KR20120015584A - System for measuring attitude of aircraft using camera and method therefor - Google Patents

Abstract

PURPOSE: A system for measuring attitude of aircraft using camera and a method thereof are provided to measure the posture of an aircraft without expensive sensor equipment. CONSTITUTION: A system for measuring attitude of aircraft using camera comprises a camera device(100) and a position measuring device(200). The camera device is fixed to an aircraft and takes an image of the angular orientation during aviation. The position measuring device produces the angle change amount of the subject edge based on the video information inputted through the camera device. The posture of aircraft is measured by using the amount of angle change. The camera device is installed in the angular orientation in order to take a photograph of all directions.

Description

Aircraft attitude measuring system using camera and its method {SYSTEM FOR MEASURING ATTITUDE OF AIRCRAFT USING CAMERA AND METHOD THEREFOR}

The present invention relates to an aircraft attitude measuring system and a method thereof, and more particularly, to a system and method for measuring the attitude of an aircraft using a plurality of camera images installed on the aircraft without using an IMU and other inertial sensors. .

As a method of measuring a posture, an angular speedometer, an accelerometer, and an inertial sensor are usually used. The measured values of the sensor can be calculated to determine a posture of an object.

As is well known, the Inertial Measurement Unit (IMU) is a representative instrument used for attitude measurement and position calculation of an aircraft. An IMU is usually composed of an accelerometer and an angular speedometer. When the integration of the acceleration information is integrated twice, the position component comes out and is used for the distance measurement. When the error component of the sensor is integrated, the error accumulates and the resulting value gradually shows a big difference from the actual value. The degree of divergence varies depending on the performance of the IMU, and the divergence of low-cost IMUs is large.

The unmanned aerial vehicle is an important technique because the automatic navigation system that integrates the measurements of the various sensors installed on the aircraft to control the direction and attitude of the aircraft by itself is important. Accordingly, the IMU, which is a representative equipment capable of measuring posture change, is recognized as an essential equipment, and the posture change of the aircraft can be known by measuring sensor values of angular velocity and acceleration. However, high-performance IMUs that can be used for navigation are classified as expensive equipment, and the performance of IMUs depends on the price and the performance of unmanned aerial vehicles.

The present invention has been made in view of the above problems, extract the edge of the subject using a camera fixed to the aircraft, extract the angle of the corner using an imaginary line for the corner, the angle changes over time It is an object of the present invention to provide an aircraft attitude measurement system and method using a camera for measuring the attitude of the aircraft based on the calculated angle change amount after calculating the angle change with respect to the edge having.

The present invention for achieving the technical problem relates to an aircraft attitude measurement system using a camera, the aircraft attitude measurement system using a camera, which is fixed to the aircraft, the camera device for shooting the image in each direction during the flight; And a posture measuring device configured to calculate an angle change amount of an edge of a subject based on the image information input through the camera device, and measure the attitude of the aircraft using the angle change amount. Characterized in that it comprises a.

In addition, the camera device is characterized in that it is fixed in each direction so as to photograph the four directions (east, west, south, north).

The posture measuring device may further include: an image information input unit configured to receive image information from the camera device in real time, and attach and store input time information; An edge extracting unit extracting an edge of the subject from the image information and generating a virtual line for the edge; An angle extraction unit for extracting an angle of an edge using the virtual line; An angle change calculator for calculating an angle change amount with respect to an imaginary line of a corner having an angle change with time; And a posture measurer configured to measure a posture of a pitch, a roll, and a yaw axis component of the aircraft based on the angular change amount calculated by the angle change amount calculator 240. Characterized in that it comprises a.

In addition, the virtual line is a virtual line combined with a horizontal line (a) extending a predetermined length in the left and right direction and a vertical line extending a predetermined length in the vertical direction, the horizontal portion and the vertical portion of the subject is generated to match the horizontal line and the vertical line It is characterized by.

The angle change calculator calculates image information before and after a specific time from the image information input unit, determines whether the angle is changed by comparing angles of two virtual lines with respect to the same corner, and when the angle is changed. The amount of change in the angle is calculated.

On the other hand, the present invention relates to a method for measuring the attitude of the aircraft using a camera, (a) a process in which the camera device fixed to the aircraft to take an image of each direction during the flight; (b) the posture measuring apparatus receiving image information from the camera apparatus in real time and attaching and storing input time information; And (c) the posture measuring device calculating an angle change amount of an edge of a subject based on the image information input through the camera device, and measuring the attitude of the aircraft using the angle change amount; Characterized in that it comprises a.

In addition, the step (c), (c-1) the posture measuring device extracts the edge of the subject from the image information, and generates a virtual line for the corner; (c-2) the posture measuring device extracting an angle of an edge using the virtual line; (c-3) determining, by the posture measuring device 200, whether the angle is changed by acquiring image information before and after a specific time and comparing the angles of two virtual lines with respect to the same edge; (c-4) when the angle is changed as a result of the determination in the step (c-3), calculating, by the posture measuring device, an amount of change in the angle; And (c-5) measuring, by the attitude measuring device, the attitude of the pitch, roll, and yaw axis components of the aircraft based on the angle change amount; Characterized in that it comprises a.

