KR20130142533A - Real size measurement device of smart phone - Google Patents

Abstract

The present invention relates to a real size measuring device for a smart phone. The purpose of the present invention is to provide a real size measuring device for a smart phone, which can accurately measure the size of a photographed image based on a distance measuring sensor and the pixel number of the photographed image. The real size measuring device for a smart phone comprises a laser beam radiating unit which radiates laser beams in order to indicate an object to be photographed; a distance measuring sensor unit which measures the distance to the object to be photographed; a camera unit which photographs the object in order to provide the photographed image; a distance calculating module which calculates the distance to the object using an inputted signal from the distance measuring sensor unit; and a size calculating module which measures the size of the photographed image using the photographed image from the distance calculating module and the camera unit. [Reference numerals] (111) Laser beam radiating unit;(112) Distance measuring sensor unit;(113) Camera unit;(114) Input unit;(115) Display unit;(116) Distance calculating module;(117) Speed calculating module;(118) Timer;(119) Size calculating module;(120) Color information drawing module;(121) Magnifying glass module;(122) Memory;(123) Control unit

Description

Smartphone measuring device {Real size measurement device of smart phone}

One embodiment of the present invention relates to a smart phone measuring instrument.

In general, the number of pixels occupied by an object varies according to the distance between the camera and the object. For this reason, it is impossible to determine the actual size of an object only by the number of pixels of the object from the image captured by a single camera. In fact, even if the same object changes the distance between the camera and the object, the number of pixels occupied by the object will be different. For example, the closer the distance between the camera and the object is from 10 m to 1 m, the greater the number of pixels, and the farther distance between the camera and the object from 1 m to 10 m, the smaller the number of pixels. Also, even if objects of different sizes are different from the camera, the number of pixels occupied by the image may be the same. That is, if the small object is near the camera and the large object is far, the number of pixels in the image may be the same. Likewise, if the same object is photographed at different distances, the number of pixels occupied by the image may be different even for the same object.

In addition, even if objects of different sizes differ from the camera, the number of pixels occupied by the image may be similar. Therefore, the size of the object cannot be accurately determined by the number of pixels occupied by the object in the image.

An embodiment of the present invention provides a smart phone measuring device capable of accurately measuring the size of the captured image based on the distance measuring sensor and the number of pixels of the captured image.

One embodiment of the present invention includes a laser beam projecting unit for emitting a laser beam to indicate a photographing object; A distance measuring sensor unit measuring a distance to the photographing object; A camera unit photographing the photographing object and providing a photographed image; A distance calculation module for calculating a distance to the photographing object by using an input signal from the distance measuring sensor unit; And a size calculation module for measuring the size of the captured image by using the distance calculating module and the captured image from the camera unit.

The size calculating module may measure the size of the captured image by using distance information obtained from the distance calculating module and the number of pixels of the captured image obtained from the camera unit. The present invention may further include a memory in which a length per pixel of a captured image photographed at a predetermined reference distance is stored in advance.

The present invention may further include a speed calculation module for measuring the speed of the photographing object by using the distance information obtained from the distance calculation module and the time information obtained from the timer.

The size calculation module may measure the overall size of the captured image.

The size calculation module may automatically search for the edges spaced apart from each other in the photographed image, and measure the size between the searched spaced edges.

The size calculating module may measure sizes of two points designated by a user in the captured image.

The size calculating module may measure a horizontal length and a vertical length of the captured image.

An embodiment of the present invention provides a smart phone measuring device capable of accurately measuring the size of the captured image based on the distance measuring sensor and the number of pixels of the captured image.

In addition, the embodiment of the present invention can not only measure the speed of the photographing object, but also extract color information of the photographing image and enlarge the photographing image.

1 is a block diagram showing the configuration of a smart phone measuring device according to an embodiment of the present invention.
2 is a view showing a principle of measuring the size of the smart phone measuring device according to an embodiment of the present invention.
3 is a flowchart illustrating a method of operating a smart phone measuring device according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

1 is a block diagram showing the configuration of a smart phone measuring device 100 according to an embodiment of the present invention.

Smartphone measuring device 100 according to the present invention is a laser beam launching unit 111, the distance measuring sensor 112, the camera unit 113, the input unit 114, the display unit 115, the distance calculation module 116 ), A speed calculation module 117, a timer 118, a size calculation module 119, a color information extraction module 120, a magnifier module 121, and a memory 122. In addition, the present invention may further include a control unit 123 for controlling such components. In addition, the present invention may be provided with such a component in a smartphone. Of course, the laser beam projector 111 and the distance measuring sensor 112 may be additionally electrically connected to a conventional smartphone. That is, the camera unit 113, the input unit 114, the display unit 115, the memory 122, the timer 118, and the controller 123 may be already mounted in a conventional smartphone. In addition, the distance calculation module 116, the speed calculation module 117, the size calculation module 119, the color information extraction module 120, and the magnifier module 121 may be an application (software or a program) installed in the smartphone, or It may be hardware installed separately.

