JP2004172974A - Image reading and encoding device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reading and encoding device for automatically selecting an encoding scheme and carrying out the encoding in accordance with the image according to image data. <P>SOLUTION: A digital composite device 20 is provided with an image reading unit 2 for reading a document image and converting it into image data and output it. A main control unit 1 judges whether the image according to the converted image data is a character image or not (steps S1, S2 in the figure). When the image according to the converted image data is a character image, the main control unit 1 encodes the converted image data using Lossless scheme of JPEG 2000 (step S3). On the other hand, when the image according to the converted image data is not a character image, but a photographic image, the main control unit 1 encodes the converted image data using Lossy scheme of JPEG 2000 (step S4). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image reading code for reading an original image, converting the image into image data, and encoding the image data using a predetermined encoding method, such as an image scanner (hereinafter, referred to as a scanner) or an image reading unit of a digital multifunction peripheral. Device.
[0002]
[Prior art]
2. Description of the Related Art A LAN system in which a digital multifunction peripheral, which is a facsimile machine with a copy, printer, and scanner function, and a plurality of client devices such as personal computers are connected via a local area network (hereinafter referred to as LAN) has been put into practical use. I have. In this prior art LAN system, a scanner in a digital multifunction peripheral scans a document image, converts it into image data, stores it in a memory box in an image memory corresponding to each client device, and issues a transfer instruction from each client device. The image data is read from the memory box in the image memory in response to the request signal and transferred to the corresponding client device via the LAN.
[0003]
In the LAN system described above, when image data of a document image is stored in the image memory, it is encoded and stored at a predetermined fixed compression rate. In addition, the user changes the compression method according to the type of the document and stores the image data. For example, in the case of a photographic image, the image data is compressed and encoded using the JBIG method, while in the case of a character image, the image data is compressed and encoded using the MMR method.
[0004]
Further, for example, in Japanese Patent Application Laid-Open No. H11-163, "When storing and storing image data obtained by reading a document image, if the control unit determines that a memory overflow has occurred, the compression ratio is automatically changed and the memory is changed. An image recording apparatus for re-storing storage and storage in a storage device "is disclosed.
[0005]
[Patent Document 1]
Japanese Patent Application Laid-Open No. H08-065474
[0006]
[Problems to be solved by the invention]
However, there is no image reading encoding apparatus that automatically selects and encodes an optimal encoding method according to an image of image data.
[0007]
An object of the present invention is to solve the above problems and to provide an image reading and encoding apparatus that automatically selects and encodes an encoding method according to an image of image data.
[0008]
[Means for Solving the Problems]
An image reading and encoding apparatus according to a first aspect of the present invention reads an original image, converts the image into image data, and outputs the image data, and determines whether the image of the converted image data is a character image. Determining means for encoding the converted image data using the JPEG2000 Lossless method when the image of the converted image data is a character image, and determining whether the image of the converted image data is not a character image Encoding means for encoding the converted image data using the lossy method of JPEG2000.
[0009]
In the image reading encoding apparatus, when the image of the converted image data is not a character image, the encoding unit converts the converted image data to a JPEG2000 Lossy according to a parameter corresponding to a preset image quality. It is characterized by encoding using a method.
[0010]
An image reading and encoding apparatus according to a second aspect of the present invention includes an image reading unit that reads an original image, converts the image into image data, and outputs the image data, and encodes the converted image data using the JPEG2000 Lossless method. Encoding means for encoding the converted image data using the lossy method of JPEG2000 when the encoded image data is equal to or larger than a preset file size or number of data. Features.
[0011]
In the image reading encoding apparatus, when the image data converted by the encoding means is encoded by using the lossy method of JPEG2000, a display means for displaying an image of the encoded image data on a display device. It is further characterized by comprising:
[0012]
Further, in the image reading / encoding device, when the image data converted by the encoding unit is encoded using the lossy method of JPEG2000, the image of the encoded image data is written using an image recording device. It is characterized by further comprising a recording means for recording.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0014]
<Embodiment>
FIG. 1 is a block diagram showing a configuration of a LAN system provided with a digital multifunction device 20 which is a facsimile device having a copy, printer and scanner function according to an embodiment of the present invention.
