JP2012085232A - Image processing apparatus and image processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image processing apparatus that rotates a read document image in a proper direction to create document information.SOLUTION: An image processing apparatus extracts a partial image having a different attribute included in a document image, determines the direction of the partial image having a character attribute, and obtain the determination result (100-106). The image processing apparatus then expands the partial image having an image attribute if the partial image is compressed (114, 116), rotates image information to be coincided with the partial image having the character attribute and allows the image information to be subjected to reversible compression (118, 120), and creates document information of document creation software (122).

Description

  The present invention relates to an image processing apparatus and an image processing program.

  In the technique described in Patent Document 1, an input image is erected, and an image rotation unit that holds a rotation angle of an image rotation process performed on the input image, and according to the rotation angle or input device information It has been proposed to include a correction unit that calculates a positional deviation of an image and performs correction based on the positional deviation. That is, the technique described in Patent Document 1 describes that when an image is read, the read image is rotated and aligned.

JP 2006-129511 A

  An object of the present invention is to create document information by rotating a read document image in a correct direction even when the orientation of the document image is unknown.

  The image processing apparatus according to claim 1, an extraction unit that extracts a character attribute partial image and an image attribute partial image from image information obtained by reading a document image, and a character extracted by the extraction unit. The orientation of the attribute partial image is determined, and if the orientation is incorrect, the character attribute partial image is rotated so that the orientation is correct, and the image attribute partial image is rotated in accordance with the character attribute partial image. And generating means for generating document information in a predetermined software format by performing rotation processing as described above.

  According to a second aspect of the present invention, in the first aspect of the present invention, the generating unit rotates the partial image with the image attribute and then reversibly or irreversibly compresses the partial image with the image attribute according to a predetermined condition. Then, the document information is generated.

  According to a third aspect of the present invention, in the second aspect of the present invention, when the partial image with the image attribute is a black and white image as a predetermined condition, the generation unit performs reversible compression on the partial image with the image attribute. The document information is generated.

  According to a fourth aspect of the present invention, in the second aspect of the present invention, the generation unit is configured such that, as a predetermined condition, the image attribute partial image is a color image, and the image attribute partial image capacity is a predetermined threshold value. If larger, the document information is generated by irreversibly compressing a partial image having an image attribute.

  According to a fifth aspect of the present invention, in the second aspect of the present invention, when the generation unit exceeds a predetermined threshold value as a predetermined condition, the generation unit performs subsequent images. The document information is generated by irreversibly compressing the attribute partial image.

  According to a sixth aspect of the present invention, in the first aspect of the present invention, the generation unit generates the document information by reversibly compressing a partial image having an image attribute after rotation.

  According to a seventh aspect of the present invention, in the first aspect of the present invention, any one of a first rotation process for adding rotation information to a partial image or a second rotation process for rotating an actual image is set as the rotation process. It is further characterized by further comprising setting means.

  An image processing program according to an eighth aspect is characterized in that a computer is caused to function as each unit of the image processing apparatus according to any one of the first to sixth aspects.

  According to the first and eighth aspects of the invention, there is an effect that even when the orientation of the read document image is unknown, the document information can be created by rotating the read document image in the correct orientation.

  According to the second to fifth aspects of the invention, there is an effect that image quality deterioration can be suppressed while suppressing an increase in the capacity of the generated document information.

  According to the sixth aspect of the invention, there is an effect that image quality deterioration can be suppressed as compared with the case of irreversible compression.

  According to the seventh aspect of the invention, there is an effect that the rotation process can be selected in accordance with the software for displaying the document information used by the user.

1 is a diagram illustrating a schematic configuration of an image processing apparatus 10 according to an embodiment of the present invention. It is a block diagram which shows the functional structure of the image process part 16 of the image processing apparatus 10 concerning embodiment of this invention. FIG. 10 is a diagram illustrating an example in which a document including a character attribute partial image and a photograph attribute partial image is read in a state rotated 90 degrees right and a character attribute partial image and a photograph attribute partial image are extracted. (A) It is a figure which shows the example which produces | generates and displays document information by giving rotation information to an image, (B) is a figure which shows the example which produces | generates and displays document information by rotating an image. It is a flowchart which shows the flow of the process performed with the image processing apparatus concerning embodiment of this invention. It is a flowchart which shows the 1st modification of the process performed with the image processing apparatus concerning embodiment of this invention. It is a flowchart which shows the 2nd modification of the process performed with the image processing apparatus concerning embodiment of this invention. It is a flowchart which shows the 3rd modification of the process performed with the image processing apparatus concerning embodiment of this invention.

