JP2004072668A - Image data management system, image conversion server, image data processing method, computer readable storage medium and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To freely maintain an image data management system environment with excellent convenience under which a management server can perform unitary management of image data with aligned data form by automatically distributing the image data in an appropriate data form to a specified image management server. <P>SOLUTION: This image data management system is constituted so that an image conversion server 1 refers to a management table registered in a memory 306 with respect to original image data to be inputted from an image input PC via a communication part 304, an image conversion part 302 selects either of a conversion processing program 302-1 or a conversion processing program 302-2, converts the selected program into a predetermined image data form and transfers an image data set including at least an original image data and image data after conversion from the communication part 304 to another image management server under the management of a control part 301. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image data management system, an image conversion server, and an image conversion server including an image conversion server that converts digital original image data captured by an imaging device such as a digital camera into general-purpose image data that can be easily browsed and transfers the image data. The present invention relates to a data processing method, a computer-readable storage medium, and a program.
[0002]
[Prior art]
Conventionally, in a system for managing image data, for example, when managing photographs relating to competitions and the like under the control of a specific group, a contract professional photographer takes a picture with a camera, and a negative or positive film original is taken by a management group that contracts the contract. It is managed in such a manner that the film is lent out in order to reproduce it for the purpose of printing or the like in response to inquiries from the news media such as publishers and newspaper publishers.
[0003]
In this management form, since the photographic image data is not digitized, there is an inconvenience such as manual search, but on the other hand, the image of the photographic image is identified because the image of the negative or positive film is directly seen. There was an advantage that it was easy to do.
[0004]
[Problems to be solved by the invention]
However, in recent years, digital cameras have been improved in image quality, and there have been cases where professional photographers take pictures using digital cameras, and cases that do not match the above-described film management system have occurred.
[0005]
For example, an image taken by a professional cameraman with a digital camera is mostly in a reversible compression image data format in order to reduce the size of image data stored in a memory or the like without causing image deterioration.
[0006]
However, most of the lossless compression methods are independently developed by digital camera manufacturers, and it is difficult to confirm the contents of an image without dedicated driver software corresponding to each company's unique method. That is, it is difficult to confirm the contents of an image, which is easy with the conventional management form.
[0007]
Further, depending on the model of the digital camera, image data that can be confirmed on the display unit of the digital camera is created at the time of photographing together with the reversible compressed image data, so that it can be confirmed on the display unit. Therefore, the reversible compressed image data photographed by the digital camera cannot be viewed without using specially created driver software on the PC or using an image created for viewing on the display unit of the digital camera.
[0008]
In other words, in order for the professional cameraman to easily view the image data captured by the digital camera on the PC, the professional cameraman can view the image data when the professional cameraman sends it to the contractor via the network or at the contractor who has received the image data. There was a drawback that it was necessary to convert and troublesome work was necessary.
[0009]
Japanese Patent Laid-Open No. 2001-285756 discloses an image storage and provision system, which discloses a system for storing indexed image files in a database and providing a headline image to a person who wants to browse. In this system, a technique for saving the trouble of creating a browse image on a PC by an image provider who takes an image with a digital camera is disclosed.
[0010]
In this case, a browsing image is created at the time of shooting with a digital camera, or when the server receives image data without a browsing image, the browsing image is created on the server. However, these methods do not correspond to transferring image data to various management systems, and cannot be adapted to an individually determined image management system.
[0011]
Further, in the above-described conventional negative / positive film original plate management system, there is no cooperation with a mechanism for selling photographed photographs of professional photographers on the Web.
[0012]
For example, Japanese Patent Laid-Open No. 2002-49798 discloses a system for browsing and purchasing a photograph taken by a photographer on the Web. Since photography with a digital camera is possible, photos can be handled as electronic data, making it easy to sell them on the Web. However, as described above, image data taken by professional photographers is a manufacturer's original lossless compression. In the case of the method, the data cannot be browsed on the Web as it is, and there is a disadvantage that troublesome work of image conversion occurs.
[0013]
The present invention has been made to solve the above problems, and an object of the present invention is to provide an image conforming to the image data format requested by the management server in accordance with the information of the input person of the input original image data. By converting the data into data and transferring an image data set including at least the original image data and the converted image data to another management server, the image data uploader can simply input the original image data. The image data that conforms to the data format that the management server should manage is automatically converted and generated, and even if the data format is different for each management server, the data processing by the original image data provider is unnecessary, A highly convenient image that allows the management server to centrally manage the image data in the data format by automatically distributing the image data in the data format to the designated management server. Is that the image data management system and an image conversion server and the image data processing method, and a computer that can establish freely data management environment to provide a storage medium and a program reading.
[0014]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided input means for inputting original image data, and conversion means for converting the original image data into a predetermined image data format (conversion processing application of the image conversion unit 302 shown in FIG. 3). 302-1 and 302-2) and transfer means (corresponding to the communication unit 304 shown in FIG. 3) for transferring an image data set including at least the original image data and the converted image data to another management server. An image management server (shown in FIG. 1) having an image conversion server (image conversion server 1 shown in FIG. 1) and receiving means (corresponding to the communication unit 304 shown in FIG. 3) for receiving the image data set from the image conversion server. Image management servers 3A and 3B) shown in FIG.
[0015]
According to a second aspect of the present invention, in the image conversion server, the input original image data is stored in a memory (corresponding to the memory 306 shown in FIG. 3) in the storage means (in the memory control unit 305 shown in FIG. 3). The image management server includes transmission means (communication unit 504 shown in FIG. 8) for transmitting a normal reception completion signal indicating normal reception completion of the image data set to the image conversion server, The image conversion server includes a deletion unit (corresponding to the memory control unit 305 shown in FIG. 3) that deletes at least the original image data from the memory after receiving the normal reception completion signal.
[0016]
According to a third aspect of the present invention, the image conversion server has a plurality of conversion means (corresponding to the conversion processing applications 302-1 and 302-2 of the image conversion unit 302 shown in FIG. 3). The input means is an input means capable of inputting data indicating a transfer destination of the original image data, and a selection means (FIG. 5) for selecting a predetermined conversion means from the plurality of conversion means according to the transfer destination. Steps S812 to S814 shown in FIG. 10 executed by the control unit 301 shown in FIG.