[0015]
The LAN system according to this embodiment is connected to a plurality of N client personal computers 30-1 to 30-N (hereinafter collectively referred to as 30) and to a public telephone network 80 via a public telephone line L. The digital multifunction peripheral 20 and the router 60 connected to the Internet 90 are connected via a LAN 70. By connecting to the Internet 90 from each client personal computer 30 via a router device 60 or a mail server device (not shown), it is possible to browse a homepage and send and receive e-mails. The access device 30 is configured to access the digital multifunction device 20 to commonly use the functions of the copy, printer, scanner, and facsimile of the device 20.
[0016]
At present, a compression method called JPEG2000 (Joint Photographic Expert Group 2000) is standardized. This compression method is a compression method established by the JPEG Standards Committee in the year 2000, and is established as an international standard by ISO15444. JPEG2000 supports two types of systems: a lossless system (no loss) and a lossy system (lossy). Here, the former Lossless method cannot completely restore the image data at the time of decoding, but has a high compression ratio, whereas the latter Lossy method can completely restore the image data at the time of decoding. In the digital multifunction peripheral 20 according to the present embodiment, the compression encoding process is performed using the JPEG2000 system.
[0017]
The digital multifunction peripheral 20 according to the present embodiment includes an image reading unit 2 that reads an original image, converts the image into image data, and outputs the image data. The main control unit 1 determines that the image of the converted image data is a character image. (Steps S1 and S2 in FIG. 4), and when the image of the converted image data is a character image, compression-encodes the converted image data using the JPEG2000 Lossless method (Step S1). S3) On the other hand, when the image of the converted image data is a photographic image that is not a character image, the converted image data is compression-coded using the lossy method of JPEG2000 (step S4). Here, when the image of the converted image data is a photographic image that is not a character image, the main control unit 1 converts the converted image data into a JPEG2000 Lossy method according to a parameter corresponding to a preset image quality. (Step S9).
[0018]
Further, the main control unit 1 compresses and encodes the converted image data using the JPEG2000 Lossless method (step S13 in FIG. 5), and stores the compressed and encoded image data in a file size of a preset data. When the number of pages is equal to or greater than the number of pages (YES in step S14), the converted image data is compression-encoded using the lossy method of JPEG2000 (step S18).
[0019]
Further, when the image data is compression-encoded using the lossy method of JPEG2000 (YES in step S24 of FIG. 6) and the prior confirmation key is pressed (YES in step S23), the main control unit 1 performs the compression encoding. The image of the compressed image data is displayed on the display unit 4 (step S25), and when the test print key is pressed (YES in step S26), the image of the compression-encoded image data is used by the image recording unit 3. (Step S27).
[0020]
FIG. 2 is a block diagram showing a configuration of the client personal computer 30 of FIG.
[0021]
In FIG. 2, a client personal computer 30 is an external terminal device, which is a known personal computer, and executes processing such as generation, recording, and storage of image data and character data. The client personal computer 30 is used as, for example, an external terminal device that transmits or receives image data scanned by the scanner of the image reading unit 2 of the digital multifunction peripheral 20. The main control unit 101 is specifically configured by a CPU, is connected to the following hardware units via a bus 113, controls them, and executes various software functions to be described later. In the client personal computer 30, an image reading unit and an image recording unit (not shown) are provided as options. The display unit 104 is a display device such as a liquid crystal display (LCD) or a CRT display, and displays the operation state of the client personal computer 30 and displays image data of a document to be transmitted and received image data. Do. The operation unit 105 is a keyboard, for example, for inputting character data and instruction commands.
