KR102246645B1 - Apparatus and method for obtaining image - Google Patents

Abstract

A method and apparatus provided by an electronic device, wherein a first mobile terminal wirelessly connects to a second electronic device including a camera unit, and the first mobile terminal receives image data from the second electronic device, and the A first mobile terminal displays an image using the image data, the first mobile terminal receives a user input for changing a photographing composition, and the first mobile terminal receives a control signal formed based on the user input. And transmitting to the second electronic device.

Description

Apparatus and method for image acquisition {APPARATUS AND METHOD FOR OBTAINING IMAGE}

The present disclosure relates to an electronic device, and more particularly, to an image acquisition in an electronic device.

Electronic devices such as smart phones and tablets provide various useful functions to users through various applications. Accordingly, electronic devices are being transformed into devices that can use various types of information in addition to a voice call function by providing various functions. In particular, such an electronic device includes a camera and provides a function of photographing an image using the camera.

When an electronic device providing such an image capturing function captures an image using a camera, the composition of the image is determined by the intention of the user of the electronic device (ie, an image photographer).

In this way, since the photographing composition of the image is determined by the image photographer, the image subject cannot know in which composition he was photographed after the image photographing was finished.

Accordingly, the present disclosure may propose a method and apparatus for transmitting photographic composition information from an electronic device of an image photographee to an electronic device of an image photographee so that an image photographee can take an image in a desired composition when photographing an image.

In addition, the present disclosure may propose a method and apparatus for outputting a composition desired by an image subject as an alarm by using photographic composition information so that the subject can take an image in a composition desired by the image subject during image capturing.

In addition, the present disclosure may propose a method and apparatus for obtaining an image for a composition or area required by the apparatus for controlling image acquisition when capturing an image.

According to an embodiment of the present disclosure for solving the above problems, in a method provided by an electronic device, a first mobile terminal is wirelessly connected to a second electronic device including a camera unit, and the first mobile terminal is Receives image data from a second electronic device, the first mobile terminal displays an image using the image data, the first mobile terminal receives a user input for changing a photographing composition, and the first mobile terminal And transmitting, by the terminal, a control signal formed based on the user input to the second electronic device.

Another embodiment of the present disclosure for solving the above problem is a method provided by an electronic device, wherein a first portable terminal including a camera unit is wirelessly connected to a second electronic device including a display unit, and the first The portable terminal generates an image, the first portable terminal transmits image data generated from the image to the second electronic device, the first portable terminal receives a control signal from the second electronic device, and the The control signal indicates a change in at least one of an angle, a position, and a direction of the image.

In the device provided by an electronic device, the device of the present disclosure for solving the above problem includes a connection unit for wirelessly connecting to a specific electronic device including a camera unit, and receiving image data from the specific electronic device, and the image And a controller configured to display an image using data, receive a user input for changing a photographing composition, and transmit a control signal formed based on the user input to the specific electronic device.

Another device of the present disclosure for solving the above problems is a device provided by an electronic device, in which an image is generated using a connection part for wirelessly connecting to a specific electronic device including a display part and a camera part, and the specific electronic device And a controller configured to transmit image data generated from the image to a device and receive a control signal from the specific electronic device, wherein the control signal indicates a change in at least one of an angle, a position, and a direction of the image.

An embodiment of the present disclosure for solving the above problems includes a communication interface for receiving a reference image, and a data processing module for controlling to display a change guide corresponding to a change in a photographing composition related to the reference image in response to an event occurrence. Disclosed is an electronic device.

One embodiment of the present disclosure for solving the above problems is a camera module for collecting a reference image, a communication interface for transmitting the reference image, receiving guide change information for guiding a photographic composition change related to the reference image, and the guide change Disclosed is an electronic device including a data processing module that controls display of a change guide corresponding to information.

One embodiment of the present disclosure for solving the above problems is a command stored in a computer-readable storage media and executed by one or more processors, wherein the command includes a transmitted reference image and Disclosed is a recording medium including a command for receiving guide change information for guiding a related photographic composition change, and for displaying a change guide corresponding to the guide change information.

An embodiment of the present disclosure for solving the above problems is a command stored in a computer-readable storage media and executed by one or more processors, the command receiving a reference image In response to occurrence of an event, a recording medium including an operation of displaying a change guide corresponding to a change in a photographing composition related to the reference image is disclosed.

The present disclosure transmits photographic composition information from the electronic device of the image taker to the electronic device of the image taker, so that the image may be captured in a composition desired by the image taker during image capture.

In addition, the present description outputs the composition desired by the image taker as an alarm using the photographing composition information, so that the image may be captured in the composition desired by the image taker when taking an image.

In addition, the present description can support various remote service operation by performing an image suitable for a user's intention to check an image when capturing an image from a distance.

1 is a configuration diagram of a communication system according to an embodiment of the present invention,
2 is a block diagram of a first portable terminal according to an embodiment of the present invention;
3 is a block diagram of a second portable terminal according to an embodiment of the present invention;
4 is a flowchart of generating an image in a communication system according to an embodiment of the present invention;
5 is a flowchart of generating an image in a first portable terminal according to an embodiment of the present invention;
6 is a flowchart of changing a photographing composition in a first portable terminal according to the first embodiment of the present invention;
7 is a flowchart of changing a photographing composition in a first portable terminal according to a second embodiment of the present invention;
8 is a flowchart of providing photographic composition information in a second portable terminal according to an embodiment of the present invention;
9 is a flowchart of generating first photographing composition information in a second portable terminal according to the first embodiment of the present invention;
10 is a flowchart of generating second photographing composition information in a second portable terminal according to a second embodiment of the present invention;
11 is a diagram showing a screen notifying a change of a photographing composition according to a first embodiment of the present invention;
12 is a diagram showing a screen notifying a change of a photographing composition according to a second embodiment of the present invention;
13 is a block diagram of an image operation system including an electronic device related to image acquisition according to various embodiments of the present disclosure;
14 is a configuration diagram of a first data processing module of an apparatus for controlling image acquisition according to various embodiments of the present disclosure;
15 is a configuration diagram of a second data processing module of an image collection device according to various embodiments of the present disclosure;
16 is a signal flow diagram between configurations of an image operating system according to various embodiments;
17 is an exemplary view of a screen related to operation of a guide according to various embodiments;
18 is an exemplary view of a screen related to a guide change according to various embodiments;
19A is an exemplary view of a screen related to operation of a matrix guide according to various embodiments;
19B is an exemplary view of a screen related to operation of a matrix mini-guide according to various embodiments;
20 is a diagram illustrating a method of operating an image acquisition control apparatus according to various embodiments;
21 is a diagram illustrating a method of operating an image collection device according to various embodiments;
22 is a block diagram of an electronic device according to various embodiments of the present disclosure.

Hereinafter, various embodiments of the present invention may be described in detail with reference to the accompanying drawings. In addition, detailed descriptions of known functions and configurations that may unnecessarily obscure the subject matter of the present invention may be omitted.

A terminal according to an embodiment of the present invention may include a portable terminal and an electronic device that is inconvenient to move. Here, an electronic device that is inconvenient to move may be a personal computer, and the portable terminal is an electronic device that can be easily moved, and includes a video phone, a mobile phone, a smart phone, and IMT-2000 (International Mobile Telecommunication 2000). Terminal, WCDMA terminal, Universal Mobile Telecommunication Service (UMTS) terminal, Personal Digital Assistant (PDA), Portable Multimedia Player (PMP), Digital Multimedia Broadcasting (DMB) terminal, E-Book, portable computer (Notebook, Tablet, etc.) or digital It can be a camera (Digital Camera) or the like.

1 is a block diagram of a communication system according to an embodiment of the present invention.

Referring to FIG. 1, the communication system may include a first portable terminal 101 and a second portable terminal 103. Looking at each component, the first portable terminal 101 may generate a first image at a user's request, store the generated first image, and check whether transmission of the first image is requested. In this case, after the first image is displayed, the first portable terminal 101 may determine that transmission of the first image is requested when a specific function is requested by the user. Alternatively, the first portable terminal 101 may determine that transmission of the first image is requested when the first image is selected after a specific function is executed by the user.

Here, the specific function includes an air view function or a mirror image function, and the air view function or a mirror image function transmits an image being provided or available from the first mobile terminal 101 to the second mobile terminal 103, and thus the second mobile terminal 103 You can say the function of displaying this transferred image.

As a result of the verification, when transmission of the first image is requested, the first portable terminal 101 may detect the first image from among at least one image stored in advance and transmit the detected first image to the second portable terminal 103. In this case, the first portable terminal 101 may transmit the first image through a short-range wireless communication method or a third-generation or fourth-generation mobile communication method. Here, the short-range wireless communication method includes BT (Bluetooth, Bluetooth) or Wifi (wireless fidelity, WiFi), and the third or fourth generation mobile communication method may include 3GPP or LTE.

In addition, the first portable terminal 101 may receive photographic composition information from the second portable terminal 103, check the photographic composition of the first portable terminal 101 based on the received photographic composition information, and output the confirmation result. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

In this case, when receiving the first photographing composition information, the first portable terminal 101 may check the photographing composition of the first portable terminal 101 based on a reference sensor change value included in the first photographing composition information. Alternatively, when receiving the second photographing composition information, the first portable terminal 101 may check the photographing composition of the first portable terminal 101 based on a reference image change value included in the second photographing composition information.

As a result of the verification, if the information on the photographing composition of the first mobile terminal 101 is the same as the photographing composition information received from the second mobile terminal 103, the first mobile terminal 101 may output a first alarm recommending that the image be photographed. . On the contrary, if the information on the photographing composition of the first mobile terminal 101 is different from the photographing composition information received from the second mobile terminal 103, the first mobile terminal 101 includes images, sounds, vibrations, etc. for changing the photographing composition. The second alarm can be output.

In addition, when a second image is requested to be captured, the first portable terminal 101 may generate a second image and store the generated second image. In addition, the second portable terminal 103 may check whether the first image is received from the first portable terminal 101. As a result of checking, when the first image is received, the second portable terminal 103 may store the received first image and display the stored first image. In addition, the second portable terminal 103 may check whether a change of the photographing composition is requested by the user. Here, it can be seen that the request to change the photographing composition is a request from the first portable terminal 101 to change the photographing composition for the second image to be photographed after the first image.

As a result of the confirmation, when a change of the photographing composition is requested, the second portable terminal 103 may generate photographing composition information for the photographing composition of the second image and transmit the generated photographing composition information to the first portable terminal 101.

2 is a block diagram of a first portable terminal according to an embodiment of the present invention.

Referring to FIG. 2, the first portable terminal 101 includes a first control unit 201, a first camera unit 203, a first display unit 205, a first input unit 207, a first memory unit 209, a first motion detection unit 211, and a first RF unit 213. , A first data processing unit 215, a first sound processing unit 217, and a first near-field communication unit 219 may be included.

Looking at each component, the 1RF unit 213 may perform a wireless communication function of a portable terminal. In more detail, the 1RF unit 213 may include a wireless transmitter for up-converting and amplifying a frequency of a transmitted signal, and a wireless receiver for low-noise amplifying and down-converting a received signal. In addition, the first data processing unit 215 may include a transmitter that encodes and modulates a transmitted signal and a receiver that demodulates and decodes a received signal. Here, the first data processing unit 215 may include a modem (MODEM) and a codec (CODEC), and the codec may include a data codec that processes packet data and the like and an audio codec that processes audio signals such as voice.

In addition, the first sound processing unit 217 may perform a function of reproducing a received audio signal output from the first data processing unit 215 through a speaker or transmitting a transmission audio signal generated from a microphone to the first data processing unit 215. In addition, the first input unit 207 includes keys for inputting numeric and character information and function keys for setting various functions, and the first display unit 205 displays an image signal on a screen, and the data requested to be output from the first control unit 201 Can be displayed. If the first display unit 205 is implemented in a touch display method such as capacitive or pressure-sensitive, the first input unit 207 may include only a preset minimum number of keys, and the first display unit 205 is a key input from the first input unit 207. Some functions can be substituted.

In addition, the first memory unit 209 may include a program memory and a data memory. Here, the program memory stores a booting and operating system (hereinafter referred to as'OS') for controlling the general operation of the portable terminal, and the data memory stores various types of data generated during operation of the portable terminal. Can be saved. In addition, the first short-range communication unit 219 may connect the second portable terminal 103 and short-range communication according to the control of the first control unit 201. For example, short-range communication may be Wifi or BT.

In addition, the first camera unit 203 may generate an image by capturing an image of the subject, and output the generated image to the first control unit 201. In addition, the first motion detector 211 may detect the motion of the first portable terminal 101 and output the detected result to the first controller 201. For example, the first motion detection unit 211 includes at least one of a geomagnetic sensor, an acceleration sensor, or a gyroscope, and the movement of the first portable terminal 101 using at least one of a geomagnetic sensor, an acceleration sensor, or a gyroscope. At least one of a direction sensor value, a movement distance sensor value, and an angle sensor value may be generated, and at least one of the generated movement direction sensor value, a movement distance sensor value, and an angle sensor value may be output to the first controller 201.

In addition, the first control unit 201 may perform a function of controlling an overall operation of the portable terminal. For example, the first control unit 201 may generate a first image using the first camera unit 203, store the generated first image in the first memory unit 209, and check whether transmission of the first image is requested. have. As an example, the first image may be an image generated in the preview mode of the first camera unit 203. In addition, the preview mode may refer to a mode for displaying an image that is expected to be photographed before image capturing.

In this case, after the first image is displayed, the first controller 201 may determine that transmission of the first image is requested when a specific function is requested by the user. Alternatively, the first controller 201 may determine that transmission of the first image is requested when the first image is selected after a specific function is executed by the user. Here, the specific function includes an air view function or a mirror image function, and the air view function or a mirror image function transmits an image being provided or available from the first mobile terminal 101 to the second mobile terminal 103, and thus the second mobile terminal 103 You can say the function of displaying this transferred image.

As a result of the verification, when transmission of the first image is requested, the first control unit 201 detects the first image from among at least one image previously stored in the first memory unit 209, and transmits the detected first image to the second portable terminal 103. I can. In this case, the first controller 201 may transmit the first image through a short-range wireless communication method or a third-generation or fourth-generation mobile communication method. Here, the short-range wireless communication method includes BT or Wifi, and the third or fourth generation mobile communication method may include 3GPP or LTE.

In addition, the first controller 201 may receive photographing composition information from the second portable terminal 103, check the photographing composition of the first portable terminal 101 based on the received photographing composition information, and output a confirmation result. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

In this case, when receiving the first photographing composition information, the first controller 201 may check the photographing composition of the first portable terminal 101 based on a reference sensor change value included in the first photographing composition information. Alternatively, when receiving the second photographing composition information, the first controller 201 may check the photographing composition of the first portable terminal 101 based on a reference image change value included in the second photographing composition information. According to various embodiments of the present disclosure, the first control unit 201 may check the photographing composition of the first portable terminal 101 and store the photographing composition in the first memory unit 209.

As a result of the confirmation, if the information on the photographing composition of the first portable terminal 101 is the same as the photographing composition information received from the second portable terminal 103, the first controller 201 may output a first alarm recommending photographing of an image. On the contrary, if the information on the photographing composition of the first mobile terminal 101 is different from the photographing composition information received from the second mobile terminal 103, the first control unit 201 includes an image, sound, vibration, etc. for changing the photographing composition. 2Alarm can be output.

From now on, the operation of outputting an alarm using the first photographing composition information will be described in more detail. The first control unit 201 detects the movement of the first mobile terminal 101 using the first motion detection unit 211 to detect the sensor change value. Can be created. Here, the sensor change value represents a sensor change value detected by the movement of the first portable terminal 101, and may include at least one of an angle change value, a movement direction change value, and a movement distance change value.

In addition, the first controller 201 may detect the first photographing composition information, and may detect a reference sensor change value from the detected first photographing composition information by analyzing the detected first photographing composition information. Here, the reference sensor change value represents a sensor change value detected by the movement of the second portable terminal 103, and may include at least one of a reference angle change value, a reference movement direction change value, and a reference movement distance change value.

In addition, the first controller 201 may compare the generated sensor change value and the reference sensor change value. In this case, the first controller 201 may compare an angle change value, a movement direction change value, a movement distance change value, a reference angle change value, a reference movement direction change value, and a reference movement distance change value, respectively. As a result of the comparison, if the angle change value and the reference angle change value are the same, the movement direction change value and the reference movement direction change value are the same, and the movement distance change value and the reference movement distance change value are the same, the first controller 201 changes the sensor. It is determined that the value and the reference sensor change value are the same, otherwise, it may be determined that the sensor change value and the reference sensor change value are not the same.

As a result of the comparison, if the sensor change value and the reference sensor change value are the same, the first control unit 201 may output a first alarm for recommending image capture. Here, the first alarm is an alarm recommending shooting of an image, and includes at least one of an image, a sound, and a vibration, and tells the user that the shooting composition of the first mobile terminal 101 is the shooting composition desired by the user of the second mobile terminal 103. It may be to inform that.

If the sensor change value and the reference sensor change value are different, the first control unit 201 may output a second alarm recommending a change of the photographing composition for the first portable terminal 101. Here, the second alarm is an alarm that recommends changing the photographing composition for the first portable terminal 101, and includes at least one of image, sound, and vibration, and the photographing composition of the first portable terminal 101 to the user is the second portable terminal. This may be to inform that the user of 103 does not have a desired shooting composition.

Further, an operation of outputting an alarm using the second photographing composition information will be described in more detail. The first control unit 201 generates an image change value by comparing the first preview image and the second preview image using an image processing technique, The generated image change value may be stored in the first memory unit 209. Here, the image change value represents an image change value between the first image and the second image generated in the preview mode of the first mobile terminal 101, and may include at least one of an angle change value, a moving direction change value, and a contrast change value. I can. In addition, the preview mode may refer to a mode for displaying an image that is expected to be photographed before image capturing.

