JP6657929B2 - Portable device, system, control method, and program - Google Patents

Description

  The present invention relates to a technique for controlling photographing of a camera provided with an imaging unit, and more particularly to a technique for performing automatic photographing using a portable device such as a wrist terminal that cooperates with the camera.

2. Description of the Related Art Conventionally, a technique for instructing an image of a camera from a remote position by a remote controller has been known.
Conventionally, there has been known a technology in which an acceleration sensor or a human sensor is provided in a camera, and an image is automatically captured based on a sensing result of the sensor (for example, see Patent Document 1).

JP 2015-159383 A

  However, in the related art in which imaging is instructed by a remote controller, for example, an operation of pressing a shutter button of the remote controller is required, and there is a problem that a natural pose or the like of a subject operating the remote controller is prevented.

  Further, in the related art in which the automatic photographing is performed based on the sensing result of the sensor, there is a problem that the photographing may be performed due to an unexpected movement of the subject.

  Therefore, an object of the present invention is to make it possible to reliably capture a shooting instruction and control automatic shooting of a remote camera.

In an example of an aspect, in a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate, a sensor unit that detects a movement, a communication control unit that cooperates with the camera, and a sensor unit In the process of continuously detecting a predetermined movement a plurality of times within a predetermined period , the first processing is executed when the predetermined movement is detected halfway through the communication control unit for the camera. A control unit that transmits an instruction and transmits an execution instruction of a second process different from the first process at the time of detecting the last time of a predetermined movement, thereby completing a predetermined series of photographing processes. Prepare.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible for a portable apparatus to capture | acquire an imaging | photography instruction | indication reliably, and to control the automatic imaging | photography of the camera in a remote place.

It is a figure showing cooperation of a camera, a wrist terminal, and a controller in an embodiment of a photography system. It is a block diagram of a camera and a wrist terminal. It is a flow chart which shows an example of photography control processing of a wrist terminal and a camera. It is explanatory drawing of a pairing connection. FIG. 9 is an explanatory diagram of a display area control process. It is a figure showing an example of a screen transition of a list side display part at the time of photography execution.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram illustrating cooperation between a camera 101, a wrist terminal 102, and a controller 103 in an embodiment of a photographing system 100. The camera 101 is a main body that performs shooting, and the controller 103 is provided together with the camera 101, is a portable device that is detachably connected to the camera 101, and can control shooting of the camera 101. The wrist terminal 102 is a portable device provided separately from the camera 101 and the controller 103. The wrist terminal 102 operates as a normal digital wristwatch, and can control shooting of the camera 101 as a wristwatch-type smartphone. The camera 101 holds information on two pairing connections of the controller 103 and the wrist terminal 102, and can exclusively switch to and connect to one of them. When the camera 101 and the controller 103 are in a pairing connection, the power of the controller 103 is turned off, and then the camera application of the wrist terminal 102 (hereinafter referred to as “camera application”) is started. Can be paired (step 110 in FIG. 1). When the camera application of the wrist terminal 102 is terminated while the camera 101 and the wrist terminal 102 are being paired, the pairing connection between the camera 101 and the wrist terminal 102 is disconnected. Thereafter, when the power of the controller 103 is turned on, the camera 101 and the controller 103 can be paired and connected (120 in FIG. 1).

  The wrist terminal 102 or the controller 103 illustrated in FIG. 1 includes a sensor unit that detects a movement and a communication control unit that cooperates with the camera 101, and the sensor unit performs a predetermined movement within a predetermined period, such as the wrist terminal 102. When the camera has been attached or the swing of the arm holding the controller 103 has been detected at least three times in succession, the camera 101 can be instructed to shoot through the communication control unit. Releases the shutter. By causing the shutter to be released by detecting a predetermined movement three times, it is possible to prevent a malfunction in which the shutter is released due to an unexpected movement on the wrist terminal 102 or the controller 103 side. In this case, in the process where the predetermined motion is continuously detected a plurality of times, an execution instruction of the first process is issued when the intermediate motion is detected, and the first process is executed when the final motion is detected. By performing an instruction to execute a second process different from the above, a predetermined series of photographing processes may be completed. Specifically, the wrist terminal 102 or the controller 103 transmits a shooting mode execution instruction when the sensor unit detects a predetermined movement twice in succession, and further continuously performs a third predetermined movement. When the detected motion is detected, an instruction to execute shooting is transmitted. When the camera 101 receives an instruction to execute a shooting mode from the wrist terminal 102 or the controller 103, the camera 101 executes processing including auto-focus (auto-focus) control and automatic exposure control. When a predetermined execution instruction is received, the shutter is released with the current focus and exposure.

