JP3552748B2 - Electronic image handling device and electronic image handling system - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an electronic image handling device and an electronic image handling system such as an electronic image sensing device and an electronic image file device, and more particularly, to an improvement of a man-machine interface in such a multi-function electronic image handling device. .
[0002]
[Prior art]
2. Description of the Related Art In recent years, a large amount of image information captured by an electronic imaging device such as an electronic still camera, or image information captured by an electronic imaging device, or image information generated by other means or stored in a predetermined information recording medium. Various electronic image handling devices capable of retrieving the image as required have been developed and are already in practical use. In particular, in recent years, with regard to this type of electronic image handling apparatus, multifunctionality has been remarkably advanced, and for example, such an apparatus having an image transmission function has already been commercialized and used for various purposes. It has become to.
[0003]
[Problems to be solved by the invention]
However, in general, the operation of such a device equipped with an extremely wide variety of functions as described above is complicated. Therefore, in order to allow these functions to be fully exhibited, the man and the device of the device must be used. Great care must be taken in designing the machine interface. However, a sufficiently optimized man-machine interface of this type of device has not yet been specifically proposed.
[0004]
[Object of the invention]
Therefore, an object of the present invention is to optimize a man-machine interface while mounting a wide variety of functions,Can understand the transmission statusAn electronic image handling device is provided.
[0005]
[Means for Solving the Problems]
AboveofIn order to solve the problem, an electronic image handling apparatus according to the present invention stores frame data of at least one frame obtained by an imaging unit or supplied from the outside in a storage unit, and reads out frame data from the storage unit. Frame dataThe operation of the operation switches other than the power switch for instructing ON / OFF of the power supply to the apparatus is prohibited during the transmission and the operation is performed under the state in which the transmission operation is performed.An electronic image handling apparatus having a function of transmitting data via a line, wherein during transmission of the frame data, the amount of untransmitted data of the frame data of the transmission target or the frame data of all the frames to be transmitted is related. The information is displayed on a display together with the image of the frame data to be transmitted.
[0006]
An electronic image handling apparatus according to another aspect of the present invention stores frame data of at least one frame obtained by an imaging unit or supplied from the outside in a storage unit and read out from the storage unit. An electronic image handling apparatus having a function of transmitting frame data via a line, wherein during transmission of the frame data, information on an untransmitted data amount of the frame data to be transmitted is displayed on a display.
[0007]
An electronic image handling apparatus according to still another aspect of the present invention stores frame data of at least one frame obtained by an imaging unit or supplied from the outside in a storage unit, and reads out frame data from the storage unit. An electronic image handling apparatus having a function of transmitting frame data via a line, wherein during transmission of the frame data, information relating to an untransmitted data amount of frame data for all frames to be transmitted is displayed on a display. indicate.
[0008]
An electronic image handling apparatus according to another aspect of the present invention includes various operation switches including a power switch for instructing ON / OFF of power supply to the apparatus, and is obtained by an imaging unit or supplied from outside. An electronic image handling apparatus having a function of storing frame data of at least one frame in a storage unit and transmitting frame data read from the storage unit via a line, wherein the transmission of the frame data is performed. During this time, only instructions by the power switch are permitted, and instructions by other operation switches are prohibited.
[0009]
An electronic image handling apparatus according to another aspect of the present invention stores frame data of a plurality of frames obtained by an imaging unit or supplied from the outside in a storage unit, and reads frame data read from the storage unit. An electronic image handling apparatus having a function of transmitting data via a line, wherein a plurality of frames to be transmitted are selected and registered by operating the operation switch, and the registration status is displayed on a display.
[0010]
An electronic image handling apparatus according to still another aspect of the present invention transmits frame data of the plurality of registered frames in the order of registration, and displays a currently transmitted frame number on the display in a specific mode.
[0011]
An electronic image handling device according to another aspect of the present invention has various operation switches, and stores frame data of at least one frame obtained by an imaging unit or supplied from the outside in a storage unit, An electronic image handling apparatus having a function of transmitting frame data read from the storage unit via a line, wherein one of frames stored in the storage unit is operated by operating the operation switch. There is provided a means for selectively designating a function of transmitting frame data for a frame and a function of transmitting frame data for a plurality of frames.
[0012]
An electronic image handling apparatus according to still another aspect of the present invention is an electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit. The available storage capacity of the storage means is displayed on a display.
[0013]
An electronic image handling apparatus according to another aspect of the present invention is an electronic image handling apparatus that includes various operation switches and stores frame data of frames received via a line in a storage unit. During reception, information on the amount of frame data for each received frame or the amount of data that has been received so far is displayed on the display.
[0014]
An electronic image handling apparatus according to still another aspect of the present invention is an electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit. Means for notifying the reception completion every time the reception of the frame data is completed.
[0015]
An electronic image handling apparatus according to still another aspect of the present invention is an electronic image handling apparatus which is obtained by an imaging unit or has various operation switches, and stores frame data of a frame received via a line in a storage unit. The received frame is stored in the storage unit with a frame number determined by the apparatus, and the frame number is displayed in a list on a display.
[0016]
An electronic image handling apparatus according to another aspect of the present invention is an electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit. The last received frame among the stored frames is reproduced and displayed on the display.
[0017]
An electronic image handling apparatus according to another aspect of the present invention is an electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit. When the reception of the frame data is completed, the frame data received first among the plurality of frames is reproduced and displayed on the display.
[0018]
An electronic image handling apparatus according to still another aspect of the present invention is an electronic image handling apparatus that includes various operation switches, and stores frame data of frames received via a line in a storage unit. A plurality of frames stored in the storage means are sequentially displayed on the display by operating the operation switch.
