KR20060119170A - Image input equipment and method - Google Patents

Abstract

A device and a method for inputting images are provided to prevent image distortion generated from an edge of the scanned image by preventing a scanning module from stopping even if a memory temporarily storing data is full while scanning. An index manager(400) assigns an index to each band after dividing a scanning area into more than one band, and stores information to a memory(300). An index determiner(500) checks whether the waited band index to be scanned is present after setting scanning completion to the band if the selected band is completely scanned. A memory determiner(600) checks whether a storage area to store image data is present in the memory. A CPU(100) scans the image through a scanning module(200) if the storage area is in the memory. In case that the currently scanned band is the completed band or the storage space is not present in the memory, the CPU moves the image data from the memory without scanning the image through the scanning module.

Description

Image input equipment and method

1 is a functional block diagram showing a configuration of a conventional flatbed scanner,

2 is a functional block diagram showing a configuration of an image input apparatus according to the present invention;

3 is a flowchart showing an image input method according to the present invention;

4 is a flowchart illustrating a detailed operation of scanning an image by selecting a band index to be scanned in the image input method of FIG. 3.

<Explanation of symbols for the main parts of the drawings>

100: central processing unit 200: scan module

300: memory 400: index management unit

500: index determination unit 600: memory determination unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flatbed scanner, and more particularly, in image scanning, a memory full phenomenon occurs as the image generation rate is faster than the image transfer rate by scanning the scanning area by dividing the scanning area into at least one band unit. The present invention relates to an image input device and a method for removing image distortion by making a call without scanning an image of a current band and determining whether to scan by band and then rescanning.

BACKGROUND ART In general, a scanner is an image input device, which is an apparatus that optically scans a film, a photograph, a document, a drawing, and the like, measures the intensity of reflected light and transmitted light, and converts an analog to digital conversion to input a digital image.

Such scanning methods include a mechanical scanning method for regular scanning and an electronic scanning method for arbitrary scanning. In the scanner using a mechanical scanning method, a drum scanner which fixes a film or a photograph on a rotating drum and scans by rotating the drum and parallel movement of the spot light source, and using a mirror and a lens if the laser beam is rotated. There is a laser scanner for scanning, an image scanner for performing two-dimensional scanning by moving a one-dimensional array of a charge transfer device (CCD) or an amorphous semiconductor in parallel. In remote sensing, a multispectral scanner that scans the ground with a rotating mirror, decomposes radiation on the ground into various wavelengths with branched light, and records the same is used.

Scanners using an electronic scanning method include a flying spot scanner. Drum scanners and flying spot scanners have a high resolution of several tens of micrometers of spot light, and can be used as an image output apparatus by changing parts. The image scanner has a resolution of about 10 pixels per mm and is used as an image input unit such as a facsimile or an optical character reading apparatus (OCR). Laser scanners have a high resolution of 2000 to 4000 pixels per scan line, and have been used as bar code readers.

In addition to simply copying the information on the paper as it is, the scanner can also copy a picture or program in a book or convert it into a form of ones and zeros that computers can handle. By using this, documents accumulated in a cabinet can be taken as a scanner, recognized as text information handled by a computer, and stored in other auxiliary storage devices such as a hard disk or an optical disk. In addition, the scanner occupies a very important position in the desktop publishing (DTP) system of letters, photos, and drawings, and also enables drawing recognition in computer aided design (CAD). Eventually, scanners will expand their use to all areas of the tabletop, including PCs (programmable controllers), due to their ability to accept pictures and recognize optical characters.

Such a conventional scanner includes a central processing unit 100, a scanning module 200, and a memory 300 as shown in FIG. 1, and includes an OPE 105, an LCD 106, and a key 106. And a PC interface 107, a modem 108, and a printer 109.

In the image input method of the conventional scanner, the scanner is driven through the PC interface 107.

Then, the scan module 200 is moved to an initialization position through the driving of the motor and the scanning module 200 is controlled to start scanning.

At this time, the state of the memory 300 is checked to check whether a full phenomenon occurs. If a pull phenomenon occurs in the memory 300, the operation of the scanning module 200 that is scanning is stopped to temporarily stop image scanning.

On the other hand, when the pull phenomenon is released from the memory 300, the scan module 200 is operated again through the image processor 101 to perform the pause scanning operation again.

However, in the conventional image input method of the scanner, if the memory becomes full during scanning and the pull phenomenon occurs, even after the scanning of the scan module is paused and the pull phenomenon is released again, the scan module is driven again to start scanning the image again. In this case, there is a problem in that image distortion occurs due to a step difference occurring at an image boundary part during pause.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to stop the scanning module even when the memory for temporarily storing data becomes full in image scanning. The present invention provides an image input device and a method capable of preventing an image distortion phenomenon from occurring on an interface of a scanned image.