  FIG. 2 is a block diagram of the camera 101 and the wrist terminal 102 of FIG. As shown in FIG. 2, the camera 101 in FIG. 1 includes a camera-side control unit 201, a camera-side sensor unit 202, a camera-side storage unit 203, a camera-side communication control unit 204, and an imaging device 205. The imaging device 205 includes an imaging lens such as an optical lens for photographing, a charge coupled device (CCD), and a complementary metal oxide semiconductor (CMOS), an electronic shutter, a timing control circuit, and a zoom mechanism. And a camera shake correction mechanism. The camera-side storage unit 203 is a memory that stores a still image, a continuously shot image, a moving image, and the like captured by the imaging device 205. The camera-side storage unit 203 is also used as a work memory. The camera-side communication control unit 204 is an integrated circuit that controls wireless communication with the wrist terminal 102. The camera-side control unit 201 controls the overall operation of the camera 101, and incorporates a CPU (Central Processing Unit) and a ROM (Read Only Memory: read-only memory) storing a camera-side shooting control program. Integrated circuit. The camera-side sensor unit 202 will be described later.

  Next, as shown in FIG. 2, the wrist terminal 102 of FIG. 1 includes a wrist-side control unit 211, a wrist-side sensor unit 212, a wrist-side storage unit 213, a wrist-side communication control unit 214, a wrist-side display unit 215, And a list-side operation unit 216. The list-side communication control unit 214 is an integrated circuit that controls wireless communication with the camera-side communication control unit 204 in the camera 101. The list-side storage unit 213 is a memory that stores a still image, a continuously shot image, a moving image, and the like, which are captured by the camera 101 and transmitted through the camera-side communication control unit 204 and the list-side communication control unit 214. The list storage unit 213 is also used as a work memory. The list-side display unit 215 displays image data transmitted from the camera 101 via the camera-side communication control unit 204 and the list-side communication control unit 214, image data stored in the list-side storage unit 213, and other menus. For example, a liquid crystal display. The list-side display unit 215 displays a video through image as a viewfinder of a captured image of the camera 101 located at a remote place, and is used as a monitor of the captured image. Therefore, the finder image and the automatically photographed image can be immediately viewed at hand. It is also assumed that the camera 101 is placed out of sight of the user, and there is an effect that the user can always see what can be taken and can immediately see what was taken. The wrist-side operation unit 216 is hardware for performing various operation inputs, and includes, for example, a touch panel integrally formed with the liquid crystal display of the wrist-side display unit 215 and operation buttons and the like installed on the side of the case of the wrist terminal 102. is there. The wrist-side control unit 211 is an integrated circuit that controls the entire operation of the wrist terminal 102 and includes a CPU and a ROM that stores a wrist-side shooting control program. The wrist-side sensor unit 212 will be described later.

  The configuration of the controller 103 in FIG. 1 is substantially the same as the configuration of the wrist terminal 102, and thus the description thereof is omitted. In the following description, the wrist terminal 102 will be specifically described together with the camera 101, but the controller 103 is the same as the wrist terminal 102.

  Here, the camera-side sensor unit 202 and the wrist-side sensor unit 212 will be described. These sensor units are for causing the camera 101 to execute automatic photographing according to the sensing result. The sensors included in the camera-side sensor unit 202 and the wrist-side sensor unit 212 may be the same, may be different, or may be one of them.

  Here, in particular, the wrist-side sensor unit 212 is for measuring the operation of the wrist terminal 102, and includes at least one of a speed sensor, an acceleration sensor, and a gyro sensor (angular speed sensor). In addition, although not directly related to the present embodiment, the wrist-side sensor unit 212 includes an altitude sensor, a GPS (Global Positioning System) sensor (position detection), a clock (time detection), and a step count sensor. (Step detection), microphone (voice detection), barometric pressure sensor, temperature sensor, and the like may be included. In the present embodiment, in particular, when the wrist-side control unit 211 continuously detects a predetermined movement, for example, the swing of the arm on which the wrist terminal 102 is mounted three times based on the sensing result of the wrist-side sensor unit 212, This is for instructing the camera 101 to shoot by pressing the shutter.

  The operation of the present embodiment having the configuration shown in FIGS. 1 and 2 will be described below. FIG. 3 is a flowchart illustrating an example of a shooting control process of the wrist terminal 102 and the camera 101. A part surrounded by a dashed-dotted frame A in FIG. 3 indicates a photographing control process on the wrist terminal 102 side, and this process is stored in a ROM incorporated in the wrist-side control unit 211 or the wrist-side storage unit 213. This is the operation of executing the wrist-side photographing control program installed in the program. A portion surrounded by an alternate long and short dash line frame B in FIG. 3 indicates a shooting control process on the camera 101 side, and this process executes a camera-side shooting control program stored in a ROM incorporated in the camera-side control unit 201. Operation.

  First, the list-side control unit 211 and the camera-side control unit 201 execute a pairing connection process via the camera-side communication control unit 204 and the list-side communication control unit 214 (S301 and S351 in FIG. 3). As the pairing connection, for example, a Bluetooth (Bluetooth) system ("Bluetooth" is a registered trademark of "Bluetooth SIG, Inc.") can be adopted. Bluetooth is a trademark of The Institute of Electrical and Electronics Engineers, Inc. This is a wireless communication standard defined by the IEEE 802.15 Working Group established by the IEEE 802 Committee. In addition to Bluetooth, a Wi-Fi method using a wireless communication standard defined by IEEE 802.11 managed by Wi-Fi Alliance (“Wi-Fi” is a registered trademark of the “Wi-Fi Alliance”) ), An infrared communication method, or the like, the pairing connection may be executed.

  FIG. 4 is an explanatory diagram of the pairing connection. In the normal clock display of the wrist terminal 102 illustrated in FIG. 4A, the user presses the down key button 201 or selects a pairing connection from the application menu. As a result, in a state where the wrist terminal 102 and the camera 101 have not yet been paired, the wrist-side control unit 211 shifts to a process of detecting a camera, and the wrist-side display unit 215 displays FIG. "Searching ..." screen is displayed. If the detection of the camera 101 fails as a result of this detection processing, the list-side control unit 211 displays an error screen “camera not found” as illustrated in FIG. In this screen display, the user performs, for example, a left flick operation on the liquid crystal touch panel (list-side operation unit 216) of the list-side display unit 215. Here, the left flick operation refers to an operation of quickly moving or playing a finger to the left on the touch panel. As a result, the list-side control unit 211 displays a retry screen illustrated in FIG. If the user further taps, for example, the “RETRY” button displayed on the liquid crystal touch panel of the list side display unit 215, the screen returns to the “Searching ...” screen illustrated in FIG.

  As a result of the detection processing, when the camera 101 is found and the pairing connection between the wrist terminal 102 and the camera 101 is established, the camera-side control unit 201 shifts to the video through mode (S352 in FIG. 3), and the imaging device 205 Sequentially transmits frame-by-frame image data to be imaged at predetermined frame periods to the wrist terminal 102 via the camera-side communication control unit 204. When the list-side control unit 211 sequentially receives the image data via the list-side communication control unit 214, the list-side display unit 215 displays a video through image on the list-side display unit 215 based on the image data, as shown in FIG. Display as illustrated. At this time, the list-side control unit 211 causes the liquid crystal screen of the list-side display unit 215 to display a partial area within the display range of the list-side display unit 215 among the image areas corresponding to the received image data. More specifically, the list-side control unit 211 may cause the list-side display unit 215 to display a central area of the image area corresponding to the received image data that falls within the display range of the list-side display unit 215. Alternatively, the list-side control unit 211 executes the face recognition process on the received image data, so that the face of the subject is included in the image area corresponding to the image data and is displayed in the display range of the list-side display unit 215. A part of the area that can be accommodated may be displayed on the list-side display unit 215 (S302 in FIG. 3).

  Next, when the list-side control unit 211 displays the partial area on the list-side display unit 215, the list-side sensor unit 212 in FIG. It is determined whether or not it has been detected that the moving operation has been performed (S303 in FIG. 3). If the determination in S303 is YES, the list-side control section 211 converts the partial area displayed on the list-side display section 215 within the image area corresponding to the currently received image data to the above-described moving operation. (S304 in FIG. 3). FIG. 5 is an explanatory diagram of the display area control processing in S304. In the video through display of FIG. 5A similar to that of FIG. 4E, when the user tilts the wrist terminal 102 in the up, down, left, and right directions, for example, an acceleration sensor of the wrist side sensor unit 212 detects the movement. As a result, the list-side control unit 211 changes the partial area to be displayed on the list-side display unit 215 from, for example, the display range of FIG. The display is moved to the display range of FIG. 5B or the display range of FIG. Thereafter, the list-side control unit 211 executes the processing of S302 again via S305 and S306 in FIG. 3 described later, thereby changing the display range of the list-side display unit 215 to the display illustrated in FIG. From the range, it can be slid to the display range illustrated in FIG. 5B or 5C. As described above, in the present embodiment, in the video through display state before photographing, the entire photographing range of the camera 101 can be easily viewed by simply moving the wrist terminal 102 up, down, left, and right. For example, when it is lowered downward, it is possible to appropriately select whether the upper part or the lower part of the hidden display range is visible. If the user does not execute this tilting operation and the determination in S303 is NO, the list-side control unit 211 skips the processing in S304.

  Next, the wrist-side control unit 211 determines whether or not the user has designated the play mode by performing an upward flick operation on, for example, the liquid crystal touch panel (the wrist-side operation unit 216) of the wrist-side display unit 215 (FIG. 3 S305).

  If the determination in S305 is NO, the wrist-side control unit 211 detects whether the wrist-side sensor unit 212 in FIG. 2 has performed a predetermined motion (predetermined motion), for example, a motion of waving the arm. It is determined whether or not it is (S306 in FIG. 3).

  If the user has not performed such an operation and the determination in S306 is NO, the list-side control unit 211 returns to the video through display in S302.

  If the user performs, for example, an arm swinging operation and the determination in S306 is YES, the wrist-side control unit 211 further transmits the wrist-side sensor unit 212 in FIG. 2 within a predetermined period (for example, about 1 to 2 seconds). Then, it is determined whether or not the second arm swing motion has been detected (S307 in FIG. 3).

  If the user does not continuously perform the second arm swing operation and the determination in S307 is NO, the wrist-side control unit 211 returns to the video through display in S302.

  When the user continuously performs the second arm swing operation and the determination in S307 is YES, the wrist-side control unit 211 transmits an instruction to execute the shooting mode to the camera 101 via the wrist-side communication control unit 214. I do. Upon receiving the shooting mode execution instruction via the camera-side communication control unit 204, the camera-side control unit 201 causes the imaging device 205 to execute auto-focus control and automatic exposure control (S353 in FIG. 3). Thereafter, the wrist-side communication control unit 214 further determines whether or not the wrist-side sensor unit 212 in FIG. 2 detects the user's third consecutive arm swing operation within a predetermined period (for example, about 1 to 2 seconds). Is determined (S308 in FIG. 3).

  If the user does not continuously perform the third arm swing operation and the determination in S308 is NO, the list-side control unit 211 returns to the video through display in S302.

  When the user continuously performs the third arm swing operation and the determination in S308 is YES, the wrist-side control unit 211 transmits a shooting execution instruction to the camera 101 via the wrist-side communication control unit 214. . When the camera-side control unit 201 receives a photographing execution instruction via the camera-side communication control unit 204, the camera-side control unit 201 causes the imaging device 205 to release the shutter in the current focus and exposure state and perform photographing. At this time, the camera-side control unit 201 issues a shooting instruction to the imaging device 205 in consideration of a time delay due to wireless communication between the list-side communication control unit 214 and the camera-side communication control unit 204 (see above). , S354 in FIG. 3).

