KR20190027751A - Method for Embarkation Report Using User Terminal - Google Patents

Abstract

The present invention relates to a method for measuring a length of an object and a system to which same is applied that are capable of accurately measuring a length of an object caught only with an item normally carried on a user, thereby ranking and checking lengths and kinds of objects caught, capture places, and competition kinds. According to the present invention, the method for measuring a length of an object includes the steps of: (a) photographing a measurement object (10) and a reference object (20) having a given length through a camera module (120) of a user terminal (100); (b) producing a first imaginary object (10a) having the corresponding length to the length of the measurement object (10) photographed in the step (a) and a second imaginary object (20a) having the corresponding length to the length of the reference object (20); and (c) comparing the length of the first imaginary object (10a) produced in the step (b) with the length of the second imaginary object (20a) through an imaginary object length comparison module (160) to operate the length of the measurement object (10) according to the compared result.

Description

[0001] METHOD FOR MEASURING OBJECT LENGTH AND METHOD FOR MEASURING OBJECT LENGTH [0002]

The present application relates to an object length measurement system.

Fishing is fishing of fishes, shellfish, crustaceans and other aquatic products using fishing rod, fishing line, and fishing needle. There are opinions that the population enjoying fishing is about 6 million people.

One of the things that fishermen consider important in fishing is the length of the catch. Generally, the longer the capture length, the better the taste of the fish felt on the fishing rod, and it is common among the fishermen to compete with the length of the captures they capture.

It is common to use a separate length measurer to measure the length of the trap. However, it is troublesome to have a separate length measuring device every time fishing, and it is impossible to measure the length of the capturing in a consistent manner, since the standard of length measurement is different according to the measuring person.

In addition, conventionally, it is only possible to compare the length of the captures captured by oneself with the length of the captures captured by the people in the same place at present, and there is a disadvantage that the fishing catch can not be improved properly.

Korean Patent Registration No. 10-1656075 (2016.09.02) U.S. Patent No. 9476703 (Oct. 25, 2016)

SUMMARY OF THE INVENTION The present invention has been made in order to overcome the problems of the prior art as described above, and it is an object of the present invention to provide an apparatus and a method for accurately measuring the length of a capturing by only carrying articles, We want to provide a system that can be checked.

According to an embodiment of the present invention, the camera module 120 of the user terminal 100 photographs a measurement object 10 and a reference object 20 having a predetermined length The length of the first virtual object 10a and the length of the reference object 20 having a length corresponding to the length of the measurement object 10 photographed in step (a), and (b) (C) comparing the length of the first virtual object 10a generated in step (b) with the length of the second virtual object 10a generated in step (b) Compares the length of the object (20a), and calculates the length of the measurement object (10) according to the comparison result.

In one embodiment, in the step (a), when the camera module 120 displays both the measurement object 10 and the reference object 20 on the display 180 of the user terminal 100 And photographing the measurement object 10 and the reference object 20 when the object 20 is in a sensed state.

In one embodiment, the step (a) includes the steps of: when the camera module 120 detects that the measurement object 10 and the base 300 on which the reference object 20 are placed and the user terminal 100 are parallel The method may further include photographing the measurement object (10) and the reference object (20) when the object is in a sensed state.

In an exemplary embodiment, the edge generation module 130 may detect the pixels of the measurement object 10 and the reference object 20 captured in the step (a) after the step (a), before the step (b) And comparing the edge of the measurement object 10 and the edge of the reference object 20 according to a predetermined method by comparing the measurement object 10 and the pixel of the floor surface 300 on which the reference object 20 is placed Wherein the step (b) comprises the steps of: generating, by the virtual object creation module (140), an edge generated by the edge generation module (130) and having a length corresponding to the length of each object The method may further include generating the first virtual object 10a and the second virtual object 20a.

In one embodiment, the virtual object control module 140 determines whether the first virtual object 10a generated in the step (b) and the second virtual object 10c generated in the step (b) Adjusting the lengths of the first virtual object 10a and the second virtual object 20a such that the lengths of the first virtual object 20a and the second virtual object 20a coincide with the lengths of the measurement object 10 and the reference object 20, .

In one embodiment, the step (c0), the step (c), and the step (c01), the virtual object control module 140 determines whether the edge of the measurement object 10 generated in the step (b0) (C02) checking the center axis line of the measurement object (10) using the edge of the object (20); and (c02) And moving the first virtual object 10a and the second virtual object 20a such that the object 10a and the second virtual object 20a are parallel to each other.

