JP2004120160A - Mobile apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve problems of a conventional mobile apparatus that an imaged image cannot be attached to mail, a long transmission time is required even when the image can be attached to mail, and a high transmission charge is imposed because an image size and image quality in a preceding camera mode are set again for those to be set at present. <P>SOLUTION: In a mobile phone 100 to solve the problems above, when a user operates a key operation section 8 to instruct on-setting of an automatic reset function, a control section 1 controls an image processing section 3 on the basis of image processing data designated in advance, revises the image data to desired image data and stores the data to first and second memories 4, 5. The control section 1 reads the image data stored in the second memory and attaches the image data to mail via a communication control section 11 and to allow the communication control section 11 to transmit the resultant mail. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile device having an electronic camera function, and particularly to a mobile device having an auto reset function.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a mobile device, for example, a mobile phone, is configured to form a communication channel by controlling a communication protocol with a base station, and perform a communication with a terminal on a calling side or a called side. Further, in the above-described mobile phone, by transmitting character data in communication protocol control at the time of calling, character data transmitted from the calling side can be received in communication protocol control at the time of receiving at the terminal on the receiving side. Service is provided. Furthermore, in recent years, the above-mentioned mobile telephone has a built-in image pickup device such as a CCD (Charge Coupled Device) image sensor and the like, and has a camera mode. A service is also provided in which image data captured by the user using the camera mode of the mobile phone can be transmitted to a third party terminal together with the above-described character data.
[0003]
Hereinafter, for example, a mechanism for transmitting photographed image data together with character data when a conventional mobile phone is used will be described. FIG. 7 is a schematic functional block diagram illustrating an electrical configuration of a mobile phone according to an embodiment of the related art, and FIG. 8 is a flowchart illustrating operation control when the camera mode is activated in the mobile phone.
[0004]
As shown in FIG. 7, the mobile phone 101 according to the related art mainly includes a control unit 31, an imaging unit 32, an image processing unit 33, a first memory 34, a second memory 35, a display driver unit 36, and a display unit 37. , A key operation unit 38, an antenna 39, a wireless unit 40, and a communication control unit 41.
[0005]
As shown in FIG. 8, when the user instructs to activate the camera mode by operating a key for activating the camera mode provided in the key operation unit 38, the control unit 31 recognizes the activation of the camera mode, and Start. Specifically, the control unit 31 activates the application in the camera mode and simultaneously supplies power to the imaging unit 32 and the image processing unit 33 (step F51).
[0006]
Next, the control unit 31 also controls the image processing unit 33, and the control unit 31 passes the image capturing size and image quality data, which are the image processing data at the end of the previous camera mode, to the image processing unit 33, An imaging state is set (step F52).
[0007]
Next, when the user drives an image sensor or the like of a CCD image sensor in the imaging unit 32 to project the subject, image data of the subject is captured from the imaging unit 32 (step F53), and the first Input to the memory 34. Then, the control unit 31 controls the first memory 34, the display driver unit 36, and the display unit 37, and causes the display unit 37 to display an image projected by the user (step F54). Then, the user checks the image displayed on the display unit 37, and determines whether or not to photograph the subject. If the user does not photograph the subject, the user does not press the shutter key (step F55). Further, when the user ends the camera mode (step F56), the user operates the key operation unit 38 to instruct to end the camera mode, and the control unit 31 ends the camera mode. On the other hand, if the camera mode is not to be ended in step F56, the user operates the key operation unit 38 and presses a key corresponding to a menu key displayed simultaneously with an image on the display unit 37 (step F57). Then, when the user instructs to change the image processing data such as the image size and the image quality of the camera mode according to the menu screen, the control section 31 stores the image processing data (step F58). It should be noted that there is a menu for changing other settings in the camera menu, but a case description unrelated to the present application will be omitted hereafter. Thereafter, the control unit 31 controls the image processing unit 33 to process the image data continuously sent based on the image processing data changed by the user again (step F53).
[0008]
On the other hand, in step F55, when the user takes an image of the subject, the user operates the key operation unit 38 and presses the shutter key to take the image. At this time, the control unit 31 controls the image processing unit 33 to stop the image data sent to the first memory 34, and the first memory 34 stores the image data sent last. That is, on the display unit 37, the fluctuating image stops when the user presses the shutter key.
