JP3654124B2 - Image reading control apparatus and computer-readable recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image reading control apparatus and a computer-readable recording medium.
[0002]
[Prior art]
In recent years, sharing of text data and image data using a network has been actively performed. As a device for enabling such sharing, a document composed of a plurality of pages is converted into a plurality of image data using a scanner, and the image data is managed by a network-connected file server. Devices that can be used (hereinafter referred to as conventional devices) are also commercially available.
[0003]
[Problems to be solved by the invention]
If a certain document is processed using the above-described conventional apparatus, the document can be shared (viewed) by each user who can access the file server.
[0004]
However, the conventional apparatus includes an image data file including a plurality of image data, and a file holding information on the configuration of the image data file (information indicating where the image data of each page is stored) It is a device that transfers to a file server. For this reason, when the conventional apparatus is used, the problem that two files must be managed in order to manage one document and the contents of the document converted into image data can be actually viewed. There has been a problem that it is limited to users having software capable of processing the two files as described above.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide an image reading control device that can perform image data conversion of a document in a form in which the result can be easily managed, and in which image data conversion is performed in a novel procedure. There is to do.
[0006]
Another object of the present invention is to provide a computer-readable recording medium that can cause a computer to operate as the above-described image reading control apparatus.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, a first image reading control device of the present invention includes a hard disk device, a reading start instruction unit that instructs the scanner to start reading a document when a predetermined operation is performed. The image data sequentially output from the scanner instructed to start reading the document by the reading start instruction unit is received, and the file header and the file header are continued in a logically continuous storage area in the hard disk device. It is composed of a plurality of data blocks, and each data block includes first type data registration information, first type image data, second type data registration information, and second type image data in this order. The first type data registration information is composed of several pieces of element information including position element information indicating the head position of the second type data registration information in the same data block. The data registration information is composed of several pieces of element information including position element information indicating the start position of the next data block, and an image file generation unit for generating an image file, and the image file generation unit generates the image registration information in the hard disk device. A transfer unit that transfers the received image file to a file server.
[0008]
The first image reading control device, as an image file generation unit, outputs image data related to a certain page from the file header writing means for writing the file header of the image file to the hard disk device and the scanner each time image data is output. When image data is handled as processing target image data and the first type image data has not yet been written, the first type data registration information can be stored between the file header written by the file header writing means. After the first type image data corresponding to the processing target image data is written in the hard disk device so that the storage area is secured, the processing target image is secured so that the storage area of the second type data registration information is secured. The second type image data corresponding to the data is written to the hard disk device, and the first type image data is written. In the case where only the second type image data previously written is stored, a storage area capable of storing the first type data registration information is secured in accordance with the processing target image data. After the first type image data is written to the hard disk device, the second type corresponding to the processing target image data is secured so that a storage area for the second type data registration information is secured between the first type image data. Image data writing means for writing image data to the hard disk device, and each of the plurality of first type image data and the plurality of second type image data written to the hard disk device by the image data writing means. A data registration information writing unit for writing the first type data registration information or the second type data registration information is provided.
[0009]
That is, the first image reading control device converts the first type image data and the second type image data corresponding to the image data generated by the scanner into the data registration information (first type, second type) for each image data. Image data writing means for writing into the hard disk device before the contents of all the element information to be included in the seed data registration information) are determined. In addition, the image data writing means has completed the operation of the data registration information writing means that has been operated independently of the image data writing means after the operation of the file generation unit has been completed (reading of the original by the scanner has been completed. After), if a series of information starting with the file header written by the file header writing means in the hard disk device is read, an image file that can be transferred to the file server can be read. First type / second type image data is written. In the image reading control apparatus, the image file generated in the hard disk device by the image file generation unit including image data writing means is actually transferred to the file server by the transfer unit.
[0010]
As described above, according to the first image reading control apparatus of the present invention, one image file is generated in the file server. Therefore, it is possible to easily manage the conversion of a plurality of document images into image data. You can do it. Further, since the image file has a configuration in which the first and second type image data relating to each page can be easily found, the image file generated by the image reading control device can be easily accessed in units of pages. Become. Although this image file can be a file of a unique format, it is desirable to store it as a multi-page TIFF file.
[0011]
Further, since the first image reading control device has a configuration in which each image data from the scanner is immediately stored in the hard disk device, the image reading control device is realized without using a large-capacity memory. (Manufacturing). In addition, since the operation of the data registration information writing means does not take time and the operation of the transfer unit does not take time, eventually, if the first image reading control apparatus is used, the scanner can be operated at a high speed (almost, the scanner is not a document). Thus, the image data of the original can be converted to the image data.
