JP2004030251A - Image data transmitting method, mobile terminal device and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To apply image processing reflecting a photographer's intention to image data acquired in a mobile terminal device such as a mobile telephone with camera. <P>SOLUTION: In an image processing means 13, image processing is applied to image data S0 acquired in a mobile telephone 1 with camera to obtain processed image data S1. The data are displayed on a liquid crystal monitor 14 and in response to an instruction from an input means 17 by a user of the mobile telephone 1 with camera, in an image correcting means 18, correction further reflected with user's intention is performed to obtain corrected processed image data S1', and the data and the image data S0 are displayed on the liquid crystal monitor 14 while being divided. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile terminal device such as a camera-equipped mobile phone that acquires image data by photographing and transmits the image data to an image server, an image data transmission method in the mobile terminal device, and a computer to execute the image data transmission method. It is about the program.
[0002]
[Prior art]
Although there is a remarkable spread of mobile phones, in recent years, mobile phones with cameras having photographing means for acquiring image data by photographing are becoming popular (for example, Japanese Patent Laid-Open Nos. 6-233020 and 9-322114). 10-150523, JP-A 2000-253290, etc.). By using such a camera-equipped mobile phone, the user's favorite image data acquired by photographing can be set on the standby screen of the mobile phone. In addition, since it is possible to attach the image data acquired by shooting to an e-mail and send it to a friend, when it becomes necessary to cancel the appointment or when it is likely to be late at the meeting time, It is convenient for communication with friends because it is possible to inform a friend of his / her current situation, such as taking a picture of his / her disappointing expression and sending it to a friend.
[0003]
In addition, the function of the camera-equipped mobile phone has been improved, and it has become possible to acquire image data having a size sufficient for print output in the camera-equipped mobile phone.
[0004]
On the other hand, image data acquired by a camera-equipped mobile phone is subjected to various image processes to obtain processed image data, print out the image data, or upload it onto a network. . As a result, the user can acquire a high-quality image, acquire a print, view an image on a network, and the like, so that the use form of image data by communication can be diversified.
[0005]
The use of the image data acquired in such a camera-equipped mobile phone transmits image data from the camera-equipped mobile phone that has captured the image data to an image server that manages image data storage. Generate an e-mail with a URL indicating the storage location, send the e-mail to a mobile phone to which the image data is sent, a terminal device such as a personal computer or PDA, a laboratory that performs print output, and the like. The image data is downloaded by referring to the URL from the received mobile phone, terminal device or laboratory.
[0006]
[Problems to be solved by the invention]
By the way, the image processing applied to the image data can be performed by the camera-equipped mobile phone that has acquired the image data. However, in a camera-equipped mobile phone, image processing is performed on image data based on image processing parameters automatically calculated based on the image data. The intention of the user who is the photographer cannot be reflected in the image data.
[0007]
The present invention has been made in view of the above circumstances, and an object of the present invention is to perform image processing that reflects the intention of a user who is a photographer, on image data acquired in a mobile terminal device such as a mobile phone with a camera. And
[0008]
[Means for Solving the Problems]
A first image data transmission method according to the present invention includes an imaging unit that acquires image data by imaging, a communication unit that transmits and receives data, and an image that performs processed image processing to obtain processed image data. In the method of transmitting image data in a portable terminal device comprising processing means and display means for performing various displays,
In response to an input of an image correction instruction for the processed image data, an image correction process is performed on the processed image data to obtain corrected image data;
The image data or the corrected image data is transmitted to an image server that stores and manages the image data or the corrected image data.
[0009]
In the first image data transmission method according to the present invention, the image data and the corrected image data are divided and displayed on the display means,
Receiving an instruction to transmit the image data or the corrected image data;
The image data for which the transmission instruction is given or the corrected image data may be transmitted to the image server.
[0010]
In the first image data transmission method according to the present invention, a plurality of corrected image data corrected in a plurality of stages and the image data are divided and displayed on the display means,
Receiving an instruction to transmit the image data or the one corrected image data;
The image data for which the transmission instruction has been given or the one corrected image data may be transmitted to the image server.
[0011]
The “division display” may be time division or screen division.
[0012]
A second image data transmission method according to the present invention includes an imaging unit that acquires image data by imaging, a communication unit that transmits and receives data, and an image that obtains processed image data by performing image processing on the image data. In the method of transmitting image data in a portable terminal device comprising processing means and display means for performing various displays,
In response to an input of an image correction instruction for the processed image data, an image correction process is performed on the processed image data to obtain corrected image data;
The processing parameters of the image processing and the image correction processing are transmitted together with the image data to an image server that stores and manages the image data.