According to an aspect of an image input apparatus according to the present invention for achieving the above object, an index management unit for dividing the scanning area into at least one band and assigning an index to each band to store the information in the memory; An index determination unit for determining whether a waiting band index to be scanned exists after setting scanning " complete scanning " for the band when image scanning of the selected band is completed; An image processor for scanning an image by selecting a band index to scan when a storage area capable of storing image data exists; And a memory determination unit determining whether a storage area capable of storing image data exists in the memory.

According to an aspect of an image input method according to the present invention, the method comprises: dividing a scanning area into at least one band and assigning an index to each band; Determining whether a storage area capable of storing image data exists in the memory and scanning the image by selecting a band index to be scanned if present; If the standby band index exists after the scanning of the selected band is completed, performing image scanning of the standby index after scanning according to the determination of the storage area of the memory.

And deleting the image data scanned in the current band when there is no storage area for storing image data in the memory in the determining the storage area of the memory. And skipping the scan module to the last band and moving the scan module to an initialization position, and proceeding to a storage area determination step of the memory.

The selecting of the band index to scan may include: determining whether a band in which the current scan module is located is a scanning completion band by checking a band index; And if the current band is the scanning complete band in the scanning completion band determination step, moving to the next band after moving the scan module to the next band.

And scanning the image of the current band if the current band is not the scanning complete band in the scanning completion band determination step.

Hereinafter, an image input device and method in a facsimile according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a functional block diagram of a facsimile capable of grouping telephone numbers using scanning according to the present invention, the image input apparatus according to the present invention includes a central processing unit 100, a scan module 200, a memory 300, and an index management unit. 400, an index determining unit 500, and a memory determining unit 600, including an OPE 105, an LCD 106, a key 106, a PC interface 107, a modem 108, and It may further include a printer (109).

First, the CPU 100 may control to scan an image through the scan module 200 when a storage area for storing image data exists in the memory 300 through the memory determiner 600. On the other hand, if the band being scanned by the index determination unit 500 is a band in which scanning is completed or there is no storage space for storing image data through the memory determination unit 600, the scanning module 200 is used. Control to move the image without scanning it.

The scan module 200 is composed of a light source and a sensor, an image sensor generating an analog signal for the document, a photo sensor for detecting a transfer position of the moving document, and a motor for transferring the image sensor or the document in the scanning direction. And an image processor configured to control the image sensor and the photo center through the control of the central processing unit 100 to scan an image.

In addition, the memory 300 stores image data for each band scanned from the scan module 200 under the control of the CPU 100, and index information of the band input from the index manager 400. Save it.

In addition, the index manager 400 divides the scanning area into at least one band, assigns an index to each band, and stores the information in the memory 300.

When the image scanning of the selected band is completed, the index determination unit 500 sets "scanning completed" for the band and then determines whether there is a standby band index to be scanned.

The memory determiner 600 determines whether a storage area for storing image data exists in the memory 300.

In addition, the OPE 105 transmits information input from the user through the key 106 to the CPU 100, receives a message from the CPU 100, and transmits the message to the LCD 106. .

In addition, the LCD 106 displays a message received from the OPE 105, and the key 106 transmits a command to the CPU 100 by a user.

In addition, the PC interface 107 transmits an image generated as a part to interface with a computer to the host.

In addition, the modem 108 modulates / demodulates data to handle transmission / reception with the PSTN network.

The printer 109 also prints data received from the modem 108 or prints the scanned image.

Next, an operation process of the image input device having the above configuration will be described.

First, when scanning is started, the index manager 400 divides the scanning area into at least one band and assigns an index to each band. For example, the image to be scanned is divided into five bands, and each band is indexed from 1 to 5. At this time, when the image is 10Mbyte, the capacity of each band is 2Mbyte, and the assigned index information is stored in the memory 300. If the area in which the image data can be stored exists in the memory 300 and the image data scanned from the divided band is not stored due to large size, the divided band may be re-divided.

Subsequently, the memory determination unit 600 determines whether a storage area capable of storing image data exists in the memory 300. That is, when the storage capacity of the memory 300 is 5Mbyte, when storing images for each band, there is a space for storing two bands.

At this time, if there is a storage area (4 Mbytes) capable of storing image data in the memory 300 (YES), the image is scanned by selecting a band index to be scanned. That is, when the memory has a storage space of 4Mbytes, the first band can be stored.