[0017]
According to a fourth aspect of the present invention, the converted image data is image data converted into a format viewable in a web browser.
[0018]
According to a fifth aspect of the present invention, the image data format is determined based on file attributes including resolution, size, and format.
[0019]
A sixth invention according to the present invention is characterized in that the image data is captured by a digital camera and stored in a removable memory medium.
[0020]
According to a seventh aspect of the present invention, the input means includes a plurality of types of data read drivers, and the original image data is input by one of the drivers according to identification information added to the image data. .
[0021]
According to an eighth aspect of the present invention, there is provided an input unit for inputting original image data together with information indicating a data transfer destination, a storage unit for storing the input original image data in a memory, and the original image data different from each other. An image conversion server (image conversion server shown in FIG. 1) having a plurality of conversion means for converting to an image data format and transfer means for transferring an image data set including at least original image data and converted image data to another management server 1) and an image management server having a receiving means for receiving an image data set including converted image data from the image conversion server, wherein the image conversion server matches the transfer destination. And selecting means for converting image data by selecting at least one conversion means from the plurality of conversion means (the control unit 301 shown in FIG. Characterized by having a step S812～S814) shown in FIG. 10 to the row.
[0022]
According to a ninth aspect of the present invention, there is provided an image conversion server capable of receiving original image data from an information processing apparatus, and a plurality of conversion means for converting the original image data into a predetermined image data format (FIG. 3). And transfer means for transferring an image data set including at least original image data and converted image data to another management server (equivalent to the conversion processing applications 302-1 and 302-2 of the image conversion unit 302 shown in FIG. 10). Step S818) shown in FIG.
[0023]
According to a tenth aspect of the present invention, there is provided a selection means for selecting any conversion means based on the attribute management table for the original image data and a management server based on the attribute management table for the original image data. And transfer means for transferring the converted image data.
[0024]
In an eleventh aspect of the present invention, the attribute management table includes a digital camera model name, transfer destination information, storage destination information, and image conversion method designation information for each user.
[0025]
According to a twelfth aspect of the present invention, there is provided an image data processing method in an image conversion server capable of receiving original image data from an information processing apparatus, wherein the original image data is converted into a predetermined image data format. Alternatively, a second conversion step (step S815 shown in FIG. 10) and a selection step (steps S812 to S814 shown in FIG. 10) for selecting the first or second conversion step based on the attribute management table of the original image data. And a transfer step (step S818 shown in FIG. 10) for transferring an image data set including at least the original image data and the image data converted by the first or second conversion step to another management server. Features.
[0026]
A thirteenth aspect of the present invention is characterized in that it includes a deletion step of deleting the converted image data after the transfer of the image data set in the transfer step.
[0027]
A fourteenth aspect of the present invention includes a determination step of determining whether or not the original image data is to be transferred, and the first or second conversion step includes converting the original image data by the determination step. When it is determined that the data is to be transferred, the original image data is converted into a predetermined image data format.
[0028]
The fifteenth aspect of the present invention is characterized in that the determining step determines whether or not to transfer based on the image quality of the original image data.
[0029]
A sixteenth aspect of the present invention is characterized in that a program for realizing the image data processing method according to any of the twelfth to fifteenth aspects is stored in a storage medium.
[0030]
A seventeenth aspect of the present invention is a program for realizing the image data processing method according to any one of the twelfth to fifteenth aspects.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
FIG. 1 is a system configuration diagram showing an example of an image data management system according to the present invention. For example, an image conversion server, an image management server, and an image sales server connected via a network constituted by the Internet, a public line, or the like. This corresponds to a system example including a personal computer of an image purchaser (hereinafter referred to as purchaser PC), a personal computer for image data input (hereinafter referred to as image input PC), and a digital camera.
[0032]
In FIG. 1, an image conversion server 1 receives lossless compressed image data (original image data) captured by a digital camera 6 via an image input PC 2 and converts it into general-purpose image data. The image conversion server 1 transfers original image data and converted image data (hereinafter simply referred to as general-purpose image data) to the image management server 3A or 3B as a set. As will be described later, the general-purpose image data refers to an image converted into a general-purpose image format such as JPEG.
[0033]
The image management server 3A or the image management server 3B stores and manages original image data, general-purpose image data, and shooting information data (shooting date and time, shooting conditions such as aperture and shutter speed) as a set. The image sales server 4 is a Web server for selling original image data or general-purpose image data managed by the image management server 3A or the image management server 3B. 5), a function that allows browsing of images on the Web and purchasing desired images is provided.
[0034]
FIG. 2 is a block diagram illustrating a hardware configuration example of the image conversion server 1, the image input PC 2, the image management server 3A or 3B, the image sales server 4, and the purchaser PC 5 illustrated in FIG. These are realized by general-purpose personal computers or workstations.
[0035]
In FIG. 2, the CPU 201 comprehensively controls each device connected to the system bus 204. In addition, the ROM 202 or the external memory 211 stores an operating system program (hereinafter referred to as OS) that is a control program of the CPU 201, a program necessary for realizing a function executed by each server or each PC, and the like. The RAM 203 functions as a main memory, work area, and the like for the CPU 201.
[0036]
A keyboard controller (KBC) 205 controls key input from a keyboard (KB) 209 or a pointing device (not shown). A CRT controller (CRTC) 206 controls display on a CRT display (CRT) 210. These are used by the administrator as necessary, and are not directly related to the present invention.
[0037]
The external memory controller (MC) 207 is a hard disk (HD), flexible disk (FD) or the like that stores a boot program, various applications, font data, user files, edit files, a printer control command generation program (hereinafter referred to as a printer driver), and the like. Controls access to an external memory 211 such as a compact flash (registered trademark) card memory connected to the PCMCIA card slot via an adapter.
[0038]
The communication I / F controller 208 is connected to an external device via a network and executes communication control processing on the network. Note that the CPU 201 enables display on the CRT 210 by executing outline font rasterization processing on a display information area in the RAM 202, for example. In addition, the CPU 201 enables a user instruction with a mouse cursor (not shown) on the CRT 210.
