JP4603982B2 - Imaging system and remote imaging method - Google Patents

Description

  The present invention relates to a photographing system including a photographing transfer device and a remote photographing control device connected to each other via a network, and a remote photographing method applied to the photographing system.

  2. Description of the Related Art Conventionally, there is a photographing system that includes a photographing transfer device and a remote photographing control device that are connected to each other via a network. In this photographing system, the photographing transfer device transmits a finder image to the remote photographing control device, and this finder image is displayed on the remote photographing control device. The viewfinder image refers to a display image for confirmation, and is an image obtained by reducing the data amount of the image captured by the image capturing unit of the image capturing / transferring device. When the user who has confirmed the finder image gives a shooting instruction to the remote shooting control apparatus, the shooting instruction is transmitted from the remote shooting control apparatus to the shooting transfer apparatus, the shooting transfer apparatus performs shooting, and the acquired shot image is obtained. Is transferred to the remote imaging control device.

  It should be noted that the transfer of the finder image with the data amount of the photographed image reduced is realized by a communication method such as RTP (Real-time Transport Protocol) / UDP (User Datagram Protocol) / IP (Internet Protocol) that emphasizes real-time characteristics. . Further, the transfer of the captured image is realized by a communication method such as FTP (File Transfer Protocol) / TCP (Transmission Control Protocol) / IP (Internet Protocol) that places importance on communication quality. For this reason, the viewfinder image has a risk of image degradation instead of ensuring real-time performance. On the other hand, in the captured image, instead of ensuring image quality, retransmission occurs at the time of a communication error, and there is a risk of a decrease in transfer speed.

  With this configuration, in this photographing system, it is possible to perform a photographing operation at a position away from the photographing transfer device.

  However, in such a photographing system, a photographed image with a large amount of data is transferred from the photographing transfer device to the remote photographing control device immediately after photographing. Therefore, until this transfer is completed, the next shooting instruction command cannot be transmitted from the remote shooting control device to the shooting transfer device, and there is a problem that it takes time until the next shooting is possible. .

  In addition, in the transfer of captured images of this shooting system, a communication method such as FTP / TCP / IP is adopted to ensure image quality, and as a result, when a transfer error occurs, retransmission is performed. It takes more time to transfer the captured image.

By the way, in order to solve such a problem, an imaging system that saves a captured image in an accumulation server has been proposed (for example, Patent Document 1).
JP 2000-311242 A

  However, in the above conventional imaging system, in order to retrieve a desired image from a large number of captured images in the remote imaging control device, the remote imaging control device must be connected to this storage server, and connected to the storage server. It was not possible to search for a captured image without

The present invention has been made in view of such problems, and an object capable to Rukoto sending shooting in the following shooting instruction command immediately from the remote imaging control apparatus to the imaging transfer device immediately .

In order to achieve the above object, according to the first aspect of the present invention, in the imaging system in which the imaging transfer device performs imaging according to an instruction from the remote imaging control device via the network, the imaging transfer device is provided with the imaging transfer device. A finder image transfer means for transferring a finder image for allowing a user to check a subject photographed by the means to the remote shooting control device, and a finder image provided in the remote shooting control device and transferred by the finder image transfer means. A finder display means for displaying the image and a shooting instruction command provided in the remote shooting control device and corresponding to a shooting instruction generated based on the finder image displayed by the finder display means. Provided in the remote photographing control means and the remote photographing control device, wherein the photographing instruction is A provisional photographed image storage unit that generates a provisional photographed image from a viewfinder image that is generated and stores the provisional photographed image together with identification information that identifies the provisional photographed image; and the photographing transfer device that is provided based on the photographing instruction command. A photographed image storage means for storing a photographed image photographed by the means together with the identification information; and a remote photographed control device provided in the remote photography control device and designated among a plurality of provisionally photographed images stored by the temporary photographed image storage means. was removed the identification information corresponding to the temporary captured image, a transmitting means for transmitting the image data transmission command to the imaging transfer device along with the identification information, provided in the imaging transfer apparatus, transmitted by the transmitting means Based on the image data transmission command, the captured image corresponding to the identification information attached to the image data transmission command is stored in the captured image storage. A photographic image transfer means for reading from the stage and transferring it to the remote photography control device; and a corresponding photographic image acquisition means provided in the remote photography control device for receiving the photographic image transferred by the photographic image transfer means. An imaging system is provided.
In order to achieve the above object, according to a thirteenth aspect of the present invention, a photographing transfer device and a remote photographing control device are connected to each other via a communication line, and the photographing transfer device is configured to control the remote photographing control. In a remote photographing method applied to a photographing system that performs photographing according to control from a device, the photographing transfer device transfers a finder image to the remote photographing control device, and the remote photographing control device includes the remote photographing control device. A viewfinder display step for displaying the viewfinder image transferred in the viewfinder image transfer step, and the remote shooting control device in response to the shooting instruction generated based on the viewfinder image displayed in the viewfinder display step, the shooting transfer A remote imaging control step of transmitting an imaging instruction command to the apparatus; However, based on the shooting instruction command transmitted by the remote shooting control step, the shooting control step for shooting the image by the shooting means provided in the shooting transfer device, and the remote shooting control device, the shooting instruction is generated. A temporary captured image is generated from the finder image at that time, and stored in the temporary captured image storage means together with identification information for specifying the temporary captured image; A photographed image storage step of storing a photographed image obtained by photographing performed by the photographing means in the photographed image storage means together with the identification information, and the remote photographing control device are stored in the temporary photographed image storage means. The identification information corresponding to the designated temporary captured image is extracted from the plurality of temporary captured images, and the image is attached with the identification information. A transmission step of transmitting a data transmission command to the imaging transfer device, and the imaging transfer device corresponds to the identification information attached to the image data transmission command based on the image data transmission command transmitted by the transmission step. A photographed image transfer step of reading a photographed image from the photographed image storage means and transferring it to the remote photography control device; and a corresponding photographed image acquisition in which the remote photography control device receives the photographed image transferred by the photographed image transfer step A remote imaging method comprising: steps.

According to the present invention, shooting from a remote imaging control apparatus to the imaging transfer device next shooting instruction command can be sent immediately to the right after the shadow, thereby preventing that miss shooting opportunities.

  Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a diagram showing transmission / reception of control signals and image data performed between a photographing transfer device and a remote photographing control device constituting the photographing system according to the first embodiment of the present invention.

  This photographing system is composed of a photographing transfer device 61 and a remote photographing control device 62, and the photographing transfer device 61 and the remote photographing control device 62 are connected to each other via a network. This network may be a wireless communication line or a wired communication line. In the example shown in FIG. 1, the photographing transfer device 61 and the remote photographing control device 62 include wireless antennas 61g and 62f, respectively, and are connected to each other by a wireless communication line. The photographing transfer device 61 includes an image photographing unit, a wireless communication unit, and a control unit, and the remote photographing control device 62 includes a wireless communication unit, a user input operation receiving unit (operation keys, buttons, and the like), and an image display unit (display). And a control unit.

  The viewfinder image generated by the photographing transfer device 61 is transmitted to the remote photographing control device 62 via the network (communication 63) and displayed on the screen 62b of the image display unit.

  When the user performs a shutter operation while looking at the finder image displayed on the screen 62b of the image display unit in the remote photographing control device 62, a photographing instruction command is transmitted from the remote photographing control device 62 to the photographing transfer device 61. (Communication 64).

  Upon receiving this shooting instruction command, the shooting / transfer apparatus 61 performs shooting and stores the obtained image data in the shooting / transfer apparatus 61. At the same time, the remote photographing control device 62 generates a temporary photographed image from the viewfinder image and records it inside.

  Thereafter, in the remote shooting control device 62, the temporary shot image and the thumbnail image of the previously acquired shot image are displayed on the screen 62b of the image display unit. The user's selection for the thumbnail image of the temporarily shot image displayed on the screen 62b is detected. Then, an image data transmission command for transmitting the captured image data corresponding to the provisionally captured image is transmitted from the remote imaging control device 62 to the imaging transfer device 61 via the network (communication 64). Receiving this, the imaging transfer device 61 reads the corresponding image data stored therein and transmits it to the remote imaging control device 62 (communication 65).

