JP3379728B2 - camera - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera, and more particularly, to a camera.
Transmits image data and manages received image data on the receiving side.
Cameras that can be easily displayed
I do. [0002] Like a digital still camera (DSC)
In a simple image recording / reproducing apparatus, a captured image is converted into an electric image data.
Data and convert the converted image data to an IC memory card.
Disk, floppy disk (FD), etc.
Or image data can be transmitted via a communication line.
Wear. On the receiving side, using a similar image recording / reproducing device
The image data received via the communication line is reproduced. In such a system, as a recording medium
Currently used IC cards have different shapes and electrical specifications.
Use of various image recording / reproducing devices
Can be used in existing systems. Including image data
Various data management system (OS) is adopted
Depending on the image recording / reproducing device, it is usually digital
Play back image data obtained by a still camera on a personal computer
The system which performs is general. [0004] A configuration diagram and an explanatory diagram of a conventional system of this kind.
Is shown in FIG. Camera image obtained by camera
The data is recorded on an IC memory card. This IC
Copy the image data from the memory card to the card
Interface, read it out, save it, and
PC (P)
C) Convert to data and use as PC image. Reverse
The PC image data obtained on the PC side to the camera.
When using on the side, adapt the computer image to the camera
Convert to camera image data and record on IC memory card
Then, play back this IC memory card with a camera and
To play. [0005] As described above, data centering on a video signal system is used.
Digital still camera camera (DSC) image and personal computer
The basic configuration is different from the personal computer (PC) image of
For example, as shown in FIG.
And the interlace are different. FIG. 20
As for the pixel structure, the DSC image is 768 × 480.
(Frame mode), 768 × 240 (field mode)
C), and the PC image is 640 × 480, 640 × 4
00, 1024 × 768, etc. About image signals
Indicates that the DSC image is a Y / C signal, while the PC image
The image is an RGB signal. In DSC images,
Screen ratio is 4: 3 and screen scanning is interlaced.
In the case of a PC image, an aspect ratio of 1: 1 and screen scanning
Non-interlaced. [0006] As described above, the conventional
The system includes a digital still camera and a personal computer.
The image data obtained on one side is the other
Cannot be used normally, so the image data
A conversion process is needed to match the differences.
I have to prepare a conversion processing program for that
Therefore, quick image display and transmission were impossible. Accordingly, an object of the present invention is to provide a method for converting image data.
Even if the management system for
Easy management without having to prepare a separate program
And provide a camera that enables quick image display and transmission.
It is to be. [0008] The present invention has been made to solve the above-mentioned problems.
Therefore, the camera according to the present invention provides an image data corresponding to the captured image.
Data from the format that conforms to the one display mode to the other table.
Conversion procedure for converting to a format that conforms to the
Conversion procedure data holding means for holding data,
The conversion processing is performed in association with the image data to be transmitted.
Conversion procedure data from the conversion procedure data holding unit
Transmission means for reading and transmitting
It is. According to the present invention, a recorded image is stored in a management system (O
When used in another device of the receiving side different in S), the other device
Image conversion and display programs that can be executed by the device management system
The ram is recorded on a recording medium together with the image data and transmitted.
I have. Next, an embodiment of the present invention will be described with reference to the drawings.
I will explain while. In this embodiment, a recorded image is processed by an image processing apparatus.
Others with different sciences, that is, different management systems (OS)
When using with one device, the management system of the other device (example
Image conversion and display programs that can be executed with MS-DOS)
By recording the RAM together with the image data on a recording medium,
To enable immediate display on the receiving side (other device side).
It is. The display program compresses the image data
If the program is
Information (name, age, ID number, etc.)
Can be added. The conversion program is explained in FIG.
As described above, an image structure different from the image structure recorded on the recording side is used.
Conversion program required to display images on a portable display system
For example, an NTSC image file is converted to an RGB file.
It is a program to convert to a file. In addition, recording media
In the format, the format itself is managed by the recipient.
The image data is recorded in a standard form in conformity with the stem (OS).