[0013]
A first portable terminal device according to the present invention includes an imaging unit that acquires image data by imaging, a communication unit that transmits and receives data, and an image process that performs image processing on the image data to obtain processed image data In a portable terminal device comprising means and display means for performing various displays,
Image correction means for receiving an image correction instruction for the processed image data and performing image correction processing on the processed image data to obtain corrected image data;
The image processing apparatus further includes control means for transmitting the image data or the corrected image data to an image server that stores and manages the image data or the corrected image data.
[0014]
In the first portable terminal device according to the present invention, the control unit divides and displays the image data and the corrected image data on the display unit, and transmits the image data or the corrected image data. A means for receiving an instruction and transmitting the image data for which the transmission instruction has been given or the corrected image data may be transmitted to the image server.
[0015]
Further, in the first portable terminal device according to the present invention, the control means divides and displays the plurality of corrected image data corrected in a plurality of stages and the image data on the display means, and the image data or It is also possible to accept a transmission instruction for one piece of the corrected image data and to send the image data for which the transmission instruction has been made or the one piece of corrected image data to the image server.
[0016]
A second portable terminal device according to the present invention includes an imaging unit that acquires image data by imaging, a communication unit that transmits and receives data, and an image process that performs image processing on the image data to obtain processed image data In a portable terminal device comprising means and display means for performing various displays,
Image correction means for receiving an image correction instruction for the processed image data and performing image correction processing on the processed image data to obtain corrected image data;
The image processing apparatus includes control means for transmitting processing parameters of the image processing and the image correction processing together with the image data to an image server that stores and manages the image data.
[0017]
Note that the first and second image data transmission methods according to the present invention may be provided as programs for causing a computer to execute the methods.
[0018]
【The invention's effect】
According to the first image data transmission method and the portable terminal device of the present invention, image processing is performed on the image data acquired by photographing in the image processing means to obtain processed image data. In response to an input of an image correction instruction from the user, the corrected image data is obtained by performing an image correction process on the processed image data. Then, the image data or the corrected image data is transmitted to the image server.
[0019]
Therefore, the corrected image data that reflects the user's intention of the mobile terminal device that is the photographer or the image data that reflects the user's intention that no image processing or image correction processing is performed in the mobile terminal device Can be sent to the server.
[0020]
Further, the image data and the corrected image data are divided and displayed on the display means, the transmission instruction of the image data or the corrected image data is received, and the image data for which the transmission instruction is given or the corrected image data is transmitted. By doing so, it is possible to transmit to the image server image data that reliably reflects the user's intention regarding image processing or corrected image data.
[0021]
Further, the image data and a plurality of corrected image data that have been subjected to image correction in a plurality of stages are divided and displayed on a display means, and an instruction to transmit image data or one corrected image data is received, and an image for which a transmission instruction has been made If the data or one corrected image data is transmitted, the image data reflecting the user's intention about the image processing or the one corrected image data can be transmitted to the image server. .
[0022]
According to the second image data transmission method and the portable terminal device of the present invention, image processing is performed on the image data acquired by photographing to obtain processed image data. In response to an input of an image correction instruction from the user, the corrected image data is obtained by performing an image correction process on the processed image data. Then, the processing parameters of the image correction process are added to the image data and transmitted to the image server.
[0023]
For this reason, it is possible to obtain corrected image data that reflects the intention of the user of the mobile terminal device that is the photographer by referring to the processing parameter at the image server or the image data transmission destination after the image server. .
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic block diagram illustrating a configuration of an image processing system including a mobile terminal device according to an embodiment of the present invention. As shown in FIG. 1, the image processing system according to the present embodiment includes a mobile phone with cameras 1 and 2, an image server 3 for storing and managing image data S0 acquired by the mobile phones with camera 1 and 2, and an image data S0. The image data S0 and various kinds of information are exchanged with the laboratory 4 that prints the image via the mobile phone communication network 5.
[0025]
The camera-equipped mobile phone 1 includes a camera 11 that acquires image data S0 by photographing, a communication unit 12 that transmits and receives the image data S0 and various information, and image data that has been processed by performing image processing on the image data S0. An image processing means 13 for obtaining S1, a liquid crystal monitor 14 for performing various displays such as images and telephone numbers, a controller 15 for controlling the operation of the camera-equipped mobile phone 1, and the use of image data S0 and / or as will be described later. Based on the image quality, the image processing location determining means 16 for determining the location where image processing is performed on the image data S0 and generating the location information B0, the shooting operation by the camera 11, the transmission instruction of the image data S0, the image data Designation of use of S0 and / or image quality, transmission destination of image data S0 or processed image data S1, and whether to perform print output An input unit 17 including a plurality of buttons for inputting various information such as designation of whether or not to store in the image server 3, an instruction for performing image processing on the image data S0, an image correction instruction, and the like, and a camera And an image correction unit 18 that performs an image correction process on the processed image data S1 in accordance with an input from the input unit 17 by the user of the mobile phone 1 to obtain corrected image data S1 ′.