In one embodiment, after step (c), (d) transmitting the length of the measurement object 10 calculated in step (c) to the database server 200 by the information transmission / reception module 110 .

In one embodiment, the step (d) may include a step of acquiring the location of the measurement object 10 input by the information transmission / reception module 110 to the user terminal 100, the type of the measurement object 10, And transmitting the name of the tournament to the database server 200.

The present invention also provides a system for performing the above-described method, wherein the camera module 120 captures the measurement object 10 and the reference object 20, and the camera module 120 An edge generation module 130 for generating an edge of the measurement object 10 and the reference object 20 photographed by the camera module 120 and an edge generation module 130 for generating an edge of the measurement object 10, A virtual object creation module 140 for creating a second virtual object 20a having a length corresponding to the length of one virtual object 10a and the reference object 20, A virtual object length comparison module 160 for comparing the lengths of the first virtual object 10a and the second virtual object 20a and calculating the length of the measurement object 10 according to a comparison result, Receiving module 110 for transmitting the length of the measurement object 10 calculated by the object length comparison module 160 to the database server 200. The user terminal 100 and the user terminal 100, And the database server (200) for storing the length of the measurement object (10) transmitted by the information transmission / reception module (110) and ranking the stored plurality of measurement objects in descending order Length measurement system.

In one embodiment, the information transmission / reception module 110 transmits a capture location of the measurement object 10 input to the user terminal 100, a type of the measurement object 10, and a fishing tournament name to the database server 200 , And the database server 200 may rank the lengths of the same measurement object 10 in the order of the largest to smallest in the capturing place, the type, and the fishing tournaments.

In one embodiment, the database server 200 can receive the length of the measurement object 10, the location and type of the measurement object, and the fishing tournament name from each of the plurality of user terminals 100 (100a, 100b, 100c) .

The present application as described above has the following effects.

First, it is possible to easily measure the length of the measurement object, which has been conventionally made only through a separate length measuring device, by using various articles which are usually carried.

Second, by providing a standardized standard for the measurement of the length of the measurement object, error occurrence phenomenon is prevented by measuring the length differently for each user. Particularly, it is possible to measure the exact length of the measurement object by checking the edge of the measurement object and measuring the length using the edge.

Third, it is possible to confirm the ranking of the measurement objects captured by each of the types of the measurement objects, the capturing place, the type, and the type of the fishing tournament, thereby achieving a sense of accomplishment that can sustain the fishing activity.

Fourth, based on the ranked information, it can help to decide the future fishing place.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a simplified illustration of a length measurement system according to an embodiment of the present application.
Fig. 2 is a block diagram for explaining Fig. 1 more specifically.
3 is a view showing a state in which the camera module 120 photographs the measurement object 10 and the reference object 20 in the length measurement system of FIG.
Figure 4 is a simplified representation of an actual implementation of a length measurement system according to an embodiment of the present application.
5 is a view showing an edge of the measurement object generated by the edge generation module 130. FIG.
6 is a flowchart for explaining a length measuring method according to an embodiment of the present application.

Hereinafter, the present application will be described in detail with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the following terms are defined in consideration of the functions of the present application, which may vary depending on the intentions or customs of the user, the operator, and the like. Therefore, the definitions of these terms should be described based on the contents throughout this specification.

Hereinafter, "length" means the longest length of the measurement object 10. When the measurement object 10 is a fish, the length of the measurement object 10 may be the length of the measurement object 10 from the head end to the tail end of the fish.

Hereinafter, "capturing place" means a place where the measurement object 10 is captured. It can include the West Sea, the East Sea, the South Sea, and the Jeju Island. More specifically, Incheon, Gangneung in the East Sea, Geoje in the Namhae, and Seogwipo are included.

Hereinafter, "type" means the kind of the measurement object 10. Freshwater fish may include crucian carp, carp, and other fish species, and sea fish may include flounder, mackerel, horse mackerel, boulder, bream, and other species.

In the following, "ranking" means ranking in order from the largest to the smallest. For example, if the length of the measurement object 10 transmitted from the user terminal 100 is 31 cm, 57 cm, and 39 cm, the measurement object may be arranged in the order of 57 cm, 39 cm, and 31 cm, Quot; third place " to the measurement object corresponding to the length of 31 cm and the ranking of " second place " to the measurement object corresponding to the length of 39 cm.

1. Description of the system

The present application will be described in detail with reference to Figs. 1 to 4. Fig.

A length measurement system according to an embodiment of the present application includes a user terminal 100 and a database server 200.