  Hereinafter, an example of an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing a schematic configuration of an image processing apparatus 10 according to an embodiment of the present invention.

  As shown in FIG. 1, an image processing apparatus 10 according to an embodiment of the present invention includes an image reading unit 12, an image storage unit 14, an image processing unit 16, a RAM 18, a communication control unit 20, an operation display unit 22, and a control. The unit 24 is provided.

  The image reading unit 12 optically reads a document image to be read to acquire image information representing the document image, and the image storage unit 14 stores the image information acquired by the image reading unit 12.

  The image processing unit 16 reads out the image information stored in the image storage unit 14 and performs processing such as encoding, decoding, and reduction on the image information, and determines the direction of characters and determines the image according to the determination result. The document information in a predetermined software format is created by performing the rotation process. In this embodiment, the rotation processing includes a case where an image is rotated and a case where rotation is enabled when rotation information is added to image information and displayed.

  The RAM 18 functions as a memory for storing communication information. When the image processing unit 16 performs image processing, the RAM 18 develops image information stored in the image storage unit 14 and performs an image process. Act as a region.

  The communication control unit 20 includes a Transport Protocol control unit 20A that controls protocols such as HTTP (HyperText Transfer Protocol) and SIP (Session Initiation Protocol), and a TCP / UDP / IP control unit that controls Internet transport and network layer protocols. 20B and a Net Work interface 20C for controlling communication below the data link layer. The network interface 20C is connected to communication means such as a network, and external information processing equipment (for example, a personal computer or To communicate with an image forming apparatus).

  The operation display unit 22 includes operation buttons, a display unit, and the like. By operating the operation buttons and the like based on information displayed on the display unit, various settings of the image processing apparatus 10, an instruction to execute image processing, and the like. I do.

  The control unit 24 performs control processing for the entire image processing apparatus 10. For example, the image reading unit 12 reads an image, accumulates the acquired image information in the image storage unit 14, and controls a series of flows when the image processing unit 16 performs image processing on the stored image information. Do.

  FIG. 2 is a block diagram showing a functional configuration of the image processing unit 16 of the image processing apparatus 10 according to the embodiment of the present invention.

  The image processing unit 16 includes a read image acquisition unit 26, an image analysis unit 28, a partial image type determination unit 30, and various information generation units (character information generation unit 32A, graphic (CG) information for generating information for each type of partial image. It functions as a generation unit 32B, a line drawing information generation unit 32C, a photographic information generation unit 32D, a table information generation unit 32E) 32, a partial image rotation processing unit 34, and a document information generation unit 36.

  The read image acquisition unit 26 acquires image information obtained by the image reading unit 12 reading the set document image.

  The image analysis unit 28 analyzes the image information acquired by the read image acquisition unit 26 and stored in the image storage unit 14, and extracts regions having different attributes such as characters, graphics (CG), line drawings, and photographs. The area of the partial image is determined. The image analysis unit 28 can determine a partial image region by using a known technique. For example, the image analysis unit 28 binarizes image information and performs processing such as labeling processing or connection of images subjected to labeling processing. The region of the partial image can be determined.

  The partial image type determination unit 30 determines the type of the partial image based on various feature amounts such as the density distribution of the partial image region, separates the partial image, and assigns attributes. The partial image type determination unit 30 can also determine the type of partial image using a known technique. As the types of partial images to be determined, characters, graphics (CG), line drawings, photographs, tables, and the like are determined. For example, as shown in FIG. 3, a character image partial image region and a photo attribute partial image region are extracted from the document image, the type of each region is determined, and each attribute is assigned.