[0019]
In an electronic image handling device according to another aspect of the present invention, a plurality of electronic image handling devices having a transmitting function and a receiving function are connected via a line, and each electronic image handling device automatically dials a transmission destination. An automatic dial mode function that sets the communication connection state and an automatic response mode function that sets the transmission or reception function in response to a request from the communication partner. The transmission mode and the reception mode of the electronic image handling device are set.
[0020]
An electronic image handling apparatus according to still another aspect of the present invention is obtained by an imaging unit, or the electronic image handling apparatus on the transmission side has a function of setting a transmission destination by operating the operation switch, The electronic image handling device has a function of setting a transmission source.
[0021]
An electronic image handling system according to another aspect of the present invention is an electronic image handling system in which a plurality of electronic image handling devices connected via a line exchange image information. The first electronic image handling device confirms the communication partner based on the operation and the response from the second electronic image handling device. The first electronic image handling device checks whether the first electronic image handling device is in the transmission mode after receiving the communication partner. The second electronic image handling apparatus receives the mode, sets the received mode if the received mode is the transmission mode, and determines whether the received mode is the reception mode. If it is the mode, the transmission mode is set, and the image information is exchanged after setting the mode of the first electronic image handling apparatus and the second electronic image handling apparatus.
[0022]
[Action]
In the present invention, frame data for at least one frame is stored in the storage means, and the frame data read from the storage means is stored in the storage means.The operation of the operation switches other than the power switch for instructing ON / OFF of the power supply to the apparatus is prohibited during the transmission and the operation is performed under the state in which the transmission operation is performed.Electronic image handling device having a function of transmitting via a lineso,During the transmission of the frame data, the untransmitted data amount of the frame data to be transmitted or the frame data of all the frames to be transmitted is displayed on the display together with the image of the frame data to be transmitted.
[0023]
When storing frame data of frames received via the line in the storage unit, the display unit displays the available free space of the storage unit. During reception, the frame data amount for each received frame and the data amount received so far are displayed on the display. The completion of reception is notified each time the reception of one frame data is completed. The received frames are stored in the storage unit with the frame numbers determined by the apparatus, and the frame numbers are listed on the display. It has a reception view function for reproducing and displaying on the display the frame received immediately before among the frames stored in the storage means. When frame data reception for a plurality of frames is completed, the frame data received first among the plurality of frames is reproduced and displayed on the display. A plurality of frames received and stored in the storage means are sequentially displayed on the display by operating the operation switches.
[0024]
Further, a plurality of devices having a transmission function and a reception function are connected via a line, and each device automatically dials a transmission destination to establish a communication connection state, and a request from a communication partner. And an automatic response mode function in which a transmission or reception function is set in accordance with the transmission mode. When the devices are connected via a line, the transmission mode and the reception mode of each device are set.
[0025]
The transmitting side has a function of setting a transmission destination by operating an operation switch, and the receiving side has a function of setting a transmission source.
[0026]
Furthermore, after the first electronic image handling device and the second electronic image handling device connected via the line confirm each other's communication partner, the mode confirmed by the first electronic image handling device is changed to the second mode. The electronic image handling apparatus receives the image information by setting the reception mode if the reception mode is the transmission mode and the transmission mode if the reception mode is the reception mode.
[0027]
【Example】
Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration block diagram showing an application example of an image handling apparatus according to the present invention to an electronic still camera. Application to such an electronic still camera is advantageous in terms of small size and lightness.
[0028]
The subject image is converted into an electric signal via an optical system (lens) 1 by an imaging circuit 2 having an imaging device such as a CCD, which is a photoelectric conversion unit. The converted electric signal is subjected to a predetermined clamping process in the clamp circuit 3, converted into digital data in the A / D conversion circuit 4, and written into the frame memory 11. Writing and reading of the frame memory 11 are controlled by the memory controller 10 under the control of the system controller 16. The image data read from the frame memory 11 is digitally processed by the digital process circuit 5 together with the character data sent from the character generator 9, and then converted into an analog signal by the D / A conversion circuit 6. The converted analog image signal is supplied to the external terminal EXT and the electronic viewfinder 8 after being amplified by the amplifier circuit 7.
[0029]
At the time of data recording, image data read from the frame memory 11 is orthogonally transformed by a DCT / IDCT (discrete cosine transform / inverse discrete cosine transform) circuit 12, and the obtained orthogonal coefficients are encoded by a coder / decoder 13. Compression processing is performed by a compression method conforming to the JPEG method or the like. The image data compressed in this way is recorded on the IC memory card 15 as storage means. Here, this memory card may be detachable from the apparatus main body, or may be built in and fixed in advance.
[0030]
At the time of reproduction, the image data read from the IC memory card 15 is expanded through the processing of the coder / decoder 13 and the DCT / IDCT circuit 12, and is written to the frame memory 11. The image data read from the frame memory 11 is output to an external terminal EXT and an electronic viewfinder 8 via a digital process circuit 5, a D / A conversion circuit 6, and an amplification circuit 7.
[0031]
The system controller 16 exchanges data via the data bus B1, and controls the entire operation of the camera. For example, it controls the display on the display unit 17 composed of an LCD or the like, and controls the camera operation based on operation information from the operation unit 18. The system controller 16 also controls the character generator 9 to control desired character information output, and controls communication with the outside via the data bus B2 and the data input / output unit 19. The auxiliary memory 14 is a work memory used for various data processing. The buzzer 20 sounds under the control of the system controller 16 when any auditory output is required during operation.