  After causing the imaging device 205 to execute imaging, the camera-side control unit 201 transmits image data of the imaging result output by the imaging device 205 to the wrist terminal 102 via the camera-side communication control unit 204 as a preview image. (S355 in FIG. 3). The list-side control unit 211 displays the preview image received by the list-side communication control unit 214 on the list-side display unit 215 for, for example, about 0.5 to 1.5 seconds (S309 in FIG. 3), and then executes S302. Return to the video through display of.

  FIG. 6 is a diagram illustrating an example of screen transition of the list-side display unit 215 at the time of executing the above-described shooting. In the video through display of FIG. 6A similar to that of FIG. 4E, when the user performs the arm swing operation three times in succession, the list-side control unit 211 causes the list-side display unit 215 to display FIG. ) Is displayed, and the camera 101 is instructed to execute shooting. When the photographing by the camera 101 is completed, the list-side control unit 211 displays, for example, the central area of the preview image sent from the camera 101 on the list-side display unit 215, for example, as shown in FIG. After the seconds are displayed, the display returns to the video through display of FIG.

  In this way, according to the present embodiment, the user can release the shutter of the camera 101 only when a predetermined arm swing operation is performed three times, for example. With this control, it is possible to prevent the photographing from being executed due to an unexpected movement, and it is possible to reliably capture the photographing instruction from the user and control the automatic photographing of the camera at a remote place.

  In the video through display, when the user instructs the play mode and the determination in S305 in FIG. 3 becomes YES, the wrist-side control unit 211 transmits the monitor image to the camera 101 via the wrist-side communication control unit 214. A transmission request is transmitted (S310 in FIG. 3). Upon receiving the transmission request via the camera-side communication control unit 204, the camera-side control unit 201 receives, for example, the last captured image (hereinafter referred to as a “monitor image”) stored in the camera-side storage unit 203 in FIG. Is transmitted to the wrist terminal 102 via the camera-side communication control unit 204 (S356 in FIG. 3). The list-side control unit 211 causes the list-side display unit 215 to display the data of the monitor image received via the list-side communication control unit 214 (S310 in FIG. 3).

  When the user performs a leftward or rightward flick operation on the liquid crystal touch panel (list side operation unit 216) of the list side display unit 215 while the monitor image is displayed in S310, the list side control unit 211 A transmission request for the previous or next monitor image is transmitted to the camera 101 via the side communication control unit 214. When the camera-side control unit 201 receives the transmission request for the previous or next image via the camera-side communication control unit 204, the monitor for the previous or next image stored in the camera-side storage unit 203 is received. The image data is transmitted to the wrist terminal 102 via the camera-side communication control unit 204. The list-side control unit 211 causes the list-side display unit 215 to display the data of the previous or previous monitor image received via the list-side communication control unit 214. In this way, the user can display the captured image stored in the camera 101 on the liquid crystal screen of the wrist terminal 102 by a simple left and right flick operation on the liquid crystal touch panel of the list side display unit 215. Can be.

  In the display of the monitor image, the list-side control unit 211 performs the same control operation of the display area in S311 and S312 as in steps S303 and S304 in the video slow display. That is, when the list-side control unit 211 causes the list-side display unit 215 to display a partial area of the monitor image, the list-side sensor unit 212 in FIG. It is determined whether or not it has been detected that the moving operation has been performed (S311 in FIG. 3). If the determination in S311 is YES, the list-side control unit 211 converts the partial area displayed on the list-side display unit 215 into the image area corresponding to the currently received monitor image data in accordance with the above-described movement operation. (S312 in FIG. 3). Thereafter, the list-side control unit 211 executes the process of S310 again through S313 of FIG. 3 described later, thereby changing the display range of the list-side display unit 215 from the display range illustrated in FIG. , FIG. 5B or FIG. 5C. As described above, in the present embodiment, even in the display state of the monitor image, the entire photographing range of the camera 101 can be easily seen only by the movement operation of sliding the wrist terminal 102 up, down, left, and right. If the user does not execute the slide operation and the determination in S311 is NO, the list-side control unit 211 skips the processing in S312.

