JP6032987B2 - Image output device and method of operating image output device - Google Patents

Description

The present invention relates to an image output apparatus that obtains an optimal image by photographing with a plurality of devices, and an operation method of the image output apparatus .

  2. Description of the Related Art In recent years, portable devices (photographing devices) with a photographing function such as digital cameras have various photographing functions by making full use of image processing. Some photographing devices have a communication function, and an image obtained by photographing can be transmitted to another device or a network.

  For example, it is possible to upload a photographed image obtained by photographing the daily life that occurred around you to a network such as the Internet, and share the image with a third party for enjoyment. For example, Patent Document 1 discloses a relay distribution method in which only content transmitted in a predetermined area range is searched and a distribution request is made to the relay distribution control server.

JP 2012-4629 A

  However, the conventional distribution service for live video and the technology disclosed in Patent Document 1 have a problem that an image that a viewer wants to view cannot be easily acquired.

An object of the present invention is to provide an image output apparatus and an operation method of the image output apparatus that can easily acquire an image that a viewer wants to view with a simple operation.

An image output apparatus according to an aspect of the present invention provides a cooperation shared before scoring between an imaging unit that outputs a captured image obtained by imaging a subject and one or more other devices that perform imaging. A scoring unit for scoring the captured image based on shooting conditions, and scoring in the one or more other devices based on the cooperative shooting conditions for images captured by the one or more other devices. A comparison unit that receives the scoring information from the one or more other devices and compares the received one or more scoring information with the scoring information by the scoring unit, and a predetermined value based on the comparison result of the comparison unit An image request unit that outputs a transmission request for only an image from which the scoring information is obtained, and enables generation of a linked image based on images from the own device and the one or more other devices.
An image output apparatus according to another aspect of the present invention is shared before scoring between an imaging unit that outputs a captured image obtained by photographing a subject and one or more other devices that perform imaging. The scoring unit for scoring the captured image, the scoring result transmitting unit for transmitting the scoring result of the scoring unit as scoring information, and the image captured by the one or more other devices based on the cooperative shooting conditions An image for transmitting a corresponding image in response to a transmission request for only an image based on a comparison between scoring information scored in the one or more other devices based on cooperative shooting conditions and scoring information by the scoring unit And a transmission unit.
An operation method of an image output apparatus according to an aspect of the present invention is an operation method of an image output apparatus including an imaging unit that outputs a captured image obtained by imaging a subject, wherein the scoring unit performs imaging. The step of scoring the captured image based on the cooperative shooting conditions shared before scoring with the other devices described above, and the comparison unit for the image captured by the one or more other devices The scoring information scored in the one or more other devices based on the cooperative shooting conditions is received from the one or more other devices, and the received one or more scoring information and the scoring unit The step of comparing the scoring information, and the image requesting unit outputs a transmission request for only an image from which predetermined scoring information is obtained based on the comparison result of the comparing unit, and the own device and the one or more other ones Process for generating a linked image based on an image from a device It has a.
An operation method of an image output apparatus according to another aspect of the present invention is an operation method of an image output apparatus including an imaging unit that outputs a captured image obtained by imaging a subject, and a scoring unit performs imaging 1 The step of scoring the captured image based on cooperative shooting conditions shared before scoring with two or more other devices, and the scoring result transmission unit transmits the scoring result of the scoring unit as scoring information And the scoring information and the scoring unit in which the image transmitting unit scores in the one or more other devices based on the cooperative shooting conditions for the image captured by the one or more other devices. And a step of transmitting a corresponding image in response to a transmission request for only an image based on the comparison with the scoring information obtained by.

  According to the present invention, it is possible to easily acquire an image that a viewer wants to view with a simple operation.

1 is a block diagram showing a circuit configuration of a photographing apparatus according to a first embodiment of the present invention. The flowchart for demonstrating camera control. The block diagram which shows the 2nd Embodiment of this invention. Explanatory drawing which shows the information contained in a search instruction document. The flowchart which shows the operation | movement flow of parent camera CA. The flowchart which shows the operation | movement flow of a child camera. Explanatory drawing which shows the example of a display on the display screen 20a of the display part 20. FIG. Explanatory drawing for demonstrating communication of 2nd Embodiment. Explanatory drawing which shows 3rd Embodiment. The flowchart for demonstrating operation | movement of 3rd Embodiment. The flowchart for demonstrating operation | movement of 3rd Embodiment. The flowchart which shows scoring (score calculation) processing. The flowchart which shows the specific flow of the score K calculation process of step S84 of FIG. Explanatory drawing which shows an example of the table for score K calculation processing. Explanatory drawing which shows the example of the screen display in the negotiation mode which enables negotiation. Explanatory drawing which shows the example of a display at the time of search instruction document reception.

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

(First embodiment)
FIG. 1 is a block diagram showing a circuit configuration of a photographing apparatus to which the image output apparatus according to the first embodiment of the present invention is applied .