[0039]
In addition, a program for compressing / decompressing image data is stored in the external memory 211, and the image data can be compressed using various compression methods, and the compressed file can be expanded. .
[0040]
3 to 6 show functional blocks in the image conversion server 1, the image management servers 3A and 3B, the image sales server 4, the purchaser PC 5, and the image input PC 2. FIG. Here, even if the hardware configuration described in FIG. 2 is provided, functions not directly related to the present embodiment are omitted.
[0041]
FIG. 3 is a block diagram for explaining the functional configuration of the image conversion server 1 shown in FIG. 1, and an image realized by the CPU executing the hardware configuration and the ROM and the program in the external memory 211 shown in FIG. 2. This corresponds to a functional configuration example in the conversion server 1.
[0042]
In FIG. 3, a control unit 301 controls the respective functional units of the image conversion server. An image conversion unit 302 performs image conversion processing on original image data captured by a digital camera.
[0043]
The image conversion unit 302 has a plurality of image conversion processing applications as shown in the figure, and the conversion processing program (conversion processing application) 302-1 or the conversion processing program 302-2 is different from the original image data. Implement image conversion processing.
[0044]
For example, the image conversion processing program 302-1 expands the original image data that is reversibly compressed using the original Huffman table based on the Huffman table, and performs resolution conversion and size conversion on the expanded image data. This is a series of conversion processes for creating general-purpose image data by applying JPEG compression.
[0045]
The image conversion processing application 302-2 is different from the above-described image conversion processing application 302-1 in decompression processing from different lossless compressed image data, different resolution conversion and size conversion processing, or conversion to different general-purpose image formats (compression compression). Different general-purpose image data is created. In addition, as a unique lossless compression, a method of performing compression such as using a dither cycle and giving a small code amount to a long cycle can be considered.
[0046]
General-purpose image formats (including compression) include TIFF, GIF, PING, JBIG, JPEG2000, BMP and the like in addition to JPEG. In addition, it goes without saying that for these processes, it is necessary to register in advance an image display driver application provided by a digital camera manufacturer in advance for each manufacturer and each model in the image conversion unit.
[0047]
The Web function unit 303 serves as a Web server for providing a screen necessary for inputting original image data to an image data input person (user). A communication unit 304 can communicate with an external device via the Internet using the TCP / IP protocol, and also performs communication such as file transfer using the FTP protocol.
[0048]
The memory control unit 305 controls writing and reading of the memory 306 including RAM, HD (hard disk), FD (flexible disk), CF card memory (compact flash (registered trademark)), and the like.
[0049]
FIG. 4 is a diagram showing an example of a user information table registered in the memory 306 of the image conversion server 1 shown in FIG.
[0050]
In the user information table in FIG. 4, for example, a user (image data input side or image data management side) needs to make the following settings in the image conversion server 1.
[0051]
The data necessary for the setting includes an input person name D1 for inputting an image, a user ID D2, a password D3 used by the input person, a model name D4 of the digital camera used by the input person, and a transfer destination (transfer destination name) of the image set data. Data indicating D5, storage destination D6, and image conversion processing designation (image conversion processing) D7. In the image conversion server 1, when a model name and a transfer destination (management destination) are set, an image conversion process necessary for creating general-purpose image data from a model-specific original image data storage method and a transfer destination management method is performed. Set. As a setting method of the image conversion process, the user selects from the conversion processes prepared in advance in the image conversion server, or the conversion process program created by the user is directly uploaded to the image conversion server 1 and registered. This is also possible.
[0052]
FIG. 5 is a diagram showing an example of a table showing the relationship between the model DD1 of the digital camera 6 shown in FIG. 1 and the corresponding driver application DD2 necessary for browsing the captured image on the PC.
[0053]
FIG. 6 shows an image management organization which is a transfer destination DDD1 of image data to be transferred by the image conversion server 1 shown in FIG. It is a figure which shows an example of the table which shows correspondence of these.
[0054]
For example, a digital camera 6 of company C is registered in advance as a model used for photographing by a cameraman or the like, and a soccer photo management organization server is registered as a management source of image data as a transfer destination.
[0055]
In the image conversion server 1, a driver application for the digital camera 6 of company C is installed in advance on the memory 306 shown in FIG. 3, and the soccer photo management group server further displays vertical image data as general-purpose image data at, for example, 100 dpi. It is registered in advance that management is performed using the JPEG format with an image size of 50 mm × width 50 mm.
[0056]
Based on these pieces of information, the original image data is decompressed by the driver application, and the image conversion unit 302 converts any one of the conversion processing applications 302-1 and 302-2 into the desired size of the decompressed image data. As the soccer photo management organization server is registered as the image conversion processing application 302-1 as determined by the table shown in FIG. 4, the image data after size conversion is selected. A conversion process for JPEG compression is executed.
[0057]
It is possible to manage different organizations with different image sizes, manage with different formats, etc., and the image conversion processing corresponding to them is registered in the table as shown in FIG. And the image conversion process most suitable for the transfer destination is executed from the transfer destination information.
[0058]
FIG. 7 is a block diagram illustrating the functional configuration of the image input PC 2 or the purchaser PC 5 illustrated in FIG. 1. Each functional unit uses the hardware configuration illustrated in FIG. 2 and programs in the ROM 202 and the external memory 211. Is realized by the CPU 201 executing the above.
[0059]
In FIG. 7, a control unit 401 controls the respective function units of the image input PC or the purchaser PC in an integrated manner. The browser function unit 402 communicates with the Web server, converts the received HTML file into display data, transmits parameters used in the CGI, executes plug-in software created by Java (registered trademark), etc. It has a function. The input / output control unit 403 realizes an external interface function, and performs data input / output control with an external device such as a digital camera using USB, 1394, parallel, RS-232C, SCSI, or the like. Some digital cameras have a large amount of built-in memory, and image data stored in the digital camera is input under the control of the input / output control unit 403.