[0012]
When realizing the image reading control apparatus of the present invention, as data registration information writing means, before the writing of certain first type image data is started by the image data writing means, it relates to the first type image data. The first type data registration information is written with each of the predetermined types of element information as temporary content information, and the first type image data is written by the image data writing means. Each type of element information is rewritten with original content information, and before the writing of certain second type image data is started by the image data writing means, a predetermined type of element information relating to the second type image data. The second type data registration information is written with each of the information as provisional contents, and after the second type image data is written by the image data writing means, a predetermined type of element information is stored. Respectively it is possible to adopt a means for rewriting the information of the original content.
[0013]
In addition, when using the first type data registration information and the second type data registration information, each of which includes total page information that is element information indicating the number of first type image data included in the image file, As data registration information writing means, a plurality of first type data registration information each including temporary information as total page number information and a plurality of second type data including temporary information as total page number information are respectively stored in the hard disk device. The total number of documents read by the scanner is written to the hard disk device in synchronization with the operation of the image data writing means so that a state in which the two types of data registration information is stored is formed. For each of the plurality of first type data registration information and the plurality of second type data registration information that has been written. It can be used a means for rewriting.
[0014]
A second image reading control device of the present invention is a device that is connected to a network including a file server and is connected to a scanner, and is used when a predetermined operation is performed with a hard disk device. Read start instructing means for instructing the start of document reading, and first data corresponding to each page of image data sequentially output from the scanner instructed to start document reading by the reading start instructing means. The total number of documents read by the scanner when the output of the image data from the data storage means for saving the seed image data and the thumbnail image data corresponding to the image data to the hard disk device is completed. As well as the recognized total number, each type 1 image data and each thumbnail data stored in the hard disk device. Based on the data, the data multi-page TIFF file is to be stored in the file server regarding a document read by the scanner sequentially and transmitting means for transmitting the file server.
[0015]
That is, the second image reading control apparatus of the present invention generates the first type image data and the thumbnail image data according to the image data generated by the scanner while the scanner reads the document. Then, each image data is written to the hard disk device. When the output of image data from the scanner is completed, the hard disk device is used as a supply source of various image data, and data for generating a multi-page TIFF file in the file server is sequentially sent to the file server. Sent.
[0016]
As described above, according to the second image reading control device of the present invention, since the multi-page TIFF file is generated in the file server, the conversion of the image data of a plurality of documents can be easily managed, Moreover, it can be performed in a form that can be easily used.
[0017]
In realizing the second image reading control apparatus of the present invention, as data storage means, compressed data of image data for each page sequentially output from the scanner is stored in the hard disk device as first-type image data. When the first type image data stored in the hard disk device is transmitted to the file server as the transmission unit, a means for transmitting data obtained by restoring the first type image data can be employed. By adopting such a configuration, it is possible to realize an image reading control apparatus capable of converting a large number of originals into image data using a relatively small-capacity hard disk device.
[0018]
Further, as the data storage means, a means for storing the compressed data included in the multi-page TIFF file as it is in the multi-page TIFF file of each page of image data sequentially output from the scanner as the first type image data is adopted. You can also By adopting such a means, it is possible to realize an image reading control apparatus capable of converting a large number of documents into image data using a relatively small capacity hard disk device.
[0019]
Each computer-readable recording medium of the present invention is connected to a network including a file server and a computer having a hard disk device connected to a scanner is connected to the first or second image of the present invention described above. A program for operating as a reading control device is recorded. Therefore, if the computer-readable recording medium of the present invention is used, the first or second image reading control apparatus of the present invention can be realized based on a general computer.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be specifically described below with reference to the drawings.
[0021]
<First Embodiment>
The image reading control apparatus according to the first embodiment of the present invention is based on a plurality of pages of a document, and a TIFF file (multi-page TIFF file) holding a plurality of image data representing these documents is connected to a network. This is an apparatus capable of executing processing generated in the server (hereinafter referred to as server scan processing).
[0022]
First, the configuration and usage of the image reading control apparatus according to the first embodiment will be described with reference to FIGS. 1 and 2.
[0023]
As shown in FIG. 1, the image reading control device 10 according to the first embodiment includes an image reading control device main body 11, an operation device 12, and a cable 33 connected to them. The image reading control device 10 is used in a form connected to the scanner 13 and the file server 40 via a cable 34 and a communication medium 35 (Ethernet cable in this embodiment), respectively. When the image reading control device 10 is used, the scanner 13 is usually provided with an ADF 13a, and a dedicated device or a general computer (general user computer) is used as the file server 40. Used as.
