert from code to the original data file you recorded How to store information by recording signals of different colors on multiple photo points on photo paper using a digital photo developing machine or laser printer