Source: https://patents.google.com/patent/JP5031504B2/en
Timestamp: 2020-04-04 01:07:42
Document Index: 708260432

Matched Legal Cases: ['art 102', 'art 103', 'art 104', 'art 105', 'art 106', 'art 107']

JP5031504B2 - Image processing apparatus and operator search method - Google Patents
Image processing apparatus and operator search method Download PDF
JP5031504B2
JP5031504B2 JP2007258888A JP2007258888A JP5031504B2 JP 5031504 B2 JP5031504 B2 JP 5031504B2 JP 2007258888 A JP2007258888 A JP 2007258888A JP 2007258888 A JP2007258888 A JP 2007258888A JP 5031504 B2 JP5031504 B2 JP 5031504B2
JP2007258888A
JP2009089250A (en
JP2009089250A5 (en
昌弘 松下
弘隆 椎山
光太郎 矢野
浩一 馬養
2007-10-02 Application filed by キヤノン株式会社 filed Critical キヤノン株式会社
2007-10-02 Priority to JP2007258888A priority Critical patent/JP5031504B2/en
2009-04-23 Publication of JP2009089250A publication Critical patent/JP2009089250A/en
2010-09-30 Publication of JP2009089250A5 publication Critical patent/JP2009089250A5/ja
2012-09-19 Publication of JP5031504B2 publication Critical patent/JP5031504B2/en
The present invention relates to an image processing apparatus, method, and program for printing out an image read by an image reading unit.
Convenience stores, camera mass retailers, etc. provide copy services using copiers and print services using digital lab machines. These services can be used easily even if the general user does not have the store clerk help the operation, but forgetting to take manuscripts and printed materials frequently occurs.
With respect to such a problem, Patent Document 1 tries to prevent forgetting to remove a document by prompting the discharge of the document.
JP-A-2005-84403
However, in the conventional technology, there are cases where the user does not notice the display and warning sound for prompting the discharge of the document, or forgets to place the discharged document on the table. Also, even if you take the manuscript home, you forget to take the printed material.
In fact, if you forget to take a printed matter, a copier administrator, such as a convenience store clerk, checks with the owner who returned the original or printed matter to see if the original or printed matter belongs to you. It was difficult to do.
A typical configuration according to the present invention for solving the above problem is an image processing apparatus for a recording apparatus that records print information on a recording medium,
Feature quantity extraction means for extracting feature quantities from the print information;
A storage means for storing in association with the feature quantity and date and time of recording the print information on the recording medium,
A search unit that compares a feature amount of a predetermined recording medium with a feature amount of print information used for recording, and searches for print information having a high similarity to the predetermined recording medium;
Based on the date and time when the print information retrieved by the retrieval unit is recorded, an identification image is acquired from a captured image of a monitoring camera system that captures the periphery of the image processing apparatus , and the acquired identification image is output. Output means.
According to the present invention, since it is possible to search for the date and time when the printed matter is printed out from the printed matter, it is easy for the user who outputted the printed matter to confirm.
Further, according to the present invention, an image that can identify the operator is stored and stored in association with index information such as the feature amount of the image read from the document, the date and time of print output, and the print information read from the document. It becomes easier for the user who has output the printed matter to confirm, and the accuracy of specifying the user who has output the printed matter is also improved.
This embodiment is an example in the case where a camera specialized for imaging by an operator of the image forming apparatus is equipped as a part of the image forming apparatus.
[Control configuration of image processing apparatus]
FIG. 1 is a block diagram illustrating a configuration of an image forming apparatus according to the present embodiment.
In FIG. 1, an image reading unit 101 serving as a reading unit includes an original platen, an auto document feeder (ADF), and a medium reader, and reads an image recorded or stored on an original. When reading an image from a document table or ADF, a document image from the document is read by an optical system (not shown) to obtain a raster image. When reading from a medium reader, an image is obtained by reading information magnetically or optically from a storage medium such as a magnetic memory, magnetic disk, optical disk, or magneto-optical disk. Hereinafter, for simplicity, the image reading unit 101 will be described as a document table.