Record and transfer software to match each management system.
The image data may be converted. FIG. 1 is a block diagram showing the basic configuration of a camera according to the present invention.
It is a lock figure. An image is formed on the CCD 2 via the lens 1
After the subject image is converted into an electrical signal,
A predetermined process such as γ correction is performed by the circuit 3 and the A / D converter
Data (ADC) 4 is converted to a digital signal. SEREC
5 is a digital image from the A / D converter 4 during recording.
To record image data in a frame memory (RAM) 6
Set a proper route. Read from frame memory 6
Block data (1 screen divided into multiple blocks
When the data about each divided block) is a selector
The data is supplied to a compression / decompression unit 8 via a control unit 7. compression·
The DCT / IDCT circuit 81 of the decompression unit 8
This is a sine transform / inverse discrete cosine transform circuit.
Orthogonal data for data compression. straight
The transform coefficients obtained by the interconversion are quantized / dequantized.
After being quantized by the path 82, decoded by the encoding / decoding unit 83.
Be transformed into Encoding in the compression / decompression unit 8
Are performed based on an instruction from the system control circuit 12.
Is controlled by the encoding control circuit 13. That is, on
System based on the contrast information for each divided area.
The system control circuit 12 provides an appropriate Q
Cable is selected and set as described above, and the
Compression processing in the compression / decompression unit 8 via the path 13
Control. Thus, the card interface (I /
F) is supplied to the circuit 10 and recorded on the IC card 11
You. At the time of reproduction, the data is switched by the selector 5.
The digital image data is reproduced in a predetermined
Raw processing is performed, and the analog signal is
Is converted to an EVF (Electronic Viewfinder) 1
7 and an output terminal on the monitor side. The system control circuit 12 includes a frame memory
6, selectors 7, 9, encoding control circuit 13, compression / decompression
Unit 8, card interface circuit 10, and communication system
The operation of the control circuit 19 is controlled by the operation unit 14.
In response to the signal, the camera
Performs various body controls. Also, the system control circuit 1
2 is an operation unit 14 to which various switches to be described later are connected.
Receiving the operation information from the
Serial interface circuit connected to the
A communication control operation is performed with the communication device 20. Serial interface
The source circuit 20 is connected to a modem or a transmission partner camera.
Has been continued. In the configuration shown in FIG.
Data read through the card interface 10
Is sent to the selector 9. Read via selector 9
The compressed image data is decompressed by the compression / decompression unit 8.
Is written to the frame memory 6 via the selector 7.
You. The image data read from the frame memory 6 is
After passing through the selector 5, the reproduction processing section 15 performs the reproduction processing.
Is applied to the analog signal by the D / A converter 16.
It is converted and output to the EVF 17 for monitoring. LCD18
Indicates an operation mode and the like. The operation unit 14 has a shutter for the AF operation.
Trigger 1 switch 14A, trigger for recording operation
2 switch 14B to move the playback file during playback
Switch 14 for left and right frame advance
C and 14D, switch 14 for switching between recording and reproduction
E. Transmission and reception of data from the camera via the communication line
A communication switch 14F for setting a communication mode when performing the communication,
+ Switch 1 for setting various modes of camera operation
4G and -switch 14H, various modes such as continuous playback
DRIVE switch 14I to instruct, power ON / OF
There is a POWER switch 14J for setting F
You. FIG. 2 shows image processing and memos in FIG.
A detailed block diagram of the record processing system for Ricard is shown.
You. FIG. 2 is a flow chart under the control of the system control circuit 12.
Transfer data between the frame memory 6 and the memory card 11
FIG. On the input side of the frame memory 6
Connects the A / D, D / A bus and selector 5 (not shown)
A / D converter 4 is connected via the
Compression via data bus and selector 7 (not shown)
The extension unit 8 is connected; Code RAM 24
Stores the parameters required for the compression / decompression process.
The recording / reading control is performed by the compression / decompression unit 8.