[0026]
The camera-equipped mobile phone 2 includes a camera 21 that acquires image data S0 by photographing, a communication unit 22 that transmits and receives the image data S0 and various information, and image data that has been processed by performing image processing on the image data S0. The image processing means 23 for obtaining S2, the liquid crystal monitor 24 for performing various displays such as images and telephone numbers, the controller 25 for controlling the operation of the camera-equipped mobile phone 2, the use of the image data S0 and / or as described later Based on the image quality, the image processing location determining means 26 for determining the location where image processing is performed on the image data S0 and generating the location information B0, the shooting operation by the camera 21, the transmission instruction of the image data S0, the image data Designation of use of S0 and / or image quality, transmission destination of image data S0 or processed image data S2, and whether to perform print output Specifying whether keep stored in the image server 3, instruction when carrying out image processing on the image data S0. An image correction process is performed on the processed image data S2 in response to an input from the input unit 27 by a user of the camera-equipped mobile phone 2 and a plurality of buttons for inputting various information such as an image correction instruction. And image correction means 28 for obtaining corrected image data S2 ′.
[0027]
In the present embodiment, image data S0 is acquired by the camera-equipped mobile phone 1, image processing and image correction processing are performed on the image data S0, and the image data S0 or the corrected image data S1 ′ is converted into an image. Assume that it is transmitted to the server 3.
[0028]
Further, in this embodiment, the camera processing mobile phone 1 determines the image processing location where the image data S0 is subjected to image processing, and the camera mobile phone 2 is set as the transmission destination of the image data S0 or the corrected image data S1 ′. It shall be specified as one.
[0029]
The image processing unit 13 performs image processing such as density correction processing, white balance adjustment processing, gradation correction processing, color correction processing, and sharpness processing on the image data S0 to obtain processed image data S1. Note that the image processing means 13 cannot perform advanced image processing as much as the image processing means of the image server 3 and the laboratory 4 described later. Accordingly, the obtained processed image data S1 has no problem in displaying on a relatively small monitor such as the liquid crystal monitor 14, but is printed out or displayed on a large monitor such as a personal computer monitor. Is not suitable.
[0030]
The image processing location determination means 16 determines the location where image processing is performed on the image data S0 based on the use and / or image quality of the image data S0 input by the user of the camera-equipped mobile phone 1 from the input means 17. The location information B0 representing the location where image processing is performed is generated. For example, when it is input that the use of the image data S0 is to be displayed on a monitor of a mobile phone and / or when low-quality image is input, the image data S0 does not require so high image quality. The image processing place determination means 16 determines the image processing place in the camera-equipped mobile phone 1 and generates the place information B0. When transmitting the image data S0 to the camera-equipped mobile phone 2, the location information B0 may be generated by determining the image processing location as the camera-equipped mobile phone 2. In this case, the image processing location may be determined based on the transmission destination information of the image data S0 input from the input unit 17.
[0031]
The application and / or image quality may be input directly from the input means 17, but various applications and / or image quality are displayed on the liquid crystal monitor 14 so that the user can select the desired application and / or image quality. It may be.
[0032]
When the use of the image data S0 is storage in the image server 3, since the image data S0 is downloaded to a terminal device such as a personal computer and displayed on the monitor, it is printed out as the image data S0. Moderate image quality is required, though not so much. Therefore, when the use of the image data S0 is to be stored in the image server 3 and / or when the medium image quality is inputted, the image processing location determination means 16 has a medium value for the image data S0. Since image quality is required, the image processing location is determined by the image server 3 to generate location information B0.
[0033]
Further, when the use of the image data S0 is print output, the image data S0 is required to have high image quality. Further, when it is desired to make the image data S0 have high image quality, print output is often desired. Therefore, when the use of the image data S0 is print output and / or when high-quality is input, the image processing location determination means 16 requires high image quality for the image data S0. The image processing place is determined by the laboratory 4 and the place information B0 is generated.
[0034]
The image correcting unit 18 performs an image correction process on the processed image data S1 in accordance with an input from the input unit 17 by the user of the camera-equipped mobile phone 1 to obtain corrected image data S1 ′. Specifically, the overall density of the processed image data S1 displayed on the liquid crystal monitor 14, the density of each color (cyan, magenta, yellow), white balance, gradation, color, and sharpness are input from the input means 17 by the user. Correct based on the input. Here, the overall density, cyan density, magenta density and yellow density correction, white balance correction, gradation correction, color correction, and sharpness correction are assigned to each button constituting the input means 17. The user can correct the overall density, cyan density, magenta density, yellow density, white balance, gradation, color, and sharpness by operating predetermined input means.
