JP2017157912A - Automatic tracking method and automatic tracking universal head - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic tracking method and an automatic tracking universal head capable of tracking an object in an image without complicating the processing.SOLUTION: A method of automatically tracking an object imaged by an imaging device 10 includes a step of detecting an object in an image, and a step of operating the imaging device 10 separately in the pan direction and tilt direction, so that a detected object is moved to the image center. In the step of operating separately in the pan direction and tilt direction, the object is moved in the pan direction or tilt direction, so that the closer to the image center the object is, the smaller the travel speed or travel acceleration is.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a method and a pan head for automatically tracking an object in an image of an imaging apparatus.

  Patent Document 1 discloses a method for tracking an object in a captured image in a monitoring system. According to the method of Patent Document 1, the object is detected by the difference method, and the amount of movement of the object is detected by the template matching method. Then, the zoom magnification of the imaging lens is controlled based on the amount of movement of the object.

  Patent Document 2 discloses detecting a moving object in a video image, predicting a moving target value of the object, and moving the camera in the pan direction and the tilt direction based on the predicted target value. ing.

JP 2005-45383 A JP 2007-274703 A

  According to the conventional automatic tracking methods such as Patent Document 1 and Patent Document 2 described above, since the movement of the object on the screen is predicted and tracked, the processing in the processor in the camera is extremely complicated. Become. Therefore, there is a problem that more processor resources are required.

  Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide an automatic tracking method and an automatic tracking head that can track an object in an image without complicating the processing. .

According to the automatic tracking method of the present invention, a method for automatically tracking an object imaged by an imaging device, the step of detecting an object in an image, and the detected object at an image center Moving the imaging device separately in the pan direction or the tilt direction so that the object moves in the pan direction or the tilt direction separately. It is characterized by moving in the pan direction or tilt direction so that the moving speed or moving acceleration decreases as the distance from the center decreases.
By adopting this method, control is performed so as to move the object to the center of the image without predicting the movement of the object. Then, the closer the object is to the center of the image, the slower the movement, and the operation stops when the object is at the center of the image. Further, when the object is away from the center of the image, the operation of returning to the center of the image is accelerated. For this reason, it is possible to make it difficult to frame out that the object disappears from the image without performing complicated processing.

The moving speed or moving acceleration in the tilt direction may be smaller than the moving speed and moving acceleration in the pan direction.
According to this method, since the movement in the tilt direction is usually smaller than the movement in the pan direction, a smooth movement operation can be executed by reducing the movement speed or movement acceleration in the tilt direction.

The step of detecting the object in the image includes detecting the center of gravity of the object, and the step of separately operating the imaging device in the pan direction or the tilt direction is detected. The method may include moving the center of gravity of the object to the center of the image.
According to this method, since only the center of gravity of the object is tracked, the load of image processing can be reduced.

According to the automatic tracking pan / tilt head according to the present invention, in the pan / tilt head on which the imaging device can be mounted, the tilt moving means for moving the mounted imaging device in the tilt direction and the pan for moving the mounted imaging device in the pan direction. The moving means, the first electric motor that operates the tilt moving means, the second electric motor that operates the pan moving means, and image data picked up by the image pickup device are input, and an object in the image data is detected, A control unit that performs operation control of the first electric motor and the second electric motor to move the imaging apparatus in the tilt direction and / or pan direction, and to control the detected object to move to the center of the image; The control unit separately performs operation control of the first motor and the second motor so as to move the detected object to the center of the image, and the object is closer to the center of the image. It is characterized by executing the operation control so moving speed or movement acceleration is reduced.
By adopting this configuration, since the image pickup apparatus itself does not execute movement control in the tilt direction and pan direction, data processing in the image pickup apparatus can be reduced, and deterioration in resolution and image quality can be prevented. In addition, control is performed so as to move the object to the center of the image without predicting the movement of the object. Then, the closer the object is to the center of the image, the slower the movement, and the operation stops when the object is at the center of the image. Further, when the object is away from the center of the image, the operation of returning to the center of the image is accelerated. For this reason, it is possible to make it difficult to frame out that the object disappears from the image without performing complicated processing.