In addition, the first controller 201 may detect the second photographing composition information, and may detect a reference image change value from the detected second photographing composition information by analyzing the detected second photographing composition information. Here, the reference image change value represents an image change value between images generated by the second portable terminal 103, and may include a reference angle change value, a reference movement direction change value, and a reference contrast change value.

In addition, the first controller 201 may compare the generated image change value and the reference image change value. In this case, the first controller 201 may compare an angle change value, a movement direction change value, a contrast change value, a reference angle change value, a reference movement direction change value, and a reference contrast change value, respectively. As a result of the comparison, if the angle change value and the reference angle change value are the same, the movement direction change value and the reference movement direction change value are the same, and the contrast change value and the reference contrast change value are the same, the first controller 201 It is determined that the reference image change value is the same, otherwise, it may be determined that the image change value and the reference image change value are not the same.

As a result of the comparison, if the image change value and the reference image change value are the same, the first control unit 201 may output a first alarm for recommending image capture. If the image change value and the reference image change value are different from each other, the first control unit 201 may output a second alarm recommending a change of the photographing composition for the first portable terminal 101.

In addition, the first controller 201 may check whether a second image is requested by the user. As a result of the verification, when a second image is requested to be captured, the first control unit 201 may generate a second image using the first camera unit 203 and store the generated second image in the first memory unit 209.

3 is a block diagram of a second portable terminal according to an embodiment of the present invention.

Referring to FIG. 3, the second portable terminal 103 includes a second control unit 301, a second camera unit 303, a second display unit 305, a second input unit 307, a second memory unit 309, a second motion detection unit 311, and a second RF unit 313. , A second data processing unit 315, a second sound processing unit 317, and a second short-range communication unit 319 may be included.

Looking at each component, the 2RF unit 313 may perform a wireless communication function of a portable terminal. In more detail, the 2RF unit 313 may include a wireless transmitter for up-converting and amplifying a frequency of a transmitted signal, and a wireless receiver for low-noise amplifying and down-converting a received signal. In addition, the second data processing unit 315 may include a transmitter that encodes and modulates a transmitted signal and a receiver that demodulates and decodes a received signal. Here, the second data processing unit 315 may include a modem (MODEM) and a codec (CODEC), and the codec may include a data codec that processes packet data and an audio codec that processes audio signals such as voice.

In addition, the second sound processing unit 317 may perform a function of reproducing a received audio signal output from the second data processing unit 315 through a speaker or transmitting a transmission audio signal generated from a microphone to the second data processing unit 315. In addition, the second input unit 307 includes keys for inputting numeric and character information and function keys for setting various functions, and the second display unit 305 displays an image signal on a screen, and the data requested to be output from the second control unit 301 Can be displayed. If the second display unit 305 is implemented in a touch display method such as a capacitive type or a pressure-sensitive type, the second input unit 307 may include only a preset minimum number of keys, and the second display unit 305 is used to input a key of the second input unit 307. Some functions can be substituted.

In addition, the second memory unit 309 may include a program memory and a data memory. Here, the program memory stores booting and operating systems for controlling general operations of the portable terminal, and the data memory stores various types of data generated during operation of the portable terminal. In addition, the second short-range communication unit 319 may connect the first portable terminal 101 and short-range communication according to the control of the second control unit 301.

For example, short-range communication may be Wifi or BT. In addition, the second camera unit 303 may generate an image by capturing an image of the subject, and output the generated image to the second control unit 301. In addition, the second motion detector 311 may detect the motion of the second portable terminal 103 and output the detected result to the second controller 301. As an example, the second motion detection unit 311 includes a geomagnetic sensor and an acceleration sensor, and at least one of a movement direction sensor value, a movement distance sensor value, and an angle sensor value of the second portable terminal 103 by using the geomagnetic sensor and the acceleration sensor. One may be generated, and at least one of the generated movement direction sensor value, movement distance sensor value, and angle sensor value may be output to the second control unit 301.

In addition, the second controller 301 may perform a function of controlling the overall operation of the portable terminal. For example, the second controller 301 may check whether the first image is received from the first portable terminal 101. As a result of checking, when the first image is received, the second controller 301 may store the received first image and display the stored first image. In addition, the second control unit 301 may check whether a change of the photographing composition is requested by the user. Here, it can be seen that the request to change the photographing composition is a request from the first portable terminal 101 to change the photographing composition for the second image to be photographed after the first image. At this time, the second controller 301 changes the photographic composition when at least one of a touch input, a haptic input, a movement of the second portable terminal 103 in a selected direction, and a pressing of a specific button of the second portable terminal 103 are selected by the user. You can decide that this is requested.

As a result of the confirmation, when a change of the photographing composition is requested, the second controller 301 may generate photographing composition information for the photographing composition of the second image. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

From now on, the operation of generating the first photographic composition information will be described in more detail. The second control unit 301 determines whether a user of the second portable terminal 103 or a motion tracking of the second portable terminal 103 is requested according to a predetermined condition. You can check whether or not. Here, the first pre-designated condition may include a case in which the movement of the second portable terminal 103 is detected within a pre-designated time after receiving the first image.

If a motion detection tracking is requested, the second control unit 301 detects the movement of the second portable terminal 103 using the second motion detection unit 311, thereby detecting the movement of the second portable terminal 103 until the motion tracking ends. It is possible to generate a sensor change value. In addition, the second controller 301 may change the composition of the first image according to the detected motion using the image estimation technique, and may display the changed first image. Here, the image estimation technique may be said to be a technique of changing the first image by estimating a composition change of the image according to the movement of the second portable terminal 103 and reflecting the estimated composition change to the first image.

In addition, the second control unit 301 may check whether the end of motion tracking is requested by a user or a predetermined condition. Here, the second pre-designated condition may include a case where the movement of the second mobile terminal 103 is not detected within a predetermined time after the second mobile terminal 103 moves.

As a result of the confirmation, when the end of motion tracking is requested, the second controller 301 determines the sensor change value of the second motion detection unit 311 from the time the motion tracking request to the second portable terminal 103 is requested to the motion tracking end request. It is possible to generate a reference sensor change value that represents. Here, the reference sensor change value may include at least one of a reference angle change value, a reference movement direction change value, and a reference movement distance change value.

In addition, the second controller 301 may generate first photographing composition information including the generated reference sensor change value. In addition, the operation of generating the second photographing composition information will be described in more detail. The second controller 301 may check whether photographing of the third image is requested by the user. As a result of the confirmation, when a photographing of the third image is requested, the second control unit 301 may generate a third image using the second camera unit 303 and store the generated third image in the second memory unit 309.

In addition, the second control unit 301 may check whether a photographing of the fourth image is requested by the user. As a result of the verification, when a photographing of the fourth image is requested, the second control unit 301 may generate a fourth image using the second camera unit 303 and store the generated fourth image in the second memory unit 309.

In addition, the second controller 301 may compare the third image and the fourth image using an image processing technique, and may generate a reference image change value based on the comparison result. Here, the image processing technique can be regarded as a technique of extracting the difference between the third image and the fourth image based on the third image by comparing the third image and the fourth image. In addition, the reference image change value may include at least one of a reference angle change value, a reference movement direction change value, and a reference contrast change value.

In addition, the second controller 301 may generate second photographing composition information including the generated reference image change value. In addition, the second controller 301 may transmit the generated photographic composition information to the first portable terminal 101. In this case, the second controller 301 may transmit the photographing composition information through a short-range wireless communication method or a third or fourth generation mobile communication method.

4 is a flowchart of generating an image in a communication system according to an embodiment of the present invention.

Referring to FIG. 4, in operation 401, the first portable terminal 101 generates a first image using the first camera unit 203, stores the generated first image, and then proceeds to operation 403. Then, in operation 403, the first portable terminal 101 may check whether transmission of the first image is requested.

In this case, after the first image is displayed, the first portable terminal 101 may determine that transmission of the first image is requested when a specific function is requested by the user. Alternatively, the first portable terminal 101 may determine that transmission of the first image is requested when the first image is selected after a specific function is executed by the user. Here, the specific function includes an air view function or a mirror image function, and the air view function or a mirror image function transmits an image being provided or available from the first mobile terminal 101 to the second mobile terminal 103, and thus the second mobile terminal 103 You can say the function of displaying this transferred image.

As a result of the confirmation, if transmission of the first image is requested, the first portable terminal 101 proceeds to operation 405, otherwise, operation 403 may be repeatedly performed. If proceeding to operation 405, the first portable terminal 101 detects a first image from among at least one stored image, and in operation 407, transmits the detected first image to the second portable terminal 103, and in operation 409. You can proceed. In this case, the first portable terminal 101 may transmit the first image through a short-range wireless communication method or a third-generation or fourth-generation mobile communication method. Here, the short-range wireless communication method includes BT or Wifi, and the third or fourth generation mobile communication method may include 3rd Generation Partnership Project (3GPP) or Long Term Evolution (LTE).

In operation 409, the second portable terminal 103 receives the first image from the first portable terminal 101, stores the received first image, displays the stored first image, and then proceeds to operation 411. Then, in operation 411, the second portable terminal 103 may check whether a change of the photographing composition is requested by the user. Here, it can be seen that the request to change the photographing composition is a request from the first portable terminal 101 to change the photographing composition for the second image to be photographed after the first image.

As a result of the confirmation, if a change in the photographing composition is requested, the second portable terminal 103 may proceed to operation 413, otherwise, operation 411 may be repeatedly performed. If proceeding to operation 413, the second portable terminal 103 may generate photographing composition information for the photographing composition of the second image, and in operation 415, the generated photographing composition information may be transmitted to the first portable terminal 101. In this case, the second portable terminal 103 may transmit photographic composition information through a short-range wireless communication method or a third-generation or fourth-generation mobile communication method. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

And in operation 417, the first portable terminal 101 receives the photographic composition information, checks the photographic composition of the first portable terminal 101 based on the received photographic composition information, outputs the confirmation result, and proceeds to operation 419. have. In this case, when receiving the first photographing composition information, the first portable terminal 101 may check the photographing composition of the first portable terminal 101 based on a reference sensor change value included in the first photographing composition information. Alternatively, when receiving the second photographing composition information, the first portable terminal 101 may check the photographing composition of the first portable terminal 101 based on a reference image change value included in the second photographing composition information.

As a result of the confirmation, if the information on the photographing composition of the first mobile terminal 101 is the same as the photographing composition information received from the second mobile terminal 103, the first mobile terminal 101 may output a first alarm recommending photographing of an image. . In contrast, if the information on the photographing composition of the first mobile terminal 101 is different from the photographing composition information received from the second mobile terminal 103, the first mobile terminal 101 selects at least one of an image, sound, and vibration for changing the photographing composition. The included second alarm may be output.

Then, in operation 419, the first portable terminal 101 may check whether a second image is requested by the user. As a result of the confirmation, when a request for capturing the second image is requested, the first portable terminal 101 proceeds to operation 421, otherwise, operation 419 may be repeatedly performed.

If proceeding to operation 421, the first portable terminal 101 may generate a second image using the first camera unit 203 and store the generated second image.

5 is a flowchart of generating an image in a first portable terminal according to an embodiment of the present invention.

5, in operation 501, the first control unit 201 of the first portable terminal 101 generates a first image using the first camera unit 203, and stores the generated first image in the first memory unit 209. After that, it can proceed to operation 503. Here, the first image may be an image generated in the preview mode of the first camera unit 203. In addition, the preview mode may refer to a mode for displaying an image that is expected to be photographed before image capturing.

And in operation 503, the first control unit 201 may check whether transmission of the first image is requested. In this case, after the first image is displayed, the first controller 201 may determine that transmission of the first image is requested when a specific function is requested by the user. Alternatively, the first controller 201 may determine that transmission of the first image is requested when the first image is selected after a specific function is executed by the user.

Here, the specific function includes an air view function or a mirror image function, and the air view function or a mirror image function transmits an image being provided or available from the first mobile terminal 101 to the second mobile terminal 103, and thus the second mobile terminal 103 You can say the function of displaying this transferred image.

As a result of the confirmation, if transmission of the first image is requested, the first control unit 201 proceeds to operation 505, otherwise, operation 503 may be repeatedly performed. If proceeding to operation 505, the first control unit 201 detects the first image among at least one image previously stored in the first memory unit 209, transmits the detected first image to the second portable terminal 103, and then, You can proceed to operation 507. In this case, the first controller 201 may transmit the first image through a short-range wireless communication method or a third-generation or fourth-generation mobile communication method. Here, the short-range wireless communication method includes BT or Wifi, and the third or fourth generation mobile communication method may include 3GPP or LTE.

And in operation 507, the first control unit 201 receives the photographic composition information from the second portable terminal 103, checks the photographic composition of the first portable terminal 101 based on the received photographic composition information, and outputs the confirmation result, You can proceed to operation 509. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

In this case, when receiving the first photographing composition information, the first controller 201 may check the photographing composition of the first portable terminal 101 based on a reference sensor change value included in the first photographing composition information. Alternatively, when receiving the second photographing composition information, the first controller 201 may check the photographing composition of the first portable terminal 101 based on a reference image change value included in the second photographing composition information.

As a result of the confirmation, if the information on the photographing composition of the first portable terminal 101 is the same as the photographing composition information received from the second portable terminal 103, the first controller 201 may output a first alarm recommending photographing of an image. In contrast, if the information on the photographing composition of the first portable terminal 101 is different from the photographing composition information received from the second portable terminal 103, the first control unit 201 includes at least one of an image, sound, and vibration for changing the photographing composition. A second alarm can be output.

Referring to FIG. 6, an operation of outputting an alarm using the first photographing composition information will be described in more detail. In operation 601, the first control unit 201 uses the first motion detection unit 211 to move the first portable terminal 101. After the sensor change value is generated by sensing, operation 603 may be performed. Here, the sensor change value represents a sensor change value detected by the movement of the first portable terminal 101, and may include at least one of an angle change value, a movement direction change value, and a movement distance change value.

And in operation 603, the first control unit 201 detects the first photographic composition information and detects the reference sensor change value from the detected first photographic composition information by analyzing the detected first photographic composition information, and then proceeds to operation 605. I can. Here, the reference sensor change value represents a sensor change value detected by the movement of the second portable terminal 103, and may include at least one of a reference angle change value, a reference movement direction change value, and a reference movement distance change value.

And in operation 605, the first control unit 201 may compare the generated sensor change value and the reference sensor change value. As a result of the comparison, if the sensor change value and the reference sensor change value are the same, the first control unit 201 proceeds to operation 607, otherwise, it may proceed to operation 609. In this case, the first controller 201 may compare an angle change value, a movement direction change value, a movement distance change value, a reference angle change value, a reference movement direction change value, and a reference movement distance change value, respectively. As a result of the comparison, if the angle change value and the reference angle change value are the same, the movement direction change value and the reference movement direction change value are the same, and the movement distance change value and the reference movement distance change value are the same, the first controller 201 changes the sensor. It is determined that the value and the reference sensor change value are the same, otherwise, it may be determined that the sensor change value and the reference sensor change value are not the same.

If proceeding to operation 607, the first control unit 201 may output a first alarm for recommending image capture. Here, the first alarm is an alarm recommending shooting of an image, and includes at least one of an image, a sound, and a vibration, and tells the user that the shooting composition of the first mobile terminal 101 is the shooting composition desired by the user of the second mobile terminal 103. It may be to inform that.

If proceeding to operation 609, the first control unit 201 may output a second alarm recommending a change of the photographing composition for the first portable terminal 101. Here, the second alarm is an alarm that recommends changing the photographing composition for the first mobile terminal 101, and includes at least one of an image, sound, and vibration, and the photographing composition of the first mobile terminal 101 to the user is a second mobile terminal. This may be to inform that the user of 103 does not have a desired shooting composition.

The operation of outputting an alarm using the second photographing composition information will be described in more detail with reference to FIG. 7. In operation 701, the first control unit 201 compares the first preview image and the second preview image to compare the image change value. After generating and storing the generated image change value in the first memory unit 209, operation 703 may be performed. Here, the image change value represents an image change value between the first image and the second image generated in the preview mode of the first portable terminal 101, and may include at least one of an angle change value, a moving direction change value, and a contrast change value. I can. In addition, the preview mode may refer to a mode for displaying an image that is expected to be photographed before image capturing.

And in operation 703, the first control unit 201 detects the second shooting composition information and detects the reference image change value from the detected second shooting composition information by analyzing the detected second shooting composition information, and then proceeds to operation 705. I can. Here, the reference image change value represents an image change value between images generated by the second portable terminal 103, and may include at least one of a reference angle change value, a reference movement direction change value, and a reference contrast change value.

Then, in operation 705, the first control unit 201 may compare the generated image change value and the reference image change value. As a result of the comparison, if the image change value and the reference image change value are the same, the first control unit 201 may proceed to operation 707, otherwise, it may proceed to operation 709. In this case, the first controller 201 may compare an angle change value, a movement direction change value, a contrast change value, a reference angle change value, a reference movement direction change value, and a reference contrast change value, respectively. As a result of the comparison, if the angle change value and the reference angle change value are the same, the movement direction change value and the reference movement direction change value are the same, and the contrast change value and the reference contrast change value are the same, the first controller 201 It is determined that the reference image change value is the same, otherwise, it may be determined that the image change value and the reference image change value are not the same.

If proceeding to operation 707, the first control unit 201 may output a first alarm for recommending image capture. Here, the first alarm is an alarm recommending shooting of an image, and includes at least one of an image, sound, and vibration. It may be to inform that.

If proceeding to operation 709, the first control unit 201 may output a second alarm recommending a change of the photographing composition for the first portable terminal 101. Here, the second alarm is an alarm that recommends changing the photographing composition for the first mobile terminal 101, and includes at least one of an image, sound, and vibration, and the photographing composition of the first mobile terminal 101 to the user is a second mobile terminal. This may be to inform that the user of 103 does not have a desired shooting composition.

Returning to FIG. 5 again, in operation 511, the first controller 201 may check whether a second image is requested by the user. As a result of the confirmation, when a request for capturing the second image is requested, the first control unit 201 proceeds to operation 513, otherwise, operation 511 may be repeatedly performed. If proceeding to operation 513, the first control unit 201 may generate a second image using the first camera unit 203 and store the generated second image in the first memory unit 209.