[0060]
The card reader unit 404 is for reading data in a CF card memory used in the digital camera 6. In the case of a notebook personal computer, data on the card can be read by inserting a CF card into the PCMCIA socket using an adapter.
[0061]
The communication unit 405 can communicate with an external device via the Internet using the TCP / IP protocol, and performs communication such as file transfer using the FTP protocol. The memory 406 is used for storing image data and a work memory.
[0062]
The display unit 407 visually presents various display data such as the display data created by the browser function unit 402 to the user. The data input unit 408 includes a keyboard and a mouse, and is used by the user to input data. Reference numeral 409 denotes a system bus that allows access to each of the devices 401 to 408.
[0063]
FIG. 8 is a block diagram for explaining the functional configuration of the image management servers 3A and 3B shown in FIG. 1. The CPU 201 executes the hardware configuration shown in FIG. This implements the functional unit.
[0064]
In FIG. 8, a control unit 501 controls each function unit in an integrated manner. A memory 502 temporarily stores image data or is used as a work memory for the CPU. Part of the storage area of the memory 502 is preferably non-volatile using NVRAM.
[0065]
The image storage unit 503 is for storing image data transmitted from the image conversion server. The communication unit 504 can communicate with an external device via the Internet using the TCP / IP protocol, and also performs communication such as file transfer using the FTP protocol.
[0066]
The image management unit 505 is for managing image data in the image storage unit 503, and creates, modifies, and references an image data management table in the memory 502, and reads and writes image data to and from the image storage unit 503. Control is performed. The reception monitoring unit 506 is for monitoring whether or not the image data transmitted from the image conversion server has been reliably received. Reference numeral 507 denotes a system bus that enables access to the devices 501 to 506. It is also within the scope of the present invention that the functions of the servers 3A and 3B are integrated and provided as a service managed by each service organization for each organization as an ASP. In this case, a different image conversion process is registered for each management destination in the ASP as a transfer destination.
[0067]
FIG. 9 is a block diagram for explaining the functional configuration of the image sales server 4 shown in FIG. 1, and the CPU 201 executes the hardware configuration shown in FIG. Is realized.
[0068]
In FIG. 9, the control unit 601 controls each functional unit in an integrated manner. The Web function unit 602 is for realizing a function as a Web server, such as providing a screen necessary for purchasing image data to a purchaser of image data. The communication unit 603 can communicate with an external device via the Internet using the TCP / IP protocol, and also performs communication such as file transfer using the FTP protocol.
[0069]
The memory control unit 604 controls writing and reading of the memory 605 including RAM, HD (hard disk), FD (flexible disk), CF card memory (compact flash (registered trademark)), and the like. Reference numeral 606 denotes a system bus that enables access to the devices 601 to 605.
[0070]
FIG. 10 is a flowchart showing an example of a first data processing procedure in the image data management system according to the present invention. The image input PC 2 shown in FIG. This corresponds to an operation procedure of uploading original image data to a server and transferring the converted image data to the image management server 3A or 3B. Note that (S801) to (S818) indicate each step, and the procedure corresponding to each step is stored in the memory 406 of the image input PC 2 or the memory 306 of the image conversion server 1, and this is stored in the control units 401 and 301. Are read and executed.
[0071]
Before performing this operation, the image input PC 2 is a digital camera or a compact flash (registered trademark) memory that stores images taken by the digital camera via the input / output control unit 403 based on the control of the control unit 401. The image data is read from the storage medium and stored in the memory 406.
[0072]
Further, in FIG. 10, the process on the image input PC 2 side is on the left side of the broken line at the center, and the process on the image conversion server 1 side is on the right side.
[0073]
First, in step S <b> 801, the image input PC 2 starts communication via the communication unit 405 to the image conversion server 1 having a specific URL using the browser function unit 402. In step S <b> 802, the image conversion server 1 that has received the connection request transmits a user authentication screen to the image input PC 2.
[0074]
In step S <b> 803, the user of the image input PC 2 inputs his / her user ID and password registered in advance using the data input unit 409 and transmits them to the image conversion server 1 via the communication unit 405. In step S804, the image conversion server 1 performs user authentication from the user ID D2 and password D3 (see FIG. 4) received under the control of the control unit 301. After user authentication, the image conversion server 1 stores the user information table (FIG. 4) in step S805. Searching is performed, and the registered image transfer destination selection screen is transmitted to the image input PC 2 via the communication unit 304.
[0075]
In step S806, the user of the image input PC 2 selects an image transfer destination from the selection screen, and transmits the selected transfer destination to the image conversion server 1.
[0076]
The image conversion server 1 stores the transfer destination data received in step S807 in the memory 306 by the memory control unit 305, and transmits a screen for prompting image transmission to the image input PC 2 in step S808.
[0077]
In step S 809, the image input PC 2 displays the image transmission received via the communication unit 405 on the display unit 407, and the user confirms a screen that prompts transmission and uses the data input unit 408 to check the original image. Data is designated, and the original image data and its photographing condition data are transferred to the image conversion server 1 by FTP.
[0078]
In step S810, the control unit 401 determines whether transmission of all of the original image data and shooting condition data specified in step S809 has ended. When transmission of all of the original image data and shooting condition data has ended, the image input PC2 The original image data transmission operation is terminated.
[0079]
On the other hand, the image conversion server 1 stores the original image data transmitted in step S 811 in the memory 306 by the memory control unit 305. In step S812, the image conversion server 1 determines the image conversion process corresponding to the transfer destination from the user information table by referring to the transfer destination data stored in step S807 by the control unit 301, and based on the determination result. In step S813 or S814, the image conversion processing program 302-1 or the image conversion processing program 302-2 is selected.
[0080]
In step S815, image conversion processing is performed on the original image data stored in the memory using the image conversion processing program selected by the image conversion unit 302. Next, in step S816, the memory control unit 305 associates and stores the original image data before the image conversion process, the shooting condition data, and the general-purpose image data after the image conversion process as a set for each original image. As an associated storage method, when the memory control unit 305 stores data in the memory 306 based on the control of the control unit 301, three data are stored in one holder (directory), or three For example, the data names of the data are unified and managed as different ones with different extensions.
