KR101462140B1 - Infrared ray processing Method and apparatus for removing a light source of illumination - Google Patents

Abstract

The present invention relates to an infrared light processing method and apparatus for eliminating noise from an illuminating light source. In order to eliminate noise caused by an illuminating light source using a commercial power source, a light emitting unit for emitting infrared light, An infrared light processing apparatus comprising a light receiving unit for collecting a light amount and a light amount immediately after radiation and a noise removing unit for removing noise from the illumination light source by attenuating light amount just before radiation in the light amount immediately after radiation, Thus, even if the noise intensity of the illumination light source is greatly increased, the noise of the illumination light source can be accurately and effectively removed.

Infra-red light, noise in the illuminating light source, noise rejection

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an infrared ray processing apparatus for removing noise from an illumination light source,

FIG. 1 is a block diagram of a target detection apparatus using infrared light, which is a typical integrated transmission /

FIG. 2 is a signal timing diagram according to the target detection apparatus of FIG. 1;

3 is a configuration diagram of a target detection apparatus using infrared light according to the technique of the present invention,

4 is a flowchart illustrating a method of detecting a target using infrared light according to the technique of the present invention, and

5 is a diagram illustrating a signal timing diagram according to a target detection method using infrared light according to the technique of the present invention.

<Key Signs of the Drawings>

31: light emitting portion 32: light receiving portion

33: noise control unit 34: target detection unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared optical processing apparatus, and more particularly, to an infrared optical processing apparatus capable of removing noise caused by an illumination light source using a commercial power source.

Since infrared light is generally invisible to humans, the transmission and reception of infrared light is used for various purposes in various fields. Whether the transmission module and the reception module are separated or whether the transmission module and the reception module are integrated, the value is determined by the intensity of the received infrared light for the transmitted infrared light. In general, the infrared light has a structure that determines whether the infrared light is received after confirming whether the infrared light is above or below a predetermined threshold value.

One example of such an apparatus using infrared light is a target detection apparatus using infrared light as shown in FIG.

1, infrared light is emitted in a solid line form in the light emitting portion 11 and infrared light reflected in the form of a dotted line on the surface of the target 20 is generated. The light receiving unit 12 amplifies and outputs the intensity of the received light. If the target 20 is present, infrared light having a larger light quantity is incident to generate a high-level signal. If the target 20 is absent, So that a low level signal is generated.

However, when an illuminating light source (for example, a fluorescent lamp, an incandescent lamp, and a halogen lamp) using a commercial power source (or a domestic power source) is located near the light receiving unit 12, . The illumination light source at this time is characterized in that the light amount is periodically increased or decreased according to the operating frequency of the commercial power source (for example, 60 kHz).

For example, when the light emitting unit 11 emits infrared light to the target 20 as shown in FIG. 2A, the infrared light is reflected on the target 20, and then the noise of the illumination light source The light is incident on the light receiving portion 12. [ Then, the light receiving unit 12 acquires the maximum value of the infrared light added with the noise by the illumination light source and generates an output signal as shown in (c). As the influence of the noise caused by the illumination light source increases, the probability of occurrence of the error increases in the process of processing the infrared light.

In order to solve the above problems, there has been proposed a method of attenuating a noise caused by an illumination light source by a circuit technique in the past, or a method of reducing noise by digital coding as in a conventional domestic application No. 10-1998-0023693 (filed on June 23, 1998) A method of attenuating the effects has been proposed.

However, even if the above method is used, there is a problem that attenuation is not completely performed when the noise level is large enough to greatly affect the signal level.

An object of the present invention is to provide an infrared optical processing apparatus for removing noise of an illuminating light source using infrared light which is not affected by noise caused by an illuminating light source.

According to an aspect of the present invention, there is provided an infrared light processing apparatus comprising: a light emitting unit emitting infrared light; A light receiving unit for collecting the light amount immediately before the radiation of the infrared light and the light amount immediately after the radiation; And a noise removing unit for removing noise from the illumination light source by attenuating light just before the radiation in the light amount immediately after the radiation and generating an electric signal.

According to another aspect of the present invention, there is provided a target detection method comprising: a first measurement step of measuring an amount of light immediately before emission of infrared light in one light receiving unit; A second measuring step of measuring the amount of light immediately after the radiation of the infrared light in the one light receiving unit; And a converting step of removing noise from the illumination light source from the quantity of light immediately after the radiation using the light quantity immediately before the radiation in the noise elimination, and then converting the noise into an electric signal.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

3 is a block diagram of a target detection apparatus using infrared light according to the technique of the present invention.