Done. Compression / expansion unit 8 and memory card 11
The card I / F circuit 10 connected between the switches
Issue 101, 102, 104, 105 and card address
A raw part 103 is provided. Two input terminals of switch 101
101A and 101B are output from the compression / decompression unit 8.
Forced companding card control signal and system control
System control signal output from the path 12
Are input respectively. Two of the switches 102
A compression / expansion unit is connected to the input terminals 102A and 102B.
8 from the companding data bus and from the system control circuit 12.
Connected to the system controller data bus. Switch 10
Switching between input terminals 1 and 102 is performed by the system control circuit.
12 is controlled by an access signal from the control unit 12. The card address generation unit 103 has a compression / decompression
Card address clock supplied from the long unit 8
(CLK) and the car supplied from the system control circuit 12
Card address after receiving the card address control signal.
Reads and writes by controlling the memory card 11 via the bus.
Control the write address. The frame memory controller 21 has a synchronous
The clock CLK from the signal generation circuit 22 and the operation unit 14
And the system control circuit
12 for the recording / reproduction switching signal RP and the compression / decompression processing.
Upon receiving the start signal, the A / D converter 4 and the D / A converter
Clock signal A / D CLK and D / A
CLK and sends an address to the frame memory 6.
Signal and memory control signal, and
A companding clock CLK is sent to the long unit 8. The system control circuit 12 has a trigger 2 signal,
Stop signal from the frame memory controller 21
The compression / decompression unit 8 and the frame memory controller
A START signal and an RP signal are sent to the roller 21. Mosquito
In the card interface 10, the switch 101 and the memory
A switch 104 between the card 11 and the switch 102
A switch 105 is provided between the card 11 and
A transmission data reception buffer 23 is provided. Output terminals 104 of switches 104 and 105
A and 105A are connected to the memory card 11 and switches
Output terminals 104B and 105B of 104 and 105 are for transmission
Connected to the data reception buffer 23,
04 and 105 are transmission controllers from the system control circuit 12.
Controlled by a roll signal. Data reception buffer for transmission
23 is an address from the card address generation unit 103
Controlled by signals. In the present embodiment, the external memory 25 is R
OM is prepared and the receiving side is compatible with various management systems in advance.
A device-specific conversion, display program, and the like are stored.
The conversion and display process selected and read from the external memory 25
Gram is a memory card via the card interface 10
Is recorded together with the image in the memory 11. FIG. 3 shows a personal computer as a receiving side.
Data received with the conversion and display program
FIG. 2 shows a configuration block diagram of a processing system for processing. CPU 120
Is a program stored in the system ROM 121
Operate according to the procedure, received from external bus (BUS)
The data is stored in the main RAM 122. Main RAM
According to the conversion and display program read from 122
The processed image data is stored in the VRAM 129,
Then, it is read out and monitored via the video I / F 128.
Output. This image data is stored in an IC card
It is recorded on the IC card 131 via the I / F 130.
Hard disk drive (HDD) 124 or floppy
In addition to the disk drive (FDD) 125, serial I /
F126, the external IO 127 is connected to the CPU 120
I have. FIG. 4 shows a car on the personal computer side (reception side).
The processing procedure of the format is shown. First, the car
The type of password is recognized (step S1), and the OS on the receiving side is
After selecting (management system) (step S2), select
Perform a format that is compatible with the OS (step S
3) Write a display program suitable for the receiving OS
Then (step S4), the process ends. FIG. 5 is a flowchart showing a display processing procedure on the receiving side.
It is a low chart. First, the file to main memory
Load (step S11), check the file structure
(Step S12) Whether or not the pixel size is 768 × 480
Is determined (step S13). Where pixel size
Is 768 × 480, the data is compressed / uncompressed.
(Step S14), and if not compressed, Step S1
Moves to the processing of step 8 and if it is compression, whether the compression processing is standard
Is determined (step S15). If it is judged as standard,
A decompression process is performed (step S16).
A custom process is performed (step S17), and a decompression process is performed.
Then, the process proceeds to step S18. Step S18
In the aspect ratio, vertical dots from V480
A process for converting to V576 is performed (step S18).