[0032]
FIG. 2 is an external view of an electronic still camera which is an electronic imaging device as one embodiment of the electronic image handling device of the present invention. The electronic still camera of this example uses a solid-state memory card as a recording medium for the image information, and this kind of electronic still camera is also called an SMC (Solidstate Memory Camera). In the SMC, captured image data for each screen is stored in a memory card as a data file. The captured image data stored in the memory card as a data file in this manner is identified by a directory, which is positioning information on a file structure supported by a DOS (Disk Operating System), so that recording / reproduction and other management can be performed. become. The feature of this SMC in comparison with a general personal computer is that image data as each file information of a directory can be treated as corresponding to one frame of a still image. It is.
[0033]
That is, the data of each file is specified, named, managed, and displayed on a monitor or the like at the same time as an image of each frame of a normal still camera. The main data as data representing the image itself projected on the monitor screen as the one frame image includes various information related to the main data, that is, conditions such as a shooting date, a shutter speed at the time of shooting, and image data. It is attached as sub-information such as a format, and each piece of “frame data” including the main data and sub-data, that is, data of each file is configured.
[0034]
In the present invention, in addition to the above-described file configuration, for example, a relationship between individual files including each image data, that is, a relationship for associating image data in a series of continuous shootings. This also includes configuring a relation file equivalent to one independent image file containing related information as main data as one piece of frame data.
[0035]
Next, the arrangement of the operation unit 18 and the like will be described in detail.
2 and 3, which are external views of the electronic still camera of the present embodiment, show how various operation switches such as the operation unit 18 are arranged.
[0036]
As shown in the figure, the above-described LCD display unit 17 is provided in the center of the upper part of the camera body, and displays the operation states and operation states described later. On one side of the LCD display unit 17, zoom switches (ZOOM switches) 31 and 32 for selecting the tele (T) and wide (W) modes are provided. Below the ZOOM switches 31 and 32, an up switch (UP switch) 33 and a down switch (DOWN switch) 34 are provided. When the camera is in the recording mode, these switches 33 and 34 are used for mode adjustment, for example, fine adjustment of white balance, change of shutter speed, change of exposure correction value, focusing of power focus, and the like. In the playback mode, it is used for frame advance and frame return.
[0037]
A white balance switch (hereinafter, a WB switch) 35 changes the white balance mode in the recording mode. The view erase switch (VIEW / ERASE switch) 36 reproduces an image recorded immediately before being pressed in the recording mode, and is used as a frame erase switch in the reproduction mode.
[0038]
The +/- switch 37 changes the exposure mode during the recording mode. The focus switch (FCS switch) 38 is used to change the auto focus or power focus mode in the recording mode. The strobe switch (STB switch) 39 is used when changing the strobe mode in the recording mode. A full auto / manual switch (F-AUTO / MANUAL switch) 40 switches between a mode for automatically setting conditions and a mode for manually setting conditions. The drive switch (DRV switch) 41 is used to change the recording speed mode, and changes the reproduction speed in the reproduction mode.
[0039]
A mode switch (MODE switch) 42 sets a compression mode and a non-compression mode in a recording mode, and in a reproduction mode, performs an instruction such as an on-screen mode in which a character display signal is superimposed on a video signal output from an external terminal. . The time switch (TIME switch) 43 is used for setting time and for turning on and off the buzzer 20. The power switch (POWER switch) 44 is used for turning on and off the camera. The trigger switch 45 is used to instruct a photographing operation or to start transmission when transmitting an image.
[0040]
A transmission / reception switch 46 used for switching between a transmission (SEND) mode and a reception (RECEIVE) mode at the time of image transmission, and a transmission / reception switch 46, which are used at the time of transmission, on the edge of the camera body further below the operation switches. A telephone / camera changeover switch 47 for switching between a telephone mode and a camera mode used for recording is provided. When the changeover switch 47 is set on the camera side, the reproduction / recording mode is set corresponding to the transmission / reception of the changeover switch 46. An eyepiece 48 for the EVF 8 of the camera is provided.
[0041]
In the above configuration, according to the present invention, the system controller 16 controls each unit based on various commands to be described later input from the operation unit 18, and, for example, through a data input / output unit 19, for example, image information or the like using a telephone line. It has the function of giving and receiving. Hereinafter, an example in which the operation of the embodiment of the electronic image handling apparatus according to the present invention is applied to the above-described electronic still camera will be described.
[0042]
When transmitting image information obtained by imaging with a camera, set the transmission (SEND) / reception (RECEIVE) switch 46 to the transmission side with the telephone / camera switch 47 of FIG. 3 set to the telephone side. Then, the transmission mode is set. The camera can be set in an automatic dial transmission mode and an automatic response mode, as described below.
[0043]
FIG. 4 is a flowchart showing a series of processing procedures in the transmission mode. First, among the frames corresponding to the image information captured by the camera, a frame to be transmitted is selected (step S1). Is selected (step S2). Subsequently, an image transmission operation is executed (step S3), and it is determined whether or not the transmission mode has ended (step S4). Here, if the transmission mode has not ended, the process returns to step S1 and returns to the transmission frame selection process. If the transmission mode has ended, the transmission operation ends.
[0044]
FIGS. 5A and 5B show respective display examples of the electronic viewfinder (EVF) 8 and the LCD display unit 17 in the transmission frame selection operation (step S1) in the transmission mode. In FIG. 5A, the image of the first frame currently reproduced is displayed on the background of the display screen, and the upper display: “SELECT PIC.” Indicates a transmission frame selection operation. "1" at the upper right end of the screen indicates that the currently selected and displayed frame number is "1", and the image data of the frame number 1 (hereinafter referred to as frame data) is displayed at the center of the screen. ) Indicates that the data amount (data size) is “64 KOYTES”. In the figure, N indicates normal mode shooting.