[0035]
If the image processing location is the camera-equipped mobile phone 1 and no image correction is performed, the processed image data S1 is transmitted as it is to the image server 3, but the processed image data in this case S1 is also regarded as having been corrected with a correction amount of 0, and is referred to as corrected image data S1 ′.
[0036]
On the other hand, by operating the input means 17, the image data S0 and the corrected image data S1 'can be divided and displayed on the liquid crystal monitor 14. FIG. 2 is a diagram showing a state in which the image data S0 and the corrected image data S1 ′ are divided and displayed on the liquid crystal monitor 14. Since it is difficult to display the entire image data S0 and the corrected image data S1 ′ on the liquid crystal monitor 14 at a time, the original image represented by the image data S0 and the corrected image data S1 ′ are displayed. The center portion of the corrected image is trimmed and divided and displayed on the liquid crystal monitor 14. In order to clarify which image is the corrected image, “before correction” is displayed on the original image, and “after correction” is displayed on the corrected image.
[0037]
Instead of dividing and displaying the liquid crystal monitor 14, the original image and the corrected image may be alternately displayed on the liquid crystal monitor 14, as shown in FIG. In this case, the image displayed by the operation of the input unit 17 may be switched, but the original image and the corrected image may be switched and displayed alternately every predetermined time (for example, 2 seconds).
[0038]
Further, image data to be transmitted to the image server 3 is selected by the operation of the input unit 17 by the user of the camera-equipped mobile phone 1.
[0039]
The communication means 12 sends the image data S0 or the corrected image data S1 ′ to the destination information (eg, lab 4, camera-equipped mobile phone) that indicates the destination information B0 and the destination of the image data S0 or the corrected image data S1 ′. (E.g., the mail address of the friend of the user of the telephone 2 and the camera-equipped cellular phone 1) and the like are transmitted to the image server 3 via the cellular phone communication network 5. Note that when the use of the image data S0 is print output, receiving destination information indicating the receiving destination of the print (if it is sufficient to identify the other party, for example, a mobile phone number or the like may be transmitted).
[0040]
Here, the unprocessed image data S0 is transmitted when the image processing location is determined by the image server 3, the laboratory 4, and the camera-equipped mobile phone 2. On the other hand, when the image processing location is determined to be the camera-equipped mobile phone 1, the image processing means 13 performs image processing on the image data S0 to obtain processed image data S1, and as described above. The processed image data S1 is corrected to obtain corrected image data S1 ′, which is transmitted to the image server 3 together with the location information B0 (in this case, the camera-equipped mobile phone 1).
[0041]
The communication unit 22, the image processing unit 23, the image processing location determining unit 26, and the image correcting unit 28 of the camera-equipped mobile phone 2 are the communication unit 12, the image processing unit 13, the image processing location determining unit 16 and the image correcting unit 18. Has the same function.
[0042]
The image server 3 includes a communication unit 31 that transmits and receives various information such as the image data S0, an image processing unit 32 that performs image processing on the image data S0 to obtain processed image data S3, and the camera-equipped mobile phone 1 Storage means 33 for storing the image data S0 or corrected image data S1 ′ transmitted from the URL, URL generating means 34 for generating a URL representing the storage location of the image data S0 or corrected image data S1 ′, URL A mail creation unit 35 that creates an email to which the URL generated by the generation unit 34 is attached, and a controller 36 that controls the operation of the image server 3 are provided.
[0043]
When the image data S0 is transmitted from the camera-equipped mobile phone 1 and the image processing location based on the location information B0 is the image server 3, the image processing means 32 performs density correction processing and white balance adjustment on the image data S0. Processed image data S3 is obtained by performing image processing such as processing, gradation correction processing, color correction processing, and sharpness processing. Note that the image processing performed in the image processing means 32 is image processing for making the image quality suitable for displaying the processed image data S3 on the monitor.
[0044]
The storage unit 33 stores the corrected image data S1 ′ when the corrected image data S1 ′ is transmitted from the camera-equipped mobile phone 1. When the unprocessed image data S0 is transmitted and the image processing location based on the location information B0 is the image server 3, the processed image data S3 obtained by the image processing means 32 is stored. Furthermore, when the unprocessed image data S0 is transmitted, if the image processing location based on the location information B0 is the mobile phone with camera 2 or the laboratory 4, the unprocessed image data S0 is stored.
[0045]
The URL generation unit 34 generates a URL representing the storage location of the image data S0, the corrected image data S1 ′, or the processed image data S3.
[0046]
The mail creating unit 35 creates an e-mail to which the URL generated by the URL generating unit 34 is attached based on the destination information transmitted together with the image data S0 or the corrected image data S1 ′. The created e-mail is transmitted by the communication means 31 to the transmission destination based on the transmission destination information via the mobile phone communication network 5.