In this embodiment, a paper document is described as an example of a medium to be read from the document table of the image reading unit 101. However, a recording medium other than paper (for example, an OHP sheet, a transparent original such as a film, a cloth, or the like). May be read.
Further, the image forming apparatus has a copying function for recording an image corresponding to a recording signal on a recording medium by the printing unit 102.
A CPU (not shown) included in the data processing unit 103 executes a program stored in a RAM or the like included in the storage unit 104, or processes print information read from a document to generate a recording signal. The storage means (hereinafter referred to as the storage unit 104) includes at least one storage medium such as a RAM that holds programs and image signals, a ROM that is a non-volatile memory that stores programs and parameters that do not need to be changed, and an HDD. Yes.
When copying one original image, the data processing unit 103 processes the print information to generate a recording signal and transmits it to the printing unit 102.
On the other hand, when copying a plurality of original images, the image signal generated by the data processing unit 103 is stored and held in the storage unit 104, and the recording signal is sequentially output to the printing unit 102 and printed on a recording medium. Also good.
An instruction from the operator is given from the input unit 105 and is processed by the data processing unit 103 to control the image forming apparatus. Further, the state of the image forming apparatus and the image data being processed are displayed on the display unit 106.
The database 107 registers and manages image data read by the image reading unit 101 and information related to the image data.
The imaging unit 108 is an identification information acquisition unit for acquiring identification information for identifying an operator, and includes a video camera and a still camera attached to the image forming apparatus, and an operator using the apparatus The face image is provided at a place where a clear image can be taken.
The processing executed by the image processing apparatus of the present embodiment includes processing for registering image data when an image is read and printed at the time of printing operation, and owner (or operator) searching for a left handed manuscript or printed matter. There are two types of search processing.
First, details of the processing during the printing operation will be described.
[Processing during printing]
An overview of processing during a printing operation will be described with reference to FIG. FIG. 2 is a flowchart for explaining the flow of image processing according to the present embodiment.
First, in step S201, the operator places a document on the document table. Next, when the operator presses the copy button in step S202, the process proceeds to step 203. At this time, the data processing unit 103 sends an image pickup signal to the image pickup unit 108 and takes an image of the operator with the reception of the copy button being pressed as a trigger. For this reason, the imaging unit 108 needs to be installed in consideration of the user's standing position in response to pressing of the copy button.
Here, the copy button is taken as an example, but the imaging unit 108 may be provided at a position corresponding to a predetermined work taken by an operator accompanying the copying work, and an image may be taken corresponding to the predetermined work. Examples of the predetermined work include opening and closing of a document cover and insertion of coins when used in a convenience store.
In addition, continuous shooting is performed for a predetermined time, a face is detected from the continuously shot images, and an image with high accuracy as an operator's face image is extracted as identification information for identifying the operator. Also good. A conventional method such as a method using pattern matching may be used to detect the face.
In step S204, an image is read from a document on the document table of the image reading unit 101. In step S205, the read image is printed.
Finally, in step S206, a registration process for registering the captured image in association with index information such as the read image is performed. Details of the registration process will be described later.
Details of the registration process in step S206 will be described with reference to FIG. FIG. 3 is a flowchart showing an outline of the registration process of the present embodiment.
In the processing of the present embodiment, attention is paid to each area separated by image area separation in a predetermined order, and a feature amount corresponding to a printed document is extracted and registered as index information. The predetermined order will be described later.
First, in step S301, an image area separation process is performed on the read image to separate a picture area and a text area. Details of the image area separation processing will be described later.
Next, in step S302, attention is focused on the first area.
In step S303, if the focused area is a pattern area, the process proceeds to step S304. If the focused area is a text area, the process proceeds to step S305.
In step S304, an image feature amount is extracted from the focused area, and the process proceeds to step S306. Details of the image feature amount extraction processing in step S304 will be described later.
In step S305, a text feature amount is extracted from the focused area, and the process proceeds to step S306. Details of the text feature amount extraction processing in step S305 will be described later.
Next, in step S306, if the feature amount extraction processing for all regions has been completed, the process proceeds to step S308, and if not, the process proceeds to step S307.