[0022]
The ROM 106 stores in advance various software programs necessary for the operation of the client personal computer 30 and executed by the main control unit 101. The RAM 107 includes an SRAM, a DRAM, and an SDRAM, and is used as a working area of the main control unit 101 to store temporary data generated when a program is executed. Further, the hard disk drive 108 is a storage device having a built-in recording medium, and stores an application program to be executed and an image memory.
[0023]
FIG. 3 is a block diagram showing the configuration of the digital multifunction peripheral 20 of FIG.
[0024]
In FIG. 3, the digital multifunction peripheral 20 has copy, printer, and scanner functions and image data compression / encoding function in addition to a conventional facsimile communication function such as the G3 system. The main control unit 1 is specifically configured by a CPU, is connected to the following hardware units via a bus 13, controls them, and executes various software functions to be described later. The image reading unit 2 reads a document with a scanner using a CCD or the like, and outputs dot image data converted into binary black and white. The image recording unit 3 is a printer device of, for example, an electrophotographic system, and prints out, as a hard copy, image data scanned and converted by the image reading unit 2 and image data received from another facsimile device by facsimile communication. Record or record character data.
[0025]
The display unit 4 is a display device such as a liquid crystal display (LCD) or a CRT display. The display unit 4 displays an operation state of the digital multifunction peripheral 20, and displays image data of a document to be transmitted and received image data. Do. The operation unit 5 includes character keys, dial numeric keys, speed dial keys, one-touch dial keys, various function keys, and the like necessary for operating the digital multifunction peripheral 20. Note that the display unit 4 may be configured to be a touch panel type so that some or all of the various keys of the operation unit 5 can be substituted.
[0026]
The ROM 6 previously stores various software programs necessary for the operation of the digital multifunction peripheral 20 and executed by the main control unit 1. In the present embodiment, the ROM 6 is based on at least the type of the original shown in FIG. Image reading processing with automatic setting of the compression method, image reading processing with automatic setting of the compression method based on the file size or the number of pages shown in FIG. 5, and display of the image shown in FIG. And a program for confirmation processing. The RAM 7 is composed of an SRAM, a DRAM, an SDRAM, or the like, and is used as a working area of the main control unit 1 and stores temporary data generated when a program is executed. When a flash memory is used as the RAM 7, even if the power is cut off due to a power failure, a movement of the apparatus, or the like, the contents of the data are not lost.
[0027]
The image memory 8 is constituted by a DRAM or the like, and stores image data to be transmitted or received image data, or scanned and converted image data. Here, the image memory 8 includes a page buffer area 8a for temporarily storing document image data in page units. Further, the hard disk drive 9 is a storage device having a built-in recording medium, and stores various data and programs.
[0028]
The fax modem 10 is a modem connected to the public telephone line L and having a function of a fax modem for normal facsimile communication. An NCU (Network Control Unit) 11 is a hardware circuit that closes and opens a DC loop or the like of an analog public telephone line L and has an automatic dialing function. To the public telephone line L. Here, the NCU 11 detects an ID receiving terminal activation signal and a normal telephone call signal in the outgoing telephone number notification service, and transmits a primary response signal and a secondary response signal in the outgoing telephone number notification service as necessary. can do. The NCU 11 may be connected to a baseband transmission type digital line (for example, an ISDN line) via a predetermined terminal adapter and a DSU (Digital Service Unit).
[0029]
Further, the LAN interface 12 is connected to the LAN 70, receives signals and data from the LAN 70, transmits signals and data to the LAN 70, and executes interface processing related to LAN communication such as signal conversion and protocol conversion. .
[0030]
In the facsimile communication function of the digital multifunction peripheral 20 configured as described above, the dot image data transferred from each of the client personal computers 30-1 to 30-N or the dot image data read by the image reading unit 2 is facsimile. After being encoded by software according to an encoding system such as MH, MR, MMR or the like defined by a communication standard, the encoded data is transmitted to a facsimile apparatus of the other party, while the encoding is received from the facsimile apparatus of the other party. The data is also decoded into image data by software, stored in the image memory 8, and printed by the image recording unit 3 as needed.