After the data is transferred to the RAM (step S19), the image is displayed.
(Step S20). In step S13,
If the pixel size is not 768 × 480, the pixel size is
It is determined whether it is 768 × 240 (step S21),
Otherwise, it is not displayed (step S22).
Then, steps S14, S15, S16 and S17
Steps S23, S24, S25 and
After S26, whether the vertical dot 240 is
To 576 (step S27). That
Thereafter, the data is transferred to the VRAM (step S2).
8) Display an image (step S29). In the above embodiment, other image display processing is performed.
Recorded images for easy handling by different receivers
Data with image processing conversion, image display program, etc.
It is recorded on a recording medium. Next, a management system for receiving image data is provided.
According to the reception and also connected via the communication line
With the program data for the above conversion
An example of sending is described. According to the present embodiment, for example,
Using a communication program to transmit image data to various devices
When sending, the management system on the receiving side must be
Side), perform management with the selected management system, and
Transfer image data, conversion program and display program
By doing so, it is possible to perform instant reproduction on the receiving side. FIG. 6 is a diagram showing the system configuration of this embodiment and its operation.
FIG. Camera image data obtained by the sending camera
Is played back on the camera and the camera image file
As a modem, display program through the general public line
Etc. are transmitted. On the receiving PC, the modem
Receiving the image data and the program data through
Received image data based on program data
Convert to image data and display on monitor. Conversely, send
The receiving PC converts the PC image data into a camera image.
Convert and transmit camera image data as image file
Then, the receiving camera sends this image file via the modem.
And play it back on the camera monitor. The IC memory card has a structure as shown in FIG.
And conforms to JEIDA and other standards.
Memory (EEPROM) and common memory (SRAM)
It is divided into areas. Non-volatile memory contains devices
Device information (TUPLE) such as type, capacity, speed, etc.
Will be delivered. In addition, the common memory has a version (Ve
r. 4.0), block length, initialization date and time, individual manufacturer
Recording area for other attribute information (TUPLE) such as information,
Management information such as manufacturer name, BPB, FAT, and directory
Information (BOOT, FAT, DIR) recording area, image file
File (ROOT), audio file (ROOT), image file
File (SUB1), audio file (SUB1),
Troll file subdirectory, program file
Of recording data (DATA-FILE) for recording files
It has a recording area (data area) and the like. FIG. 8 shows a digital still camera.
FIG. 2 shows a structure diagram of a data area of an IC card to be used.
The data area shown in FIG. 7 is the same as that shown in FIG.
In addition to image files and audio files,
Files, control files, and subdirectories.
I do. The root directory is shown in FIG.
It is such a configuration. The camera of this embodiment is the same as each of FIGS.
The same configuration can be adopted, via the serial communication IF 20
Image data, program data, etc. are sent to the communication line.
You. FIG. 9 shows the format of the card in this embodiment.
The procedure for the reset is shown. This format is basic
The format shown in FIG. 4 is the same as that shown in FIG.
The selection of the management system (OS) in step S2 is
Is only the OS selection on the transfer side (step S2 ').
Become. The configuration of the receiving-side personal computer in this embodiment is shown in FIG.
Is the same as The processing on the receiving side (PC side) is shown in FIG.
When the personal computer is in transmission mode as shown in
Perform communication preparation processing such as dem setting and communication speed setting (step
(Step S31), and waits for a communication OK state (step S31).
Step S32), and instructs the transmission side (camera side) to start transfer.
(Step S33), the image data received in the main memory
The data is recorded (step S34). Then, communication is normal
It is determined whether the process has been completed (step S35).
If not, the process returns to step S32, and the process ends.
If the data is filed (step S3
6), hard disk (HDD), floppy disk
(FD), a magneto-optical disk (MO), etc.
Step S37). FIG. 11 shows an example of the structure of each file.
You. The image file consists of a file header and an image data book
The body of the image data has a DSC specification as shown in the figure.
, Version, image data recognition information, comments, etc.