The user terminal 100 is a device that a user carries and stores the length of the measurement object 10 in the database server 200 and the capturing place and type of the measurement object 10 input to the user terminal 100, . Any device that can be carried by the user is not limited, and a smart phone can be used as an example.

The user terminal 100 includes an information transmission / reception module 110, a camera module 120, an edge generation module 130, a virtual object generation module 140, a virtual object control module 150, a virtual object length comparison module 160, A tilt sensing module 170, a display 180, and a memory 190. [

The information transmission and reception module 110 transmits the length of the measurement object 10, the place and the type of the capture object, the name of the fishing event to the database server 200, or receives information ranked in order from the database server 200.

The camera module 120 photographs the measurement object 10 and the reference object 20 having a predetermined length. It is preferable that the camera module 120 photographs the measurement object 10 and the reference object 20 on the display 180 in a state in which the measurement object 10 and the reference object 20 are both output. This is because the length of the measurement object 10 can be calculated only by one shot.

The measurement object 10 may be any object for measuring the length, and examples thereof include fish, crustaceans, fractures, and the like.

The reference object 20 is a thing having a predetermined length for measuring the length of the measurement object 10. This may include, for example, a lighter, a cigarette packet, a wooden chopstick, a bill of 100 note, a bill of a note, a cup noodle, a business card, a paper cup, a tissue paper, a bag noodle, a cider can and a bottled water bottle. Since the reference object 20 has a predetermined length, the length of the measurement object 10 can be calculated through comparison with the reference object 20.

The edge generation module 130 generates edges of the measurement object 10 and the reference object 20 photographed by the camera module 120 according to a predetermined method.

The predetermined method is a method of measuring the distance between the pixels of the measurement object 10 and the reference object 20 photographed by the camera module 120 and the bottom surface 300 of the measurement object 10 and the reference object 20 (The remaining part of the image captured by the camera module 120 excluding the measurement object 10 and the reference object 20) is compared with each other. If the comparison result is less than the predetermined similarity degree, And the edge of the reference object 20 (i.e., the interface between the measurement object 10 and the reference object 20 and the floor surface 300).

It is preferable that the edges generated in this way are shown in white as shown in Fig. 5 and the remaining portions are shown in black, so that the edges can be clearly identified. In this example, the edges are shown as white and the rest as black. However, it is possible to apply all of the colors that can clearly identify the edges in complementary relationship, such as red and green, yellow and blue, green and purple Of course.

In addition, the edge generation module 130 can also adjust the thickness of the generated edge, thereby increasing the thickness of the edge to more clearly identify the edge.

The virtual object creation module 140 has a length corresponding to the length of the first virtual object 10a and the reference object 20 having a length corresponding to the length of the measurement object 10 captured by the camera module 120 And generates a second virtual object 20a (see Fig. 4). The shapes of the first virtual object 10a and the second virtual object 20a generated by the virtual object creation module 140 are not limited to any particular ones but are preferably of a shape so that the length comparison can be easily performed .

A first virtual object 10a having a length corresponding to the length of the measurement object 10 calculated based on the generated edge when edges of the measurement object 10 and the reference object 20 are generated, A second virtual object 20a having a length corresponding to the length of the second virtual object 20 is generated.

Here, the length of the virtual object may be a length from the head to the tail, for example, when the measurement object 10 is a fish.

The virtual object control module 150 controls the virtual object generated by the virtual object creation module 140. [

The length of the first virtual object 10a and the length of the second virtual object 20a generated by the virtual object creation module 140 correspond to the lengths of the measurement object 10 and the reference object 20, 1 The lengths of the virtual object 10a and the second virtual object 20a are adjusted. This makes it possible to correct the error that the first virtual object 10a and the second virtual object 20a do not accurately reflect the lengths of the actual measurement object 10 and the reference object 20.

The first virtual object 10a and the second virtual object 20a are moved so that the first virtual object 10a and the second virtual object 20a are parallel to the measurement object 10 and the reference object 20, .

Specifically, the virtual object control module 150 identifies the center axis line of the measurement object 10 using the edge of the measurement object 10 and the edge of the reference object 20 first. The center axis line may be a center line passing through the head and tail of the measurement object 10.

Next, the first virtual object 10a and the second virtual object 20a are moved such that the center axis line and the first virtual object 10a and the second virtual object 20a are all parallel.

If the first virtual object 10a and the second virtual object 20a are not parallel to the measurement object 10 and the reference object 20 respectively, accurate length measurement can not be performed.