8 is a flowchart of providing photographic composition information in a second portable terminal according to an embodiment of the present invention.

Referring to FIG. 8, in operation 801, the second control unit 301 of the second portable terminal 103 may check whether a first image is received from the first portable terminal 101. As a result of checking, if the first image is received, the second controller 301 proceeds to operation 803, otherwise, it may repeatedly perform operation 801.

If proceeding to operation 803, the second controller 301 may store the received first image, display the stored first image, and then proceed to operation 805. Further, in operation 805, the second control unit 301 may check whether a change of the photographing composition is requested by the user. Here, the request to change the photographing composition may be regarded as requesting a change of the photographing composition for the second image to be photographed after the first image from the first portable terminal 101. At this time, the second controller 301 changes the photographic composition when at least one of a touch input, a haptic input, a movement of the second portable terminal 103 in a selected direction, and a pressing of a specific button of the second portable terminal 103 are selected by the user. You can decide that this is requested.

As a result of the confirmation, if a change in the photographing composition is requested, the second control unit 301 proceeds to operation 807, otherwise, operation 805 may be repeatedly performed. If proceeding to operation 807, the second controller 301 may generate photographing composition information for the photographing composition of the second image, and then proceed to operation 809. Here, the photographing composition information includes information for changing the photographing composition of the first mobile terminal 101, and the first photographing composition information and the first photographing composition information including a reference sensor change value indicating a change value for the movement of the second mobile terminal 103 2 It may be classified as second photographing composition information including a reference image change value indicating a change value between images captured by the mobile terminal 103.

The operation of generating the first photographing composition information will be described in more detail with reference to FIG. 9. In operation 901, the second control unit 301 controls the user of the second mobile terminal 103 or the second mobile terminal 103 according to a predetermined condition. It is possible to check whether or not motion tracking is requested. Here, the first pre-designated condition may include a case in which the movement of the second portable terminal 103 is detected within a pre-designated time after receiving the first image.

If a motion detection tracking is requested, the second controller 301 proceeds to operation 903, otherwise, operation 901 may be repeatedly performed. If the operation proceeds to operation 903, the second control unit 301 detects the movement of the second mobile terminal 103 using the second movement detection unit 311, thereby detecting the movement of the second mobile terminal 103 until the motion tracking ends. After generating the change value, it is possible to proceed to operation 905. In operation 905, the second controller 301 may change the composition of the first image according to the motion detected using the image estimation technique, display the changed first image, and then proceed to operation 907. Here, the image estimation technique may be said to be a technique of changing the first image by estimating a composition change of the image according to the movement of the second portable terminal 103 and reflecting the estimated composition change to the first image.

Further, in operation 907, the second control unit 301 may check whether the end of motion tracking is requested by the user or a predetermined condition. Here, the second pre-designated condition may include a case where the movement of the second mobile terminal 103 is not detected within a predetermined time after the second mobile terminal 103 moves.

As a result of the confirmation, if the end of motion tracking is requested, the second control unit 301 proceeds to operation 909, otherwise, operation 907 may be repeatedly performed.

If proceeding to operation 909, the second control unit 301 generates a reference sensor change value indicating the sensor change value of the second motion detection unit 311 from the time the motion tracking request to the second portable terminal 103 is requested to the motion tracking end request. After that, you can proceed to operation 911. Here, the reference sensor change value may include at least one of a reference angle change value, a reference movement direction change value, and a reference movement distance change value.

Further, in operation 911, the second controller 301 may generate first photographing composition information including the generated reference sensor change value.

The operation of generating the second photographing composition information will be described in more detail with reference to FIG. 10. In operation 1001, the second control unit 301 may check whether photographing of a third image is requested by the user. As a result of the confirmation, when a request for capturing a third image is requested, the second controller 301 may proceed to operation 1003, otherwise, may proceed to operation 1001.

If proceeding to operation 1003, the second control unit 301 generates a third image using the second camera unit 303, stores the generated third image in the second memory unit 309, and then proceeds to operation 1005. have.

Further, in operation 1005, the second controller 301 may check whether a photographing of the fourth image is requested by the user. As a result of the confirmation, when a request for capturing the fourth image is requested, the second control unit 301 may proceed to operation 1007, otherwise, may proceed to operation 1005.

If proceeding to operation 1007, the second control unit 301 generates a fourth image using the second camera unit 303, stores the generated fourth image in the second memory unit 309, and then proceeds to operation 1009. have.

In operation 1009, the second controller 301 may compare the third image and the fourth image using an image processing technique, generate a reference image change value based on the comparison result, and then proceed to operation 1011. Here, the image processing technique can be regarded as a technique of extracting the difference between the third image and the fourth image based on the third image by comparing the third image and the fourth image. In addition, the reference image change value may include at least one of a reference angle change value, a reference movement direction change value, and a reference contrast change value.

Further, in operation 1011, the second controller 301 may generate second photographing composition information including the generated reference image change value.

Returning to FIG. 8 again, in operation 809, the second controller 301 may transmit the generated photographic composition information to the first portable terminal 101. In this case, the second controller 301 may transmit the photographing composition information through a short-range wireless communication method or a third or fourth generation mobile communication method.

11 is a diagram illustrating a screen notifying a change in a photographing composition according to the first embodiment of the present invention.

Referring to FIG. 11, screen 1101 will be a screen showing that the second portable terminal 103 is moved by the user of the second portable terminal 103. In this case, when the screen displaying the first image is touched by the user, the second portable terminal 103 may determine that the motion tracking of the second portable terminal 103 is requested. In addition, the second portable terminal 103 may generate first photographing composition information including a reference sensor change value according to the movement of the second portable terminal 103, and transmit the generated first photographing composition information to the first portable terminal 101.

In addition, screen 1103 will be a screen showing that the first portable terminal 101 is moved by the user of the first portable terminal 101. At this time, the first portable terminal 101 generates a sensor change value according to the movement of the first portable terminal, and compares the generated sensor change value with the reference sensor change value included in the first photographing composition information. It is possible to check whether the photographing composition is a photographing composition desired by the user of the second portable terminal 103.

In addition, the screen 1105 will be a screen in which the first portable terminal 101 displays an arrow 1107 recommending a change in the photographing composition. At this time, if the sensor change value and the reference sensor change value are not the same, the first mobile terminal 101 determines the movement direction of the first mobile terminal 101 based on the reference sensor change value, and displays an arrow 1107 indicating the determined movement direction. I can. In this case, the first portable terminal 101 may inform the user of the first portable terminal 101 of the direction and angle of a desired photographic composition change using at least one of a pop-up window, vibration, and sound, as well as arrow 1107.

12 is a diagram illustrating a screen notifying a change in a photographing composition according to a second embodiment of the present invention.

Referring to FIG. 12, screen 1201 is a diagram showing a third image generated by the second mobile terminal 103 using the front camera unit of the second mobile terminal 103, and screen 1203 shows the second mobile terminal 103 and the second mobile terminal. FIG. 103 is a diagram illustrating a fourth image generated using the front camera unit of FIG. 103.

Thereafter, the second portable terminal 103 generates a reference image change value representing the difference between the third image and the fourth image using an image processing technique, and provides second photographing composition information including the generated reference image change value. 1 Can be transmitted to the mobile terminal 101.

In addition, when receiving the second photographing composition information, the first portable terminal 101 may generate an image change value indicating an image difference between the first preview image and the second preview image using an image processing technique. In addition, the first portable terminal 101 may determine whether the photographing composition of the first portable terminal 101 is a photographing composition desired by the user of the second portable terminal 103 by comparing the image change value and the reference image change value.

In addition, screen 1205 will be a screen on which the first portable terminal 101 outputs an image recommending image capture. In this case, if the image change value and the reference image change value are the same, the first portable terminal 101 may display a square image such as 1207 and output a vibration to recommend image capture to the user. In this case, the first portable terminal 101 may inform the user of the first portable terminal 101 of the recommendation of image capture by using at least one of a pop-up window and a sound, as well as a square image 1207 and vibration.

By performing the above-described operation, the present disclosure transmits photographic composition information from the electronic device of the image take-up to the electronic device of the image take-up, so that the image may be captured in a composition desired by the image take-up when taking the image. In addition, the present description outputs a composition desired by an image subject as an alarm using photographic composition information, so that an image can be captured in a composition desired by the image subject at the time of image capturing.

The method of controlling the composition of a photograph in an electronic device of the present invention can be implemented as a computer-readable code on a computer-readable recording medium. The computer-readable recording medium may include all types of recording devices storing data that can be read by a computer system. Examples of the recording medium include ROM, RAM, optical disk, magnetic tape, floppy disk, hard disk, non-volatile memory, and the like, and may also include a carrier wave (for example, transmission through the Internet). . In addition, the computer-readable recording medium can be distributed over a computer system connected through a network to store and execute computer-readable codes in a distributed manner.

In the above description of the present invention, a specific embodiment such as a portable terminal has been described, but various modifications may be implemented without departing from the scope of the present invention. Therefore, the scope of the patent of the present invention is not determined by the above-described embodiments, and it will be apparent that the scope of the patent as well as the claims is not limited. For example, although the present invention has described photographing an image based on photographic composition information for photographing an image, the present invention is not limited thereto. In more detail, the present invention generates photographic composition information for video recording, and displays an alarm indicating the composition desired by the photographee based on the generated photographic composition information, thereby inducing the composition of the portable terminal using the alarm. I can.

Expressions such as “includes,” “may include” and the like that may be used in the present disclosure refer to the existence of the disclosed corresponding functions, operations, and components, and do not limit one or more additional functions, operations, and components. In addition, in the present disclosure, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more It is to be understood that other features or possibilities of the presence or addition of numbers, steps, actions, components, parts, or combinations thereof are not preliminarily excluded.

In the present disclosure, expressions such as “or” include any and all combinations of words listed together. For example, "A or B" may include A, may include B, or may include both A and B.

In the present disclosure, expressions such as “first,” “second,” “first,” and “second” may modify various elements of the present disclosure, but do not limit the corresponding elements. For example, the expressions do not limit the order and/or importance of corresponding elements. The above expressions may be used to distinguish one component from another component. For example, a first user device and a second user device are both user devices and represent different user devices. For example, without departing from the scope of the present disclosure, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element.

When a component is referred to as being "connected" or "connected" to another component, it is understood that it may be directly connected or connected to the other component, but other components may exist in the middle. It should be. On the other hand, when a component is referred to as being "directly connected" or "directly connected" to another component, it should be understood that there is no other component in the middle.

The terms used in the present disclosure are used only to describe specific embodiments, and are not intended to limit the present disclosure. Singular expressions include plural expressions unless the context clearly indicates otherwise.

Unless otherwise defined, all terms used herein including technical or scientific terms have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in the present disclosure. Does not.

The electronic device according to the present disclosure may include at least one of the above-described portable terminal, an image collection device or an image acquisition device described below. According to an embodiment, the image collecting device or the image capturing device described below may be at least a part of an electronic device. The electronic device described above may be a device having at least one of a camera function or a communication function. For example, electronic devices include smart phones, tablet personal computers (PCs), mobile phones, video phones, e-book readers, desktop personal computers (desktop personal computers), and laptops. Laptop personal computer (PC), netbook computer, personal digital assistant (PDA), portable multimedia player (PMP), MP3 player, mobile medical device, camera, or wearable device (e.g.: It may include at least one of a head-mounted-device (HMD) such as electronic glasses, electronic clothing, electronic bracelets, electronic bands, electronic necklaces, other electronic accessories, or smartwatches.

According to some embodiments, the electronic device may be a smart home appliance having at least one of a camera function or a communication function. Smart home appliances, for example, include televisions, digital video disk (DVD) players, audio, refrigerators, air conditioners, vacuum cleaners, ovens, microwave ovens, washing machines, air purifiers, set-top boxes, and TVs. It may include at least one of a box (eg, Samsung HomeSync™, Apple TV™, or Google TV™), game consoles, electronic dictionary, electronic key, camcorder, or electronic frame.

According to some embodiments, the electronic device includes various medical devices (eg, magnetic resonance angiography (MRA), magnetic resonance imaging (MRI), computed tomography (CT)), an imager, an ultrasound device, etc.), a navigation device, and a GPS receiver. (global positioning system receiver), EDR (event data recorder), FDR (flight data recorder), automobile infotainment device, marine electronic equipment (e.g. marine navigation equipment and gyro compass, etc.), avionics, It may include at least one of a security device, or an industrial or domestic robot.

According to some embodiments, the electronic device is a furniture or part of a building/structure including at least one of a camera function or a communication function, an electronic board, an electronic signature receiving device, a projector. It may include at least one of (projector) or various measuring devices (eg, water, electricity, gas, or radio waves). The electronic device according to the present disclosure may be a combination of one or more of the aforementioned various devices. In addition, it is obvious to those skilled in the art that the electronic device according to the present disclosure is not limited to the above-described devices.

Hereinafter, electronic devices according to various embodiments will be described with reference to the accompanying drawings. The term user used in various embodiments may refer to a person using an electronic device or a device (eg, an artificial intelligence electronic device) using an electronic device.

13 is a block diagram of an image operation system including an electronic device related to image acquisition according to various embodiments of the present disclosure.

Referring to FIG. 13, according to an embodiment, an image operation system includes an image acquisition control device 1300 (eg, a portable terminal or electronic device), an image collection device 1401, 1402 (eg, a portable terminal or the aforementioned electronic device), and the like. It may include a server device 1403 and a network 162. Here, the image collection device 1401 may be a single device. Also, the image collection device 1401 may be a part of an electronic device including an image collection function. In addition, the image acquisition device 1300 may also be a single device, and some of the electronic devices may support image acquisition and processing.

In the above-described image operation system, the network 162 may establish a communication channel between the image acquisition control device 1300 and the image collection device 1402. The network 162 may include, for example, network device elements related to the formation of a mobile communication channel. Alternatively, the network 162 may include network device elements related to the establishment of an Internet communication channel. The network 162 includes a reference image between the image acquisition control device 1300 and the image acquisition device 1402 (e.g., at least one of a preview image or a captured image collected by the image acquisition device 1402), and guide change information (a reference displayed on the display of the image acquisition control device 1300). It is possible to support transmission of at least one of information related to guide change) and an acquired image (eg, a preview image or a captured image collected by the image collection device 1402 based on the guide change information). In addition, the network 162 transmits the matrix guide (eg: an image obtained by dividing the display of the image acquisition control device 1300 into a plurality of regions) of the image acquisition control device 1300 to the image collection device 1402, and the image acquisition device 1402 is based on the matrix guide. The generated group image (eg, a plurality of acquired images arranged in regions designated in the matrix guide) may be transmitted to the image acquisition control device 1300. Here, the matrix guide may include an arrangement guide for designating an arrangement position of a plurality of consecutive or non-contiguous acquired images.

The server device 1403 may establish a communication channel with the image acquisition control device 1300 or the image collection device 1402 through the network 162. The server device 1403 may be operated when it is designed to perform data transmission/reception required for a photographing composition control function described in various embodiments based on a server. In this regard, the server device 1403 may perform data processing according to a situation while receiving, storing, and transmitting data transmitted/received between the image acquisition control device 1300 or the image collection device 1402. For example, when the applied data quality is different according to the difference in hardware characteristics between the image acquisition control device 1300 and the image acquisition device 1402, the server device 1403 may match the corresponding data quality. For example, the server device 1403 may perform at least one of resolution adjustment, size adjustment, and image processing of the reference image, the acquired image, and the group image.

The server device 1403 may control to transmit the reference image acquired by the image collection device 1402 to the image acquisition control device 1300. In this operation, the server device 1403 may temporarily store the reference image. The server device 1403 may transmit the acquired image collected by the image acquisition device 1402 to the image acquisition control device 1300 in response to a request from the image acquisition control device 1300. According to an embodiment, the server device 1403 includes a second reference guide (for example, a specific image displayed on the display of the image collection device 1402) and a second change guide (for example, a second change guide displayed on the display of the image collection device 1402). The acquired image (e.g., at least one of a preview image or a captured image) collected in a state in which the reference guide's arrangement state (e.g., at least one of the position, direction, size, and color) has changed One) may be transmitted to the image acquisition control device 1300.

According to various embodiments of the present disclosure, when the matrix guide is operated, the server device 1403 may transmit the matrix guide generated by the image acquisition control device 1300 to the image collection device 1402. The server device 1403 may receive an acquired image (at least one of a preview image or a captured image) collected by the image collection device 1402 based on the matrix guide, and generate a group image corresponding to the matrix guide based on the received acquired image. have. When the group image is generated, the server device 1403 may provide the group image to the image acquisition control device 1300.

The image collection device 1401 may establish a communication channel with the communication interface 1360 of the image acquisition control device 1300. For example, the image collection device 1401 may form a short-range communication channel or a wired communication channel with the communication interface 1360. According to an embodiment, the image collection device 1401 may form a communication interface 1360 and a BT communication channel or a Wifi direct communication channel. The image collection device 1401 may display a change guide in which an arrangement state of the reference guide displayed on the display is changed based on the guide change information provided by the image acquisition control device 1300. According to various embodiments, the image collection device 1401 may be provided as a wearable type.

The image collection device 1402 may establish a communication channel with the image acquisition control device 1300 through the network 162. For example, the image collection device 1402 may include a cellular communication module and may form a mobile communication channel with the image acquisition control device 1300. Alternatively, the image collection device 1402 may include a Wifi communication module, and may form a mobile communication channel with the image acquisition control device 1300. The image collection device 1402 may perform an operation similar to or the same as the image collection device 1401 based on a communication channel formed by the image collection device 1401 and a different type of communication channel in relation to the photographing composition control function.