[0045]
In FIG. 5 (B), the transmission mode (displayed as TRANSMIT) is indicated by an arrow toward the telephone mark at the top, and the currently selected and reproduced frame number “1” is displayed in the center frame. The frame data amount of the frame number 1 is displayed as "64" at the right end. When changing the frame to be transmitted, the UP switch 33 or the DOWN switch 34 may be operated.
[0046]
FIGS. 6A and 6B show screen display examples of the EVF 8 and the display unit 17 in the destination selection operation in step S2. The transmission destination is registered in advance, and a necessary transmission destination is selected from the registered transmission destinations.
[0047]
In FIG. 6A, “SEND TO C-1” is the destination C-1 of the registration number 1, “NAME: TOKYO” is the name of the destination C-1, and “HOST: DLTS” is the destination. In this system, "LINT: TONE" indicates a tone line, and "NO: 0,223141" indicates a telephone number of a transmission destination. At this time, the destination “C-1” is displayed in the frame of the display unit 17 as shown in FIG. The change of the transmission destination is performed by operating the UP switch 33 and the DOWN switch 34.
[0048]
FIGS. 7A and 7B show similar screen display examples in the image transmission operation (step S3). If the automatic dial transmission mode is set, the camera automatically makes a call and communicates with the destination of the image. In FIG. 7 (A), “C-2” indicating the destination at the top is blinking and displayed, and when the communication connection with the destination is completed, “READY” is displayed at the bottom. When communication is not possible due to poor modem status, "MODEM NOT READY" blinks. As shown in FIG. 7B, the display unit 17 blinks the transmission source C-2 in the frame.
[0049]
FIGS. 8A and 8B show screen display examples of the EVF 8 and the display unit 17 during image transmission. In FIG. 8 (A), “SENDING” blinks at the upper left to indicate that transmission is in progress, and the currently transmitted frame number “2” is displayed with an asterisk at the upper right. At this time, the amount of untransmitted data among the frame data of the currently transmitted frame number “2” is displayed by “REST: 28 K BYTES” in the center of the screen. A list of frame numbers to be transmitted is displayed at the bottom of the screen. In this example, only the frame number “2” is displayed, and the fact that the frame is being transmitted is displayed in a blinking manner. The display unit 17FIG.As shown in (B), the frame number is shown in the frame, and the untransmitted data amount is shown on the right side.
[0050]
As shown in FIG. 9, the transmission frame selection operation processing procedure in FIG. 4 first determines whether the transmission mode is the all-frame transmission mode for transmitting image data (frame data) for all frames recorded on the IC memory card. (Step S11). If the mode is not the all-frame transmission mode, the mode shifts to the frame selection mode for selecting the frame to be transmitted (Step S12), the selected frames are registered in the order of selection, and the process is terminated. If it is determined in step S11 that the mode is the all-frame transmission mode, all frames are selected in the order of frame numbers (step S13), and the process is terminated.
[0051]
FIG. 10 shows a detailed processing procedure flowchart of the frame selection mode S12 in FIG. First, an image frame is reproduced and displayed (step S21). For example, as shown in FIG. 5A, the image of the first frame is displayed on the EVF 8, and the image data amount (capacity) of the frame is, for example, as shown in FIG. It is displayed like "64 K BYTES" of 5 (A) (step S22). Next, it is determined whether or not to register as a transmission frame (step S23). If registered, transmission frame registration is executed (step S24), and it is determined whether or not to reproduce another frame. (Step S25). If it is not registered as a transmission frame in step S23, the process directly proceeds to step S25.
[0052]
If another frame is not reproduced in step S25, it is determined whether or not the number of registered frames is one or more (step S26). If it is one or more, the process is terminated. On the other hand, when another frame is to be reproduced in step S25, the frame number to be reproduced is changed by the frame advance operation (step S27), and the process returns to step S21. If the number of registered frames is not one or more in step S26, there is no frame to be transmitted, so a warning is displayed to the user (step S28). This warning can be given by an audible warning by the buzzer 20 or a visual warning by the EVF 8 or the like.
[0053]
Next, a case where a plurality of frames are transmitted and a case where all frames are transmitted in the transmission mode will be described.
[0054]
FIG. 11 shows an example of a display screen when a transmission frame is selected. A list of registered frame numbers to be transmitted is displayed at a lower portion, and a currently selected and registered frame number is blinked at an upper right portion. At the same time, the data amount “64 K BYTES” of the frame number 15 is displayed at the center. “*” Indicates that the frame number has been registered. Registration is performed by pressing the +/- switch 37, and deregistration is performed by pressing the +/- switch 37 again. When all the frames to be transmitted are registered, the trigger switch 45 is pushed down to the second stage to complete the registration.
[0055]
A destination is specified, and a display example of a destination specification completion state is shown in FIG. After the destination is specified, the image is transmitted.
[0056]
FIG. 13 shows the frame number “2” among the registered frame numbers (in the order of registration) “1”, “2”, “4”, “8”, “10”, “12”, and “15”. 7 shows a display example when a frame is being transmitted. It is possible to know that the transmission is being performed by blinking “SENDING” and that the frame number being transmitted is “2” by blinking “2” in the lower list. The frame images are transmitted in the order of registration. When transmission of all registered image frames is completed, the camera automatically ends communication and returns to the state of selecting a transmission image.
[0057]
On the other hand, when all the frames are transmitted, the display is as shown in FIG. 14, and the lower part displays "ALL PICTURES" indicating that all frames are to be transmitted. Is displayed in the upper right portion, and the untransmitted data amount of the frame number 2 is displayed in the center portion.
