JP2005328398A - Peripheral device system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a peripheral device system suitable for realizing high image quality of both display display and printing on paper.
SOLUTION: A peripheral device 3 and an information processing device 2 connected via a network are configured to perform image processing optimum for display display / printing on a document read by the peripheral device 3 respectively. The information processing apparatus 2 has a function of generating digital image data 5 composed of various types of image data and a header section for managing these two types of image data, and the information processing device 2 displays the digital image data 5 distributed from the peripheral device 3 When display operation is performed, display display image data is displayed, and when printing operation is performed, printing digital image data is transmitted as print data.
[Selection] Figure 1

Description

  The present invention relates to a peripheral device system including a peripheral device and an information processing apparatus connected to the peripheral device via a network.

In recent years, systems called so-called distribution scanners and capture functions that distribute digital image data generated from originals read by peripheral devices to external information processing devices are spreading in the market, and high-quality digital image data is required. ing.
The high image quality mentioned here includes high image quality in both “display display” and “print on paper” of digital image data. However, in the conventional technology, even though the image quality can be optimized (high image quality) with the aim of either “display display” or “print on paper”, it is difficult to achieve both, The best solution was to select which image quality to optimize.
However, in response to a request to improve the image quality of printed matter, even if image processing with the image quality of digital image data distributed by peripheral devices is performed, “optimal when printing with peripheral devices from which digital image data is generated. The image quality will be high.
This is because it is extremely difficult to optimize the image quality of all peripheral devices because peripheral devices have different physical characteristics such as toner material and plotter characteristics.

However, in such a background, in the case of the conventional system, it is not known which peripheral device is the source of the distributed digital image data, and as a result, a good image quality is not always obtained when printing is performed again. It is not possible to obtain an image quality optimal for at least the digital image data.
Accordingly, an object of the present invention is to provide a peripheral device system suitable for realizing high image quality of both “display display” and “print on paper” in consideration of the above-described situation.

In order to solve the above problem, the invention according to claim 1 is a peripheral device system configured by connecting an information processing apparatus to a peripheral device via a network, wherein the peripheral device reads a document that has been read. Image generating means for generating digital image data that includes a display display image data portion, a print original data portion, and a header portion that manages these image data portions by performing required image processing; Distribution means for distributing the digital image data generated by the image generation means to the information processing apparatus, and the information processing apparatus performs a display operation for displaying the digital image data distributed from the peripheral device on a display. Display control means for displaying an image on the display using display display image data, and a printing operation is performed. Characterized in that it comprises a transmitting means for transmitting the print digital image data as print data when.
The invention described in claim 2 is characterized in that the image generation means of the peripheral device generates the display display image data and the print image data in a general file format.
The invention according to claim 3 is configured such that the image generation means of the peripheral device can generate image data of the display display image data and the print image data according to a plurality of types of file formats. Of the file formats, a selection / setting unit for selecting / setting which file format is used to generate image data is provided.

According to a fourth aspect of the present invention, in the peripheral device system configured by connecting an information processing apparatus to a peripheral device via a network, the peripheral device performs a required image processing on the read document. Image generation means for generating digital image data composed of a display display image data part, a print original data part, and a header part for managing these image data parts, and the digital image data generated by the image generation means And adding means for adding information identifying the generation source as header part information, and distribution means for distributing the digital image data to the information processing apparatus. When printing the distributed digital image data, it is generated from the header information added to the digital image data. A generating source information detecting means for detecting a distribution, wherein the peripheral device to the detected origin information and print and a, the same detection means for detecting whether the same.
According to a fifth aspect of the present invention, the information processing apparatus includes notification means for notifying that when the same detection means and the peripheral device to be printed are not the same, the same detection means. It is characterized by being.
According to a sixth aspect of the present invention, the information processing apparatus selects an operation state for selecting a print processing operation state when the source information and the peripheral device to be printed are not the same by the same detection unit. Means are provided.
According to a seventh aspect of the present invention, the information processing apparatus uses the same detection unit to search for a substituteable printer when the source information and the peripheral device to be printed are not the same. A display selection means for displaying the search result of the search means and selecting it is provided.
The invention according to claim 8 is characterized in that the peripheral device includes a synthesizing unit that synthesizes information specifying a generation source in a digital watermark format with the digital image data generated by the image generating unit. And
According to the ninth aspect of the invention, whether the peripheral device adds information specifying a generation source to the digital image data generated by the image generation unit in the header part or synthesizes the digital image data in the digital watermark format. It is characterized by comprising selection means for selecting.