  Various information generation units (character information generation unit 32A, graphic (CG) information generation unit 32B, line drawing information generation unit 32C, photo information generation unit 32D, table information generation unit 32E) 32 are determined by the partial image type determination unit 30. Information corresponding to the type of each partial image is generated.

  The partial image rotation processing unit 34 determines the orientation of the image from the character attribute partial image generated by the character information generation unit 32A, and adjusts other attributes (figure, line drawing, photograph) according to the rotation direction of the character attribute partial image. , A partial image (image attribute such as a table) is rotated. That is, when a character attribute partial image is extracted and a character is recognized, the direction and amount of rotation in which the character is rotated in the correct direction is known. Therefore, rotation processing of other partial images is performed using this information. For example, as shown in FIG. 3, when an original image is read 90 degrees clockwise with respect to the upper original image in FIG. 3 as shown in the center of FIG. 3, a character attribute partial image is extracted. Thus, when the character is recognized, the direction and amount of rotation of the character are recognized. Therefore, the partial image with the photo attribute may be rotated according to the rotation direction and the rotation amount of the characters. As an image rotation processing method, in this embodiment, as shown in FIG. 4A, rotation is performed according to rotation information when rotation information is added to a partial image and displayed without rotating the partial image. 4B and a method of actually rotating a partial image as shown in FIG. 4B, which can be set by the operation display unit 22. As shown in FIG. 4B, when the partial image is actually rotated, the partial image rotation processing unit 34 rotates the partial image when the partial image is compressed. Process.

  The document information generation unit 36 arranges the partial images generated by the various information generation units 30 and rotated by the partial image rotation processing unit 34, and generates document information in a predetermined software format. For example, document information of a document creation software manufactured by Microsoft Corporation is generated. That is, document information in a document creation software format is automatically created by reading a document image. At this time, even if the orientation of the original image is not known, the orientation is recognized when determining the partial image with the character attribute. Therefore, by rotating the other partial images according to the partial image with the character attribute, Information is generated. In addition, when it is necessary to compress in the case of a partial image such as a photograph attribute, the document information generation unit 36 performs a compression process, but the partial image rotation processing unit 34 may perform the compression process.

  Next, processing performed by the control unit 24 in the image processing apparatus 10 according to the embodiment of the present invention configured as described above will be described. FIG. 5 is a flowchart showing a flow of processing performed by the image processing apparatus 10 according to the embodiment of the present invention.

  In step 100, the read image is acquired, and the process proceeds to step 102. That is, the read image acquisition unit 26 acquires image information obtained by the image reading unit 12 reading a document image.

  In step 102, partial images having different attributes included in the document image are extracted, and the process proceeds to step 104. That is, image information is analyzed by the image analysis unit 28, and areas such as characters, graphics (CG), line drawings, and photographs are extracted, and information corresponding to the type of each partial image is generated by the information generation unit 32.

  In step 104, the character information generating unit 32A determines the orientation of the character attribute partial image, and the process proceeds to step 106. The character attribute partial image orientation determination result is acquired by the partial image rotation processing unit 34, and step 108 is executed. Migrate to That is, when generating the character attribute partial image information by the character information generation unit 32A, the character direction is recognized and the character is recognized. Therefore, the character determined by the character information generation unit 32A is determined by the partial image rotation processing unit 34A. Get the result of the orientation determination.

  In step 108, the image information of the partial image having the image attribute is acquired, and the process proceeds to step 110. That is, image information of image attributes (for example, attributes such as graphics (CG) other than character attributes, line drawings, photographs, and tables) is acquired by the partial image rotation processing unit 34.

  In step 110, the partial image rotation processing unit 34 determines whether or not rotation information addition setting is set. This determination is whether or not the operation display unit 22 is operated in advance and is set to add rotation information (setting to rotate an image when adding and displaying information for rotating without rotating the image). Determine whether. If the determination is affirmative, the process proceeds to step 112, and if the determination is negative, the process proceeds to step 114.

  In step 112, the rotation information is added to the image information, and the process proceeds to step 122. That is, the rotation direction and the rotation amount when rotating the character attribute partial image in the correct direction are added to the image information as rotation information.

