JP2014131184A - Imaging apparatus, and control method and program for the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an imaging apparatus, and a control method and a program for the same, capable of appropriately switching processes between transmitting whole image data and transmitting selected image data, even the details of transmission destination is unknown with the imaging apparatus.SOLUTION: A digital camera 100 acquires transmission destination information of image data photographed from a PC 200, and determines whether whole image data may be transmitted or the image data selected by the user may be transmitted depending on the transmission destination information. Next, the digital camera 100 executes a process for transmitting whole image data or a process for transmitting image data selected on the basis of the determination result.

Description

  The present invention relates to a technique for transmitting image data captured by an imaging apparatus.

  There is known a technique in which a data processing device such as a digital camera is equipped with a wireless communication function and image data held in the data processing device is transmitted to an external device. By using this technique, image data can be transmitted to a plurality of external devices more easily. Patent Document 1 discloses a technique in which a digital camera holds transmission destination information, analyzes image transmission destination information at the time of image data transmission, and performs image data transmission processing according to the transmission destination.

  Also, a system is known that transmits image data to a desired transmission destination via a relay server when transmitting image data from a digital camera.

JP 2012-075125 A

  In the case of a system using a relay server as described above, for example, a digital camera records only transmission source information and transmission destination information, and the type of each transmission destination and spec information of image data that can be transmitted are stored in the relay server. A management method is conceivable. With such a method, for example, image data can be transferred to a transmission destination without hard-coding the type of each transmission destination and spec information of image data that can be transmitted to a digital camera.

  On the other hand, in the above example, the digital camera does not know the details of the transmission destination. For example, there is a limit on the number of image data transmissions, or all image data can be transmitted. I can't judge what to do. Therefore, the digital camera cannot switch the image data transmission process or the like according to the transmission destination.

  As described in the above example, when a relay server is used, what information is held on the client device side such as a digital camera is an important issue.

  Accordingly, an object of the present invention is to appropriately switch between processing for transmitting all image data and processing for transmitting selected image data even when the details of the transmission destination are not known in the imaging apparatus. There is.

  An imaging apparatus according to the present invention includes an imaging unit, an acquisition unit that acquires transmission destination information including information related to a transmission destination of image data captured by the imaging unit, and a recording medium based on the information related to the transmission destination Determining means for determining whether to transmit all of the image data captured by the imaging means recorded on the image data, or to transmit selected image data among the image data recorded on the recording medium; Processing for transmitting all of the image data recorded on the recording medium or transmission of image data selected from the image data recorded on the recording medium according to a result of determination by the determination unit And processing means for executing processing for performing the processing.

  According to the present invention, it is possible to appropriately perform transmission processing by appropriately including information regarding transmission.

It is a figure which shows the structure of the digital camera which concerns on embodiment of this invention. It is a figure which shows the structure of PC concerning embodiment of this invention. It is a figure which shows the example of the connection form of the digital camera which concerns on embodiment of this invention, PC, and a server. 4 is a flowchart illustrating processing for setting transmission destination information in a digital camera by a PC. It is a figure which shows the example of a screen display in a digital camera. It is a flowchart which shows the transmission destination information setting process in a digital camera. It is a figure which shows the example of a screen display in a digital camera. It is a flowchart which shows the process of the server when transmission destination information is set in a digital camera. It is a flowchart which shows the process of the digital camera at the time of transmitting the file selected by the user. It is a figure which shows the example of a screen display in a digital camera. It is a flowchart which shows the process of the server at the time of the file selected by the user being transmitted from a digital camera. It is a flowchart which shows the process which a digital camera transmits all the untransferred files. 13 is a flowchart showing details of a file transmission process in step S603 of FIG. 13 is a flowchart showing details of a file resume transmission process in step S602 of FIG. It is a flowchart which shows the process of the server at the time of transmitting all the untransferred files from a digital camera. It is a flowchart which shows the process of PC when all the untransferred files are transmitted from a digital camera. It is a figure which shows the example of a screen display in PC.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments to which the invention is applied will be described in detail with reference to the accompanying drawings. The embodiment described below is merely an example, and the configuration of an apparatus to which the present invention can be applied may be appropriately modified or changed according to various conditions. In the following, a digital camera capable of shooting still image data and moving image data will be described as an example of an imaging apparatus. A so-called camera-equipped mobile phone is also an example of an imaging device.

  FIG. 1 is a diagram showing a configuration of a digital camera 100 according to an embodiment of the present invention. The control unit 101 includes, for example, a CPU (MPU), a memory (DRAM, SRAM), and the like, and executes various processes (programs) to control each component of the digital camera 100 and transmit data between the components. Or control. In addition, the control unit 101 controls each component of the digital camera 100 according to an operation signal from the operation unit 102 that receives an operation from the user.

  The operation unit 102 includes switches for inputting various operations related to photographing such as a power button, a zoom adjustment button, and an autofocus button. The operation unit 102 can be configured with a menu display button, a determination button, other cursor keys, a pointing device, a touch panel, or the like. When these keys and buttons are operated by the user, the operation unit 102 102 transmits an operation signal to the control unit 101. Further, the operation unit 102 includes a release button, and the release button includes a SW1 pressed in a so-called half-pressed state and a SW2 pressed in a so-called fully-pressed state. An imaging preparation instruction is output by pressing SW1, and an imaging instruction is output by pressing SW2. In this embodiment, the release button for still image shooting and the release button for moving image shooting are shared, but different buttons can be used. The bus 103 is a general-purpose bus for sending various data, control signals, instruction signals, and the like to each block of the digital camera 100.

  The imaging unit 110 converts the optical image of the subject captured by the lens into an image signal using an imaging element such as a CCD sensor or a CMOS sensor by controlling the amount of light using a diaphragm. In addition, the audio input unit 120 collects sound around the digital camera 100 using, for example, a built-in omnidirectional microphone or an external microphone connected via an audio input terminal. The memory 104 is, for example, a RAM (Random Access Memory) or a flash memory, and includes both a volatile memory and a non-volatile memory that temporarily record image signals and audio signals, setting information of the digital camera 100, and the like. .