In step S307, the next region is set as a region of interest, and the process returns to step S303.
Finally, in step S308, the feature amount is registered. Details of the feature amount registration processing in step S308 will be described later.
In this embodiment, the image region separation process is performed in step S301. However, the image feature amount of the entire input image may be extracted without performing this process.
In the present embodiment, the regions extracted by performing the image region separation in step S301 are classified into two types: a pattern region and a text region. However, the region is not limited to these two types. The picture area may be further classified into a photograph area, a drawing area, a line drawing area, a table area, and the like, and the text area may be further classified into a caption area, a body area, and the like. When the number of types of regions is increased, corresponding feature amounts may be extracted as necessary.
Further, layout information indicating how the pattern area and text area are arranged may be extracted as a feature amount.
(Image area separation processing)
Details of the image area separation processing in step S301 will be described with reference to FIG. Here, FIG. 4 is a diagram illustrating an example of image block extraction in the present embodiment.
In the image area separation process, for example, an image 401 in FIG. Then, the attribute of each block (character (TEXT) / drawing (PICTURE) / photograph (PHOTO) / line (LINE) / table (TABLE)) is determined and divided into blocks having different attributes.
Here, an embodiment of the image area separation process will be described in detail.
First, an input image is binarized into a black and white image, and contour tracking is performed to extract a block of pixels surrounded by a black pixel contour. Then, for the black pixel block having a large area, the white pixel block is extracted by tracing the outline of the white pixel inside. Further, a black pixel block is recursively extracted from the white pixel block having a certain area or more.
The blocks of black pixels obtained in this way are classified by size and shape, and are classified into blocks having different attributes. For example, a block whose aspect ratio is close to 1 and whose size is constant is a pixel block corresponding to a character, and a portion where adjacent characters can be grouped with good alignment is a character block. A pixel block other than the character block is defined as a picture block. In addition, for a pattern block, a flat pixel block is a line block, a black pixel block that occupies a rectangular white pixel block that is larger than a certain size and is well-aligned is a table block, and irregular pixel blocks are scattered. An area is a photographic block, and a pixel block of any other shape is a drawing block.
[Image feature extraction processing]
Details of the image feature amount extraction processing in step S304 will be described with reference to the flowchart of FIG.
In the present embodiment, as an example, an image feature amount extraction process for extracting an image feature amount related to the color of an image is performed. In the extraction process described below, the image to be extracted is divided into a plurality of mesh blocks, and the color having the most frequent color in the color histogram of each mesh block is associated with the position information of each mesh block. The attached information is extracted as image feature information.
First, the image is divided into a plurality of mesh blocks (step S501). FIG. 6 is a diagram illustrating an example of dividing an image into 81 mesh blocks (9 × 9), each of which divides the image into 9 equal parts. Although it is divided into 81 pieces for simplification, it is desirable to divide it into more fine pieces such as dividing it into 225 (15 × 15) pieces in actual processing.
Next, attention is focused on the first mesh block in accordance with the processing order (step S502). This processing order is performed with reference to an order determination table (illustrated in FIG. 7) in which the processing order is determined in advance.
Next, the presence / absence of an unprocessed mesh block is determined (step S503). As a result, when there is no unprocessed mesh block (No), the process is terminated. On the other hand, when there is an unprocessed mesh block (Yes), the process proceeds to step S504.
In step S504, the density values of all the pixels of the mesh block are projected onto a partial space (hereinafter, color bin) created by dividing the color space shown in FIG. 8, and a color histogram for the color bin is generated. That is, FIG. 8 is a diagram illustrating an example of a color bin configuration on the color space in the present embodiment.
In the present embodiment, for the sake of simplicity, the density values of all the pixels of the mesh block are projected onto color bins obtained by equally dividing the RGB color space into 3 × 3 × 3 = 27. Actually, it is preferable to use a color bin obtained by dividing the RGB color space into about 6 × 6 × 6 = 216.
Thereafter, the color bin ID of the most frequent color bin of the color histogram is determined as the representative color of the mesh block, and stored in the storage unit 104 in association with the mesh block and the position (step S505).
