KR20180091238A - A method of detecting three primary colors using a plurality of infrared rays and a plurality of monochromatic wavelength bands - Google Patents

Abstract

The present invention relates to multiple image sensor technology using infrared wavelength band chromaticity, generally. Particularly, the present invention includes a three primary color detection method using a plurality of infrared rays and a plurality of monochromatic wavelength bands. Therefore, a method for converting a monochromatic image into a color image is necessary. The present invention proposes a method for converting an infrared photographing monochromatic image into a color image at night. The method includes a step of converting an image, obtained by irradiating a plurality of infrared wavelength bands, into a color image again by using a plurality of infrared rays and a plurality of monochromatic wavelength bands to detect a plurality of infrared bands reflected from the image after the plurality of infrared wavelength bands are irradiated to the image.

Description

 BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting three primary colors using a plurality of infrared rays and a plurality of monochromatic wavelength bands,

The present invention relates generally to multiple image sensor technology using infrared wavelength band chromaticity. Particularly, the present invention includes a method of detecting a three primary colors using a plurality of infrared rays and a plurality of monochromatic wavelength bands. Therefore, a method of converting a monochrome image into a color image has become necessary. The present invention relates to a method for converting an infrared photographing monochrome image into a color image at night.

Image sensors taken at night usually have difficulty in acquiring color images such as daytime using infrared photographing, and there are many restrictions when analyzing actual color images. In general, infrared photography taken at night only provides images in black and white, so that it is not possible to receive color image information for any object at night.

In order to solve such a problem, in order to convert a color image into a color image by using an infrared ray photographing device which is used at night, according to the present invention, the wavelength of the light reflected by the subject is different, It is the reflection of the original wavelength band which differs depending on the color in the other infrared wavelength band to convert to the color image.

The above-mentioned wavelength band irradiation method irradiates a subject in a plurality of bands such as an 840 nm infrared wavelength band and an 860 nm 890 nm wavelength 900 nm band, and converts the reflected image wavelength band of each band into a color image.

For example, when the infrared wavelength of 840 nanometers is irradiated to the subject green, the reflected value emits a wavelength of 885 nanometers. When the wavelength of 860 nanometers is measured, the blue emits 890 nanometers. Also, when the value of the 890 band is irradiated to a red color, a value of 920 nm is emitted.

When infrared rays having different wavelength bands are irradiated on the subject, the color image of a unique subject is obtained by irradiating a plurality of infrared wavelength bands, taking into consideration the fact that a unique wavelength band differs depending on the color.

The color intensity of the chromaticity of the subject, that is, the color temperature, becomes gradually darker toward 884, 883, 882 on the basis of 885 in the green irradiation zone, and gradually becomes 886, 887,888,

Subsequently, an actual color wavelength bottle is irradiated with a plurality of infrared rays with a color of, for example, 630 to 780 nm in red, 590 to 630 nm in orange, 560 to 590 nm in yellow, 490 to 560 nm in green, 450 to 490 nm in blue, The wavelengths are examined and the reflected infrared wavelength band is extracted in the same way to perform color conversion.

A plurality of infrared wavelength bands reflected and obtained from the subject provide a system in which the color image is switched by placing the control central processing unit of the image sensor.

The image sensor uses a general image sensor and includes a conversion device for converting a color image into another control board in a camera structure combining an image sensor and a lens to convert the control board into a real-time color image.

The present invention relates to a method of extracting a color image through the infrared band, wherein a plurality of different wavelength bands are irradiated to the subject in infrared rays irradiated by a camera, and a plurality of obtained black and white data is used in a plurality of black and white wavebands And reproducing the color color;

 Acquiring another infrared wavelength band reflected by the image in which a plurality of bands are photographed by the infrared ray to be irradiated several times per second;

Converting the values of a plurality of wavelength ranges repeatedly irradiated in the image direction, that is, the direction to be photographed, and converting the values into a color image.

Subsequently, the black and white image images reflected by the infrared rays irradiated from the object water for a plurality of different wavelength rentals are acquired and the infrared image reflected by the central processing system is converted to obtain a color image.

In general, the CCTV security camera that photographs at night or photographs during the day has a difficulty in obtaining an actual color image because it can only implement a monochrome image. In particular, in the portion dealing with a crime incident, It is possible to obtain a color image which can not be generally used in an infrared camera.

Figure 1 shows a plurality of infrared schematics.
Fig. 2 is an example of black and white data value conversion; Fig.

FIG. 1 is a diagram illustrating an example of the present invention. FIG. 1 is a block diagram of an exemplary embodiment of the present invention. In FIG. 1, a plurality of monochromatic wavebands arrayed by a plurality of infra- Represents the acquisition system. As shown in the figure, a plurality of infrared rays are irradiated to the subject d and the reflected black and white data values are extracted by extracting the black and white vector data values acquired in the sensor a by the wavelength band through the lens b The color vector is extracted again through the monochrome processing system (c), and the monochrome color is converted into a color value as shown in FIG.

Where repetition of the black and white wavelength band chromaticity band from a number of infrared monochrome waveband sources is transmitted to the image sensor terminal through the lens and array overlay band layer iterations. Array overlay band-by-layer iteration may consist of repeating a number of black and white wavelength band electromagnetic radiation bands reflecting the vector extraction of the selected acquired black and white data.

a: sensor
b: Lens
c: vector value processing cpu
d: subject
100: infrared
100-1: infrared

Claims (3)

In a three-color detection method using a plurality of infrared rays and a plurality of monochromatic wavebands;
A plurality of infrared wavelength bands of a plurality of infrared rays are irradiated to a plurality of infrared wavelength bands, and a plurality of infrared bands reflected from the image are detected and a plurality of infrared bands are scanned using a plurality of infrared bands, Third color detection method using multiple infrared monochromatic wavebands converting the acquired image back to color image The method according to claim 1,
In the control mode, the 840 nm, 860 nm, 890 nm, and 900 nm infrared rays of a plurality of infrared rays are irradiated, and a plurality of infrared black and white wavelength bands A method of detecting three primary colors using The method according to claim 1,
In the control mode, in order to convert an image obtained from a plurality of infrared bands into a color image, a plurality of infrared images for converting a plurality of black-and-white images irradiated and reflected for each of the real color image and the wavelength range into a color image, Three-color detection method using black and white wavelength band

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