  The recording medium 141 is a recording medium that can be connected to the digital camera 100. The recording medium 141 can record various data generated by the digital camera 100. Examples of the recording medium 141 include a hard disk, an optical disk, a flash memory, and the like. In the present embodiment, a flash memory device called a so-called memory card that can be attached to the digital camera 100 will be described as an example.

  The audio output unit 151 includes, for example, an audio output terminal, and transmits an audio signal in order to output audio from a connected earphone or speaker. The audio output unit 151 may be built in the digital camera 100. The video output unit 150 includes, for example, a video output terminal, and transmits an image signal for displaying a video on a connected external display or the like. Further, the audio output unit 151 and the video output unit 150 may be a single integrated terminal such as an HDMI (registered trademark) terminal.

  The communication unit 152 transmits and receives data by serial or parallel communication with an external device via a communication interface such as RS232C, USB, IEEE1394, P1284, SCSI, modem, LAN, and IEEE802.11 wireless communication. Do. In addition, by executing a communication protocol in accordance with the communication interface, data can be transmitted / received to / from an external device. Examples of communication protocols include HTTP (Hyper Text Transfer Protocol) and PTP-IP (Picture Transfer Protocol over IP). The display unit 130 displays GUI such as image data and various menus recorded on the recording medium 141. As the display unit 130, for example, a liquid crystal display or an organic EL display can be used.

  In the following, a personal computer (PC) capable of capturing still image data and moving image data will be described as an example of the information processing apparatus. A mobile phone such as a tablet PC or a so-called smartphone is also an example of an information processing apparatus.

  FIG. 2 is a diagram illustrating a configuration of the PC 200 according to the present embodiment. The PC 200 includes a display unit 201, an operation unit 202, a CPU 203, a primary storage device 204, a secondary storage device 205, and a communication device 206. Since the basic functions of each configuration are the same as those of the digital camera 100, detailed description thereof is omitted. For the display unit 201, a display device such as an LCD is used. The display unit 201 does not need to be included in the PC 200, and the PC 200 only needs to have a display control function for controlling the display of the display unit 201. Further, the secondary storage device 205 is an optical disk such as a hard disk drive, DVD-RW drive, CD-ROM, CD-R or DVD-RAM, a magnetic disk such as a flexible disk or MO, or a nonvolatile memory such as a flash memory. It may be a device that reads and writes an external storage medium such as a memory. Furthermore, a keyboard, a mouse, or a touch panel can be used as the operation unit 202.

  Since the communication interface and protocol used for the communication device 206 are the same as those of the digital camera 100, description thereof is omitted. The PC 200 can transmit and receive data to and from an external device using the communication device 206.

  Hereinafter, a server capable of communicating with an external device will be described as an example of an external device. Since each configuration of the server is the same as that of the PC 200, description thereof is omitted here. The server can transmit and receive data to and from an external device using a communication device. The server transmits / receives data to / from the external device by responding to a communication request from the external device. Since the communication interface and communication protocol that can be handled by the server are the same as those of the PC 200, the description thereof is omitted here.

  Hereinafter, as an example of a connection form of the digital camera 100, the PC 200, and the server 300, a connection form in the infrastructure will be described. FIG. 3 is a diagram illustrating an example of a connection form of the digital camera 100, the PC 200, and the server 300 according to the present embodiment.

  The digital camera 100 and the PC 200 are connected via a communication cable. Any communication cable may be used as long as it can transmit and receive data in accordance with the PTP standard. As an example, a USB cable can be used. Further, the digital camera 100 and the PC 200 may be connected via a wireless interface compliant with, for example, IEEE 802.11x (x is a, b, g, n, etc.) instead of being wired.

  The digital camera 100 and the server 300 are connected to the PC 200 and the server 300 via the Internet. There are devices such as routers and access points as devices constituting the Internet, but the description thereof is omitted here.

  Hereinafter, a process in which the PC 200 sets transmission destination information in the digital camera 100 will be described with reference to FIGS. 4 and 5. Note that the processing shown in FIG. 4 is realized by the CPU 203 by reading and executing necessary data and programs from the secondary storage device 205 in the PC 200.

  In step S <b> 101, the PC 200 determines whether or not the digital camera 100 is connected. If the digital camera 100 is connected, the process proceeds to step S102. On the other hand, if the digital camera 100 is not connected, the process returns to step S101.

  In step S <b> 102, the PC 200 transmits a device information acquisition request to the digital camera 100. In step S <b> 103, the PC 200 determines whether device information has been acquired from the digital camera 100. When the device information is acquired, the process proceeds to step S104. On the other hand, if the device information has not been acquired, the process returns to step S103. Here, the device information is information used for registering the digital camera 100 in the server 300 and acquiring an identifier for uniquely identifying the digital camera 100. The identifier includes a MAC address of the digital camera 100, a device name, a Model ID, or the like.

  In step S <b> 104, the PC 200 transmits a transmission destination information acquisition request to the digital camera 100. In step S105, the PC 200 determines whether the transmission destination information set in the digital camera 100 has been acquired. If the destination information is acquired, the process proceeds to step S106. On the other hand, if the transmission destination information has not been acquired, the process returns to step S105.

  In step S <b> 106, the PC 200 transmits a camera registration request to the server 300 together with the device information of the digital camera 100. In step S <b> 107, the PC 200 determines whether or not the identifier (ID) of the digital camera 100 has been acquired from the server 300. When the identifier of the digital camera 100 is acquired, the process proceeds to step S108. On the other hand, when the identifier of the digital camera 100 has not been acquired, the process proceeds to step S107.