[0047]
The lab 4 includes a communication unit 41 that transmits and receives various information such as the image data S0, an image processing unit 42 that performs image processing on the image data S0 to obtain processed image data S4, and processed image data S4. A printer 43 that prints out and creates a print P, a notification means 44 that notifies the camera-equipped mobile phone 1 when the print P is created, and a controller 45 that controls the operation of the laboratory 4 are provided.
[0048]
When the lab 4 receives the e-mail transmitted from the image server 3, the communication unit 41 downloads the image data S 0 from the storage unit 33 of the image server 3 with reference to the URL given to the e-mail. At the same time as downloading the image data S0, the recipient information indicating the recipient of the print P is also downloaded.
[0049]
The image processing unit 42 performs image processing such as density correction processing, white balance adjustment processing, gradation correction processing, color correction processing, and sharpness processing on the image data S0 downloaded from the storage unit 33 of the image server 3. Processed image data S4 is obtained. Here, when an e-mail is transmitted to the lab 4, it is clear that the lab 4 performs image processing on the image data S0, but the image processing location is the lab 4 with reference to the location information B0. It is preferable to confirm. Note that the image processing performed in the image processing means 42 is image processing for making the image quality suitable for printing out the processed image data S4.
[0050]
When the print output of the processed image data S4 is completed, the notification unit 44 notifies the reception destination based on the reception destination information that the print output has been completed. The notification may be an e-mail or an automatic telephone call. Note that the operator of the lab 4 may make a notification by calling the recipient or sending an e-mail manually.
[0051]
When an e-mail is transmitted from the image server 3 to the camera-equipped mobile phone 2, the user of the camera-equipped mobile phone 2 accesses the storage means 33 of the image server 3 by referring to the URL, and the image data S0. Alternatively, the corrected image data S1 ′ is downloaded. When the corrected image data S1 ′ is downloaded, the corrected image data S1 ′ is displayed on the liquid crystal monitor 24 as it is. On the other hand, when the image data S0 is downloaded, the image processing unit 23 performs image processing on the image data S0 to obtain processed image data S2, which is displayed on the liquid crystal monitor 24. Further, by the operation of the user of the camera-equipped mobile phone 2, the image correction unit 28 performs image correction processing on the processed image data S 2 to obtain corrected image data S 2 ′, which is displayed on the liquid crystal monitor 24. Is done.
[0052]
When an e-mail with a URL indicating the storage location of the unprocessed image data S0 is transmitted to the camera-equipped mobile phone 2, the camera-equipped mobile phone 2 performs image processing on the image data S0. Obviously, it is preferable to confirm that the image processing place is the camera-equipped mobile phone 2 with reference to the place information B0.
[0053]
Here, processing performed in the image processing unit 13 and the image correction unit 18 will be described. FIG. 4 is a schematic block diagram showing processing performed in the image processing means 13 and the image correction means 18. First, processing performed in the image processing unit 13 will be described.
[0054]
As shown in FIG. 4, in the image processing means 13, since the image data S0 is compressed in the JPEG format or the like, the image data S0 is first decompressed and then the image data S0 is reduced. Then, based on the reduced image data S0 and the shooting conditions at the time of shooting given to the tag information of the image data S0, an image processing condition J for performing image processing on the image data S0 is calculated.
[0055]
Based on the calculated image processing condition J, density correction processing, white balance adjustment processing, gradation correction processing, color correction processing, and sharpness processing are performed to obtain processed image data S1. Although not based on the image processing condition J, enlargement processing for adjusting the size of the image represented by the image data S0 to the output size (print size, monitor size, etc.) is performed before the sharpness processing. Here, the enlargement process includes an enlargement process with a magnification of less than 1.
[0056]
Here, density correction processing and white balance adjustment processing correct exposure errors and white balance errors during shooting, and tone correction processing absorbs differences in contrast between scenes and prints during shooting, and color correction processing. Corrects the hue, saturation, and brightness of each color of RGB, and the sharpness processing corrects the sharpness of the image.
[0057]
In the image correction means 18, based on the input from the input means 17 by the user of the camera-equipped mobile phone 1, the density of the image represented by the processed image data S 1 (total density, cyan density, magenta density, Yellow density), white balance, gradation, color, and sharpness are corrected to obtain corrected image data S1 ′. Specifically, the degree of correction is increased according to the number of times the input unit is pressed, and the density (whole, cyan, magenta, yellow), white balance, gradation, color, and sharpness are corrected.
[0058]
Note that image processing is similarly performed in the image processing means 23 of the camera-equipped mobile phone 2, the image processing means 32 of the image server 3, and the image processing means 42 of the laboratory 4. Further, in the camera-equipped mobile phone 2, the image server 3, and the laboratory 4, the processed image data S2, S3, and S4 may be subjected to image correction processing in the same manner as the camera-equipped mobile phone 1. In the camera-equipped mobile phone 2, the image correction unit 28 performs image correction processing on the processed image data S2.