[0058]
Next, the image transmission operation will be described with reference to the flowchart in FIG. First, the modem is initialized, automatic dialing is performed (step S31), a communication partner (destination) is confirmed, connection is established (step S32), and transmission frames are reproduced in the order of registration (step S33). Subsequently, the reproduced frame data is transmitted (step S34), and it is determined whether or not there are any more registered frames (step S35). If there is, the process returns to step S33. If not, the line is disconnected. (Step S36), the process ends.
[0059]
The detailed procedure of the frame data transmission in step S34 will be described with reference to the flowchart in FIG. At the time of transmission of frame data, the transmission frame data amount (capacity) is displayed (step S41), and various parameters such as the file name of the transmission frame data, the file creation date and time, and the file size are displayed on the communication partner (destination). Is transmitted (step S42). Next, the transmission frame data is divided into predetermined blocks, and each block is transferred (step S43). The remaining transmission capacity of the transmission frame data is displayed (for example, REST: 28 K BYTE) (step S44), and then the transmission is performed. It is determined whether or not there is a stop instruction (step S45).
[0060]
In the present embodiment, during the data transmission, all the operation switches of the operation unit 18 except the power switch 44 are disabled, and the accuracy of the transmission is maintained. Therefore, when the power switch 44 is pressed, the transmission is stopped. In step S45, if the transmission has been stopped, the fact that the transmission is in the stopped state is displayed (step S46), and the processing is terminated. If the transmission has not been stopped, the transfer of all blocks is completed and the transmission is completed. It is determined whether or not has been completed (step S47). If the transmission has not been completed, the process returns to step S43. If the transmission has been completed, the transmitted frame number is deleted from the transmission registration list (step S48), and the process ends. In short, the transmission frame may be deleted from the registration list as long as the transmission result can be displayed. For example, the transmission frame may be deleted from the registration list on the screen, or the frame number registered in the memory may be deleted. Further, for a frame that has not been transmitted for some reason, only the frame that has not been transmitted can be retransmitted.
[0061]
Next, the operation in the reception mode will be described with reference to the flowchart in FIG. When the reception mode is set, first, the recordable remaining capacity (free capacity) of the recording medium (IC memory card) currently used is displayed (step S51), and the transmission source is selected (step S52). The selection of the transmission source is to select one from transmission sources registered in advance. Subsequently, the transmitted image (frame data) is received (step S53), and it is determined whether or not the reception mode has ended (step S54). If the reception mode has not ended, the process of step S51 is performed. Returning to step, if the processing has been completed, the processing is terminated as it is.
[0062]
The details of the image receiving operation in step S53 will be described with reference to the flowchart in FIG. 18. The modem is initialized and waiting for an incoming call (step S61). After the incoming call, connection with a communication partner is made (step S62). The data is received (step S63), and the received frame is reproduced, for example, for several seconds, or a "peep" sound is output to notify the reception of the frame (step S64). Subsequently, it is determined whether or not there is frame data to be received (step S65). If so, the process returns to step S63. If not, the line is disconnected (step S66), and the process ends.
[0063]
The frame data receiving operation of step S63 is performed according to the procedure of the flowchart shown in FIG. First, various parameters including the data amount of each frame are received from the communication partner (step S71), and after displaying the data volume of the received frame (step S72), the received frame data is received for each block (step S73). The received data amount of the received frame data is displayed (step S74). Next, it is determined whether or not the reception mode has been stopped (step S75). If the reception mode has been stopped, it is displayed that the reception mode has been stopped (step S76), and the processing is terminated. Then, it is determined whether or not the reception has been completed (step S77). If the reception has not been completed, the process returns to step S73. If the reception has been completed, the received frame is added to the reception list (step S78), and the process ends.
[0064]
Next, an example of a display screen of the EVF 8 and the display unit 17 at the time of reception will be described below.
In the reception mode, as shown in FIG. 20A, "RECEIVE" is displayed at the center of the EVF 8 to indicate the reception mode, and the remaining (empty) capacity of the IC memory card is "657K BYTES FREE" at the bottom. Is displayed, and a frame number “2” in which the next received frame data is recorded is displayed in the upper right part. Also, as shown in FIG. 20B, the display unit 17 displays the reception mode with an arrow indicating the direction of transmission from the telephone at the top, and the frame in which the next received frame data is recorded in the frame. The number is displayed, and the remaining capacity of the IC memory card is displayed at the right center.
[0065]
When the transmission source is selected, the trigger switch 45 is pushed all the way down to the second stage, as shown in FIG. 21A, the transmission source “RECEIVE FROM C” as the transmission source information of the registration number 1 among the transmission sources registered in advance. -1 "; name" NAME: TOKYO ", host" HOST: DLTS ", line" LINE: TONE ", and telephone number" 0, 223141 "are displayed. As shown in the figure, the transmission source "C-1" is displayed in the frame. The transmission source information is arbitrarily selected from registered information by operating the UP switch 33 or the DOWN switch 34, and is similarly displayed.
[0066]
When the camera is set to the automatic dial reception mode, the camera automatically makes a call and communicates with the transmission source of the frame data. At this time, for example, as shown in FIGS. 22A and 22B, the transmission source “C-1” blinks. Here, when the modem is not ready or when the setting of the modem is wrong, "MODEM NOT READY" and "Err" are respectively displayed as EVF8 as shown in FIGS. 23 (A) and 23 (B). Is displayed on the container 17.