  Thereafter, the wrist-side control unit 211 determines whether or not the user has instructed the end of the play mode, for example, by performing a downward flick operation on the liquid crystal touch panel (wrist-side operation unit 216) of the wrist-side display unit 215 ( S313 in FIG. 3).

  If the user has not instructed the end of the play mode and the determination in S313 is NO, the list-side control unit 211 returns to the monitor image display processing in S310. On the other hand, if the user instructs the end of the play mode and the determination in S313 is YES, the list-side control section 211 returns to the video through display processing in S302.

  In the above-described embodiment, when the photographing is performed in step S354 in FIG. 3, a plurality of subjects may be photographed with the exposure changed to, for example, about ± 1 to about ± 3.

  As described above, in the present embodiment, it is possible to issue a reliable photographing instruction while preventing a malfunction due to an unexpected operation by, for example, three consecutive arm swing operations by the user. In addition, an instruction to execute the shooting mode can be issued based on, for example, the second arm swing operation in the middle of such a continuous operation, and the shooting preparation can be completed quickly.

In the embodiment described above, the photographing control processing in the wrist terminal 102 has been described. However, the controller 103 in FIG. 1 can also perform the same photographing control processing as in the case of the wrist terminal 102.
Further, in the above-described embodiment, the case where the arm is shaken as the predetermined operation has been described, but the present invention is not limited to this, and an operation such as gripping the hand, shaking the wrist, etc. The operation to be performed may be detected by measuring the surface myoelectric potential or the like.

Regarding the above embodiments, the following supplementary notes are further disclosed.
(Appendix 1)
In a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate,
A sensor unit for detecting movement;
A communication control unit that cooperates with the camera;
When the sensor unit detects a predetermined movement continuously multiple times within a predetermined period, a control unit that instructs the camera to shoot via the communication control unit,
A portable device comprising:
(Appendix 2)
The communication control unit is paired with the camera,
A portable device according to attachment 1.
(Appendix 3)
The control unit is configured to detect the predetermined movement continuously and multiple times within the predetermined period by the sensor unit, and perform the predetermined movement of the camera via the communication control unit. By transmitting an execution instruction of the first process at the time of detection of the middle of the above, and transmitting an execution instruction of the second process different from the first process at the time of detecting the last time of the predetermined motion, Complete a predetermined series of shooting processes,
3. The portable device according to claim 1 or 2.
(Appendix 4)
The controller according to Supplementary notes 1 to 3, wherein the sensor unit instructs the camera to shoot via the communication control unit when the sensor unit detects a predetermined movement three times continuously within a predetermined period. A portable device according to any of the preceding claims.
(Appendix 5)
The control unit transmits an instruction to execute a shooting mode to the camera via the communication control unit when the sensor unit continuously detects the predetermined movement twice within the predetermined period. And subsequently, when the sensor unit detects the third predetermined movement, transmitting a shooting execution instruction,
A portable device according to attachment 4.
(Appendix 6)
The portable device according to any one of supplementary notes 1 to 5, wherein the portable device is a wrist terminal worn on an arm, and the detection of the predetermined movement is detection of a swing of an arm on which the wrist terminal is worn. Possible device.