[0059]
Here, in the camera-equipped mobile phones 1 and 2 and the image server 3, there is a limitation on the transmission capacity and the display color of the display medium. Therefore, after the sharpness process in FIG. Color reduction processing for reducing the number of colors is performed to obtain processed image data S1, S2, corrected image data S1 ′, or processed image data S3. Here, since the color gamut of the liquid crystal monitors 14 and 24 of the camera-equipped mobile phones 1 and 2 is narrower than the color gamut of a monitor such as a personal computer, color reduction processing is performed so as to effectively use the narrow color gamut. Is called.
[0060]
Further, in the image processing means 13 and 23 of the camera-equipped mobile phones 1 and 2, the image data S <b> 0 is imaged by a simple calculation as compared with the image processing means 32 of the image server 3 or the image processing means 42 of the laboratory 4. Processing is performed. Further, the color correction process and the sharpness process may be omitted.
[0061]
On the other hand, the image processing means 42 of the laboratory 4 further performs a print output process for converting the image data after the sharpness processing into a device signal of the printer 43 as shown by the broken line after the sharpness processing in FIG. Completed image data S4 is obtained.
[0062]
Next, the operation of this embodiment will be described. FIG. 5 is a flowchart showing processing performed in the camera-equipped mobile phone 1. First, photographing is performed by the camera 11, and image data S0 is acquired (step S1). On the other hand, the input means 17 accepts the input of the use and / or image quality of the image data S0 by the user of the camera-equipped mobile phone 1 (step S2), and determines the image processing location based on the input use and / or image quality. The image processing location where image processing is performed on the image data S0 in the means 16 is determined, and location information B0 is generated (step S3).
[0063]
Then, the controller 15 refers to the location information B0 to determine whether the image processing location is the camera-equipped mobile phone 1 (step S4). If step S4 is affirmed, the image processing unit 13 performs image processing on the image data S0 to obtain processed image data S1 (step S5). The processed image data S1 is displayed on the liquid crystal monitor 14 (step S6). In addition, when step S4 is denied, it progresses to step S13 mentioned later.
[0064]
Subsequently, monitoring of whether or not an image correction instruction has been made by the user of the camera-equipped mobile phone 1 is started (step S7). When step S7 is affirmed, the image correction means 18 performs processing on the processed image data S1. Then, the image correction process is performed to obtain corrected image data S1 ′ (step S8), which is displayed on the liquid crystal monitor 14 (step S9).
[0065]
Then, it is determined whether or not a split display instruction has been given by the user (step S10). If step S10 is affirmed, the original image represented by the image data S0 and the corrected image data S1 ′ are represented. The corrected image is divided and displayed on the liquid crystal monitor 14 (step S11). If step S10 is negative, the process returns to step S7.
[0066]
Next, monitoring of whether or not the original image or the corrected image has been selected is started (step S12). When step S9 is affirmed, monitoring of whether or not a transmission instruction has been issued by the user is started (step S13). If the determination in step S13 is affirmative, the image data S0 or the corrected image data S1 ′ is transmitted to the image server 3 together with the location information B0, the destination information, and the destination information of the print P when requesting print output ( Step S14) and the process is terminated.
[0067]
FIG. 6 is a flowchart showing processing performed in the image server 3. First, image data S0 or corrected image data S1 ′ transmitted from the camera-equipped mobile phone 1 is received (step S21), and based on the location information B0 given to the image data S0 or corrected image data S1 ′. Thus, the image processing location for the image data S0 is determined (step S22).
[0068]
If it is determined that the image processing location is the camera-equipped mobile phone 1, since the corrected image data S1 'has been transmitted, the corrected image data S1' is stored in the storage means 33 (step S23). When it is determined that the image processing place is the camera-equipped mobile phone 2 or the laboratory 4, the unprocessed image data S0 is stored in the storage unit 33 (step S24). When it is determined that the image processing place is the image server 3, the image processing unit 32 performs image processing on the image data S0 to obtain processed image data S3 (step S25). Data S3 is stored in the storage means 33 (step S26).
[0069]
When the image data S0, the corrected image data S1 ′, or the processed image data S3 is stored, the URL generation unit 34 determines the storage location of the image data S0, the corrected image data S1 ′, or the processed image data S3. A URL to represent is generated (step S27). Then, an e-mail with a URL is created by the mail creating means 35 (step S28), and the e-mail is sent to the destination corresponding to the destination information sent together with the image data S0 or the corrected image data S1 ′. (Step S29), the process is terminated.
[0070]
When the destination of the e-mail is the camera-equipped mobile phone 2, it is electronic whether the URL given to the e-mail is that of the image data S0 or the corrected image data S1 ′. Described in the email.