[0024]
In addition to the server scan process described above, the image reading control apparatus 10 is configured to execute a copy control process for generating and outputting image data for printing by performing an image process on the image data generated by the scanner 13. Has been. The image reading control device 10 is also configured to be able to operate as a print server. For this reason, the image reading control apparatus 10 is normally used in a form connected to the printer 50 as shown.
[0025]
The operation device 12 constituting the image reading control device 10 is an interface for the user of the image reading control device 10. In the present embodiment, the operation device 12 includes a touch screen 121 including a liquid crystal panel and a touch panel overlaid thereon, a key operation unit 122 including a start button, a stop button, a numeric keypad, and the like, and an operation of the image reading control device 10. There are several LEDs (not shown) to indicate the situation. In the present embodiment, a portion centering on the operation device 12 and the CPU 21 in the image reading control device main body 11 functions as a reading start instruction unit, and the image reading control device main body 11 includes an image file generation unit, Functions as a transfer unit.
[0026]
In the image reading control device 10, a dedicated cabinet of various sizes to which the operation device 12 can be attached is prepared as an option. When the image reading control device 10 is used, a dedicated cabinet 15 having a shape corresponding to the size of the scanner 13 and the printer 50 to be connected, for example, a shape as shown in FIG. The operation device 12, the scanner 13, and the printer 50 are arranged mutually so that the positional relationship is easy to perform.
[0027]
As shown in FIG. 1, the image reading control device main body 11 includes a CPU 21, a ROM 22, a RAM 23, and a bridge 24 connected to each other via a CPU bus 31. The image reading control device main body 11 includes an HDD controller 25, an operation panel I / F board 26, a scanner I / F board 27, and a network I connected to the bridge 24 via a general-purpose bus (PCI bus) 32. / F board 28 and printer I / F board 29 are provided. Further, the image reading control device main body 11 includes an HDD (hard disk drive; hard disk device) 30 connected to the HDD controller 25.
[0028]
The bridge 24 is an interface circuit between the CPU bus 31 and the general-purpose bus 32. The HDD controller 25 is a control circuit of the HDD 30 (an interface circuit between the HDD 30 and the general-purpose bus 32). The operation device I / F board 26 is an interface board that enables the CPU 21 to control the operation device 12 (touch screen 121 and key operation unit 122). The operation device I / F board 26 includes an input / output control circuit for the touch screen 121 and the key operation unit 122. The scanner I / F board 27 and the printer I / F board 29 are interface boards for enabling the CPU 21 to control the scanner 13 and the printer 50, respectively. The network I / F board 28 is an interface board for enabling communication using the communication medium 35 by the CPU 21.
[0029]
The ROM 22 is a non-volatile storage device that stores a BIOS or the like for controlling hardware configuring the image reading control device main body 11. The HDD 30 is an operating system, various drivers (a scanner driver for controlling the scanner 13, a printer driver for controlling the printer 50, etc.), and various types for causing the image reading control device 10 to execute server scan processing and copy control processing. An auxiliary storage device in which programs and the like are stored. The HDD 30 is used as a work area (for storing temporary files) during server scan processing. The CPU 21 is a circuit that reads various programs stored in the ROM 22 and the HDD 30 onto the RAM 23 and integrally controls each unit in the image reading control apparatus main body 11 according to the read programs.
[0030]
That is, the image reading control device 10 is a kind of computer in which the operation device 12 is used instead of the display and the keyboard, and various programs for executing server scan processing and the like are installed.
[0031]
Hereinafter, the operation (control operation by the CPU 21) of the image reading control apparatus 10 according to the first embodiment will be described. First, the overall operation of the image reading control apparatus 10 will be described with reference to FIGS. 3 and 4.
[0032]
As shown in FIG. 3, when the image reading control apparatus 10 is turned on, the CPU 21 executes a state diagnosis process (step S101). During this state diagnosis process, the CPU 21 first determines whether each unit in the image reading control apparatus 10 is functioning normally, whether a device (scanner 13 or printer 50) necessary for the operation is connected, or a connected device. Diagnose and investigate what kind of equipment and specifications are. If the CPU 21 finds a part in an abnormal state, the CPU 21 displays that fact on the touch screen 121 (liquid crystal panel) and waits for work to be performed to eliminate the abnormality.
[0033]
On the other hand, when it is confirmed that each unit functions normally, the CPU 21 determines the default values of various condition data used during the copy control process and the server scan process based on the information on the model and specifications of the connected device. Is stored in the RAM 23. The condition data refers to data for designating a specific control condition (data for designating the number of copies or data for designating the copy color) relating to the scanner 13 or the printer 50. Then, the CPU 21 ends the state diagnosis process.