[0081]
If the image conversion process for all the original image data and the saving as a set have been completed in step S817, the control unit 301 performs a transfer process described in detail later in step S818, and ends the process.
[0082]
FIG. 11 is a flowchart showing an example of the second data processing procedure in the image data management system according to the present invention, and corresponds to the detailed procedure of the transfer processing in step S818 described in the flowchart shown in FIG. In addition, S901-S914 show each step.
[0083]
In FIG. 11, the left side of the central broken line corresponds to the processing procedure on the image conversion server 1 side, and the right side corresponds to the processing procedure on the image management server 3A or image management server 3B side.
[0084]
First, in step S <b> 901, the image conversion server 1 sets “1” (“i = 1”) to the transmission retry parameter i by the control unit 301.
[0085]
In step S902, the image conversion server 1 controls the communication unit 304 to access the image management server 3A. The image storage server 3A detects that the access for transferring the image data set has been started from the image conversion server 1, and controls the communication unit 504 to the image conversion server 1 in step S903 to transmit the image. Send instructions. After receiving the image transmission instruction, the image conversion server 1 uses the communication unit 304 to transfer the image data set stored in the memory 306 to the image management server by FTP in step S904. .
[0086]
Further, the image conversion server 1 continues the transfer until all the image data sets are transferred in step S905.
[0087]
On the other hand, in the image management server 3A, the image data set received from the image conversion server 1 in step S906 is controlled by the control unit 501 and stored in the image storage unit 503 using the image management unit 505. In step S907, the reception monitoring unit 506 detects whether all the image data sets have been saved.
[0088]
For example, before starting the transfer by FTP, the number of image data sets and the total data size are notified from the image conversion server 1 by an original protocol in the upper layer and received by the reception monitoring unit 506. This can be realized by determining whether the number of image data sets and the total data size have reached the previously notified number or size.
[0089]
In step S907, when the reception monitoring unit 506 detects that all image data sets have been stored, the image management server 3A determines that the control unit 501 sends a normal reception notification via the communication unit 504 in step S908. The image data is transmitted to the image conversion server 1 and the image data set receiving operation is terminated.
[0090]
Further, the image conversion server 1 determines whether or not the normal reception has ended in step S909, and when detecting that the normal reception has ended, deletes the original image data in step S910.
[0091]
Since the original image data has high image quality and high value as a copyright management target, it is quickly deleted after the original image data is transferred to the image management server 3A operated by the copyright management organization. It is necessary to avoid unauthorized spills and diversions.
[0092]
Further, the normal reception notification can be notified by an original protocol in an upper layer such as an application layer.
[0093]
In step S911, the control unit 301 refers to the transfer destination table, and when the image sales server 4 is registered, the converted general-purpose image data and shooting condition data are transmitted via the communication unit 304. To do. The image sales server 4 receives the converted general-purpose image data and shooting condition data via the communication unit 603 and stores them in the memory 605 under the control of the memory control unit 604.
[0094]
Finally, in step S912, the image conversion server 1 deletes the converted image data and ends the operation.
[0095]
On the other hand, if it is determined in step S909 that normal reception has not ended, the retry parameter i is incremented in step S913, and the retry is repeated until i = 3 in step S914.
[0096]
If the normal reception end notification is not sent from the image management server 3A even after repeated transmission retries, the original image data is not erased and the image transfer to the image sales server 4 is not performed. finish.
[0097]
Since the original image data is highly important, it is not deleted when it cannot be transmitted normally. Further, since image sales cannot be performed without being managed by the image management server 3A operated by the management organization, the converted general-purpose image data is not transferred to the image sales server 4 either.
[0098]
Also, the image sales server 4 posts the transmitted general-purpose image data such as JPEG on the Web using the Web function unit 602. The person who wants to purchase an image can access the image sales server 4 from the purchaser PC 5 to view and select the image and purchase it.
[0099]
Further, in the composite conversion in the image conversion unit 302 of the image conversion server 1, when JPEG, PING, and GIF are used as general-purpose image data formats, they can be directly posted on the Web because they are supported by general web browser applications. So convenient.
[0100]
In the first embodiment, the conversion of image data compressed by original lossless compression as original image data has been described. However, it is also conceivable that the management target of the image management server is only the general-purpose image data format. In this case, since high-quality image data is not a management target, it is also possible to create a management target image using irreversible compression image data shot and stored by a consumer camera. However, even in such a situation, if the general-purpose image data format to be managed by the image management server is different from the storage format stored by the digital camera, a separate conversion process is required, and the user's operation is troublesome. In this case, for example, if the image to be managed is TIFF 100 dpi 200 mm × 200 mm), the image data stored in the JPEG general-purpose image data is transmitted to the image management server like a consumer digital camera. In order to easily perform the above, the image conversion server of the present invention can be used. For the transfer destination registered in the image conversion server 1, image conversion processing that enables both resolution conversion and format conversion may be registered in the table.
[0101]
Furthermore, two JPEG image data created by performing image conversion processing for creating JPEG small data for viewing and image conversion processing that enables the above-described resolution conversion and format conversion for one JPEG image data. It is also within the scope of the present invention to transmit image data as a set. That is, a plurality of image processes can be registered for one transfer destination, and a plurality of converted data can be transmitted as a set.
[0102]
In addition, by registering the type of image data to be transmitted to the transfer destination as a table in the image conversion server, only the converted image data can be transmitted, or only the shooting information data and the converted image data can be transmitted. Can also be transmitted. By providing a procedure for determining the data type of the transfer image in the program in the ROM, the control unit 301 determines the transfer image based on the table information when executing the program.
[0103]
[Second Embodiment]
In the present embodiment, among the image data transferred to the image conversion server 1 by the user, image data not required by the image management servers 3A and 3B is selected and transferred.
[0104]
In the current digital camera 6, a compact flash (registered trademark) is selected by selecting reversible compression image data for high image quality and image data using compression such as general-purpose JPEG to increase the number of captured images. Some can be recorded on a recording medium such as a memory.