  In step 114, the partial image rotation processing unit 34 determines whether or not the image is a compressed image. If the determination is affirmative, the process proceeds to step 116. If the determination is negative, the process proceeds to step 118.

  In step 116, the image information is expanded and the process proceeds to step 118. Note that the expansion of the image information may be performed by the partial image rotation processing unit 34 or may be performed by the information generation unit 32.

  In step 118, the image information is rotated in accordance with the character attribute partial image, and the process proceeds to step 120. When the character attribute partial image is read in the correct orientation, the rotation of the image information is 0 degree, and the image information is not rotated and is rotated when it is not in the correct orientation.

  In step 120, the image information is reversibly compressed by the document information generation unit 36, and the process proceeds to step 122. Note that the reversible compression may be performed by the partial image rotation processing unit 34.

  In step 122, document information is generated by the document information generation unit 36, and the series of processes is terminated. The document information generation unit 36 generates document information of document creation software manufactured by Microsoft, for example.

  In this way, in this embodiment, when extracting a partial image with character attributes, the orientation of the character is determined. Therefore, using this information, image information is rotated according to the character, or rotation information is added. When the generated document information is displayed by generating the document information, the read document image is rotated and displayed in the correct orientation.

  If rotation information addition setting is not made, the image information is rotated in advance. Therefore, when displaying the generated document information, a rotation process corresponding to the rotation information is performed when the generated document information is displayed. Since there is no need to do this, the processing load at the time of display is reduced and the display speed is improved as compared with the case where rotation information is added to image information.

  In addition, when displaying compressed image information, the compressed image information is displayed after being expanded, so in the case of irreversible compression, the image deteriorates due to expansion, but in this embodiment, the original image is compressed. When the document information is displayed, the rotation process is performed after the expansion process, and the document information is generated by the lossless compression after the rotation process, so that the image quality is not deteriorated when the document information is displayed. Also, some document creation software may not support rotation information, and even if rotation information is added to image information, the image may not be rotated when displayed. When no additional setting is made, document information is generated after the actual image is rotated, so that an image in the correct orientation is displayed even when the rotation information is not supported.

  Subsequently, a modified example of the flow of processing performed by the image processing apparatus 10 according to the embodiment of the present invention will be described.

  First, the first modification will be described. FIG. 6 is a flowchart showing a first modification of the processing performed by the image processing apparatus 10 according to the embodiment of the present invention.

  In step 200, the read image is acquired, and the process proceeds to step 202. That is, the read image acquisition unit 26 acquires image information obtained by the image reading unit 12 reading a document image.

  In step 202, partial images having different attributes included in the document image are extracted, and the process proceeds to step 204. That is, image information is analyzed by the image analysis unit 28, and areas such as characters, graphics (CG), line drawings, and photographs are extracted, and information corresponding to the type of each partial image is generated by the information generation unit 32.

  In step 204, the orientation of the character attribute partial image is determined by the character information generation unit 32A, the process proceeds to step 206, and the orientation determination result of the character attribute partial image is acquired by the partial image rotation processing unit 34. Migrate to That is, when generating the character attribute partial image information by the character information generation unit 32A, the character direction is recognized and the character is recognized. Therefore, the character determined by the character information generation unit 32A is determined by the partial image rotation processing unit 34A. Get the result of the orientation determination.

  In step 208, image information of the partial image having the image attribute is acquired, and the process proceeds to step 210. That is, image information of image attributes (for example, attributes such as graphics (CG) other than character attributes, line drawings, photographs, and tables) is acquired by the partial image rotation processing unit 34.

  In step 210, the partial image rotation processing unit 34 determines whether or not the rotation information addition setting is set. This determination is made as to whether or not the operation display unit 22 has been operated in advance and is set to add rotation information (setting to rotate when adding and displaying information for rotating without rotating the image). To do. If the determination is affirmative, the process proceeds to step 212, and if the determination is negative, the process proceeds to step 214.

  In step 212, rotation information is added to the image information, and the process proceeds to step 228. That is, the rotation direction and the rotation amount when rotating the character attribute partial image in the correct direction are added to the image information as rotation information.