[0034]
After completion of the state diagnosis process, the CPU 21 causes the touch screen 121 of the controller device 12 to display an operation screen having contents according to the current situation and the condition data stored in the RAM 23 (step S102). There are various operation screens displayed by the process of step S102. For example, in step S102 executed immediately after the completion of step S101, a basic function including a scanner button 61, a copy number display area 62, a magnification button 63, a magnification display area 64, a copy color button 65, and the like as shown in FIG. The operation screen is displayed.
[0035]
The copy number display area 62 provided on the basic operation screen is an area in which the content of the condition data relating to the number of copies at that time (“1” in the figure) is displayed. The copy color button 65 is a button that the user should press (touch with a finger) when setting (changing) the copy color. The copy color button 65 is a button in which information indicating the copy color set at that time (information corresponding to the condition data regarding the copy color; “color” in the drawing) is displayed. The magnification display area 64 is an area where a set value (contents of condition data relating to copy magnification) of a copy magnification (enlargement ratio / reduction ratio) at that time is displayed. The magnification button 63 is a button to be pressed by the user when it is desired to change the copy magnification. The scanner button 61 is a button to be pressed by the user prior to pressing the start button when executing server scan processing (details will be described later).
[0036]
After the basic operation screen as shown in FIG. 4 or another operation screen is displayed on the touch screen 121 in step S102, the CPU 21 receives print data from another device via the communication medium 35, and on the operation screen. A state of waiting (monitoring) for the occurrence of an event such as pressing of a button (contact of a finger on the touch screen 121) or pressing of a button (key) in the key operation unit 122 is taken (step S103; NO).
[0037]
When detecting that an event has occurred (step S103; YES), the CPU 21 executes processing (control) according to the event that has occurred (steps S104 to S106). For example, when the reception (start of reception) of print data is recognized (step S104; NO), the CPU 21 displays a screen indicating that printing is being performed on the touch screen 121 in step S105, and then functions as a print server. To do. That is, the CPU 21 performs control for supplying data received by the network I / F board 28 to the printer 50 via the RAM 23 and the printer I / F board 29. Then, the CPU 21 returns to step S102 to display the basic operation screen on the touch screen 121.
[0038]
When it is detected that the copy color button 65 has been pressed (step S104; NO), the CPU 21 determines in step S105 that the condition data relating to the copy color so far indicates color, the condition data. To indicate monochrome. Conversely, if the condition data related to the copy color so far indicates monochrome, the condition data is changed to indicate color. Then, in step S102, the CPU 21 displays the touch screen 121 via the operation device I / F board 26 or the like so that a basic operation screen having the copy color button 65 showing the changed copy color is displayed. Control.
[0039]
When it is detected that the magnification button 63 has been pressed (step S104; NO), the CPU 21 recognizes that an operation screen for setting the copy magnification should be displayed in step S105, and in step S102, the copy magnification is set. An operation screen for setting is displayed on the touch screen 121. Then, when a series of operations are performed on the copy magnification setting operation screen (in step S102 of the process consisting of steps S103, 104, S105, and S102), the CPU 21 causes the touch screen 121 to Display the basic operation screen again.
[0040]
Further, when it is detected that the numeric key in the key operation unit 122 is pressed during display of the basic operation screen (step S104; NO), the CPU 21 relates to the number of copies in accordance with the numeric key in step S105. Processing to change the condition data is performed. In step S102, the basic operation screen in which the copy number after the change is displayed in the copy number display area 62 is displayed on the touch screen 121.
[0041]
Even when a button other than the scanner button 61 is pressed, the CPU 21 updates the condition data and changes the operation screen in the same manner as when the magnification button 63 or the copy color button 65 is pressed. If the start button is pressed while the basic operation screen is displayed, copy control processing is performed in step S105. In other words, the CPU 21 causes the scanner 13 to generate image data under the set conditions, and performs processing to generate image data for printing by performing image processing such as moire removal on the generated image data. Then, the CPU 21 supplies the generated image data to the printer 50 through the printer I / F board 29 together with a control command necessary for copying under conditions specified by the user.
[0042]
On the other hand, when it is detected that the scanner button 61 has been pressed (step S104; NO), the CPU 21 stores the fact that it has shifted to the server scan setting mode in step S105, and in step S102, various types of server scan processing are performed. A scan operation in which the user can change the condition data (condition data specifying the file server 50, condition data specifying the scan resolution, etc.) directly or by displaying another operation screen. Display the screen.