  The transfer of the finder image is performed by a communication method such as RTP / UDP / IP that emphasizes real-time characteristics, and the transfer of the image data is performed by a communication method such as FTP / TCP / IP that emphasizes communication quality. Therefore, in viewfinder image transfer, there is a risk of image degradation instead of ensuring real-time performance. On the other hand, in image data transfer, instead of ensuring communication quality, there is a risk that the transfer rate is reduced due to the occurrence of retransmission at the time of error.

  As described above, in the photographing system according to the first embodiment, the photographing operation can be performed in the remote photographing control device 62 located at a location away from the photographing device (the photographing transfer device 61). At the same time, there is no need to transfer image data immediately after shooting from the shooting transfer device 61 to the remote shooting control device 62, so that the remote shooting control device 62 can perform a search for a shot image and a user operation for the next shooting. .

  FIG. 2 is a block diagram showing a hardware configuration of the control unit of the remote imaging control device 62 shown in FIG.

  In FIG. 2, reference numeral 1 denotes an input unit (user input operation reception unit) for inputting information (data). Reference numeral 2 denotes a CPU, which performs operations for various processes, logical determinations, and the like, and controls each component connected to the bus 6. An output unit (image display unit) 3 includes an LCD, a CRT, and the like for outputting information (data).

  A program memory 4 stores a control program to be executed by the CPU 2. The program memory 4 may be a ROM or a RAM in which a control program is loaded from an external storage device or the like.

  A data memory 5 stores data required when the CPU 2 executes the control program and data generated when the CPU 2 executes the control program. The data memory 5 is composed of a RAM, for example.

  On the bus 6, an address signal for designating each component to be controlled by the CPU 2, a control signal for controlling each component, data exchanged between the components, and the like are transferred.

  Although explanation is omitted, the photographing transfer device 61 also includes a control unit having a configuration similar to the configuration shown in FIG.

  FIG. 3 is a block diagram showing functions realized by the CPUs of the respective control units of the photographing transfer device 61 and the remote photographing control device 62 executing control programs.

  In FIG. 3, an image photographed as a finder image by an image sensor (CCD) 61a of the photographing transfer device 61 is transmitted to the remote photographing control device 62 via the network by the finder image transfer unit 61b. The viewfinder image refers to a display image for allowing the user to easily confirm the subject. In the remote imaging control device 62 that has received this, the finder display unit 62 a displays a finder image on the screen 62 b of the output unit (image display unit) 3. Note that an image obtained by intentionally reducing the data amount of a captured image actually taken may be applied as a finder image in order to emphasize real-time characteristics.

  On the other hand, the user performs a shutter operation on the input unit (user input operation receiving unit) 1 of the remote imaging control device 62 while viewing the viewfinder image displayed on the screen 62 b of the output unit (image display unit) 3. In response to this, the remote photographing control unit 62c of the remote photographing control device 62 transmits a photographing instruction command to the photographing transfer device 61 via the network. In the photographing transfer device 61 that has received this, the photographing control unit 61c controls the photographing unit 61d to perform photographing, and the obtained photographed image is stored in the photographed image storage unit 61e. In response to the shutter operation, in the remote shooting control device 62, the temporarily shot image storage unit 62d generates and stores a temporarily shot image that is a still image for one frame from the finder image being displayed. In the present embodiment, the provisional captured image is a still image for one frame, and refers to a thumbnail image in which the data amount (specifically, the number of pixels) of the finder image is reduced. The provisional photographed image can achieve the object of the present invention even when the data amount of the finder image is not reduced.

  Then, in the remote photographing control device 62, the temporary photographed image and the thumbnail image of the photographed image acquired previously are displayed on the screen 62b of the output unit (image display unit) 3. It is assumed that the user's selection for the thumbnail image as the temporary captured image displayed on the screen 62b is detected. Then, the corresponding captured image acquisition unit 62e transmits an image data transmission command for requesting transmission of captured image data corresponding to the temporary captured image to the capture transfer device 61 via the network. Upon receipt of this, in the photographic transfer device 61, the photographic image transfer unit 61f reads the corresponding photographic image stored in the photographic image storage unit 61e and transmits it to the remote photographing control device 62.

  In response to this, in the remote imaging control device 62, the corresponding captured image acquisition unit 62e replaces the received captured image with the corresponding temporary captured image stored in the temporary captured image storage unit 62d.

  Note that the transfer time of the shot image from the shooting transfer device 61 to the remote shooting control device 62 may decrease depending on the communication state in order to ensure image quality.

  FIG. 4 is a flowchart showing a procedure of a photographing transfer process performed by the CPU of the control unit of the photographing transfer device 61.

  In the event input process in step S801, an event generated by a user operation is received.

  In the subsequent step S802, the type of the received event is determined. As a result, if the event type is “start finder image display”, the process advances to step S803. If the event type is “shooting instruction command”, the process advances to step S804. If the event type is “captured image acquisition instruction”, the process advances to step S808. If the event type is “other”, the process proceeds to step S810. If the event type is “end”, the photographing transfer process is ended.

  In step S803, a finder image transfer process is performed, and the finder image transfer unit 61b transfers the finder image obtained from the CCD 61a to the remote imaging control device 62 via the network. Then, the process returns to step S801.

  In step S804, a shooting control process is performed, and the shooting control unit 61c initializes the shooting unit 61d and prepares a shooting ready state. In step S805, it is determined whether or not shooting is possible. If the camera is ready for shooting, the process proceeds to step S806. If the camera is not ready for shooting, the process returns to step S801.

  In step S806, shooting processing is performed, and the shooting control unit 61c causes the shooting unit 61d to perform shooting. In step S806, processing for acquiring an image for accumulation (main image) having a larger data amount (a larger pixel size) than the viewfinder image and the provisional image is performed. In subsequent step S807, a captured image storage process is performed, and the captured image obtained in step S806 is stored in the captured image storage unit 61e. Then, the process returns to step S801.

  In step S808, a captured image search process is performed, and the captured image transfer unit 61f selects a captured image specified by the image data transmission command sent from the corresponding captured image acquisition unit 62e of the remote imaging control device 62, as a captured image storage unit 61e. It detects from the picked-up image memorize | stored in.

  In the next step S809, a captured image transfer process is performed, and the captured image detected in step S808 is read from the captured image storage unit 61e and transmitted to the remote imaging control device 62. Then, the process returns to step S801.

  In step S810, individual processing is performed, and individual processing corresponding to other events is executed. Then, the process returns to step S801.

  FIG. 5 is a flowchart showing the procedure of the remote photographing process performed by the CPU 2 of the control unit of the remote photographing control device 62.

  In the event input process of step S901, an event generated by a user operation performed on the input unit 1 of the control unit of the remote imaging control device 62 is received.

  In a succeeding step S902, the type of the received event is determined. As a result, if the event type is “start finder image display”, the process advances to step S903. If the event type is “shooting instruction command”, the process advances to step S904. If the event type is “captured image acquisition instruction”, the process advances to step S908. If the event type is “others”, the process proceeds to step S909. If the event type is “end”, the remote photographing process is ended.

  In the finder display process of step S903, the finder display unit 62a of the remote imaging control device 62 displays the finder image transferred from the imaging transfer device 61 on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62. indicate. Then, the process returns to step S901.

  In the remote photographing control process in step S904, the remote photographing control unit 62c of the remote photographing control device 62 transmits a photographing instruction command to the photographing transfer device 61 via the network. In a succeeding step S905, it is determined whether or not the photographing performed by the photographing transfer device 61 is successful according to the photographing instruction command. As a result, if shooting is successful, the process proceeds to step S906, and if unsuccessful, the process returns to step S901.

  In the temporary captured image storage process in step S906, the temporary captured image storage unit 62d of the remote imaging control device 62 generates a temporary captured image from the viewfinder image displayed on the screen 62b of the output unit (image display unit) 3, Remember inside. Then, the process returns to step S901.