Then, referring to the order determination table shown in FIG. 7, the next mesh block to be processed is set (step S506). Then, it returns to step S503 and repeats the process of step S503-step S506 until there is no unprocessed mesh block.
Through the above processing, information in which the representative color for each mesh block of the processing target image (image block) and the position information of each mesh block are associated can be extracted as the image feature amount.
[Text feature extraction processing]
Details of the text feature amount extraction processing in step S305 will be described. In the present embodiment, a character code obtained by performing OCR (character recognition) processing on text in a region is used as a text feature amount. As an example, the character code obtained by the OCR processing is used as the text feature amount as it is, but the text feature using statistical data such as the number of characters, the ratio of kanji and hiragana, the character scattering in the region, etc. from the result of OCR. It may be an amount.
Here, the OCR (character recognition) process is to perform character recognition on a character image cut out in character units from a character block by using a pattern matching method and obtain a corresponding character code. This character recognition process compares an observed feature vector obtained by converting a feature obtained from a character image into a numerical sequence of several tens of dimensions with a dictionary feature vector obtained in advance for each character type. Is the recognition result. There are various known methods for extracting a feature vector. For example, there is a method characterized by dividing a character into meshes and using a mesh number-dimensional vector obtained by counting character lines in each mesh block as line elements according to directions.
When character recognition is performed on the character block extracted in the image area separation processing (step S301 or step S1301), first, horizontal / vertical writing is determined for the corresponding character block, and characters are respectively displayed in the corresponding directions. Cut out a column. Thereafter, a character image is obtained by cutting out the character from the character string.
Here, horizontal / vertical writing is determined by taking a horizontal / vertical projection of the pixel value in the corresponding character block, and determining horizontal writing when the horizontal projection variance is large and vertical writing when the vertical projection variance is large. . In the case of a horizontally written character block, the character string and character are decomposed by cutting out the line using the horizontal projection and cutting out the character from the vertical projection of the cut out line. To do. On the other hand, for vertically written character blocks, horizontal and vertical may be reversed.
[Feature registration process]
Details of the feature amount registration processing in step S308 will be described.
First, a unique image ID is assigned to the read image. Next, the image is stored in association with the operator image as shown in FIG.
Next, an area ID is assigned to each area separated in step S301. Then, as shown in FIG. 10, the image ID, the region ID, and the region attribute are stored in association with each other.
Next, as shown in FIG. 11, the feature amount extracted in step S305 is stored in association with the region ID or the image ID.
[Operator search processing]
An outline of owner search processing for searching for an operator from a left original or printed matter will be described with reference to FIG. FIG. 12 is a flowchart showing processing for searching for an operator in the present embodiment.
First, in step S1201, the operator places a document on the document table.
In step S1202, when the operator presses the search button, the process proceeds to step S1203, and an image is read from the document table.
In step S1204, a feature value is extracted from the read image, and a search process is performed to compare and search from the feature value corresponding to the printed document. Details of the search processing in step S1204 will be described later.
Next, in step S1205, an operator image is specified from the registered images narrowed down by the search processing in step S1204 using FIG. 9, and in step S1206, the operator image is printed. If the operator image cannot be narrowed down to a single sheet, candidate operator images may be printed sequentially.
In step S1207, an inquiry is made as to whether to delete data. If YES, the process proceeds to step S1208, and if NO, the process ends. In step S1208, data is deleted and the process is terminated.
In the present embodiment, the search result is printed, but may be displayed on a monitor attached to the image forming apparatus.
If candidates are printed on an image forming apparatus installed in a place where the same document is likely to be printed many times, it may become enormous. Therefore, after narrowing down the recording date and printing conditions, etc. It is desirable to be able to output with.
When the operator's face image is used as the identification information, it is desirable to limit the owner search process so that only the administrator can use it.
[Detailed explanation of search processing]
Details of the search processing in step S1204 will be described with reference to FIG. FIG. 13 is a flowchart for explaining search processing in the present embodiment.
First, in step S1301, the above-described image area separation process is performed on the read image to separate it into a picture area and a text area.
Next, in step S1302, all registered images are set as candidate images.
In step S1303, attention is focused on the first area.