  In step S <b> 108, the PC 200 transmits a PC registration request to the server 300 together with the device information of the PC 200. Here, the device information of the PC 200 is information for registering the PC 200 as a transmission destination with respect to the server 300, and the MAC address or GUID of the PC 200 (identifier for uniquely identifying the device issued by the PC 200). ).

  In step S109, the PC 200 determines whether or not the identifier (ID) of the PC 200 has been acquired from the server 300. When the identifier of the PC 200 is acquired, the process proceeds to step S110. On the other hand, if the PC 200 identifier has not been acquired, the process returns to step S109.

  Next, processing when registering the PC 200 as a file transmission destination of the connected digital camera 100 will be described. In step S <b> 110, the PC 200 transmits a pairing confirmation request to the server 300. This process is a process for confirming a device set as a transmission destination when the digital camera 100 transmits all untransferred files.

  In step S <b> 111, the PC 200 determines whether pairing information has been acquired from the server 300. When pairing information is acquired, the process proceeds to step S112. On the other hand, if the pairing information has not been acquired, the process returns to step S111.

  In step S112, the PC 200 determines whether the PC 200 is set as the transmission destination of the digital camera 100 based on the pairing information, that is, whether the pairing with the digital camera 100 is in progress. When the PC 200 is set as the file transmission destination of the digital camera 100 (when pairing with the digital camera 100 is in progress), the pairing registration process is not performed, and the process proceeds to step S117. On the other hand, when another device is set as the file transmission destination of the digital camera 100 (when pairing with another device is in progress), the process proceeds to step S113. On the other hand, when the file transmission destination of the digital camera 100 has not been set yet (when pairing is not in progress), the process proceeds to step S115.

  In step S113, the PC 200 displays a pairing warning screen shown in FIG. This pairing warning screen will be described later. In step S114, the PC 200 determines whether a pairing request is instructed by the user. Here, it is determined whether a pairing request is instructed on the pairing warning screen by the user operating the operation unit 202. If a pairing request is instructed, the process proceeds to step S115. On the other hand, when the pairing request is interrupted, the pairing registration is interrupted, and the process proceeds to step S117.

  In step S115, the PC 200 transmits a pairing request to the server 300. The pairing request includes the identifier of the digital camera 100 and the identifier of the PC 200 as information that allows the server 300 to uniquely identify the device.

  In step S <b> 116, the PC 200 determines whether an untransferred file list has been acquired from the server 300. This untransferred file list is used when the PC 200 acquires a file transmitted from the digital camera 100 to the server 300. The untransferred file list acquisition process will be described later.

  In step S <b> 117, the PC 200 transmits a transmission destination information acquisition request to the server 300. In step S <b> 118, the PC 200 determines whether transmission destination information has been acquired from the server 300. When the destination information is acquired, the process proceeds to step S119. Here, in the transmission destination information, restriction information such as file size and file format that can be transmitted to the transmission destination, an identifier for uniquely identifying the transmission source (transmission source identifier), and a transmission destination are uniquely identified. Management information such as an identifier (transmission destination identifier) to be performed.

  In step S119, the PC 200 displays a transmission destination setting screen shown in FIG. The transmission destination setting screen shown in FIG. 5A will be described later. In step S <b> 120, the PC 200 edits the file transmission destination of the digital camera 100 when the user operates the operation unit 202. Thereby, the transmission destination information is edited. At this time, the value of the identifier of the transmission destination included in the transmission destination information changes depending on whether or not all the untransferred files are transmission destinations. That is, when the file selected by the user is a transmission destination, an identifier of the transmission destination (for example, PC 200) is set. On the other hand, when all the untransferred files are transmission destinations, the identifier of the digital camera 100 is set. This process may be performed in step S120 or may be performed in step S314 in FIG. As described above, in the present embodiment, it is determined whether the identifier of the transmission destination or the identifier of the digital camera 100 is set depending on what transmission processing is performed.

  In step S <b> 121, the PC 200 transmits a transmission destination information setting request and transmission destination information to the digital camera 100. The transmission destination information transmitted here is the transmission destination information edited in step S119.

  FIG. 5A is a diagram illustrating an example of a transmission destination setting screen displayed on the PC 200. In FIG. 5A, a button 501 is a transmission destination selection instruction unit for instructing selection of a transmission destination. When the user selects a transmission destination by operating the operation unit 202, the transmission destination is changed to a digital camera. 100 is selected as a transmission destination set to 100. A button 502 is a transmission destination editing instruction unit that instructs editing of a transmission destination set in the digital camera 100. When the user presses the button 502 by operating the operation unit 202, the button 502 is selected by the transmission destination selection instruction unit 501. The transmission destination is set as the transmission destination of the digital camera 100. A button 503 is a transmission destination setting instruction unit for instructing the digital camera 100 to set a transmission destination edited by the PC 200. When the button 503 is pressed by operating the operation unit 202, the edited transmission destination is displayed. Is set in the digital camera 100.

  FIG. 5B is a diagram illustrating an example of a pairing warning screen displayed on the PC 200. In FIG. 5B, a button 511 is a pairing setting instruction unit for instructing to set the connected PC 200 as the transmission destination of the digital camera 100. When the user presses the button 511 by operating the operation unit 202, a pairing request is instructed. The button 512 is a pairing interruption instruction unit for interrupting setting of the connected PC 200 as a transmission destination of the digital camera 100. When the user presses the button 512 by operating the operation unit 202, the pairing request is interrupted.

  Next, the transmission destination information setting process in the digital camera 100 will be described with reference to FIG. The process shown in FIG. 6 is a process realized by the control unit 101 reading and executing necessary data and programs from the memory 104 in the digital camera 100.

  In step S <b> 201, the digital camera 100 determines whether it is connected to the PC 200 via the communication unit 152. When connected to the PC 200, the process proceeds to step S202. On the other hand, if not connected to the PC 200, the process returns to step S201.