It has a recording area and a compressed image data recording area. Audio files
File and control file as well.
And audio data or control data
Consists of The voice data body is of DSC specification, version
Voice data recognition information, comment recording area and compressed voice
It has a data (such as ADPCM) recording area. In addition,
The troll data itself consists of the DSC specifications, version, and rice.
And the control data (SEND I
NFO. (Telephone number, MS-DOS, etc.)
You. The display processing on the personal computer side in this embodiment is the processing shown in FIG.
Is the same as In this embodiment, the files on the camera side and the personal computer side are used.
The file conversion is performed, for example, as shown in FIG. turtle
The image file F1 and the display program file are
File F2 and transmit it as a single file F.
On the computer side, the received file F is divided and
File F1 and a display program file F2.
Perform file conversion. Next, the recorded image data is transmitted to another device.
When sending, specify the multiple images to be transmitted using normal key operations.
A description will be given of an example that can be performed. In the conventional system as described above, the camera
Selective transmission of image files from the
Transmit the live image as one image (file)
Or a management information file such as a control file.
Multiple images (multiple files)
The transmission is continued. However, multiple files
Specifying a file by key operation is originally preferable for miniaturization.
In a device like a camera, the number of keys is small.
Have difficulty. In this example, the number of keys is small as in a camera.
Even for small devices, multiple images can be easily specified
DOS management
Directory entry no. Manages multiple image designations
ing. FIG. 13 is a flowchart showing the operation processing procedure of this embodiment.
It is a chart. Specify multiple images from the camera
In the transmission mode for transmitting, the reproducing operation (step S4)
After 1), whether or not the right arrow switch 14D is operated
Is determined (step S42).
Is reproduced (step S44), and if no operation has been performed,
Then, it is determined whether the left arrow switch 14C is operated.
A determination is made (step S43). Here, if operated
If the previous image has been reproduced (step S45),
If not, determine whether trigger 1 switch 14A is ON
(Step S46). Trigger 1 switch 14A is O
If it is not N, the process returns to step S42, and
, The entry number of the image being reproduced. And get
Step S47), the entry No. To remember
Step S48). Subsequently, the trigger 2 switch 14B is turned on
It is determined whether or not it is (step S49).
Returning to the process of step S42, if ON, the transmission process is performed.
(Step S50), the process ends. FIGS. 14 and 15 show the image transmitting side device and the receiving side.
The flowchart of the processing procedure of the receiving device is shown.
Referring to FIGS. 14 and 15, on the image transmitting side (FIG.
First), when it recognizes that the modem is connected
(Step S51), the communication switch 14F is turned ON
(Step S52), the “communication request” frame
Command is transmitted to the image receiving side (step S53). one
On the other hand, on the image receiving side (see FIG. 15),
The connection is recognized (step S71).
Wait for the confirmation of the "communication request" command (step
(Step S72), whether or not the receiving operation on the receiving side can be performed normally
(OK) is determined (step S73). This judgment is
Insert a memory card into the receiving device (for example, a camera).
Or the memory card is protected.
The memory card has sufficient free space,
Determine whether the card is formatted, etc.
It is. If it is not OK in step S73, the NG frame
Command (step S75), and the
Move on to processing. In step S73, it is determined that the state is OK.
The "OK" command to the image sender
(Step S74), a telephone mark is displayed on the LCD 18 shown in FIG.
And a record "REC" are displayed (step S76). On the image transmission side, the "OK" command
When the reception is confirmed (step S54), the L of the camera
Turn on CD and display phone mark and playback "PLAY"
(Step S55). At this point, the user
Image transmitted using the switch 14C or the right arrow switch 14D.
Select an image. Also, if an “OK” command has not been received
If it is determined that it is, the process proceeds to step S64. Next, a "data transmission START" command
Is transmitted to the image receiving side (step S56). Image reception
Side receives the “data transmission START” command.
Then (step S77), the size of the transmission image data file becomes large.
Is larger than the free space on the receiving memory card (OK)?