[0071]
FIG. 7 is a flowchart showing processing performed in the laboratory 4. First, an e-mail transmitted from the image server 3 is received (step S31). Next, the communication means 41 accesses the URL given to the e-mail (step S32), and the image data S0 is downloaded (step S33). Then, the image processing unit 42 performs image processing on the image data S0 to obtain processed image data S4 (step S34). The processed image data S4 is printed out by the printer 43 to obtain a print P (step S35). When the print output is completed, the notification means 44 notifies the recipient of the print P that the print output has been completed (step S36), and the process ends.
[0072]
Note that the print P is sent to the lab 4 by the user of the receiving destination (for example, the camera-equipped mobile phone 1) who receives the notification, or is delivered from the lab 4 to the user.
[0073]
FIG. 8 is a flowchart showing processing performed in the camera-equipped mobile phone 2. First, an e-mail transmitted from the image server 3 is received (step S41). Next, the communication means 41 accesses the URL given to the e-mail (step S42), and the image data S0 or the corrected image data S1 'is downloaded (step S43).
[0074]
Then, based on the description of the e-mail, it is determined whether or not the downloaded image data is unprocessed image data S0 (step S44). If step S44 is affirmed, unprocessed image data S0 is downloaded. Therefore, the image processing means 23 performs image processing on the image data S0 to obtain processed image data S2 (step S45). The processed image data S2 is displayed on the liquid crystal monitor 24 (step S46), and the process ends.
[0075]
On the other hand, if step S44 is negative, the corrected image data S1 'has been downloaded, so that the corrected image data S1' is displayed on the liquid crystal monitor 24 (step S46), and the process ends.
[0076]
As described above, in the present embodiment, the processed image data S1 obtained by the image processing unit 13 of the camera-equipped mobile phone 1 is subjected to image correction processing in accordance with an instruction from the user of the camera-equipped mobile phone 1 and corrected. Since the processed image data S1 ′ is obtained, the corrected image data S1 ′ reflecting the intention of the user of the camera-equipped mobile phone 1 or the camera-equipped mobile phone 1 is not subjected to image processing or image correction processing. The image data S0 reflecting the user's intention can be transmitted to the image server 3.
[0077]
Further, the image data S0 and the corrected image data S1 ′ are divided and displayed on the liquid crystal monitor 14, an instruction to transmit the image data S0 or the corrected image data S1 ′ is received, and the image data S0 to which the transmission instruction is given or the correction process If the completed image data S1 ′ is transmitted, the image data S0 or the corrected image data S1 ′ that reliably reflects the user's intention regarding the image processing can be transmitted to the image server 3.
[0078]
In the above embodiment, only the image data S0 and one corrected image data S1 ′ are displayed on the liquid crystal monitor 14, but a plurality of corrected image data and image data corrected in a plurality of stages are displayed. S0 may be divided and displayed on the liquid crystal monitor 14. For example, when three pieces of corrected image data corrected in three stages are obtained, the liquid crystal monitor 14 is divided into four as shown in FIG. 9, and the original image before correction and three corrected images (each after correction 1). To 3) may be displayed. Further, as shown in FIG. 10, these four images may be sequentially displayed on the liquid crystal monitor 14.
[0079]
Further, in the above-described embodiment, the corrected image data S1 ′ is transmitted to the image server 3, but the image processing parameters necessary for obtaining the image data S0 and the corrected image data S1 ′ are set as the image data S0. May be transmitted to the image server 3. In this case, as shown in FIG. 11, the camera-equipped mobile phone 1 includes an image processing parameter assigning unit 19 that assigns the image processing parameter P to the image data S0. Further, the image processing parameter P may be transmitted to the image server 3 as a file separate from the image data S0.
[0080]
In the above embodiment, one of the transmission destinations of the image data S0 or the corrected image data S1 ′ is the mobile phone 2 with a camera, but a mobile terminal device such as a mobile phone without a camera or a PDA (not shown). ) Etc.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing a configuration of an image processing system including a mobile terminal device according to an embodiment of the present invention.
FIG. 2 is a diagram showing a display form of an original image and a corrected image (No. 1)
FIG. 3 is a diagram showing a display form of an original image and a corrected image (No. 2)
FIG. 4 is a schematic block diagram showing processing performed in image processing means and image correction means.
FIG. 5 is a flowchart showing processing performed in the camera-equipped mobile phone 1;
FIG. 6 is a flowchart showing processing performed in the image server.
FIG. 7 is a flowchart showing processing performed in a laboratory.
FIG. 8 is a flowchart showing processing performed in the camera-equipped mobile phone 2;
FIG. 9 is a diagram illustrating a display form of an original image and a corrected image (part 3);
FIG. 10 is a diagram showing a display form of an original image and a corrected image (part 4);
FIG. 11 is a schematic block diagram showing a configuration of a mobile terminal device according to another embodiment of the present invention.