Further, the control unit may execute the movement control so that the movement speed or movement acceleration in the tilt direction is smaller than the movement speed and movement acceleration in the pan direction.
According to this configuration, since the movement in the tilt direction is usually smaller than the movement in the pan direction, a smooth movement operation can be executed by reducing the movement speed or movement acceleration in the tilt direction.

Further, the control unit detects the center of gravity of the target object, and performs operation control of the first motor and the second motor so as to move the detected center of gravity of the target object to the center of the image. It is good.
According to this configuration, since only the center of gravity of the object is tracked, the load of image processing can be reduced.

  According to the automatic tracking method and the automatic tracking head according to the present invention, it is possible to track an object in an image without complicating the processing.

It is explanatory drawing which shows schematic structure of an automatic tracking pan head. It is explanatory drawing explaining the automatic tracking control method. It is explanatory drawing which shows the example of a control table. It is explanatory drawing explaining the other automatic tracking control method.

FIG. 1 shows a schematic configuration of the automatic tracking head and the imaging apparatus of the present embodiment.
As the present embodiment, it is assumed that the player himself / herself records his / her movement particularly during sports. When taking a picture of himself without an assistant, the camera is attached to the pan head and no one operates the camera during the shooting. Therefore, depending on the movement, the image may deviate from the image, and the object of this embodiment is to prevent this.
As the imaging device 10, a camera capable of shooting a moving image at a predetermined cycle is used. Hereinafter, the imaging apparatus will be described as a camera.

The automatic tracking head 20 of the present embodiment is provided with a mounting portion 22 to which the camera 10 is attached, and at least the pan direction (direction rotating around the vertical axis) and the tilt direction (direction rotating around the horizontal axis). ) Is provided on the attachment portion 22 so as to be rotatable.
FIG. 1 shows an example in which the attachment portion 22 is simplified. The mounting portion 22 includes a fixing portion 22a to which the camera 10 is fixed, a base portion 22b positioned below the fixing portion 22a, and a rotating portion 22c that moves the fixing portion 22a in the tilt direction with respect to the base portion 22b. Yes.

A first electric motor 24 that rotationally drives the attachment portion 22 in the pan direction is attached to the base portion 22b of the attachment portion 22, and a fixed portion 22a of the attachment portion 22 is rotated in the tilt direction to the rotating portion 22c of the attachment portion 22. A second electric motor 26 to be driven is provided.
The first electric motor 24 and the second electric motor 26 are controlled by a control signal output from the control unit 30.

  The automatic tracking head 20 is provided with a control unit 30 for controlling the rotation of the camera 10 in the pan direction and / or the tilt direction. Although it is preferable that the control unit 30 is integrally configured as the configuration of the automatic tracking pan head 20, for the sake of explanation, the control unit 30 is illustrated so as to be separated from the attachment unit 22 in FIG.

Next, the configuration and schematic operation of the control unit 30 will be described.
The control unit 30 includes a CPU, a memory, and the like, operates according to a preset operation program, and controls the rotation operations of the first electric motor 24 and the second electric motor 26.

The image data output from the camera 10 is input to the control unit 30 at every predetermined period of shooting.
In the control unit 30, the object calculation unit 32 calculates the object from the captured image data. Here, the object adopts a method such as face recognition calculated by comparing with face data set in advance, color recognition calculated by clothes color, or a particle filter that tracks a person after specifying the person. Can do.

Subsequently, in the control unit 30, the center of gravity calculation unit 34 calculates the center of gravity of the object. The center of gravity can be calculated by calculating the average of the X coordinate (coordinate in the pan direction) and the average of the Y coordinate (coordinate in the tilt direction) on the image.
Then, the position comparison unit 36 of the control unit 30 compares the center of gravity of the target object with the position of the image center, and calculates the distance between the center of gravity of the target object and the image center. For the distance, the respective distances in the pan direction and the tilt direction are calculated on the screen.

The control signal output unit 38 of the control unit 30 outputs a control signal to the first motor 24 and the second motor 26 based on the distance between the center of gravity of the target object and the image center calculated by the position comparison unit 36. To do.
The control signal output unit 38 outputs a control signal to the first electric motor 24 based on the distance in the pan direction between the center of gravity of the object and the center of the image, and tilts between the center of gravity of the object and the center of the image. A control signal is output to the second electric motor 26 based on the direction distance.

  In the control signal output unit 38, the moving speed or moving acceleration decreases as the center of gravity of the object is closer to the image center, and the moving speed or moving acceleration increases as the center of gravity of the object is farther from the image center. Control signals are output to the electric motor 24 and the second electric motor 26.

In particular, when taking a picture of one's own movement during sports as in this embodiment, the movement in the tilt direction is often smaller than the movement in the pan direction as the movement in the image.
Therefore, the control signal output unit 38 sends a control signal to the first motor 24 and the second motor 26 so that the moving speed or moving acceleration in the tilt direction is smaller than the moving speed and moving acceleration in the pan direction. Is output.

Hereinafter, details of the control operation in the control unit 30 will be described.
2 to 3 show examples of control operations based on a preset control table.
In the present embodiment, Px is a numerical value obtained by dividing the distance in the pan direction between the center of gravity of the object and the image center by the distance in the pan direction between the image center and the image outer frame, and the tilt direction between the center of gravity of the object and the image center Is a value obtained by dividing the distance by the distance in the tilt direction between the image center and the image outer frame.
That is, Px and Tx are normalized and dimensionless quantities with the distances Pmax and Tmax in the pan direction and the tilt direction between the image center and the image outer frame as 1.

In the example shown in FIG. 3, if the position of the center of gravity of the object in the pan direction is 0 ≦ Px <(1/3) Pmax, the acceleration is set to APbase and the speed is set to SPbase × (1/2) Px. .
That is, when the center of gravity of the object is located at a distance of 1/3 from the center of the image to the outer frame of the pan direction, the movement acceleration is the reference pan direction acceleration, and the movement speed is the reference pan direction target speed. On the other hand, (1/2) Px is multiplied.
APbase is a reference pan direction acceleration and is determined by the structure of the pan head and the specifications of the first electric motor 24. SPbase is a reference pan direction target speed, and is determined by the structure of the pan head and the specifications of the first electric motor 24.

If the pan position of the center of gravity of the object is (1/3) Pmax ≦ Px <(2/3) Pmax, the acceleration is set to APbase and the speed is set to SPbase × Px.
That is, when the center of gravity of the object is located at a distance of 1/3 to 2/3 from the image center to the image outer frame in the pan direction, the movement acceleration is the reference pan direction acceleration, and the movement speed is the reference pan direction. The direction target speed is multiplied by Px.

If the position in the pan direction of the center of gravity of the object is (2/3) Pmax ≦ Px ≦ Pmax, the acceleration is set to APbase + APk × (Px− (2/3) Pmax), and the speed is set to SPbase × Px. APk is an acceleration coefficient in the pan direction.
That is, when the center of gravity of the object is located from a distance of 2/3 from the image center to the image outer frame in the pan direction to the image outer frame, the moving acceleration is set to the reference pan direction acceleration and the predetermined acceleration coefficient is set to the distance. This is the sum of products multiplied by the corresponding coefficients. The moving speed is obtained by multiplying the reference pan direction target speed by Px.

As for the tilt direction, if the position of the center of gravity of the object in the tilt direction is 0 ≦ Tx <(1/2) Tmax, the acceleration is set to ATbase and the speed is set to STbase × (2/3) Tx. .
That is, when the center of gravity of the object is located at a half distance from the center of the image to the outer frame of the tilt direction, the movement acceleration is the reference tilt direction acceleration, and the movement speed is the reference tilt direction target speed. On the other hand, (2/3) Tx is multiplied.
ATbase is the reference tilt direction acceleration, and is determined by the structure of the pan head and the specifications of the second electric motor 26. STbase is a target speed in the reference tilt direction, and is determined by the pan head structure and the specifications of the second electric motor 26.

If the position in the tilt direction of the center of gravity of the object is (1/2) Tmax ≦ Tx ≦ Tmax, the acceleration is set to ATbase and the speed is set to STbase × Tx.
That is, when the center of gravity of the object is located from the image center to the image outer frame from a half distance from the image center in the tilt direction, the movement acceleration is the reference tilt direction acceleration, and the movement speed is The reference tilt direction target speed is multiplied by Tx.

  That is, when the position of the center of gravity of the object is away from the center of the image in the pan direction or the tilt direction, the reference acceleration or the reference speed is multiplied by a coefficient corresponding to the distance from the image center to be close to the center of the image. The moving acceleration or moving speed is decreased as the distance from the image center increases, and the moving acceleration or moving speed is increased as the distance from the image center increases.

In addition, it is considered that the possibility of moving so quickly that the person moves out of the frame in the vertical direction, that is, against gravity, is less than the possibility of moving out in the horizontal direction and out of the frame.
Therefore, the movement acceleration and movement speed in the tilt direction are set to be smaller than the movement acceleration and movement speed in the pan direction.

  The contents of the control table described above are not limited to the above contents, and different calculation formulas may be used.

  Instead of the above-described calculation formula, as shown in FIG. 4, an area is created by dividing the distance between the image center and the image outer frame (frame) by an arbitrary predetermined number in the pan direction and the tilt direction, respectively. In addition, the moving speed and moving acceleration in the pan direction and the moving speed and moving acceleration in the tilt direction in the area may be set. The moving speed and moving acceleration set for each area are set so as to be smaller as the area is closer to the center of the image and to be larger as the area is farther from the image center.

10 Imaging device (camera)
20 automatic tracking head 22 mounting portion 22a fixing portion 22b base portion 22c rotating portion 24 first electric motor 26 second electric motor 30 control unit 32 object calculation unit 34 center of gravity calculation unit 36 position comparison unit 38 control signal output unit

Claims (6)

A method of automatically tracking an object being imaged by an imaging device,
Detecting an object in the image;
Operating the imaging device separately with respect to the pan direction or the tilt direction so as to move the detected object to the center of the image, and
In the step of separately operating the pan direction or the tilt direction,
An automatic tracking method, wherein the object is moved in the pan direction or the tilt direction so that the moving speed or the moving acceleration decreases as the object is closer to the center of the image.   2. The automatic tracking method according to claim 1, wherein the moving speed or moving acceleration in the tilt direction is smaller than the moving speed and moving acceleration in the pan direction. Detecting the object in the image includes detecting the center of gravity of the object;
3. The step of separately operating the imaging device with respect to the pan direction or the tilt direction includes moving the center of gravity of the detected object to the center of the image. Automatic tracking method. In a pan head that can be equipped with an imaging device,
A tilt moving means for moving the mounted imaging apparatus in the tilt direction;
Pan moving means for moving the mounted imaging device in the pan direction;
A first electric motor for operating the tilt moving means;
A second electric motor for operating the pan moving means;
Image data picked up by the image pickup device is input, an object in the image data is detected, operation control of the first electric motor and the second electric motor is executed, and the image pickup device is tilted and / or panned. And a control unit that controls to move the detected object to the center of the image,
The controller is
The operation control of the first electric motor and the second electric motor is separately performed so as to move the detected object to the center of the image,
An automatic tracking head, wherein operation control is executed so that the moving speed or the moving acceleration decreases as the object is closer to the center of the image. The controller is
5. The automatic tracking head according to claim 4, wherein the movement control is executed so that the movement speed or movement acceleration in the tilt direction is smaller than the movement speed and movement acceleration in the pan direction. The controller is
5. The operation control of the first electric motor and the second electric motor is executed so that the center of gravity of the object is detected and the center of gravity of the detected object is moved to the center of the image. Item 6. The automatic tracking head according to Item 5.