KR20150016723A - System for analyzing the information of the target using the illuminance sensor of the smart device and the method thereby - Google Patents

Abstract

The present invention relates to an information analyzing system using an illuminance sensor of a smart device, and an information analyzing method thereby. The information analyzing system using an illuminance sensor of a smart device comprises: an illuminance sensor receiving an optical signal reflected from an object to be inspected of which information is to be analyzed; a control unit installed inside the smart device, receiving the optical signal from the illuminance sensor through a reception, converting the optical signal to an electric signal by using a signal conversion unit, detecting a peak wavelength, a dominant wavelength, and a centroid wavelength in the electric signal through a detection unit, and analyzing information of the object to be inspected by extracting data of the object to be inspected from the detected wavelengths and comparing the wavelengths with database (DB) stored in a DB unit; and a display unit installed in the smart device, and displaying the information analyzed by the control unit.

Description

TECHNICAL FIELD [0001] The present invention relates to an information analysis system using an illuminance sensor of a smart device and an information analysis method using the same.

The present invention relates to an information analyzing system using an illuminance sensor of a smart device and a method of analyzing information using the illuminance sensor. More particularly, the present invention relates to an information analyzing system that senses an object to be analyzed by an illuminance sensor of a smart device used in a real- An information analyzing system using an illuminance sensor of a smart device capable of analyzing information, and a method of analyzing the information.

Generally, in order to analyze any inspection object, the inspection object has been analyzed according to a predetermined process test method. For example, when the concentration of the test object is to be measured, the concentration of the test object can be determined by putting an indicator into the test object and estimating the color development difference.

Recently, the absorbance method is widely used as a method for analyzing the object to be inspected. However, the light absorbance method is required to include a plurality of light emitting diodes that emit light of a specific wavelength. The light emitting diode is not only expensive, but also has a problem in that it is impossible to measure many items in a portable small measuring device. Therefore, it is inconvenient to carry a separate device. In addition, it takes a long time to obtain the result, and there is a problem that it is difficult to apply it to the market because a large amount of manpower is required for measurement.

In recent years, various analyzes such as analysis of sugar and blood of various kinds of fruits, determination of authenticity of alcohol, etc. are required in addition to concentration, so it is necessary to develop a technique for applying to various fields.

Korean Patent Registration No. 10-0875963

The present invention provides an information analysis system using an illuminance sensor of a smart device capable of analyzing information to be inspected by sensing an object to be inspected to analyze information with an illuminance sensor of a smart device used in real life, .

The present invention provides an information analysis system using an illumination sensor of a smart device, the information analysis system comprising: an illuminance sensor installed in the smart device and receiving an optical signal reflected from an object to be analyzed; The smart device receives an optical signal from the illuminance sensor through a receiver, converts the optical signal into an electrical signal using a signal converter, and transmits a peak wavelength in the electrical signal through the detector. , A dominant wavelength, and a centroid wavelength of the target object, extracts the object data from the detected wavelengths, compares the object data with DBs stored in the DB unit, A control unit for analyzing; And a display unit installed in the smart device and displaying information analyzed by the control unit.

According to another aspect of the present invention, there is provided a method for analyzing information by an information analysis system using an illuminance sensor of a smart device, the method comprising the steps of: Receiving a signal; Receiving the optical signal through a receiving unit of the control unit; Converting the optical signal into an electrical signal through a signal converter; Detecting a peak wavelength, a dominant wavelength, and a centroid wavelength of the inspection object through the detection unit in the electrical signal, and extracting the inspection target data from the wavelengths; Analyzing the inspection target information by comparing the inspection target data with databases stored in the DB unit; And displaying the information of the inspection object analyzed and analyzed through the display unit. The information analyzing method uses the illuminance sensor of the smart device.

The information analysis system using the illumination sensor of the smart device according to the present invention and the information analysis method therefor have the following effects.

First, since the smart device such as a smart phone or a tablet PC used in a real life is used without producing a separate device, the cost for manufacturing a separate device is not required, which can reduce the cost.

Second, by constantly updating the database stored in the DB unit of the control unit, it is possible to apply the present invention not only to an object to be inspected corresponding to an initially stored database but also to various fields. In particular, since the smart device is easily accessible, even a user who is not an expert in a specific field can easily analyze information on the inspection object in various fields.

1 is a perspective view of a smartphone according to an embodiment of the present invention.
2 is a block diagram illustrating a configuration of an information analysis system using an illuminance sensor of a smart device according to an embodiment of the present invention.
FIG. 3 is a CIE color coordinate used in an information analysis system using the illuminance sensor of the smart device according to FIG.
4 is a flowchart illustrating an analysis method of an information analysis system using the illuminance sensor of the smart device according to FIG.
FIG. 5 is a screen of a smartphone exemplarily showing an analysis method of an information analysis system using the illuminance sensor of the smart device according to FIG.