According to the present invention, there are two types of image data for display display / printing. However, according to the user's operation, the user can unconsciously display / print the display according to the present embodiment. Since the device system is automatically switched, at the user level, the image quality can be optimized by display / printing.
In addition, the peripheral device system performs processing such as sending a warning message, canceling in the middle, and searching for an optimal peripheral device, thereby guiding the user to obtain a more optimal image quality.
In the present invention, when the information specifying the generation source is a header part, it is unique information necessary for the peripheral device system of the present invention, and it is necessary to add a unique header part of digital image data. In the case of a watermark, information is synthesized with the digital image data itself, so that the data format becomes versatile and the effect is great.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing a schematic configuration of a peripheral device system according to the first embodiment of the present invention.
As shown in FIG. 1, a peripheral device system 1 according to the first embodiment includes a peripheral device 3 and an information processing apparatus 2 connected to the peripheral device 3 via a network. The peripheral device 3 is, for example, a multifunction peripheral (MFP) that has a print function and a scanner function and can be connected to a network.
The peripheral device 3 in the peripheral device system 1 according to the present embodiment includes some distribution means for distributing (capturing) digital image data generated from a document read by a scanner to an external information processing apparatus 2.
As this kind of distribution means, for example, it is distributed directly to an information processing apparatus, distributed by e-mail (via a Simple Mail Transfer Protocol (SMTP) server), or digital image data is stored inside a peripheral device and information is stored. Means such as fetching from the processing apparatus side can be considered, but in the present embodiment, a case of direct distribution will be described as an example.

FIG. 2 is a schematic diagram showing the configuration of digital image data.
As a component of a part related to the present invention, the peripheral device 3 includes a peripheral device system control unit 4, and the control content can be described as follows.
The peripheral device system control unit 4 includes two types of image data units 7 and 8 that have been subjected to optimum image processing for display display / printing from the document read by the scanner, and the two types of image data units 7 and 8. Digital image data 5 including a header section 6 to be managed (associated) is generated. That is, the peripheral device system control unit 4 functions as an image data generation unit.
In this case, the peripheral device system control unit 4 generates the data formats of the image data units 7 and 8 in a general-purpose file format on the assumption that the digital image data 5 is controlled. The general-purpose file format indicates a commonly used file format such as TIFF (Tagged Image File Format), JPEG (Joint Photographic Expert Group), PDF (Portable Document Format), or the like.
As described above, the peripheral device system control unit 4 presupposes the control of the digital image data 5 and the file format, and the image data according to the file format preset by the user via the user I / F for selecting / setting the file format. Is generated.
The digital image data 5 will be further described. The header portion 6 has an information portion for managing (associating) the display display / printing image data portions 7 and 8.
The display display image data portion 7 is an actual image data portion that has been subjected to image processing optimal for display display. The structure of the display display image data section 7 may be, for example, an independent general-purpose format file (TIFF or the like), or the header section 6 and image data (the image data in this case is the display display image data section 7). And a print image data section 8).
The print image data portion 8 is an actual image data portion that has been subjected to image processing optimal for printing on a peripheral device. The print image data portion 8 is an independent general-purpose format file (TIFF or the like), or the header portion 6 and image data (the image data in this case is the print image data portion 8 and the display display image data portion 7). There is a case of one file constituted by.
The information processing apparatus 2 shown in FIG. 1 is generally a PC (personal computer) that can be connected to a network. A component related to the present invention is a peripheral device system control unit 9 which controls the digital image data 5 distributed from the peripheral device 3 as follows. The
That is, the peripheral device system control unit 9 functions as a display control unit that displays the display display image data unit 7 on a display (not shown) when the user performs an operation of displaying on the display. Further, when the user performs a printing operation, it has a function as a transmission unit that transmits the printing digital image data portion 8 as print data. A means for realizing such a function is not particularly defined, but dedicated client software capable of handling the digital image data of the present invention is realistic.