[0009]
Next, when the control unit 31 determines that the photographed image data has an image size that can be transmitted by e-mail (step F60), the control unit 31 displays the attached key on the display unit 37 (step F61). When the user attaches the image data to the mail (step F62), the user gives an instruction through the key operation unit 38, the control unit 31 specifies the image data to be attached (step F66), and the display unit 37. To display a mail creation screen (step F67). Then, the user operates the key operation unit 38 to input a mail transmission destination, a title, and a text according to the mail creation screen shown on the display unit 37. Thereafter, when the user transmits an e-mail (step F68), the user operates the key operation unit 38 corresponding to the transmission key shown on the display unit 37 to transmit the e-mail with the captured image data attached ( (Step F69), the camera mode ends (Step F70).
[0010]
On the other hand, when the user does not attach the image data to the mail, the control unit 31 may determine that the photographed image data has an image size that cannot be transmitted by mail (step F60). At this time, when saving the image data shot by the user, the user operates the key operation unit 38 corresponding to the save key displayed together with the image on the display unit 37, and presses the save key (step F63). ), The control section 31 reads out the image data stored in the first memory 34 and stores it in the second memory 35 (step F64).
[0011]
Next, when the user does not save the image data captured, when the user presses a key corresponding to the clear key displayed together with the image on the display unit 37 (step F65), the user again captures the image of the subject. The image data of the subject is continuously captured from the imaging unit 32 so that the image data can be obtained (step F53). On the other hand, if the user does not press the clear key (step F65), the captured image remains displayed on the display unit 37 (step F60).
[0012]
The conventional mobile phone is as described above. In addition, in the conventional digital camera, the free space of the recording area of the recording medium is increased by performing a compression ratio changing process, an image size changing process, or an image file format changing process on existing image data. (For example, see Patent Document 1). Also, in a conventional electronic camera, image data is converted to the size at the time of printing at the time of shooting and recorded, so that the conditions such as the image size are set at the time of printing and correction processing is not performed each time, and the same printer can be used. The print processing can be easily performed in a short time (for example, refer to Patent Document 2).
[0013]
[Patent Document 1]
JP 2001-238173 A (Pages 5 to 10, FIGS. 1 to 5)
[Patent Document 2]
JP-A-2001-136432 (Pages 1-6, FIGS. 1 and 2)
[0014]
[Problems to be solved by the invention]
2. Description of the Related Art In a conventional mobile device, for example, a mobile phone, various mobile phones are provided by respective manufacturers, and image data can be transmitted and received between the various mobile phones. In a mobile phone, an image size at which image data can be displayed is determined for each manufacturer. Therefore, the sender's mobile phone can display the image data, but the receiver's mobile phone may not be able to display the transmitted image data. There was a need to set the image size.
[0015]
However, as described above, in the conventional mobile phone, not only the case where the image data photographed by the user is attached to an e-mail and transmitted to a third party, but also the user In some cases, the user takes a picture for the purpose of self-viewing. In the conventional mobile phone, the camera mode has an image size that can be attached to an e-mail and transmitted, and an image size that cannot be attached to an e-mail and transmitted. Therefore, if the user sets an image size that cannot be transmitted by attaching to an e-mail, there is a problem that image data captured for the purpose of transmission to a third party cannot be transmitted to the third party. .
[0016]
Further, in the conventional mobile phone, after the camera mode is activated (step F51), the camera mode is set to process the image data based on the image processing data at the end of the previous camera mode (step F52), and then the camera mode is ended. In some cases (step F56), or the photographed image data is attached to the mail (step F66), and after the mail is transmitted (step F69), the camera mode is terminated (step F70). At this time, the image processing data after the start of the camera mode was in the same state as the image processing data at the end of the previous camera mode. Therefore, if the image processing data set by the user in the previous use of the camera mode has an image size that cannot be attached to an e-mail, image data taken for the purpose of transmission to a third party cannot be transmitted by e-mail. And the image data cannot be transmitted to a third party.