(Appendix 7)
Further comprising a display unit,
The control unit, based on the image data transmitted from the camera, to display a partial area of the image area corresponding to the image data on the display unit,
7. The portable device according to any one of supplementary notes 1 to 6.
(Appendix 8)
The control unit, on the basis of the image data transmitted from the camera, to display the central region of the image region corresponding to the image data on the display unit,
A portable device according to attachment 7.
(Appendix 9)
The control unit performs a face recognition process on the image data transmitted from the camera, so that a partial area including the face of the subject in the image area corresponding to the image data is displayed on the display unit. To display,
A portable device according to attachment 7.
(Appendix 10)
The control unit, when displaying the partial area on the display unit, when the sensor unit detects a movement operation, the partial area to the movement operation in the image area corresponding to the image data 9. The portable device according to appendix 7 or 8, wherein the portable device is moved in a corresponding direction and displayed on the display unit.
(Appendix 11)
In a system in which a camera and a portable device wirelessly connected to the camera cooperate,
The portable device comprises:
A sensor unit for detecting movement;
A communication control unit that performs pairing cooperation with the camera,
When the pairing is established, the sensor unit instructs the camera to shoot via the communication control unit when the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period. A control unit to
A system comprising:
(Appendix 12)
The control unit transmits an instruction to execute a shooting mode to the camera via the communication control unit when the sensor unit continuously detects the predetermined movement twice within the predetermined period. And subsequently, when the sensor unit detects the third predetermined movement, transmitting a shooting execution instruction,
The system according to supplementary note 11.
(Appendix 13)
The camera, upon receiving an instruction to execute the shooting mode from the portable device, executes processing including automatic focus control and automatic exposure control,
13. The system according to supplementary note 11 or 12.
(Appendix 14)
The camera according to any one of supplementary notes 11 to 13, wherein, when receiving the shooting execution instruction from the portable device, the camera shoots a subject and transmits image data obtained based on the shooting to the portable device. Or described system.
(Appendix 15)
15. The system according to any one of supplementary notes 11 to 14, wherein the camera, when receiving the photographing execution instruction from the portable device, photographs a plurality of subjects.
(Appendix 16)
Wherein the camera or the portable device adjusts a communication delay time between the portable device and the camera when performing photographing based on the photographing execution instruction, and executes photographing. The system according to any one of claims 15 to 15.
(Appendix 17)
The camera further includes a remote control device,
The remote control device and the portable device are exclusively paired with the camera,
17. The system according to any of supplementary notes 11 to 16.
(Appendix 18)
A method for controlling a portable device for linking a camera and a portable device wirelessly connected to the camera,
Motion is detected by the sensor,
When the sensor unit detects a predetermined movement continuously multiple times within a predetermined period, instructs the camera to shoot,
A control method characterized in that:
(Appendix 19)
In a system in which a camera and a portable device wirelessly connected to the camera cooperate, a computer that controls the portable device includes:
Detecting motion by the sensor unit;
When the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period, instructing the camera to shoot via a communication control unit that cooperates with the camera,
A program for executing