When the angle is not changed as a result of the determination in step (c-3), the posture measuring device performs the procedure in the step (a).

According to the present invention as described above, by measuring the attitude of the aircraft without the existing IMU and other inertial sensors, there is an effect that can measure the attitude of the aircraft without purchasing expensive sensor equipment.

In addition, according to the present invention, by using the image information of the camera device can also perform the role of a mobile CCTV in place of the existing fixed CCTV, can move to the blind area and narrow area of the CCTV dangerous area to scout the surrounding environment It also works.

1 is an overall configuration diagram conceptually showing an aircraft attitude measurement system S using a camera according to the present invention.
2 is an exemplary view showing an imaginary line for detecting a change in the corner angle according to the present invention.
3 is an overall flowchart of a method for measuring aircraft attitude using a camera according to the present invention;

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. In the meantime, when it is determined that the detailed description of the known functions and configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

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

An aircraft attitude measuring system using a camera according to the present invention will be described with reference to FIGS. 1 to 2 as follows.

1 is an overall configuration diagram conceptually showing an aircraft attitude measuring system S using a camera according to the present invention, and includes a camera device 100 and a attitude measuring device 200 as shown. The camera device 100 and the attitude measuring device 200 according to the invention are mounted on an aircraft in a flight chain.

The camera device 100 is fixed to the aircraft 10, and photographs images in each direction during the flight.

In the present embodiment, the camera device 100 is set to be fixed in each direction so as to photograph four directions (east, west, south, north), but the present invention is not limited to the position and number.

The posture measuring device 200 calculates an angle change amount of an edge of a subject based on the image information input through the camera device 100, and performs a function of measuring the attitude of the aircraft using the angle change amount. As shown in FIG. 1, an image information input unit 210, an edge extractor 220, an angle extractor 230, an angle change calculator 240, and a posture measurer 250 are included.

The image information input unit 210 receives image information in real time and stores the input time information attached thereto.

The edge extractor 220 extracts an edge of the subject from the image information and generates a virtual line 20 for the edge.

In this case, as shown in FIG. 2, the virtual line 20 is a virtual line in which a horizontal line 21 extending a predetermined length in a left and right direction and a vertical line 22 extending a predetermined length in a vertical direction are combined. And a vertical portion to match the horizontal line 21 and the vertical line 22.

The angle extractor 230 extracts the angle of the corner using the virtual line 20.

The angle change calculator 240 calculates the angle change amount with respect to the virtual line of the corner having the angle change as time passes.

That is, the angle change calculator 240 acquires image information before and after a specific time from the image information input unit 210, and determines whether the angle is changed by comparing the angles of two virtual lines with respect to the same corner. When the angle is changed, the amount of change in the angle is calculated.

In FIG. 2, the virtual line a before a specific time for the same edge and the virtual line b after a specific time for the same edge are shown.

In this embodiment, a is set to a virtual line before a specific time and b to a virtual line after a specific time. However, since the technical concept of the present invention compares the angles of two virtual lines, b is a virtual line before a specific time. You can also set a to a virtual line after a certain time.

As described above, since the image information input unit 210 stores the image information by attaching the input time information, the angle change calculator 240 has the image information before and after a specific time from the image information input unit 210. Can be obtained.

The posture measuring unit 250 measures a posture of a pitch, roll, and yaw axis component of the aircraft 10 based on the angle change calculated through the angle change calculating unit 240. do.

An aircraft attitude measuring system according to the present invention is mounted on an aircraft in a flight chain and measures the attitude of the aircraft. In addition, the camera device 100 for capturing images in each direction is fixedly installed in each direction of the aircraft 10.

That is, the movement of the camera device 100 fixed to the aircraft 10 is the movement of the aircraft 10. Accordingly, the angle change amount of the two virtual lines with respect to the same edge of the subject through the camera device 100 is set to the change in posture of the aircraft 10 itself, so that the change amount of the corner angle of the subject may be utilized as the attitude measurement information of the aircraft. Can be.

Hereinafter, a method for measuring an aircraft attitude using the system described above will be described with reference to FIG. 3.

3 is an overall flowchart of a method for measuring an aircraft attitude using a camera according to the present invention, and as shown, the camera device 100 fixedly installed in four directions of the aircraft 10 captures images in each direction during flight ( S10).

Thereafter, the image information input unit 210 of the posture measuring device 200 receives image information from the camera apparatus 100 in real time, and attaches and stores input time information (S20).

The corner extracting unit 220 of the posture measuring device 200 extracts an edge of the subject from the image information and generates a virtual line 20 for the corner (S30).