  In step S <b> 202, the digital camera 100 determines whether a device information acquisition request is received from the PC 200. When the device information acquisition request is received, the process proceeds to step S203. On the other hand, if the device information acquisition request has not been received, the process proceeds to step S204.

  In step S <b> 203, the digital camera 100 transmits device information of the digital camera 100 to the PC 200. In step S <b> 204, the digital camera 100 determines whether a transmission destination information acquisition request has been received from the PC 200. When the transmission destination information acquisition request is received, the process proceeds to step S205. On the other hand, when the transmission destination information acquisition request has not been received, the process proceeds to step S206.

  In step S <b> 205, the digital camera 100 transmits the transmission destination information recorded in the memory 104 to the PC 200. In step S <b> 206, the digital camera 100 determines whether a transmission destination information setting request is received from the PC 200. When the transmission destination information setting request is received, the process proceeds to step S207. On the other hand, when the transmission destination information setting request has not been received, the process proceeds to step S208.

  In step S <b> 207, the digital camera 100 records the transmission destination information received from the PC 200 in the memory 104. Thereby, transmission destination information is set from the PC 200 to the digital camera 100. In step S208, the digital camera 100 determines whether or not the connection with the PC 200 has been disconnected. If the connection with the PC 200 is disconnected, the process ends. On the other hand, if the connection with the PC 200 is not disconnected, the process returns to step S201.

  Further, in the processing of the digital camera 100 when the transmission destination information is set in the digital camera 100, nothing is displayed on the display unit 130 of the digital camera 100 as shown in FIG. Alternatively, it may be displayed that setting is in progress as shown in FIG.

  Next, processing of the server 300 when destination information is set in the digital camera 100 will be described with reference to FIG. The process illustrated in FIG. 8 is a process realized by the CPU 203 reading and executing necessary data and programs from the secondary storage device 205 in the server 300.

  In step S <b> 301, the server 300 determines whether a registration request for the digital camera 100 is received from the PC 200. When the registration request is received, the process proceeds to step S302. On the other hand, if the registration request has not been received, the process proceeds to step S305.

  In step S302, the server 300 determines whether the digital camera 100 has been registered in the server 300 based on the device information of the digital camera 100 requested to be registered in step S301. If the digital camera 100 has been registered, the process proceeds to step S304. On the other hand, if the digital camera 100 is not yet registered, the process proceeds to step S303.

  In step S <b> 303, the server 300 issues an identifier (identifier of the digital camera 100) for uniquely identifying the digital camera 100 by the server 300 from the device information of the digital camera 100. In step S <b> 304, the server 300 transmits the identifier of the digital camera 100 to the PC 200.

  In step S <b> 305, the server 300 determines whether a registration request for the PC 200 has been received from the PC 200. When the registration request for the PC 200 is received, the process proceeds to step S306. On the other hand, if the registration request for the PC 200 has not been received, the process proceeds to step S309.

  In step S <b> 306, the server 300 determines whether the PC 200 has been registered in the server 300 based on the device information of the PC 200 requested to be registered. If the PC 200 has been registered, the process proceeds to step S308. On the other hand, if the PC 200 has not been registered, the process proceeds to step S307.

  In step S307, the server 300 issues an identifier (identifier of the PC 200) for uniquely identifying the PC 200 from the device information of the PC 200. In step S <b> 308, the server 300 transmits the identifier of the PC 200 to the PC 200.

  In step S309, the server 300 determines whether a pairing confirmation request is received from the PC 200. If a pairing confirmation request is received, the process proceeds to step S310. On the other hand, if the pairing confirmation request has not been received, the process proceeds to step S311. In step S310, the server 300 performs a pairing confirmation process. Details of the pairing confirmation process will be described later.

  In step S <b> 311, the server 300 determines whether a pairing request has been received from the PC 200. If a pairing request is received, the process proceeds to step S312. On the other hand, if a pairing request has not been received, the process proceeds to step S313.

  In step S312, the server 300 updates pairing information in response to a pairing request from the PC 200, sets the PC 200 as a file transmission destination of the digital camera 100, and updates the untransferred file list. Then, the server 300 transmits the updated untransferred file list to the PC 200.

  In step S <b> 313, the server 300 determines whether a transmission destination information acquisition request has been received from the PC 200. When the transmission destination information acquisition request is received, the process proceeds to step S314. On the other hand, when the transmission destination information acquisition request has not been received, the process returns to step S301. In step S314, the server 300 transmits the destination information to the PC 200.

  In step S314, the server 300 transmits the destination information to the PC 200. At this time, when the file transmission destination of the digital camera 100 is the transmission destination to which the file selected by the user is transmitted, the server 300 transmits the transmission destination information including the identifier of the transmission destination. On the other hand, when the file transmission destination of the digital camera 100 is a transmission destination to which all untransferred files are transmitted, the server 300 transmits transmission destination information including the identifier of the digital camera 100. This process may be performed in step S314 or may be performed in step S120 described above. Further, whether the file transmission destination of the digital camera 100 is a transmission destination to which a file selected by the user is transmitted or a transmission destination to which all untransferred files are transmitted is previously managed in the server 300. The server 300 generates transmission destination information based on this management content and transmits it to the PC 200.

  Here, the pairing confirmation process in step S310 of FIG. 8A will be described. FIG. 8B is a flowchart showing details of the pairing confirmation process in step S310 of FIG.

  In step S3101, the server 300 determines the pairing status from the identifier of the digital camera 100 and the identifier of the PC 200 included in the pairing confirmation request received in step S309. If the digital camera 100 and the PC 200 are paired, the process proceeds to step S3102. On the other hand, when the digital camera 100 is paired with a device other than the PC 200, the process proceeds to step S3103. On the other hand, if the digital camera 100 is not paired with a device, the process proceeds to step S3104.