It is determined whether or not it is (step S78). Here, OK
If it is determined that the message is “NG”, an “NG” command is transmitted (step
Step S80), and proceeds to the process of step S92. Ma
If it is determined that the operation is OK, an “OK” command is displayed.
Send to the image transmission side. The image transmitting side receives the "OK" command.
The communication is confirmed (step S57).
Proceeding to step S64 and confirming reception,
Data, the LCD flashes (the phone symbol flashes),
Step S58) Send a “data transmission end” command
(Step S59). On the image receiving side, "Data transmission
Confirm the reception of the "end" command (step S83), and
If not, the process returns to step S81. On the image transmitting side, in step S59,
The `` Data transmission end '' command to the image receiving side.
After the "Resend request" command from the image receiving side
Is received (step S60).
The process returns to step S56. In step S60,
If you have n’t received the “Resend Request” command,
Confirm the reception of the "OK" command (step S61),
If not received, the process proceeds to step S64, and
If the communication is confirmed, the LCD is turned on (step S6).
2), determine that the communication switch 14F is "OFF".
If not “OFF”, the process proceeds to step S56.
Return, if “OFF”, “Communication end” command is displayed.
The image is sent to the image receiving side (step S64). On the image receiving side, the "communication end" command
Is received (step S92), and if no
If so, the process returns to step S77, and if the reception is confirmed,
An "OK" command is transmitted to the image transmitting side (step S9).
3) Turn off the LCD (step S94) and end the process.
Complete. The "OK" frame transmitted in step S93
Is received on the image transmission side (step S6).
5) If not received, return to the process of step S64
When reception is confirmed, the LCD is turned off (step
S66), the process ends. On the other hand, on the image receiving side, a scan is performed from the image transmitting side.
"Data transmission end" command transmitted in step S59
Is received, the received image is reproduced (step S84),
Since the user requests retransmission, the left arrow switch 14C is
It is determined whether or not the operation has been performed (step S85). here
When the switch is operated, the above-mentioned “Retransmission
Quest ”command (step S86), and
Returning to the process of step S77, if no operation has been performed, the
The "ON" state of the switch 2 is determined (step S8).
7). When the trigger 2 switch is on,
Confirmation that the data has been recorded on the receiving memory card.
Determine whether there is sufficient free space (OK) (step
S88). Here, if it is not OK, "NG" command
Is transmitted (step S91), and the process of step S92 is performed.
Move to If OK, an “OK” command is displayed.
The call is transmitted to the image transmitting side (step S89). Trigger 2 switch
Switch is not "ON", the right arrow switch 14C
It is determined whether or not has been operated (ON) (step S8).
5) If not operated, return to step S85
Delete the received image if it has been operated (step
S96), and proceeds to the process of step S88. Next, an eye similar to the example shown in FIGS.
DOS management to specify multiple images
Record the specified file name in the control file
Display and display the file name on the camera.
Multiple images can be specified without any
The following describes an example in which image transmission can be performed. FIG. 16 illustrates the operation processing procedure of this example.
10 is a flowchart showing a program transmission setting processing procedure.
Show. Enter the transmission mode and start the playback operation (step
Step S101), DRIVE switch 14I is set for 3 seconds
(3S) Keep pressing and hold the program mode (DRIVE-
(P mode) is determined (step S10)
2). If not in program mode,
Mode, and if it is in program mode, change to setting mode.
(Step S103), the right arrow switch 14D is operated.
It is determined whether or not it has been performed (step S104). operation
If so, the next image is reproduced (step S10).
6) If no operation has been performed, the left arrow switch
It is determined whether or not the switch 14C is operated (step
S105). Play previous image if operated
After that (step S107), if no operation has been performed,
It is determined whether the trigger 1 switch 14A is ON as it is.
You. If it is determined that it is not ON, the process of step S104
And if it is determined to be ON, the file of the image being reproduced
The file name is obtained (step S109). Then the bird
It is determined whether the gas switch 2B is ON (step
S110) If not ON, the process of step S104
If it is ON, the file name is
In the transmission mode (step S111).