[0067]
When communication with the transmission source can be performed, reception of frame data is automatically started. During data reception, “RECEIVING” is displayed at the top of the screen as shown in FIGS. 24 (A) and (B). , The telephone and the arrow part blink. At this time, the frame number “11” in which the next received data is recorded is displayed in the upper right part of FIG. 24A and the frame of FIG. 24B, and the amount of data received so far is shown in FIG. “RCVED: 28 K BYTES” is displayed at the center of (A), and “28” is displayed at the right end of FIG. 24 (B). In the center of FIG. 24A, the frame data amount currently being received is displayed as “TOTAL”: “64 K”, and in the lower part, the frame numbers recorded so far are displayed. I have. “+2” at the lower right corner indicates the frame number 11 which is two more than the frame number 9. In view of this, frame numbers of “9” or more are indicated by adding “+” in consideration of the restriction of the number display area. Furthermore, if the total transmission data amount information has been transmitted from the transmission source in advance, the total transmission data amount can be displayed at the bottom, etc., which is more useful for the receiving side.
[0068]
If the free space of the IC memory card is insufficient, the receiving operation is stopped at that point, and "TRANSMIT ERROR" is displayed. In this case, since the frame data received immediately before has been normally received, the data can be used.
[0069]
When the reception of the frame data is completed, a buzzer 20 is sounded, and the received frame image is reproduced and displayed for 5 seconds. When the frame data is continuously transmitted from the image transmission source, after the reproduction and display, the frame data is continuously received. When all the frame data has been received from the transmission source, the communication is automatically terminated, and the display returns to the free space display state of the IC memory card.
[0070]
The reception view operation will be described with reference to the flowchart in FIG.
First, it is determined whether or not a frame (image) has been received (step S81). If it has not been received, the process ends. If received, the received list (frame number) is displayed (step S82), and after the received first frame is reproduced (step S83), it is determined whether or not there are a plurality of received frames (step S84). . Here, when it is determined that there are a plurality of frames, it is determined whether or not to change the playback frame (step S85). When the frame is to be changed, the changed frame is played (step S86), and the reception view ends. It is determined whether or not this is the case (step S87). In steps S84 and S85, if the number of received frames is not plural or there is no change in the reproduced frames, the process proceeds to step S87. If it is determined in step S87 that the reception view has not ended, the process returns to step S84. If the reception view has ended, the process ends.
[0071]
The reception view operation mode is set by pressing the VIEW / ERASE switch 36 in the reception mode immediately after the reception is completed. Each time the VIEW / ERASE switch 36 is pressed, the mode switches between the normal mode and the reception view mode. When the reception view is set, “RECEIVE VIEW” is displayed at the upper part of the screen of the EVF 8 as shown in FIG. 26, and the frame number being reproduced is displayed at the upper right part. When there are a plurality of frames received immediately before, the first frame received among them is displayed. For example, in FIG. 26, when the frame received immediately before is recorded with the frame numbers of "23", "24", and "25", the frame number 23 received first is displayed, and the frame number in the lower list is displayed. “23” flashes and the data amount of the frame is displayed as “64 K BYTES”. By operating the UP switch 33 and the DOWN switch 34, the frames can be reproduced in the order in which they were received.
[0072]
Next, a connection processing sequence with a communication partner will be described with reference to the flowchart in FIG. Each of the transmitting side and the receiving side confirms a communication partner via communication (steps S91 and S101). After confirming the communication partner, the transmission side transmits transmission capacity information (for example, the number of frames and the data amount) (step S92). On the receiving side, after receiving the transmission capacity information following step S101, it is determined whether or not reception is possible in consideration of the capacity of a built-in memory or the like based on the capacity (step S102). If so, an OK signal to the effect that transmission is possible is transmitted to the transmission side (step S104). If reception is not possible, an NG signal indicating reception impossibility is transmitted to the transmission side (step S103), and the connection process is terminated. I do.
[0073]
The transmitting side determines whether or not an NG signal has been received from the receiving side (step S93). If not, it means that an OK signal has been received, and thus the connection processing ends.
[0074]
Also, in step S93, if an NG signal has been received, it is determined whether or not to transmit data as it is (step S94). This is a process for instructing the transmission of data as much as possible because data reception and recording are possible within the free capacity range even if the memory capacity of the receiving side is insufficient and all data cannot be received. . In step S94, if it is determined that the transmission is to be performed as it is, the connection process is terminated and the transmission process is executed. If it is determined that the transmission is not to be performed, the transmission process is stopped.
[0075]
FIG. 28 shows a flowchart of a destination or source selection operation having an automatic dial mode and an automatic response mode (HOST). First, it is determined whether or not to make a call from yourself (step S111). When making a call from yourself, the automatic dial mode is set (step S112), a dialing destination is selected (step S113), and the process ends. I do. If it is determined in step S111 that the user does not make a call, the automatic answering mode is set (step S114), and the process ends.
[0076]
Next, another embodiment of the communication procedure will be described with reference to FIG. The transmitting side has been changed to the automatic dial mode, initializes the modem (step S201), and performs automatic dialing (step S202). On the other hand, the receiving side is set to the automatic answering mode, and after the modem is initialized (step S301), waits for an incoming call (step S302).
[0077]
Subsequently, the transmitting side and the receiving side mutually confirm a communication partner (step S203, step S303). Thereafter, the transmitting side determines whether or not the transmission mode is instructed (step S204). If the transmission mode is instructed, the transmission side sets the transmission mode (step S205). If the transmission mode is not instructed, , The receiving mode is set (step S206), and the set mode information is transmitted to the receiving side.
[0078]
The receiving side receives and decodes the mode information, determines whether the communication partner is set to the transmission mode (step S304), and if the communication mode is set, sets the reception mode (step S304). S305), if the transmitting side is not set to the transmission mode, set to the transmission mode (step S306). Subsequently, the transmitting side and the receiving side exchange images (frame data) in steps S207 and S307, disconnect the line (steps S208, S308), and end the processing.