  In step S <b> 3102, the server 300 notifies the PC 200 of pairing information that the digital camera 100 is pairing with the PC 200. In step S3103, the server 300 notifies the PC 200 of pairing information that the digital camera 100 is pairing with a device other than the PC 200. In step S3104, the server 300 notifies the PC 200 of pairing information that the digital camera 100 is not paired with a device.

  In the above-described transmission destination information setting process, the transmission destination information is set for the digital camera 100 via the PC 200. However, the transmission destination information setting process may not be performed via the PC 200. For example, the registration process and the transmission destination information setting process of the digital camera 100 may be performed by connecting the digital camera 100 to the server 300. In the present embodiment, the PC 200 is set as the transmission destination, but it is not limited to the PC 200. For example, an information device such as a smartphone or a tablet or a network HDD may be set as the transmission destination.

  Next, processing of the digital camera 100 when transmitting a file selected by the user will be described with reference to FIGS. 9 and 10. The process shown in FIG. 9 is a process that is started when the user operates the operation unit 102 to turn on the power. The process shown in FIG. 9 is a process realized by the control unit 101 reading out and executing necessary data and programs from the memory 104 in the digital camera 100.

  First, the digital camera 100 displays the image reproduction screen shown in FIG. In step S <b> 401, the digital camera 100 determines whether the user has instructed to start transmission processing via the operation unit 102. When the user operates the operation unit 102 on the image reproduction screen shown in FIG. 10A, the start of file transmission processing is instructed. When the file transmission process start is instructed, the transmission destination selection screen shown in FIG. 10B is displayed on the display unit 130, and the process proceeds to step S402. On the other hand, if the start of the file transmission process is not instructed, the process returns to step S401.

  In step S402, the digital camera 100 determines whether or not the transmission destination is selected on the transmission destination selection screen illustrated in FIG. When the transmission destination is selected, the process proceeds to step S403. On the other hand, when the transmission destination is not selected, the process returns to step S402.

  In step S403, the digital camera 100 determines whether the transmission destination selected by the user is a transmission destination that transmits all untransferred files. It is determined based on the above-described transmission destination information whether or not the transmission destination is a transmission destination that transmits all untransferred files.

  The transmission destination information includes a transmission source identifier and a transmission destination identifier as transmission destination information. When these two pieces of information are compared and the identifier of the transmission source and the identifier of the transmission destination are the same, it is determined that the transmission destination selected by the user is the transmission destination that transmits all the untransferred files. On the other hand, when the identifier of the transmission source and the identifier of the transmission destination are not the same, the transmission destination selected by the user is not the transmission destination that transmits all the untransferred files (the transmission destination that transmits the file selected by the user). ). By distinguishing the identifiers in this way, the digital camera 100 can determine what kind of transmission processing should be performed without holding detailed information regarding the transmission destination.

  If the transmission destination selected by the user is not the transmission destination that transmits all untransferred files, the process proceeds to step S404. On the other hand, when the transmission destination selected by the user is a transmission destination that transmits all untransferred files, all the untransferred files recorded on the recording medium 141 are transmitted. The untransferred file transmission process will be described later.

  In step S404, the digital camera 100 displays the transmission file selection screen shown in FIG. This transmission file selection screen will be described later. When the user operates the operation unit 102, a transmission target file is selected on the transmission file selection screen.

  In step S405, the digital camera 100 determines whether the size of the file selected by the user is a size that can be transmitted to the transmission destination. Whether the size is a size that can be transmitted to the transmission destination is determined based on the transmission destination information described above. If the selected file size is larger than the size that can be transmitted to the transmission destination, the process proceeds to step S406. On the other hand, when the selected file size is equal to or smaller than the size that can be transmitted to the transmission destination, the process proceeds to step S407.

  In step S406, the digital camera 100 displays the file selection failure screen shown in FIG. 10D on the display unit 130, and cancels the file selection. This file selection failure screen will be described later. In step S407, the digital camera 100 determines whether or not a transmission start instruction for the selected file has been performed on the transmission file selection screen by the user operating the operation unit 102. If a transmission start instruction is given, the process proceeds to step S408. On the other hand, if no transmission start instruction has been issued, the process returns to step S404.

  In step S408, the digital camera 100 transmits the file information of the transmission target file to the server 300, and requests acquisition of transmission information management data (hereinafter referred to as a token). Note that the file information includes file (image data) attribute information such as a file size and a file format.

  In step S409, the digital camera 100 determines whether a token has been acquired from the server 300. When the token is acquired, the process proceeds to step S410. On the other hand, if the token has not been acquired, the process returns to step S409.

  In step S410, the digital camera 100 transmits the file selected by the user. At this time, the digital camera 100 displays the file transmission progress screen shown in FIG. The file transmission progress screen will be described later. The digital camera 100 repeats the file transmission process in step S410 by the number of files selected by the user. When the number of files selected by the user is transmitted to the server 300, the process ends.

  FIG. 10A is a diagram illustrating an example of an image playback screen displayed on the digital camera 100. In FIG. 10A, a button 1001 is a file transmission process start instruction unit for instructing the start of file transmission processing. When the user presses the button 1001 by operating the operation unit 102, the digital camera 100 displays the file transmission process. To start.

  FIG. 10B is a diagram illustrating an example of a transmission destination selection screen displayed on the digital camera 100. In FIG. 10B, a button 1002 is a transmission destination instruction unit for instructing transmission destination selection. When the user presses the button 1002 by operating the operation unit 102, the digital camera 100 issues a transmission destination selection instruction. Accept.

  FIG. 10C is a diagram illustrating an example of a transmission file selection screen displayed on the digital camera 100. In FIG. 10C, a button 1003 is a transmission file selection instruction unit for instructing selection of a transmission file. When the user presses the button by operating the operation unit 102, the digital camera 100 is set as a transmission target file. Accepts file selection instructions.