According to various embodiments, the image collection devices 1401 and 1402 may acquire a reference image including at least one of a preview image or a captured image in relation to a shooting composition control function, and transmit the acquired reference image to the image acquisition control device 1300. have. The image collection devices 1401 and 1402 are the second reference guides corresponding to the first reference guide of the image acquisition control device 1300 (eg, a certain image displayed on the image acquisition control device 1300 in connection with the shooting composition control). In connection, a certain image displayed on the reference image) may be displayed on the display. According to an embodiment, the image collection devices 1401 and 1402 synchronize the second reference guide with the first reference guide (eg: the position, angle, and size of the first reference guide output from the image acquisition control device 1300 are identical or similar. Can be placed). According to various embodiments of the present disclosure, the image collection devices 1401 and 1402 may display the second reference guide at a designated position on the reference image. The image collection devices 1401 and 1402 may transmit the second reference guide information together with the reference image to the image acquisition control device 1300.

According to various embodiments of the present disclosure, when receiving guide change information from the image acquisition control device 1300, the image collection devices 1401 and 1402 select one of a position, a rotation angle (or direction), a color, and a size of the second reference guide based on the guide change information. A second change guide in which at least one is changed may be output. The second change guide may be, for example, an image or text displayed differently from a previous state in which at least one of the position, rotation angle, or size of the second reference guide is different from the previous state (eg, the displayed second reference guide having a specific position, rotation angle and size). have. The displayed second change guide may be displayed by changing at least one of a position, a direction (or angle), or a size in response to a change in the photographing composition of the image collection devices 1401 and 1402. According to an embodiment, in order to induce matching between the second change guide and the second reference guide (eg, a line or image arranged at a designated position on the display), the image collection devices 1401 and 1402 At least one of an indication image, audio data related to the indication, and a haptic pattern related to the indication) may be output.

According to an embodiment, when the second change guide matches (or is arranged similarly) to the second reference guide, the image collection devices 1401 and 1402 may display a designated method (eg, highlight or blink, or a designated color or designated image). Display). According to an embodiment, when the photographing composition is changed according to the movement of the device and the second change guide matches (or is arranged similarly) to the second reference guide, the image collection devices 1401 and 1402 Can be printed. According to an embodiment, the image collection devices 1401 and 1402 may automatically capture an image when a time when the second change guide coincides (or is similarly arranged) with the second reference guide exceeds a specified time.

When the photographing composition changes in response to the movement of the device, the image collection devices 1401 and 1402 may transmit a preview image collected in response thereto to the image acquisition control device 1300 in real time or at a predetermined period. Alternatively, the image acquisition devices 1401 and 1402 may transmit only information on the second change guide to the image acquisition control device 1300. When the second change guide and the second reference guide are matched (or arranged similarly) without transmitting a separate preview image and a captured image is acquired, the image collection devices 1401 and 1402 transmit the acquired captured image to the image acquisition control device 1300. Can be transmitted.

The image acquisition control device 1300 and the image acquisition device 1401 or 1402 may change the photographing composition of the image acquisition device 1401 or 1402 based on the guide change information. For example, the image acquisition control device 1300 receives and outputs a reference image from the image acquisition devices 1401 and 1402, but the first reference guide (eg, screen A command line or a command image, a border image, text, and a server device 1403 in which the screen is divided by a certain area, etc.) may be outputted to a certain location. The first reference guide may be output according to a setting of the image acquisition control device 1300 or may be synchronized with a second reference guide provided by the image collection devices 1401 or 1402.

The image acquisition control device 1300 corresponds to a received input (for example, a touch event of touching a certain area of the screen or a touch event related to control such as moving, rotating, or changing the size of the first reference guide on the display). Guide change information (or photographic composition information) can be generated. In this operation, the image acquisition control device 1300 may output, on the display 1350, a first change guide in which the arrangement state of the first reference guide is changed according to the guide change information. The image acquisition control device 1300 may transmit the generated guide change information to at least one of the image collection devices 1401 and 1402.

According to various embodiments, the image acquisition control device 1300 changes the state of the device in connection with a change of the first reference guide (eg, movement of the image acquisition control device 1300 in connection with a movement, rotation, color, or size change of the first reference guide). ) Occurs, information related to the state change can be collected as photographic composition information. For example, the image acquisition control device 1300 may collect sensor values when movement of the device (eg, movement in the front, rear, left, right, vertical, diagonal directions or rotation) occurs in connection with a state change. The image acquisition control device 1300 may transmit the corresponding sensor value to the image collection devices 1401 and 1402 as guide change information (or photographic composition information). According to various embodiments of the present disclosure, when an event related to a reference guide change occurs and a change guide is displayed, the image acquisition control device 1300 may extract an image change value between the reference guide and the change guide. The image acquisition control device 1300 may transmit the image change value as guide change information (or photographic composition information) to the image collection devices 1401 and 1402.

The image acquisition control device 1300 and the image acquisition device 1401 or 1402 are classified in terms of a control function and a collection function in relation to the shooting composition control function, and each device simultaneously or individually performs at least one of an image acquisition control function and an image collection function. You can do it.

Referring to FIG. 13, the image acquisition control device 1300 includes a bus 1310, a processor 1320 (eg, a first control unit 201 or a second control unit 301), a memory 1330 (a first memory unit 209 or a second memory unit 309), and an input/output interface. 1340 (e.g., first display unit 205, second display unit 305, first input unit 207, second input unit 307), display 1350 (e.g., first display unit 205, second display unit 305), communication interface 1360 (e.g., first RF Part 213, second RF unit 313, first data processing unit 215, second data processing unit 315, first sound processing unit 217, second sound processing unit 317, first short-range communication unit 219, second short-range communication unit 319), first data processing Module 1370 (eg, first control unit 201 or second control unit 301), first camera module 1380 (eg, first camera unit 203 or second camera unit 303), first sensor module 1390 (eg, first motion detection unit) 211 or a second motion detection unit 311) may be included. According to various embodiments of the present disclosure, like the image acquisition control device 1300, the image collection device 1401 or 1402 may include a bus, a processor, a memory, an input/output interface, a display, and a communication interface. In addition, the image collection device 1401 or 1402 may include a second data processing module, a second camera module, and a second sensor module.

The bus 1310 may be a circuit that connects the above-described components to each other and transmits communication (eg, control messages, input events, data, etc.) between the above-described components. For example, the bus 1310 may transmit an input signal input through the input/output interface 1340 to at least one of the processor 1320 or the first data processing module 1370. The bus 1310 may transmit the reference image received through the communication interface 1360 to at least one of the memory 1330, the display 1350, the processor 1320, or the first data processing module 1370. The bus 1310 may transfer the reference image stored in the memory 1330 to the display 1350 in response to the control of the first data processing module 1370. The bus 1310 may transmit reference guide information provided by the image collection devices 1401 and 1402 to the first data processing module 1370. According to an embodiment, the bus 1310 may receive an event corresponding to guide change information for changing the first reference guide from the input/output interface 1340 or the display 1350 and transmit it to the first data processing module 1370. The bus 1310 may transfer the acquired image or group image received from the image collection devices 1401 and 1402 to at least one of the memory 1330, the first data processing module 1370, and the display 1350.

The processor 1320 may include, for example, the other components described above through the bus 1310 (eg, the memory 1330, the input/output interface 1340, the display 1350, the communication interface 1360, or the first data processing module 1370, etc.). ), it is possible to decode the received instruction, and perform an operation or data processing according to the decoded instruction. The processor 1320 may be provided in a form including the first data processing module 1370 or provided in a form independent from the first data processing module 1370, and may be provided in a form that performs communication based on the bus 1310 or directly. .

The memory 1330 may be received from the processor 1320 or other components (eg, the input/output interface 1340, the display 1350, the communication interface 1360, or the first data processing module 1370, etc.), or the processor 1320 or other components You can store commands or data generated by them. The memory 1330 may include programming modules such as a kernel 1131, middleware 1132, an application programming interface (API) 1133 or an application 1134, for example. Each of the above-described programming modules may be composed of software, firmware, hardware, or a combination of at least two or more of them.

The kernel 1131 includes system resources (e.g., the bus 1310, the processor 1320) used to execute an operation or function implemented in the other programming modules, for example, the middleware 1132, the API 1133, or the application 1134. Alternatively, the memory 1330, etc.) may be controlled or managed. In addition, the kernel 1131 may provide an interface through which the middleware 1132, the API 1133, or the application 1134 can access and control or manage individual components of the image acquisition control device 1300.

The middleware 1132 may serve as an intermediary so that the API 1133 or the application 1134 communicates with the kernel 1131 to exchange data. In addition, the middleware 1132 in relation to the job requests received from the application 1134, for example, to at least one application of the application 1134 system resources of the image acquisition control device 1300 (for example, the bus 1310, the processor Control (eg, scheduling or load balancing) on a work request may be performed by using a method such as assigning a priority to use 1320 or the memory 1330, or the like.

The API 1133 is an interface for the application 1134 to control functions provided by the kernel 1131 or the middleware 1132, for example, at least one interface or function for file control, window control, image processing or text control, etc. (Example: command) can be included.

According to various embodiments, the application 1134 is an SMS/MMS application, an email application, a calendar application, an alarm application, a health care application (eg, an application that measures exercise amount or blood sugar), or an environmental information application (eg: An application that provides information on atmospheric pressure, humidity, or temperature), etc. may be included. Additionally or alternatively, the application 1134 may be an application related to information exchange between the image acquisition control device 1300 and an external electronic device (eg, image acquisition devices 1401 and 1402). The application related to the information exchange may include, for example, a notification relay application for delivering specific information to the external electronic device, or a device management application for managing the external electronic device. I can.

For example, the notification delivery application transmits notification information generated from another application (eg, SMS/MMS application, e-mail application, health management application, environment information application, etc.) of the image acquisition control device 1300 to an external electronic device (eg, an image). It may include a function of transmitting to the collection device 1401, 1402). Additionally or alternatively, the notification delivery application may receive notification information from an external electronic device (eg, image collection devices 1401 or 1402) and provide the notification information to the user. The device management application includes, for example, a function for at least a part of an external electronic device (eg, an image collection device 1401, 1402) communicating with the image acquisition control device 1300 (eg, the external electronic device itself (or a partial configuration). Manage (e.g., call service or message service) an application running on the external electronic device or a service (e.g., a call service or a message service) provided by the external electronic device or an application that operates on the external electronic device or adjusts the brightness (or resolution) of the display) Can be installed, deleted or updated).

According to various embodiments of the present disclosure, when the external electronic device is an MP3 player, the application 1134 may include an application related to music playback. Similarly, when the external electronic device is a mobile medical device, the application 1134 may include an application related to health management. According to an embodiment, the application 1134 may include an application related to a photographing composition control function of the apparatus 1300 for controlling image acquisition.

According to various embodiments, the memory 1330 may store at least one of a reference image, an acquired image, and a group image. The memory 1330 may store first reference guide information. According to various embodiments of the present disclosure, a memory in the image collection device may store at least one of a reference image, an acquired image, and a group image, and second reference guide information. Also, the memory 1330 may temporarily store guide change information. The guide change information may include at least one of a touch event related to a reference guide change, a sensor value, and an image change value.

The input/output interface 1340 may receive commands or data input from a user through an input/output device (eg, a sensor, a keyboard, or a touch screen), for example, the processor 1320, the memory 1330, and the communication interface 1360 through the bus 1310. Alternatively, it may be transmitted to the first data processing module 1370. For example, the input/output interface 1340 may provide an event for a touch input through a touch screen (eg, a touch event related to a reference guide change) to the processor 1320. In addition, the input/output interface 1340 may transmit commands or data received from the processor 1320, the memory 1330, the communication interface 1360, or the first data processing module 1370 through the bus 1310. : Can be output through speaker or display). According to various embodiments, the input/output interface 1340 may include a physical key button (eg, a home key, a side key, a power key, etc.), a jog key, a keypad, and the like. The input/output interface 1340 may include a virtual keypad output on the display 1350 as an input device.

According to various embodiments, the input/output interface 1340 may perform a function related to audio processing. In this regard, the input/output interface 1340 may include a singular number or a plurality of at least one of a speaker and a microphone. The input/output interface 1340 may output audio data related to a screen output to the display 1350 through a speaker, for example, according to the control of the first data processing module 1370. The audio data output of the input/output interface 1340 described above may be omitted in response to a user setting or whether the image acquisition control device 1300 is supported.

The display 1350 may display various types of information (eg, multimedia data or text data). For example, the display 1350 may output a lock screen, a standby screen, and the like. The display 1350 may output a specific function execution screen, such as a sound source playback application execution screen, a video playback app execution screen, and a broadcast reception screen, in response to the function execution. According to an embodiment, the display 1350 may output a reference image received from the image collection devices 1401 and 1402. Here, the reference image may be a corresponding captured image (eg, a still image) when the image collection devices 1401 and 1402 transmit the captured image. Alternatively, the reference image may be a corresponding preview image when the image collection devices 1401 and 1402 transmit the preview image in real time.

The display 1350 may output a first reference guide (a reference guide provided by the image acquisition control device 1300 or a reference guide generated based on reference guide information provided by the image acquisition devices 1401 and 1402) on the image on which the reference image is output. have. The display 1350 may output a first change guide in which at least one of the position, direction (or angle), color, and size of the first reference guide is changed in response to a touch event or a movement of the device. After transmitting the guide change information, the display 1350 may output an acquired image provided by the image collection devices 1401 and 1402. Also, the display 1350 may output a group image corresponding to the matrix guide. According to various embodiments, the image collection devices 1401 and 1402 include a display, and include a reference image, a second reference guide (eg, an image synchronized with the first reference guide), and a second change guide (eg, a second reference guide). At least one of an image in which the arrangement state of is changed), an acquired image, and a group image may be output.

The communication interface 1360 may connect communication between the image acquisition control device 1300 and an external device (eg, at least one of an image acquisition device 1401, 1402, and a server device 1403). For example, the communication interface 1360 may be connected to a network 162 through wireless communication or wired communication to communicate with the external device. The wireless communication, for example, Wifi (wireless fidelity), BT (Bluetooth), NFC (near field communication), GPS (global positioning system) or cellular communication (e.g., LTE, LTE-A, CDMA, WCDMA, UMTS , WiBro or GSM, etc.). The wired communication may include, for example, at least one of a universal serial bus (USB), a high definition multimedia interface (HDMI), a recommended standard 232 (RS-232), or a plain old telephone service (POTS).

According to an embodiment, the network 162 may be a telecommunications network. The communication network may include at least one of a computer network, the Internet, the Internet of things, and a telephone network. According to an embodiment, a protocol for communication between the image acquisition control device 1300 and an external device (eg, transport layer protocol, data link layer protocol, or physical layer protocol) is an application 1134, an application programming interface 133, and the middleware 1132, It may be supported by at least one of the kernel 1131 or the communication interface 1360.

The communication interface 1360 may include a plurality of communication modules when the image acquisition control apparatus 1300 supports a plurality of communication methods. For example, the image acquisition control device 1300 may include a communication module capable of directly forming a communication channel with the image collection device 1401, for example, a short-range communication module or a direct communication module. The short-range communication module or the direct communication module may include at least one of various communication modules such as a Wifi-direct (Wi-Fi direct) communication module, a BT communication module, and a ZigBee communication module. In addition, the direct communication module may include a wired communication module such as a cable.

According to an embodiment, the communication interface 1360 may transmit and receive data related to a photographing composition control function with at least one of the image collection device 1401 or 1402. The communication interface 1360 may transmit at least one of the received reference image, reference guide information, an acquired image, and a group image to the first data processing module 1370. The communication interface 1360 may transmit guide change information related to the reference guide change to the image collection device 1401 or 1402 or the server device 1403 in response to the control of the first data processing module 1370.

The first camera module 1380 (eg, the first camera unit 203 or the second camera unit 303) may collect an image. According to various embodiments, the apparatus 1300 for controlling image acquisition may not include the first camera module 1380. However, when the image acquisition control device 1300 is operated as the image collection devices 1401 and 1402, the first camera module 1380 may collect at least one of a reference image, an acquired image, and a group image according to control of an external electronic device.

The first sensor module 1390 may collect sensor values related to the motion of the image acquisition control device 1300. For example, the first sensor module 1390 may include an acceleration sensor, and may collect information on a predetermined distance that moves in at least one of the front and rear, left and right, up and down, and diagonal directions of the image acquisition control device 1300. The sensor value collected by the first sensor module 1390 may be provided to the image collection devices 1401 and 1402 as guide change information (or photographic composition information).

The first data processing module 1370 processes at least some of the information obtained from other components (eg, the processor 1320, the memory 1330, the input/output interface 1340, the communication interface 1360, etc.), and performs various methods. You can print it out. For example, the first data processing module 1370 may control the formation of a communication channel with the image collection devices 1401 and 1402 in connection with a shooting composition control function. Here, the first data processing module 1370 operates a fixedly allocated communication channel (e.g., a fixed channel for transmitting and receiving data related to shooting composition control) in relation to the shooting composition control function described in various embodiments, or a shooting composition control function. A communication channel temporarily formed in the context of transmission or reception of data related to operation (eg, a dynamic channel formed temporarily related to data transmission or reception and returned when the task is completed) can be operated.

According to various embodiments of the present disclosure, at least one of the image collection devices 1401 and 1402 may include a second data processing module and may support processing of a control signal related to a photographing composition control function, processing of data, and the like. As mentioned above, the image collection devices 1401 and 1402 may include components similar to the image acquisition control device 1300.

14 is a configuration diagram of a first data processing module of an apparatus for controlling image acquisition according to various embodiments of the present disclosure.

Referring to FIG. 14, the first data processing module 1370 may include a first image processing module 1371, a guide operation module 1373, and a sensor operation module 1375.