  In step 214, the partial image rotation processing unit 34 determines whether or not the image is a compressed image. If the determination is affirmative, the process proceeds to step 216. If the determination is negative, the process proceeds to step 218.

  In step 216, the image information is expanded and the process proceeds to step 218. Note that the expansion of the image information may be performed by the partial image rotation processing unit 34 or may be performed by the information generation unit 32.

  In step 218, the image information is rotated in accordance with the character attribute partial image, and the process proceeds to step 220. When the character attribute partial image is read in the correct orientation, the rotation of the image information is 0 degree, and the image information is not rotated and is rotated when it is not in the correct orientation.

  In step 220, it is determined by the partial image rotation processing unit 34 whether or not the original image is lossy compression. If the determination is negative, the process proceeds to step 222. If the determination is affirmative, the process proceeds to step 224. Transition.

  In step 222, the image information is reversibly compressed by the document information generation unit 36, and the process proceeds to step 228. Note that the reversible compression may be performed by the partial image rotation processing unit 34.

  In step 224, whether or not the image is a color image is determined by the partial image rotation processing unit 34. If the determination is negative, the process proceeds to step 222. If the determination is affirmative, the process proceeds to step 226.

  In step 226, the image information is irreversibly compressed by the document information generation unit 36, and the process proceeds to step 228. Note that the irreversible compression may be performed by the partial image rotation processing unit 34.

  In step 228, document information is generated by the document information generation unit 36, and the series of processes is terminated. The document information generation unit 36 generates document information of document creation software manufactured by Microsoft, for example.

  As described above, in the first modified example, when the original image is a irreversible image and a color image, document information is generated as irreversible compression after the rotation process. That is, when the original image is irreversible compression, the amount of information increases because the compression rate is higher than that of lossless compression, and the amount of information further increases in color images. By doing so, the capacity of the document information does not become too large.

  Next, a second modification will be described. FIG. 7 is a flowchart showing a second modification of the process performed by the image processing apparatus 10 according to the embodiment of the present invention.

  In step 300, the read image is acquired, and the process proceeds to step 302. That is, the read image acquisition unit 26 acquires image information obtained by the image reading unit 12 reading a document image.

  In step 302, partial images having different attributes included in the document image are extracted, and the process proceeds to step 304. That is, image information is analyzed by the image analysis unit 28, and areas such as characters, graphics (CG), line drawings, and photographs are extracted, and information corresponding to the type of each partial image is generated by the information generation unit 32.

  In step 304, the character information generating unit 32A determines the orientation of the character attribute partial image, and the process proceeds to step 306. The character attribute partial image orientation determination result is acquired by the partial image rotation processing unit 34, and step 308 is performed. Migrate to That is, when generating the character attribute partial image information by the character information generation unit 32A, the character direction is recognized and the character is recognized. Therefore, the character determined by the character information generation unit 32A is determined by the partial image rotation processing unit 34A. Get the result of the orientation determination.

  In step 308, image information of the partial image having the image attribute is acquired, and the process proceeds to step 310. That is, image information of image attributes (for example, attributes such as graphics (CG) other than character attributes, line drawings, photographs, and tables) is acquired by the partial image rotation processing unit 34.

  In step 310, the partial image rotation processing unit 34 determines whether or not the rotation information addition setting is set. This determination is made as to whether or not the operation display unit 22 has been operated in advance and is set to add rotation information (setting to rotate when adding and displaying information for rotating without rotating the image). To do. If the determination is affirmative, the process proceeds to step 312, and if the determination is negative, the process proceeds to step 314.

  In step 312, the rotation information is added to the image information, and the process proceeds to step 330. That is, the rotation direction and the rotation amount when rotating the character attribute partial image in the correct direction are added to the image information as rotation information.

  In step 314, the partial image rotation processing unit 34 determines whether the image is a compressed image. If the determination is affirmative, the process proceeds to step 316. If the determination is negative, the process proceeds to step 318.

  In step 316, the image information is expanded and the process proceeds to step 318. Note that the expansion of the image information may be performed by the partial image rotation processing unit 34 or may be performed by the information generation unit 32.