  In the corresponding captured image acquisition processing in step S907, first, it is assumed that the user's selection for the thumbnail image of the temporary captured image is detected from the thumbnail images displayed on the screen 62b of the output unit (image display unit) 3. Then, the corresponding captured image acquisition unit 62e transmits an image data transmission command for requesting transmission of captured image data corresponding to the provisional captured image to the capture transfer device 61. Upon receipt of this image data transmission command, the photographing transfer device 61 transmits a corresponding photographed image to the remote photographing control device 62. In the remote imaging control device 62, the corresponding captured image acquisition unit 62e acquires the captured image sent from the imaging transfer device 61. In the subsequent captured image recording process in step S908, the corresponding captured image acquisition unit 62e replaces the acquired captured image with the corresponding temporary captured image stored in the temporary captured image storage unit 62d. Then, the process returns to step S901.

  In the individual process in step S909, individual processes corresponding to other events are executed, and the process returns to step S901.

  FIG. 6 is a perspective view showing a general configuration of the remote imaging control device 62.

  The remote photographing control device 62 is provided with a shutter 101 for performing a still image photographing instruction operation and a recording / stop switch 102 for performing a moving image photographing start and end instruction operation.

  7A and 7B are diagrams showing the data structures of the captured image and the provisional captured image, where FIG. 7A shows the captured image and FIG. 7B shows the temporary captured image.

  The photographed image data 111 includes photographed image JPEG data 111a and photographed image specifying information 111b. The captured image JPEG data 111a is JPEG data of a captured image of 5 million pixels, for example. The captured image specifying information 111b is identification information for uniquely specifying a captured image, and includes a device ID that specifies a device that has instructed shooting and a data ID that specifies data within the device. For example, when the device ID is A03B56 and the data ID is 2F35, the captured image specifying information is defined as A03B56_2F35.

  Note that the captured image specifying information itself does not need to be physically stored in the same file as the captured image, and may be stored in a separate file that can be specified according to a predetermined rule. Further, as illustrated in FIG. 7A, the captured image specifying information may be a file name (A03B56_2F35.JPEG) of the captured image data 111.

  On the other hand, the provisional captured image data 112 includes finder image JPEG data 112a and captured image specifying information 112b. The finder image JPEG data 112a is JPEG data of a finder image of 640 × 480 pixels, for example. The captured image specifying information 112b is the same identification code (A03B56_2F35) as the captured image specifying information 111b of the corresponding captured image data 111. Then, as illustrated in FIG. 7B, the file name of the provisionally captured image data 112 is (A03B56_2F35_.JPEG).

  In this way, by specifying the captured image specifying information 111b of the captured image data 111 and the captured image specifying information 112b of the corresponding temporary captured image data 112 with the same identification code, the temporary captured image can be specified. It is possible to uniquely identify the captured image.

  FIG. 8 is a flowchart showing detailed contents of the remote shooting control process in step S904 in the remote shooting process in the remote shooting control device 62 shown in FIG.

  In the photographed image specifying information generation process in step S1201, photographed image specifying information for specifying a photographed image obtained by photographing performed by the photographing transfer device 61 in accordance with the photographing instruction command transmitted in step S904 is generated.

  In the subsequent shooting instruction process in step S1202, a shooting instruction command including the generated captured image specifying information is transmitted to the shooting transfer device 61, and the remote shooting control process is terminated.

  FIG. 9 is a flowchart showing detailed contents of the photographed image storage process in step S807 in the photograph transfer process in the photograph transfer device 61 shown in FIG.

  In the captured image specifying information embedding process in step S1301, the captured image specifying information transmitted together with the shooting instruction command from the remote shooting control device 62 in step S1202 in FIG. 8 is embedded in the shot image obtained in step S806 in FIG. Append).

  In the subsequent captured image writing process in step S1302, the captured image in which the captured image specifying information is embedded is stored in the captured image storage unit 61e, and the captured image storage process ends.

  FIG. 10 is a flowchart showing detailed contents of the provisional captured image storage process of step S906 in the remote imaging process in the remote imaging control device 62 shown in FIG.

  In the temporary captured image generation processing in step S1401, the temporary captured image storage unit 62d of the remote imaging control device 62 generates a still image for one frame from the finder image displayed on the screen 62b of the output unit (image display unit) 3. Extracting and reducing the image size generates a provisional captured image as a thumbnail image.

  In the subsequent captured image specifying information embedding process in step S1402, the captured image specifying information generated in step S1201 in FIG. 8 is embedded in the provisional captured image generated in step S1401.

  In the provisional captured image writing process in step S1403, the provisional captured image to which the captured image specifying information is added is stored as a thumbnail image in the remote capturing control device 62.

  FIG. 11 is a flowchart showing detailed contents of the corresponding captured image acquisition process in step S907 in the remote imaging process in the remote imaging control device 62 shown in FIG.

  In the captured image specifying information extraction process in step S1501, first, a thumbnail image selected by the user is detected from the thumbnail images displayed on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62. . Then, the corresponding captured image acquisition unit 62e extracts the captured image specifying information embedded in step S1402 of FIG. 10 with respect to the thumbnail image.

  In the subsequent captured image acquisition instruction processing in step S1502, the corresponding captured image acquisition unit 62e transmits an image data transmission command to the capture transfer device 61 with the captured image specifying information extracted in step S1501, and the corresponding captured image. The acquisition process ends.

  FIG. 12 is a flowchart showing the detailed contents of the photographed image search process in step S808 in the photograph transfer process in the photograph transfer device 61 shown in FIG.

  In the captured image specifying information search process in step S1601, the captured image transfer unit 61f refers to the captured image specifying information attached to the image data transmission command sent from the remote imaging control device 62 in step S1502 in FIG. Then, the captured image specified by the captured image specifying information is detected from the captured images stored in the captured image storage unit 61e.

  In subsequent step S1602, it is determined whether or not the retrieval of the captured image in step S1601 has been successful. As a result, if it is determined that the search is successful, the process proceeds to step S1603. If it is determined that the search is unsuccessful, the captured image search process is terminated.

  In the captured image acquisition process of step S1603, the detected captured image is read from the captured image storage unit 61e, and the captured image search process ends.

  As described above, in the first embodiment, image data is not transferred at all immediately after shooting. As a result, the next photographing instruction command can be immediately transmitted from the remote photographing control device 62 to the photographing transfer device 61 immediately after photographing, so that the photographing chance is not missed.

  In addition, in the transfer of captured images, a communication method such as FTP / TCP / IP is adopted to ensure image quality, and as a result, when a transfer error occurs, retransmission is performed, thereby transferring the captured image. It will take more time. However, by not transferring the photographed image immediately after photographing, such time is not required immediately after photographing.

  In addition, the user can perform various operations (search and playback) on the remote shooting control device side without acquiring the shot image from the shooting transfer device on the remote shooting control device side. Can be reduced.

  In addition, the storage capacity required for storing the captured image can be reduced on the remote imaging control device side.

  Further, in the first embodiment, the same shot image specifying information is added to the shooting instruction command for the shot image and the corresponding temporary shot image, thereby specifying the shot image from the temporary shot image. Easy to do.

  In the first embodiment, the case where the captured image is a still image has been described, but in the next second embodiment, the case where the captured image is a moving image will be described.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.

  Since the configuration of the second embodiment is basically the same as the configuration of the first embodiment, in the description of the second embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the second embodiment, the captured image is a moving image.

  FIG. 13 is a flowchart illustrating a procedure of the remote photographing process performed by the CPU 2 of the control unit of the remote photographing control device 62 in the second embodiment.

  In the event input process in step S1701, an event generated by a user operation performed on the input unit 1 of the control unit of the remote imaging control device 62 is received.

  In the subsequent step S1702, the type of the received event is determined. As a result, if the event type is “start display of viewfinder image”, the process advances to step S1703. If the event type is “shooting start instruction operation such as recording switch operation”, the process advances to step S1704. If the event type is “shooting end instruction operation such as stop switch operation”, the process advances to step S1707. If the event type is “other”, the process advances to step S1709. If the event type is “end”, the remote photographing process is ended.