[0043]
When the start button is pressed in the server scan setting mode, the CPU 21 determines that a server scan start instruction has been input (step S104; YES), and server scan processing (step S106). To start.
[0044]
Details of the server scan process will be described below. First, the configuration of a TIFF file that is an image data file generated (stored) in the file server 40 as a result of server scan processing being executed will be described with reference to FIG.
[0045]
As shown in FIG. 5, the TIFF file generated in the file server 40 by the image reading control device 10 includes, in the file header, data registration information relating to scan data (image data for one page output by the scanner 13), scan It is a file holding data in which data, data registration information related to thumbnail data, and data composed of thumbnail data (one thumbnail image data) are connected.
[0046]
The file header in the TIFF file indicates data that can determine the content (the number itself, the size of each data, etc.) of the image data included in the TIFF file (that is, the TIFF file itself). Data consisting of information).
[0047]
Each data registration information includes the size (width and height) of image data (scan data or thumbnail data) following the self-data registration information, the storage position of the subsequent image data (offset value from the beginning of the file), and the subsequent The page number indicating what page the image data is, the total number N of pages indicating the total number of scan data included in the TIFF file, and what type of data the subsequent image data is. The compression format data that indicates (whether it is uncompressed bitmap data or the compressed data compressed by any method), the storage location of the next data registration information (offset value from the beginning of the file), etc. Including.
[0048]
As is apparent from the fact that the data registration information includes the storage position of the subsequent image data, the length can be changed (the number of information elements included in the data registration information can be changed). . The data registration information includes data (total number of pages) whose value is not fixed unless reading of all originals is completed. Further, the data registration information includes data (the storage position of the next data registration information) whose contents cannot be determined unless the size of the image data is determined. In other words, the storage location of the next data registration information relating to certain image data is data whose contents cannot be determined unless the generation of the compressed data of the image data is completed when the image data is compressed data.
[0049]
In the image reading control apparatus 10, such a TIFF file is generated in the file server 40 by the server scan process of the procedure shown in FIG.
[0050]
That is, the CPU 21 first initializes a variable i for storing what page data is being processed to “0” (step S201), and causes the scanner 13 to start reading a document. Is instructed (step S202). Next, the CPU 21 creates a temporary file in the HDD 30 and writes a file header with a predetermined content in the temporary file (step S203). Next, the CPU 21 adds “1” to the variable i (step S204), and the data registration information related to the scan data of the i-th page (hereinafter referred to as scan data #i) has already been added to the temporary file in the HDD 30. Writing is performed at the next position of the data being written (step S205). In this step, the CPU 21 writes, in the temporary file, data registration information including dummy data having a specific content corresponding to the total number of pages whose contents are not determined and the next data registration information storage position.
[0051]
Next, the CPU 21 receives the image data (a part of the scan data) transmitted from the scanner 13, extracts the thumbnail data from the image data, and stores it in the RAM 23 (step S206). Then, when a condition that requires compression is designated as a server scan execution condition (step S207; YES), the CPU 21 compresses the received image data using a predetermined compression method (step S208). Then, it writes in the temporary file in the HDD 30 (step S209). On the other hand, when the condition that requires compression is not specified as the server scan execution condition (step S207; NO), the CPU 21 writes the received image data as it is in the temporary file (step S209).
[0052]
The CPU 21 repeatedly executes the processes of steps S206 to S209 until the process related to the image data (scan data) for one page is completed (steps S206 to S210). When the processing of the image data for one page is completed (step S210; YES), in other words, when the thumbnail data #i is prepared in the RAM 23 and the scan data #i is stored in the temporary file. Then, dummy data (next data registration information storage position) whose value has been determined in the data registration information related to scan data #i is rewritten to actual data (step S211). Next, the CPU 21 writes the data registration information of the thumbnail data #i (those whose total page number is dummy data) to the temporary file (step S212), and also writes the thumbnail data #i on the RAM 23 to the temporary file (step S212). S213).
[0053]
And CPU21 performs the process from step S204 again, when the process of all the pages has not been complete | finished (step S214; NO). Then, when all the pages have been processed (step S214; YES), the CPU 21 writes the total number of pages (that is, the i value at that time) to each data registration information in the temporary file (step S215). Then, each unit is controlled so that the temporary file is transmitted to the designated file server 40 (the device having the address given as the server scan execution condition), and after the transmission is completed, the temporary file in the HDD 30 Is deleted (step S216). Note that the CPU 21 performs the transmission process in step S216 using the FTP protocol. Then, the CPU 21 ends the server scan process and executes the processes from step S102 (FIG. 3).