[0017]
Further, in the conventional mobile phone, the image size that can be attached to an e-mail also has several types of image sizes, and the image quality also has several types of image quality, and a desired image size and image quality can be selected. It was possible. Therefore, although the image size is such that the user can attach it to an e-mail, the image size is large and shooting is performed in the setting state of high-quality image processing data, and the image data is attached to the e-mail and a third party In this case, there is a problem in that the transmission time is longer than when the minimum charge is set and the transmission charge is higher than when the minimum charge is set because of the large capacity of the image data to be transmitted.
[0018]
The portable device of the present invention has an auto-reset function for resetting image processing data whose settings have been changed to a desired image size and image quality according to the use of the user, for example, to preset image processing data when the camera mode ends. Having. That is, the auto-reset function is a function of automatically resetting image data continuously taken in from the image pickup unit to image processing data processed to an image size that can be attached to an e-mail and transmitted after the camera mode is activated. Further, it is an object of the present invention to solve the problem to be solved by the present invention by providing the above-mentioned automatic reset function.
[0019]
[Means for Solving the Problems]
In the portable device of the present invention, in the portable device having the camera mode, the means for changing the setting of the image capturing condition, and the setting is changed when the camera mode is activated. An automatic reset means is provided for automatically resetting the image photographing conditions so that the image photographing conditions become the image photographing conditions specified in advance. Therefore, in the portable device of the present invention, even when the user changes the setting to a desired image shooting condition after the camera mode is activated, the camera can reset the image shooting condition to a predetermined image shooting condition at the end of the camera mode. Each time the mode is activated, it is possible to take a picture or the like in the setting state of the picture taking condition according to the purpose of the user.
[0020]
Further, in the portable device of the present invention, the automatic reset unit includes a reset selection unit that selects reset on / off. Therefore, in the portable device of the present invention, when the user does not intend to transmit the image data photographed by the user by attaching the image data to an e-mail, the user can select the reset-off to select the desired image photographing every time the camera mode is activated. The necessity of changing the setting to the condition can be eliminated.
[0021]
The portable device of the present invention is characterized in that the portable device includes, in the camera mode, an e-mail transmission unit that can attach an image photographed in the camera mode. Therefore, in the portable device of the present invention, even if the user changes the setting to a desired image shooting condition after the camera mode is activated, the user can reset the image shooting condition to a predetermined image shooting condition at the end of the camera mode. It is possible to avoid that image data taken by the user cannot be attached to an e-mail and transmitted.
[0022]
Further, in the mobile phone according to the present invention, the pre-designated image photographing condition to be reset is an image photographing condition which is a minimum fee for sending a mail. Therefore, after the user attaches and sends the image data shot to the e-mail, the transmission time is longer than when the lowest-cost image shooting condition is set, and the transmission fee is charged higher than when the lowest-cost image shooting condition is set. Can be avoided.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a mobile device, for example, a mobile phone according to the present invention will be described in detail with reference to FIGS.
[0024]
FIG. 1 is a schematic functional block diagram illustrating an electrical configuration of a mobile phone according to an embodiment of the present invention. FIG. 2 is a schematic view of the mobile phone. FIG. FIG. 4 is an explanatory diagram showing a change in image size screen display in the mobile phone, and FIG. 5 is an explanatory diagram showing a change in image quality display in the mobile phone. FIG. 6 is an explanatory view showing a transition of an auto reset on / off setting screen display in the mobile phone.
[0025]
As shown in FIG. 1, a mobile phone 100 according to the present embodiment mainly includes a control unit 1, an imaging unit 2, an image processing unit 3, a first memory 4, a second memory 5, a display driver unit 6, and a display unit 7. , A key operation unit 8, an antenna 9, a radio unit 10, and a communication control unit 11.
[0026]
The control unit 1 controls the operation of each part configuring the mobile phone 100, and controls, for example, the image processing unit 3, the display unit 7, and the like. In the present embodiment, the control unit 1 stores the initial value of the image processing data in the auto reset function, and when the auto reset function is set to ON, the image processing of the initial value is performed when the camera mode is activated. The image processing unit 3 is controlled so that the image data is processed by the data. The imaging unit 2 includes an imaging lens, an imaging element such as a charge coupled device (CCD) image sensor or a complementary metal oxide semiconductor (CMOS) image sensor, and three color filters of RGB. The imaging unit 2 converts the light reflected by the subject and incident on the imaging lens into RGB three-color light through a color filter, and converts each of the RGB three-color light into an electric signal by the image sensor.