[0105]
In particular, when the contract photographer photographs the subject requested by the contractor, it is desirable to photograph in the image data format requested by the contractor, but the same image can be selected by selecting a low-quality image format such as JPEG. It may be recorded on a recording medium.
[0106]
In the state where the image data having different image attributes are mixed and stored in the memory, that is, when the high-quality lossless compressed image data and the JPEG image are mixed, the user of the image conversion server 1 It is very troublesome for a certain photographer to select and transfer one by one, and it is desirable to transmit to the image conversion server 1 at once.
[0107]
On the other hand, high-quality image data is managed in the management of the photo management organization, and general-purpose image data is not required. Therefore, it is possible to reduce the troublesomeness of the user by performing selective transfer control so that the image conversion server 1 does not transfer image data that does not match the management target of the management organization.
[0108]
FIG. 12 is a flowchart showing an example of a third data processing procedure in the image data management system according to the present invention. The image input PC 2 shown in FIG. This corresponds to a processing procedure for uploading original image data to a server and transferring the converted image data to the image management server 3A or 3B. Note that (S801) to (S819) indicate each step, and the procedure corresponding to each step is stored in the memory 406 of the image input PC 2 or the memory 306 of the image conversion server 1, and this is stored in the control units 401 and 301. Are read and executed.
[0109]
Further, this procedure is substantially the same as the procedure shown in FIG. 10, and the different step is that the image data selection process is executed in step S819, and therefore the description of the other steps is omitted.
[0110]
FIG. 13 is a flowchart showing an example of a fourth data processing procedure in the image data management system according to the present invention, and corresponds to the image selection processing procedure in step S819 shown in FIG. S1001 to S1005 indicate each step.
[0111]
First, in step S <b> 1001, the control unit 301 selects one of images transferred from a user stored in the memory 306. In step S1002, it is determined whether the image data is high-quality lossless compressed image data. This determination is made based on the extension of the image file, attribute information attached to the image file, and the like. A table defining the format of original image data to be managed for each management organization is created in the memory 306 in advance, and is referred to at the time of determination in S1002 to determine whether the image is to be managed. In particular, although the management object of the management organization is based on the fact that it is high-quality image data here, it is not always necessary to be high-quality data.
[0112]
If it is determined in step S1002 that the image data is high-quality image data, it is determined in step S1003 that the image data remains in the recording area as an image conversion process target and is low-quality image data (for example, JPEG compression). In step S1004, image data is excluded from conversion targets.
[0113]
Here, for example, the image data is deleted, but other processing may be performed as long as it is excluded from the conversion target.
[0114]
In step S1005, it is checked whether image selection processing has been performed on all stored image data. If selection of all image data has been completed, the image selection processing ends, and the image selection processing ends. Performs operations for conversion processing.
[0115]
In this way, when images are recorded in the same recording medium or the like in a plurality of image formats, it is not necessary for the user to perform a cumbersome task of selecting and transmitting images, and images that are unnecessary for the server of the management organization. Because it is not sent, convenience is high.
[0116]
In the first embodiment and the second embodiment, a user who wants to transfer an image once connects the digital camera 6 to the image input PC 2 or connects a recording medium to the image input PC 2 and takes a captured image. The case where the data is processed after being transferred to the image input PC 2 has been described.
[0117]
However, the present invention is not limited to this, and the digital camera 6 communicates directly with the image conversion server 1 by providing a communication function (such as a communication cart or a mobile communication terminal (including a mobile phone, PDA, etc.), and transmits user authentication information. Then, it can be realized by directly transferring a file such as FTP.
[0118]
[Third Embodiment]
In the second embodiment, the case where image quality determination is performed in image data captured by the digital camera 6 and image data to be transferred is selected from the image data stored in the memory has been described. When the server 1 transfers the image data selected by the image quality determination to the image management servers 3A and 3B, the imaging conditions (shutter speed, aperture value, etc.) included in the imaging data and the imaging timing (imaging date and time) are referred to. Then, the transfer order of the selected image data may be changed to control the image data to be transferred to the image management servers 3A and 3B ahead of the image data that can become a highlight scene.
[0119]
Sports photos differ by genre, for example, depending on the competition rules (game time, etc.). For example, in the case of soccer, points are scored within 15 minutes after the kick-off in the first half and 10 minutes before the end in the first half. There is a tendency that the probability of entering a scene increases. Therefore, by specifying the imaging time and reading and transferring the image data recorded retroactively from that time, or by adding the time when the score is added to the transfer data and transferring it to the image conversion server 1, It is optional to promptly transfer the image data of the scene containing the.
[0120]
FIG. 14 is a flowchart showing an example of a fifth data processing procedure in the image data management system according to the present invention, and corresponds to the image selection processing procedure in step S819 shown in FIG. S1101 to S1105 indicate each step.
[0121]
First, in step S <b> 1101, the control unit 301 selects one of images transferred from the user stored in the memory 306. In step S1102, it is determined whether there is a transfer order designation. The designation may be set as a parameter when transferring from the image input PC 2 to the image conversion server 1 or may be designated in advance for each user registered in the image conversion server 1. May be.
[0122]
If it is determined in step S1102 that there is a transfer order designation (in this embodiment, it is assumed that transfer is designated sequentially from the one with the latest imaging time), the received image data is imaged in step S1103. The recording time is searched, the image data is rearranged in order from the slowest transfer order, and a transfer instruction is given so that the transfer starts from the slowest imaging time.
[0123]
On the other hand, if there is no transfer order designation in step S1102, in step S1104, the imaging recording time of the received image data is searched, and a transfer instruction is given so that the image data is transferred in order from the earliest transfer order. .
[0124]
In step S1105, it is checked whether or not image transfer designation has been completed for all stored image data. If all image data transfer designation has been completed, the image transfer designation processing is terminated. Then, an operation for image conversion processing is performed.