In step S1304, if the region of interest is a pattern region, the process proceeds to step S1305. If the region of interest is a text region, the process proceeds to step S1307.
In step S1305, the image feature amount extraction process described above is performed. In step S1306, the image feature amount of the pattern area included in the candidate image is compared with the image feature amount, and the process proceeds to step S1309. Details of the image feature amount comparison processing in step S1306 will be described later.
In step S1307, the text feature amount extraction process described above is performed. In step S1308, the text feature amount of the text area included in the candidate image is compared with the text feature amount, and the process advances to step S1309. Details of the text feature amount comparison processing in step S1308 will be described later.
In step S1309, images having a similarity equal to or less than the threshold are excluded from the candidate images.
Next, in step S1310, if the candidate image is narrowed down to one sheet, the process ends. If not narrowed down, the process proceeds to step S1311.
In step S1311, if the feature amount comparison process for all the regions of the read image has been completed, the process ends. If not, the process proceeds to step S1312.
In step S1312, the next region is set as a region of interest, and the process returns to step S1304.
In this embodiment, candidates are narrowed down while comparing each region, but the candidates may be determined by making a comprehensive judgment after comparing all regions.
In the present embodiment, the comparison process is performed for each region. However, when layout information is extracted at the time of feature amount extraction, the layout information may be compared.
[Image feature comparison processing]
Details of the image feature amount comparison processing in step S1306 will be described with reference to FIG. FIG. 14 is a flowchart for explaining details of the image feature amount comparison processing in the present embodiment.
First, the image feature amounts of the search source image and the comparison destination image are read (step S1401). Next, the mesh block in the image to be processed is set at the head (step S1402). Further, the similarity distance indicating the similarity between the image feature quantity of the search source image and the comparison target image feature quantity is reset to 0 (step S1403).
Thereafter, the presence / absence of an uncompared mesh block is determined (step S1404). As a result, when there is no uncompared mesh block (No), the process proceeds to step S1408. On the other hand, if there is an uncompared mesh block (Yes), the process proceeds to step S1405.
In step S1405, the color bin ID of each mesh block is acquired from the image feature amounts of the search source image and the comparison destination image. Next, referring to the color bin penalty matrix shown in FIG. 15, the local similarity distance of mesh blocks corresponding to the acquired color bin IDs is acquired (step S1406). Then, the acquired local similarity distance is cumulatively added to the similarity distance acquired in the immediately preceding process, and the similarity distance is stored in the storage unit 104 (step S1407).
Here, the color bin penalty matrix will be described with reference to FIG. FIG. 15 is a diagram illustrating a configuration example of the color bin penalty matrix used in the present embodiment. The color bin penalty matrix is a matrix that manages the local similarity distance between the color bin IDs. According to FIG. 15, the color bin penalty matrix has a similarity distance of 0 for the same color bin ID, and the similarity distance increases as the difference between the color bin IDs increases, that is, the similarity decreases. It is configured. Further, the color bin penalty matrix has a similarity distance of 0 for all diagonal positions of the same color bin ID, and has a target property with that as a boundary.
As described above, the image processing apparatus according to the present embodiment can obtain the similarity distance between the color bin IDs only by referring to the color bin penalty matrix as shown in FIG. Can be planned.
Then, referring to the order determination table shown in FIG. 7, the next mesh block to be processed is set (step S1407). Thereafter, the process returns to step S1404.
On the other hand, if it is determined in step S1404 that there is no uncompared mesh block (No), the similarity distance stored in the storage unit 104 is converted into a similarity and output in pairs with the block ID (step S1408). . Note that the conversion to similarity is, for example, the similarity when the similarity distance is the minimum value is 100%, the similarity when the similarity distance is the maximum value is 0%, and the similarity to the similarity distance within the range is It may be calculated based on the difference with respect to the minimum value or the maximum value.
[Text feature comparison processing]
Next, details of the text feature amount comparison processing in step S1308 will be described. In this process, the character codes in the character blocks in the search source image and the comparison target image are compared with each other, and the similarity is calculated from the matching degree.