[0054]
As described above in detail, in the image reading control apparatus 10 according to the first embodiment, the scanner data (first type image data) and the thumbnail data (second type image data) corresponding to the data generated by the scanner 13 are used. ) Is written in the HDD 30 before the contents of all the element information to be included in the data registration information (first type, second type data registration information) for each data are determined. At this time, the image reading control apparatus 10 reads each series of scanner data in a form in which a TIFF file that can be transferred to the file server 40 can be read by reading a series of information starting from the file header in the HDD 30. Thumbnail data is written. In addition, each data registration information is written to the temporary file by writing dummy data included in the data registration information after the data registration information is written with the element information whose contents are not fixed as dummy data. This is done in the form of rewriting. Then, the temporary file (TIFF file) created by such a procedure is transferred to the file server.
[0055]
Therefore, if this image reading control device 10 is used, a user-friendly image data file can be prepared in the file server 40 at high speed.
[0056]
Second Embodiment
The image reading control apparatus according to the second embodiment of the present invention is a modification of the image reading control apparatus 10 according to the first embodiment so that server scan processing of different procedures is executed. Therefore, hereinafter, only the server scan process executed by the image reading control apparatus 10 according to the second embodiment will be described using the same reference numerals as those in the description of the first embodiment.
[0057]
FIG. 7 shows a flowchart of server scan processing executed by the image reading control apparatus 10 according to the second embodiment.
[0058]
As shown in the figure, during the server scan processing, the CPU 21 in the image reading control apparatus main body 11 first sets a variable i for storing what page data is being processed to “0”. Is initialized (step S301), and the scanner 13 is instructed to start reading a document (step S302). Next, the CPU 21 receives the image data (a part of the scan data) transmitted from the scanner 13 and extracts thumbnail data from the image data and stores it in the RAM 23 (step S304). Then, when a condition that requires compression is designated as a server scan execution condition (step S305; YES), the CPU 21 compresses the received image data (step S306), and stores it in the HDD 30. Are written in the scan data temporary file #i (step S307). On the other hand, if the condition that requires compression is not specified as the server scan execution condition (step S305; NO), the CPU 21 writes the received image data as it is in the scan data temporary file #i. (Step S307).
[0059]
The CPU 21 repeatedly executes the processes of steps S304 to S307 until the process related to the image data (scan data) for one page is completed (steps S304 to S308). When the processing of the image data for one page is completed (step S308; YES), a thumbnail temporary file #i holding the thumbnail data #i on the RAM 23 is created in the HDD 30 (step S309). And CPU21 performs the process from step S303 again, when the process of all the pages is not complete | finished (step S310; NO).
[0060]
On the other hand, when the processing of all pages is completed as a result of repeating the above processing (step S310; YES), as shown in FIG. 8, the CPU 21 stores the corresponding page number of the data to be processed. Is initialized to “1” (step S311), and then the file header is transmitted to the file server 40 (step S312). Next, the CPU 21 is required for the data registration information related to the scan data #j and the data registration information related to the thumbnail data #j based on the size, i value, and the like of the scan data temporary file #j and the thumbnail temporary file #j. The data to be processed is specified (step S313). Then, the data registration information related to the scan data #j and the scan data #j are transmitted to the file server 40 (step S314). Further, the data registration information related to the thumbnail data #j and the thumbnail data #j are transmitted to the file server 40. (Step S315). Next, the CPU 21 determines whether or not the j value and the i value match (step S316). If the two values do not match (step S316; NO), the j value is set to “1”. After incrementing (step S) 317), the processing from step S313 is executed again. And CPU21 complete | finishes a server scan process, when j = i is materialized (step S316; YES).
[0061]
Also by the image reading control apparatus 10 according to the second embodiment, an easy-to-use image data file can be prepared in the file server 40 at high speed.
[0062]
<Deformation>
The image reading control apparatus 10 according to each embodiment can perform various modifications. For example, in step S205, the image reading control apparatus 10 according to the first embodiment does not write data registration information, but secures an area for writing data registration information (determining a scan data writing start position). In step S212, all data except the total number of pages may be written. In addition, the image reading control device 10 according to each embodiment is a device in which only scan data may be compressed, and when certain scan data is compressed, all the scan data is compressed. However, the image reading control apparatus 10 may be configured so that the user can individually specify what kind of data the scan data and thumbnail data of each page are to be used.