  In the finder display process of step S1703, the finder display unit 62a of the remote imaging control device 62 displays the finder image transferred from the imaging transfer device 61 on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62. indicate. Then, the process returns to step S1701.

  In the remote shooting control process in step S1704, the remote shooting control unit 62c of the remote shooting control device 62 transmits a shooting start command to the shooting transfer device 601 via the network. In a succeeding step S1705, it is determined whether or not the photographing started by the photographing transfer device 61 is successful in response to the photographing start command. As a result, if photographing is successful, the process proceeds to step S1705, and if unsuccessful, the process returns to step S1701.

  In the temporary captured image storage start process in step S1706, the temporary captured image storage unit 62d of the remote imaging control device 62 generates a temporary captured image from the finder image displayed on the screen 62b of the output unit (image display unit) 3 and Start memory. Then, the process returns to step S1701.

  In the remote shooting control processing in step S1707, the remote shooting control unit 62c of the remote shooting control device 62 transmits a shooting end command to the shooting transfer device 61 via the network.

  In the provisional captured image storage end process in step S1708, the process of generating and storing the provisional captured image from the currently displayed finder image is terminated, and the process returns to step S1701.

  In the individual process in step S1709, individual processes corresponding to other events are executed, and the process returns to step S1701.

  FIG. 14 is a flowchart showing detailed contents of the provisional captured image storage start process in step S1706 of FIG.

  In the temporary moving image captured image generation start process in step S1801, generation of a temporary moving image captured image is started from the finder image being displayed. In the subsequent captured image specifying information embedding process in step S1802, the captured image specifying information corresponding to the temporary moving image captured image is embedded in the temporary moving image captured image. In the provisional captured image writing start process in step S1803, the provisional moving image captured image to which the captured image specifying information is added starts to be stored in the remote imaging control device 62, and the temporary captured image storage start process is terminated. .

  FIG. 15 is a flowchart showing detailed contents of the provisional captured image storage end process in step S1708 of FIG.

  In the provisional moving image captured image generation end process in step S1901, the generation of the temporary moving image captured image as the temporary captured image ends. In the subsequent provisional captured image writing process in step S1902, the provisional moving image captured image is completely stored in the remote imaging control device 62.

  Further, in the temporary shooting thumbnail generation process in step S1903, a temporary shooting thumbnail image which is one still image is generated from the temporary moving image shooting image stored in the remote shooting control device 62 in step S1902, and the temporary shooting image is generated. The storage end process is terminated. In this way, even when the captured image is a moving image, the same effects as those of the first embodiment can be obtained.

[Third Embodiment]
Next, a third embodiment of the present invention will be described.

  Since the configuration of the third embodiment is basically the same as the configuration of the first embodiment, in the description of the third embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the first embodiment, the captured image specifying information is composed of a device ID and a data ID, and a shooting instruction command including such captured image specifying information is transmitted from the remote shooting control device 62 to the shooting transfer device 61. Explained the case. On the other hand, in the third embodiment, the captured image specifying information includes a user ID and a data ID, and a shooting instruction command including such captured image specifying information is transmitted from the remote shooting control device 62 to the shooting transfer device. 61 is transmitted.

  FIGS. 16A and 16B are diagrams illustrating the data structures of the captured image and the provisional captured image according to the third embodiment. FIG. 16A illustrates the captured image, and FIG. 16B illustrates the temporary captured image.

  The photographed image data 201 includes photographed image JPEG data 201a and photographed image specifying information 201b. The captured image JPEG data 201a is, for example, JPEG data of a captured image of 5 million pixels. The captured image specifying information 201b is identification information for uniquely specifying a captured image, and includes a user ID that specifies a user (photographer) who has instructed shooting, and a data ID that specifies data for each user. The For example, when the user ID is taro and the data ID is 2F35, the captured image specifying information is defined as taro_2F35.

  Note that the captured image specifying information itself does not need to be physically stored in the same file as the captured image, and may be stored in a separate file that can be specified according to a predetermined rule. Further, as illustrated in FIG. 16A, the captured image specifying information may be the file name (taro_2F35.JPEG) of the captured image data 201.

  On the other hand, the provisional captured image data 202 includes thumbnail JPEG data 202a and captured image specifying information 202b. The thumbnail JPEG data 202a is JPEG data of a 160 × 120 pixel thumbnail image, for example. The captured image specifying information 202b is the same identification code (taro_2F35) as the captured image specifying information 201b of the corresponding captured image data 201. Then, as illustrated in FIG. 16B, the file name of the provisional captured image data 202 is (taro_2F35.thm).

  As described above, the captured image specifying information 201b of the captured image data 201 and the captured image specifying information 202b of the corresponding temporary captured image data 202 are set to the same identification code, thereby specifying the provisional captured image. It is possible to uniquely identify the captured image.

  As described above, in the third embodiment, the captured image specifying information is composed of the user ID and the data ID. As a result, even when the same user performs a shooting operation using a plurality of remote shooting control devices, it is possible to obtain the same effects as those obtained by the shooting system in the first embodiment. For example, access control using a user ID can be easily realized for a plurality of devices.

[Fourth Embodiment]
Next, a fourth embodiment of the present invention will be described.

  Since the configuration of the fourth embodiment is basically the same as the configuration of the first embodiment, in the description of the fourth embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the first embodiment, information composed of a device ID and a data ID is used as captured image specifying information. In the fourth embodiment, current time information is used as captured image specifying information. .

  FIG. 17 is a flowchart showing detailed contents of the provisional captured image storage process (corresponding to step S906 in FIG. 5) included in the remote imaging process in the remote imaging control device 62 according to the fourth embodiment.

  In the provisional captured image generation processing in step S2101, the provisional captured image storage unit 62d of the remote capture control device 62 generates a provisional captured image from the finder image displayed on the screen 62b of the output unit (image display unit) 3.

  In the subsequent time embedding process in step S2102, the current time information indicating the current time is embedded in the temporary captured image generated in step S2101.

  In the provisional captured image writing process in step S2103, the provisional captured image to which the current time information is added is stored inside the remote imaging control device 62.

  FIG. 18 is a flowchart showing detailed contents of the corresponding captured image acquisition process (corresponding to step S907 in FIG. 5) included in the remote imaging process in the remote imaging control device 62 in the fourth embodiment.

  First, a thumbnail image of a temporarily captured image is selected by the user from thumbnail images displayed on the screen 62b of the output unit (image display unit) 3 of the remote shooting control device 62. Then, in the time extraction process of step S2201, the corresponding captured image acquisition unit 62e extracts the current time information embedded in step S2102 of FIG. 17 with respect to the temporary captured image corresponding to the thumbnail image.

  In the subsequent captured image acquisition instruction process in step S2202, the corresponding captured image acquisition unit 62e transmits an image data transmission command to the capture transfer device 61 with the current time information extracted in step S2201 to acquire the actual corresponding captured image. The process ends.

  FIG. 19 is a flowchart showing detailed contents of a captured image search process (corresponding to step S808 in FIG. 4) included in the capture transfer process in the capture transfer apparatus 61 in the fourth embodiment. In the captured image storage process (corresponding to step S807 in FIG. 4) included in the captured transfer process in the captured transfer device 61, when the captured image obtained in step S806 is stored in the captured image storage unit 61e, The photographing time when the photographed image was photographed is stored together.

  In the time correction processing in step S2301, the current time information attached to the image data transmission command transmitted from the remote imaging control device 62 in step S2202 in FIG. 18 is extracted. Then, the extracted current time information is corrected by the time lag between the clock provided in the photographing transfer device 61 and the clock provided in the remote photographing control device 62. That is, the extracted current time information is corrected with the time of the clock provided in the photographing transfer device 61 as a standard.