The first image processing module 1371 may process at least one of a reference image, a first reference guide, a first change guide, an acquired image, and a group image. For example, the first image processing module 1371 has a setting related to the shooting composition control function or an event related to execution of the shooting composition control function (e.g., selecting an icon or menu assigned in relation to the shooting composition control function, or image collection devices 1401, 1402). When a communication channel formation request event related to the photographing composition control function) occurs, a communication channel may be established with the image collection devices 1401 and 1402. When a reference image is received from the image collection devices 1401 and 1402, the first image processing module 1371 may control to be temporarily stored in the memory 1330 or output to the display 1350. When the reference image is a continuous preview image, the first image processing module 1371 may control the continuous preview image to be output in real time. When the image collection devices 1401 and 1402 transmit the preview image at a predetermined period, the first image processing module 1371 may control the preview image received at the predetermined period to be output to the display 1350. When a captured image is received as a reference image, the first image processing module 1371 may control a captured image (eg, a still image) to be output on the display 1350. The first image processing module 1371 may request the guide operation module 1373 to output a reference guide to the display 1350 on which the reference image is displayed.

According to various embodiments of the present disclosure, the first image processing module 1371 may control the matrix guide to be output on the display 1350 according to a setting or in response to a menu selection. The first image processing module 1371 may arrange a reference image in a partial area of the matrix guide (eg, a central area of the matrix guide). In this operation, the first image processing module 1371 may adjust (eg, reduce) the size of the reference image and arrange it. When a group image corresponding to the matrix guide is received, the first image processing module 1371 may control the group image to be output to the display 1350. In this operation, the matrix guide may be disposed on the group image (eg, the upper layer). When a specific point of the group image is selected, the first image processing module 1371 may control an image of the selected point to be output as a full screen. The first image processing module 1371 may adjust the arrangement state of the group image according to the drag event.

The guide operation module 1373 may control the display 1350 to output the first reference guide. For example, the guide operation module 1373 displays the first reference guide on the display 1350 when a reference image is displayed on the display 1350, when an event related to the shooting composition control function occurs, or when a communication channel is formed with the image collection devices 1401 and 1402. It can be controlled to output. The guide operation module 1373 may control the first reference guide stored in the memory 1330 to be output to a predetermined position of the display 1350. For example, the guide operation module 1373 may arrange the first reference guide such that a certain point (eg, a center point) of the first reference guide coincides with (or is similarly disposed) a certain position (eg, a center point) of the display 1350.

The guide operation module 1373 may receive an input event (eg, a touch event) from the display 1350 or the input/output interface 1340. The guide operation module 1373 may change the position of the first reference guide in the display 1350 according to an input event. For example, the guide operation module 1373 is changed so that when a touch event (for example, a tap event) occurs at a certain point of the display 1350, the first change guide (the center point of the first reference guide is associated (for example, coincides) with the touch point). Guide) can be controlled to be output. Alternatively, when a drag event occurs, the guide operation module 1373 may control to output a first change guide (a guide in which the first reference guide is moved in response to the drag event). Alternatively, when a directional touch event having a specific directionality (for example, a drag event to draw an arc) occurs, the guide operation module 1373 generates a first change guide (a guide in which the first reference guide is rotated or the angle is changed according to the directional touch event). It can be controlled to be output. Alternatively, when a scaling touch event related to size adjustment (eg, pinch zoom-in, pinch zoom-out, multi-touch move event, etc.) occurs, the guide operation module 1373 Adjusted size guide) can be controlled to be output.

According to various embodiments, the guide operation module 1373 may receive a sensor value from the sensor operation module 1375. The guide operation module 1373 may extract at least one of a position, a direction (or angle), or a size of the first reference guide in response to the sensor value, and generate guide change information based on the extracted values. The guide operation module 1373 may transmit guide change information (eg, sensor value) to the image collection devices 1401 and 1402.

According to various embodiments of the present disclosure, the guide operation module 1373 may control an output of the first change guide in which at least one of the position, direction, or size of the first reference guide is changed in response to a sensor value. For example, the guide operation module 1373 outputs a first change guide in which the first reference guide is rotated by a corresponding angle when the image acquisition control device 1300 rotates by a certain angle based on a certain axis (e.g., a vertical axis parallel to an upright user). It can be controlled as much as possible. When the image acquisition control device 1300 moves vertically with respect to the ground, the guide operation module 1373 may control to output a first change guide in which the first reference guide is moved on the display 1350 by a corresponding distance.

According to various embodiments of the present disclosure, the guide operation module 1373 may extract an image change value between the first reference guide and the first change guide. The guide operation module 1373 may transmit the image change value as guide change information to the image collection devices 1401 and 1402.

According to various embodiments, the guide operation module 1373 includes an adjustment value corresponding to guide change information from the image collection devices 1401 and 1402 (e.g., the position, size, direction (or angle) of the reference guide according to the movement of the image collection devices 1401 and 1402. ), or a value in which at least one of the colors is adjusted) may be received. The guide operation module 1373 may adjust the first change guide in response to an adjustment value corresponding to the guide change information. The first change guide of the above-described image acquisition control device 1300 may be synchronized with the second change guide of the image collection devices 1401 and 1402. The guide operation module 1373 may output an alarm (eg, at least one of image, text, audio data, or haptic) when the first change guide matches (or is similarly arranged) with the first reference guide. In addition, the guide operation module 1373 may output information (eg, a photographing icon) related to photographing induction. When an event related to a photographing instruction (eg, a photographing icon selection event) occurs, the guide operation module 1373 may transmit the event to the image collection devices 1401 and 1402. In response, the image collection devices 1401 and 1402 may capture an image of a subject in a corresponding photographing composition.

The guide operation module 1373 may control the matrix guide to be displayed on the display 1350 in response to a menu selection or the like. After displaying the matrix guide, the guide operation module 1373 may transmit the matrix guide and the touch point information as guide change information to the image collection devices 1401 and 1402 when a touch event (eg, an event for selecting a certain point of the matrix guide) is received. .

The sensor operation module 1375 may control at least one of activation of the first sensor module 1390 or collection of sensor values. For example, when the first reference guide is output on the display 1350, the sensor operation module 1375 may activate the first sensor module 1390. The sensor operation module 1375 may collect sensor values generated according to the motion of the image acquisition control device 1300. The sensor operation module 1375 may provide the collected sensor values to the guide operation module 1373.

According to an embodiment, after activating the first sensor module 1390 for a specified time, the sensor operation module 1375 may control to deactivate after collecting sensor values. For example, when the first reference guide is output on the display 1350, the sensor operation module 1375 may collect sensor values for a specified time. When a specified time elapses, the sensor operation module 1375 provides the collected sensor value to the guide operation module 1373 and controls the first sensor module 1390 to be deactivated. According to various embodiments, the sensor operation module 1375 may control to deactivate the first sensor module 1390 when a designated touch event (an event related to generation of guide change information) occurs on the display 1350.

As described above, according to various embodiments, an electronic device (eg, an image acquisition control device) according to an embodiment responds to a communication interface for receiving a reference image, and a photographing composition change related to the reference image in response to an event occurrence. It may include a data processing module that controls the display of the change guide.

According to various embodiments of the present disclosure, the data processing module may control a reference guide designated in relation to the reference image to be displayed.

According to various embodiments of the present disclosure, the data processing module may control to display the change guide in which the arrangement state of the reference guide is changed in response to the occurrence of the event.

According to various embodiments of the present disclosure, the data processing module may control to display the change guide in which at least one of the position, direction, size, or color of the reference guide is adjusted in response to a type of a touch event.

According to various embodiments of the present disclosure, the data processing module may control to display the change guide in which the arrangement state of the reference guide is adjusted in response to a sensor value related to the device movement.

According to various embodiments of the present disclosure, the data processing module controls to transmit guide change information including at least one of arrangement state information of the change guide or a difference value between the reference guide and the change guide to the device collecting the reference image. can do.

According to various embodiments of the present disclosure, the data processing module may divide a display area of the display and control a change guide in the form of a matrix in which the reference image is arranged in at least one divided area to be output.

According to various embodiments of the present disclosure, the data processing module may control the matrix guide having a size smaller than the entire area of the display to be output to a predetermined area of the display.

According to various embodiments of the present disclosure, the data processing module may control to output the matrix guide having a certain transparency or a matrix mini-guide having a size smaller than the entire area of the display to a certain area of the display.

According to various embodiments of the present disclosure, the data processing module controls information on regions selected in response to the event in the matrix-type change guide to be transmitted to the device collecting the reference image, and When this is received, a corresponding received image may be placed in each selected area of the matrix-shaped change guide.

According to various embodiments of the present disclosure, in response to occurrence of a designated event, the data processing module may control to display a selected area of the matrix-shaped change guide area on a full screen.

According to various embodiments of the present disclosure, the data processing module may adjust at least one of the number of divided regions of the matrix-shaped change guide or an arrangement position of the reference image in response to occurrence of a specified event.

15 is a configuration diagram of a second data processing module of an image collection device according to various embodiments of the present disclosure.

Referring to FIG. 15, the second data processing module 1470 may include a second image processing module 1471, a guide processing module 1473, and a sensor control module 1475.

The second image processing module 1471 may control image processing by the image collection device 1400 (eg, image collection devices 1401 and 1402). For example, when an event related to activation of a photographing composition control function occurs, the second image processing module 1471 may activate a camera module functionally connected to the image collection device 1400. The second image processing module 1471 may control a reference image including at least one of a preview image or a captured image collected by the camera module to be transmitted to the image acquisition control device 1300. In this regard, the second image processing module 1471 may control to form a communication channel with the image acquisition control device 1300. The second image processing module 1471 may control the reference image to be output on the display. In this operation, the second image processing module 1471 may request the guide processing module 1473 to output the second reference guide. According to an embodiment, the second image processing module 1471 may control to transmit the captured image to the image acquisition control device 1300 according to the coincidence (or similarly arranged) of the second change guide and the second reference guide.

According to various embodiments, when a matrix guide is received, the second image processing module 1471 may change an image collected by the camera module to correspond to the matrix guide. For example, the second image processing module 1471 may adjust a size of an image (a preview image or a captured image) collected by the camera module and arrange it in a predetermined area of the matrix guide. The second image processing module 1471 may arrange an image that is additionally photographed according to the control of the guide processing module 1473 to correspond to the matrix guide.

The guide processing module 1473 may control output of at least one of the second reference guide, the second change guide, and the matrix guide and information display corresponding thereto. Information related to the second reference guide may be pre-stored and operated in a memory, or may be generated when a reference image is output to the display. The guide processing module 1473 may arrange the second reference guide on the reference image (eg, an upper layer). When transmitting the reference image to the image acquisition control device 1300, the guide processing module 1473 may control the second reference guide information to be transmitted together.

According to various embodiments of the present disclosure, the guide processing module 1473 may control reception of guide change information from the image acquisition control device 1300. The guide processing module 1473 may output a second change guide in which at least one of the position, direction, color, or size of the second reference guide is changed based on the received guide change information. After outputting the second change guide, the guide processing module 1473 displays a message (eg, image, text, haptic (vibration)) to induce a designated message (eg, the second change guide to match (or be similarly arranged) with the second reference guide). Alternatively, at least one of audio data)) may be output.

According to various embodiments of the present disclosure, when the photographing composition is changed according to the movement of the image collection device 1400, the guide processing module 1473 may change at least one of a location, size, color, or direction of the second change guide in response thereto. For example, when the guide change information is received, the guide processing module 1473 may activate the second sensor module and collect a sensor value in response to a motion of the image collection device 1400. The guide processing module 1473 may change the display form of the second change guide based on the collected sensor values. For example, the guide processing module 1473 may control to move and display the second change guide on the display by a predetermined distance in the right direction when the image collection device 1400 moves in the left direction by a predetermined distance. Alternatively, the guide processing module 1473 may adjust the direction (or angle) of the second change guide on the display when the image collection device 1400 rotates in a predetermined direction by a predetermined angle.

According to various embodiments of the present disclosure, when the second change guide is disposed in coincidence or similar to the second reference guide, the guide processing module 1473 alarms the placement state (for example, a flicker effect in at least some areas of the display, a haptic alarm, coincidence, or Similarly, at least one of the audio data output for the batch) may be output. In addition, the guide processing module 1473 may output a message (at least one of image, text, or audio data) related to shooting induction through at least one of a display or an input/output interface when the second change guide is arranged to match or be similar to the second reference guide. I can. According to an embodiment, the guide processing module 1473 may control an automatic photographing when the second reference guide and the second change guide are arranged in the same or similar manner. According to various embodiments of the present disclosure, when the second change guide is output, the guide processing module 1473 may process the second reference guide to have a certain degree of transparency. Alternatively, the guide processing module 1473 may process the second reference guide to be temporarily invisible when the second change guide is output.

According to various embodiments of the present disclosure, the guide processing module 1473 may control to output only the second change guide without outputting the second reference guide. For example, the guide processing module 1473 may control to output a second change guide in which a center point is located at a certain point of the display in response to the guide change information. The guide processing module 1473 may adjust the second change guide on the display in response to a change in motion of the image collection device 1400. The guide processing module 1473 may output an alarm or control automatic photographing when the second change guide has a specified specific arrangement state (arrangement state corresponding to the guide change information).

According to various embodiments of the present disclosure, the guide processing module 1473 may synchronize the second change guide and the first change guide of the image acquisition control device 1300. In this regard, the guide processing module 1473 may collect sensor values for movement changes of the image collection device 1400 and transmit them to the image acquisition control device 1300. Alternatively, the guide processing module 1473 may extract the adjustment value of the second change guide in response to the sensor value, and transmit it to the image acquisition control device 1300 in real time or at a predetermined period. When the second change guide is arranged in accordance with or similar to the second reference guide, or has a designated arrangement state (the arrangement state corresponding to the guide change information), the first change guide of the synchronized image acquisition control device 1300 is the first reference guide May be arranged in accordance with or similar to.

The guide processing module 1473 may receive matrix guide information (eg, information related to a matrix guide or information requesting to output a designated matrix guide from the image collection device 1400) from the image acquisition control device 1300. The guide processing module 1473 may control the matrix guide to be output to the display. According to an embodiment, the matrix guide of the image acquisition device may be synchronized with the matrix guide of the image acquisition control device 1300. The guide processing module 1473 may output a message (eg, information for inducing the motion of the image collection device 1400 to have a specific photographing composition) so that an image is photographed with a photographing composition related to a point designated in the matrix guide. The guide processing module 1473 may output an alarm when a preview image related to a point designated in the matrix guide is acquired. Alternatively, the guide processing module 1473 may control to automatically capture an image when a preview image related to a point designated in the matrix guide is acquired. The guide processing module 1473 may generate a group image when images of points designated in the matrix guide are captured. The guide processing module 1473 may transmit the group image to the image acquisition control device 1300. According to various embodiments, the guide processing module 1473 may control the acquired preview image or the captured image to be transmitted to the image acquisition control device 1300 whenever images of points designated in the matrix guide are collected.

The sensor control module 1475 may be activated in response to at least one of a case where a photographic composition control function is executed, a case where guide change information is received from the image acquisition control apparatus 1300, or a case where a user input occurs. The sensor control module 1475 may collect sensor values in response to movement of the image collection device 1400. The sensor control module 1475 may provide the collected sensor values to the guide processing module 1473.

As described above, according to various embodiments, an electronic device (eg, an image collection device) according to an embodiment may include a camera module that collects a reference image, a communication interface that transmits the reference image, and changes a photographing composition related to the reference image. It may include a data processing module for controlling the reception of guide change information to guide the information, and a change guide display corresponding to the guide change information.

According to various embodiments of the present disclosure, the data processing module may control to output a message for inducing a matching or similar arrangement of a designated reference guide and the change guide, or a designated arrangement.

According to various embodiments of the present disclosure, the data processing module may adjust the arrangement state of the change guide based on a sensor value collected in response to the movement of the device.

According to various embodiments of the present disclosure, the data processing module may control to output a message inducing image capture when the change guide matches or has a similar arrangement or a specified arrangement with a designated reference guide.

According to various embodiments of the present disclosure, the data processing module may control an image to be automatically captured when the change guide coincides with or has a similar arrangement or a designated arrangement with a designated reference guide.

According to various embodiments of the present disclosure, the data processing module may control the captured image to be transmitted to a device providing the guide change information.

According to various embodiments of the present disclosure, the data processing module may control a matrix guide in which the reference image is arranged to be displayed in a predetermined area in which the display area of the display is divided, in response to the guide change information.

According to various embodiments of the present disclosure, the data processing module may control to output a guide message inducing device movement so that images corresponding to selected areas of the matrix guide are captured.

According to various embodiments of the present disclosure, the data processing module may control an image to be automatically captured when a subject corresponding to the selected areas enters a photographing composition.

According to various embodiments of the present disclosure, the data processing module may control to transmit a group image photographed corresponding to the selection regions to a device providing the guide change information.

16 is a signal flow diagram between components of an image operating system according to various embodiments of the present disclosure.

Referring to FIG. 16, in operation 1601, an image acquisition control device 1300 and an image acquisition device 1400 (eg, image acquisition devices 1401 and 1402) may establish a communication channel.

In operation 1603, the image collection device 1400 may collect an image by activating the camera module. For example, the image collection device 1400 may collect a reference image including at least one of a preview image and a captured image. In this operation, the image collection device 1400 may output the collected reference image to the display. Also, the image collection device 1400 may output a reference guide on the reference image. According to various embodiments, the image collection device 1400 may establish a communication channel with the image acquisition control device 1300 after capturing a reference image using a camera module.

In operation 1605, the image collection device 1400 may transmit the collected reference image to the image acquisition control device 1300. In this operation, when providing the preview image as a reference image, the image acquisition device 1400 may transmit the preview image acquired in real time or at a predetermined period to the image acquisition control device 1300.

In operation 1607, the image acquisition control apparatus 1300 may output at least one of a received image (eg, a reference image) or a first reference guide to the display 1350. According to an embodiment, the first reference guide output to the image acquisition control device 1300 may be synchronized with the second reference guide displayed on the image collection device 1400 in display form.

In operation 1609, the image acquisition control device 1300 may collect an event related to a change of at least one of a position, a size, a direction (or angle), and a color of the first reference guide. For example, the image acquisition control device 1300 may receive a touch event for adjusting an arrangement state of the first reference guide on the display 1350 on which the first reference guide is displayed. Alternatively, the image acquisition control device 1300 may receive a sensor value related to a change in motion of the device. According to an embodiment, the image acquisition control apparatus 1300 may output a first change guide in which an arrangement state of the first reference guide is adjusted based on at least one of an acquired touch event or a sensor value. The image acquisition control device 1300 may collect guide change information corresponding to at least one of an acquired touch event or a sensor value, and a difference value between the first reference guide and the first change guide.