[0027]
The image processing unit 3 includes an amplification unit, an A / D (analog / digital) conversion unit, and a signal processing unit. The amplifying unit amplifies the electrical signal corresponding to RGB sent from the imaging unit 2 and sends it to the A / D conversion unit. The A / D converter converts the electrical signal (analog) corresponding to RGB amplified by the amplifier into a digital signal, outputs image data, and sends the image data to the signal processor. The signal processing unit performs signal processing such as pixel interpolation processing on the image data sent from the A / D conversion unit. The signal processing unit sends the image data subjected to the signal processing to the first memory 4 based on the control signal sent from the control unit 1. The first memory 4 includes a first storage area for temporarily storing image data to be displayed on the display unit 7 and a second recording area for temporarily storing image data before storing the image data in the second memory 5. The first storage area stores image data suitable for display on the display unit 7, and the second storage area stores image data that has been processed with the image size and image quality set by the user. As for the image data of both areas, for example, the image data that is temporally older in the image data that is continuously captured is deleted, and only the newest image data is temporarily stored.
[0028]
The control unit 1 sends a control signal to the display driver unit 6 and sends the image data stored in the first storage area of the first memory 4 to the display driver unit 6. The display driver unit 6 applies a drive voltage to each pixel electrode of the display unit 7 according to image data to be displayed on the display unit 7. The display unit 7 is realized by a liquid crystal display, an EL (Electro Luminescence) display, or the like, and displays an image based on image data transmitted via the display driver unit 6.
[0029]
As shown in FIG. 2, the key operation unit 8 includes a key for inputting numbers and characters, a camera key for activating a camera mode, a shutter key for taking a picture when the camera mode is activated, and a mail creation screen. It consists of function keys such as a mail key. Further, the second memory 5 stores the image data stored in the second storage area of the first memory 4 after shooting, and also stores various kinds of reception data received via the antenna 9.
[0030]
The antenna 9 performs wireless communication with a base station via a radio wave. The radio unit 10 demodulates radio waves received from the base station via the antenna 9 during reception, and modulates and amplifies character data and image data transmitted from the communication control unit 11 during transmission, It transmits to the base station via the antenna 9. The communication control unit 11 sends received data such as character data and image data demodulated by the wireless unit 10 to the control unit 1 based on a predetermined communication protocol. The data received from the other party via the wireless unit 10 and the communication control unit 11 is stored in the second memory 5.
[0031]
Next, with respect to the above-described mobile phone, an operation control at the time of starting the camera mode will be described with reference to flowcharts shown in FIGS.
[0032]
As shown in FIG. 3A, when the user instructs to activate the camera mode by operating a key for activating the camera mode provided on the key operation unit 8, the control unit 1 recognizes the activation of the camera mode. Activate camera mode. Specifically, the control unit 1 activates the camera mode application and simultaneously supplies power to the imaging unit 2 and the image processing unit 3 (step F1).
[0033]
Next, the control unit 1 sets the imaging state by passing the image processing size and the image quality data which are the image processing data described in the initial value storage unit in the control unit 1 to the image processing unit 3. (Step F2).