[0031]
FIG. 4 is a flowchart showing an image reading process including an automatic setting process of a compression method based on the document type, which is executed by the main control unit 1 of FIG.
[0032]
In FIG. 4, first, it is determined in step S1 whether the document type is a character. If NO in step S1, it is determined in step S2 whether the document type is a photograph. Here, if YES is determined in the step S1, a JPEG2000 Lossless compression method is selected in a step S3, and then the process proceeds to a step S6. When YES is determined in the step S2, the compression method of the JPEG2000 Lossy method is selected in the step S4, and then the process proceeds to the step S6. Further, when NO is determined in the step S2, the compression method of the JPEG2000 Lossy method is selected in the step S5, and then the process proceeds to the step S6. The document type is determined, for example, when the distribution of multi-valued data of image data is concentrated on two values, it is determined that the image is a character image. An image can be determined.
[0033]
In step S6, the document is read using the image reading unit 2 and converted into document image data, and the document image data is stored in the page buffer area 8a. Next, it is determined whether or not the compression method selected in step S7 is the lossless method. If YES, the process proceeds to step S8, and if NO, the process proceeds to step S9. In step S8, the document image data in the page buffer area 8a is compression-encoded by the selected Lossless compression method and stored in the image memory 8, and the process proceeds to step S10. In step S9, the original image data in the page buffer area 8a is compression-encoded according to the parameter corresponding to the image quality set in advance by the selected Lossy method, and stored in the image memory 8, and the process proceeds to step S10. Further, in step S10, it is determined whether reading of the document of all pages has been completed. If NO, the process returns to step S1, while if YES, the image reading process ends.
[0034]
FIG. 5 is a flowchart illustrating an image reading process including an automatic setting process of a compression method based on a file size or the number of pages, which is executed by the main control unit 1 in FIG.
[0035]
In FIG. 5, first, in step S11, the JPEG2000 Lossless compression method is selected, and in step S12, the original is read using the image reading unit 2 and converted into original image data, and the original image data is stored in the page buffer area 8a. Store. Next, in step S13, the original image data in the page buffer area 8a is compressed in the selected Lossless compression method and stored in the image memory 8, and the original image data compressed in step S14 is stored in the file size of the preset data. It is determined whether or not the number of pages has been reached. If NO, the process proceeds to step S15, while if YES, the process proceeds to step S17. In step S15, it is determined whether the compression and accumulation of one page of image data has been completed. If YES, the process proceeds to step S16, and if NO, the process returns to step S13. Further, in step S16, it is determined whether reading of the document of all pages is completed. If NO, the process returns to step S11, while if YES, the image reading process ends.
[0036]
Next, in step S17, the image data that is being stored in the image memory 8 is deleted, and in step S18, the original image data in the page buffer area 8a is compression-encoded by the lossy method according to a parameter corresponding to a preset image quality. It is stored in the image memory 8 and it is determined in step S19 whether reading of the document of all pages has been completed. If NO, the process returns to step S1, whereas if YES, the image reading process ends.
[0037]
FIG. 6 is a flowchart showing an image display and confirmation process executed by the main control unit 1 of FIG.
[0038]
In FIG. 6, first, the read image data is compressed and stored in the image memory 8 using the compression method selected in step S21, and it is determined in step S22 whether the compression and storage processing of the originals of all pages has been completed. If YES, the process proceeds to step S23, while if NO, the process returns to step S21. Next, in step S23, it is determined whether or not the prior confirmation key in the operation unit 5 has been pressed. If YES, the process proceeds to step S24, while if NO, the process proceeds to step S28. In step S24, it is determined whether or not the stored image data includes image data that has been compression-encoded by the lossy method. If YES, the process proceeds to step S25, while if NO, the process proceeds to step S28. Further, the image of the image data read in step S25 is displayed on the display unit 4 on the preview screen, and in step S26, it is determined whether the test print key in the operation unit 5 has been pressed, and if YES, the process proceeds to step S27. On the other hand, if NO, the process proceeds to step S28. In step S27, a test print process is executed, an image of the image data compressed and encoded by the lossy method is printed using the image recording unit 3, and the process proceeds to step S28.