In operation 1611, the image acquisition control device 1300 may transmit guide change information to the image acquisition device 1400. In operation 1613, the image collection device 1400 may output the received guide change information. In this operation, the image collection device 1400 may output a second change guide in which at least one of the position, direction (or angle), size, or color of the second reference guide is changed based on the guide change information. According to an embodiment, the second change guide output to the image acquisition device 1400 may be synchronized with the first change guide output to the image acquisition control device 1300.

The second change guide may be changed in response to the movement of the image collection device 1400. For example, when the device moves by a predetermined distance in at least one of the front and rear, left and right directions, up and down, or diagonally of the image collection device 1400, the second change guide may be moved and displayed on the display accordingly. Accordingly, a photographing composition of an image collected by a camera module disposed in the image collection device 1400 may be changed.

In operation 1615, the image collection device 1400 automatically collects an image when a movement of the device occurs so that the second change guide and the second reference guide are aligned or similarly arranged, or according to the control of the image acquisition control device 1300 or in response to a user input. Or you can take a picture. In operation 1617, the image collection device 1400 may transmit the collected acquired image (eg, at least one of a preview image or a captured image) to the image acquisition control device 1300. In operation 1619, the image acquisition control apparatus 1300 may output the received acquired image to the display 1350 or store it in the memory 1330.

As described above, the first change guide may be synchronized with the second change guide. Alternatively, the image collected by the camera module of the image collection device 1400 may be transmitted to the image acquisition control device 1300 in real time to be synchronized. Accordingly, when the arrangement state of the image collection device 1400 is changed and the photographing composition information is changed, the image acquisition control device 1300 may output an image in which the photographing composition of the image collection device 1400 is changed.

As described above, an electronic device operating method (eg, an operating method of an image acquisition control device) according to various embodiments includes an operation of receiving a reference image, a change guide corresponding to a change in a photographing composition related to the reference image in response to an event occurrence. It may include an operation of displaying.

According to various embodiments of the present disclosure, the method may further include displaying a reference guide designated in relation to the reference image.

According to various embodiments of the present disclosure, the displaying operation may include displaying the change guide in which the arrangement state of the reference guide is changed in response to the occurrence of the event.

According to various embodiments of the present disclosure, the displaying operation may include displaying the change guide in which at least one of the position, direction, size, or color of the reference guide is adjusted in response to a type of a touch event.

According to various embodiments of the present disclosure, the displaying operation may include displaying the change guide in which the arrangement state of the reference guide is adjusted in response to a sensor value related to the device movement.

According to various embodiments of the present disclosure, the method further includes transmitting guide change information including at least one of information about an arrangement state of the change guide or a difference value between the reference guide and the change guide to a device that collects the reference image. Can include.

According to various embodiments, the displaying may include dividing a display area of the display and displaying a change guide in a matrix form in which the reference image is arranged in at least one divided area.

According to various embodiments of the present disclosure, the method includes an operation of transmitting information on regions selected in response to the event in the matrix-type change guide to a device that has collected the reference image, and when images of the selected regions are received. The operation of disposing a corresponding received image in each selected area of the matrix-shaped change guide may be further included.

According to various embodiments of the present disclosure, the method may further include displaying a selected area of the matrix-shaped change guide area on a full screen in response to occurrence of a specified event.

According to various embodiments of the present disclosure, the method may further include adjusting at least one of the number of divided regions of the matrix-shaped change guide or the arrangement position of the reference image in response to occurrence of a designated event.

17 is a diagram illustrating an example of a screen related to operation of a guide according to various embodiments of the present disclosure.

Referring to FIG. 17, the image collection device 1400 (eg, image collection devices 1401 and 1402) may control to activate the camera module when a camera module activation event or an event related to a photographing composition control function occurs. The image collection device 1400 may output a reference image 1711 including at least one of a preview image or a captured image collected based on the activated camera module to the display 1450 as in state 1710. In this operation, the image collection device 1400 may output the reference guide 1712 to the display 1450. For example, the reference guide 1712 may be a rectangular band image arranged such that the center point is aligned with or similar to the center point of the display 1450. The reference guide 1712 in the form of a rectangular stripe image may be disposed in an edge area of the display 1450.

When the reference image 1711 is collected, the image collection device 1400 may transmit the collected reference image 1711 to the image acquisition control device 1300. In this regard, the image collection device 1400 may temporarily form a communication channel related to transmission of the reference image 1711 with the image acquisition control device 1300 or may form a fixed channel. The image collection device 1400 may transmit information related to the reference guide 1712 together with the reference image 1711 to the image acquisition control device 1300. In connection with the delivery of the reference image 1711, the image collection device 1400 may receive an identification number (eg, a phone number) capable of forming a communication channel with the image acquisition control device 1300.

In state 1720, the image acquisition control device 1300 may establish a communication channel with the image collection device 1400 in connection with a photographing composition control function, and receive a reference image 1711 from the image collection device 1400. Additionally or alternatively, the image acquisition control device 1300 may receive information related to the reference guide 1712. The image acquisition control device 1300 may output a reference image 1711 provided by the image collection device 1400 and a reference image 1721 received in a predetermined area of the display 1350. According to various embodiments, the received reference image 1721 may be synchronized with the reference image 1711 provided by the image collecting device 1400.

According to an embodiment, the image acquisition control device 1300 may output the reference guide 1722 to a predetermined area. For example, the image acquisition control device 1300 may arrange the reference guide 1722 in the form of a band on the edge of the display 1350. According to various embodiments, the reference guide 1722 may be arranged in synchronization with the reference guide 1712.

When an event 1725 (eg, a touch event for selecting a certain point of the display 1350) occurs, the image acquisition control device 1300 may collect the event 1725 as guide change information. For example, when receiving a touch event for selecting a predetermined point on the lower right of the display 1350, the image acquisition control device 1300 may generate guide change information requesting that the center point of the reference guide is disposed at the touch point. According to various embodiments of the present disclosure, the apparatus 1300 for controlling image acquisition may output a change guide 1723 in which at least one of the position, direction (or angle), size, or color of the reference guide 1722 is changed in response to the event 1725 that has occurred. The image acquisition control device 1300 may generate guide information including at least one of a location, a direction (or angle), a size, or a color of the change guide 1723 and transmit the same to the image collection device 1400.

In state 1730, the image collection device 1400 may receive guide change information from the image acquisition control device 1300. The image collection device 1400 may output a message relating to motion induction of the image collection device 1400 based on the guide change information. For example, the image collection device 1400 may output a message guiding the movement of the device (eg, at least one of a direction indicator, audio data guiding a direction, and a haptic pattern related to a direction). When the image collection device 1400 moves in response to a corresponding guide message, the image collection device 1400 may collect sensor values.

According to various embodiments of the present disclosure, the image collection device 1400 may output the change guide 1733 to the display 1450 based on guide change information (eg, information related to the change guide 1723). When a movement of the device occurs, the image collection device 1400 may change at least one of a position, a size, a color, or a direction of the change guide 1733 in response to the movement of the device. When the change guide 1733 is arranged to coincide with or similar to the reference guide 1712, the image collection device 1400 may output an alarm message for this. The image acquisition device 1400 may capture an image in response to a user control of the image acquisition control device 1300 or the image acquisition device 1400 at a point in time when the change guide 1733 is aligned with or similar to the reference guide 1712. The image collection device 1400 may transmit the captured image 1731 to the image acquisition control device 1300. Also, the image collection device 1400 may output the acquired image 1731 to the display 1450.

According to various embodiments of the present disclosure, the image acquisition control device 1300 may determine that the currently transmitted image is an acquired image captured by the image acquisition device 1400 based on metadata of an image received from the outside, and store the acquired image in a memory. Alternatively, the image acquisition control device 1300 may receive and store the captured image stored in the image collection device 1400 based on file transmission. For example, the image acquisition control device 1300 provides a message requesting an image to be acquired to the image acquisition device 1400 through user input control or by default (e.g., a message including at least part of metadata related to the acquired image, such as time, location, device name Etc., a message including metadata related to an acquired image) may be transmitted. The image acquisition control device 1300 may receive an acquired image corresponding to the metadata from the image acquisition device 1400 according to user control of the image acquisition device 1400 or automatically. The image acquisition control device 1300 may store the received acquired image in a memory automatically or in response to user control. In state 1740, when the image acquisition control device 1300 receives the acquired image 1731 acquired by the image collection device 1400, the received acquired image 1741 may be output to the display 1350. Here, the display 1350 of the image acquisition control device 1300 may be synchronized with the display 1450. Accordingly, the image acquisition control device 1300 may display the change guide 1723 in which the arrangement state is adjusted according to the adjustment of the change guide 1733. The image acquisition control device 1300 may output an alarm message for an arrangement state when the change guide 1723 is adjusted and arranged to match or be similar to the reference guide 1722. In this operation, the apparatus 1300 for controlling image acquisition may output an induction message 1741 for inducing image capturing to one side of the screen. For example, the guidance message 1741 may be a virtual photographing button (eg, a photographing button image displayed on one side of the display). When the image acquisition control device 1300 transmits an event corresponding to the selection of the induction message 1741 to the image collection device 1400, the image acquisition device 1400 may automatically perform image capture in response to the control of the image acquisition control device 1300.

As described above, even if the image acquisition control device 1300 and the image acquisition device 1400 are disposed at positions spaced apart by a predetermined distance, the photographing composition of the image acquisition device 1400 may be changed by the image acquisition control device 1300. In this operation, the image acquisition control device 1300 may support the image acquisition device 1400 to more intuitively understand the photographing composition to be photographed by changing the reference guide on the reference image.

As described above, according to various embodiments, a method of operating an electronic device (eg, a method of operating an image collection device) according to an embodiment is an operation of receiving guide change information for guiding a change in a photographing composition related to a transmitted reference image, It may include an operation of displaying a change guide corresponding to the guide change information.

According to various embodiments of the present disclosure, the method may further include an operation of outputting a message for inducing a matching or similar arrangement of a designated reference guide and the change guide, or a designated arrangement.

According to various embodiments of the present disclosure, the method may further include adjusting an arrangement state of the change guide based on a sensor value collected in response to the movement of the device.

According to various embodiments of the present disclosure, the method may further include outputting a message inducing image capture when the change guide matches or is similar to or has a specified arrangement with a designated reference guide.

According to various embodiments of the present disclosure, the method may further include controlling automatic image capturing when the change guide matches or is similar to or has a designated arrangement with a designated reference guide.

According to various embodiments of the present disclosure, the method may further include transmitting the captured acquired image to a device providing the guide change information.

According to various embodiments of the present disclosure, the displaying may include displaying a matrix guide in which the reference image is disposed in a predetermined area in which the display area of the display is divided, in response to the guide change information.

According to various embodiments of the present disclosure, the method may further include outputting a guide message inducing device movement so that images corresponding to selected areas of the matrix guide are captured.

According to various embodiments of the present disclosure, the method may further include controlling automatic image capturing when entering a capturing composition corresponding to the selected areas.

According to various embodiments of the present disclosure, the method may further include transmitting a group image photographed corresponding to the selection regions to a device providing the guide change information.

18 is a diagram illustrating an example of a screen related to a guide change according to various embodiments of the present disclosure.

Referring to FIG. 18, according to various embodiments of the present disclosure, as in state 1810, the display 1350 of the image acquisition control device 1300 may output a reference guide 1811. In this regard, when the photographing composition control function is activated, the image acquisition control device 1300 may output a reference guide 1811 based on the stored reference guide information. According to an embodiment, when a reference image is received from the image acquisition device 1400 (eg, image collection devices 1401 and 1402), the image acquisition control device 1300 may output the reference guide 1811 while the reference image is output. The reference guide 1811 may be, for example, an image (or text) designating a predetermined position of the display 1350. For example, the reference guide 1811 may be in the form of a square band (or an elliptical band) as shown.

According to various embodiments of the present disclosure, a change guide changed according to a touch event or movement of a device may be output as in the state 1820, the state 1830, and the state 1840. For example, when a directional touch event for rotating (or changing the direction) of the reference guide 1811 is generated as in the state 1820, the change guide 1821 whose direction has been changed with respect to the reference guide 1811 may be displayed. The change guide displayed in the state 1820 may be rotated to the left or to the right of the reference guide 1811 with respect to the front of the display 1350. Alternatively, when a mobility touch event for moving the position of the reference guide 1811 occurs as in the state 1830, a change guide 1831 whose position has been changed based on the reference guide 1811 may be displayed. Alternatively, when a scaling touch event for changing the size of the reference guide 1811 occurs as in the state 1840, the change guides 1841 and 1842 whose size has been changed based on the reference guide 1811 may be displayed.

According to various embodiments, the change guide may have a shape in which at least one of the position, direction (or angle), size, or color of the reference guide 1811 is changed. For example, the change guide may have a shape in which a position and a size are changed based on the reference guide 1811. Alternatively, the change guide may have a shape in which the direction and size are changed based on the reference guide 1811. Alternatively, the change guide may have a shape in which a position, a direction, and a size are changed based on the reference guide 1811.

In the above description, a form in which the change guides 1821, 1831, 1841, and 1842 are output in response to a touch event for changing the reference guide 1811 has been described, but various embodiments are not limited thereto. For example, additionally or alternatively, the touch event may be a sensor value corresponding to a change in motion of the image acquisition control device 1300. According to an embodiment, when the image acquisition control device 1300 rotates in a predetermined direction (eg, at least one of left and right, up and down, front and rear, and diagonal directions), the change guide 1821 as in the state 1820 may be displayed. According to an embodiment, when the image acquisition control device 1300 moves in a predetermined direction (eg, at least one of left and right, up and down, and diagonally)), the change guide 1831 as in the state 1830 may be displayed. According to an embodiment, when the image acquisition control device 1300 moves in a predetermined direction (eg, at least one of the front and rear directions), the change guide 1841 may be displayed as in the state 1840. For example, when the image acquisition control device 1300 moves in a direction away from the user while the image acquisition control device 1300 is held by the user, a change guide 1841 that is larger than the reference guide 1811 may be displayed. Alternatively, when the image acquisition control device 1300 moves in a direction closer to the user while the image acquisition control device 1300 is held by the user, a change guide 1842 smaller than the reference guide 1811 may be displayed.

The image acquisition control device 1300 transmits guide change information (or photographic composition information) including at least one of a touch event, a sensor value, or an arrangement state value of the change guide, and an arrangement difference value between the reference guide 1811 and the change guide to the image collection device 1400. Can be transmitted.

When the image collection device 1400 receives guide change information from the image acquisition control device 1300, the image collection device 1400 may output a second change guide corresponding to the information. The second change guide may be adjusted in response to the movement of the image collection device 1400. For example, when a change guide such as state 1830 is output on the display of the image collection device 1400, the user may select the image so that the center point of the change guide matches the center point of the display or the change guide is aligned or similarly arranged with the second reference guide. The collection device 1400 can be moved upward. The image collection device 1400 may collect a sensor value of a device moving in an upward direction, and adjust an arrangement state of the change guide based on the sensor value. For another example, when a change guide such as the state 1840 is output on the display of the image collection device 1400, the user may move the image collection device 1400 forward or backward. When the image collection device 1400 is moved forward or backward, the image collection device 1400 may collect a sensor value in response to the movement and adjust the size of the change guide based on the sensor value. According to an embodiment, the image collection device 1400 may check a position or adjust a size of the change guide based on a sensor and image processing in response to a corresponding movement.

19A is an exemplary view of another screen related to operation of a guide according to various embodiments of the present disclosure.

Referring to FIG. 19A, as in state 1910, the image collection device 1400 (eg, image collection devices 1401 and 1402) may activate a camera module and collect a reference image 1911 in connection with a photographing composition control function. The image collection device 1400 may transmit the collected reference image 1911 to the image acquisition control device 1300. As mentioned above, the reference image 1911 may be at least one of a preview image or a captured image. The collected reference image 1911 may be output on the display 1450. The image acquisition control device 1300 may output the received reference image 1911 to the display 1350.

The image acquisition control device 1300 may output the matrix guide 1922 as in the state 1920 in relation to the photographing composition control function. In this regard, the image acquisition control apparatus 1300 may provide a menu item capable of outputting the matrix guide 1922, an icon, or a key button to which a function is assigned. When the output of the matrix guide 1922 is requested, the image acquisition control device 1300 displays a matrix guide 1922 including a reference image area 1935 (eg, an area in which an image generated based on the reference image 1911 provided by the image collection device 1400 is arranged). You can print it at 1350. In state 1920, the reference image region 1935 is arranged in the center of the matrix guide 1922 as an example. According to various embodiments of the present disclosure, the reference image area 1935 may be disposed at a predetermined edge position of the matrix guide 1922. Also, the reference image area 1935 may be moved to a predetermined position of the matrix guide 1922 in response to an input event. For example, the user may touch the reference image area 1935 and move it to a predetermined position of the matrix guide 1922.

According to various embodiments of the present disclosure, the user may select certain points of the matrix guide 1922. For example, the user may select at least one area (eg, selection area 1931, selection area 1932, selection area 1933, selection area 1934) among surrounding areas of the reference image area 1935. When at least one of the surrounding areas is selected, the image acquisition control apparatus 1300 may collect location information of the selected areas 1931, 1932, 1933, and 1934. The image acquisition control device 1300 may transmit the matrix guide 1922 and location information of the selected regions to the image acquisition device 1400.