[0125]
[Fourth Embodiment]
In each of the above-described embodiments, the case where image data stored in a flash memory or the like mounted on the digital camera 6 is captured by the image input PC 2 and transferred to the image conversion server 1 has been described. By making it possible to add information (including information specifying image conversion processing and information specifying the transfer destination of converted image data), an image processing request to the image conversion server 1 in this embodiment, The transfer conditions to the image management servers 3A and 3B may be configured so that the subsequent image conversion processing can be reduced by setting the transfer conditions in advance in the image media (the aforementioned flash memory) by the cameraman.
[0126]
The DPOF is a format as a print service in a so-called digital camera, and many print service systems that can use the DPOF (Digital Print Order File Format) have been proposed (for example, JP-A-2002-32291). .
[0127]
FIG. 15 is a diagram showing the internal data structure of the extended DPOF file applicable to the image processing system according to the present invention, and the data contents of the image file and the link file.
[0128]
In FIG. 15, reference numeral 2001 denotes an extended DPOF file data structure, which includes a DPOF file name, additional information for the DPOF file (including information for specifying a link file), an image file name that is information for specifying an image to be printed, and It consists of the print size and the number of prints for each image. Reference numerals 2002a to 2002c denote image file data structures, each of which includes a file name and additional information.
[0129]
Reference numerals 2003 and 2004 denote link file data structures, which include a file name, media type, media ID, image data conversion method designation information, image data transfer information (image data transfer designation information), and the like. The link files 2003 and 2004 are managed in the memory of the image conversion server 1.
[0130]
The link file 2004 is an example of a link file in the case of including additional information used in processing at the time of image reproduction, and corresponds to a case in which image modification data (including mask data and cutout data) is included. . The link file 2004 also includes information of the user information table shown in FIG.
[0131]
Reference numeral 2005 denotes media ID information corresponding to the media ID of the digital camera 6 shown in FIG. Reference numerals 2006a and 2006b denote data structures of image data files in the medium, which include a TC / File name / URL and additional information (including information specifying a link file managed by the image conversion server 1).
[0132]
Hereinafter, the data structure of the DPOF file, the link file, and the image file will be described with reference to FIG.
[0133]
The extended DPOF file 2001 includes a list of file names, print sizes, and number information of images to be printed. As the file name, the name of the link file is also described in the same row as the file name of the image to be printed.
[0134]
If there is a still image in the image file specified by the file name, printing is executed as it is. If it is a link file, ID information for specifying the medium specified by the content data of the link file is included. The image data is read out and a request for reading out image data is issued.
[0135]
Specifically, the image conversion server 1 acquires the transferred image data, and further searches for and displays the file name of the image data file in the link file. Then, the designated image conversion process is executed.
[0136]
Then, the image conversion server 1 executes Internet access, transmits the image data to the WWW site based on the URL information in the link file (information specifying the acquisition destination of the image data via the communication line), and performs processing. The uploaded image data is automatically uploaded to the image management servers 3A and 3B.
[0137]
FIG. 16 is a flowchart showing an example of a data processing procedure in the information processing apparatus according to the present invention. The image conversion process 1 is instructed to the captured image data and the transfer destination is designated, and the image data is sent to the image conversion server 1 or the like. Corresponds to the transfer procedure. S1601 and S1602 indicate each step.
[0138]
First, the image input PC 2 reads out the image data captured through the interface (not shown) of the MMC card (flash memory) attached to the digital camera 6 and the extended DPOF file (S1601), In step S1602, the additional information specifying the link file for specifying the image conversion process and the image data are transferred to the image conversion server 1 in accordance with the transfer destination information specified in (S1602), and the process ends.
[0139]
Prior to the transfer, it is optional to access and reproduce the image data to be transferred and to display the image data on a display device (not shown), for example, in a thumbnail data format.
[0140]
The configuration of a data processing program that can be read out by the image data management system according to the present invention will be described below with reference to the memory map shown in FIG.
[0141]
FIG. 17 is a diagram for explaining a memory map of a storage medium for storing various data processing programs that can be read by the image data management system according to the present invention.
[0142]
Although not specifically shown, information for managing a program group stored in the storage medium, for example, version information, creator, etc. is also stored, and information depending on the OS on the program reading side, for example, a program is identified and displayed. Icons may also be stored.
[0143]
Further, data depending on various programs is also managed in the directory. In addition, a program for installing various programs in a computer, and a program for decompressing when the program to be installed is compressed may be stored.
[0144]
The functions shown in FIGS. 10, 11 to 14, and 16 in this embodiment may be performed by a host computer by a program installed from the outside. In this case, the present invention is applied even when an information group including a program is supplied to the output device from a storage medium such as a CD-ROM, a flash memory, or an FD, or from an external storage medium via a network. Is.
[0145]
As described above, a storage medium storing software program codes for realizing the functions of the above-described embodiments is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus stores the storage medium in the storage medium. It goes without saying that the object of the present invention can also be achieved by reading and executing the programmed program code.
[0146]
In this case, the program code itself read from the storage medium realizes the novel function of the present invention, and the storage medium storing the program code constitutes the present invention.
[0147]
As a storage medium for supplying the program code, for example, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, an EEPROM, or the like is used. it can.
[0148]
Further, by executing the program code read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) or the like running on the computer based on the instruction of the program code. It goes without saying that a case where the function of the above-described embodiment is realized by performing part or all of the actual processing and the processing is included.
[0149]
Furthermore, after the program code read from the storage medium is written to the memory provided in the function expansion board inserted into the computer or the function expansion unit connected to the computer, the function expansion is performed based on the instruction of the program code. It goes without saying that the case where the CPU or the like provided in the board or the function expansion unit performs part or all of the actual processing and the functions of the above-described embodiments are realized by the processing.
[0150]
【The invention's effect】
As described above, according to the image data management system according to the present invention, according to the information of the input person of the input original image data, the image data is converted into image data that conforms to the image data format requested by the image management server, By transferring an image data set including at least the original image data and the converted image data to another management server, the image data uploader can simply input the original image data, Appropriate data format is created by automatically converting and generating image data that conforms to the requested data format, eliminating the need for prior data processing by the original image data provider even if the data format differs for each image management server. Image data can be automatically distributed to the designated image management server, and the image management server can centrally manage the image data in the data format. There is an effect that an excellent image data management system environment in fecal freely serviceable.