[Explanation of symbols]
1, 2 Mobile phone with camera
3 Image server
4 Lab
5 Mobile phone communication network
11, 21 camera
12, 22, 31, 41 Communication means
13, 23, 32, 42 Image processing means
14,24 LCD monitor
15, 25, 36, 45 Controller
16, 26 Image processing location determining means
17, 27 Input means
18 Image correction means
19 Image processing parameter assigning means
33 Storage means
34 URL generation means
35 Mail creation means
43 Printer
44 Notification means

Claims (12)

Image capturing means for acquiring image data by image capturing, communication means for transmitting / receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In the method of transmitting image data in a portable terminal device comprising:
In response to an input of an image correction instruction for the processed image data, an image correction process is performed on the processed image data to obtain corrected image data;
An image data transmission method comprising: transmitting the image data or the corrected image data to an image server that stores and manages the image data or the corrected image data. The image data and the corrected image data are divided and displayed on the display means,
Receiving an instruction to transmit the image data or the corrected image data;
2. The image data transmission method according to claim 1, wherein the image data for which the transmission instruction has been made or the corrected image data is transmitted to the image server. A plurality of corrected image data corrected in a plurality of stages and the image data are divided and displayed on the display means,
Receiving an instruction to transmit the image data or the one corrected image data;
2. The image data transmission method according to claim 1, wherein the image data for which the transmission instruction has been made or the one corrected image data is transmitted to the image server. Image capturing means for acquiring image data by image capturing, communication means for transmitting / receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In the method of transmitting image data in a portable terminal device comprising:
In response to an input of an image correction instruction for the processed image data, an image correction process is performed on the processed image data to obtain corrected image data;
A method for transmitting image data, wherein the processing parameters of the image processing and the image correction processing are transmitted together with the image data to an image server that stores and manages the image data. Image capturing means for acquiring image data by image capturing, communication means for transmitting and receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In a mobile terminal device comprising:
Image correction means for receiving an image correction instruction for the processed image data and performing image correction processing on the processed image data to obtain corrected image data;
A portable terminal device further comprising control means for transmitting the image data or the corrected image data to an image server that stores and manages the image data or the corrected image data. The control means divides and displays the image data and the corrected image data on the display means, receives a transmission instruction of the image data or the corrected image data, and receives the transmission instruction of the image data or 6. The portable terminal device according to claim 5, wherein the portable terminal device is means for transmitting the corrected image data to the image server. The control means divides and displays a plurality of corrected image data corrected in a plurality of stages and the image data on the display means, accepts an instruction to transmit the image data or one corrected image data, 6. The portable terminal device according to claim 5, wherein the portable terminal device is means for transmitting the image data for which the transmission instruction has been given or the one corrected image data to the image server. Image capturing means for acquiring image data by image capturing, communication means for transmitting and receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In a mobile terminal device comprising:
Image correction means for receiving an image correction instruction for the processed image data and performing image correction processing on the processed image data to obtain corrected image data;
A portable terminal device comprising: control means for transmitting processing parameters of the image processing and the image correction processing together with the image data to an image server that stores and manages the image data. Image capturing means for acquiring image data by image capturing, communication means for transmitting and receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In a program for causing a computer to execute the image data transmission method in a portable terminal device comprising:
A procedure for receiving an image correction instruction for the processed image data and performing an image correction process on the processed image data to obtain corrected image data; and the image data or the corrected image data And a procedure for transmitting the image data or the corrected image data to an image server that stores and manages the image data. A procedure for dividing and displaying the image data and the corrected image data on the display means;
A procedure for receiving an instruction to transmit the image data or the corrected image data;
The program according to claim 9, wherein the transmitting procedure is a procedure of transmitting the image data for which the transmission instruction has been given or the corrected image data to the image server. A plurality of corrected image data corrected in a plurality of stages and a procedure for dividing and displaying the image data on the display means;
A procedure of receiving an instruction to transmit the image data or one of the corrected image data,
The program according to claim 9, wherein the transmitting procedure is a procedure of transmitting the image data for which the transmission instruction is given or the one corrected image data to the image server. Image capturing means for acquiring image data by image capturing, communication means for transmitting and receiving data, image processing means for performing image processing on the image data to obtain processed image data, and display means for performing various displays In a program for causing a computer to execute the image data transmission method in a portable terminal device comprising:
A procedure of receiving an image correction instruction for the processed image data and performing image correction processing on the processed image data to obtain corrected image data; and processing parameters of the image processing and the image correction processing And a procedure for transmitting the image data together with the image data to an image server that stores and manages the image data.

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