  FIG. 10D is a diagram illustrating an example of a file selection failure screen displayed on the digital camera 100. The file selection failure screen 1005 is a screen that is displayed when the user operates the operation unit 102 to select a file that cannot be transmitted due to the file size exceeding.

  FIG. 10E is a diagram illustrating an example of a file transmission progress screen displayed on the digital camera 100. The digital camera 100 displays the number of transmitted files and the progress of the number of transmission target files and the amount of transmission data on the file transmission progress screen. A button 1006 is a transmission interruption instruction unit for instructing transmission interruption. When the user presses the button 1006 by operating the operation unit 102, the digital camera 100 receives an instruction to interrupt transmission.

  Next, the processing of the server 300 when the file selected by the user is transmitted from the digital camera 100 will be described with reference to FIG. The process shown in FIG. 11 is a process realized by the CPU 203 reading and executing necessary data and programs from the secondary storage device 205 in the server 300.

  In step S <b> 501, the server 300 determines whether a token acquisition request has been received from the digital camera 100. If a token acquisition request is received from the digital camera 100, the process proceeds to step S502. On the other hand, if a token acquisition request has not been received from the digital camera 100, the process proceeds to step S503.

  In step S <b> 502, the server 300 generates a token in response to the token acquisition request and transmits the token to the digital camera 100. The generated token is used for file transmission progress management and file information management.

  In step S <b> 503, the server 300 determines whether a file transmission request is received from the digital camera 100. When a file transmission request is received from the digital camera 100, the process proceeds to step S504. If a file transmission request has not been received from the digital camera 100, the process returns to step S501. In step S <b> 504, the server 300 receives a file from the digital camera 100.

  Next, a process in which the digital camera 100 transmits all untransferred files will be described with reference to FIGS.

  FIG. 12 is a flowchart illustrating processing of the digital camera 100 when all the untransferred files are transmitted from the digital camera 100. The process illustrated in FIG. 12 is a process realized by the control unit 101 reading and executing necessary data and programs from the memory 104 in the digital camera 100.

  In step S <b> 601, the digital camera 100 determines whether the file information being transmitted is recorded in the memory 104. The file information during transmission is information including at least a file path, an identifier for uniquely identifying the file (hereinafter referred to as UUID), and a file size, and determines whether the file exists and whether it is updated or not. It is information used to do. If the file information during transmission is recorded in the memory 104, the process proceeds to step S602. On the other hand, when the file information during transmission is not recorded in the memory 104, the process proceeds to step S603. In step S602, the digital camera 100 performs a file resume transmission process. In step S603, the digital camera 100 performs file transmission processing.

  Next, the file transmission process in step S603 will be described in detail. FIG. 13 is a flowchart showing details of the file transmission processing in step S603.

  In step S6031, the digital camera 100 searches for an untransferred file from the files recorded on the recording medium 141. In step S6032, the digital camera 100 determines whether there is an untransferred file on the recording medium 141. If there is an untransferred file, the process proceeds to step S6033. On the other hand, if there is no untransferred file, the process ends. Whether or not the file has not been transferred is described based on whether or not the file has already been transmitted in the tag information of the file. As a determination method, a management file for managing the transfer status of a file may be created, and determination may be made based on the management file.

  In step S6033, the digital camera 100 transmits the file information of the transmission target file to the server 300, and makes a token acquisition request. In step S <b> 6034, the digital camera 100 determines whether a token has been acquired from the server 300. When the token is acquired from the server 300, the process proceeds to step S6035. On the other hand, if a token has not been acquired from the server 300, the process returns to step S6034.

  In step S <b> 6035, the digital camera 100 records the file path, UUID, file size, and token of the transmission target file in the memory 104. Then, the digital camera 100 causes the display unit 130 to display a transmission progress display screen illustrated in FIG. In step S <b> 6036, the digital camera 100 starts transmitting the transmission target file to the server 300.

  In step S6037, the digital camera 100 determines whether transmission of the transmission target file is completed. If transmission of the transmission target file is interrupted due to a communication error or a battery exhaustion, the process ends. Thus, when a transmission interruption unintended by the user occurs, the file resume transmission process is performed when the next transmission start instruction is issued. On the other hand, if a transmission cancellation instruction is given by the user operating the operation unit 102, the process proceeds to step S6038. On the other hand, when the transmission of the transmission target file is completed, the process proceeds to step S6039.

  In step S6038, the digital camera 100 deletes the file path, UUID, file size, and token of the transmission target file from the memory 104. Then, the process ends. Thus, when the user explicitly performs a transmission cancel operation, retransmission is not performed from the middle of the file. When the transmission of the transmission target file is completed, the process proceeds to step S6039.

  In step S6039, the digital camera 100 deletes the file path, UUID, file size, and token of the transmission target file from the memory 104. Then, the process proceeds to step S6031.

  Next, the file resume transmission process in step S602 will be described in detail. FIG. 14 is a flowchart showing details of the file resume transmission process in step S602.

  In step S6021, the digital camera 100 reads the file information being transmitted from the memory 104, and determines whether a file exists in the recording medium 141 for the file path stored in the file information being transmitted. If the file exists, the process proceeds to step S6022. On the other hand, if the file does not exist, the process proceeds to step S6029. In step S6029, the digital camera 100 determines that the file being transmitted has been deleted or moved, and deletes the file path, UUID, file size, and token from the memory 104. And a process transfers to a file transmission process.