[0039]
Next, in step S28, it is determined whether or not to execute the facsimile transmission process. If YES, the process proceeds to step S29, while if NO, the process proceeds to step S31. In step S29, a facsimile transmission process is executed. In step S30, it is determined whether or not the facsimile transmission process for all pages has been completed. If NO, the process returns to step S29. The confirmation processing ends. In step S31, copy print processing is executed. In step S32, it is determined whether copy print processing for all pages is completed. If NO, the process returns to step S31. The display and confirmation processing ends.
[0040]
As described above, according to the present embodiment, the main control unit 1 determines whether the image of the converted image data is a character image (steps S1 and S2 in FIG. 4), and When the image of the converted image data is a character image, the converted image data is compression-encoded using the JPEG2000 Lossless method (step S3), while the image of the converted image data is not a character image. If so, the converted image data is compression-encoded using the JPEG2000 Lossy method (step S4). Therefore, it is possible to automatically select the most appropriate compression coding method and automatically switch the compression coding method, execute image processing quickly, and greatly improve operability. Here, when the image of the converted image data is a photographic image that is not a character image, the main control unit 1 converts the converted image data into a JPEG2000 Lossy method according to a parameter corresponding to a preset image quality. (Step S9). Accordingly, since the user does not particularly need to specify the compression parameter, the image processing can be automated without the user's input and can be executed quickly.
[0041]
Further, the main control unit 1 compresses and encodes the converted image data using the JPEG2000 Lossless method (step S13 in FIG. 5), and stores the compressed and encoded image data in a file size of a preset data. When the number of pages becomes equal to or greater than the number of pages (YES in step S14), the converted image data is compression-encoded using the JPEG2000 Lossy method (step S18). Therefore, the size of the image data after the compression and encoding can be compressed and encoded as much as possible, and in particular, the memory amount can be saved as necessary.
[0042]
Further, when the image data is compression-encoded using the lossy method of JPEG2000 (YES in step S24 of FIG. 6) and the prior confirmation key is pressed (YES in step S23), the main control unit 1 performs the compression encoding. The image of the obtained image data is displayed on the display unit 4 (step S25). Therefore, the image of the compression-encoded image data can be displayed on a trial basis, the user can check the image after the compression-encoding, and the operability can be improved. In particular, this is effective when it is desired to see the effect of compression encoding on an image on a screen. Further, when the test print key is pressed (YES in step S26), the image of the compression-encoded image data is printed by executing a test print process using the image recording unit 3 (step S27). Therefore, the image of the compression-encoded image data can be printed on a trial basis, the user can confirm the image after the compression-encoding, and the operability can be improved. In particular, this is effective when it is desired to see the effect of compression encoding on an image on recording paper.
[0043]
<Modification>
In the above embodiment, an example of the digital multifunction peripheral 20 has been described. However, the present invention is not limited to this, and can be widely applied to an image reading and encoding apparatus having a scanner function.
[0044]
【The invention's effect】
As described above in detail, according to the image reading and encoding apparatus of the first invention, an image reading unit that reads a document image, converts the image into image data, and outputs the image data, and converts the image of the converted image data into a character image Determination means for determining whether or not the converted image data is a character image; and encoding the converted image data using the JPEG2000 Lossless method while the converted image data is a character image. Encoding means for encoding the converted image data using the lossy method of JPEG2000 when the data image is not a character image. Therefore, it is possible to automatically select the optimal encoding method and automatically switch the encoding method, execute image processing quickly, and greatly improve operability.