1 to 3, an information analysis system using an illuminance sensor of a smart device according to an embodiment of the present invention includes an illuminance sensor 110, a light source 120, a control unit 130, and a display unit 150 ). The information analysis system utilizes a smart device, which may be, for example, a smart phone, a tablet PC, or the like. In this embodiment, the smartphone 10 as shown in FIG. 1 will be described as an embodiment of the smart device. The information analysis system using the illumination sensor of the smart device of the present invention will be described as an application installed and executed in the smartphone 10 as an example.

As shown in FIG. 1, the illuminance sensor 110 is an illuminance sensor 11 installed in the smartphone 10. That is, in this embodiment, the illuminance sensor 11 of the smartphone 10 is commonly used as the illuminance sensor of the information analysis system. When the illuminance sensor 11 is directed to the object to be inspected to analyze information, it receives the optical signal reflected from the object to be inspected. In the present embodiment, the illuminance sensor 110 is provided on the rear surface of the smartphone 10 as shown in FIG. 1, but is not limited thereto.

As shown in FIG. 1, the light source 120 is provided as a flash 13 installed in the smartphone 10. The light source 120 irradiates light to the inspection object when the illuminance sensor 110 receives an optical signal from the inspection object. The light source 120 includes a red light emitting diode, a green light emitting diode, and a blue light emitting diode. The light emitted from the light source 120 is white light in which each light independently emitted from each of the light emitting diodes is mixed, and the white light is irradiated to the inspection target.

In this embodiment, the light source 120 emits white light. However, the present invention is not limited thereto. When the optical signal is received from the inspection object through the illuminance sensor 11, only the light of a specific wavelength corresponding to the optical signal to be obtained from the inspection object may be irradiated. That is, only light emitted from any one of the red light emitting diode, the green light emitting diode, and the blue light emitting diode may be irradiated.

And receives the optical signal from the inspection object by the illuminance sensor 110, the optical signal is transmitted to the control unit 130. A peak wavelength, a dominant wavelength, and a centroid wavelength of the optical signal to be inspected transmitted to the control unit 130 are detected. And compares the detected result with the database stored in the control unit 130 to analyze the information of the inspection object.

The control unit 130 includes a receiving unit 131 receiving the image from the illuminance sensor 110. The control unit 130 includes a signal converting unit 133 together with the receiving unit 131. When the optical signal is transmitted to the control unit 130 through the receiving unit 131, the optical signal is converted into an electrical signal by the signal converting unit 133.

The control unit (130) includes a detection unit (135). The detection unit 135 basically detects the peak wavelength, the dominant wavelength, and the centroid wavelength using the electrical signal converted by the signal conversion unit 133 . Also, the detector 135 may derive the color coordinates of the object to be inspected using the peak wavelength, the dominant wavelength, and the centroid wavelength, which are detected.

The CIE color coordinates are stored in the detector 135 to derive the color coordinates of the object to be inspected. Accordingly, the color coordinates of the inspection object are detected based on the CIE chromaticity coordinates. The CIE color coordinates are shown in Fig. That is, the detection unit 135 detects the color coordinate value of the inspection object based on the CIE color coordinates shown in FIG.

When the color coordinate value of the inspection target is detected, the detection unit 135 can derive a color temperature using the detected color coordinate value. The color temperature of the inspection object can be derived by substituting the color coordinate value of the inspection object detected in the following Equation (1).

&Quot; (1) "

^{T = 437n 3 + 3601n 2 +} 6831n + 5517

n = (x-0.33200) / (0.1858_y)

In Equation (1), T denotes the color temperature, and x and y denote the color coordinate values of the inspection object. The color temperature of the inspection object can be derived by substituting x and y for the color coordinate value of the inspection object detected by the detection unit 135 and obtaining an n value.

The control unit 130 includes a DB unit 137. The DB unit 137 stores databases, which are basic data for analyzing the inspection target information. When the detection unit 135 detects the peak wavelength, the dominant wavelength, and the centroid wavelength of the object to be inspected, the control unit 130 uses the wavelengths The spectrum of the object to be inspected is obtained by Raman spectroscopy.

The DB unit 137 stores spectral databases obtained by Raman spectroscopy for various embodiments of the object to be inspected. The control unit 130 obtains the spectrum of the test object by Raman spectroscopy using the peak wavelength, the dominant wavelength, and the centroid wavelength of the test object, And analyzes the information of the inspection target by comparing with the databases.

Meanwhile, the DB unit 137 stores the color coordinate value databases of various embodiments to be inspected. The control unit 130 determines that the detection unit 135 has detected the color coordinate value of the inspection object derived from the peak wavelength of the inspection object, the dominant wavelength, the centroid wavelength, With the color coordinate value databases stored in the DB unit 137 to analyze the inspection target information.

In addition, the DB unit 135 stores the color temperature databases of various embodiments to be inspected. The control unit 130 compares the color temperature of the inspection object derived from Equation (1) from the color coordinate value of the inspection object detected by the detection unit 135 with the color temperature database stored in the DB unit 135 It is possible to analyze the information of the object to be inspected.

The control unit 130 analyzes the inspection object information using one of the Raman spectroscopy method, the color coordinate system, and the color temperature as described above, and transmits the analyzed object information to the display unit 150. In this embodiment, the display unit 150 of the smartphone 10 is commonly used.

As described above, the control unit 130 for analyzing the information to be inspected may be embodied as a CPU (not shown) built in the smartphone 10 or may be implemented as a separate application. The application may be applied to the smartphone 10 by installing the application on the smartphone 10. In addition, the databases stored in the DB unit 137 may be continuously updated from the supplier.

The display unit 150 displays the information of the inspection object received from the control unit 130 so that the information can be confirmed by the user. The display unit 150 may be a liquid crystal screen 15 of the smartphone 10 as an example. However, the present invention is limited to the smartphone 10 as in the present embodiment, but may include a separate display unit 150 when the smartphone 10 is not used.

A method of analyzing information using the color-based information analysis system according to the present invention will be described below with reference to FIG. In the information analysis method using the color-based information analysis system, a step of receiving an optical signal reflected from the object to be inspected is first performed using the illuminance sensor 11 installed in the smartphone 10 (step S105) In step S105, a step of irradiating light to the inspection object using the light source 120 is also performed (step S110). In step S110, the user selects the red light emitting diode The green light emitting diode, and the blue light emitting diode (step S115). Alternatively, only the light of a specific wavelength may be irradiated by the user's selection (step S120)

When the light receiving unit 131 of the control unit 130 receives the light signal from the inspection object using the light intensity sensor 110 while the light is irradiated to the inspection object through the light source 120, (110). The signal conversion unit 133 converts the optical signal into an electrical signal. The detection unit 135 detects the peak wavelength, the dominant wavelength, and the centroid wavelength from the optical signal (step S 125)

When the peak wavelength, the dominant wavelength, and the centroid wavelength of the inspection object are detected through the detection unit 135 as described above, the control unit 130 detects the peak wavelength, the dominant wavelength, It is determined whether to analyze the information of the object to be inspected by using Raman spectroscopy in operation S 130. The spectrum of the object to be inspected is obtained by Raman spectroscopy on the detected wavelengths, (Step S150)

On the other hand, if it is determined that the Raman spectroscopy is not used, the color coordinate value of the inspection object is derived based on the CIE color coordinates using the detected wavelengths of the inspection object (S135). In step S140, it is determined whether the information of the object to be inspected is analyzed using the color coordinates of the object to be inspected. If the information of the object to be inspected is analyzed in the color coordinate of the object to be inspected, And compares it with the stored color coordinate value databases (step S150)

On the other hand, if it is determined that the information of the inspection object is not analyzed with the color coordinate value of the inspection object, a step of deriving the color temperature from the color coordinate of the inspection object is performed (Step S150) It is possible to derive the color coordinate value by reflecting it in Equation (1).

The color temperature of the object to be inspected thus obtained is compared with the color temperature databases stored in the DB unit 137. In step S150, After the information is analyzed and analyzed, a step of displaying the analyzed information of the inspection object through the display unit 150 is performed. (Step S155) Here, the liquid crystal display 10 (15) is used as the display unit (150) to display information of the inspection object analyzed through the steps on the liquid crystal screen (15).

Hereinafter, an embodiment of analyzing the sugar content of fruit through the information analysis method described above with reference to FIG. 5 will be described as an example.

FIG. 5 shows the liquid crystal screen 15 of the smartphone 10 when analyzing the sugar content of fruit through the information analysis method. When the user wishes to analyze the sugar content of the fruit, the user executes the application A installed in the smartphone 10 as shown in Fig. 5 (a). When the application A is executed, a process of selecting an object to be analyzed proceeds as shown in FIGS. 5B to 5D.

Since the objects to be analyzed according to the present embodiment are not limited to any one, they can be selected through a large category, a middle category, and a small category as shown in (b) to (d) of FIG. After selecting the object to be inspected, the illumination sensor 11 of the smartphone 10 is directed to the object to be inspected. As shown in FIG. 5 (e), the liquid crystal screen 15 asks whether the inspection object is to be sensed by the illumination sensor 11. If the user selects to inspect the inspection object, the light intensity sensor 11 receives the optical signal reflected from the fruit to be inspected.

The smartphone 10 analyzes the information about the fruit to be inspected through the steps S125 to S150 of the information analysis method using the received optical signal. 5 (f), a phrase indicating that the fruit to be inspected is being analyzed is displayed on the liquid crystal screen 15. When the information analysis of the inspection object is completed, the sugar content of the fruit to be inspected is numerically represented as shown in FIG. 5 (g). In the present embodiment, the sugar content of the fruit to be inspected is expressed by numerical values, but it is not limited thereto and may be expressed in various phrases that can express the analyzed information about the inspection object.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Smartphone 11: Illumination sensor
13: light source 15: liquid crystal display
110: illuminance sensor 120: light source
130: control unit 131:
133: Signal conversion unit 135:
137: DB unit 150: Display unit

Claims (11)

An information analysis system using an illuminance sensor of a smart device,
An illuminance sensor installed in the smart device and receiving an optical signal reflected from an object to be inspected to analyze information;
The smart device receives an optical signal from the illuminance sensor through a receiver, converts the optical signal into an electrical signal using a signal converter, and transmits a peak wavelength in the electrical signal through the detector. , A dominant wavelength, and a centroid wavelength of the target object, extracts the object data from the detected wavelengths, compares the object data with DBs stored in the DB unit, A control unit for analyzing; And
And a display unit installed in the smart device and displaying information analyzed by the control unit. The method according to claim 1,
Wherein the control unit comprises:
The spectrum of the test object is obtained by Raman spectroscopy using the peak wavelength, the dominant wavelength and the centroid wavelength, and compared with the spectral databases stored in the DB unit, An information analysis system that uses an illuminance sensor of a smart device to analyze information of an object. The method of claim 2,
Wherein the control unit comprises:
And deriving a color coordinate value of the inspection object based on the CIE chromaticity coordinates from the wavelengths and comparing the color coordinate values stored in the DB unit with the database of color coordinate values stored in the DB unit to analyze the information of the inspection object. The method of claim 3,
Wherein the control unit comprises:
An information analyzing system using an illuminance sensor of a smart device for deriving the color temperature of the inspection object from the color coordinate value of the inspection object and comparing the derived color temperature with the color temperature databases stored in the DB unit, . The method according to claim 1,
Further comprising a light source that emits light to be inspected, wherein the light source is an illuminance sensor of a smart device provided in the smart device. The method of claim 5,
Wherein the light source includes a red light emitting diode, a green light emitting diode, and a blue light emitting diode, and the illuminance sensor of the smart device that emits light of each of the light emitting diodes or a mixed light thereof. A method for analyzing information by an information analysis system using an illuminance sensor of a smart device,
Receiving an optical signal reflected from an object to be analyzed through an illuminance sensor provided in the smart device;
Receiving the optical signal through a receiving unit of the control unit;
Converting the optical signal into an electrical signal through a signal converter;
Detecting a peak wavelength, a dominant wavelength, and a centroid wavelength of the inspection object through the detection unit in the electrical signal, and extracting the inspection target data from the wavelengths;
Analyzing the inspection target information by comparing the inspection target data with databases stored in the DB unit; And
And displaying the analyzed information analyzed by the display unit through a display unit. The method of claim 7,
Further comprising a light source that emits light to be inspected,
The light source includes a red light emitting diode, a green light emitting diode, and a blue light emitting diode,
Wherein the illuminance sensor of the smart device emits light of each of the light emitting diodes or a mixed light thereof in the step of receiving the optical signal. The method of claim 7,
Wherein the step of extracting the data to be inspected comprises the steps of: obtaining a spectrum of the inspection object from the wavelengths by Raman spectroscopy;
And analyzing the information using the illumination sensor of the smart device that compares the spectrum of the inspection object with the spectrum databases stored in the DB unit. The method of claim 7,
In the step of extracting data to be inspected, a color coordinate value of the inspection object is derived based on the CIE chromaticity coordinates from the wavelengths,
Wherein the step of analyzing the information uses an illuminance sensor of a smart device that compares the color coordinate value of the inspection object with the color coordinate value databases stored in the DB unit. The method of claim 7,
In the step of extracting the data to be inspected, the color temperature of the inspection object is derived from the color coordinate value of the inspection object, and in the analysis of the information, the color temperature of the inspection object is compared with the color temperature databases stored in the DB unit A method of analyzing information using an illuminance sensor of a smart device.

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