[0151]
Further, according to the image conversion server, the data format requested by the image management server from various original image data even when the data management is performed independently of the input device without being influenced by the input device of the original image. Image data can be automatically converted and generated, and the data processing burden and data distribution processing burden on the submitter who submits the original image data can be reduced.
[0152]
Further, according to the image data processing method and the computer-readable storage medium and program, even if the data format is different for each image management server, the data processing process by the original image data provider is unnecessary, and the appropriate Image data in the data format is automatically distributed to the specified image management server, and the image management server can centrally manage the image data in the data format. There is an effect.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing an example of an image data management system according to the present invention.
2 is a block diagram illustrating a hardware configuration example of an image conversion server, an image input PC, an image management server, an image sales server, and a purchaser PC illustrated in FIG. 1;
3 is a block diagram illustrating a functional configuration of the image conversion server illustrated in FIG. 1. FIG.
4 is a diagram showing an example of a user information table registered in the memory of the image conversion server shown in FIG. 1. FIG.
5 is a diagram showing an example of a table showing a relationship between a model of the digital camera shown in FIG. 1 and a corresponding driver application necessary for browsing a captured image on a PC. FIG.
6 is an example of a table showing a correspondence between an image management organization that is a transfer destination of image data to be transferred by the image conversion server shown in FIG. 1 and an image format attribute for browsing necessary for image management of the management organization. FIG.
7 is a block diagram illustrating a functional configuration of the image input PC or purchaser PC shown in FIG. 1. FIG.
FIG. 8 is a block diagram illustrating a functional configuration of the image management server illustrated in FIG. 1;
FIG. 9 is a block diagram illustrating a functional configuration of the image sales server illustrated in FIG. 1;
FIG. 10 is a flowchart showing an example of a first data processing procedure in the image data management system according to the present invention.
FIG. 11 is a flowchart showing an example of a second data processing procedure in the image data management system according to the present invention.
FIG. 12 is a flowchart showing an example of a third data processing procedure in the image data management system according to the present invention.
FIG. 13 is a flowchart showing an example of a fourth data processing procedure in the image data management system according to the present invention.
FIG. 14 is a flowchart showing an example of a fifth data processing procedure in the image data management system according to the present invention.
FIG. 15 is a diagram showing an internal data structure of an extended DPOF file applicable to the image processing system according to the present invention, and data contents of an image file and a link file.
FIG. 16 is a flowchart showing an example of a data processing procedure in the information processing apparatus according to the present invention.
FIG. 17 is a diagram illustrating a memory map of a storage medium storing various data processing programs that can be read by the image data management system according to the present invention.
[Explanation of symbols]
301 Control unit
302-1, 302-2 conversion processing program
304 Communication unit
306 memory

Claims (17)

An input unit for inputting the original image data, a conversion unit for converting the original image data into a predetermined image data format, and an image data set including at least the original image data and the converted image data to another management server An image conversion server having transfer means for transferring;
An image management server having receiving means for receiving the image data set from the image conversion server;
An image data management system comprising: The image conversion server has storage means for storing the input original image data in a memory;
The image management server has a transmission means for transmitting a normal reception completion signal indicating completion of normal reception of the image data set to the image conversion server;
The image data management system according to claim 1, wherein the image conversion server includes a deletion unit that deletes at least the original image data from the memory after receiving the normal reception completion signal. The image conversion server includes a plurality of the conversion units, and the input unit is an input unit capable of inputting data indicating a transfer destination of the original image data, and the plurality of conversions according to the transfer destination. 3. The image data management system according to claim 1, further comprising selection means for selecting a predetermined conversion means from the means. 4. The image data management system according to claim 1, wherein the converted image data is image data converted into a format that can be viewed on a web browser. 2. The image data management system according to claim 1, wherein the image data format is determined based on file attributes including resolution, size, and format. 2. The image data management system according to claim 1, wherein the image data is captured by a digital camera and stored in an attachable memory medium. 2. The image data management system according to claim 1, wherein the input means includes a plurality of types of data read drivers, and the original image data is input by one of the drivers according to identification information added to the image data. Input means for inputting original image data together with information indicating a data transfer destination, storage means for storing the inputted original image data in a memory, and a plurality of conversion means for converting the original image data into different image data formats. An image conversion server having transfer means for transferring an image data set including at least original image data and converted image data to another management server;
An image data management system comprising an image management server having receiving means for receiving an image data set including image data after conversion from the image conversion server,
The image conversion server includes an image data management system including a selection unit that selects at least one conversion unit from the plurality of conversion units according to the transfer destination and converts image data. An image conversion server capable of receiving original image data from an information processing device,
A plurality of conversion means for converting the original image data into a predetermined image data format;
Transfer means for transferring an image data set including at least the original image data and the converted image data to another management server;
An image conversion server characterized by comprising: Selection means for selecting at least one conversion means based on the attribute management table of the original image data;
Transfer means for transferring the converted image data to any management server based on the attribute management table of the original image data;
The image conversion server according to claim 9, further comprising: The image conversion server according to claim 9, wherein the attribute management table includes a model name of the digital camera for each user, transfer destination information, storage destination information, and image conversion method designation information. An image data processing method in an image conversion server capable of receiving original image data from an information processing device,
A first or second conversion step of converting the original image data into a predetermined image data format;
A selection step of selecting the first or second conversion step based on the attribute management table of the original image data;
A transfer step of transferring an image data set including at least the original image data and the image data converted by the first or second conversion step to another management server;
An image data processing method comprising: 13. The image data processing method according to claim 12, further comprising a deletion step of deleting the converted image data after the transfer of the image data set in the transfer step. Determining whether the original image data is to be transferred;
The first or second conversion step converts the original image data into a predetermined image data format when the determination step determines that the original image data is to be transferred. The image data processing method according to claim 12. 15. The image data processing method according to claim 14, wherein in the determination step, it is determined whether or not the transfer target is based on an image quality of the original image data. A computer-readable storage medium storing a program for realizing the image data processing method according to claim 12. The program which implement | achieves the image data processing method in any one of Claims 12-15.

Images