  In step 318, the image information is rotated in accordance with the character attribute partial image, and the process proceeds to step 320. When the character attribute partial image is read in the correct orientation, the rotation of the image information is 0 degree, and the image information is not rotated and is rotated when it is not in the correct orientation.

  In step 320, it is determined by the partial image rotation processing unit 34 whether or not the original image is lossy compression. If the determination is negative, the process proceeds to step 322. If the determination is affirmative, the process proceeds to step 324. Transition.

  In step 322, the image information is reversibly compressed by the document information generation unit 36, and the process proceeds to step 328. Note that the reversible compression may be performed by the partial image rotation processing unit 34.

  In step 324, whether or not the image is a color image is determined by the partial image rotation processing unit 34. If the determination is negative, the process proceeds to step 322. If the determination is affirmative, the process proceeds to step 326.

  In step 326, the partial image rotation processing unit 34 determines whether or not the image size is larger than a predetermined threshold value. If the determination is negative, the process proceeds to step 322. If the determination is positive, step 328 is performed. Migrate to

  In step 328, the image information is irreversibly compressed by the document information generation unit 36, and the process proceeds to step 330. Note that the irreversible compression may be performed by the partial image rotation processing unit 34.

  In step 330, document information is generated by the document information generation unit 36, and the series of processes is terminated. The document information generation unit 36 generates document information of document creation software manufactured by Microsoft, for example.

  As described above, in the second modification, in contrast to the above embodiment, when the original image is an irreversible image, a color image, and the image size is larger than the threshold, document information is generated as irreversible compression after the rotation process. I am doing so. That is, when the image size is further confirmed with respect to the first modification and the compression is irreversible when it is larger than the threshold, it is prevented that the capacity of the document information becomes too large, and when it is smaller than the threshold Degradation of image quality during display is suppressed.

  Next, a third modification will be described. FIG. 8 is a flowchart showing a third modification of the process performed by the image processing apparatus 10 according to the embodiment of the present invention.

  In step 400, the read image is acquired, and the process proceeds to step 402. That is, the read image acquisition unit 26 acquires image information obtained by the image reading unit 12 reading a document image.

  In step 402, partial images having different attributes included in the document image are extracted, and the process proceeds to step 404. That is, image information is analyzed by the image analysis unit 28, and areas such as characters, graphics (CG), line drawings, and photographs are extracted, and information corresponding to the type of each partial image is generated by the information generation unit 32.

  In step 404, the character information generation unit 32A determines the orientation of the character attribute partial image, and the process proceeds to step 406. The character attribute partial image orientation determination result is acquired by the partial image rotation processing unit 34, and step 408 is performed. Migrate to That is, when generating the character attribute partial image information by the character information generation unit 32A, the character direction is recognized and the character is recognized. Therefore, the character determined by the character information generation unit 32A is determined by the partial image rotation processing unit 34A. Get the result of the orientation determination.

  In step 408, image information of the partial image having the image attribute is acquired, and the process proceeds to step 410. That is, image information of image attributes (for example, attributes such as graphics (CG) other than character attributes, line drawings, photographs, and tables) is acquired by the partial image rotation processing unit 34.

  In step 410, the partial image rotation processing unit 34 determines whether or not rotation information addition is set. This determination is made as to whether or not the operation display unit 22 has been operated in advance and is set to add rotation information (setting to rotate when adding and displaying information for rotating without rotating the image). To do. If the determination is affirmative, the process proceeds to step 412. If the determination is negative, the process proceeds to step 414.

  In step 412, the rotation information is added to the image information, and the process proceeds to step 432. That is, the rotation direction and the rotation amount when rotating the character attribute partial image in the correct direction are added to the image information as rotation information.

  In step 414, attention is paid to one partial image of the partial images, and the process proceeds to step 416. The partial image rotation processing unit 34 determines whether or not the image is a compressed image. If the determination is affirmative, the process proceeds to step 418. If the result is negative, the process proceeds to step 420.

  In step 418, the image information is expanded, and the process proceeds to step 420. Note that the expansion of the image information may be performed by the partial image rotation processing unit 34 or may be performed by the information generation unit 32.