[0079]
【The invention's effect】
As described above, according to the present invention,Although an electronic image handling apparatus having a good man-machine interface can be obtained, the following effects can be obtained according to the above embodiments.
[0080]
(1) Store frame data of at least one frame obtained by the imaging unit or supplied from the outside in the storage unit, and store the frame data read from the storage unit.The operation of the operation switches other than the power switch for instructing ON / OFF of the power supply to the apparatus is prohibited during the transmission and the operation is performed under the state in which the transmission operation is performed.An electronic image handling device having a function of transmitting data via a line, wherein during transmission of the frame data, the amount of untransmitted data of the frame data of the transmission target or the frame data of all the frames of the transmission target is determined. By displaying the information on the display together with the image of the frame data to be transmitted, it is possible to grasp the transmission status and the time required for subsequent transmission.
[0081]
(2) A function of storing frame data of at least one frame obtained by the imaging unit or supplied from the outside in the storage unit, and transmitting the frame data read from the storage unit via a line. An electronic image handling apparatus having a transmission status and a subsequent transmission status by displaying information on an untransmitted data amount of the transmission target frame data on a display during transmission of the frame data. Time can be grasped.
[0082]
(3) Frame data of at least one frame obtained by the imaging unit or supplied from the outside is stored in the storage unit, and the frame data read from the storage unit is transmitted via the line. An electronic image handling apparatus having a function, wherein during transmission of the frame data, information relating to an untransmitted data amount of frame data for all frames to be transmitted is displayed on a display, so that all data to be transmitted thereafter are displayed. The time required for frame transmission can be ascertained.
[0083]
(4) It has various operation switches including a power switch for instructing ON / OFF of power supply to the apparatus, and stores frame data of at least one frame obtained by the imaging unit or supplied from the outside. An electronic image handling device having a function of storing frame data and transmitting frame data read from the storage unit via a line, wherein during transmission of the frame data, only an instruction from the power switch is transmitted. By permitting and prohibiting an instruction by another operation switch, it is possible to prevent important data transmission from being interrupted unnecessarily.
[0084]
(5) A function of storing frame data of a plurality of frames obtained by the imaging unit or supplied from the outside in the storage unit, and transmitting the frame data read from the storage unit via a line. A plurality of frames to be transmitted are selected and registered by operating the operation switch, and the registration status is displayed on a display, thereby enabling arbitrary designation of a frame to be transmitted.
[0085]
(6) The frame data of the plurality of registered frames is transmitted in the order of registration, and the frame number currently being transmitted is displayed on the display in a specific mode, thereby facilitating the confirmation of the transmitted frame.
[0086]
(7) Frame data for at least one frame obtained by the imaging means or supplied from the outside having various operation switches is stored in the storage means, and the frame data read from the storage means is stored. An electronic image handling apparatus having a function of transmitting frame data of one frame among frames stored in the storage unit by operating the operation switch. And means for selectively designating a function of transmitting frame data for a plurality of frames, whereby one or a plurality of frames can be arbitrarily selected.
[0087]
(8) An electronic image handling apparatus which has various operation switches and stores frame data of frames received via a line in a storage means, and displays an available storage capacity of the storage means in a reception mode. , The number of receivable frames can be confirmed in a state where the receiving operation has been started.
[0088]
(9) An electronic image handling device having various operation switches and storing frame data of frames received via a line in a storage means, wherein the frame data for each received frame is received while the frame data is being received. By displaying information on the amount or the amount of data received up to the present time on the display, the reception state and the required reception time can be easily grasped.
[0089]
(10) An electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit, and completes reception every time frame data of one frame is received. By providing the notification means, it is possible to grasp the completion of reception of each frame.
[0090]
(11) An electronic image handling device having various operation switches and storing frame data of frames received via a line in a storage means, wherein the received frame is a frame number determined by the device. Is stored in the storage means, and the frame numbers are displayed on the display in a list so that the received frame numbers and frame information can be confirmed.
[0091]
(12) An electronic image handling apparatus having various operation switches and storing frame data of frames received via a line in a storage unit, wherein the electronic image handling device receives the frame data immediately before among the frames stored in the storage unit. The completion of reception can be confirmed by reproducing and displaying the frame on the display.
[0092]
(13) An electronic image handling apparatus that has various operation switches and stores frame data of frames received via a line in a storage unit, and completes reception of frame data for a plurality of frames. By reproducing the frame data received first among the plurality of frames and displaying the data on the display, the completion of reception of the plurality of frames can be grasped based on the first frame confirmation.
[0093]
(14) An electronic image handling device having various operation switches and storing frame data of frames received via a line in a storage unit, wherein a plurality of received image data are stored in the storage unit. By displaying the frames sequentially on the display by operating the operation switch, all of the plurality of received frames can be confirmed.
[0094]
(15) An automatic dial mode function in which a plurality of electronic image handling apparatuses having a transmission function and a receiving function are connected via a line, and each electronic image handling apparatus automatically dials a destination to establish a communication connection state. And an automatic response mode function in which a transmission or reception function is set according to a request from a communication partner. When an electronic image handling device is connected via a line, the transmission mode and the reception mode of each electronic image handling device are provided. Is set, desired access to each electronic image handling device can be performed.
[0095]
(16) The electronic image handling device on the transmission side obtained by the imaging means or has a function of setting the transmission destination by operating the operation switch, and the transmission source is set on the electronic image handling device on the reception side. With this function, the transmission function and the reception function can be set in each electronic image handling device.