FIG. 3 is a flowchart showing the operation of the peripheral device system according to the first embodiment.
In this case, first, the operation starts when the user sets a document on the peripheral device 3 and performs a start operation (S1).
Then, the peripheral device system control unit 4 of the peripheral device 3 reads the original with the scanner, and performs two types of image data portions 7 and 8 that have been subjected to optimum image processing for display display / printing from the read original and the above-mentioned 2 Digital image data 5 (see FIG. 2) composed of a header section 6 for managing the type of image data is generated. In this case, the image data portions 7 and 8 are generated in a general-purpose file format (for example, TIFF, JPEG, etc.). Furthermore, the image data sections 7 and 8 are generated according to the file format preset by the user via a user I / F (for example, an operation panel of a peripheral device) which is a selection setting means for selecting / setting the file format. (S2).
Thereafter, the peripheral device 3 directly distributes the digital image data 5 output from the peripheral device system control unit 4 to the information processing apparatus 2 (S3). The information processing apparatus 2 receives the digital image data 5 distributed from the peripheral device 3 (S4).
The peripheral device system control unit 9 of the information processing apparatus 2 performs the following control on the digital image data 5 distributed from the peripheral device 3, that is, for display display when the user performs an operation for displaying on the display. When the user performs an operation to display the image data portion 7 or to perform printing, control is performed to transmit the printing digital image data portion 8 as print data (S5).

In the flowchart of FIG. 3, steps S1 to S4 are an operation flow until the digital image data 5 is distributed from the peripheral device 3 to the external information processing apparatus 2, and step S5 is a process in which the user acquires the digital image data 5 as information. This is an operation flow when displaying on the display or instructing the peripheral device 3 to print on the processing device 2.
When the user activates the dedicated client software on the information processing apparatus 2 and executes an operation for displaying the digital image data 5 received as described above, the dedicated client software reads the display display image data section 7 (actually, from the information in the header section 6). Image data) is specified and displayed on the display.
When the user performs a print request operation to the peripheral device 3, the image data portion 8 (actual image data) for printing is specified from the information in the header portion 6, and is transmitted to the peripheral device 3 via the printer driver. To do.
In other words, the image data portion 7 includes two types of image data for display / printing. However, the peripheral device system according to the present embodiment displays the display unconsciously for the user in response to a user operation. / The printing is automatically switched to the peripheral device, and thereby the display / printing and the image quality are optimized in both.
The above-described dedicated client software is application software that handles digital image data. For example, general-purpose application software includes, for example, PhotoShop.
The user selects / sets the file format of the image data sections 7 and 8 in advance from the operation panel of the peripheral device 3. Then, in the peripheral device system of the first embodiment, the display display / printing image data sections 7 and 8 can be created as the digital image data 5 in a format set by the user.
As described above, according to the peripheral device system of the present embodiment, it is possible to improve the image quality of both the display display image and the print image by using dedicated client software. You cannot view (print) images with high-quality images from either one (display / print) using general-purpose software (eg PhotoShop). Therefore, by making the image data into a general-purpose file format, the files can be opened one by one with PhotoShop.

Next, a peripheral device system according to a second embodiment of the present invention will be described.
FIG. 4 is a schematic diagram of a peripheral device system according to the second embodiment.
As shown in FIG. 4, the peripheral device system 10 according to the second embodiment includes an information processing apparatus 2 and three peripheral devices, that is, first, second, and third peripheral devices 3a, 3b, and 3c. It is configured. These peripheral devices 3a, 3b, and 3c include peripheral device system controllers 4a, 4b, and 4c.
The control contents of the peripheral device system control units 4a, 4b, and 4c are provided with an adding unit that adds information specifying the generation source to the digital image data generated from the original read by the scanner as header part information. The information specifying the generation source is information (hereinafter referred to as “generation source information”) for specifying the peripheral device that generated the digital image data. Examples of such generation source information include a MAC address and a serial number.
The information processing apparatus 2 is generally a PC or the like that can be connected to a network, like the information processing apparatus in the first embodiment shown in FIG. The information processing apparatus 2 includes a peripheral device system control unit 9, and the peripheral device system control unit 9 has the following control contents. The generation source information is detected from the header part information added to the digital image data distributed from one of the peripheral devices 3a, 3b, 3c, and the detected generation source information and the peripheral devices 3a, 3b that the user is trying to print are detected. 3c is detected whether one of them is the same. If the detected results are not the same, the user is notified of this, and the operation state means for selecting the operation state “continue / cancel” of the print processing is provided to the user, and a substituteable printer is searched / displayed. In addition, control is performed so as to provide the user with a means for further selection. In other words, the peripheral device system control unit 9 in this case functions as the generation source information detection unit, the same detection unit, and the operation state selection unit.

FIG. 5 is a flowchart showing the operation of the peripheral device system according to the second embodiment.
In this case, first, the operation is started when the user sets a document on one of the peripheral devices 3a, 3b, and 3c and performs a start operation (S11).
Then, the peripheral device system controllers 4a, 4b, and 4c of the peripheral devices 3a, 3b, and 3c read the original with the scanner. For image data that has been subjected to optimal image processing (image processing that optimizes the quality of the printed material when the distributed digital image data is printed again) from the document read by the scanner Information specifying the generation source is added as header part information (S12).
The peripheral devices 3a, 3b, 3c distribute the digital image data 5 output from the peripheral device system control unit 4 to the external information processing apparatus 2 (S13).
The information processing apparatus 2 receives the digital image data 5 distributed from the peripheral devices 3a, 3b, 3c (S14).
The information processing apparatus 2 instructs to print the digital image data 5 (S15). The peripheral device system control unit 9 of the information processing apparatus 2 detects the generation source information from the header part information added to the digital image data 5 for which the user instructs printing (S16).
If the detected result is not the same, the peripheral device system control unit 9 of the information processing apparatus 2 notifies the user to that effect and, as described above, a means for selecting “continue / cancel” the print process. In step S17, control is performed to search / display a substituteable printer and to provide a user with a means for selecting the substitute printer.

In the flowchart of FIG. 5, steps S11 to S14 are an operation flow until digital image data is distributed from the peripheral device 3 to the external information processing apparatus 2, and steps S15 to S17 are steps in which the user processes the digital image data. This is an operation flow when the apparatus 2 instructs the peripheral devices 3a to 3c to print.
More specifically, for example, when the user sets and starts a document on the peripheral device 3a, the peripheral device system control unit 4a of the peripheral device 3a performs image processing on a digital image generated from the document read by the scanner. In addition, information specifying the generation source (for example, MAC address, serial number, machine number ID, model name, etc.) is added as header part information. Digital image data (with a header) output from the peripheral device system control unit 4a of the peripheral device 3a is directly distributed to the information processing device 2, and the information processing device 2 receives the digital image data distributed from the peripheral device 3a. Receive. The user instructs the peripheral device 3b to print the digital image data received in the information processing apparatus 2.
The peripheral device system control unit 9 of the information processing device 2 detects the generation source information from the header information added to the digital image data instructed to be printed by the user, and information (MAC address, information specifying the device from the peripheral device 3b). Etc.) and is compared with the detected source information.
By the way, in the case of the second embodiment described above, the generation source information added to the digital image data is the information on the first peripheral device 3a, and the information specifying the device of the peripheral device instructed to print is the information on the second peripheral device 3b. Information and the above two are different.

In the following, how to deal with different cases will be described.
As a first example, by causing the peripheral device system control unit 9 of the information processing device 2 to function as a notification unit, a user instructs the user to print with the first peripheral device 3a that is the generation source using a GUI or the like. 2 It is conceivable to issue a warning message indicating that the peripheral device 3b is different.
As a second example, by causing the peripheral device system control unit 9 of the information processing device 2 to function as a selection unit, the generation source and the peripheral device instructed to print are notified, and printing is continued as is. It is conceivable to cancel in the middle or let the user select.
As a third example, a peripheral device of the same model as the first peripheral device (digital image data generation source) 3a is obtained by causing the peripheral device system control unit 9 of the information processing device 2 to function as a search unit and a display selection unit. It is assumed that a search is performed on the network for a third peripheral device 3c. In this case, it is conceivable that the peripheral device system control unit 9 of the information processing apparatus 2 allows the user to select whether or not to substitute for the third peripheral device 3c. The search is not particularly defined on the network, but for example, TCP / IP broadcast or Ping shower can be considered.
When printing a distributed image, it is natural for the user to obtain the highest possible image quality. However, most users will not know that it is most desirable to print on a peripheral device equivalent to the source of the delivered image. Even if it is known, in the prior art, there is no means for the user to know which peripheral device is the source of the target image at that time.
As described above, in the peripheral device system 10 according to the second embodiment, the system performs processing such as issuing a warning message, enabling cancellation on the way, and searching for an optimal peripheral device. Thus, it is possible to guide the user to obtain a more optimal image quality.

Next, a peripheral device system according to a third embodiment of the present invention will be described.
The configuration of the peripheral device system according to the third embodiment is the same as that shown in FIG.
Similar to the peripheral device system in this case and the peripheral device system of the second embodiment, the information processing device 2 and the first to third peripheral devices 3a to 3c are configured, and these peripheral devices 3a to 3c include peripheral devices. Device system controllers 4a to 4c are provided. The control content is a means for the user to select which format of “digital watermark / header part” is added / synthesized as information for specifying the generation source for the digital image data generated from the original read by the scanner. All the controls related to this are operated according to the set values.
The information processing apparatus 2 in this case is generally a PC or the like that can be connected to the network, as in the second embodiment. The information processing apparatus 2 is provided with a peripheral device system control unit 9, and the peripheral device system control unit 9 has the following control contents.
Generation source information is detected from header information / synthesized digital watermark information added to digital image data distributed from one of the first, second and third peripheral devices 3a, 3b, 3c, and detected generation It is detected whether the original information and one of the peripheral devices 3a, 3b, 3c that the user intends to print are the same.
If the detected results are not the same, the user is notified of this, a means (function) for selecting “continue / cancel” the print process is provided to the user, and a proxy printer can be searched / displayed. Control is performed to provide the user with a means (function) to select.

FIG. 6 is a flowchart showing the operation of the peripheral device system according to the third embodiment. In FIG. 6, it is assumed that the user adds / combines the format to be added / synthesized as information for specifying the generation source by selecting either “header part / digital watermark” (S21). The setting means is not particularly defined, but is set from the operation panel of the peripheral device 3, for example.
The operation is started when the user sets a document on one of the peripheral devices 3a, 3b, and 3c and performs a start operation (S22).
Then, the peripheral device system controllers 4a, 4b, and 4c of the peripheral devices 3a, 3b, and 3c read the original with the scanner, and perform image processing (reprinting the distributed digital image data on the digital image data generated from the read original. The information specifying the generation source is added as header part information to the image data that has been subjected to image processing so that the image quality of the printed matter is optimized (S23).
Thereafter, the peripheral devices 3a, 3b, and 3c distribute the digital image data 5 output from the peripheral device system control unit 4 to the external information processing apparatus 2 (S24). The information processing apparatus 2 receives the digital image data 5 distributed from the peripheral devices 3a, 3b, 3c (S25).
The information processing apparatus 2 instructs to print the digital image data 5 (S26). The peripheral device system control unit 9 of the information processing apparatus 2 detects the source information from the header part information / digital watermark information added to the digital image data 5 for which the user has instructed printing (S27).
Then, if the detected result is not the same, the peripheral device system control unit 9 of the information processing apparatus 2 notifies the user to that effect, and selects “continue / cancel” the print process as described above. Is provided to the user, a printer that can be substituted is searched for / displayed, and further, a means for selecting the user is provided to the user (S28).

In the flowchart of FIG. 6, step S21 is an operation flow related to the initial setting for using the peripheral device system according to the third embodiment. Steps S <b> 22 to S <b> 25 are an operation flow until the digital image data 5 is distributed from the peripheral device 3 to the external information processing apparatus 2. Steps S26 to S28 are operational flows when the user instructs the peripheral device 3 to print digital image data from the information processing apparatus 2.
More specifically, for example, the peripheral device system control unit 4a of the first peripheral device 3a has information for specifying a generation source (for example, a digital image generated from a document read by a scanner). , MAC address, serial number, machine number ID, model name, etc.) are added / synthesized in a preselected format (header / digital watermark). In this case, the peripheral device system control unit 4 of the peripheral device 3 is also provided with a function as a selection means for selecting whether to add the generation source information to the header portion or to synthesize in the digital watermark format.
The digital image data (header / with digital watermark) output from the peripheral device system control unit 4a of the first peripheral device 3a is directly distributed to the information processing apparatus 2.
The information processing apparatus 2 receives the digital image data 5 distributed from the first peripheral device 3a. Then, when there is an instruction to print the digital image data received in the information processing device 2 from the user to the second peripheral device 3b, the peripheral device system control unit 9 of the information processing device 2 causes the user to instruct the print instruction. Source information is detected from the header / digital watermark information added / synthesized to the digital image data.
In addition, the peripheral device system control unit 9 of the information processing apparatus 2 acquires information (MAC address, etc.) specifying the device from the second peripheral device 3b and compares it with the detected generation source information.
By the way, in the case of the third embodiment described above, the generation source information added to the digital image data 5 is the information of the first peripheral device 3a. The information for specifying the peripheral device instructed to print is the information of the second peripheral device 3b. Yes, the above two are different.

In the following, how to deal with different cases will be described.
As a first example, it is conceivable that the peripheral device system control unit 9 of the information processing apparatus 2 issues a warning message to the user that the generation device and the peripheral device 3b instructed to print are different using a GUI or the like. .
As a second example, the peripheral device system control unit 9 of the information processing apparatus 2 notifies that the generation device and the peripheral device that has instructed printing are different, and further continues printing or cancels the process in the middle. It is conceivable to let them select.
As a third example, the peripheral device system control unit 9 of the information processing device 2 searches the network for a peripheral device of the same model as the second peripheral device (digital image data generation source) 3b, Find the peripheral device 3c. It is conceivable that the peripheral device system control unit 9 of the information processing apparatus 2 allows the user to select whether or not to substitute for the peripheral device 3c. The search is not particularly defined on the network, but for example, TCP / IP broadcast or Ping shower can be considered.
In the peripheral device system according to the third embodiment configured as described above, a header part / digital watermark is provided, but each format of the header part / digital watermark has advantages in each format. Since there are disadvantages, a more comfortable system can be provided by selecting a format suitable for the user's usage environment.
The merit of adding the header part is that the processing speed for detecting information from the added header part is faster than that of the digital watermark. Another point is that the digital image data does not deteriorate. On the other hand, an advantage of the digital watermark is that the data format is versatile because information is synthesized with the digital image data itself.
On the other hand, the demerit in the case of the header part is unique information necessary for the peripheral device system of this embodiment, and it is necessary to add a unique header part of the digital image data. The disadvantage of the process of synthesizing the digital watermark is that the process speed of the process of detecting the synthesized information is slower than that of the header part. Another point is that the digital image data itself deteriorates somewhat. By the way, although it depends on the information / method to be synthesized, it has little effect on human vision. It should be noted that there is little influence especially in the case of natural painting.

1 is a schematic diagram of a peripheral device system according to a first embodiment of the present invention. Schematic which shows the structure of digital image data. The flowchart which shows operation | movement of the peripheral device system which concerns on 1st Embodiment. The schematic diagram of the peripheral equipment system concerning a 2nd embodiment. The flowchart which shows operation | movement of the peripheral device system which concerns on 2nd Embodiment. The flowchart which shows operation | movement of the peripheral device system which concerns on 3rd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Peripheral equipment system, 2 Information processing apparatus, 3 Peripheral equipment, 3a 1st peripheral equipment, 3b 2nd peripheral equipment, 3c 3rd peripheral equipment, 4 Peripheral equipment system control part, 4a, 4b, 4c Peripheral equipment system control part, 5 digital image data, 6 header section, 7 display display image data section, 8 print image data section, 9 peripheral device system control section

Claims (9)

In a peripheral device system configured by connecting an information processing device to a peripheral device via a network,
The peripheral device performs digital image data composed of a display display image data section, a print document data section, and a header section for managing these image data sections by performing required image processing on the read document. An image generating means for generating the digital image data generated by the image generating means to the information processing apparatus,
The information processing apparatus includes: a display control unit that displays an image on the display using display display image data when a display operation for displaying digital image data distributed from the peripheral device on the display is performed; and a printing operation A peripheral device system comprising: transmission means for transmitting digital image data for printing as print data when it is performed.   2. The peripheral device system according to claim 1, wherein the image generation means of the peripheral device generates the display display image data and the print image data in a general file format. The image generation means of the peripheral device is configured to generate image data for the display display image data and print image data according to a plurality of types of file formats,
2. The peripheral device system according to claim 1, further comprising selection / setting means for selecting / setting which of the plurality of types of file formats is used to generate image data. In a peripheral device system configured by connecting an information processing device to a peripheral device via a network,
The peripheral device performs digital image data composed of a display display image data section, a print document data section, and a header section for managing these image data sections by performing required image processing on the read document. Generating means for generating image information, adding means for adding information specifying the generation source to the digital image data generated by the image generating means as header part information, and distributing the digital image data to the information processing apparatus Distribution means for
When the information processing apparatus prints digital image data distributed from the peripheral device, the information processing apparatus detects generation source information detecting means for detecting generation source information from header information added to the digital image data. A peripheral device system comprising: the same detection means for detecting whether the generation source information and the peripheral device to be printed are the same.   5. The information processing apparatus according to claim 4, further comprising a notification unit configured to notify the fact that when the source information and the peripheral device to be printed are not the same by the same detection unit. The described peripheral device system.   The information processing apparatus includes an operation state selection unit that selects an operation state of a print process when the source information and the peripheral device to be printed are not the same by the same detection unit. The peripheral device system according to claim 4.   The information processing apparatus displays a search unit for searching for a substituteable printer and a search result of the search unit when the source information and the peripheral device to be printed are not the same by the same detection unit, 5. The peripheral device system according to claim 4, further comprising display selection means for selecting this.   5. The peripheral device according to claim 4, wherein the peripheral device includes a synthesis unit that synthesizes information specifying a generation source in digital watermark format with the digital image data generated by the image generation unit. Equipment system.   The peripheral device includes selection means for selecting whether to add information specifying a generation source to the digital image data generated by the image generation means to the header portion or to combine the digital image data in the digital watermark format. The peripheral device system according to claim 8, wherein:

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