[0034]
Next, the user drives the image sensor of the CCD image sensor, for example, in the image pickup unit 2 to project the object, and the image data of the object is taken in from the image pickup unit 2 (step F3), and the first Input to the memory 4. Then, the control unit 1 controls the first memory 4, the display driver unit 6, and the display unit 7 to display an image projected by the user on the display unit 7 (step F4). Then, the user checks the image displayed on the display unit 7 to determine whether or not to photograph the subject. If the user does not photograph the image, the user does not press the shutter key (step F5). Further, when the user ends the camera mode (step F6), the user operates the key operation unit 8 corresponding to the camera mode end key shown on the display unit 7, and ends the camera mode. At this time, the control unit 1 recognizes the end of the camera mode and executes an automatic reset process (step F7). Here, the automatic reset process is a flowchart shown in a subroutine shown in FIG. 3B, and firstly, the process proceeds to step F31. In step F31, the control unit 1 determines whether the auto reset is set to on or off. When the control unit 1 determines that the auto reset is set to ON, the image size (S) that is the minimum image size in the area for storing the shooting size in the initial value storage unit in the control unit 1 Is stored (step F32). Next, the control unit 1 stores the standard (NORMAL) which is the image quality having the minimum data size in the area for storing the image quality in the initial value storage unit in the control unit 1 (step F32). After that, the process returns to the main routine. In the main routine, the state becomes END, and the screen returns to the standby screen. On the other hand, in step F6, if the camera mode is not to be ended, the user operates the key operation unit 8 and presses a key corresponding to a menu key displayed simultaneously with an image on the display unit 7; The camera menu shown in FIG. 4A or FIG. 5A is displayed (step F8). When the user instructs to change the image processing data such as the image size and the image quality of the camera mode and the on / off setting of the auto reset according to the menu screen, the control unit 1 displays the changed image processing data. It is stored (step F9). It should be noted that there is a menu for changing other settings in the camera menu, but a case description unrelated to the present application will be omitted hereafter. Thereafter, the control unit 1 controls the image processing unit 3 to process the image data and the like continuously sent based on the image processing data changed by the user again (step F3).
[0035]
Here, the change of the image processing data will be described. For example, in the present embodiment, as shown in FIG. By selecting the size selection, the image size becomes the image size (S) (120 × 120 dot color), the image size (L) (288 × 352 dot color), the standby screen (176 × 220 dot color) or the VGA screen ( 640 × 480 dot color). When the user operates the key operation unit 8 and specifies a desired image size, the screen shown in FIG. 4C is displayed on the display unit 7, and the control unit 1 displays the image size of the specified image processing data. Is stored (step F9). It should be noted that there is a menu for changing other settings in the camera menu, but a case description unrelated to the present application will be omitted hereafter. In the present embodiment, the control unit 1 controls the image processing unit 3 to change the image size transmitted to the second storage area of the first memory 4 to the image size set by the user in step F9. I do. The imaging unit 2 can capture up to a VGA image, and the image is reduced to a desired image size by a process such as thinning out in the image processing unit 3. For image sizes (S) and (L), photographed image data can be attached to e-mail and transmitted. For other image sizes, photographed image data can be attached to e-mail and transmitted. Can not. On the other hand, as shown in FIG. 5B, from the camera menu list shown in FIG. By selecting the image quality selection, the image quality can be selected from three types of SUPPER FINE, FINE, and NORMAL. When the user operates the key operation unit 8 to specify a desired image quality, the screen shown in FIG. 5C is displayed on the display unit 7, and the control unit 1 displays the image quality of the specified image processing data. Is stored (step F9). It should be noted that there is a menu for changing other settings in the camera menu, but a case description unrelated to the present application will be omitted hereafter. In the present embodiment, the control unit 1 controls the image processing unit 3 to change the image quality size transmitted to the second storage area of the first memory 4 to the image quality size set by the user in step F9. I do. The image quality is ranked, for example, by the compression rate of the JPEG system. The smaller the compression rate is the SUPPER FINE and the larger the compression rate is the NORMAL. The data size is largest when the image quality is the SUPPER FINE. Also, as shown in FIG. 6B, the camera menu list shown in FIG. By selecting the auto reset, it is possible to select on / off of the auto reset. When the user operates the key operation unit 8 to select ON / OFF of the auto reset and presses a key corresponding to the determination, a screen shown in FIG. 6C is displayed. At this time, at the same time, the control unit 1 stores the setting state of the auto reset in a predetermined area of the initial value storage unit in the control unit 1. Note that the camera menu list described in the present embodiment is an embodiment of the present invention, and does not need to be limited to this list, and does not need to be similarly limited in image size and image quality.
[0036]
On the other hand, in step F5, when the user takes an image of the subject, the user operates the key operation unit 8 and presses the shutter key to take the image. At this time, the control unit 1 controls the image processing unit 3 to stop the image data sent to the first memory 4, and the first memory 4 stores the image data sent last. That is, on the display unit 7, the fluctuating image stops when the user presses the shutter key.