The laser beam projector 111 emits a laser beam so as to indicate a photographing object, and is electrically connected to the controller 123.

The distance measuring sensor 112 measures a distance to the photographing object and is electrically connected to the controller 123. The distance measuring sensor unit 112 may be, for example, a microwave sensor or an equivalent thereof, but the type is not limited thereto.

The camera unit 113 photographs the photographed object as a moving image or a still image, and is electrically connected to the controller 123.

The input unit 114 is electrically connected to the control unit 123 for inputting various commands by the user.

The display 115 is electrically connected to the controller 123 to display various types of information to the user.

The distance calculating module 116 calculates the distance to the photographing object by using the signal received from the distance measuring sensor 112 by the controller 123. Of course, the calculated distance is transmitted to the controller 123 again, and the controller 123 causes the distance calculated by the display 115 to be displayed to the user.

The speed calculating module 117 calculates the speed of the photographing object by using the signal received from the distance calculating module 116 by the controller 123 and the time information obtained from the timer 118. Of course, the calculated speed is transmitted to the controller 123 again, and the controller 123 causes the speed calculated by the display 115 to be displayed to the user.

The timer 118 provides time information when the speed is calculated by the speed calculating module 117, as described above.

The size calculating module 119 calculates the size of the captured image by using distance information obtained from the distance calculating module 116 and the number of pixels of the captured image obtained from the camera unit 113 by the controller 123. . Here, since the method of counting the number of pixels in the photographed image is well known to those skilled in the art, description thereof will be omitted.

The color information extraction module 120 extracts color information of the selected area when the user selects a specific area of the captured image through the input unit 114. Since the method of extracting the color information of the selected area as described above is well known to those skilled in the art, a description thereof will be omitted.

When the user executes the magnifier function and selects a specific area through the input unit 114, the magnifier module 121 enlarges the selected area. Since the enlarged display method of the selected area is well known to those skilled in the art, a description thereof will be omitted.

The memory 122 is electrically connected to the controller 123, which stores a length per pixel of the captured image photographed at a predetermined reference distance. The information about the length per pixel of the captured image photographed at the predetermined reference distance is transmitted to the size calculation module 119.

2 is a diagram showing the principle of measuring the size by the smart phone measuring device 100 according to an embodiment of the present invention.

As shown in FIG. 2, for example, when the distance between the smartphone 101 and the photographing object 102 is 1 m, the length of one pixel may be 1 cm, and this information may be stored in the memory as described above. Pre-stored at 122. In this state, when the distance between the smartphone 101 and the photographing object 102 is d m, since the actual length of one pixel is known, the horizontal length and the vertical length of the captured image may be calculated as follows.

Width = d * w * I

Vertical length = d * h * I

Here, w is the number of horizontal pixels, and h is the number of vertical pixels.

Of course, since the number of pixels of the photographed image decreases as the photographing distance increases, and the number of pixels of the photographed image increases as the photographing distance approaches, the size calculated from the photographed image does not change according to the photographing distance.

3 is a flowchart illustrating a method of operating a smart phone measuring device 100 according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the smart phone measuring device 100 according to the present invention includes an application turn-on step S1, a laser beam firing, a distance calculation and display step S2, a speed measurement step S3, a speed calculation and Display step (S4), camera shooting step (S5), display and size calculation step (S6), color information extraction step (S7), color information extraction and display step (S8), magnifier selection step (S9), magnification and display Step S10 is included.

Of course, when measuring and calculating only the size of the captured image in the present invention, the speed measurement step (S3), speed calculation and display step (S4), color information extraction step (S7), color information extraction and display step (S8), magnifying glass The selection step S9 and the abuse and display step S10 may not be executed.

In addition, in the present invention, the speed measurement step S3, the speed calculation and the display step S4 may be mainly performed according to the menu selection of the input unit 114 by the user.

In addition, in the present invention, the color information extraction step S7, the color information extraction and display step S8 may be mainly performed according to the menu selection of the input unit 114 by the user.

In addition, according to the present invention, according to the menu selection of the input unit 114 by the user, the magnifying glass selection step S9, the magnification and the display step S10 may be mainly performed.

That is, according to the present invention, only the size of the captured image is calculated, only the speed of the captured image is measured, only color information of the captured image is extracted, or some regions of the captured image are enlarged and displayed according to the menu selection of the input unit 114 by the user. Can be. Furthermore, in the present invention, the above-described steps may be sequentially or randomly performed according to the menu selection of the input unit 114 by the user, and the method is not limited to the present invention. That is, although FIG. 3 shows that all of these methods are performed sequentially, the present invention is not limited thereto, and only a few steps may be performed.

In the following description, the control subject is the control unit 123.