Referring to FIG. 3, the target detection apparatus of the present invention includes a light emitting unit 31, a light receiving unit 32, a noise control unit 33, and a target detection unit 34.

The light emitting unit 31 emits infrared light and the light receiving unit 32 measures the amount of light immediately before the radiation of the infrared light and the amount of light immediately after the radiation of the infrared light under the control of the noise control unit 33 to obtain a first electric signal and a second electric signal Respectively.

The noise control unit 33 analyzes the first electric signal through the light receiving unit 32, measures the amount of light immediately before the emission of the infrared light, and measures the noise of the illumination light source according to the current operating environment. And uses this to remove noise from the illuminating light source from the second electrical signal.

The target detection unit 33 analyzes the signal level of the electric signal output from the noise control unit 33 and detects whether or not the target 20 exists.

4 is a flowchart illustrating a method of detecting a target using infrared light according to the technique of the present invention.

First, the first light amount is measured through the light receiving unit 32 immediately before the infrared ray is radiated (S1) to grasp the noise of the illuminating light source, and a first electric signal corresponding thereto is generated (S2).

Immediately thereafter (S3), the second light amount is measured through the light receiving unit 32 and a second electric signal corresponding to the second light amount is generated (S4).

The second light amount measured through step S4 includes not only the infrared light reflected and incident from the target 20 but also the first light amount having the noise of the illumination light source.

The signal level of the second electrical signal generated in step S4 is attenuated by the signal level of the first electrical signal generated in step S2 so as to obtain an electrical signal corresponding to the amount of infrared light whose noise is removed from the illuminating light source (S5).

The obtained electric signal is outputted to the outside to notify the user or the external device of the current state (S6).

Therefore, even if the intensity of the noise of the illumination light source is changed and the noise of the illumination light source becomes very large, the present invention can always obtain only the infrared light reflected from the target 20 and stably and accurately.

5 is a diagram illustrating a signal timing diagram according to a target detection method using infrared light according to the technique of the present invention.

First, as shown in FIG. 5A, the noise A of the illumination light source is periodically increased or decreased according to the operating frequency of the commercial power source.

In this state, as shown in (b), when the infrared ray B is periodically radiated, the target detection apparatus detects infrared light B 'reflected from the target 20 as shown in (c) ) And the sum (A + B ') of the sum of the illumination light source noise A of (a).

Therefore, the present invention is characterized in that after receiving the light amount (A, A + B ') through the time A immediately before the radiation (TA) and the radiation B (TB) immediately after the radiation, The light amount A of the A time TA immediately before the radiation is subtracted from the light amount A + B '

Then, as shown in (d), the illumination light source noise in (a) is removed, and only the infrared light B 'that is reflected from the surface of the target 20 and strikes remains.

In the above embodiments, only a target detection apparatus using infrared light as an apparatus using infrared light has been described. However, the principle of the noise cancellation apparatus and method of the illumination light source according to the present invention can be applied and used in various types of apparatuses Of course, of course.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. To those skilled in the art.

The infrared light processing apparatus for eliminating the noise of the illumination light source of the present invention as described above can measure the amount of light immediately before and after the radiation and then measure the amount of light immediately after the radiation, So that the noise of the light source can be removed. Therefore, even if the noise intensity of the illumination light source becomes very large, the noise of the illumination light source can be accurately and effectively removed.

Claims (5)

A light emitting portion for emitting infrared light; A light receiving unit for collecting the light amount immediately before the radiation of the infrared light and the light amount immediately after the radiation; And a noise canceling unit for generating an electric signal after attenuating the amount of light immediately before the radiation by the amount of light immediately before the radiation by removing the noise of the illumination light source. The apparatus according to claim 1, wherein the infrared optical processing apparatus Further comprising a target detection unit for analyzing the electrical signal to detect the presence or absence of a target. A first measuring step of measuring, in one light receiving section, the light quantity immediately before the radiation of the infrared light; A second measuring step of measuring the amount of light immediately after the radiation of the infrared light in the one light receiving unit; And And a converting step of attenuating the amount of light just before the radiation in the light amount immediately after the radiation in the noise elimination to remove the noise of the illuminating light source and then converting it into an electric signal. The method of claim 3, And detecting a presence or absence of a target by analyzing the electrical signal. delete

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