As described above, the present embodiment has described the case where an imaging apparatus that captures a face image as identification information for identifying the operator of the image forming apparatus is prepared. According to this embodiment, the owner can be specified with high accuracy from a left document or printed matter.
In the present embodiment, a case will be described in which there is no imaging apparatus specialized for imaging by an operator of the image forming apparatus. A method for making it possible to search for an owner from an abandoned medium using a captured image from a monitoring camera or the like that captures the vicinity of the apparatus will be described below.
Note that components having the same functions as those in the first embodiment are denoted by the same reference numerals, and descriptions of components that are not structurally and functionally changed are omitted.
An overview of processing during a printing operation will be described with reference to FIG.
Step S201 and step S202 are the same as those in the first embodiment. Next, the operator photographing process in step S203 is skipped, and the process proceeds to step S204. Step S204 and step S205 are the same as those in the first embodiment. Subsequently, in step S206, a feature amount is extracted from the read image, and is registered in association with the date and time (recording date and time) when the image is read. Details of the registration process in step S206 will be described later.
Details of the feature amount registration processing will be described.
First, a unique image ID is assigned to the read image and stored in association with the recording date. FIG. 16 is a diagram illustrating an example of index information having an image ID and a recording date / time registered in the present embodiment.
Next, an area ID is assigned to each area separated in step S301, and is stored in association with the image ID and area attribute. FIG. 10 is a diagram showing an example of index information having an image ID, a region ID, and a region attribute registered in the present embodiment.
Next, the feature amount corresponding to each region is stored in association with the image ID and the region ID. FIG. 11 is a diagram illustrating an example of index information having an image ID, a region ID, and an image feature amount, and FIG. 12 is a diagram illustrating an example of index information having an image ID, a region ID, and a text feature amount.
[Imaging with surveillance camera]
In the present embodiment, imaging by the surveillance camera is performed independently of the operation of the image forming apparatus. The surveillance camera captures images at least at the moment or time zone when the device is used. In recording, information of recording date and time is also added. Note that the image captured by the monitoring camera is received by the receiving unit of the image forming apparatus in a referable manner.
Details of the search processing will be described with reference to FIG. FIG. 17 is a flowchart for explaining details of the search processing in the present embodiment.
First, in step S1701, the date is specified from the index information narrowed down by the search process using FIG.
Next, in step S1702, a recorded image of the corresponding recording date is extracted from the recorded image of the monitoring camera. In step S1703, a person operating the image forming apparatus is extracted from the extracted recorded image. For the person extraction process, a conventional method such as a method of obtaining a difference from an image around the image forming apparatus when no person is present, a method of using pattern matching, or the like may be used. In step S1704, the image is set as a candidate for the operator image.
In step S1705, face detection is performed from the image. If the face can be detected in step S1706, the process proceeds to step S1707. If the face cannot be detected, the process proceeds to step S1709. If the face detection accuracy of the image is higher than the face detection accuracy of the operator image candidate in step S1707, the process proceeds to step S1708, and if lower, the process proceeds to step S1709. In step S1708, the operator image candidates are exchanged for the images.
In step S1709, the person in the image is traced in the recorded image of the monitoring camera. In step S1710, if tracing is possible until after a certain interval (frame), the process returns to step S1705, and if tracing is not possible, tracing is terminated because it is out of the range of the monitoring camera, and step S1711 is performed. Proceed to
Finally, in step S1711, an operator image candidate is specified as an operator image and used as identification information.
In the present embodiment, a still image is used for the processing in step S1206, but a moving image may be played back. In the present embodiment, tracing is performed after the corresponding date and time. However, tracing may be performed retroactively before the corresponding date and time.
As described above, the implementation including the image forming apparatus has been described, but the image forming apparatus may be implemented as an image processing apparatus that monitors the image forming apparatus. Moreover, although the case where the image which imaged the operator was used as identification information was demonstrated, if it is an image forming apparatus using authentication, such as an ID card, authentication information is good also as identification information.