[0037]
Next, when the controller 1 determines that the captured image data has an image size that can be transmitted by e-mail (step F11), the display unit 7 displays the attached key (step F12). When the user attaches the image data to the mail (step F13), the user gives an instruction via the key operation unit 8, the control unit 1 specifies the image data to be attached (step F17), and the display unit 7 To display a mail creation screen (step F18). Then, the user operates the key operation unit 8 to input the mail transmission destination, the title, and the text according to the mail creation screen shown on the display unit 7. Thereafter, when the user transmits an e-mail (step F19), the user operates the key operation unit 8 corresponding to the transmission key shown on the display unit 7 to transmit the e-mail with the captured image attached (step F19). F20), the camera mode ends (step F21). At this time, the control unit 1 recognizes the end of the camera mode and executes the automatic reset process described in step F7.
[0038]
On the other hand, when the user does not attach the image data to the e-mail in step F13, or when the control unit 1 determines in step F11 that the image size of the photographed image data cannot be transmitted by e-mail, the user When the user operates the key operation unit 8 corresponding to the save key displayed with the image on the display unit 7 and presses the save key (step F14), the control unit 1 saves the captured image data. Reads the image data stored in the second storage area of the first memory 4 and stores it in the second memory 5 (step F15).
[0039]
Next, when the user does not save the image data captured, the user presses a clear key displayed together with the image on the display unit 7 (step F16), and the control unit controls the user so that the user can capture the object again. 1 controls. Then, the process proceeds to step F3 where the image data of the subject is continuously taken in from the imaging unit 2. On the other hand, when the user does not press the clear key (step F16), the photographed image remains displayed on the display unit 7 (step F11). In the present embodiment, the camera mode ends after the mail is transmitted in step F20. However, the present invention is not limited to this case. After the mail is transmitted, the process may proceed to step F3 to continue photographing.
[0040]
The mobile device of the present invention, for example, a mobile phone, determines at least the image size and image quality of the image processing data, stores the image processing data in the control unit, and attaches the image data to an e-mail when auto reset is set to ON when the camera mode is activated. An automatic reset function is provided for processing image data so that the fee becomes the lowest when transmitting the image data. As described above with reference to FIGS. 4B and 5B, the mobile phone 100 of the present invention has, for example, four patterns of image size and three patterns of image quality. In the present embodiment, the image quality of captured image data is not restricted to being attached to an e-mail, but the image size can be attached to an e-mail only when the image size is the image size (S) or (L). it can. Therefore, according to the above-described auto reset function, when the camera mode is ended, the image size and the image quality changed in the camera mode according to the usage of the user in the camera mode are again attached to the mail when the camera mode is started and transmitted. The image data setting change processing can be performed to an image size that can be used. At this time, the image quality is also changed simultaneously, that is, automatically reset. Therefore, if the purpose is to attach the image data captured by the user to an e-mail and send it to another person, without setting the image size in advance to the size that can be attached to the e-mail before shooting for each shooting, It is possible to photograph a subject and send a mail with the image data attached to a third party. Further, the user notices that the image data photographed after photographing the subject has an image size that cannot be transmitted by e-mail, and can transmit desired image data to a third party without missing a shutter opportunity. . On the other hand, by turning off the auto-reset function based on the usage of the user, the image processing data based on the image size and image quality set in advance by the user can be maintained until the reset. Therefore, for example, in the case of a user who does not want to attach the photographed image data to an e-mail for the purpose of photographing and transmit the image data, the image processing data according to the desired image size and image quality is set. You can continue shooting with the camera in the upright position.
[0041]
Further, in the mobile phone 100 according to the present invention, when the photographed image data is attached to an e-mail and transmitted, for example, various patterns of image data obtained by combining two patterns of image size and three patterns of image quality are transmitted. Can be attached to e-mail and sent. The image data capacity is different depending on the various combinations, and the transmission time, the transmission fee, and the like are different. Therefore, according to the above-described auto-reset function, by turning on the auto-reset function based on the user's intended use, the image size when the camera mode is restarted is set to the image size (S) and the image quality is set to NORMAL. Image processing data. In other words, each time the camera mode is activated, the user can perform shooting in a state where the image data capacity is minimized without resetting the image size and image quality of the image processing data. As a result, when the user sends the image data photographed to the e-mail by attaching it to the e-mail, the image data volume is minimized by the auto-reset function, so that the transmission time is not lengthened, and the No communication fees are charged.