According to various embodiments, the size of the matrix guide 1922 may be adjusted. For example, in the illustrated drawing, the matrix guide 1922 is displayed as a 3x3 type, but the matrix guide 1922 is 2x2, 4x4, 5x4, corresponding to a user setting or input event (e.g., pinch zoom-in or zoom-out event, flick or tap event, etc.) It can be changed to various sizes such as 6x6, 9x9, 12x12, etc., or it can be output in a specific interval at the beginning (when the Matrix Guide 1922 is called). When the size of the matrix guide 1922 is changed, at least one of the size or location of the reference image area 1935 may be changed. For example, when the matrix guide 1922 is of the 2x2 type, the reference image area 1935 may be scaled to a relatively larger area than the 3x3 type. In addition, it may be disposed in a specific area (eg, one of the top left, top right, bottom left, or bottom right) of the 2x2 area of the reference image area 1935. In addition, when the matrix guide 1922 is of the 9x9 type, the reference image area 1935 may be scaled to a relatively small area compared to the 3x3 type. In the 9x9 type matrix guide 1922, the reference image area 1935 may be disposed at the center or at a designated specific location. In addition, in response to the input event, the position of the reference image area 1935 in the matrix guide 1922 may be changed.

When the image acquisition device 1400 receives the matrix guide 1922 and the location information of the selected regions from the image acquisition control device 1300, as in the state 1930, the matrix guide 1912 corresponding thereto may be output to the display 1450. The matrix guide 1912 may be of the same type as the matrix guide 1922. According to various embodiments of the present disclosure, the matrix guide 1912 may be output while having a certain degree of transparency. The image collection device 1400 may output the matrix guide 1912 in which the second reference image region 1935 is arranged, and display the selected regions 1931, 1932, 1933, and 1934 to be distinguished from the unselected regions. According to various embodiments of the present disclosure, the image collection device 1400 may output a guide message related to motion induction of the image acquisition control device 1300 so that images of the selection regions 1931, 1932, 1933, and 1934 are collected. For example, the image collection device 1400 may calculate a distance and a direction to which the image collection device 1400 must move in order to acquire an image corresponding to the selected area based on the size of the matrix guide 1912 or the location and size of the reference image area. The image collection device 1400 may output a guide message so that the camera module has a photographing composition related to photographing of the selected region based on the calculated distance and direction information. According to an embodiment, the image collection device 1400 may output a change guide for photographing the selection area 1931. The user controls the motion of the image collection device 1400 so that the change guide is aligned or similarly arranged in the selection area 1931 (e.g., by moving the image collection device 1400 in a specific direction by a certain distance, the position and direction of the shooting composition based on the reference image area) , Change control of at least one of the sizes) may be performed.

The image collection device 1400 may output a message inducing photographing when a preview image of a location corresponding to the selection region 1931 is collected according to the photographing composition of the camera module. Alternatively, the image collection device 1400 may automatically capture an image. According to various embodiments, the image collection device 1400 may transmit an image corresponding to the selection area 1931 to the image acquisition control device 1300 when an image corresponding to the selection area 1931 is collected. Also, the image collection device 1400 may adjust the size of the collected image and output it to the selection area 1931. In a similar manner, the image collection device 1400 may collect the captured image of the selection area 1934 and output the collected image to the selection area 1934. The image collected in response to the selection area 1934 may be transmitted to the image acquisition control device 1300.

According to various embodiments of the present disclosure, when all images corresponding to the selection areas 1931, 1932, 1933, and 1934 are collected, the image collection device 1400 may generate a group image and transmit it to the image acquisition control device 1300. Alternatively, as described above, when an image corresponding to each selected region is collected, it may be transmitted to the image acquisition control device 1300 in real time.

When a captured image is received from the image collection device 1400, the image acquisition control device 1300 may arrange the corresponding images in the matrix guide 1922 as in the state 1940. For example, the image acquisition control apparatus 1300 may arrange the received images in the selection area 1931 and the selection area 1934, respectively. When an image corresponding to the selection region 1932 and the selection region 1933 is received, the image acquisition control apparatus 1300 may arrange the images as in the selection region 1931 and the selection region 1934.

According to various embodiments of the present disclosure, the user may initialize the matrix guide 1922 after designating a specific area of the selection areas 1931, 1932, 1933, and 1934 of the image acquisition control device 1300 and the reference image area 1935 as a new reference image area. For example, the user may initialize the matrix guide 1922 after designating the selection area 1934 as a reference image area. In this case, as in the state 1920, a matrix guide in which the selection area 1934 is disposed as a reference image area at a predetermined position may be output on the display 1350. The user may select new regions on the new matrix guide and transmit them to the image collection device 1400.

According to various embodiments of the present disclosure, when a specific area (eg, the selection area 1931) is selected in state 1940, the image acquisition control apparatus 1300 may output the specific area as a full screen in response to the type of the input event. Alternatively, the image acquisition control device 1300 may change to a specific matrix guide type including the selection area 1931 in response to the type of the input event. According to an embodiment, when a pinch-out touch event occurs on the selection area 1931, the image acquisition control device 1300 changes the type of the matrix guide from 9x9 to 4x4, 3x3, and 2x2 according to the pinch distance (distance between two touched points). , 1x1, or 3x3, 9x9, 12x12. Correspondingly, the image displayed on the corresponding matrix guide may be enlarged or reduced.

In the matrix guide 1922 described above, at least one of a position, a direction, and a size on the display 1350 may be changed in response to a touch event. In addition, the matrix guide 1922 may be synchronized with the matrix guide 1912 of the image collection device 1400 as described above with reference to FIG. 17 and the like. According to an embodiment, when the matrix guide 1922 is moved on the display 1350, the same or similar matrix guide may be redefined on the display 1350. For example, when a touch event of moving the selection area 1934 to the selection area 1932 occurs in the state 1920, the image acquisition control device 1300 moves the reference image area 1935 to the area 1936, the selection area 1934 moves to the selection area 1932, and 1937 may be moved to the reference image area 1935. In addition, the selection area 1933 and the selection area 1931 may not be disposed on the display 1350. As the selection area 1934 moves, new areas may be arranged at a position where the selection area 1934 was. When the above-described movement occurs, the image acquisition control device 1300 may transmit the updated matrix guide to the image acquisition device 1400 according to an input event or in response to the movement occurrence.

Based on the above-described shooting composition control function, a user who operates the image acquisition control device 1300 may request to acquire images for various parts of a specific subject through the image acquisition device 1400. For example, based on the above-described function, the user may request various images of the patient's affected area or areas around the affected area from the image collection device 1400. Here, the user of the image acquisition control apparatus 1300 may select the type of the matrix guide 1922 and request zoomed-out areas to check the enlarged area of the affected area or the area around the affected area.

19B is an exemplary view of another screen related to operation of a guide according to various embodiments of the present disclosure.

Referring to FIG. 19B, as in the state 1950, the image collection device 1400 (eg, image collection devices 1401 and 1402) may activate a camera module and collect a reference image 1911 in connection with a photographing composition control function. The image collection device 1400 may transmit the collected reference image 1911 to the image acquisition control device 1300. As mentioned above, the reference image 1911 may be at least one of a preview image or a captured image.

The image acquisition control device 1300 may output the matrix guide 1922 as in the state 1960 in relation to the photographing composition control function. In this regard, the image acquisition control apparatus 1300 may provide a menu item capable of outputting the matrix guide 1922, an icon, or a key button to which a function is assigned. When the output of the matrix guide 1922 is requested, the image acquisition control device 1300 displays a matrix guide 1922 including a reference image area 1935 (eg, an area in which an image generated based on the reference image 1911 provided by the image collection device 1400 is arranged). You can print it at 1350.

According to various embodiments of the present disclosure, the user may select certain points of the matrix guide 1922. For example, the user may select at least one area (eg, selection area 1931, selection area 1932, selection area 1933, selection area 1934) among surrounding areas of the reference image area 1935. When at least one of the surrounding areas is selected, the image acquisition control apparatus 1300 may collect location information of the selected areas 1931, 1932, 1933, and 1934. The image acquisition control device 1300 may transmit the matrix guide 1922 and location information of the selected regions to the image acquisition device 1400.

When the image acquisition device 1400 receives the matrix guide 1922 and the location information of the selected regions from the image acquisition control device 1300, as in the state 1950, the corresponding matrix mini guide 1951 may be output to the display 1450. The matrix mini-guide 1951 may have the same type as the matrix guide 1922, but may have a size adjusted. A user who operates the image collection device 1400 may check areas that are not currently photographed among the areas requested by the matrix guide 1922 through the matrix mini-guide 1951. Accordingly, the user may change the photographing composition of the image collection device 1400 by checking the matrix mani guide 1951. The image captured after the photographing composition is changed may be transmitted to the image acquisition control device 1300. Also, the captured image can be applied to the Matrix Mini Guide 1951.

According to various embodiments, after transmitting the captured image to the image acquisition control device 1300, the image collection device 1400 updates the matrix guide 1922 from the image acquisition control device 1300 (the captured image transmitted by the image acquisition device 1400 is converted into a matrix. An image placed in a certain area of the guide 1922) may also be received. According to various embodiments, the matrix mini-guide 1951 may be generated and updated by the image acquisition control device 1300 and then transmitted to the image collection device 1400, or may be generated based on the received matrix guide 1922 and captured images by the image acquisition control device 1300. have. According to various embodiments, the position and size of the matrix mini-guide 1951 may be changed in response to a user input of the image collection device 1400. According to various embodiments, the matrix mini-guide 1951 may have a certain degree of transparency. For example, the matrix mini-guide 1951 has semi-transparency and is output on the display 1450, and may be displayed overlaid on the subject image. The user can adjust the photographic composition related to photographing the subject while checking the matrix mini-guide 1951 having semi-transparency.

According to various embodiments, the matrix mini-guide 1951 is a method (e.g., screen flickering, virtual shooting button output, matrix mini-guide) when an image related to a specific location specified in the matrix guide 1922 is included in the shooting composition. 1951 flickering, etc.) can be provided. The image related to the location specified in the matrix guide 1922 may be estimated through extraction of boundary lines (the subject boundary line) that are continuous with the boundary area portion of the reference image. Alternatively, as described above, the estimation of the image included in the photographing composition is a form corresponding to the photographing composition requested by the image acquisition control device 1300, and may be estimated based on sensor values and image processing generated as the image collection device 1300 moves. I can.

20 is a diagram illustrating a method of operating an image acquisition control device according to various embodiments of the present disclosure.

Referring to FIG. 20, according to various embodiments, in the method of operating the image acquisition control device, in operation 2001, the image acquisition control device 1300 may perform a function operation or a function wait. The function operation or function standby may be a state in which power supply is maintained to the image acquisition control device 1300 or a state in which a designated function (eg, a standby screen output function) is provided in response to set schedule information.

In operation 2003, the apparatus 1300 for controlling image acquisition may check whether an event related to activation of a photographing composition control function has occurred or is set. For example, the image acquisition control device 1300 may check whether there is a communication connection request related to photographing composition control from the image acquisition device 1400 (eg, image collection devices 1401 and 1402). Alternatively, the image acquisition control device 1300 may check whether there is an input event related to a photographing composition control function. If there is no corresponding event or setting, in operation 2005, the image acquisition control device 1300 may control execution of a specific function (eg, a previous function operation or a function standby state, or a specified function).

If there is an event or setting related to activation of the photographing composition control function, in operation 2007, the image acquisition control device 1300 may form an image channel (or data communication channel) with the image collection device 1400. In response to the formation of an image channel, in operation 2009, the image acquisition control device 1300 may receive a reference image from the image collection device 1400 and output it to the display. In this operation, the image acquisition control device 1300 may output a reference guide on the reference image.

In operation 2011, the image acquisition control device 1300 may check whether an event related to a guide change occurs. For example, the image acquisition control device 1300 may check whether a touch event or a sensor value related to device movement occurs. If there is an event related to the guide change, in operation 2013, the image acquisition control device 1300 may generate guide change information based on the event related to the guide change, and transmit it to the image collection device 1400. In operation 2015, the image acquisition control device 1300 may output an acquired image (eg, a preview image or a captured image acquired by the image acquisition device 1400 based on guide change information) received from the image acquisition device 1400. In operation 2011, when the guide change related event does not occur for the specified time, the image acquisition control device 1300 may skip operations 2013 to 2015 and branch to operation 2017.

In operation 2017, the image acquisition control device 1300 may check whether an event related to termination of a function (eg, a photographing composition control function) occurs. If there is no event related to termination of the function, the apparatus 1300 for controlling image acquisition may branch to 2011 to check whether a guide has been changed and perform processing accordingly.

21 is a diagram illustrating a method of operating an image collection device according to various embodiments of the present disclosure.

Referring to FIG. 21, according to various embodiments, in the method of operating the image collection device, the image collection device 1400 may perform a function operation or standby in operation 2101. In relation to function operation or standby, the image collection device 1400 may perform a set function, output a standby screen, or perform a function according to an input event.

In operation 2103, the image collection device 1400 may check whether an event related to the photographing composition control function occurs. For example, it is possible to check whether an event related to photographing composition control occurs or whether there is a request to form a communication channel related to photographing composition control from the image acquisition control device 1300. If no event occurs, in operation 2105, the image collection device 1400 may control execution of a specific function (eg, a function performed during operation or standby, or a function designated according to a user input).

When an event occurs, in operation 2107, the image collection device 1400 may form an image channel (or a data communication channel) with the image acquisition control device 1300. When an image channel is formed, in operation 2019, the image collection device 1400 may collect and transmit an image. According to various embodiments of the present disclosure, when an event related to a photographing composition control function occurs, the image collection device 1400 may first collect an image and establish a communication channel with the image acquisition control device 1300. In operation 2019, the image collection device 1400 may transmit a reference image including at least one of a preview image or an image captured according to a user input to the image acquisition control device 1300.

In operation 2111, the image collection device 1400 may check whether guide change information is received. If guide change information is received, in operation 2113, the image collection device 1400 may output a change guide corresponding to the received guide change information. When outputting the change guide, the image collection device 1400 may output a guide message (eg, information inducing to change the arrangement state of the image collection device 1400) guiding device movement control related to a change in a photographing composition. If there is no reception of the guide change information, the image collection device 1400 may skip operations 2113, 2115, and 2117.

In operation 2115, the image collection device 1400 may check whether there is an image collection according to the application of the change guide. For example, the image collection device 1400 may control an image not to be captured when the change guide and the reference guide (reference guide displayed on the display of the image collection device 1400) are not arranged in a coincident or similar manner. Alternatively, the image collection device 1400 may output a message indicating that the arrangement state requested by the guide change information is not satisfied. When the image collection according to the application of the change guide is not performed, the image collection device 1400 may skip operation 2117.

In operation 2117, the image collection device 1400 may transmit an image acquired according to the application of the change guide to the image acquisition control device 1300. According to various embodiments, when a change guide is adjusted in response to a change in the arrangement state of the device, the image collection device 1400 transmits an adjusted value of the change guide (or a change guide in which the arrangement state is adjusted on the display) to the image acquisition control device 1300. Can be transmitted.

In operation 2119, the image collection device 1400 may check whether there is an event related to the termination of the photographing composition control function. If there is no event related to termination of the function, the image collection device 1400 may branch to before operation 2111 and perform the following operation again.

22 is a block diagram of an electronic device according to various embodiments of the present disclosure.

22 is a block diagram of an electronic device 2200 according to various embodiments.

The electronic device 2200 may constitute, for example, all or part of the electronic devices 101, 103, 1300, and 1400 described above. Referring to FIG. 22, the electronic device 2200 includes at least one application processor (AP) 2210, a communication module 2220, a subscriber identification module (SIM) card 2224, a memory 2230, a sensor module 2240, an input device 2250, a display 2260, and It may include an interface 2270, an audio module 2280, a camera module 2291, a power management module 2295, a battery 2296, an indicator 2297, and a motor 2298.

The AP 2210 may control a plurality of hardware or software components connected to the AP 2210 by driving an operating system or an application program, and may perform various data processing and operations including multimedia data. The AP 2210 may be implemented with, for example, a system on chip (SoC). According to an embodiment, the AP 2210 may further include a Graphic Processing Unit (GPU) (not shown).

The communication module 2220 (e.g., the communication interface 1360) includes the electronic device 2200 (e.g., the electronic devices 101, 103, 1300, 1400) and other electronic devices (e.g., electronic devices 1401, 1402, or servers) connected through a network. 1403) can perform data transmission and reception. According to an embodiment, the communication module 2220 may include a cellular module 2221, a Wifi module 2223, a BT module 2225, a GPS module 2227, an NFC module 2228, and a radio frequency (RF) module 2229.

The cellular module 2221 may provide a voice call, a video call, a text service, or an Internet service through a communication network (eg, LTE, LTE-A, CDMA, WCDMA, UMTS, WiBro, GSM, etc.). In addition, the cellular module 2221 may distinguish and authenticate electronic devices within a communication network using, for example, a subscriber identification module (eg, a SIM card 2224). According to an embodiment, the cellular module 2221 may perform at least some of the functions that can be provided by the AP 2210. For example, the cellular module 2221 may perform at least a part of a multimedia control function.

According to an embodiment, the cellular module 2221 may include a Communication Processor (CP). In addition, the cellular module 2221 may be implemented as an SoC, for example. In FIG. 22, components such as the cellular module 2221 (for example, a communication processor), the memory 2230, or the power management module 2295 are shown as separate components from the AP 2210, but according to an embodiment, the AP 2210 It may be implemented to include at least some of the above-described components (for example, the cellular module 2221).

According to an embodiment, the AP 2210 or the cellular module 2221 (for example, a communication processor) loads and processes a command or data received from at least one of a nonvolatile memory or other components connected to each of the volatile memory. can do. In addition, the AP 2210 or the cellular module 2221 may store data received from at least one of the other components or generated by at least one of the other components in a nonvolatile memory.

Each of the Wifi module 2223, the BT module 2225, the GPS module 2227, or the NFC module 2228 may include, for example, a processor for processing data transmitted and received through a corresponding module. In FIG. 22, a cellular module 2221, a Wifi module 2223, a BT module 2225, a GPS module 2227, or an NFC module 2228 are shown as separate blocks, respectively, but according to an embodiment, cellular module 2221, Wifi module 2223, BT module 2225, GPS At least some (eg, two or more) of the module 2227 or the NFC module 2228 may be included in one integrated chip (IC) or IC package. For example, at least some of the processors corresponding to each of the cellular module 2221, the Wifi module 2223, the BT module 2225, the GPS module 2227, or the NFC module 2228 (e.g., a communication processor corresponding to the cellular module 2221 and a Wifi module corresponding to 2223 Wifi processor) can be implemented with one SoC.

The RF module 2229 (eg, the first RF unit 213 and the second RF unit 313) may transmit/receive data, eg, transmit/receive an RF signal. Although not shown, the RF module 2229 may include, for example, a transceiver, a power amp module (PAM), a frequency filter, or a low noise amplifier (LNA). In addition, the RF module 2229 may further include a component for transmitting and receiving an electromagnetic wave in a free space in wireless communication, for example, a conductor or a conducting wire. In FIG. 22, the cellular module 2221, the Wifi module 2223, the BT module 2225, the GPS module 2227, and the NFC module 2228 are shown to share one RF module 2229 with each other, but according to one embodiment, the cellular module 2221, the Wifi module 2223 At least one of the BT module 2225, the GPS module 2227, and the NFC module 2228 may transmit/receive an RF signal through a separate RF module.

The SIM card 2224 may be a card including a subscriber identification module, and may be inserted into a slot formed at a specific location of the electronic device. The SIM card 2224 may include unique identification information (eg, integrated circuit card identifier (ICCID)) or subscriber information (eg, international mobile subscriber identity (IMSI)).

The memory 2230 (eg, the memory 1330, the first memory unit 209, and the second memory unit 309) may include an internal memory 2232 or an external memory 2234. The built-in memory 2232 may be, for example, a volatile memory (e.g., dynamic RAM (DRAM), static RAM (SRAM), synchronous dynamic RAM (SDRAM), etc.)) or a non-volatile memory (e.g., , At least one of OTPROM (one time programmable ROM), PROM (programmable ROM), EPROM (erasable and programmable ROM), EEPROM (electrically erasable and programmable ROM), mask ROM, flash ROM, NAND flash memory, NOR flash memory, etc.) It may include.

According to an embodiment, the internal memory 2232 may be a solid state drive (SSD). The external memory 2234 is a flash drive, for example, compact flash (CF), secure digital (SD), micro secure digital (Micro-SD), mini secure digital (Mini-SD), extreme digital (xD), or a Memory Stick. And the like may be further included. The external memory 2234 may be functionally connected to the electronic device 2200 through various interfaces. According to an embodiment, the electronic device 2200 may further include a storage device (or storage medium) such as a hard drive.

According to various embodiments of the present disclosure, the memory 2230 may store at least one of a reference image received by the image acquisition control device, a change guide in which a reference guide is changed, a received acquired image, and a matrix guide. Also, the memory 2230 may store at least one of a reference image, an acquired image, and a group image acquired in relation to the matrix guide collected by the image collection device.

The sensor module 2240 (e.g., a first motion detector 211, a second motion detector 311, a first sensor module 1390, a second sensor module, etc.) measures a physical quantity or detects the operation state of the electronic device 2200, and measures or The sensed information can be converted into an electrical signal. The sensor module 2240 is, for example, a gesture sensor 2240A, a gyro sensor 2240B, an atmospheric pressure sensor 2240C, a magnetic sensor 2240D, an acceleration sensor 2240E, a grip sensor 2240F, a proximity sensor 2240G, a color sensor 2240H (e.g., RGB (red, green, blue) sensor), a biometric sensor 2240I, a temperature/humidity sensor 2240J, an illuminance sensor 2240K, or an ultra violet (UV) sensor 2240M. Additionally or alternatively, the sensor module 2240 may include, for example, an olfactory sensor (E-nose sensor, not shown), an EMG sensor (electromyography sensor, not shown), an EEG sensor (electroencephalogram sensor, not shown), and an ECG sensor ( An electrocardiogram sensor, not shown), an infrared (IR) sensor (not shown), an iris sensor (not shown), or a fingerprint sensor (not shown). The sensor module 2240 may further include a control circuit for controlling at least one or more sensors included therein.

The input device 2250 (e.g., a first input unit 207, a second input unit 307, an input/output interface 1340) includes a touch panel 2252, a (digital) pen sensor 2254, a key 2256, or ultrasonic ) It may include an input device 2258. The touch panel 2252 may recognize a touch input using at least one of a capacitive type, a pressure sensitive type, an infrared type, or an ultrasonic type. In addition, the touch panel 2252 may further include a control circuit. In the case of capacitive type, physical contact or proximity recognition is possible. The touch panel 2252 may further include a tactile layer. In this case, the touch panel 2252 may provide a tactile reaction to a user.

The (digital) pen sensor 2254 may be implemented using, for example, a method identical or similar to that of receiving a user's touch input or a separate recognition sheet. The key 2256 may include, for example, a physical button, an optical key, or a keypad. The ultrasonic input device 2258 is a device that can check data by detecting sound waves with a microphone (eg, a microphone 2288) in the electronic device 2200 through an input tool that generates an ultrasonic signal, and can perform wireless recognition. According to an embodiment, the electronic device 2200 may receive a user input from an external device (eg, a computer or a server) connected thereto by using the communication module 2220.

The display 2260 (eg, the display 1350, the display 1450, the first display unit 205, and the second display unit 305) may include a panel 2262, a hologram device 2264, or a projector 2266. The panel 2262 may be, for example, a liquid-crystal display (LCD) or an active-matrix organic light-emitting diode (AM-OLED). The panel 2262 may be implemented, for example, to be flexible, transparent, or wearable. The panel 2262 may be configured with the touch panel 2252 as a single module. The hologram device 2264 may show a 3D image in the air by using interference of light. The projector 2266 may display an image by projecting light onto a screen. The screen may be located inside or outside the electronic device 2200, for example. According to an embodiment, the display 2260 may further include a control circuit for controlling the panel 2262, the hologram device 2264, or the projector 2266.

According to various embodiments of the present disclosure, the display 2260 in the image acquisition control device may output at least one of a received reference image, a first reference guide, and a first change guide. In addition, the display 2260 in the image acquisition control device may display a matrix guide and an acquired image or group image arranged in each of the regions. The display 2260 in the image collection device may output at least one of the collected reference image, the second reference guide, and the second change guide. Also, the display 2260 in the image acquisition device may output the same matrix guide as the matrix guide displayed on the image acquisition control device. The display 2260 of the image collection device may arrange an image captured by the camera module at predetermined points of the matrix guide.

The interface 2270 may include, for example, a high-definition multimedia interface (HDMI) 2272, a universal serial bus (USB) 2274, an optical interface 2276, or a D-subminiature (D-sub) 2278. The interface 2270 may be included in, for example, the communication interface 1360 illustrated in FIG. 13. Additionally or alternatively, the interface 2270 includes, for example, a mobile high-definition link (MHL) interface, a secure digital (SD) card/multi-media card (MMC) interface, or an infrared data association (IrDA) standard interface. can do.

The audio module 2280 may convert a sound and an electric signal bidirectionally. At least some components of the audio module 2280 may be included in, for example, the input/output interface 1340 illustrated in FIG. 13. The audio module 2280 may process sound information input or output through, for example, a speaker 2282, a receiver 2284, an earphone 2286, or a microphone 2288.

According to various embodiments of the present disclosure, the audio module 2280 may output at least one audio data related to operation of an image acquisition control device or operation of an image collection device. For example, the audio module 2280 in the image collection device includes audio data related to collection of a reference image, audio data guiding a reference image transmission, audio data related to a second reference guide output, audio data related to a second change guide output, and a second Audio data guiding the motion of the image collection device for adjusting the change guide, audio data guiding whether the second reference guide and the second change guide are aligned or similarly arranged, audio data guiding the automatic image acquisition, and At least one of audio data guiding transmission may be output. The audio module 2280 in the image acquisition control apparatus includes audio data guiding a shooting composition control function, audio data guiding reception of a reference image or reception of an acquired image, a second reference guide and a second change guide, or a first reference guide. Audio data indicating whether the first change guide is identical or similar may be output.

The camera module 2291 (e.g., a first camera unit 203, a second camera unit 303, a first camera module 1380, a second camera module, etc.) is a device capable of photographing still images and moving pictures. The above image sensor (eg, a front sensor or a rear sensor), a lens (not shown), an image signal processor (ISP), or a flash (not shown) (eg, an LED or xenon lamp) may be included.

The power management module 2295 may manage power of the electronic device 2200. Although not shown, the power management module 2295 may include, for example, a power management integrated circuit (PMIC), a charger integrated circuit (IC), or a battery or fuel gauge.

The PMIC may be mounted in, for example, an integrated circuit or an SoC semiconductor. Charging methods can be divided into wired and wireless. The charger IC may charge a battery and prevent overvoltage or overcurrent from flowing from a charger. According to an embodiment, the charger IC may include a charger IC for at least one of a wired charging method or a wireless charging method. The wireless charging method includes, for example, a magnetic resonance method, a magnetic induction method, or an electromagnetic wave method, and additional circuits for wireless charging, for example, a circuit such as a coil loop, a resonance circuit, or a rectifier may be added. have.

The battery gauge may measure, for example, the remaining amount of the battery 2296 and a voltage, current, or temperature during charging. The battery 2296 may store or generate electricity, and supply power to the electronic device 2200 by using the stored or generated electricity. The battery 2296 may include, for example, a rechargeable battery or a solar battery.

The indicator 2297 may display a specific state of the electronic device 2200 or a part thereof (eg, the AP 2210), for example, a boot state, a message state, or a charging state. The motor 2298 may convert an electrical signal into mechanical vibration. Although not shown, the electronic device 2200 may include a processing device (eg, a GPU) for supporting mobile TV. The processing device for supporting mobile TV may process media data according to standards such as digital multimedia broadcasting (DMB), digital video broadcasting (DVB), or media flow.

According to various embodiments of the present disclosure, in a photographing composition control function between the image acquisition control device and the image acquisition device, at least one of the image acquisition control device and the image acquisition device may omit the output of the reference guide. For example, the image acquisition control device may output only the reference image and output only the first change guide to the display in response to a touch event or a sensor value. In addition, the image acquisition control device may transmit the arrangement state information of the first change guide as guide change information to the image collection device. The image collection device may display a second change guide corresponding to the arrangement state of the first change guide. According to various embodiments, the above-described first change guide or second change guide includes information related to at least one of text, image, audio data, or haptic pattern (position adjustment, direction adjustment, and size adjustment) of the device. ) Can be included.

Each of the above-described components of the electronic device according to various embodiments of the present disclosure may be composed of one or more components, and the name of the corresponding component may vary according to the type of the electronic device. An electronic device according to various embodiments of the present disclosure may include at least one of the above-described components, and some components may be omitted or additional other components may be further included. In addition, some of the constituent elements of an electronic device according to various embodiments of the present disclosure are combined to form a single entity, so that functions of the corresponding constituent elements before the combination may be performed in the same manner.

The term “module” used in various embodiments of the present disclosure may mean a unit including one or a combination of two or more of hardware, software, or firmware, for example. “Module” may be used interchangeably with terms such as unit, logic, logical block, component, or circuit. “Module” may be the smallest unit or part of an integrally configured part. “Module” may be a minimum unit or a part of one or more functions. The “module” can be implemented mechanically or electronically. For example, a "module" according to various embodiments of the present invention is known or developed in the future, an application-specific integrated circuit (ASIC) chip, field-programmable gate arrays (FPGAs), or programmable logic that performs certain operations. It may include at least one of programmable-logic devices.

According to various embodiments, at least a part of an apparatus (eg, modules or functions thereof) or a method (eg, operations) according to various embodiments of the present disclosure may be read by a computer in the form of, for example, a programming module. It can be implemented as a command stored in a computer-readable storage media. When the instruction is executed by one or more processors (eg, the processor), the one or more processors may perform a function corresponding to the instruction. The computer-readable storage medium may be, for example, the memory. At least a part of the programming module may be implemented (eg, executed) by the processor, for example. At least a part of the programming module may include, for example, a module, a program, a routine, a set of instructions or a process for performing one or more functions.

According to various embodiments, the command includes a command for receiving guide change information for guiding a change in a photographing composition related to the transmitted reference image, and for performing an operation for displaying a change guide corresponding to the guide change information, It can support the operation of the image acquisition control device. According to various embodiments, the command includes an operation of receiving a reference image and an operation of displaying a change guide corresponding to a change in a photographing composition related to the reference image in response to an event occurrence, and may support operation of an image collection device. have.

The computer-readable recording medium includes magnetic media such as hard disks, floppy disks, and magnetic tapes, and optical recording media such as Compact Disc Read Only Memory (CD-ROM) and Digital Versatile Disc (DVD). Media), Magnetic-Optical Media such as a floptical disk, and program commands such as read only memory (ROM), random access memory (RAM), flash memory, etc. A hardware device specially configured to store and perform modules). Further, the program instruction may include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The above-described hardware device may be configured to operate as one or more software modules to perform operations of various embodiments of the present invention, and vice versa.

A module or a programming module according to various embodiments of the present disclosure may include at least one or more of the above-described elements, some of the above-described elements may be omitted, or may further include additional other elements. Operations performed by a module, a programming module, or other components according to various embodiments of the present disclosure may be executed sequentially, in parallel, repeatedly, or in a heuristic manner. In addition, some operations may be executed in a different order, omitted, or other operations may be added.

In addition, the embodiments of the present invention disclosed in the present specification and drawings are provided only to provide specific examples in order to easily explain the technical content of according to the embodiments of the present invention and to aid understanding of the embodiments of the present invention, and the scope of the embodiments of the present invention I am not trying to limit it. Therefore, the scope of the various embodiments of the present invention should be interpreted as being included in the scope of the various embodiments of the present invention in addition to the embodiments disclosed herein, all changes or modified forms derived based on the technical idea of the various embodiments of the present invention.

101: first mobile terminal 103: second mobile terminal
201: first control unit 203: first camera unit
205: first display unit 207: first input unit
209: first memory unit 211: first motion detection unit
213: first RF unit 215: first data processing unit
217: first acoustic processing unit 219: first near-field communication unit
301: second control unit 303: second camera unit
305: second display unit 307: second input unit
309: second memory unit 311: second motion detection unit
313: second RF unit 315: second data processing unit
317: second sound processing unit 319: second near-field communication unit
1300: image acquisition control device 1400, 1401, 1402: image acquisition device
1370: first data processing module 1470: second data processing module

Claims (36)

delete delete delete delete delete delete delete delete delete delete delete delete A communication interface for forming a communication channel with an external electronic device and receiving a reference image from the external electronic device;
A display for displaying the reference image and a designated reference guide related to the reference image;
Receives an event requesting a change in the shooting composition of the reference image, displays a change guide whose shooting composition is changed in response to the reception of the event, and displays information on the arrangement state of the change guide or between the reference guide and the change guide. And a data processing module configured to transmit guide change information including at least one of the difference values to the external electronic device. delete The method of claim 13,
The data processing module
The electronic device controlling the display of the change guide in which the arrangement state of the reference guide is changed in response to the occurrence of the event. The method of claim 13,
The data processing module
An electronic device controlling the display of the change guide in which at least one of the position, direction, size, or color of the reference guide is adjusted in response to a type of a touch event. The method of claim 13,
The data processing module
An electronic device that controls the display of the change guide in which the arrangement state of the reference guide is adjusted in response to a sensor value related to the device movement. delete The method of claim 13,
The data processing module
An electronic device that divides a display area of the display and controls to output a change guide in a matrix form in which the reference image is arranged in at least one divided area. The method of claim 19,
The data processing module
Control so that information on regions selected in response to the event in the matrix-type change guide is transmitted to the device that has collected the reference image,
When an image of the selected regions is received, an electronic device that arranges the received image in each selected region of the matrix-shaped change guide. The method of claim 19,
The data processing module
An electronic device that controls to display a selected area of the matrix-shaped change guide area on a full screen in response to occurrence of a specified event. The method of claim 19,
The data processing module
An electronic device that adjusts at least one of the number of divided regions of the matrix-shaped change guide or the arrangement position of the reference image in response to occurrence of a specified event. A camera module for collecting a reference image;
A communication interface for transmitting the reference image to an external electronic device;
A display outputting the reference image;
Including; a data processing module for controlling the transmission and output of the reference image,
The data processing module
Receives guide change information for guiding change of the photographing composition related to the reference image from the external electronic device, and displays a change guide corresponding to the guide change information on a display on which the reference image is displayed, and a designated reference guide and the change An electronic device that controls the guide to output a message prompting to have or match a specified arrangement. delete The method of claim 23,
The data processing module
An electronic device that adjusts an arrangement state of the change guide based on a sensor value collected in response to the device movement. The method of claim 23,
The data processing module
When the change guide has a specified arrangement, an electronic device that controls to output a message inducing video capture. The method of claim 23,
The data processing module
An electronic device that controls an image to be automatically captured when the change guide has a specified arrangement. The method of claim 27,
The data processing module
An electronic device that controls the captured acquired image to be transmitted to a device providing the guide change information. The method of claim 23,
The data processing module
An electronic device that controls the display of a matrix guide in which the reference image is disposed in a predetermined area in which the display area of the display is divided, corresponding to the guide change information. The method of claim 29,
The data processing module
An electronic device that controls the matrix guide having a size smaller than the entire display area to be output to a predetermined area of the display. The method of claim 29,
The data processing module
The electronic device controlling the matrix guide having a certain transparency or a matrix mini-guide having a size smaller than the entire area of the display to be output to a certain area of the display. The method of claim 29,
The data processing module
An electronic device that controls to output a guide message inducing device movement so that images corresponding to selected areas of the matrix guide are captured. The method of claim 32,
The data processing module
An electronic device that automatically controls an image to be captured when entering a photographing composition corresponding to the selected regions. The method of claim 33,
The data processing module
An electronic device that controls to transmit a group image photographed corresponding to the selection regions to a device that has provided the guide change information. delete delete

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