In addition, in the above-described embodiment, the face is the imaging target as the physical feature of the operator, but physical features such as fingerprints and vein authentication may be used as the identification information as the imaging target. In this case, it is preferable to provide an imaging unit in a key that is essential for the image forming process in the input unit 105 and acquire identification information according to the operation of the operator. It can be assumed that the person can be easily identified without a detailed face image, such as an image of the entire operator image. In such a case, the upper and lower clothes may be imaged so as to be distinguishable.
Moreover, although the use in a convenience store, a camera mass retailer, etc. has been described, the same apparatus can be used also in an office. In an office, when making a large number of copies, the user may leave the front of the apparatus, and the document or printed matter may be left behind even after the copying is finished. By applying the present invention, it is possible to search for a person who has made a copy, and to take a manuscript or printed matter to the owner, or to prompt the owner to take it.
In addition, in the above-described embodiment, it is applied as a countermeasure after the leaving, but until the next operator operates, the entire image of the previous operator is displayed on the display to prevent the leaving. It may be used.
In the information processing apparatus according to the above-described embodiment of the present invention, each configuration may be configured by hardware, may be configured by software, or may be configured by both hardware and software. Further, the configuration of the present invention may be configured by collaboration of a plurality of software and hardware.
It is also conceivable that the CPU (or MPU) of the system or apparatus reads and executes the program code from a storage medium that stores computer-readable program code corresponding to the flow of the above-described embodiment.
Furthermore, the function expansion unit connected to the computer can read the program code from the storage medium, and the CPU provided in the function expansion board or function expansion unit can perform processing corresponding to the flow of the above-described embodiment.
It is a block diagram which shows the structural example of an image processing apparatus. It is a flowchart which shows an image process. It is a flowchart which shows an image registration process. It is a figure which shows the example of image block extraction. It is a flowchart which shows the extraction process of an image feature-value. It is a figure which shows the example which divides | segments an image into a some mesh block. It is a figure which shows an example of an order determination table. It is a figure which shows the structural example of the color bin on color space. It is a figure which shows an example which linked | related image ID as index information, and the operator image as identification information. It is a figure which shows an example of the index information which has image ID, area | region ID, and area | region attribute. It is a figure which shows an example of the index information which has image ID, area | region ID, and feature-value. It is a flowchart which shows the outline of the process which searches operator information. It is a flowchart which shows the detail of a search process. It is a flowchart which shows an image feature-value comparison process. It is a figure which shows the example of 1 structure of a color bin penalty matrix. It is a figure which shows an example of the index information which has image ID and date. (Embodiment 2) It is a flowchart which shows the detail of a search process. (Embodiment 2)
DESCRIPTION OF SYMBOLS 101 Image reading part 102 Printing part 103 Data processing part 104 Storage part 105 Input part 106 Display part 107 Database 108 Imaging part
An image processing apparatus for a recording apparatus that records print information on a recording medium,
Based on the date and time when the print information retrieved by the retrieval unit is recorded, an identification image is acquired from a captured image of a monitoring camera system that captures the periphery of the image processing apparatus , and the acquired identification image is output. And an output means.
The output means includes a person extraction processing means and a face detection means, and extracts the person image by the person extraction means from the difference between the captured image captured by the monitoring camera and the image when no person is present, face detecting means performs face detection on the person image, the image processing apparatus according to the captured image in which the face has been detected by said face detecting means to claim 1, characterized in that the said identification image.
An operator search method for a recording apparatus for recording print information on a recording medium,
A feature amount extraction step of extracting a feature amount from the print information;
A storing step of storing print information in association with the feature quantity and date recorded on the recording medium,
A search step of comparing a feature amount of a predetermined recording medium with a feature amount of print information used for recording, and searching for print information having a high degree of similarity to the predetermined recording medium ;
Based on the date and time when the print information searched in the search step is recorded, the image for identification is acquired from the captured image of the monitoring camera system capturing the periphery of the image processing apparatus , and the acquired image for identification is output. An output process;
An operator search method characterized by comprising:
JP2007258888A 2007-10-02 2007-10-02 Image processing apparatus and operator search method Active JP5031504B2 (en)
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US12/242,344 US8355583B2 (en) 2007-10-02 2008-09-30 Image processing apparatus and apparatus for searching operator
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