  In step 420, the image information is rotated in accordance with the character-attribute partial image, and the process proceeds to step 422. When the character attribute partial image is read in the correct orientation, the rotation of the image information is 0 degree, and the image information is not rotated and is rotated when it is not in the correct orientation.

  In step 422, whether or not the original image is irreversible compression is determined by the partial image rotation processing unit 34. If the determination is negative, the process proceeds to step 424. If the determination is affirmative, the process proceeds to step 426. Transition.

  In step 424, the image information is reversibly compressed by the document information generation unit 36, and the process proceeds to step 430. Note that the reversible compression may be performed by the partial image rotation processing unit 34.

  In step 426, the document information generation unit 36 determines whether or not the document information size being created is larger than a predetermined threshold. If the determination is negative, the process proceeds to step 424. Proceeds to step 428.

  In step 428, the image information is irreversibly compressed by the document information generation unit 36, and the process proceeds to step 430. Note that the irreversible compression may be performed by the partial image rotation processing unit 34.

  In step 430, the document information generation unit 36 determines whether or not all partial images have been noticed. If the determination is negative, the process returns to step 414 to focus on the next partial image and repeat the above processing. If the determination is affirmative, the routine proceeds to step 432.

  In step 432, document information is generated by the document information generation unit 36, and the series of processes ends. The document information generation unit 36 generates document information of document creation software manufactured by Microsoft, for example.

  As described above, in the third modification example, document information is generated as irreversible compression after the rotation processing when the original image is irreversible compression and the size of the document being created is larger than the threshold value in the above embodiment. Therefore, the capacity of the document information does not become too large.

  In addition to the first to third modifications described above, the condition for reversible compression or irreversible compression after the rotation process can be set in advance by the operation display unit 22 and may be compressed according to the setting. Good.

  Further, the processing (FIGS. 5 to 8) performed in the above-described embodiment and each modification may be a flow of processing performed by the control unit 24 controlling the image processing unit 16, or may be performed in advance by the control unit 24. The process may be performed by executing a stored program.

DESCRIPTION OF SYMBOLS 10 Image processing apparatus 12 Image reading part 16 Image processing part 22 Operation display part 24 Control part 26 Read image information acquisition part 28 Image analysis part 30 Partial image type determination part 32 Various information generation part 34 Partial image rotation process part 36 Document information generation | occurrence | production Part

Claims (8)

Extraction means for extracting a character attribute partial image and an image attribute partial image from image information obtained by reading a document image;
The orientation of the character attribute partial image extracted by the extraction means is determined, and when the orientation is incorrect, the character attribute partial image is rotated so as to be in the correct orientation, and is adjusted to the character attribute partial image. Generation means for performing rotation processing so as to rotate the partial image of the image attribute, and generating document information in a predetermined software format;
An image processing apparatus.   2. The image according to claim 1, wherein the generating unit generates the document information by reversibly compressing or irreversibly compressing the partial image with the image attribute according to a predetermined condition after rotating the partial image with the image attribute. Processing equipment.   The image processing apparatus according to claim 2, wherein the generation unit generates the document information by reversibly compressing the partial image with the image attribute when the partial image with the image attribute is a monochrome image as a predetermined condition.   The generating unit performs irreversible compression on the image attribute partial image when the image attribute partial image is a color image and the capacity of the image attribute partial image is larger than a predetermined threshold. The image processing apparatus according to claim 2, which generates information.   The generation unit generates the document information by irreversibly compressing a partial image having a subsequent image attribute when the capacity of the document information being generated as a predetermined condition exceeds a predetermined threshold. 2. The image processing apparatus according to 2.   The image processing apparatus according to claim 1, wherein the generation unit generates the document information by performing lossless compression after rotating a partial image having an image attribute.   The image processing apparatus according to claim 1, further comprising a setting unit configured to set, as the rotation process, one of a first rotation process for adding rotation information to a partial image and a second rotation process for rotating an actual image. .   The image processing program for functioning a computer as each means of the image processing apparatus of any one of Claims 1-6.