You. FIG. 17 shows a program transmission processing procedure.
First, as in FIG. 16, the DRIVE-P switch is used.
Switch is ON (pressed) for three seconds.
Step S121), if so, proceed to the setting process of FIG.
You. Otherwise, read the control file.
(Step S122), the file of the set image
The file name is acquired (step S123), and the reproduction operation is performed.
(Step S124). Subsequently, the trigger 2 switch 14
Waiting for B to turn ON (step S125), transmission
The process is performed (step S126), and the reproduction mode is entered. FIG. 18 shows a case where a plurality of images are designated by the DOS management.
Directory entry NO.
By recording and managing the
File names without displaying them on the camera.
FIG. 6 is a flowchart showing an operation process for enabling designation of an image;
is there. The processing procedure of the first half of this example is the processing shown in FIG.
The procedure is the same, and it is determined that the trigger 2 switch 14B is ON.
When the entry No. is set, The control file
(Step S131), and enters the transmission mode. As described above, according to the present invention,
Management system for image data conversion uses different devices
Use a special, separate program, even if
Management of image data is easy,
Image display and transmission are possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a basic configuration block diagram of a camera according to the present invention. FIG. 2 is a detailed block diagram of an image processing and recording processing system for a memory card in the camera shown in FIG. 1; FIG. 3 is a configuration block diagram of a processing system that converts image data and processes data received together with a display program using a personal computer as a receiving side. FIG. 4 shows a personal computer (reception side) according to an embodiment of the present invention.
It is a figure showing the processing procedure of the card format in FIG. FIG. 5 is a flowchart illustrating a display processing procedure on the receiving side according to the embodiment of the present invention. FIG. 6 is a system configuration diagram and operation explanatory diagram of a camera related to the present invention. FIG. 7 is a diagram showing an example of the structure of an IC memory card. FIG. 8 is a structural diagram of a data area of an IC card used in a digital still camera. FIG. 9 is a diagram showing a procedure for formatting a card used in a camera related to the present invention. FIG. 10 is a diagram showing a card format processing procedure on a receiving side (personal computer side) in a camera related to the present invention. FIG. 11 is a diagram showing an example of the structure of each file. FIG. 12 is a diagram illustrating an example of file conversion on the camera side and the personal computer side related to the present invention. FIG. 13 is a flowchart showing a processing procedure in a camera according to another example related to the present invention. 14 is a flowchart of a processing procedure of the image transmitting side device in the example shown in FIG. FIG. 15 is a flowchart of a processing procedure of the image receiving side device in the example shown in FIG. FIG. 16 is a flowchart illustrating a camera operation processing procedure related to the present invention. 17 is a flowchart illustrating a procedure of a program transmission process of the example illustrated in FIG. 16; FIG. 18 is a flowchart showing an operation of the camera related to the present invention. FIG. 19 is a configuration diagram and an explanatory diagram of a conventional camera system. FIG. 20 is a diagram for explaining a difference in image processing between a camera (DSC) image of a digital still camera and a personal computer (PC) image of a personal computer. [Description of Signs] 1 lens 2 CCD 3 imaging process circuit 4, 25 A / D converters 5, 7, 9 selector 6 RAM 8 compression / expansion unit 10 card interface circuit 11 IC card memory 12 system control circuit 13 encoding control circuit 14 Operation unit 15 Reproduction process circuit 16 D / A converter 17 EVF 18 LCD 19 Communication control circuit 20 Serial interface circuit 21 Frame memory controller 22 Synchronous signal generation circuit 23 Transmission data reception buffer 24 Code RAM 25 External memory

Claims (1)

(57) [Claims] [Claim 1] Conversion processing procedure data for converting image data corresponding to a captured image from a format compatible with the one display mode to a format compatible with the other display mode. A conversion processing procedure data holding means for holding the data, and a transmission means for reading out and transmitting the corresponding conversion processing procedure data from the conversion processing procedure data holding means in relation to the image data to be transmitted. A camera comprising: