JP2006027142A - Imaging system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging system which can register an optimal stamp using a common program for various types of systems. <P>SOLUTION: In this imaging system which has a hardware resource to be used in an imaging process and a program for performing a processing relative to imaging, the following means are provided: a plurality of image data conversion means (IMH41) for converting image data; a registration means (an operation panel 70) for registering stamp data for synthesizing the image data; a first selection means (IMH41) for selecting the image data conversion means (IMH41) at the time of registering the stamp data; a discriminating means (IMH41) for discriminating the presence of the selected image data conversion means (IMH41); a management means (IMH41) for managing the registered stamp data; and a second selection means (IMH41) for selecting an image format for the stamp data to be registered. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an image forming apparatus such as a printer, a copy machine, a facsimile machine, and a multifunction peripheral (multifunction machine) having these functions, and more particularly to an image data conversion control technique.

  In recent years, a multi-function apparatus in which functions such as a printer, a copy, a facsimile, and a scanner are housed in a single casing has been known. The multi-function apparatus includes a display unit, a printing unit, an imaging unit, and the like in one casing, and four types of applications corresponding to a printer, a copy, a facsimile, and a scanner. Operates as a copy, facsimile, and scanner.

Such a multifunction peripheral has a stamp synthesis printing function for synthesizing and printing a stamp on an image to be printed. This stamp is registered in advance in HD, and is combined and output at the time of printing. However, conversion to a data format suitable for the print format at the time of printing may result in a case where the printing speed is reduced, or in case of color printing, it is not in time for preparation of an image to be printed. This stamp registration was performed by creating a program specific to the multifunction device model corresponding to the hardware specifications (image format) of the printing unit, the HD capacity, and the like.
An object of the present invention is to provide an image forming apparatus capable of registering an optimal stamp with a program common to all models.

In order to achieve the above object, the invention described in claim 1 is an image forming apparatus capable of synthesizing and printing stamp image data on image data, and a plurality of image data conversion means for performing image data conversion processing. A stamp data registration means for registering stamp data to be combined with the image data, a first selection means for selecting the image data conversion means at the time of stamp data registration, and an image data conversion selected by the first selection means. A determination unit that determines presence / absence of the unit, a management unit that manages stamp data registered by the stamp data registration unit, and a second selection unit that selects an image format of the registered stamp data. .
The invention according to claim 2 is characterized in that the first selection means selects the image data conversion means based on the image format of the original stamp data and the image format selected by the second selection means. To do.
According to a third aspect of the present invention, when the determination unit determines that the image data conversion unit is not present, the stamp data is registered without image conversion.
The invention according to claim 4 is characterized in that the registration of the stamp data is stopped when the determination means determines that there is no image data conversion means.
The invention according to claim 5 is characterized in that, when it is determined by the determination means that there is no image data conversion means, it is selected whether the stamp data is not registered or registered without conversion.

  According to the present invention, a plurality of image data conversion means for performing image data conversion processing, a registration means for registering stamp data to be combined with image data, and a first selection for selecting an image data conversion means at the time of stamp data registration Means for judging presence / absence of the selected image data conversion means, management means for managing the registered stamp data, and second selection means for selecting the image format of the stamp data to be registered. Thus, optimum stamp registration can be realized by a common program.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a software configuration diagram of a multifunction peripheral (multifunction peripheral) according to an embodiment of the present invention. The multi-function apparatus 1 is configured to include a software group 2, a multi-function apparatus activation unit 3, and hardware resources 4.
The compound machine starting unit 3 operates first when the compound machine 1 is powered on, and activates the application layer 5 and the platform 6. For example, the multi-function apparatus activation unit 3 reads the programs of the application layer 5 and the platform 6 from a hard disk device (hereinafter referred to as HDD) corresponding to the external storage means, and transfers each read program to the memory area to activate it.
The hardware resources 4 include a monochrome laser printer (hereinafter referred to as B & W LP) 11, a color laser printer (hereinafter referred to as Color LP) 12, and hardware resources 13 such as a scanner and a facsimile.
The software group 2 includes an application layer 5 and a platform 6 activated on an operating system (hereinafter referred to as OS) such as UNIX (registered trademark). The application layer 5 includes programs that perform processing unique to user services related to image formation such as printers, copies, faxes, and scanners.
The application layer 5 includes a printer application 21 that is a printer application, a copy application 22 that is a copy application, a fax application 23 that is a fax application, a scanner application 24 that is a scanner application, and an SP application that will be described later. 25.
Further, the platform 6 interprets a processing request from the application layer 5 and generates a hardware resource 4 acquisition request, and manages one or more hardware resources 4 to control the control service layer 9. A system resource manager (hereinafter referred to as SRM) 39 that arbitrates acquisition requests from the SRM 39 and a handler layer 10 that manages hardware resources 4 in response to the acquisition requests from the SRM 39.

The control service layer 9 includes a network control service (hereinafter referred to as NCS) 31, a delivery control service (hereinafter referred to as DCS) 32, an operation panel control service (hereinafter referred to as OCS) 33, and a fax control service (hereinafter referred to as FCS) 34. , Engine control service (hereinafter referred to as ECS) 35, memory control service (hereinafter referred to as MCS) 36, user information control service (hereinafter referred to as UCS) 37, system control service (hereinafter referred to as SCS) 38, etc. The service module is configured to be included.
The platform 6 is configured to have an API 53 that can receive a processing request from the application layer 5 using a predefined function. The OS executes the software of the application layer 5 and the platform 6 in parallel as processes.
The process of the NCS 31 provides a service that can be commonly used for applications that require network I / O. Data received from the network side according to each protocol is distributed to each application, or data from each application. Mediation when sending to the network side.
For example, the NCS 31 controls data communication with a network device connected via a network by HTTP (HyperText Transfer Protocol Daemon) by HTTP (HyperText Transfer Protocol).
The process of the DCS 32 performs control such as distribution of stored documents. The process of the OCS 33 controls an operation panel serving as information transmission means between the operator and the main body control. The FCS 34 process provides APIs to perform fax transmission / reception using the PSTN or ISDN network from the application layer 5, registration / quotation of various fax data managed in the backup memory, fax reading, fax reception printing, etc. To do.

The process of the ECS 35 controls engine units such as the B & W LP 11, the Color LP 12, and the hardware resource 13. The process of the MCS 36 performs memory control such as acquisition and release of memory and use of the HDD. The UCS 37 manages user information.
The process of the SCS 38 performs processing such as application management, operation unit control, system screen display, LED display, hardware resource management, and interrupt application control.
The SRM 39 process controls the system and manages the hardware resources 4 together with the SCS 38. For example, the process of the SRM 39 performs arbitration according to an acquisition request from an upper layer using the hardware resource 4 such as the B & W LP 11 and the Color LP 12 and controls execution.
Specifically, the process of the SRM 39 determines whether or not the hardware resource 4 requested to be acquired is available (whether it is not used by another acquisition request). The upper layer is notified that the hardware resource 4 is available.
The process of the SRM 39 performs scheduling for using the hardware resource 4 in response to an acquisition request from an upper layer, and requests contents (for example, paper conveyance and image forming operation by the printer engine, memory allocation, file generation, etc.) ) Directly.
The handler layer 10 also manages a fax control unit handler (hereinafter referred to as FCUH) 40 that manages a fax control unit (hereinafter referred to as FCU), which will be described later, and allocates memory to the process and manages memory allocated to the process. Image memory handler (hereinafter referred to as IMH) 41.
The SRM 39 and the FCUH 40 make a processing request for the hardware resource 4 by using the engine I / F 54 that can transmit the processing request for the hardware resource 4 by a predefined function. In response to a request from the SRM 39, the IMH 41 also performs stamp registration, stamp synthesis, and the like.
The multi-function apparatus 1 can process the processing commonly required for each application by the platform 6.

Next, a hardware configuration of the multifunction machine 1 will be described. FIG. 2 is a hardware configuration diagram of the compound machine according to the embodiment of the present invention. The multi-function apparatus 1 includes a controller 60, an operation panel 70, an FCU 80, a USB device 90, an IEEE 1394 device 100, and an engine unit 120.
The controller 60 includes a CPU 61, a system memory (MEM-P) 62, a north bridge (hereinafter referred to as NB) 63, a south bridge (hereinafter referred to as SB) 64, an ASIC 66, and a local memory (MEM-C). ) 67 and HDD 68.
The operation panel 70 is connected to the ASIC 66 of the controller 60. The FCU 80, USB device 90, IEEE 1394 device 100, and engine unit 120 are connected to the ASIC 66 of the controller 60 via a PCI bus.
In the controller 60, the MEM-C 67, the HDD 68, and the like are connected to the ASIC 66, and the CPU 61 and the ASIC 66 are connected via the NB 63 of the CPU chip set. In this way, if the CPU 61 and the ASIC 66 are connected via the NB 63, it is possible to cope with a case where the interface of the CPU 61 is not disclosed.
The ASIC 66 and the NB 63 are not connected via a PCI bus, but are connected via an AGP (Accelerated Graphics Port) 65. As described above, in order to control execution of one or more processes forming the application layer 5 and the platform 6 in FIG. 1, the ASIC 66 and the NB 63 are connected via the AGP 65 instead of the low-speed PCI bus to prevent performance degradation. It is out.
The CPU 61 performs overall control of the compound machine 1. The CPU 61 starts and executes NCS31, DCS32, OCS33, FCS34, ECS35, MCS36, UCS37, SCS38, SRM39, FCUH40, and IMH41 as processes on the OS, and also forms a printer application 21 and a copy application that form the application layer 5 22, the fax application 23 and the scanner application 24 are activated and executed.
The NB 63 is a bridge for connecting the CPU 61, the MEM-P 62, the SB 64, and the ASIC 66. The MEM-P 62 is a memory used as a drawing memory or the like of the multifunction machine 1. The SB 64 is a bridge for connecting the NB 63 to the ROM, PCI bus, and peripheral device. The MEM-C 67 is a memory used as a copy image buffer and a code buffer.
The ASIC 66 is an IC for use in image processing having hardware elements for image processing. The HDD 68 is a storage for storing image data, document data, programs, font data, forms, and the like. The operation panel 70 is an operation unit that accepts an input operation from an operator and performs display for the operator.

Next, stamp data management and registration will be described.
Stamp data is activated from the registration screen of the SP application 25. The SP application is an application for setting a model that the user should not use, such as setting the hardware of the model, clearing the memory, formatting the HDD, and setting the test pattern.
When execution is pressed from the stamp registration screen (see FIG. 3) of the SP application, as shown in FIG. 4, a registration request is notified as SCS38 (SRM39) and IMH41. (SRM 39), and notifies the SP application 25.
Also, from this stamp registration screen (see FIG. 3), the setting of the print image format of the model to be stamp-registered and the setting whether to register without data conversion means or to register without data conversion The operation when the data conversion means is not provided is determined based on the information.
When the print data format of the image forming apparatus is binary 600 dpi, binary 400 dpi, and binary 300 dpi, the registered stamp data is binary 600 dpi, binary 400 dpi, and binary 300 dpi. On the registration format setting screen of the stamp registration screen, the settings of registration formats 1, 2, and 3 are set to 600 dpi, 400 dpi, and 300 dpi, respectively.
The set value is stored in a registered stamp data table in a memory space that can be referred to from the IMH 41. The original stamp data is stored in advance in the original stamp data table as a fixed value. The first data in the table is the number of formats, and the rest is the format (see FIG. 5).

A stamp registration process in the IMH 41 will be described. The stamp data is stored as data in the program, and is composed of a stamp ID, resolution, size X, size Y, data storage address and the data as shown in FIG. In FIG. 6, four stamp data are stored. All the stamp data are binary images. Further, the start address of the data is notified by a registration request from the SCS 38 (SRM 39).
A case of registering 600 dpi stamp data will be described below. FIG. 7 is a data conversion selection table. When the format to be registered is 600 dpi and the original stamp data is 300 dpi, the data is converted from the 300 dpi original stamp data having a high priority and is registered in the HDD 68.
Here, the stamp conversion of the data conversion selection table is set in the following priority order in order to minimize the deterioration of the stamp data.
(1) Same resolution (2) Can be converted by integer multiple, 2 times multiple of 2 and 4 times in order (3) Can be converted by integer multiple (4) Multiple of 1/2 times Convertible, 1/2 times, 1/4 times (5) Can be converted in enlargement direction, 4/3 times, etc. (6) Other

Next, the stamp data is copied from the stamp storage area to the work memory managed by the IMH 41. This copy process is performed by READ / WRITE by direct memory access of the CPU 61. Based on the data copied to the work memory, 300 dpi → 600 dpi conversion is performed. Based on the data conversion means presence / absence table (see FIG. 8), it is determined that the X2 conversion means is provided. Convert stamp data and register.
This conversion function is a function in the IMH 41, and is a function that simply doubles 1 dot to 2 dots. The data converted to 600 dpi is rotated by 180 degrees, 90 degrees, and 270 degrees, and an image ID is added to each of the data and registered in the HDD 68. Rotational conversion is also performed by the CPU 61 using READ / WRITE of the memory (see FIG. 9).
Similarly, when registering 400 dpi stamp data, since it does not have a 4 / 3-fold conversion means, registration is not performed due to the setting in the SP application 25. Or register without conversion.
The flowchart is shown in steps S1 to S6 in FIG. That is, when performing data conversion processing of stamp data, first, the necessary conversion means is determined (S1), and when it is determined that there is a conversion means (S2 “Y”), the stamp data is converted to stamp data. Registration is performed (S5), and the process is terminated.
On the other hand, if it is determined that there is no conversion means ("N" in S2), it is determined whether or not to register next without conversion, and if a positive result is obtained (S3 "Y"), the stamp is not converted. If data registration is performed and the process is terminated, and a negative result is obtained (S3 “N”), the process is terminated without registering stamp data.
When registering 300 dpi stamp data, the resolution is as it is, so only rotation conversion is performed and registration is performed. As shown in FIG. 11, a 32-bit unique ID is attached to the stamp data according to the stamp ID, resolution, and rotation angle.
Further, in order to manage the size of the stamp data in the IMH 41, the memory area and the HDD 68 have a table of stamp ID, resolution, size X, and size Y as shown in FIG. The stamp to be combined at the time of printing can be transferred from the HDD 68 to the work memory based on the designated stamp ID, format, stamp rotation angle, and data size, and used at the time of combining with the image.

The software block diagram of the compound machine which concerns on embodiment of this invention. The hardware block diagram of the compound machine which concerns on embodiment of this invention. The figure which shows a stamp data registration screen. The figure which shows the sequence of stamp registration. The figure which shows a stamp data table. The figure which shows stamp data. The figure which shows a data conversion selection table. The figure which shows data conversion means presence or absence data. The figure which shows the mode of stamp data conversion. The stamp data registration flowchart. The figure which shows stamp data ID. The figure which shows the stamp management data in IMH.

Explanation of symbols

1 MFP, 2 software group, 3 MFP starter, 4 hardware resources, 5 application layer, 6 platform, 9 control service layer, 10 handler layer, 11 B & W LP, 12 Color LP, 13 hardware resource, 21 printer Apps, 22 Copy apps, 23 Fax apps, 24 Scanner apps, 25 SP apps, 31 NCS, 32 DCS, 33 OCS, 34 FCS, 35 ECS, 36 MCS, 37 UCS, 38 SCS, 39 SRM, 40 FCUH, 41 IMH (Image data conversion means, first selection means, determination means, management means, second selection means), 53 API, 54 engine I / F, 60 controller, 61 CPU, 62 MEM-P, 63 NB, 64 SB , 65 AGP, 66 ASIC, 6 MEM-C, 68 HDD, 70 operation panel, 80 FCU, 90 USB devices, 100 IEEE1394 device 120 engine

Claims (5)

  In an image forming apparatus capable of combining and printing stamp image data with image data, a plurality of image data conversion means for performing image data conversion processing, and stamp data registration means for registering stamp data to be combined with the image data A first selection unit that selects the image data conversion unit at the time of stamp data registration, a determination unit that determines whether there is an image data conversion unit selected by the first selection unit, and a registration by the stamp data registration unit An image forming apparatus comprising: a management unit that manages the stamp data that has been registered; and a second selection unit that selects an image format of the registered stamp data.   2. The image according to claim 1, wherein the first selection unit selects the image data conversion unit according to an image format of the original stamp data and an image format selected by the second selection unit. Forming equipment.   3. The image forming apparatus according to claim 2, wherein when the determination unit determines that there is no image data conversion unit, the stamp data is registered without image conversion.   3. The image forming apparatus according to claim 2, wherein the registration of the stamp data is stopped when the determination unit determines that there is no image data conversion unit. The image forming apparatus according to claim 2, wherein when the determination unit determines that there is no image data conversion unit, it selects whether to register the stamp data or not to convert the stamp data.

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