  In the subsequent time zone search process in step S2303, a time zone having a predetermined time width around the time indicated by the current time information corrected in step S2301 is created. And the picked-up image memory | storage part 61e is searched for the picked-up image in which a pick-up time is included in this time slot | zone. As described above, the captured image storage unit 61e stores captured images to which shooting times are added.

  In a succeeding step S2303, it is determined whether or not the corresponding photographed image is detected. As a result, if it is detected, the process proceeds to step S2304. If it is not detected, the captured image search process is terminated.

  In the captured image acquisition process in step S2304, the detected captured image is read from the captured image storage unit 61e, and the captured image search process ends.

  Thus, in the fourth embodiment, at the time of shooting, the first embodiment does not need to transmit the shot image specifying information from the remote shooting control device 62 to the shooting transfer device 61 together with the shooting instruction command. The same effect can be obtained.

[Fifth Embodiment]
Next, a fifth embodiment of the present invention will be described.

  Since the configuration of the fifth embodiment is basically the same as the configuration of the first embodiment, the description of the fifth embodiment is the same as the configuration of the first embodiment. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the fifth embodiment, when a finder image is transmitted from the photographing transfer device 61 to the remote photographing control device 62, finder image specifying information is added to the finder image. Note that as the finder image specifying information, current time information indicating the current time when the finder image is transmitted by the photographing transfer device 61 is used. Then, at the time of shooting, the finder image specifying information is transmitted together with the shooting instruction command from the remote shooting control device 62 to the shooting transfer device 61, and the shooting transfer device 61 embeds the finder image specifying information in the shot image.

  FIG. 20 is a flowchart showing detailed contents of the finder image transfer process (corresponding to step S803 in FIG. 4) included in the image transfer process in the image transfer apparatus 61 in the fifth embodiment.

  In the finder image generation process in step S2401, a finder image is generated from video information obtained from the CCD 61a.

  In the subsequent time embedding process in step S2402, the current time information is embedded in the viewfinder image generated in step S2401.

  In the finder image transmission process in step S2403, the finder image transfer unit 61b transfers the finder image in which the current time information is embedded to the remote imaging control device 62 via the network. Then, the finder image transfer process ends.

  FIG. 21 is a flowchart showing detailed contents of the provisional captured image storage process (corresponding to step S906 in FIG. 5) included in the remote imaging process in the remote imaging control device 62 in the fifth embodiment.

  In the provisional captured image generation process in step S2501, the provisional captured image storage unit 62d of the remote imaging control device 62 generates a provisional captured image from the finder image displayed on the screen 62b of the output unit (image display unit) 3.

  In the subsequent finder time embedding process in step S2502, the current time information embedded in the finder image is extracted, and the current time information is embedded in the provisional captured image generated in step S2501.

  In the provisional captured image writing process in step S2503, the provisional captured image to which the current time information is added is stored as a thumbnail image in the remote capturing control device 62.

  FIG. 22 is a flowchart showing detailed contents of a captured image search process (corresponding to step S808 in FIG. 4) included in the capture transfer process in the capture transfer apparatus 61 according to the fifth embodiment.

  In the fifth embodiment, in the captured image acquisition instruction process in step S1502 of FIG. 11, the corresponding captured image acquisition unit 62e adds the current time information corresponding to the temporary captured thumbnail specified by the user to the image data transmission command. At the same time, it is transmitted to the photographing transfer device 61.

  Therefore, in the time search process in step S2601, the current time information attached to the image data transmission command transmitted in step S1502 is extracted. Then, a captured image in which the same current time information as the current time information is embedded in advance is detected from the captured images stored in the captured image storage unit 61e.

  In the fifth embodiment, the current time information is transmitted together with the shooting instruction command from the remote shooting control device 62 in advance. In the photographed image storage process (step S807 in FIG. 4) in the photograph transfer device 61 in the fifth embodiment, the current time information transmitted together with the photographing instruction command to the photographed image obtained in step S806 in FIG. Are embedded and stored in the captured image storage unit 61e.

  In step S2602, it is determined whether or not the corresponding captured image is detected in step S2601, and if detected, the process proceeds to step S2603. If not detected, the captured image search process is terminated.

  In the captured image acquisition process of step S2603, the detected captured image is read from the captured image storage unit 61e, and the captured image search process ends.

  As described above, in the fifth embodiment, the photographic image search target in the photographic image search process (FIG. 22) performed in the photographic transfer device 61 is the current time given to the finder image by the photographic transfer device 61 itself. For this reason, time correction processing as in the fourth embodiment (step S2301 in FIG. 19), or time zone search processing for creating and searching for a time zone having a predetermined time width (step S2302 in FIG. 19). Is unnecessary.

  Thus, the fifth embodiment is the same as the first embodiment even if the photographed image specifying information is not transmitted from the remote photographing control device 62 to the photographing transfer device 61 together with the photographing instruction command at the time of photographing. An effect can be obtained.

[Sixth Embodiment]
Next, a sixth embodiment of the present invention will be described.

  Since the configuration of the sixth embodiment is basically the same as the configuration of the first embodiment, in the description of the sixth embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the sixth embodiment, after the remote shooting control device 62 acquires a shot image from the shooting transfer device 61, the shot image stored in the shooting transfer device 61 is deleted and stored in the remote shooting control device 62. The provisional captured image is replaced with the captured image.

  FIG. 23 is a flowchart illustrating a procedure of photographing transfer processing performed by the CPU of the control unit of the photographing transfer device 61 according to the sixth embodiment.

  In the event input process in step S2701, an event generated by a user operation is received.

  In a succeeding step S2702, the type of the received event is determined. As a result, if the event type is “start finder image display”, the process advances to step S2703. If the event type is “shooting instruction command”, the process advances to step S 2704. If the event type is “captured image deletion instruction”, the process advances to step S2708. If the event type is “others”, the process advances to step S2710. If the event type is “end”, the photographing transfer process is ended.

  In step S2703, a finder image transfer process is performed, and the finder image transfer unit 61b transfers the finder image obtained from the CCD 61a to the remote imaging control device 62 via the network. Then, the process returns to step S2701.

  In step S2704, a shooting control process is performed, and the shooting control unit 61c initializes the shooting unit 61d to prepare for shooting. In step S2705, it is determined whether or not the camera is ready for photographing. If the camera is ready for shooting, the process proceeds to step S2706. If the camera is not ready for shooting, the process returns to step S2701.

  In step S2706, shooting processing is performed, and the shooting control unit 61c causes the shooting unit 61d to perform shooting. In subsequent step S2707, a captured image storage process is performed, and the captured image obtained in step S2706 is stored in the captured image storage unit 61e. Then, the process returns to step S2701.

  In step S2708, a captured image search process is performed, and the captured image transfer unit 61f selects a captured image specified by the image data transmission command transmitted from the corresponding captured image acquisition unit 62e of the remote imaging control device 62, as a captured image storage unit 61e. It detects from the picked-up image memorize | stored in.

  In the next step S2709, a captured image deletion process is performed, and the captured image detected in step S2708 is deleted from the captured image storage unit 61e. Then, the process returns to step S2701.

  In step S2710, individual processing is performed, and individual processing corresponding to other events is executed. Then, the process returns to step S2701.

  Note that the remote shooting process performed by the remote shooting control device 62 in the sixth embodiment is basically the same as the remote shooting process performed by the remote shooting control device 62 in the first embodiment shown in FIG. is there.

  FIG. 24 is a flowchart showing detailed contents of the corresponding captured image acquisition process (corresponding to step S907 in FIG. 5) in the remote imaging process in the remote imaging control device 62 in the sixth embodiment.

  In the captured image specifying information extraction process in step S2801, first, one thumbnail image is selected from the thumbnail images displayed on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62 by the user. . When the selection is detected, the corresponding captured image acquisition unit 62e extracts the captured image specifying information embedded in the thumbnail image.

  In the subsequent captured image acquisition instruction process in step S2802, the corresponding captured image acquisition unit 62e transmits an image data transmission command to the capture transfer device 61 with the captured image specifying information extracted in step S2801.