[0042]
In the present embodiment, the case where the image size is set to the image size (S) and the image quality is set to NORMAL so that the image data is minimized when the auto-reset function is set to ON is described. However, the auto-reset function does not need to be limited to the present embodiment, and various design changes can be made according to the intended use. In addition, various changes can be made without departing from the spirit of the present invention.
[0043]
【The invention's effect】
As described above, first, the mobile device of the present invention has an auto-reset function in the camera mode, in which the image size at the time of shooting is reset to an image size that can be transmitted by e-mail every time the camera is restarted. Thus, when the user sets the camera mode to ON, the user can take a picture without resetting the image size of the image processing data every time the camera mode is activated. As a result, when the user desires to attach the image data shot to the mail to the third party and transmit the data to a third party, the user does not continue shooting at an image size that cannot be attached to the mail. In addition, the user does not miss a shooting opportunity such as noticing that the image size of the image data shot after shooting is an image size that cannot be attached to the mail, and attaches the desired image data of the user to the mail. And can be sent.
[0044]
Second, in the portable device of the present invention, the user can restart the camera mode with the auto-reset function set to off to take a picture. Therefore, if the user intends to photograph a subject using the camera mode and does not attach the photographed image data to an e-mail and transmits the image data to an e-mail, image processing with a desired image size and image quality of the user is performed. Shooting can be continued depending on the data setting state.
[0045]
Third, with the portable device of the present invention, the user can activate the camera mode with the auto-reset function turned on to take a picture. In the automatic reset function, the image size and the image quality are set so that the image data capacity is minimized. As a result, the user can take a picture according to the image size set by the auto reset function and the setting state of the image processing data with the image quality without needing to reset the image size and the like and confirm the image size and the like. it can. As a result, the user does not have to lengthen the transmission time and attach a high transmission fee at a later date when transmitting the photographed image data attached to the mail.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an electrical configuration of a mobile phone according to an embodiment of the present invention.
FIG. 2 is a schematic diagram illustrating the mobile phone.
FIG. 3 is a flowchart illustrating operation control when the camera mode is activated in the mobile phone.
FIG. 4 is a flowchart illustrating an auto reset function in the mobile phone.
FIG. 5 is an explanatory diagram showing a transition of an image size screen display in the mobile phone.
FIG. 6 is an explanatory diagram showing transition of image quality screen display in the mobile phone.
FIG. 7 is a block diagram for describing an electrical configuration of a mobile phone according to an embodiment of the related art.
FIG. 8 is a flowchart illustrating operation control when a camera mode is activated in a conventional mobile phone.
[Explanation of symbols]
1, 31 control unit
2, 32 imaging unit
3, 33 Image processing unit
4, 34 First memory
5, 35 Second memory
6, 36 Display driver unit
7, 37 display
8, 38 key operation unit
9, 39 antenna
10, 40 Radio section
11, 41 Communication control unit

Claims (6)

In a portable device having a camera mode,
Means for changing settings of image shooting conditions;
A mobile device comprising: an auto-reset unit configured to perform an auto-reset to automatically set the changed image shooting condition to a previously specified image shooting condition when the camera mode is activated. 2. The portable device according to claim 1, wherein the automatic reset unit includes a reset selection unit that selects reset on / off. 3. The portable device according to claim 1, wherein the reset of the automatic reset unit is performed at the end of the camera mode. 4. The portable device according to claim 1, wherein the image capturing condition is at least an image size or an image quality. 5. The portable device according to claim 1, wherein the portable device includes a mail transmitting unit in the camera mode, to which an image photographed in the camera mode can be attached. 6. The portable device according to claim 5, wherein the preset image capturing condition to be reset is an image capturing condition that is the lowest fee when sending an e-mail.

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