The virtual object length comparison module 160 calculates the length of the measurement object 10 having the same length as the first virtual object 10a by comparing the lengths of the first virtual object 10a and the second virtual object 20a .

By comparing the lengths of the first virtual object 10a and the second virtual object 20a since the second virtual object 20a has a predetermined length (for example, the one-hundred-yen bill has a length of 13.5 cm) The length of the measurement object 10 can be calculated.

For this, the virtual object length comparison module 160 preferably includes a reference object selection module 161. The reference object selection module 161 selects the reference object 20 to be actually used and selects one of a plurality of reference object identifiers stored in the memory 190 by the reference object selection module 161 to select the reference object 20 And the length of the reference object 20 stored in the memory 190 may be used for measuring the length of the measurement object 10. [

The tilt detection module 170 measures the tilt of the user terminal 100. For example, a gyro sensor or the like may be used. The tilt detection module 170 is used to determine whether the user terminal 100 is parallel to the floor 300 on which the measurement object 10 and the reference object 20 are placed. When the measurement object 10 and the reference object 20 are photographed while the user terminal 100 is not parallel to the floor surface 300, a length different from the actual length of the measurement object 10 can be measured to be.

For this, the camera module 120 is preferably activated so that it can be photographed only when the tilt detection module 170 detects that the user terminal 100 is parallel to the floor surface 300.

The display 180 is a portion in which the shooting scene of the camera module 120, the first virtual object 10a, the second virtual object 20a, and the like are output. A touch panel or the like may be incorporated so that the first virtual object 10a and the second virtual object 20a output on the display 180 due to the contact with the display 180 can be controlled. Since the display 180 is a well-known technology, a detailed description thereof will be omitted.

The memory 190 stores the photographs taken by the camera module 120, the length of the measurement object 10 calculated by the virtual object length comparison module 160, the location and type of the measurement object, the fishing tournaments, and the like. The information transmission / reception module 110 transmits the information stored in the memory 190 to the database server 200.

In addition, the memory 190 stores identifiers for various reference objects 20, and each identifier has a matching length.

The ranking module 230 of the database server 200 receives the measurement object 10 from the user terminal 100 by receiving the length of the measurement object 10, the capture place and type input to the user terminal 100, Are ranked from the largest to the smallest. The lengths of the measurement objects 10 having the same capture location and type may be ranked from the largest to smallest and the lengths of the measurement objects 10 having the same fishing tournaments may be ranked from the largest to smallest.

Therefore, the user who has captured the measurement object 10 can compare the length of the measurement object captured by other people at the same place with the length of the measurement object captured by the user, You can see how many times the length is ranked in the fishing competition.

The ranked information is stored in the memory 220 of the database server 200.

The information ranked by the database server 200 may be transmitted to the user terminal 100 by the information transmission / reception module 210 of the database server 200. The user can receive and confirm the ranking of the captured measurement object 10.

2. Explanation of method

The method according to the embodiment of the present application can accurately calculate the length of the measurement object 10 captured only by the normally carried reference object 20 without having to include a separate length measurer, . A detailed description will be given later.

Referring to Figure 6, a method according to an embodiment of the present application will be described in more detail.

First, the camera module 120 captures the measurement object 10 and the reference object 20 having a predetermined length (S510). The camera module 120 detects the measurement object 10 and the reference object 20 in a state in which the user terminal 100 senses that the measurement object 10 and the reference object 20 are parallel to the floor surface, And the reference object 20 are preferably photographed.

Next, the edge generation module 130 generates edges of the measurement object 10 and the reference object 20 photographed by the camera module 120 according to a predetermined method (S520).

Next, the virtual object creation module 130 creates a first virtual object 10a having a length corresponding to the length of the photographed measurement object 10 and a second virtual object 10b having a length corresponding to the length of the reference object 20, (Step S520).

Next, the virtual object length comparison module 150 compares the lengths of the first virtual object 10a and the second virtual object 20a, and calculates the length of the measurement object 10 according to the comparison result (S530) .

Thereafter, the length of the measurement object 10 calculated by the virtual object length comparison module 150 and the location and type of capture of the measurement object 10 input to the user terminal 100, And the lengths of the measurement objects 10 are ranked in ascending order from largest to smallest.

It will be apparent to those skilled in the art that various modifications and variations may be made in the present invention without departing from the spirit and scope of the present invention as defined by the appended claims. It will be appreciated that embodiments are possible. Accordingly, the scope of protection of the present application should be determined by the claims.