  Upon receiving the image data transmission command, the photographing transfer device 61 acquires a photographed image corresponding to the photographed image specifying information attached to the image data transmission command from the photographed image storage unit 61e and transfers it to the remote photographing control device 62. In step S2803, it is determined whether or not acquisition of the photographed image is successful. If successful, the process proceeds to step S2804. If not successful, the corresponding captured image acquisition process is terminated.

  In the remote captured image deletion process in step S2804, the captured image is deleted from the captured image storage unit 61e of the capture transfer device 61, and the corresponding captured image acquisition process ends.

  FIG. 25 is a flowchart showing detailed contents of a captured image storage process (corresponding to step S908 in FIG. 5) in the remote imaging process in the remote imaging control device 62 in the sixth embodiment.

  In the photographed image replacement process in step S2901, the photographed image corresponding to the photographed image specifying information attached to the image data transmission command is transferred from the photograph transfer device 61, and this photographed image is stored in the remote photographing control device 62. It replaces the corresponding provisional captured image (thumbnail image).

  In the shooting thumbnail image generation process in step S2902, a thumbnail image as a temporary shooting image is newly generated based on the replaced shooting image.

  As described above, in the sixth embodiment, after the remote shooting control device 62 acquires a shot image from the shooting transfer device 61, the corresponding shot image in the shooting transfer device 61 is deleted, and the remote shooting control device 62 is also used. The corresponding temporary captured image and temporary captured thumbnail are deleted. Thereby, it is possible to reduce the amount of data to be stored in each of the remote photographing control device 62 and the photographing transfer device 61.

[Seventh Embodiment]
Next, a seventh embodiment of the present invention will be described.

  Since the configuration of the seventh embodiment is basically the same as the configuration of the first embodiment, in the description of the seventh embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the seventh embodiment, when the temporary captured image stored in the remote imaging control device 62 is deleted, the captured image stored in the imaging transfer device 61 is deleted in conjunction with this deletion. Is called.

  FIG. 26 is a flowchart illustrating a procedure of remote photographing processing performed by the CPU 2 of the control unit of the remote photographing control device 62 according to the seventh embodiment.

  In the event input process in step S3001, an event generated by a user operation performed on the input unit 1 of the control unit of the remote imaging control device 62 is received.

  In the subsequent step S3002, the type of the received event is determined. As a result, if the event type is “start finder image display”, the process advances to step S3003. If the event type is “shooting instruction command”, the process advances to step S3004. If the event type is “photographed image deletion instruction”, the process advances to step S3007. If the event type is “other”, the process advances to step S3010. If the event type is “end”, the remote photographing process is ended.

  In the finder display process of step S3003, the finder display unit 62a of the remote imaging control device 62 displays the finder image transferred from the imaging transfer device 61 on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62. indicate. Then, the process returns to step S3001.

  In the remote shooting control process in step S3004, the remote shooting control unit 62c of the remote shooting control device 62 transmits a shooting instruction command to the shooting transfer device 61 via the network. In a succeeding step S3005, it is determined whether or not the photographing performed by the photographing transfer device 61 is successful according to the photographing instruction command. As a result, if the photographing is successful, the process proceeds to step S3006, and if unsuccessful, the process returns to step S3001.

  In the temporary captured image storage process of step S3006, the temporary captured image storage unit 62d of the remote imaging control device 62 generates a temporary captured image from the finder image displayed on the screen 62b of the output unit (image display unit) 3, Remember inside. Then, the process returns to step S3001.

  In the remote shot image deletion process in step S3007, the thumbnail image of the temporarily shot image is selected by the user from the thumbnail images displayed on the screen 62b of the output unit (image display unit) 3, and the input of the delete instruction is detected. Then, an image data deletion command for deleting the data of the photographed image corresponding to the temporary photographed image is transmitted to the photographing transfer device 61. Upon receiving this image data deletion command, the image capturing / transfer apparatus 61 deletes the corresponding captured image from the storage unit.

  In a succeeding step S3008, it is determined whether or not the photographed image is successfully deleted by the photographing transfer device 61. If successful, the process proceeds to step S3009. If not successful, the process returns to step S3001.

  In the temporary captured image deletion process in step S3009, the temporary captured image corresponding to the captured image to be deleted in step S3007 is deleted from the temporary captured image storage unit 62d. Then, the process returns to step S3001.

  In the individual process in step S3010, individual processes corresponding to other events are executed, and the process returns to step S3001.

  As described above, in the seventh embodiment, when a temporary captured image stored in the remote imaging control device 62 is deleted, an unnecessary response in the imaging transfer device 61 is linked to the deletion. The photographed image is deleted, and useless storage of the photographed image is avoided.

[Eighth Embodiment]
Next, an eighth embodiment of the present invention will be described.

  Since the configuration of the eighth embodiment is basically the same as the configuration of the first embodiment, in the description of the eighth embodiment, the same parts as the configuration of the first embodiment are used. Are denoted by the same reference numerals, and the description of the first embodiment is used, and only different portions will be described.

  In the eighth embodiment, display processing of various images performed by the remote imaging control device 62 will be described.

  FIG. 27 is a flowchart illustrating a procedure of various image display processing performed by the CPU 2 of the control unit of the remote imaging control device 62 according to the eighth embodiment.

  In the event input process in step S 3101, an event generated by a user operation performed on the input unit 1 of the control unit of the remote imaging control device 62 is received.

  In the subsequent step S3102, the type of the received event is determined. As a result, if the event type is “start display of viewfinder image”, the process advances to step S3103. If the event type is “list display instruction”, the process advances to step S3104. If the event type is “captured image display instruction”, the process advances to step S3105. If the event type is “other”, the process advances to step S3106. If the event type is “end”, the image display processing is ended.

  In the finder display process of step S3103, the finder display unit 62a of the remote imaging control device 62 displays the finder image transferred from the imaging transfer device 61 on the screen 62b of the output unit (image display unit) 3 of the remote imaging control device 62. indicate. Then, the process returns to step S3101.

  In the thumbnail list display process in step S3104, thumbnails of the captured images to be displayed in a list are displayed as a list, and the process returns to step S3101.

  In the image display process in step S3105, the captured image to be displayed is displayed, and the process returns to step S3101.

  In the individual process in step S3106, individual processes corresponding to other events are executed, and the process returns to step S3101.

  FIG. 28 is a flowchart showing detailed contents of the thumbnail list display process in step S3104 in the image display process in the remote imaging control device 62 shown in FIG.

  In the list target data acquisition process in step S3201, a data group to be a list display target is acquired. In the subsequent step S3202, initialization is performed with the top of the acquired data group as a processing target. In the following step S3203, it is determined whether or not the thumbnail display processing has been executed for all the data groups. If the thumbnail display processing has been executed, the thumbnail list display processing is ended. If not, execution has been completed. The process proceeds to step S3204.

  In the thumbnail display process in step S3204, a thumbnail image is displayed based on the data to be processed. In the subsequent step S3205, it is determined whether or not the data to be processed is temporary captured image data. If it is provisional photographed image data, the process proceeds to step S3206. If the processing target data is photographed image data, the process returns to step S3203.

  In the temporary photographed image mark display processing in step S3206, a mark “replacement” as shown in FIG. 29 is displayed on the thumbnail image in an overlay manner. This mark is a thumbnail image created from the provisional photographed image and indicates that the remote photography control device 62 has not yet obtained the photographed image.

  FIG. 29 is a diagram illustrating an example of a list screen displayed on the screen 62b of the image display unit of the remote imaging control device 62 in the eighth embodiment.

  In this list screen, six thumbnail images 341 to 346 are displayed, of which thumbnail images 342 and 346 are thumbnail images created from the provisional captured images, and the mark “replacement” is overlaid. Note that the thumbnail image created from the temporarily captured image is inferior in image quality to the thumbnail image generated from the captured image.

  Returning to FIG. 28, in step S3207, the process target is advanced to the next data, and the process returns to step S3203.

  FIG. 30 is a flowchart showing detailed contents of the image display processing in step S3105 in the image display processing in the remote imaging control device 62 shown in FIG.

  In the display target data acquisition process in step S3301, image data to be displayed is acquired. In the subsequent display processing in step S3302, display is performed based on the acquired image data.

  In step S3303, it is determined whether the displayed image is a provisional captured image. As a result, if it is a provisional photographed image, the process proceeds to step S3304, and if it is a photographed image, the main image display process is terminated.

  In the provisional captured image mark display process in step S3304, a mark “replacement” as shown in FIG. 31 is displayed on the provisional captured image, and the main image display process ends. This mark is a provisional photographed image created from the viewfinder image, and indicates that the remote photography control device 62 has not yet obtained a photographed image.

  FIG. 31 is a diagram illustrating a provisional captured image displayed on the screen 62b of the image display unit of the remote imaging control device 62 in the eighth embodiment.

As described above, in the eighth embodiment, the captured image displayed on the screen 62b of the image display unit of the remote imaging control device 62 and the temporarily captured image are displayed separately for the user, whereby the temporary captured image is displayed. Can easily instruct acquisition of a corresponding captured image.
As described above, image data is not transferred at all immediately after shooting. As a result, the next photographing instruction command can be immediately transmitted from the remote photographing control device to the photographing transfer device immediately after photographing, so that the chance of photographing is not missed.
In addition, in the transfer of captured images, a communication method such as FTP / TCP / IP is employed to ensure image quality. As a result, when a transfer error occurs, retransmission is performed, and this allows transfer of captured images. Although more time is required, it is not necessary to take such time immediately after shooting by not transferring the shot image immediately after shooting.
In addition, the user can perform various operations (search and playback) on the remote shooting control device side without acquiring the shot image from the shooting transfer device on the remote shooting control device side. Can be reduced.
In addition, the storage capacity required for storing the captured image can be reduced on the remote imaging control device side.
Further, by adding the same captured image specifying information for the captured image and the corresponding temporarily captured image to the capturing instruction command, it becomes easy to identify the captured image from the temporarily captured image. Furthermore, since it is not necessary to include the captured image specifying information for specifying the captured image in the temporary captured image (finder image), the real-time property of the finder image display is not impaired.
The same effect can be obtained even when the captured image is a moving image.
Further, for example, by using photographed image specifying information (identification information) including photographer specifying information (user ID), the same user (photographer) operates the image capturing and transferring apparatus using a plurality of remote shooting control devices. You can also.
In addition, by using the current time as the captured image specifying information (identification information), it is not necessary to transmit the captured image specifying information from the remote imaging control device to the imaging transfer device at the time of imaging.
Further, by adding the finder image specifying information to the finder image, it is not necessary to transmit the captured image specifying information from the remote shooting control device to the shooting transfer device at the time of shooting.
In addition, after the captured image is acquired, the corresponding captured image in the capture transfer device is deleted, and the temporary captured image and the temporary captured thumbnail in the remote capture control device are deleted, so that the storage area is wasted in each storage device. You can avoid using it.
In addition, in conjunction with the deletion of the provisional captured image in the remote shooting control device, the corresponding captured image in the shooting transfer device that is no longer needed is deleted, and the storage area in the shooting transfer device is wasted. You can avoid that.
In addition, the captured image displayed on the display device in the remote imaging control device and the temporary captured image can be clearly distinguished and displayed, thereby easily instructing acquisition of the captured image from the temporary captured image. it can.

[Other Embodiments]
Another object of the present invention is to supply a storage medium storing software program codes for realizing the functions of the above-described embodiments to a system or apparatus, and the computer of the system or apparatus (or CPU, MPU, or the like). Is also achieved by reading and executing the program code stored in the storage medium.

  In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the program code and the storage medium storing the program code constitute the present invention. .

  Examples of the storage medium for supplying the program code include a floppy (registered trademark) disk, a hard disk, a magneto-optical disk, a CD-ROM, a CD-R, a CD-RW, a DVD-ROM, a DVD-RAM, and a DVD. An optical disc such as RW or DVD + RW, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used. Alternatively, the program code may be downloaded via a network.

  Further, by executing the program code read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (Operating System) running on the computer based on the instruction of the program code. Includes a case where the functions of the above-described embodiments are realized by performing part or all of the actual processing.

  Furthermore, after the program code read from the storage medium is written to a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, the expanded function is based on the instruction of the program code. This includes a case where a CPU or the like provided on the expansion board or the expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.

It is a figure which shows transmission / reception of the control signal and image data which are performed between the imaging | photography transmission apparatus which comprises the imaging | photography system which concerns on the 1st Embodiment of this invention, and a remote imaging | photography control apparatus. It is a block diagram which shows the hardware constitutions of the control part of the remote imaging | photography control apparatus shown in FIG. It is a block diagram which shows each function respectively implement | achieved when CPU of each control part of an imaging | photography transfer apparatus and a remote imaging | photography control apparatus runs a control program. It is a flowchart which shows the procedure of the imaging | photography transfer process performed by CPU of the control part of an imaging | photography transfer apparatus. It is a flowchart which shows the procedure of the remote imaging process performed by CPU of the control part of a remote imaging control apparatus. It is a perspective view which shows the external appearance structure of a remote imaging | photography control apparatus. It is a figure which shows each data structure of a picked-up image and a temporary picked-up image. It is a flowchart which shows the detailed content of the remote imaging | photography control process of step S904 in the remote imaging | photography process with the remote imaging | photography control apparatus shown in FIG. 6 is a flowchart showing detailed contents of a captured image storage process in step S807 in the capture transfer process in the capture transfer apparatus shown in FIG. 6 is a flowchart showing detailed contents of a provisional captured image storage process in step S906 in the remote imaging process in the remote imaging control apparatus shown in FIG. It is a flowchart which shows the detailed content of the corresponding | compatible picked-up image acquisition process of step S907 in the remote imaging | photography process in the remote imaging | photography control apparatus shown in FIG. 5 is a flowchart showing detailed contents of a captured image search process in step S808 in the image capture transfer process in the image capture transfer apparatus shown in FIG. It is a flowchart which shows the procedure of the remote imaging | photography process performed by CPU of the control part of the remote imaging | photography control apparatus in 2nd Embodiment. It is a flowchart which shows the detailed content of the temporary picked-up image storage start process of step S1706 of FIG. It is a flowchart which shows the detailed content of the temporary picked-up image storage completion | finish process of step S1708 of FIG. It is a figure which shows each data structure of the picked-up image and temporary picked-up image in 3rd Embodiment. It is a flowchart which shows the detailed content of the temporary picked-up image storage process (equivalent to step S906 of FIG. 5) contained in the remote imaging | photography process in the remote imaging | photography control apparatus in 4th Embodiment. It is a flowchart which shows the detailed content of the corresponding | compatible picked-up image acquisition process (equivalent to step S907 of FIG. 5) contained in the remote imaging | photography process in the remote imaging | photography control apparatus in 4th Embodiment. It is a flowchart which shows the detailed content of the picked-up image search process (equivalent to step S808 of FIG. 4) included in the imaging | photography transfer process in the imaging | photography transfer apparatus in 4th Embodiment. It is a flowchart which shows the detailed content of the finder image transfer process (equivalent to step S803 of FIG. 4) included in the imaging | photography transfer process in the imaging | photography transfer apparatus in 5th Embodiment. It is a flowchart which shows the detailed content of the temporary picked-up image storage process (equivalent to step S906 of FIG. 5) included in the remote imaging | photography process in the remote imaging | photography control apparatus in 5th Embodiment. It is a flowchart which shows the detailed content of the picked-up image search process (equivalent to step S808 of FIG. 4) included in the imaging | photography transfer process in the imaging | photography transfer apparatus in 5th Embodiment. It is a flowchart which shows the procedure of the imaging | photography transfer process performed by CPU of the control part of the imaging | photography transfer apparatus in 6th Embodiment. It is a flowchart which shows the detailed content of the corresponding | compatible picked-up image acquisition process (equivalent to step S907 of FIG. 5) in the remote imaging | photography process in the remote imaging | photography control apparatus in 6th Embodiment. It is a flowchart which shows the detailed content of the picked-up image storage process (equivalent to step S908 of FIG. 5) in the remote imaging | photography process in the remote imaging | photography control apparatus in 6th Embodiment. It is a flowchart which shows the procedure of the remote imaging | photography process performed with CPU of the control part of the remote imaging | photography control apparatus in 7th Embodiment. It is a flowchart which shows the procedure of the display process of the various images performed with CPU of the control part of the remote imaging | photography control apparatus in 8th Embodiment. It is a flowchart which shows the detailed content of the thumbnail list display process of step S3104 in the image display process in the remote imaging | photography control apparatus shown in FIG. It is a figure which shows an example of the list screen displayed on the screen of the image display part of a remote imaging | photography control apparatus in 8th Embodiment. It is a flowchart which shows the detailed content of the image display process of step S3105 in the image display process in the remote imaging | photography control apparatus shown in FIG. It is a figure which shows the temporary picked-up image displayed on the screen of the image display part of a remote imaging | photography control apparatus in 8th Embodiment.

Explanation of symbols

1 input unit (user input operation reception unit)
2 CPU
3 Output unit (image display unit)
4 Program Memory 5 Data Memory 6 Bus 61 Image Transfer Device 61a Image Sensor (CCD)
61b Viewfinder image transfer unit (finder image transfer means)
61c Imaging control unit 61d Imaging unit (imaging means)
61e Captured image storage unit (captured image storage means)
61f Captured image transfer unit (captured image transfer means)
61g Wireless antenna 62 Remote imaging control device 62a Viewfinder display section (finder display means)
62b Screen of output unit (image display unit) 62c Remote shooting control unit (remote shooting control means)
62d Temporarily shot image storage unit (temporary shot image storage means)
62e Corresponding photographed image acquisition unit (corresponding photographed image request means, corresponding photographed image acquisition means)
62f Wireless antenna 63-65 Communication (network)

Claims (13)

In a shooting system in which a shooting transfer device performs shooting according to an instruction from a remote shooting control device via a network,
A viewfinder image transfer means for transferring a viewfinder image provided in the shooting transfer device for allowing a user to check a subject imaged by the shooting means, to the remote shooting control device;
A finder display means provided in the remote photographing control device for displaying a finder image transferred by the finder image transfer means;
Remote shooting control means provided in the remote shooting control device, corresponding to a shooting instruction generated based on a finder image displayed by the finder display means, and sending a shooting instruction command to the shooting transfer device;
Provisional photographing image storage means provided in the remote photographing control device, generating a provisional photographing image from a finder image when the photographing instruction is generated, and storing the provisional photographing image together with identification information for specifying the provisional photographing image;
A photographic image storage unit that is provided in the photographic transfer device and stores a photographic image taken by the photographic unit based on the photographic instruction command together with the identification information;
Identification data corresponding to the designated temporary photographed image is extracted from the plurality of temporary photographed images stored in the temporary photographed image storage means provided in the remote photographing control device, and the image data is attached with the identification information. transmission means for transmitting the transmission command to the imaging transfer device,
A captured image corresponding to the identification information attached to the image data transmission command is read from the captured image storage unit based on the image data transmission command provided in the imaging transfer device and transmitted by the transmission unit, and the remote Photographic image transfer means for transferring to the photographic control device;
An imaging system, comprising: a corresponding captured image acquisition unit that is provided in the remote imaging control device and receives a captured image transferred by the captured image transfer unit.   The photographing according to claim 1, wherein the temporary photographed image storage unit generates a temporary photographed image from a finder image when the photographing instruction is generated, and stores the temporary photographed image together with identification information for specifying the temporary photographed image. system.   The temporary captured image storage means generates a temporary moving image captured image from a viewfinder image from the time when the shooting start instruction is generated to the time when the shooting end instruction is generated, and together with identification information for identifying the temporary moving image captured image The imaging system according to claim 1, wherein the imaging system is stored.   When transmitting a shooting instruction command to the shooting transfer device, the remote shooting control means adds shooting image specifying information corresponding to the shooting instruction command to the shooting instruction command, and transmits the shooting instruction command. 2. The photographing system according to claim 1, wherein the photographed image storage means uses the photographed image specifying information as the identification information. The captured image specifying information, at least, claim 4, characterized in that it consists and information that identifies the remote imaging control apparatus has instructed photographing, and information that identifies the data in the remote imaging control equipment The shooting system described. The captured image specifying information, at least, imaging system of claim 4, wherein the consist and information that identifies the instructed photographer photographing, and information that identifies the data for each photographer. The temporary captured image storage means, imaging system of claim 1, wherein said information indicating the current time the temporary captured image is generated, is characterized by using as said identification information. The finder image transfer means transfers the finder image to the remote photographing control device together with finder image specifying information for specifying the finder image.
When transmitting the shooting instruction command, the remote shooting control means transmits finder image specifying information attached to a finder image corresponding to the shooting instruction command together with the shooting instruction command,
2. The photographing system according to claim 1, wherein the temporary photographed image storage means uses finder image specifying information of a corresponding finder image as the identification information. The photographing transfer device further includes a photographed image deleting means for deleting a photographed image recorded therein based on a deletion instruction sent from the remote photographing control device,
The remote shooting control device further includes remote shot image deletion means for causing the shot image deletion means to delete the shot image when the transferred shot image is received by the corresponding shot image acquisition means. The imaging system according to claim 1.   When the remote shooting control device receives the transferred captured image by the corresponding captured image acquisition means, a temporary captured image corresponding to the transferred captured image stored by the temporary captured image storage means, 2. The photographing system according to claim 1, further comprising photographed image replacement means for replacing with the transferred photographed image. The photographing transfer device further includes a photographed image deleting means for deleting a photographed image recorded therein based on a deletion instruction sent from the remote photographing control device,
The remote photographing control device further includes temporary photographed image deleting means for deleting a temporary photographed image corresponding to the photographed image from the temporary photographed image storage means when the photographed image is deleted by the photographed image deleting means. The imaging system according to claim 1, wherein: The remote imaging control device is
A thumbnail list display means for displaying a list of thumbnails of the thumbnail and the temporary captured image of the captured image,
The imaging system according to claim 1, further comprising image display means for displaying a captured image and a provisional captured image. In a remote shooting method applied to a shooting system comprising a shooting transfer device and a remote shooting control device connected to each other via a communication line, the shooting transfer device shooting according to control from the remote shooting control device,
A finder image transfer step in which the shooting transfer device transfers a finder image to the remote shooting control device;
A finder display step in which the remote photographing control device displays the finder image transferred in the finder image transfer step;
A remote shooting control step in which the remote shooting control device transmits a shooting instruction command to the shooting transfer device in response to a shooting instruction generated based on the finder image displayed in the finder display step;
The imaging transfer device, based on the imaging instruction command sent by the remote photographing control step, and the imaging control step of capturing the images in the imaging means provided in the imaging transfer device,
A temporary photographed image storage step in which the remote photographing control device generates a temporary photographed image from a finder image when the photographing instruction is generated, and stores the provisional photographed image storage means together with identification information for specifying the temporary photographed image; ,
A photographic image storage step in which the photographic transfer device stores a photographic image obtained by photographing performed by the photographing means based on the photographing instruction command together with the identification information in a photographic image storage means ;
The remote photographing control device extracts identification information corresponding to the designated temporary photographed image from the plurality of temporary photographed images stored in the temporary photographed image storage means , and adds the identification information to the image data transmission command. a transmission step of transmitting to the imaging transfer device,
Based on the image data transmission command transmitted in the transmission step, the photographing transfer device reads out a photographed image corresponding to the identification information attached to the image data transmission command from the photographed image storage means, and performs the remote photographing control. A captured image transfer step to transfer to the device;
The remote photographing method, wherein the remote photographing control device includes a corresponding photographed image acquisition step of receiving the photographed image transferred in the photographed image transfer step.

Images