Subsequently, when image scanning of the selected first band is completed, the band is set to scanning completion and then it is determined whether there is a standby band index to be scanned. In this case, when the indexes of the first to fifth bands that are not scanned are displayed as '1' in the memory 300, the index of the first band where image scanning is completed is set to '0'.

At this time, if the standby band index exists, the storage area of the memory 300 is determined. If the standby band index does not exist, image scanning is terminated.

If there is no storage area for storing image data in the memory 300 (N0), the image data scanned in the current band is deleted. That is, since the storage capacity of the memory 300 is 4 Mbytes, when the images of the first band and the second band have been scanned but the image scanning of the third band is performed without being transmitted to another external device, the image of the third band is Since there is no storage area in the memory 300, the image data of the third band is deleted.

Subsequently, the scan module 200 is skipped to the last band and then moved to the initialization position while determining the storage area of the memory 300.

At this time, the band index stored in the memory 300 is checked to determine whether the band in which the current scan module 200 is located is a scanning completion band. That is, by checking the band index stored in the memory 300, it can be confirmed that the indexes of the first band and the second band are set to '0'.

At this time, if the current band is the scanning complete band (YES) in the scanning completion band determination step (S31), the scan module 200 is moved to the next band and then the band index is checked.

On the other hand, in the scanning completion band determination step (S31), if the current band is not the scanning completion band, the image of the third band is scanned.

Next, an image input method having the above configuration will be described with reference to FIG. 3.

First, the scanning area is divided into at least one band and an index is assigned to each band (S1).

Next, it is determined whether a storage area capable of storing image data exists in the memory 300 (S2).

At this time, if a storage area for storing image data exists in the storage area determination step (S2) of the memory 300 (YES), the band index to be scanned is selected to scan the image (S3).

Hereinafter, a detailed operation process of the above-described third step S3 will be described in more detail with reference to FIG. 4.

First, the band index is checked to determine whether the band in which the current scan module 200 is located is a scanning completion band (S31).

At this time, if the current band in the scanning completion band determination step (S31) (YES), the scan module 200 is moved to the next band and proceeds to the previous step (S31) (S32).

On the other hand, if the current band is not the scanning completion band (NO) in the scanning completion band determination step (S31), the image of the current band is scanned (S33).

Subsequently, when image scanning of the selected band is completed, the band is set to scanning completion (S4).

After determining whether there is a standby band index to be scanned (S5) and if there is a standby band index (YES), the process proceeds to the storage area determination step (S2) of the memory 300, while if the standby band index does not exist (NO). ) End all image scanning.

If there is no storage area for storing image data in the memory 300 in step S2 of determining the storage area of the memory 300 (N0), the image data scanned in the current band is deleted (S6).

Subsequently, the scan module 200 is skipped to the last band and then moved to the initialization position, while the storage area of the memory 300 is moved to the determination step S2.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be apparent to those skilled in the art that various changes and modifications can be made within the spirit of the present invention, and such modifications and modifications belong to the appended claims. .

As described above, according to the image input device and method according to the present invention, even if the memory for temporarily storing image data during scanning becomes full, the scanning module stops during scanning by performing the scanning operation without stopping. There is an excellent effect that can eliminate the image boundary step caused by the.

Claims (5)

Dividing the scanning area into at least one band and assigning an index to each band; Determining whether a storage area capable of storing image data exists in the memory and scanning the image by selecting a band index to be scanned if present; And scanning the image of the standby index after scanning according to the determination of the storage area of the memory if the standby band index exists after image scanning of the selected band is completed. The method of claim 1, If there is no storage area to store the image data in the memory, deleting the image data scanned in the current band; And And skipping the scan module to the last band, moving the scan module to an initialization position, and then proceeding to a storage area determination step of the memory. The method of claim 1, Selecting the band index to scan, Checking a band index to determine whether a band in which the current scan module is located is a scanning completion band; And In the scanning completion band determination step, if the current band is not the scanning completion band, scanning the image of the current band, and if the current band is the scanning completion band, moving the scan module to the next band and then proceeding to the previous step Image input method. The method of claim 1, The image input method may further include transmitting index information of the band together when transmitting band-specific image data stored in a memory to an external upper application. In the image input device, An index manager for dividing the scanning area into at least one band and assigning an index to each band and storing the information in a memory; An index determination unit for determining whether a waiting band index to be scanned exists after setting scanning " complete scanning " for the band when image scanning of the selected band is completed; A memory determining unit determining whether a storage area capable of storing image data exists in the memory; And If there is a storage area for storing image data in the memory through the memory determination unit, the scanning module controls the scanning of the image, while the band being scanned is the band where the scanning is completed or the memory determination unit And a central processing unit controlling to move the image without scanning the image through the scanning module when there is no storage space for storing image data.

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