As described above, the imaginary line 20 is an imaginary line 20 in which a horizontal line a extending a predetermined length in left and right directions and a vertical line b extending a predetermined length in a vertical direction are combined. The angle extraction unit 230 of the 200 extracts the angle of the corner using the virtual line 20 (S40).

Subsequently, the angle change calculator 240 of the posture measuring device 200 acquires image information before and after a specific time from the image information input unit 210 and compares the angles of two virtual lines with respect to the same corner, thereby changing the angle. It is determined whether or not (S50).

As a result of the determination in step S50, when the angle is changed, the angle change calculator 240 calculates the angle change amount (S60).

Subsequently, the attitude measuring unit 250 of the attitude measuring apparatus 200 is based on the angle change calculated through the angle change calculating unit 240, and the pitch, roll, and yaw of the aircraft 10 are measured. (Yaw) The attitude of the axis component is measured (S70).

On the other hand, if the angle is not changed as a result of the determination in step S50, the angle change amount calculation unit 240 of the posture measuring device 200 performs the procedure to step S10.

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

S: aircraft attitude measurement system using camera
100: camera device 200: posture measuring device
210: image information input unit 220: corner extraction unit
230: angle extraction unit 240: angle change amount calculation unit
250: posture measuring unit 10: aircraft
20: virtual line

Claims (9)

In the aircraft attitude measurement system using a camera,
It is fixed to the aircraft 10, the camera device 100 for taking an image of each direction during the flight; And
A posture measuring device 200 for calculating an angle change amount of an edge of a subject based on the image information input through the camera device 100 and measuring an attitude of the aircraft using the angle change amount; Aircraft attitude measurement system using a camera comprising a.
The method of claim 1,
The camera device 100,
Aircraft attitude measurement system using a camera, characterized in that fixed to each direction so that you can shoot four directions (east, west, south, north).
The method of claim 1,
The posture measuring device 200,
An image information input unit 210 which receives image information in real time from the camera apparatus 100 and attaches and stores input time information;
An edge extractor 220 for extracting an edge of the subject from the image information and generating a virtual line 20 for the edge;
An angle extraction unit 230 for extracting an angle of an edge using the virtual line 20;
An angle change calculator 240 for calculating an angle change amount with respect to an imaginary line of an edge having an angle change with time; And
The attitude measuring unit 250 which measures the attitude of the pitch, roll, and yaw axis components of the aircraft 10 based on the angle change calculated through the angle change calculation unit 240. ; Aircraft attitude measurement system using a camera comprising a.
The method of claim 3, wherein
The virtual line 20,
An imaginary line in which a horizontal line 21 extending a predetermined length in a left and right direction and a vertical line 22 extending a predetermined length in a vertical direction are combined, and a horizontal portion and a vertical portion of a subject match the horizontal line 21 and a vertical line 22. Aircraft attitude measurement system using a camera, characterized in that it is generated to.
The method of claim 3, wherein
The angle change calculation unit 240,
Obtain image information before and after a specific time from the image information input unit 210, and determine whether the angle has changed by comparing the angles of the two virtual lines for the same corner, and if the angle is changed, the change amount of the angle Aircraft attitude measurement system using a camera, characterized in that the calculation.
In the aircraft attitude measurement method using a camera,
(a) a process in which the camera device 100 fixedly installed on the aircraft 10 photographs an image in each direction during a flight;
(b) the posture measuring apparatus 200 receiving image information from the camera apparatus 100 in real time and attaching and storing input time information; And
(c) calculating, by the attitude measuring apparatus 200, an angle change amount of the edge of the subject based on the image information input through the camera device 100, and measuring the attitude of the aircraft using the angle change amount; Aircraft attitude measurement method using a camera comprising a.
The method according to claim 6,
The step (c)
(c-1) the posture measuring device 200 extracting an edge of the subject from the image information and generating a virtual line 20 for the edge;
(c-2) the posture measuring device 200 extracting an angle of an edge using the virtual line 20;
(c-3) determining, by the posture measuring device 200, whether the angle is changed by acquiring image information before and after a specific time and comparing the angles of two virtual lines with respect to the same edge;
(c-4) calculating the change amount of the angle by the posture measuring device 200 when the angle is changed as a result of the determination in the step (c-3); And
(c-5) measuring, by the attitude measuring apparatus 200, the attitude of the pitch, roll, and yaw axis components of the aircraft 10 based on the angle change amount; Aircraft attitude measurement method using a camera comprising a.
The method of claim 7, wherein
As a result of the determination in step (c-3), if the angle does not change,
Aircraft attitude measurement method using a camera, characterized in that for performing the procedure to the step (a) the position measuring device (200).
The method of claim 7, wherein
The virtual line 20,
An imaginary line in which a horizontal line 21 extending a predetermined length in a left and right direction and a vertical line 22 extending a predetermined length in a vertical direction are combined, and a horizontal portion and a vertical portion of a subject match the horizontal line 21 and a vertical line 22. Aircraft attitude measurement method using a camera, characterized in that it is generated to.

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