10: Measurement object
20: Reference object
100: User terminal
110: Information transmission / reception module
120: camera module
130: edge generation module
140: virtual object creation module
150: virtual object control module
160: virtual object length comparison module
161: Reference Object Selection Module
170: tilt detection module
180: Display
190: Memory
200: Database server
210: Information transmitting / receiving module
220: Memory
230: Ranking module
300: bottom surface

Claims (11)

(a) capturing a measurement object (10) and a reference object (20) having a predetermined length by a camera module (120) of a user terminal (100);
(b) If the virtual object creation module 140 determines that the length of the first virtual object 10a and the length of the reference object 20 corresponding to the length of the measurement object 10 photographed in step (a) Creating a second virtual object (20a) having a length; And
(c) The virtual object length comparison module 160 compares the length of the first virtual object 10a generated in step (b) with the length of the second virtual object 20a, (10), the method comprising:
Length measurement method.
The method according to claim 1,
The step (a)
When the camera module 120 detects that both the measurement object 10 and the reference object 20 are output on the display 180 of the user terminal 100, And photographing the reference object (20).
Length measurement method.
3. The method of claim 2,
The step (a)
When the camera module 120 detects that the measurement object 10 and the user object 100 are parallel to the floor 300 on which the reference object 20 is placed, And photographing the reference object (20).
Length measurement method.
The method according to claim 1,
After step (a), before step (b)
(b0) The edge generation module 130 calculates the pixels of the measurement object 10 and the reference object 20 photographed in the step (a) and the pixels of the measurement object 10 and the base object 20 300) to generate an edge of the measurement object (10) and an edge of the reference object (20) according to a predetermined method,
The step (b)
The virtual object creation module 140 creates the first virtual object 10a and the second virtual object 10b having the length corresponding to the length of each object using the edge generated by the edge creation module 130 20a). ≪ / RTI >
Length measurement method.
5. The method of claim 4,
After step (b), before step (c)
(c0) When the virtual object control module 140 determines that the lengths of the first virtual object 10a and the second virtual object 20a generated in step (b) are equal to the lengths of the measurement object 10 and the reference object 20. The method of claim 1, further comprising adjusting the length of the first virtual object (10a) and the second virtual object (20a)
Length measurement method.
6. The method of claim 5,
After step (c0), before step (c)
(c01) The virtual object control module 140 uses the edges of the measurement object 10 and the edges of the reference object 20 generated in the step (b0) ; And
(c02) The virtual object control module 140 updates the first virtual object 10a (10a) so that the central axis line, the first virtual object 10a, and the second virtual object 20a identified in step (c01) ) And moving the second virtual object (20a).
Length measurement method.
The method according to claim 1,
After the step (c)
(d) transmitting the length of the measurement object (10) calculated in the step (c) to the database server (200) by the information transmission / reception module (110)
Length measurement method.
8. The method of claim 7,
The step (d)
The step of transmitting the capture location of the measurement object 10, the type of the measurement object 10, and the name of the fishing event to the database server 200 is input to the user terminal 100 by the information transmission / Further included,
Length measurement method.
15. A system for performing the method of claim 1,
A camera module (120) for photographing the measurement object (10) and the reference object (20);
An edge generation module (130) for generating an edge of the measurement object (10) and the reference object (20) photographed by the camera module (120) according to a predetermined method;
A first virtual object 10a having a length corresponding to the length of the measurement object 10 photographed by the camera module 120 and a second virtual object 20a having a length corresponding to the length of the reference object 20 A virtual object creation module 140 for creating a virtual object;
The length of the first virtual object 10a generated by the virtual object creation module 140 is compared with the length of the second virtual object 20a and the length of the measurement object 10 is calculated according to the comparison result A virtual object length comparison module 160; And
An information transmission / reception module 110 for transmitting the length of the measurement object 10 calculated by the virtual object length comparison module 160 to the database server 200; And
(10) transmitted by the information transmission / reception module (110) of the user terminal (100), and ranking the stored plurality of measurement objects in descending order of size 200)
Length measurement system.
10. The method of claim 9,
The information transmission and reception module 110 further transmits to the database server 200 the capturing place of the measurement object 10 input to the user terminal 100, the type of the measurement object 10,
Wherein the database server (200) is configured to rank the lengths of the same measurement object (10) in a descending order and in a descending order, in which one of the capturing place, the type,
Length measurement system.
11. The method of claim 10,
The database server 200 receives the length, the location and type of the measurement object 10 and the fishing tournament name from each of the plurality of user terminals 100 (100a, 100b, 100c)
Length measurement system.

Images