Reference Signs List 100 shooting system 101 camera 102 wrist terminal 103 controller 110, 120 pairing connection 201 camera-side control unit 202 camera-side sensor unit 203 camera-side storage unit 204 camera-side communication control unit 205 imaging device 211 list-side control unit 212 list-side sensor unit 213 List-side storage unit 214 List-side communication control unit 215 List-side display unit 216 List-side operation unit

Claims (19)

In a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate,
A sensor unit for detecting movement;
A communication control unit that cooperates with the camera;
In the process in which the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period, the camera controls the communication control unit through the communication control unit to detect a predetermined halfway of the movement. By transmitting an execution instruction of the first processing and transmitting an execution instruction of a second processing different from the first processing at the time of detecting the last time of the predetermined movement, a predetermined series of photographing processing is performed. A complete control unit,
A portable device comprising: The communication control unit is paired with the camera,
The portable device according to claim 1.   The control unit, when the sensor unit detects a predetermined movement three times consecutively within a predetermined period, instructs the camera to shoot via the communication control unit. 3. The portable device according to 2. The control unit transmits an instruction to execute a shooting mode to the camera via the communication control unit when the sensor unit continuously detects the predetermined movement twice within the predetermined period. And subsequently, when the sensor unit detects the third predetermined movement, transmitting a shooting execution instruction,
The portable device according to claim 1. In a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate,
A sensor unit for detecting movement;
A communication control unit that cooperates with the camera;
In a process in which the sensor unit continuously detects a predetermined movement three times within a predetermined period, the sensor unit is connected to the camera via the communication control unit, and the sensor unit is set within the predetermined period. Transmitting a photographing mode execution instruction when detecting the movement twice consecutively, and further transmitting a photographing execution instruction when the sensor unit detects the third predetermined movement. A control unit that completes a predetermined series of shooting processes,
A portable device comprising:   6. The portable device according to claim 1, wherein the portable device is a wrist terminal worn on an arm, and the detection of the predetermined movement is detection of a swing of the arm on which the wrist terminal is worn. Portable device. Further comprising a display unit,
The control unit, based on the image data transmitted from the camera, to display a partial area of the image area corresponding to the image data on the display unit,
A portable device according to claim 1. The control unit, on the basis of the image data transmitted from the camera, to display the central region of the image region corresponding to the image data on the display unit,
A portable device according to claim 7. The control unit performs a face recognition process on the image data transmitted from the camera, so that a partial area including the face of the subject in the image area corresponding to the image data is displayed on the display unit. To display,
A portable device according to claim 7. In a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate,
A sensor unit for detecting movement;
A communication control unit that cooperates with the camera;
A display unit,
When the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period, instructs the camera to shoot via the communication control unit, and transmits image data transmitted from the camera. A control unit that causes the display unit to display a partial area including the face of the subject in the image area corresponding to the image data by performing face recognition processing on the image data;
A portable device comprising:   The control unit, when displaying the partial area on the display unit, when the sensor unit detects a movement operation, the partial area to the movement operation in the image area corresponding to the image data 9. The portable device according to claim 7, wherein the portable device is moved in a corresponding direction and displayed on the display unit. In a portable device in a system in which a camera and a portable device wirelessly connected to the camera cooperate,
A sensor unit for detecting movement;
A communication control unit that cooperates with the camera;
A display unit,
When the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period, instructs the camera to shoot via the communication control unit, and transmits image data transmitted from the camera. And displaying the partial area of the image area corresponding to the image data on the display unit, and detecting the moving operation while displaying the partial area on the display unit. Then, a control unit that moves the partial area in a direction corresponding to the moving operation within an image area corresponding to the image data and causes the display unit to display the partial area,
A portable device comprising: In a system in which a camera and a portable device wirelessly connected to the camera cooperate,
The portable device comprises:
A sensor unit for detecting movement;
A communication control unit that performs pairing cooperation with the camera,
When the pairing is established, in the process where the sensor unit continuously detects a predetermined movement a plurality of times within a predetermined period, the sensor unit communicates with the camera via the communication control unit in advance. A control unit that transmits an instruction to execute a shooting mode when a predetermined movement is detected twice consecutively, and further transmits an execution instruction to shoot when the third predetermined movement is detected. When,
A system comprising: The camera, upon receiving an instruction to execute the shooting mode from the portable device, executes processing including automatic focus control and automatic exposure control,
The system according to claim 13.   15. The camera according to claim 13 or 14, wherein, when receiving the shooting execution instruction from the portable device, the camera shoots a subject and transmits image data obtained based on the shooting to the portable device. The described system.   The system according to claim 13, wherein the camera captures a plurality of subjects when receiving an instruction to execute the capturing from the portable device. The camera further includes a remote control device,
The remote control device and the portable device are exclusively paired with the camera,
The system according to claim 13. A method for controlling a portable device for linking a camera and a portable device wirelessly connected to the camera,
Motion is detected by the sensor,
In the process of the sensor unit detects more than once a predetermined motion consecutively in a predetermined period, via the communication control unit to said camera, first during the course of times of the detection of the motion said predetermined By transmitting an execution instruction of the first processing and transmitting an execution instruction of a second processing different from the first processing at the time of detecting the last time of the predetermined movement, a predetermined series of photographing processing is performed. Complete,
A control method characterized in that: In a system in which a camera and a portable device wirelessly connected to the camera cooperate, a computer that controls the portable device includes:
Detecting motion by the sensor unit;
In the process of the sensor unit detects more than once a predetermined motion consecutively in a predetermined period, via the communication control unit to said camera, first during the course of times of the detection of the motion said predetermined By transmitting an execution instruction of the first processing and transmitting an execution instruction of a second processing different from the first processing at the time of detecting the last time of the predetermined movement, a predetermined series of photographing processing is performed. Steps to complete,
A program for executing