  In step S6022, the digital camera 100 sets a file in the same location as the file path stored in the file information being transmitted as a transmission target file. In step S6023, the digital camera 100 matches the UUID of the transmission target file with the UUID recorded in the memory 104, and the file size of the transmission target file matches the file size recorded in the memory 104. It is determined whether or not. If the UUIDs match and the file sizes match, it is determined that the transmission target file recorded on the recording medium 141 is the same file as the file specified as the transmission target file at the previous transmission. The process proceeds to step S6024. On the other hand, if the UUID does not match or the file size does not match, it is determined that the transmission target file recorded on the recording medium 141 has been updated, and the process proceeds to step S6029. Here, the UUID is used as an identifier for uniquely identifying the file, but other information may be used as long as it is identifier information that can uniquely identify the file. Further, instead of the file size, other information may be used as long as the information can specify whether or not the file has been updated, such as the last update date and time of the file. In this embodiment, the presence or absence of the file update is confirmed in this way if the file in the middle of transmission stored in the server 300 is different from the transmission target file from which transmission is to be resumed, and the server is notified when the file transmission is completed. This is because when two files are combined at 300, two different types of files may be combined.

  If the file being transmitted stored in the server 300 is different from the transmission target file from which transmission is to be resumed, in step S6029, the digital camera 100 stores the file path, UUID, file size, and token of the transmission target file in the memory 104. Delete from. And a process transfers to a file transmission process.

  In step S6024, the digital camera 100 transmits a token to the server 300, and requests acquisition of the transmitted data amount of the transmission target file. In step S6025, the digital camera 100 determines whether the transmitted data amount has been acquired from the server 300. If the transmitted data amount is acquired, the process proceeds to step S6026. On the other hand, if the transmitted data amount has not been acquired, the process returns to step S6025.

  In step S <b> 6026, the digital camera 100 determines an untransferred file from the amount of transmitted data, and starts transmitting the untransferred file to the server 300. In step S6027, the digital camera 100 determines whether transmission of the untransferred file is completed. If transmission of an untransferred file is interrupted due to a communication error or battery exhaustion, the process ends. Thus, when a transmission interruption unintended by the user occurs, the file resume transmission process is performed when the next transmission start instruction is issued. On the other hand, when the user operates the operation unit 102 to instruct transmission cancellation, the process proceeds to step S6028. On the other hand, when the file transmission is completed, the process proceeds to step S6029.

  In step S6028, the digital camera 100 deletes the file path, UUID, file size, and token of the transmission target file from the memory 104. Thus, when the user explicitly performs a transmission cancel operation, retransmission is not performed from the middle of the file. In step S6029, the digital camera 100 deletes the file path, UUID, file size, and token of the transmission target file from the memory 104. And a process transfers to a file transmission process.

  Next, processing of the server 300 when all untransferred files are transmitted from the digital camera 100 will be described with reference to FIG. FIG. 15 shows processing realized by the CPU 203 reading and executing necessary data and programs from the secondary storage device 205 in the server 300.

  In step S <b> 701, the server 300 determines whether a token acquisition request is received from the digital camera 100. If a token acquisition request is received from the digital camera 100, the process proceeds to step S702. On the other hand, when the token acquisition request has not been received from the digital camera 100, the process proceeds to step S703.

  In step S702, the server 300 generates a token in response to the token acquisition request, and transmits the token to the digital camera 100. The generated token is used for file transmission progress management and file information management.

  In step S <b> 703, the server 300 determines whether a file transmission request is received from the digital camera 100. If a file transmission request is received from the digital camera 100, the process proceeds to step S704. On the other hand, if a file transmission request has not been received from the digital camera 100, the process proceeds to step S705.

  In step S <b> 704, the server 300 receives a file from the digital camera 100. The data amount information of the received file is managed together with the token so that the transmitted data amount can be acquired from the token. When the server 300 detects the completion of file transmission from the received data amount information of the file, the server 300 combines the files if the files are divided and transmitted by interruption.

  In step S <b> 705, the server 300 determines whether a transmitted data amount acquisition request has been received from the digital camera 100. When the transmitted data amount acquisition request is received from the digital camera 100, the process proceeds to step S706. On the other hand, if the transmitted data amount acquisition request has not been received from the digital camera 100, the process proceeds to step S707.

  In step S706, the server 300 transmits the transmitted data amount to the digital camera 100 in response to the transmitted data amount acquisition request. In step S707, the server 300 determines whether or not an untransferred file list acquisition request has been received from the PC 200. If an untransferred file list acquisition request is received from the PC 200, the process proceeds to step S708. If an untransferred file list acquisition request has not been received from the PC 200, the process proceeds to step S709.

  In step S708, in response to the request for acquiring the untransferred file list, the server 300 transmits, to the PC 200, a list of storage destination URLs of files that have not received a file acquisition completion notification from the PC 200 as an untransferred file list.

  In step S709, the server 300 determines whether a file acquisition request is received from the PC 200. When the file acquisition request is received from the PC 200, the process proceeds to step S710. On the other hand, if the file acquisition request has not been received from the PC 200, the process proceeds to step S711.

  In step S710, the server 300 transmits the file specified by the file acquisition request to the PC 200. In step S <b> 711, the server 300 determines whether a file acquisition completion notification is received from the PC 200. When the file acquisition completion notification is received from the PC 200, the process proceeds to step S712. On the other hand, if the file acquisition completion notification has not been received from the PC 200, the process returns to step S701.

  In step S712, the server 300 changes the management information of the file corresponding to the file acquisition completion notification to “transferred”. Thereby, when an untransferred file list acquisition request is received from the PC 200 in the future, the file is not included in the untransferred file list. Further, since the acquisition of the file is completed in the PC 200, the server 300 may delete the file from the storage area of the server.

  Next, the processing of the PC 200 when all untransferred files are transmitted from the digital camera 100 will be described with reference to FIGS. The process shown in FIG. 16 is a process realized by the CPU 203 reading and executing necessary data and programs from the secondary storage device 205 in the PC 200.

  In step S <b> 801, the PC 200 transmits an untransferred file list acquisition request to the server 300. In step S <b> 802, the PC 200 determines whether the acquisition of the untransferred file list from the server 300 has been completed. When acquisition of the untransferred file list is completed, the process proceeds to step S803. On the other hand, if acquisition of the untransferred file list has not been completed, the process returns to step S802. The PC 200 displays the untransfer list reception notification screen shown in FIG. 17A from when the untransfer file list acquisition request is transmitted to the server 300 until the untransfer file list acquisition is completed. The untransfer list reception notification screen will be described later.