[0063]
In addition, the image reading control apparatus 10 according to the second embodiment is configured to store all the scan data and thumbnail data in the HDD 30 in a compressed manner, and the data to be included in the TIFF file as normal data. May be configured such that data read from the HDD 30 is restored and transmitted. Further, the image reading control apparatus 10 according to the second embodiment is configured to store the scan data and thumbnail data in the HDD 30 after being compressed by a compression method that cannot be included in the TIFF file (undesirably). In addition, each data in the HDD 30 may be restored and transmitted. Further, the image reading control apparatus 10 according to the second embodiment is configured to store the scan data and thumbnail data in the HDD 30 after being compressed by a compression method that cannot be included in the TIFF file (which is undesirable). In addition, each data in the HDD 30 may be restored, and if necessary, compressed data for the TIFF file may be generated and transmitted. However, in this case, transmission of data registration information relating to the data cannot be started until generation of compressed data for the TIFF file is completed.
[0064]
Further, the scanner 13 (and the printer 50) and the image reading control device 10 may be housed in the same casing. In other words, the function of the image reading control device 10 may be given to the copying machine.
[0065]
【The invention's effect】
According to the image reading control apparatus and the computer-readable recording medium of the present invention, an easy-to-use image data file can be prepared in the file server at high speed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing the configuration and usage of an image reading control apparatus according to a first embodiment of the present invention.
FIG. 2 is an external view of an apparatus configured using the image reading control apparatus according to the first embodiment.
FIG. 3 is a flowchart showing an overall operation procedure of the image reading control apparatus according to the first embodiment.
FIG. 4 is an explanatory diagram of a basic operation screen displayed on the touch screen of the image reading control apparatus according to the first embodiment.
FIG. 5 is an explanatory diagram of a TIFF file created by the image reading control apparatus according to the first embodiment.
FIG. 6 is a flowchart of server scan processing executed by the image reading control apparatus according to the first embodiment.
FIG. 7 is a flowchart of server scan processing executed by the image reading control apparatus according to the second embodiment.
FIG. 8 is a flowchart of the server scan process executed by the image reading control apparatus according to the second embodiment, following FIG.
[Explanation of symbols]
10 Image reading control device
11 Image reading control device body
12 Operating device
13 Scanner
21 CPU
22 ROM
23 RAM
24 bridge
25 HDD controller
26 I / F board for operation panel
27 Scanner I / F board
28 Network I / F board
29 Printer I / F board
30 HDD
40 File server
50 printers
121 touch screen
122 Key operation unit

Claims (9)

In an image reading control device that is connected to a network including a file server and used by being connected to a scanner,
A hard disk device;
A reading start instruction unit for instructing the scanner to start reading a document when a predetermined operation is performed;
In response to the image data sequentially output from the scanner instructed to start reading the document by the reading start instruction unit, the file header and the file header are stored in a logically continuous storage area in the hard disk device. The data block includes a plurality of data blocks, and each data block includes the first type data registration information, the first type image data, the second type data registration information, and the second type image data in this order. The first type data registration information is composed of several pieces of element information including position element information indicating the head position of the second type data registration information in the same data block, and the second type data registration information is the next data block. An image file generation unit that generates an image file composed of several pieces of element information including position element information indicating a head position,
File header writing means for writing the file header of the image file to the hard disk device;
Each time image data relating to a certain page is output from the scanner, the image data is handled as processing target image data. If the first type image data has not yet been written, the file header writing means After writing the first type image data corresponding to the processing target image data to the hard disk device so that a storage area capable of storing the first type data registration information is secured between the written file header and the file header. The second type image data corresponding to the processing target image data is written in the hard disk device so that the storage area for the second type data registration information is secured, and the first type image data is already written. The first type data registration information is stored between the previously written second type image data. After the first type image data corresponding to the processing target image data is written in the hard disk device so that a storage area is secured, the second type data registration information is stored between the first type image data and the first type image data. Image data writing means for writing second-type image data corresponding to the processing target image data to the hard disk device so as to secure a storage area; and
The first type data registration information or the second type data registration information for each of the plurality of first type image data and the plurality of second type image data written to the hard disk device by the image data writing means. An image file generation unit having data registration information writing means for writing
An image reading control apparatus comprising: a transfer unit that transfers the image file generated in the hard disk device by the image file generation unit to the file server. The data registration information writing unit included in the image file generation unit is configured to include a predetermined type of element relating to the first type image data before writing of the first type image data is started by the image data writing unit. The first-type data registration information is written with each piece of information as provisional content information, and the first-type image data is written by the image data writing means. Each of the information is rewritten to the original content information, and before the writing of certain second type image data is started by the image data writing means, each of the predetermined types of element information relating to the second type image data Is written in the second type data registration information with provisional contents information, and after the second type image data is written by the image data writing means, the predetermined type of element information is written. Image reading control apparatus according to claim 1, wherein the rewriting of the information of the original contents of each. The first type data registration information and the second type data registration information each include total page information that is element information indicating the number of first type image data included in the image file.