  The photographing apparatus 1 includes a main body unit 10 and a photographing lens unit 30 provided on the front surface of the main body unit 10. The taking lens unit 30 is provided with a taking lens 31 and a diaphragm 32. The photographing lens unit 30 is also provided with a driver 33 and a microcomputer 34. The driver 33 is controlled by the microcomputer 34 to drive the photographing lens 31 and the diaphragm 32 to perform focusing, diaphragm adjustment, and the like. .

  The microcomputer 34 is connected to the main body unit 10 via an interface (I / F) 29, and exchanges information with the control unit 11 described later via the communication unit 28 of the main body unit 10. ing. Thereby, the microcomputer 34 can control each part of the photographic lens unit 30 according to an instruction of the control unit 11 of the main body unit 10 and can transmit information regarding the photographic lens unit 30 to the control unit 11. .

  The main body unit 10 is provided with an imaging unit 12 constituted by an imaging element such as a CCD or a CMOS sensor. The optical image of the subject from the optical system including the photographic lens 31 of the photographic lens unit 30 provided on the front surface of the photographic device 1 is formed on the imaging surface of the imaging device constituting the imaging unit 12. The imaging unit 12 is driven and controlled by the control unit 11 and photoelectrically converts the captured subject image to obtain a captured image.

  The control unit 11 operates according to a program stored in the flash memory 14 and controls each unit of the main body unit 10. For example, the control unit 11 outputs a drive signal for the imaging device to the imaging unit 12 and takes in an image signal obtained by photoelectrically converting the optical image through the bus 13.

  The image processing unit 15 uses the SDRAM 23 as a working memory, and performs predetermined signal processing, such as color signal generation processing, matrix conversion processing, and other various kinds of processing on the image signal obtained by photoelectric conversion of the imaging unit 12. Perform digital processing. The image processing unit 15 can output image information, audio information, and the like that have been subjected to encoding processing and compressed when recording a captured image.

  The photographing device 1 is also provided with an operation control unit 16 and a clock unit 18. The clock unit 18 generates time information used by the control unit 11. The operation control unit 16 generates an operation signal based on a user operation with respect to the operation unit 17 such as a release button (not shown) provided in the photographing apparatus 1 and various operation switches such as a photographing mode setting, and outputs the operation signal to the control unit 11. It has become.

  The main body unit 10 is provided with a display control unit 19 and a recording / reproduction control unit 21. The recording / playback control unit 21 can record the image information and audio information from the control unit 11 by giving them to the recording medium 22. For example, a card interface can be adopted as the recording / playback control unit 21. The recording / playback control unit 21 can record image information, audio information, and the like on a recording medium 22 such as a memory card. Further, the recording / playback control unit 21 can read out the image information and audio information recorded on the recording medium 22 and supply them to the image processing unit 15. The image processing unit 15 can decode the image information and audio information reproduced by the recording / reproduction control unit 21 to obtain an image signal and an audio signal. Although not shown, a microphone as a sound acquisition unit is provided on the front or upper surface of the camera so as to be able to pick up voices and sounds from the subject.

  The display control unit 19 gives a captured image from the imaging unit 12 and a reproduction image from the recording / reproduction control unit 21 to the display unit 20 to display these images. The display control unit 19 can also display a menu display, icon display, and the like for operating the photographing apparatus 1 on the display unit 20. The display unit 20 is provided on, for example, the back surface of the main body unit 10, and the photographer can visually recognize the display screen of the display unit 20 at the time of shooting. As the display unit 20, an LCD panel or the like can be employed.

  In the present embodiment, an inter-camera communication unit 25 and an external communication unit 26 are provided. Under the control of the inter-camera communication unit 25 and the control unit 11, communication can be performed with another imaging device having the same configuration as the imaging device 1 of FIG. 1 so that information can be transmitted and received. Further, the external communication unit 26 is controlled by the control unit 11 and can communicate with an external device (not shown) to send and receive information. Note that various transmission paths can be adopted as the inter-camera communication section 25 and the external communication section 26. For example, a wired transmission path using a wired cable such as a LAN, a wireless LAN, Bluetooth (registered trademark), WiMAX. Or a wireless transmission line employing a telephone network or the like.

  The control unit 11 specifies a normal shooting mode, controls each part of the main body unit 10, and performs linked shooting in cooperation with a plurality of other shooting devices having the same configuration as the shooting device 1. Each part can be controlled by specifying. The control unit 11 has a functional unit for realizing the cooperative shooting mode. That is, the control unit 11 includes a condition determination unit 11a, an image scoring unit 11b, a scoring comparison unit 11c, an image selection unit 11d, an image request unit 11e, and a selected image transmission unit 11f.

  The condition determination unit 11a determines a condition for linked shooting in the linked shooting mode (hereinafter referred to as a linked shooting condition). For example, the condition determination unit 11a may set a specific facial expression such as a smile or crying face of a person to be photographed as a cooperative photographing condition, and may set that the person to be photographed is a specific person as a cooperative photographing condition. . The condition determination unit 11a transmits the determined cooperative shooting condition to another shooting device via the inter-camera communication unit 25. For example, the condition determination unit 11a can determine that the same person has been photographed in all the photographing devices by transmitting the feature amount of the face of a specific person.

  In the present embodiment, the image scoring unit 11b scores the captured image captured by the imaging unit 12 based on the cooperative shooting conditions determined by the condition determining unit 11a. For example, when a crying face is set as the cooperative shooting condition, the image scoring unit 11b increases the score when the person in the captured image is a crying face. The scoring result of the image scoring unit 11b is supplied to the scoring comparison unit 11c. In the present embodiment, the image scoring unit 11b can transmit the scoring result via the inter-camera communication unit 25.

  In the present embodiment, the score supplied from the scoring / comparing unit 11c of another photographing apparatus is also input to the scoring / comparing unit 11c via the inter-camera communication unit 25. The scoring comparison unit 11c compares the input scores and outputs the comparison result to the image selection unit 11d. For example, the scoring comparison unit 11c outputs information related to the image with the highest score to the image selection unit 11d. The image selection unit 11d selects an image based on the scoring comparison result, and outputs information for requesting the selected image (hereinafter referred to as image request information) to the image request unit 11e. For example, the image selection unit 11d outputs information regarding a single image having the highest score or a plurality of images having a score greater than or equal to a predetermined value to the image request unit 11e as image request information.

  The image request unit 11e transmits the image request information via the inter-camera communication unit 25 to all other shooting devices or to the shooting device that outputs the scoring result of the selected image. The selected image may include an image taken by the own device. In this case, the image request unit 11e provides the image request information to the selected image transmission unit 11f. The selected image transmission unit 11f outputs the selected image to the image processing unit 15 based on the image request information from the image request unit 11e of the own device. The selected image transmission unit 11 f transmits the selected image via the inter-camera communication unit 25 based on the image request information from the image request unit 11 e of the other device received via the inter-camera communication unit 25. . The inter-camera communication unit 25 outputs an image received from another device to the image processing unit 15.

  In the present embodiment, in the cooperative photographing mode, the image processing unit 15 performs image processing on an image photographed and selected by the own device or another device. In this way, the image processing unit 15 collects images with high scoring results based on the cooperative shooting conditions of the condition determining unit 11a among images taken by a plurality of imaging devices, and generates an image (hereinafter referred to as a cooperative image). The This cooperative image is displayed on the display screen of the display unit 20 by the display control unit 19. In addition, the recording / playback control unit 21 records the cooperative image on the recording medium 22.

  Furthermore, the external communication unit 26 can also transmit the cooperation image to an external device (not shown).

  Next, the operation of the embodiment configured as described above will be described with reference to FIG. FIG. 2 is a flowchart for explaining camera control.

  When the photographing apparatus 1 is turned on, the control unit 11 determines whether or not the photographing mode is instructed in step S1 of FIG. When the shooting mode is not instructed, the control unit 11 determines whether or not the reproduction mode is instructed in step S2. When the reproduction mode is instructed, the control unit 11 reproduces the selected image in step S3. When the user instructs to change the reproduction image, the control unit 11 shifts the process from step S4 to step S5 and changes the image. Note that if the reproduction mode is not designated in step S2, the control unit 11 shifts to the image communication mode in which the captured image is transmitted in step S6.

  On the other hand, when the shooting mode is instructed, the control unit 11 starts shooting and displays a through image on the display screen of the display unit 20 (step S11). That is, the control unit 11 captures a captured image from the image capturing unit 12 and supplies the captured image to the image processing unit 15. The image processing unit 15 performs predetermined video signal processing on the captured image and then supplies the image to the display control unit 19. The display control unit 19 gives the captured image to the display unit 20 and displays the captured image on the display screen.

  Next, the control unit 11 determines whether or not the cooperative shooting mode is designated in step S12. If the cooperative shooting mode is not designated, the control unit 11 shifts the process to step S13 and determines whether or not a shooting operation has been performed. When a photographing operation is performed, photographing is performed in step S14. In other words, the control unit 11 compresses the image processed by the image processing unit 15 and then gives it to the recording / reproduction control unit 21. The recording / playback control unit 21 applies the compressed image to the recording medium 22 for recording. When the shooting operation is not performed, the control unit 11 returns the process from step S13 to step S1.

  When the cooperative shooting mode is designated, the control unit 11 determines whether or not the camera is a parent camera in the next step S20. In the present embodiment, one of a plurality of photographing devices having the same configuration as the photographing device 1 of FIG. 1 is a parent camera, the other is a child camera, and the parent camera uses the captured images of the parent camera and the child camera. One linked image is obtained.

  For example, the user may set the parent camera by operating the operation unit 17. The control unit 11 notifies the parent camera via the inter-camera communication unit 25 when the setting operation of the parent camera is performed by the user. When receiving the information of the parent camera via the inter-camera communication unit 25, the control units 11 of the plurality of photographing devices display the information of the parent camera on the display unit 20. When the user sets the child camera for this display, the control unit 11 transmits the setting of the child camera to the parent camera via the inter-camera communication unit 25. Thereby, a parent-child relationship can be established among a plurality of photographing devices. The method for setting the parent camera and the child camera is not particularly limited, and various methods can be employed. For example, the child camera may automatically shift to the linked shooting mode when receiving a signal for shifting to the linked shooting mode from the parent camera.

  When the user performs an operation for setting cooperative shooting conditions in the cooperative shooting mode using the operation unit 17, the operation control unit 16 generates a request signal for setting the cooperative shooting conditions. The condition determination unit 11a of the parent camera determines a request signal in step S21, and determines whether or not an instruction to change the cooperative shooting conditions is instructed in step S22. When the cooperative shooting condition is changed, the condition determining unit 11a stores the changed cooperative shooting condition (step S23). The condition determining unit 11a transmits the determined cooperative shooting condition to each child camera via the inter-camera communication unit 25 (step S24).

  On the other hand, the child camera receives cooperative shooting conditions in step S31. In step S32, the image scoring unit 11b of each child camera scores the captured image based on the cooperative shooting conditions, and transmits the scoring information to the parent camera via the inter-camera communication unit 25 (step S33). The scoring comparison unit 11c of the parent camera receives scoring information from each child camera via the inter-camera communication unit 25.

  In step S25, the scoring comparison unit 11c of the parent camera collects and compares the scoring information from the image scoring unit 11b of the own camera and the scoring information from the image scoring unit 11b of each child camera, and compares the comparison results to the image selection unit 11d. Output. The image selection unit 11d selects, for example, the image with the highest score. The image request unit 11e requests the child camera that has output the scoring information with the highest score to transmit a captured image via the inter-camera communication unit 25.

  When the image transmission request is met in step S34, the selected image transmission unit 11f of the child camera transmits the captured image with the highest score to the parent camera via the inter-camera communication unit 25. In this way, the control unit 11 acquires a captured image selected based on the cooperative shooting conditions among the captured images captured by the parent camera and the plurality of child cameras (step S26). The image processing unit 15 performs image processing on the acquired captured image and supplies the processed image to the display control unit 19. In this way, the display control unit 19 displays the captured image selected based on the cooperative shooting condition as a cooperative image. The display control unit 19 of the parent camera may display the captured image or the cooperative image from the child camera as the sub image while displaying the image captured by the parent camera as the main image.

  Further, the image processing unit 15 compresses the selected captured image and supplies the compressed captured image to the recording / playback control unit 21. The recording / playback control unit 21 records the linked image selected based on the linked shooting condition on the recording medium 22 (step S27).

As described above, in the present embodiment, it is possible to capture images in cooperation with a plurality of imaging devices and obtain an optimal captured image. In this case, the parent device (parent camera) designates a common cooperative shooting condition for the child device (child camera), and scores the captured image based on the common cooperative shooting condition, so that the optimum imaging is performed. An image is obtained, and an image desired by a user operating the parent device can be obtained. In addition, the master unit transmits a scoring result based on the cooperative shooting conditions from each slave unit, and only the captured image selected based on the comparison result of the scoring result is transmitted from the slave unit. In addition, since it is not necessary to transmit the captured image from the slave unit to the master unit, it is possible to remarkably reduce the communication amount in cooperative shooting.
In addition, the photographer does not have to worry about which camera image is the best, and can concentrate on shooting, and the image quality, sound quality, quality, focus, etc. of the captured image including sound effects, composition, exposure, etc. It is possible to concentrate on ensuring the quality (shooting operation) such as the smoothness of the zoom control process, and as a result, the quality of the content can be improved.

  In the above-described embodiment, the parent camera and the child camera are described as having the same configuration as that of the photographing device 1. However, the parent camera can omit the selection image transmission unit 11f, and the child camera can be a condition determination unit. 11a, scoring comparison unit 11c, image selection unit 11d, and image request unit 11e can be omitted.

(Second Embodiment)
FIG. 3 is a block diagram showing a second embodiment of the present invention.

  In the first embodiment, an example has been described in which the parent device designates cooperative shooting conditions and the parent device collects images selected based on the cooperative shooting conditions. The present embodiment shows an example in which cooperative shooting conditions are specified by an information processing apparatus which is another device, and images selected based on the cooperative shooting conditions are collected by the information processing apparatus.

  In FIG. 3, the photographing devices CA, Cb to Cd have the same configuration as the photographing device 1 of FIG. For example, description will be made assuming that photographing apparatus CA is a parent camera (hereinafter also referred to as parent camera CA), and photographing apparatuses Cb to Cd are child cameras (hereinafter also referred to as child cameras Cb to Cd). Each of the child cameras Cb to Cd can communicate with the parent camera CA using the inter-camera communication unit 25. Although FIG. 3 shows an example of three child cameras, it is obvious that the number of child cameras is not limited.

  In the present embodiment, the parent camera CA can be connected to a network 41 such as the Internet or a telephone line network, and can communicate with the information processing apparatus 42 on the network 41 via the external communication unit 26. is there. In the parent camera CA, the control unit 11 controls the external communication unit 26 so that a shot image shot in the linked shooting mode can be stream-distributed on the network 41. In addition, the parent camera CA can receive linked shooting conditions via the network 41 to perform linked shooting, and can stream linked images shot in the linked shooting mode to the sender of the linked shooting conditions. It has become. That is, the information processing apparatus 42 becomes a client that requests a linked image shot in the linked shooting mode.

  The user 43 can operate the information processing apparatus 42 to create a search instruction sheet 44 describing cooperative shooting conditions and transmit it to the parent camera CA via the network 41. For example, the information processing apparatus 42 can use information on an image to be searched as a search instruction. That is, the search instruction can specify an image to be included in the captured image obtained by cooperative shooting in the photographing devices CA and Cb to Cd. In the cooperative shooting mode, the image specified by the search instruction is included. It is possible to select a captured image. For example, in the case where a ceremony such as a wedding ceremony is linked and photographed using the photographing devices CA, Cb to Cd, the image of the groom or the bride is designated as a search target image by the search instruction sheet, thereby the photographing devices CA, Cb to Cd. Only images including the images of the groom and the bride, which are search target images, are selected from the images captured by, and a linked image by linked shooting can be obtained.

  FIG. 4 is an explanatory diagram showing information included in the search instruction. As shown in FIG. 4, information about an image designated as a search target image is described in the search instruction. Note that the image information to be designated may be image data or image feature amount information. The information processing apparatus 42 can also specify an image obtained from the moving image transmitted from the parent camera CA as a search target image, an image held in the own device, or an image read from a recording medium. Can also be designated as a search target image.

  For example, when a mobile phone is used as the information devices 42, the information in the address book can be used as a search instruction.

  Optional information can be added to the search instruction. As optional information, if new is specified, it is possible to instruct to discard the contents of the past search instruction, and if addition is specified, it is instructed not to discard the contents of the past search instruction. it can. For example, in the case where the image of the bride is specified as the search target image in the past search instruction, and the groom image is specified as the search target image in the new search instruction, if the new image is selected, the image of the groom is subsequently displayed. When only the captured image including the image is searched and “add” is selected, the captured image including the image of the bride and groom is subsequently searched.

  As the moving image delivery destination, address information of the information processing apparatus 42 is described. As a result, the base station CA can stream-transmit the cooperative image in the cooperative photographing mode to the information processing apparatus 42.

  Next, the operation of the embodiment configured as described above will be described with reference to the flowcharts of FIGS. FIG. 5 shows an operation flow of the parent camera CA, and FIG. 6 shows an operation flow of the child cameras Cb to Cd. 5 and 6 is performed by the control unit 11 of the parent camera CA or the child cameras Cb to Cd. FIG. 7 is an explanatory diagram showing a display example on the display screen 20 a of the display unit 20.

  The control unit 11 can display the menu for determining the mode by controlling the display control unit 19 in accordance with the operation of the operation unit 17. FIG. 7 shows an example of the menu display. FIG. 7A shows that a display 53 for designating the streaming mode and a display 54 for designating the normal shooting mode are displayed on the display screen 20a. When the user designates the display 53, the streaming mode is designated, and when the display 54 is designated, the normal photographing mode is designated. When the streaming mode is designated, the control unit 11 displays a display 55 for setting the parent camera CA and a display for setting the child cameras Cb to Cd on the display screen 20a as shown in FIG. 7B. 56 is displayed. When the user designates the display 55, the photographing device 1 is set to the parent camera CA, and when the display 56 is designated, the photographing device 1 is set to the child cameras Cb to Cd.

  In the parent camera CA, the control unit 11 determines in step S41 whether or not streaming is in progress. If streaming is not in progress, another mode is implemented (step S42). If streaming is in progress, imaging is performed. (Step S43).

  In step S44, parent camera CA determines whether a search instruction has been received. If the parent camera CA does not receive the search instruction, the parent camera CA determines whether or not the contents of the search instruction are already registered in step S46. If the parent camera CA is not registered, the parent camera CA determines in step S48. The captured image of CA is set as the transmission image.

  When the parent camera CA receives the search instruction, the parent camera CA registers the instruction content (step S45). When the instruction content is registered in step S45 or when the instruction content is already registered, the parent camera CA determines whether or not the child cameras Cb to Cd can communicate in step S47.

  On the other hand, each of the child cameras Cb to Cd determines whether or not there is a communication request in step S61. If there is no communication request, the child cameras Cb to Cd execute another mode in step S62. If there is a communication request, the child cameras Cb to Cd notify the parent camera CA that communication is possible (step S63). .

  If all the child cameras Cb to Cd are not communicable with each other, the parent camera shifts to step S48 to determine the captured image of the parent camera CA as a transmission image, and any one of the child cameras Cb to Cd. When the above is communicable, it transfers to step S51 and it is determined whether the process with respect to all the clients which have requested | required streaming delivery via the network 41 was completed. If the streaming process has not been completed, the parent camera CA transmits a search instruction to the communicable child camera in step S52.

  If the communicable child cameras Cb to Cd hold the search instruction, they take an image in step S65 and score the captured image based on the search instruction (step S66). The child cameras Cb to Cd transmit the scoring results to the parent camera CA (step S67).

  In step S52, the parent camera CA scores the captured image based on the search instruction. The parent camera CA counts the scoring results from the child cameras Cb to Cd (step S53). The parent camera CA determines whether the score of the parent camera is the maximum from the scoring results of the parent camera CA and the child cameras Cb to Cd (step S54). When the score of the parent camera CA is the maximum, the parent camera determines that the captured image of the parent camera CA is a transmission image (step S48). If the score of the parent camera CA is not the maximum, the parent camera CA requests an image with the maximum score from the child camera that has transmitted the maximum score among the child cameras Cb to Cd (step S55).

  The child cameras Cb to Cd determine whether or not an image request has occurred in step S68, and the child camera that has issued the image request transmits the image having the maximum score to the parent camera (step S69). The child cameras Cb to Cd determine the end of the process in step S70.

  The parent camera CA receives images from the child cameras Cb to Cd that transmitted the image request, and sets the images as transmission images (step S56). As shown in FIG. 7C, for example, an image captured by the parent camera CA is displayed as a main image 52 on the display screen 20a of the parent camera CA, and images received from the child cameras Cb to Cd. Is displayed as the sub-image 51. In step S49, the parent camera CA performs streaming transmission of the transmission image set in step S48 or S56. This transmission image is transmitted to all clients that have transmitted a search instruction such as the information processing apparatus 42.

  A different search instruction may be supplied to the parent camera CA for each client. Therefore, the parent camera CA and the child cameras Cb to Cd perform scoring for each search instruction, and the parent camera CA selects an image for each search instruction based on the scoring result for each search instruction. A cooperative image is obtained, and a cooperative image corresponding to each client that has transmitted the search instruction is output.

  As described above, in the present embodiment, the same effects as those of the first embodiment can be obtained, and the master unit performs streaming distribution of the cooperative image obtained in accordance with the cooperative photographing condition instructed by the client to the client. It is possible.

  In the second embodiment, communication with the client is performed only by the parent camera CA. FIG. 8 is an explanatory diagram for explaining communication in the second embodiment.

As shown in FIG. 8, between the parent camera CA and the child cameras Cb to Cd, communication indicating that communication is possible, communication of search instructions, scoring result communication, moving image distribution request, and moving image Communicate. In addition, the parent camera CA can communicate with the information processing apparatus 42 that is a client via the network 41, and performs search instruction communication and streaming communication of a moving image shot in the cooperative shooting mode. Therefore, the child cameras Cb to Cd do not need to communicate with the client, and the external communication unit 26 can be omitted.
In addition, the photographer does not have to worry about which camera image is the best, and can concentrate on shooting, and the image quality, sound quality, quality, focus, etc. of the captured image including sound effects, composition, exposure, etc. Needless to say, it is possible to concentrate on ensuring quality (shooting operation) such as the smoothness of the zoom control process, and as a result, the quality of the content can be improved.

(Third embodiment)
FIG. 9 is an explanatory view showing a third embodiment of the present invention. In the second embodiment, only the parent camera communicates with the client. However, in this embodiment, not only the parent camera CA but also the child cameras Cb to Cd can communicate with the client. Is shown. In the case of this embodiment, since the streaming can flow outside without passing through the parent camera, the immediacy of switching is the best.

  In the present embodiment, not only the external communication unit 26 of the parent camera CA but also the external communication unit 26 of one or more child cameras such as the child camera Cb can communicate with the client. Between the parent camera CA and the child camera Cb, communication indicating that communication is possible, search instruction communication, scoring result communication, moving image distribution request, and moving image communication are performed. In addition, the parent camera CA can communicate with the information processing apparatus 42 that is a client via the network 41, and performs search instruction communication and streaming communication of a moving image shot in the cooperative shooting mode. Similarly, the child camera Cb can communicate with the information processing apparatus 42 as a client via the network 41, and performs streaming communication of a moving image shot in the cooperative shooting mode.

  Next, the operation of the embodiment configured as described above will be described with reference to the flowcharts of FIGS. 10 and 11, the same steps as those in FIGS. 5 and 6 are denoted by the same reference numerals, and description thereof is omitted.

  The flow of FIG. 10 is different from the flow of FIG. 5 in that steps S48 and S55 are omitted and step S71 is added. When the parent camera CA omits the process of step S48 and the instruction content is not registered, the communication with the child camera is impossible, and the score of the parent camera CA is the maximum, the parent camera CA captures an image. The obtained image is transmitted to the client as an image in the cooperative shooting mode (step S49). If the score of the parent camera CA is not the maximum, the parent camera CA outputs an image transmission request with the maximum score to the child camera in step S71.

  On the other hand, the flow of FIG. 11 showing the operation of the child camera is different from the flow of FIG. 6 in that step S72 is employed instead of step S69. In step S72, when an image request is generated from the parent camera CA, the requested captured image is output to the information processing apparatus 42 as a client.

  As described above, in this embodiment, streaming transmission is possible to the client not only in the parent camera but also in the child camera.

  In each of the above embodiments, the captured image is scored based on the cooperative shooting conditions. FIG. 12 is a flowchart showing the scoring (score calculation) process.

  The image scoring unit 11b of the parent camera CA and the child cameras Cb to Cd determines whether or not identification of all search instructions has been completed in step S82 after initializing the variable Ktotal to 0 in step S81 of FIG. . If scoring has not been completed for all search instructions, the process proceeds to step S83 to check whether there is a person to be searched from the captured image. If there is no person to search in the captured image, the image scoring unit 11b substitutes 0 for the variable Ktotal in step S85.

  If there is a person to be searched for in the captured image, the image scoring unit 11b calculates a variable Ktotal in step S84. In step S86, the image scoring unit 11b calculates the total score. For example, the image scoring unit 11b may calculate the total score for each frame. Alternatively, the image scoring unit 11b may calculate the total score every few seconds, for example, every 5 seconds.

  FIG. 13 is a flowchart showing a specific flow of the score K calculation process in step S84 of FIG. FIG. 14 is an explanatory diagram showing an example of a table for the score K calculation process. The image scoring unit 11b determines the orientation of the face of the person based on the detection result of the facial feature amount of the search person in the captured image, and obtains a score Ka corresponding to the face orientation (step S91). For example, when the search person is facing the front, the score Ka is 1.0, when the face is facing left and right, the score Ka is 0.8, and when the face is facing up and down, the score Ka is set. 0.5.

  In step S92, the image scoring unit 11b obtains a score Kb corresponding to the face size. For example, when the size of the search person's face is 19% or less of the area of the captured image, 20% to 49%, 50% to 100%, the score Kb is 0.5. 0.8 and 1.0.

  In step S93, the image scoring unit 11b obtains a score Kc corresponding to the facial expression. For example, if the facial expression of the search person is a laughing face, a crying face, or otherwise, the score Kc is set to 1.0, 0.8, and 0.5, respectively. The image scoring unit 11b obtains a variable Ktotal by multiplying the obtained scores Ka, Kb, and Kc (step S94).

  Note that the scoring method shown in FIGS. 12 to 14 is an example, and other scoring methods may be adopted. For example, the score may be increased when the search person per unit time is long. Further, when a plurality of search persons are specified by the search instruction, the score may be increased when many search persons are included at the same time.

  Moreover, although the example which designates a person with a search instruction document was demonstrated, the scenery may be designated, or when not two persons but a specific person are imaged, many persons are imaged. The cooperative shooting conditions can be variously set. Alternatively, the image parameters of the captured image, such as the focus of the captured image and the color of the image, may be set as the cooperative shooting conditions.

  Moreover, you may comprise so that a user can designate the method of scoring by the image scoring part 11b. For example, the user can specify the number of points in FIG. Further, the image scoring unit 11b may be provided in a device on a network (not shown) using a cloud service.

  In the description of FIG. 7, the parent camera and the child camera are determined by the user setting. However, when there are many photographing devices participating in the cooperative photographing, it is better to establish a parent-child relationship as a result of communication between the photographing devices and negotiation between the control units 11 of the photographing devices.

  FIG. 15 is an explanatory diagram showing an example of a screen display in the negotiation mode that enables such negotiation.

  The control unit 11 of the parent camera and the child camera can set the streaming mode, and can display the menu display shown in FIG. 15A on the display screen 20a of the display unit 20 in the streaming mode. In FIG. 15A, a display 61 for recruiting a child camera and a display 62 for participating as a child camera for cooperative shooting are displayed.

  When the user selects the display 61, the camera operated by the user becomes the parent camera, and the control unit 11 controls the inter-camera communication unit 25 to communicate with neighboring cameras via WiFi, Bluetooth, etc. Recruit cameras to participate in as a child camera. On the display screen 20aA of the display unit 20 of the parent camera, a display of “Recruiting” is displayed (FIG. 15B).

  On the other hand, it is assumed that the user selects the display 62 for participation in cameras near the parent camera. Then, the control unit 11 of the camera in which the user has selected the display 62 displays the display of “participating” on the display screen 20ab of the display unit 20 as shown in FIG. A parent camera is negotiated with the parent camera 25 to establish a parent-child relationship. Then, a display indicating the participating child cameras A, B,... Is displayed on the display screen 20aA of the parent camera, and a display indicating that the parent camera is found is displayed on the display screen 20ab of the child camera.

  In addition, in the child camera, when it is detected that the child camera is recruited by the parent camera, only a display for determining whether or not to participate may be displayed.

FIG. 16 is an explanatory diagram showing a display example when a search instruction is received. FIG. 16A shows a display when the parent camera or the child camera receives a search instruction. When the control unit 11 receives the search instruction sheet via the external communication unit 26 or the inter-camera communication unit 25, the control unit 11 displays a mark 71 indicating that the search instruction sheet has been received on the display screen 20 a of the display unit 20.
When receiving the search instruction, the control unit 11 may display the contents of the search instruction on the display screen 20a. FIG. 16B shows that the content 72 of the search instruction sheet including the image of the person being searched is displayed. In addition, an OK button 73 and an NG button 74 are also displayed on the display screen 20a. When the user selects the OK button 73, scoring based on the search instruction is performed, and the NG button 74 is selected. The received search instruction is ignored.
Although not specifically described, the photographed image here also includes sound. Although examples in which search instructions are issued using images are listed, it goes without saying that the present invention can also be applied to audio. Furthermore, in this embodiment, the photographer does not have to worry about which camera image is the best, and can concentrate on shooting, and the image quality and sound quality of the captured image including sound effects, composition, exposure, etc. It is possible to concentrate on ensuring quality (shooting operation) such as quality, smoothness of the focus and zoom control processes, and as a result, the quality of the content can be improved.
All of the above embodiments have the advantage that viewers can enjoy high-quality content that reflects their own feelings with simple operations and settings. Also, the photographer may shoot while considering only his / her own feelings, and simple and easy shooting is possible. This is because an image that matches the conditions of the viewer and the photographer is preferentially streamed.

  The present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, you may delete some components of all the components shown by embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

  It should be noted that even if the operation flow in the claims, the description, and the drawings is described using “first,” “next,” etc. for convenience, it is essential to carry out in this order. It doesn't mean. In addition, it goes without saying that the steps constituting these operation flows can be omitted as appropriate for portions that do not affect the essence of the invention.

    DESCRIPTION OF SYMBOLS 1 ... Imaging device, 10 ... Main body, 11 ... Control part, 11a ... Condition determination part, 11b ... Image scoring part, 11c ... Scoring comparison part, 11d ... Image selection part, 11e ... Image request part, 11f ... Selected image transmission part , 15: image processing unit, 19: display control unit, 20 ... display unit, 25 ... inter-camera communication unit, 26 ... external communication unit, 30 ... photographing lens unit

Claims (10)

An imaging unit that outputs a captured image obtained by imaging a subject;
A scoring unit for scoring the captured image based on cooperative shooting conditions shared before scoring with one or more other devices that perform imaging,
The scoring information obtained by scoring in the one or more other devices based on the cooperative shooting condition for the image captured by the one or more other devices is received from the one or more other devices. A comparison unit that compares the received one or more scoring information with the scoring information by the scoring unit;
An image that outputs a transmission request for only an image from which predetermined scoring information is obtained based on the comparison result of the comparison unit, and that enables generation of a linked image using images from the own device and the one or more other devices. A request section;
An image output apparatus comprising: An imaging unit that outputs a captured image obtained by photographing the subject;
A scoring unit for scoring the captured image based on cooperative shooting conditions shared before scoring with one or more other devices that perform imaging,
A scoring result transmission unit that transmits the scoring result of the scoring unit as scoring information;
An image based on a comparison between the scoring information scored in the one or more other devices based on the cooperative shooting condition for the image captured by the one or more other devices and the scoring information by the scoring unit An image transmission unit that transmits a corresponding image in response to a transmission request of only
An image output apparatus comprising:   The image output apparatus according to claim 1, further comprising an image generation unit configured to generate the cooperative image based on images from the own apparatus and the one or more other devices. The image output apparatus according to claim 1, further comprising an image transmission unit configured to transmit the cooperative image to the client. The image output apparatus according to claim 2, wherein the image transmission unit transmits the corresponding image to a client. The image output apparatus according to claim 1, further comprising a display unit configured to display the cooperative image. The image output apparatus according to claim 1, further comprising a recording unit that records the cooperative image. The image output apparatus according to claim 1, wherein the scoring unit performs a search in the captured image and adds a score when a person to be searched exists. An operation method of an image output apparatus including an imaging unit that outputs a captured image obtained by imaging a subject,
A scoring unit scoring the captured image based on cooperative shooting conditions shared before scoring with one or more other devices that perform imaging;
The comparison unit uses the one or more other devices to give the scoring information obtained by scoring in the one or more other devices based on the cooperative shooting condition for the image captured by the one or more other devices. And comparing the received one or more scoring information with the scoring information by the scoring unit,
The image request unit outputs a transmission request for only an image from which predetermined scoring information is obtained based on the comparison result of the comparison unit, and generates a linked image using images from the own device and the one or more other devices. And a process of
A method for operating an image output apparatus, comprising: An operation method of an image output apparatus including an imaging unit that outputs a captured image obtained by photographing a subject,
A scoring unit scoring the captured image based on cooperative shooting conditions shared before scoring with one or more other devices that perform imaging;
A step in which the scoring result transmission unit transmits the scoring result of the scoring unit as scoring information;
The scoring information obtained by scoring in the one or more other devices based on the cooperative shooting condition for the image captured by the one or more other devices, and the scoring information by the scoring unit In response to an image- only transmission request based on the comparison of
A method for operating an image output apparatus, comprising:

Images