  In step S803, the PC 200 determines whether there is a file that has not yet been received in the untransferred file list. If there is a file not yet received in the untransferred file list, the process proceeds to step S804. On the other hand, if there is no unreceived file in the untransferred file list (when all files are received), the process proceeds to step S807.

  In step S804, the PC 200 transmits a file acquisition request to the server 300 using the URL of the file recorded in the untransferred file list. In step S805, the PC 200 determines whether the file acquisition from the server 300 is completed. When the file acquisition is completed, the file is stored in the secondary storage device 205, and the process proceeds to step S806. On the other hand, if the file acquisition from the server 300 has not been completed, the process returns to step S805.

  In step S806, the PC 200 transmits a file acquisition completion notification to the server 300. This notification is a process performed to cause the server 300 to detect that the PC 200 has acquired a file and the storage in the secondary storage device 205 has been completed. The PC 200 repeats the processing from step S804 to step S806 until file acquisition from the server 300 is completed for the number of files recorded in the untransferred file list. Further, the PC 200 displays the file reception notification screen shown in FIG. 17B until the acquisition of all the files recorded in the untransferred file list is completed. The file reception notification screen will be described later. When the acquisition of all the files recorded in the untransferred file list is completed, the process proceeds to step S807. When the file acquisition is completed, the PC 200 displays a reception completion notification screen shown in FIG. The reception completion notification screen will be described later.

  In step S807, the PC 200 waits for an untransferred file list acquisition request for a predetermined time. If an untransferred file list acquisition request is transmitted to the server 300 without waiting for a certain period of time, the request will continue to be transmitted to the server 300 when there is no untransferred file. stand by.

  FIG. 17A is a diagram illustrating an example of a non-transfer list reception notification screen displayed on the PC 200. FIG. 17B is a diagram illustrating an example of a file reception notification screen displayed on the PC 200. FIG. 17C is a diagram illustrating an example of a reception completion notification screen displayed on the PC 200. A link 1801 is a storage destination display instruction unit that instructs display of a folder in which the received file is stored. When the user presses the storage destination display instruction unit 1701 by operating the operation unit 202, the PC 200 displays the received file. Display the folder where is saved.

  According to the present embodiment, whether or not to transmit all of the untransferred files, even if the web service or the type of function is not hard-coded or does not have information dedicated to the destination, it is determined by the user among the untransferred files. It is possible to appropriately determine whether to transmit the selected file. In the present embodiment, it is determined whether or not the transmission destination is the transmission destination that transmits all of the untransferred files using the transmission source identifier and the transmission destination identifier. And a character string that can identify each of the transmission destinations. In the process of transmitting all untransferred files, the PC 200 is assumed to specify one transmission destination, but a plurality of transmission destinations may be specified. In this case, after the digital camera 100 transmits the file to the server 300, the server 300 transmits the file to all the plurality of paired transmission destinations.

  The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, or the like) of the system or apparatus reads the program. It is a process to be executed.

  100: Digital camera, 200: PC, 300: Server

Claims (7)

Imaging means;
Obtaining means for obtaining transmission destination information including information relating to a transmission destination of image data imaged by the imaging means;
Based on the information relating to the transmission destination, whether to transmit all of the image data captured by the imaging unit recorded on the recording medium, or selected image data among the image data recorded on the recording medium Determining means for determining whether to transmit,
A process for transmitting all of the image data recorded on the recording medium or image data selected from the image data recorded on the recording medium in accordance with a result of the determination by the determining means. An imaging device comprising: processing means for executing processing for transmission.   The determination unit compares the information related to the transmission destination with the information related to the imaging device, and based on the result of the comparison, transmits all of the image data recorded on the recording medium or the recording The imaging apparatus according to claim 1, wherein it is determined whether to transmit selected image data among the image data recorded on a medium.   3. The determination unit according to claim 2, wherein the determination unit determines to transmit all of the image data recorded on the recording medium when the information about the transmission destination matches the information about the imaging apparatus. The imaging device described.   The information related to the transmission destination is an identifier for identifying the transmission destination or a character string for specifying the transmission destination, and the information related to the imaging device is an identifier for identifying the imaging device or the The imaging apparatus according to claim 2, wherein the imaging apparatus is a character string for specifying the imaging apparatus.   Whether the imaging apparatus transmits all of the image data recorded on the recording medium, or transmits selected image data among the image data recorded on the recording medium, is managed by an external device. 5. The acquisition unit according to claim 1, wherein the acquisition unit acquires transmission destination information including information related to the transmission destination generated by the external device based on management contents thereof. Imaging device. A method for controlling an imaging apparatus having imaging means,
An acquisition step of acquiring transmission destination information including information related to a transmission destination of image data imaged by the imaging means;
Based on the information relating to the transmission destination, whether to transmit all of the image data captured by the imaging unit recorded on the recording medium, or selected image data among the image data recorded on the recording medium A determination step for determining whether to transmit
A process for transmitting all of the image data recorded on the recording medium, or selected image data among the image data recorded on the recording medium, according to a result of the determination in the determination step. And a processing step of executing a process for transmission. A program for causing a computer that controls an imaging apparatus having an imaging means to execute,
An acquisition step of acquiring transmission destination information including information related to a transmission destination of image data imaged by the imaging means;
Based on the information relating to the transmission destination, whether to transmit all of the image data captured by the imaging unit recorded on the recording medium, or selected image data among the image data recorded on the recording medium A determination step for determining whether to transmit
A process for transmitting all of the image data recorded on the recording medium, or selected image data among the image data recorded on the recording medium, according to a result of the determination in the determination step. A program for causing a computer to execute processing steps for executing processing for transmission.

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