KR100633986B1 - Apparatus and Method for Camera Auto-focusing accordance with User Movement in Mobile Communication Terminal - Google Patents

Abstract

The present invention relates to an apparatus and method for automatically focusing a camera according to a user's movement in a mobile communication terminal.

A feature of the present invention is provided in a Bluetooth headset for transmitting and receiving a voice signal with a mobile communication terminal, the motion detection transmission means for detecting the two-dimensional movement of the user of the Bluetooth headset and transmits the corresponding two-dimensional motion detection information; Camera focusing is installed in the mobile communication terminal and receives the user's two-dimensional motion detection information transmitted from the motion detection transmission means and drives the camera sensor two-dimensionally according to the two-dimensional motion detection information to adjust the user's image focus. It includes a means.

Further, another feature of the present invention, the process of detecting the user's X-axis and Y-axis movement in the motion detection transmission means installed in the Bluetooth headset when the automatic focusing function is activated; Generating two-dimensional motion detection information corresponding to the movement of the user in the X-axis and Y-axis by the motion detection transmission means and wirelessly transmitting the two-dimensional motion detection information to the camera focusing means of the mobile communication terminal through a Bluetooth transceiver; Receiving the wirelessly transmitted two-dimensional motion detection information by the camera focusing means; Analyzing the two-dimensional motion detection information by the camera focusing means to determine the driving control amount of the camera sensor in the X-axis and Y-axis directions; And focusing the image of the Bluetooth headset user by adjusting the position of the camera sensor in the X-axis and Y-axis directions according to the driving control amount in the camera focusing means.

    Camera, mobile terminal

Description

Apparatus and Method for Camera Auto-focusing according with User Movement in Mobile Communication Terminal}

1 is a block diagram of a camera automatic focusing apparatus according to user movement in a mobile communication terminal according to the present invention.

FIG. 2 is a diagram showing the configuration of a camera sensor driver in FIG. 1; FIG.

3 is a diagram illustrating an operation process of an apparatus for automatically focusing a camera according to user movement in a mobile communication terminal according to the present invention.

Explanation of symbols on the main parts of the drawings

10; Motion detection transmission means 11; 2D sensing unit

12; A control processor 13; Bluetooth transceiver

20; Camera focusing means 21; Bluetooth transceiver

22; A function processor 23; Mode switch

24; Encoder section 25; Camera sensor drive

26; Camera sensor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to camera focusing in a mobile communication terminal, and more particularly, to a mobile communication terminal that automatically adjusts focusing of a camera provided in a mobile communication terminal according to a user's movement wearing a Bluetooth headset. The present invention relates to an apparatus and method for automatically focusing a camera according to a user's movement.

In general, mobile communication terminals are widely used due to the advantage that a user can freely make a phone call while moving a location. In addition, in order to provide more various functions and services to the users of the mobile communication terminal, the functions of the mobile communication terminal are also diversified, and as a part of the effort, a function of capturing and transmitting the user's image by adding a camera function to the mobile communication terminal. This has been applied, and furthermore, the user has been provided with a function of transmitting a video of the user and receiving a video of the counterpart while watching the video of the counterpart.

Conventionally, when a user moves by capturing an image of a user using a camera provided in a mobile communication terminal, in order to accurately capture the image of the user, the focus of the camera must be accurately adjusted according to the user's movement. If the user moves in the middle of the moment there is a problem that does not accurately match the focusing.

The present invention has been proposed in order to solve the conventional problems as described above, the object of which is to detect the user's two-dimensional movement in a Bluetooth (Bluetooth) headset to transmit the user's two-dimensional motion data to the mobile communication terminal The user in the mobile communication terminal to notify the mobile communication terminal of the degree of movement of the mobile communication terminal to precisely adjust the video focusing of the user by precisely positioning the camera sensor in two dimensions in response to the movement of the user. An apparatus and method for automatically focusing a camera according to a movement are provided.

A feature of the present invention for achieving the above object is, installed in a Bluetooth headset for transmitting and receiving a voice signal with a mobile communication terminal, the movement to detect the two-dimensional movement of the Bluetooth headset user and transmit the corresponding two-dimensional motion detection information Sensing transmission means; Camera focusing is installed in the mobile communication terminal and receives the user's two-dimensional motion detection information transmitted from the motion detection transmission means and drives the camera sensor two-dimensionally according to the two-dimensional motion detection information to adjust the user's image focus. It includes a means.

The motion detection transmission means may include: a two-dimensional sensor configured to detect the user's motion in two dimensions and generate corresponding two-dimensional motion detection information; A control processor for interfacing the two-dimensional motion detection information input from the two-dimensional sensor to a digital type and controlling wireless transmission and reception; And a Bluetooth transceiver for wirelessly transmitting the two-dimensional motion detection information input from the control processor to the camera focusing means under control of the control processor.

The camera focusing means includes: a Bluetooth transceiver for receiving two-dimensional motion detection information wirelessly transmitted from the motion detection transmission means; A function processor configured to analyze two-dimensional motion detection information input from the Bluetooth transceiver, detect movement in the X-axis and Y-axis directions with respect to the user, and output a control signal for corresponding camera focusing; An encoder unit for generating and outputting an encoding signal according to a control signal input from the function processor; The motor driving power is supplied according to the control signal input from the function processor and the camera sensor is driven in two dimensions at a speed and a direction corresponding to the encoding signal input from the encoder to automatically focus the image of the user. It characterized in that it comprises a camera sensor driver.

The camera sensor driver may further include: X-axis driving means for moving and controlling the camera sensor in the X-axis direction according to a control signal input from the function processor and an encoding signal input from the encoder; And Y-axis driving means for moving and controlling the camera sensor in the Y-axis direction according to a control signal input from the function processor and an encoding signal input from the encoder.

The X-axis driving means and the Y-axis driving means are integrally coupled and interlocked.

The X-axis driving means may include: an X-axis motor supplied with driving power according to a control signal input from the function processor and rotating and controlling speed and direction according to an encoding signal input from the encoder; A holder portion coupled to the camera sensor is mounted at one end and the X-axis motor is mounted at the other end, so that the X-axis ball screw moves linearly while passing through the screw nut according to the rotational drive of the X-axis motor. .

The Y-axis driving means may include: a Y-axis motor supplied with driving power in response to a control signal input from the function processor and rotating and controlling speed and direction according to an encoding signal input from the encoder; The Y-axis ball is mounted on one end with a screw nut of the X-axis driving means through a holder and a connecting part, and the Y-axis motor is mounted on the other end, and moves linearly while passing through the screw nut according to the rotational drive of the Y-axis motor. It is characterized by including a screw.

The camera focusing means may further include a mode switching unit for instructing the function processing unit to activate and deactivate the automatic focusing function.

On the other hand, another feature of the present invention, when the automatic focusing function is activated, the process of detecting the movement of the user X-axis and Y-axis in the motion detection transmission means installed in the Bluetooth headset; Generating two-dimensional motion detection information corresponding to the movement of the user in the X-axis and Y-axis by the motion detection transmission means and wirelessly transmitting the two-dimensional motion detection information to the camera focusing means of the mobile communication terminal through a Bluetooth transceiver; Receiving the wirelessly transmitted two-dimensional motion detection information by the camera focusing means; Analyzing the two-dimensional motion detection information by the camera focusing means to determine the driving control amount of the camera sensor in the X-axis and Y-axis directions; And focusing the image of the Bluetooth headset user by adjusting the position of the camera sensor in the X-axis and Y-axis directions according to the driving control amount in the camera focusing means.

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

The present invention is a Bluetooth headset for transmitting and receiving a voice signal with the mobile communication terminal detects the user's two-dimensional motion and transmits the user's two-dimensional motion data to the mobile communication terminal to inform the mobile terminal of the user's movement, The terminal is configured to precisely adjust the image focusing of the user by precisely positioning the camera sensor in two dimensions in response to the movement of the user received from the Bluetooth headset. At this time, the wireless communication between the Bluetooth headset and the mobile communication terminal via Bluetooth, preferably, the Bluetooth headset and the mobile communication terminal transmits and transmits the user's movement data via Bluetooth as well as transmitting and receiving a voice signal via Bluetooth.

Camera automatic focusing apparatus according to the user's movement in the mobile communication terminal according to the present invention is a motion detection transmission means 10 is installed in the Bluetooth headset, and the camera focusing means 20 is installed in the mobile communication terminal ) Is made. The motion detection transmission means 10 is installed in the Bluetooth headset to detect the user's movement and transmit the corresponding detection information to the camera focusing means 20 side, the two-dimensional detection unit 11, the control processing unit 12 and the Bluetooth transceiver (13) is provided. The two-dimensional sensor 11 detects a two-dimensional movement of the user and applies the corresponding sensing information to the control processor 12. The two-dimensional sensing unit 11 is composed of a sensor such as a capacitive position sensor or a gyroscope, and the sensor such as a capacitive position sensor or a gyroscope in the X and Y axis directions of the user. Configure by arranging so that you can detect movement. In addition, the control processing unit 12 interfaces the two-dimensional sensing information of the user input from the two-dimensional sensing unit 11 to the digital transceiver 13 and transmits the Bluetooth transceiver 13 to the Bluetooth transceiver 13. To control. Preferably, the control processing unit 12 may include a processing unit capable of processing a voice signal transmitted and received with the mobile communication terminal in a Bluetooth headset, so that the transmission of the user motion detection information and the transmission and reception of the voice signal may be processed in parallel. have. The Bluetooth transceiver 13 wirelessly transmits the user's two-dimensional motion detection information input from the control processor 12 to the camera focusing means 20 side of the mobile communication terminal.

The camera focusing means 20 is installed in the mobile communication terminal, receives the user's two-dimensional motion detection information transmitted from the motion detection transmission means 10, and drives the camera sensor two-dimensionally according to the two-dimensional motion detection information. In order to finely adjust the image focus of the Bluetooth transceiver 21, the function processing unit 22, the mode switching unit 23, the encoder unit 24, the camera sensor driver 25 and the camera sensor 26 is provided. The Bluetooth transceiver 21 receives the 2D motion detection information of the user wirelessly transmitted from the motion detection transmission means 10 installed in the Bluetooth headset and applies it to the function processor 22. The function processor 22 analyzes the user's two-dimensional motion detection information input from the Bluetooth transceiver 21 to detect movement in the X-axis and Y-axis directions, and transmits a control signal for camera focusing to the encoder unit 24 and the camera sensor. In addition to output to the driver 25 side, the image information input from the camera sensor 26 is processed and output to the LCD unit. Preferably, the function processing unit 22 may include a processing unit capable of processing voice signals transmitted and received with the Bluetooth headset side in the mobile communication terminal, so that the camera-related function processing and voice signal transmission / reception processing may be performed in parallel. . The encoder 24 outputs an encoding signal to the camera sensor driver 25 in accordance with a control signal input from the function processor 22, and the X-axis and Y of the camera sensor driver 25 are provided. The motor drive speed and direction of the camera sensor driver 25 are finely controlled by controlling the drive speed with respect to the axial motor and performing rotation control in the forward and negative directions. In addition, the camera sensor driver 25 drives the camera sensor 26 for capturing an image in two dimensions including an X-axis and a Y-axis direction to perform focusing of a user image. The control input from the function processor 22 is performed. The camera sensor 26 is driven in two dimensions by turning on / off the motor driving power according to the signal and driving the X-axis and Y-axis motors at a speed and a direction corresponding to an encoding signal input from the encoder unit 24. Automatically focus your video. Then, the mode switching unit 23 inputs an instruction signal for activating or deactivating the auto focusing function to the function processing unit 22, and the function processing unit when the mode switching unit 23 is instructed to activate the auto focusing function. 22 activates the automatic focusing function of the camera focusing means 20 and wirelessly transmits the corresponding indication signal to the motion detecting transmission means 10 via the Bluetooth transceiver 21 to control the motion detecting transmission means 10. The processing unit 12 activates the operation of the two-dimensional sensing unit 11, and when the mode switching unit 23 instructs the deactivation of the automatic focusing function, the function processing unit 22 controls the camera focusing means 20. In addition to deactivating the automatic focusing function, the control signal of the motion detection transmission means 10 is wirelessly transmitted to the motion detection transmission means 10 via the Bluetooth transceiver 21. And thereby (12) disables the operation of the two-dimensional detector (11).

On the other hand, the camera sensor driver 25 is X-axis motor (M1), Y-axis motor (M2), X-axis ball screw (SR1), Y-axis ball screw (SR2), screw nut (SN1) as shown in FIG. ), (SN2), holder portion HP1, (HP2) and screw connection portion (CP). An X-axis motor M1 is installed at one end of the X-axis ball screw SR1, a screw nut SN1 is installed at a predetermined position of the X-axis ball screw SR1, and the corresponding screw nut SN1 is installed at the X-axis. The rotational motion of the motor M1 is converted into linear motion. As the X-axis motor M1 rotates the X-axis ball screw SR1, the X-axis ball screw SR1 is screw nut SN1. Slide through) to move in a straight line. The Y-axis motor M2 is installed at one end of the Y-axis ball screw SR2, and the screw nut SN2 is installed at a predetermined position of the Y-axis ball screw SR2, and the screw nut SN2 is It converts the rotational motion by Y-axis motor (M2) into linear motion. As Y-axis motor (M2) rotates Y-axis ball screw (SR2), Y-axis ball screw (SR2) is screw nut It slides through (SN2) and moves in a straight line. And, the screw nut (SN2) is fixedly installed to support the X-axis ball screw (SR1) and Y-axis ball screw (SR2). The holder portion HP2 is coupled to the Y-axis ball screw SR2, but not to be separated from the Y-axis ball screw SR2, and coupled not to interfere with the rotation of the Y-axis ball screw SR2. Even if the ball screw SR2 rotates, the holder portion HP2 does not rotate accordingly. On the other hand, the holder portion HP1 is coupled to the camera sensor 26 and serves to prevent the camera sensor 26 from being rotated by the rotation of the X-axis ball screw SR1, and the holder portion HP1 is X. It is coupled to the axial ball screw (SR1), but is coupled so as not to escape from the X-axis ball screw (SR1) and coupled so as not to interfere with the rotation of the X-axis ball screw (SR1). In addition, the X-axis ball screw (SR1) and Y-axis ball screw (SR2) is connected and integrated through the connection portion (CP), the camera sensor 26 is fixed to one end of the X-axis ball screw (SR1), The camera sensor 26 is moved in the X-axis and Y-axis directions according to the linear motion of the X-axis and Y-axis ball screws SR1 and SR2 to automatically focus the user's image.

In addition, the X-axis motor M1 receives a current applied according to a control signal input from the function processor 22 and receives an encoding signal from the encoder 24 to be rotated to drive the X-axis ball screw SR1. While operating, by finely adjusting the rotational speed and direction by the encoding signal input from the encoder unit 24 to finely adjust and move the X-axis ball screw (SR1) in units of screws. Similarly, the Y-axis motor M2 receives a current applied according to a control signal input from the function processor 22 and receives an encoding signal from the encoder 24 so that the Y-axis motor M2 is rotated to drive the Y-axis ball screw SR2. While operating, by controlling the rotational speed and direction finely by the encoding signal input from the encoder 24, the Y-axis ball screw (SR2) finely adjusted by the screw unit to move.

Referring to the flowchart of FIG. 3, an operation process of an apparatus for automatically focusing a camera according to a user's movement in a mobile communication terminal configured to have the above functions will be described as follows.

First, while the user is using the camera function of the mobile communication terminal, by manually operating the mode switching unit 23 of the camera focusing means 20 provided in the mobile communication terminal to instruct the activation of the automatic focusing function to detect the movement When the automatic focusing function of the transmission means 10 and the camera focusing means 20 is activated (step S31), the two-dimensional detection unit 11 of the motion detection transmission means 10 installed in the Bluetooth headset is the X-axis of the user. And movement in the Y-axis direction (step S32). At this time, the two-dimensional sensor 11 generates motion detection information corresponding to the movement of the user in the X-axis and Y-axis directions, and outputs it to the control processor 12 in a digital type (step S33), and the control processor 12 Interfacing the motion detection information to the Bluetooth transceiver 13, the Bluetooth transceiver 13 wirelessly transmits the motion information to the camera focusing means 20 (step S34).

Accordingly, the Bluetooth transceiver 21 of the camera focusing means 20 installed in the mobile communication terminal receives the motion detection information wirelessly transmitted from the Bluetooth transceiver 13 of the motion detection transmitting means 10 and the function processor 22. (Step S35). At this time, the function processor 22 analyzes the motion detection information input from the Bluetooth transceiver 21 (step S36) to determine the driving control amount of the camera sensor in the X-axis and Y-axis directions (step S37), and correspondingly The control signal to be output is output to the encoder section 24 and the camera sensor driver 25 (step S38). The encoder 24 outputs a corresponding encoding signal to the camera sensor driver 25 in accordance with a control signal input from the function processor 24, and the camera sensor driver 25 is then supplied from the function processor 22. The driving power is input to the X-axis and Y-axis motors M1 and M2 according to the input control signal, and the X-axis and Y-axis motors M1 and (M1) according to the encoder signal received from the encoder unit 24 (( M2) to linearly move the X- and Y-axis ball screws SR1 and SR2 to finely adjust the position of the camera sensor 26 in two dimensions, thereby automatically adjusting the user's image in response to the movement of the Bluetooth headset user. It focuses (step S39). Then, when the automatic focusing function is continuously activated (step S40), the motion detection transmission means 10 and the camera focusing means 20 perform the camera focusing according to the user's movement by repeating the above-described operation. Done.

The present invention is not limited to the above description, and those skilled in the art will be able to practice various modifications of the present invention within the obvious scope, and such modifications are within the scope of the present invention. Will belong to.

As described above, the present invention includes a motion detection transmission means in a Bluetooth headset used for transmitting and receiving a voice signal with the mobile communication terminal to detect the user's two-dimensional movement by the corresponding motion detection transmission means By transmitting the user's two-dimensional motion data to the mobile communication terminal to inform the mobile communication terminal of the user's movement, the camera focusing means provided in the mobile communication terminal precisely two-dimensional camera sensor in response to the user's movement By precisely adjusting the user's image focusing by adjusting the position, it is possible to provide a high quality image when making a phone call while transmitting and receiving the user image.

Claims (9)

A motion detection transmission means installed in a Bluetooth headset for transmitting and receiving a voice signal to and from a mobile communication terminal, and detecting two-dimensional motion of the Bluetooth headset user and transmitting corresponding two-dimensional motion detection information; Camera focusing is installed in the mobile communication terminal and receives the user's two-dimensional motion detection information transmitted from the motion detection transmission means and drives the camera sensor two-dimensionally according to the two-dimensional motion detection information to adjust the user's image focus. Camera automatic focusing apparatus according to the user's movement in the mobile communication terminal comprising a means. The method of claim 1, The motion detection transmission means includes: a two-dimensional detection unit for generating two-dimensional motion detection information corresponding to two-dimensional motion of the user; A control processor for interfacing the two-dimensional motion detection information input from the two-dimensional sensor to a digital type and controlling wireless transmission and reception; Camera automatic focusing according to user movement in a mobile communication terminal, characterized in that it comprises a Bluetooth transceiver for wirelessly transmitting the two-dimensional motion detection information input from the control processing unit to the camera focusing means side under the control of the control processing unit. Device. The method of claim 1, The camera focusing means includes: a Bluetooth transceiver for receiving two-dimensional motion detection information wirelessly transmitted from the motion detection transmission means; A function processor configured to analyze two-dimensional motion detection information input from the Bluetooth transceiver, detect movement in the X-axis and Y-axis directions with respect to the user, and output a control signal for corresponding camera focusing; An encoder unit for generating and outputting an encoding signal according to a control signal input from the function processor; The motor driving power is supplied according to the control signal input from the function processor and the camera sensor is driven in two dimensions at a speed and a direction corresponding to the encoding signal input from the encoder to automatically focus the image of the user. Camera auto focusing device according to the user's movement in the mobile communication terminal comprising a sensor driving unit. The method of claim 3, The camera sensor driver may include: X-axis driving means for moving and controlling the camera sensor in an X-axis direction according to a control signal input from the function processor and an encoding signal input from the encoder; According to the user's movement in the mobile communication terminal comprising a Y-axis driving means for moving the camera sensor in the Y-axis direction according to the control signal input from the function processing unit and the encoding signal input from the encoder Camera auto focusing device. The method of claim 4, wherein And the X-axis driving means and the Y-axis driving means are integrally coupled to and interlocked with each other. The method according to claim 4 or 5, The X-axis driving means may include: an X-axis motor supplied with driving power according to a control signal input from the function processor and rotating and controlling speed and direction according to an encoding signal input from the encoder; A holder portion coupled to the camera sensor at one end is mounted, and the X-axis motor is mounted at the other end, and includes an X-axis ball screw which moves linearly while passing through the screw nut according to the rotational drive of the X-axis motor. Camera auto focusing device according to user movement in mobile communication terminal. The method according to claim 4 or 5, The Y-axis driving means may include a Y-axis motor supplied with driving power in response to a control signal input from the function processor and rotating and controlling speed and direction according to an encoding signal input from the encoder; The Y-axis ball is mounted on one end with a screw nut of the X-axis driving means through a holder and a connecting part, and the Y-axis motor is mounted on the other end, and moves linearly while passing through the screw nut according to the rotational drive of the Y-axis motor. Camera automatic focusing apparatus according to the user's movement in the mobile communication terminal characterized in that it comprises a screw. The method of claim 2, The camera focusing means further comprises a mode switching unit for instructing the function processing unit to activate and deactivate an auto focusing function. Detecting an X-axis and a Y-axis movement of the user by the motion detection transmission means installed in the Bluetooth headset when the auto focusing function is activated; Generating two-dimensional motion detection information corresponding to the movement of the user in the X-axis and Y-axis by the motion detection transmission means and wirelessly transmitting the two-dimensional motion detection information to the camera focusing means of the mobile communication terminal through a Bluetooth transceiver; Receiving the wirelessly transmitted two-dimensional motion detection information by the camera focusing means; Analyzing the two-dimensional motion detection information by the camera focusing means to determine the driving control amount of the camera sensor in the X-axis and Y-axis directions; And focusing the image of the Bluetooth headset user by adjusting the position of the camera sensor in the X-axis and Y-axis directions according to the driving control amount in the camera focusing means. Camera auto focusing method according to movement.

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