In the application turn-on step (S1), it is determined whether the smart phone user has executed the measuring device application through the input unit 114.

When the instrument application is executed, the laser beam firing, distance calculation and display step S2 is executed.

That is, the laser beam projector 111, the distance sensor 112, and the camera 113 are automatically turned on, and the image captured by the camera 113 is displayed in real time on the display 115. . That is, the video shot through the display 115 is displayed in real time.

In this case, the user directs the laser beam emitted from the laser beam projector 111 toward the photographing object, thereby not only accurately indicating the photographing object, but also accurately measuring the distance by the distance sensor 112. In addition, the distance to the photographing object is calculated through the distance calculation module 116, and the calculated distance is displayed on the display 115. That is, the distance to the photographing object may be displayed in a certain region of the captured video in real time.

Meanwhile, when the user selects the speed measurement menu through the input unit 114, the speed measurement step S3 may be executed. That is, the speed calculation module 117 may calculate the speed of the photographing object using the distance change value from the distance calculation module 116 and the time from the timer 118. Of course, if the object is not moving, the speed is calculated as 0 because there is no distance change value. In addition, the speed calculated in the speed calculation and display step S4 is displayed on the display. Of course, if the user has not selected the speed measurement menu as described above, steps S3 and S4 are not executed, and step S5 may be performed immediately.

In addition, when the user photographs the camera through the input unit 114, the camera photographing step S5 is performed. In this case, a still image, that is, a captured image, may be obtained by the camera unit 113.

Of course, the captured image is displayed through the display in the display and size calculation step S6, and the size of the captured image is also displayed. That is, the size of the captured image may be displayed on one side of the captured image. Although the captured image is a still image as an example, the size of the captured object may be calculated and displayed in real time even in a moving image state.

Size measurements and calculations can be made in three ways.

As a first method, the size calculation module 119 may collectively calculate and display the total size of the captured image. That is, the size of the entire captured image may be automatically calculated without searching for an edge of the captured image obtained from the camera unit 113. As a second method, the size calculation module 119 may automatically search for the edges that are spaced apart from each other in the captured image, and calculate and display the size between the searched spaced edges. That is, the spaced size from one edge of the contrasting color to the other edge of the captured image obtained from the camera unit 113 may be calculated. As a third method, the size calculation module 119 may calculate and display the sizes of two points designated by the user among the captured images. That is, the size between the two points directly specified by the user can be calculated.

In the color information extraction step S7 and the color information extraction and display step S8, when the user selects a specific area of the photographed image through the input unit 114, the color information of the selected area is extracted to the display unit 115. Display. Of course, if the user does not select step S7, steps S7 and S8 are not performed.

In the magnifying glass selection step S9 and the magnification and display step S10, when the user selects the magnifier through the input unit 114 and selects a specific area of the photographed image, the magnifier is enlarged and displayed on the display unit 115. Of course, if the user does not select step S8, steps S9 and S10 are not performed.

What has been described above is just one embodiment for implementing the smart phone measuring device according to the present invention, the present invention is not limited to the above-described embodiment, the subject matter of the present invention as claimed in the following claims Without departing from the scope of the present invention, any person having ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

100; Smart phone
111; Laser beam projector 112; Distance measuring sensor
113; A camera section 114; Input
115; Display unit 116; Distance calculation module
117; Speed calculation module 118; timer
119; Size calculation module 120; Color Information Extraction Module
121; Magnifier module 122; Memory
123; The control unit

Claims (8)

A laser beam projector to emit a laser beam to indicate a photographing object;
A distance measuring sensor unit measuring a distance to the photographing object;
A camera unit photographing the photographing object and providing a photographed image;
A distance calculation module for calculating a distance to the photographing object by using an input signal from the distance measuring sensor unit; And
And a size calculation module for measuring a size of the captured image by using the distance calculating module and the captured image from the camera unit. The method of claim 1,
The size calculating module measures a size of the captured image by using the distance information obtained from the distance calculating module and the number of pixels of the captured image obtained from the camera unit. 3. The method of claim 2,
Smartphone measuring device further comprises a pre-stored memory of the length per pixel of the captured image photographed at a predetermined reference distance. The method of claim 1,
And a speed calculation module for measuring a speed of the photographing object by using distance information obtained from the distance calculation module and time information obtained from a timer. The method of claim 1,
The size calculation module is a smart phone measuring device, characterized in that for measuring the overall size of the photographed image. The method of claim 1,
The size calculation module is a smart phone measuring device, characterized in that for automatically searching for the spaced between the mutually spaced edges of the photographed image, and measuring the size between the searched spaced edges. The method of claim 1,
The size calculation module is a smart phone measuring device, characterized in that for measuring the size of the two points specified by the user of the photographed image. The method of claim 1,
The size calculation module is a smart phone measuring device, characterized in that for measuring the horizontal length and vertical length of the photographed image.

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