[0045]
In the image reading encoding apparatus, when the image of the converted image data is not a character image, the encoding unit converts the converted image data to a JPEG2000 Lossy according to a parameter corresponding to a preset image quality. Encode using the method. Accordingly, since the user does not particularly need to specify the compression parameter, the image processing can be automated without the user's input and can be executed quickly.
[0046]
Further, according to the image reading encoding apparatus of the second invention, an image reading means for reading an original image, converting the image into image data, and outputting the image data, and encoding the converted image data using the JPEG2000 Lossless method. Encoding means for encoding the converted image data using the lossy method of JPEG2000 when the encoded image data exceeds the file size or the number of pages of the preset data. Therefore, the size of the image data after encoding can be compressed and encoded as much as possible, and in particular, the amount of memory can be saved as needed.
[0047]
In the image reading encoding apparatus, when the image data converted by the encoding means is encoded by using the lossy method of JPEG2000, a display means for displaying an image of the encoded image data on a display device. Further prepare. Therefore, the image of the encoded image data can be displayed on a trial basis, the user can confirm the encoded image, and the operability can be improved. This is particularly effective when it is desired to see the effect of the encoding on the image on the screen.
[0048]
Further, in the image reading / encoding device, when the image data converted by the encoding unit is encoded using the lossy method of JPEG2000, the image of the encoded image data is written using an image recording device. It further comprises a recording means for recording. Therefore, the image of the encoded image data can be printed on a trial basis, the user can check the image after encoding, and the operability can be improved. This is particularly effective when it is desired to see the effect of the encoding on the image on the recording paper.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a LAN system including a digital multifunction peripheral 20, which is a facsimile machine with a copy, printer, and scanner function, according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a client personal computer 30 of FIG.
FIG. 3 is a block diagram showing a configuration of the digital multifunction peripheral 20 of FIG.
FIG. 4 is a flowchart illustrating an image reading process including an automatic setting process of a compression method based on a document type, which is executed by a main control unit 1 of FIG. 3;
FIG. 5 is a flowchart showing an image reading process including an automatic setting process of a compression method based on a file size or the number of pages, which is executed by the main control unit 1 of FIG. 3;
FIG. 6 is a flowchart showing an image display and confirmation process executed by the main control unit 1 of FIG. 3;
[Explanation of symbols]
1 ... Main control unit
2. Image reading unit
4 Display unit,
5 Operation unit,
6 ... ROM,
7 ... RAM,
8. Image memory,
8a: page buffer area,
9 ... Hard disk drive,
10 ... Fax modem,
11 ... NCU,
12 LAN interface,
13 ... bus,
20: Digital composite device,
30, 30-1 to 30-N: client personal computer (client personal computer),
70 ... Local area network (LAN).

Claims (5)

Image reading means for reading an original image, converting the image into image data, and outputting the image data; determining means for determining whether the image of the converted image data is a character image; and determining whether the image of the converted image data is When the converted image data is a character image, the converted image data is encoded using the JPEG2000 Lossless method, while when the converted image data image is not a character image, the converted image data is encoded using the JPEG2000 Lossy method. And an encoding means for encoding. When the image of the converted image data is not a character image, the encoding means encodes the converted image data using a lossy method of JPEG2000 according to a parameter corresponding to a preset image quality. 2. The image reading and encoding apparatus according to claim 1, wherein: Image reading means for reading a document image, converting the image data into image data, and outputting the image data; encoding the converted image data using the JPEG2000 Lossless method; and storing the encoded image data in a file of a preset data. An encoding means for encoding the converted image data using the lossy method of JPEG2000 when the size or the number of pages is exceeded. A display unit for displaying an image of the encoded image data on a display device when the image data converted by the encoding unit is encoded using the lossy method of JPEG2000. The image reading and encoding apparatus according to claim 1. When the image data converted by the encoding means is encoded by using the lossy method of JPEG2000, recording means for recording an image of the encoded image data using an image recording apparatus is further provided. The image reading and encoding apparatus according to claim 1, wherein:

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