The data registration information writing means includes a plurality of first type data registration information including temporary information as the total page number information, and temporary information as the total page number information, respectively. Data is written to the hard disk device in synchronization with the operation of the image data writing means so as to form a state in which a plurality of second type data registration information is stored. When the total number of read originals is recognized, the total page number information is rewritten for each of the plurality of first type data registration information and the plurality of second type data registration information that has been written. The image reading control apparatus according to claim 1, wherein: 4. The image reading control apparatus according to claim 1, wherein the image file is a multi-page TIFF file. An image reading control apparatus that is connected to a network including a file server and connected to a scanner.
A hard disk device;
Thumbnail data storage means;
Reading start instruction means for instructing the scanner to start reading a document when a predetermined operation is performed;
First type image data corresponding to each page of image data sequentially output from the scanner instructed to start reading the document by the reading start instruction means is stored in the hard disk device, and the image data Data storage means for generating thumbnail image data according to the data and storing the thumbnail image data in the thumbnail data storage means;
When the output of the image data from the scanner is completed, the total number of documents read by the scanner is recognized, the recognized total number, the first type image data stored in the hard disk device, Based on the thumbnail data stored in the thumbnail storage means, the multi-page TIFF file related to the document read by the scanner is sequentially transmitted to the file server. And an image reading control apparatus. The data storage means stores compressed data of image data for each page sequentially output from the scanner in the hard disk device as the first type image data,
6. The image according to claim 5, wherein when the first type image data stored in the hard disk device is transmitted to the file server, the transmission unit transmits data obtained by restoring the first type image data. Reading control device. The data storage means stores compressed data to be included in the multi-page TIFF file as it is in the multi-page TIFF file of each page of image data sequentially output from the scanner as the first type image data in the hard disk device. The image reading control apparatus according to claim 5. A computer having a hard disk device connected to a network including a file server and connected to a scanner,
A reading start instruction unit for instructing the scanner to start reading a document when a predetermined operation is performed;
In response to the image data sequentially output from the scanner instructed to start reading the document by the reading start instruction unit, the file header and the file header are stored in a logically continuous storage area in the hard disk device. The data block includes a plurality of data blocks, and each data block includes the first type data registration information, the first type image data, the second type data registration information, and the second type image data in this order. The first type data registration information is composed of several pieces of element information including position element information indicating the head position of the second type data registration information in the same data block, and the second type data registration information is the next data block. An image file generation unit that generates an image file composed of several pieces of element information including position element information indicating a head position,
File header writing means for writing the file header of the image file to the hard disk device;
Each time image data relating to a certain page is output from the scanner, the image data is handled as processing target image data. If the first type image data has not yet been written, the file header writing means After writing the first type image data corresponding to the processing target image data to the hard disk device so that a storage area capable of storing the first type data registration information is secured between the written file header and the file header. The second type image data corresponding to the processing target image data is written in the hard disk device so that the storage area for the second type data registration information is secured, and the first type image data is already written. The first type data registration information is stored between the previously written second type image data. After the first type image data corresponding to the processing target image data is written in the hard disk device so that a storage area is secured, the second type data registration information is stored between the first type image data and the first type image data. Image data writing means for writing second-type image data corresponding to the processing target image data to the hard disk device so as to secure a storage area; and
The first type data registration information or the second type data registration information for each of the plurality of first type image data and the plurality of second type image data written to the hard disk device by the image data writing means. An image file generation unit having data registration information writing means for writing
A computer-readable recording medium on which a program for operating as an apparatus including a transfer unit that transfers the image file generated in the hard disk device by the image file generation unit to the file server is recorded. A computer having a hard disk device connected to a network including a file server and connected to a scanner,
Thumbnail data storage means;
Reading start instruction means for instructing the scanner to start reading a document when a predetermined operation is performed;
First type image data corresponding to each page of image data sequentially output from the scanner instructed to start reading the document by the reading start instruction means is stored in the hard disk device, and the image data Data storage means for generating thumbnail image data in accordance with and storing the thumbnail image data in the thumbnail data storage unit;
When the output of the image data from the scanner is completed, the total number of documents read by the scanner is recognized, the recognized total number, the first type image data stored in the hard disk device, Based on the thumbnail data stored in the thumbnail storage means, the multi-page TIFF file related to the document read by the scanner is sequentially transmitted to the file server. A computer-readable recording medium having recorded thereon a program for operating as an apparatus comprising a transmitting means.

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