[0096]
(17) In an electronic image handling system in which a plurality of electronic image handling devices connected via a line exchange image information, a dialing operation from a first electronic image handling device and a dialing operation from a second electronic image handling device are performed. The first electronic image handling device determines whether the first electronic image handling device is in the transmission mode or the reception mode after confirming the communication partner, based on the response of the first electronic image handling device. In the second electronic image handling device, the mode is received, and if the received mode is the transmission mode, the reception mode is set. If the received mode is the reception mode, the transmission mode is set. By transmitting and receiving image information after setting the mode of the first electronic image handling device and the second electronic image handling device, it is possible to reliably transmit and receive image information with improved operability.
[Brief description of the drawings]
FIG. 1 is a configuration block diagram showing an application example of an image handling apparatus according to the present invention to a digital still camera.
FIG. 2 is a diagram illustrating an external view of the electronic still camera according to the present embodiment.
FIG. 3 is a diagram illustrating an external view of the electronic still camera according to the present embodiment.
FIG. 4 is a flowchart illustrating a series of processing procedures in a transmission mode according to the embodiment of the present invention.
FIG. 5 is a diagram showing a display example of an electronic viewfinder (EVF) 8 and a display unit 17 such as an LCD at the time of a transmission frame selection operation in a transmission mode according to the embodiment of the present invention.
FIG. 6 is a diagram showing a display example of an EVF 8 and a display unit 17 such as an LCD in a destination selection operation according to the embodiment of the present invention.
FIG. 7 is a diagram showing a display example of an EVF 8 and a display unit 17 such as an LCD in an image transmission operation according to the embodiment of the present invention.
FIG. 8 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD during image transmission according to the embodiment of the present invention.
FIG. 9 is a flowchart showing a transmission frame selection operation processing procedure in the embodiment of the present invention.
FIG. 10 is a flowchart showing a detailed processing procedure of a frame selection mode in the embodiment of the present invention.
FIG. 11 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD when a transmission frame is selected in the embodiment of the present invention.
FIG. 12 is a diagram showing a display example of an EVF 8 and a display unit 17 such as an LCD in a destination designation completion state in which a destination is designated in the embodiment of the present invention.
FIG. 13 is a diagram showing a display example of the EVF 8 and the display unit 17 such as an LCD when a frame of a frame number “2” is being transmitted among registered frame numbers in the embodiment of the present invention.
FIG. 14 is a diagram showing a display example of an EVF 8 and a display unit 17 such as an LCD when transmitting all frames in the embodiment of the present invention.
FIG. 15 is a flowchart illustrating an image transmission operation according to the embodiment of the present invention.
FIG. 16 is a flowchart showing a detailed processing procedure of frame data transmission in the embodiment of the present invention.
FIG. 17 is an operation flowchart of a reception mode in the embodiment of the present invention.
FIG. 18 is a flowchart of an image receiving operation in the embodiment of the present invention.
FIG. 19 is a flowchart illustrating an operation of receiving frame data according to the embodiment of the present invention.
FIG. 20 is a diagram illustrating a display example of an EVF 8 and a display unit 17 such as an LCD in a reception mode according to an embodiment of the present invention.
FIG. 21 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD when a transmission source is selected in the embodiment of the present invention.
FIG. 22 is a diagram showing a display example of the EVF 8 and the display unit 17 such as an LCD in the automatic dial receiving mode in the embodiment of the present invention.
FIG. 23 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD when the setting of the modem is incorrect in the embodiment of the present invention.
FIG. 24 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD in a state where communication with a transmission source has been performed in the embodiment of the present invention.
FIG. 25 is a flowchart of a reception view operation in the embodiment of the present invention.
FIG. 26 is a diagram showing a display example of the EVF 8 and a display unit 17 such as an LCD during a reception view operation in the embodiment of the present invention.
FIG. 27 is a flowchart showing a connection processing sequence with a communication partner in the embodiment of the present invention.
FIG. 28 is a flowchart showing an operation of selecting a destination and a source having an automatic dial mode and an automatic response mode (HOST) according to the embodiment of the present invention.
FIG. 29 is a flowchart showing the operation of another embodiment of the communication procedure in the present invention.
[Explanation of symbols]
1 Optical system lens
2 Imaging circuit
3 Clamp circuit
4 A / D conversion circuit
5 Digital process circuit
6 D / A conversion circuit
7 Amplifier circuit
8 Electronic viewfinder
9 Character Generator
10 Memory controller
11 Frame memory
12 DCT / IDCT (discrete cosine transform / inverse discrete cosine transform)
13 Coders / Decoders
14 Auxiliary memory
15 IC memory card
16 System controller
17 Display
18 Operation unit
19 Data input / output unit
20 Buzzer
31, 32 ZOOM switch
33 UP switch
34 DOWN switch
35 White balance switch
36 VIEW / ERASE switch
37 +/- switch
38 Focus switch
39 Strobe switch
40 F-AUTO / MANUAL switch
41 Drive switch
42 Mode switch
43 Time Switch
44 Power switch
45 Trigger switch
46 Transmission / Reception Switch
47 Phone / Camera Switch
48 Eyepiece

Claims (1)

While storing frame data of at least one frame obtained by the imaging unit or supplied from the outside in the storage unit,
The frame data read from the storage unit is stored in a state where the operation of the operation switches except for the power switch for instructing ON / OFF of the power supply to the apparatus is prohibited during transmission and the transmission operation is performed. An electronic image handling device having a function of transmitting via a line,
During transmission of the frame data, information on the untransmitted data amount of the frame data of the transmission target or the frame data of all the frames to be transmitted is displayed on a display together with the image of the frame data of the transmission target. An electronic image handling device characterized by the above-mentioned.

Images