JP4050598B2 - Network scanning system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for connecting an image scanner device to a network.
[0002]
[Prior art]
In general, an image scanner device is a general-purpose information processing device such as a personal computer or a workstation (hereinafter collectively referred to as a PC) via a SCSI (Small Computer System Interface) interface, and recently a USB (Universal Serial Bus) interface. Connect with.
[0003]
There are various examples of utilization of the image scanner device, such as optical character recognition (OCR) and filing, but in recent years, its purpose of use, for example, attaching to an e-mail has only expanded.
[0004]
On the other hand, at work, etc., one PC is assigned to each employee, and they are connected to a network and share network resources (files, printers, etc.). Inevitably, sharing of image scanner devices is also desired, and there are some scanner devices that can be connected to a network (generally, many are multifunctional devices), but they are very expensive and inexpensive. There is nothing.
[0005]
For example, Patent Document 1 is cited as a technique that meets such a demand. In this patent document 1, in order to connect an image scanner device having a SCSI interface to a network, a device called a scan box is interposed therebetween. This scan box communicates with an application operating on a specific PC on the network. Then, the operation content on the scan box side (for example, notification that the start button has been pressed) is notified to the PC, the operator-specific job information is received from the PC, and the image read to the file server based on the received job information Is transferred and stored.
[0006]
[Patent Document 1]
JP 2001-285560 A
[0007]
[Problems to be solved by the invention]
According to the technique disclosed in Patent Document 1 above, an existing image scanner device can be connected to a network via a scan box, but reading conditions are determined in advance and are necessary on the scan box. The setting cannot be changed depending on
[0008]
The present invention has been made to solve such problems, and is an image scanner of a type connected to a general-purpose information processing apparatus. Na In addition to using it, scanning condition setting operations And start reading The present invention provides a technology of a network scanning system that can be operated by a single device.
[0009]
[Means for Solving the Problems]
In order to solve this problem, for example, the network scanning system of the present invention has the following configuration. That is,
A type of scanner connected to a general-purpose information processing device Na In order to function as a network scanner device, With na A connection device having a scanner interface and a network interface to be connected, and controlling the connection device via a network Scanner A network scanning system comprising a control device,
The connecting device is
Output from the scanner controller Drawing data including a screen for setting the scanning conditions for the original Receive Display screen Display means for displaying at a predetermined display position;
Said Coordinate position notifying means for detecting an operation position on the display screen and notifying the scanner control device;
Scan request from the scanner control device Received A scanner connection means for causing the scanner interface to execute a scan request and outputting data received via the scanner interface to the scanner control device,
The scanner control device
Data relating to reading conditions is acquired from a scanner driver operating in the scanner control device, drawing data for a setting screen for reading conditions is generated based on the acquired data, and the generated drawing data and the scanner driver are generated Communication means for transmitting the request command from the connection device to the scanner connection means,
Said display means When a screen based on the drawing data of the reading condition setting screen is displayed by Said coordinate position notifying means Based on the operation position notified by Document scanning conditions of Reading condition setting means for setting,
Said coordinate position notifying means Based on the operation position notified by The scan In na Image obtained by scanning data Destination setting means for setting the transmission destination of,
After a destination is set by the destination setting means, a reading start instruction is made in the connection device. While outputting the conditions set by the reading condition setting means to the scanner driver, Issued by the scanner driver Scan request Towards the connection device Scan request means for outputting;
By the scan request means scan request In response to the , The scanner receives image data obtained by reading a document through the connection device, and Transmitting means for transmitting to the destination set by the destination setting means.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the accompanying drawings.
[0011]
<Description of the entire system>
FIG. 1 shows a form of a system using a scanner / network connection apparatus in the embodiment.
[0012]
In the figure, reference numeral 100 denotes a scanner / network connection device, which has a network interface and a SCSI interface. Reference numeral 200 denotes an image scanner device (hereinafter, simply referred to as a scanner) having a SCSI interface. Reference numeral 300 denotes a local area network (simply referred to as a network) constructed by Ethernet (registered trademark), and 401 to 405 are personal computers (hereinafter referred to as PCs) connected to the network 300, which are used by each user. It is. Reference numeral 500 denotes a control PC that manages and remotely controls the scanner / network connection apparatus 100 according to the embodiment. Note that the difference between the control PC 500 and the PCs 401 to 405 is whether or not an application for controlling the scanner / network connection device and various driver programs described later are running. There is no difference. Further, as will be apparent from the description to be described later, the control PC 500 is for management by an administrator, and the users such as the PCs 401 to 405 may not know the existence thereof. In the figure, although five PCs are shown for use by general users, the present invention is not limited by this number. Further, in the drawing, various servers, routers, printers, and the like installed on the network are shown. However, these are well-known devices, and thus description thereof is omitted. In the embodiment, description will be made assuming that TCP / IP is used as the protocol of the network 300. However, any protocol may be used as long as the following functions are realized.
[0013]
<Description of scanner control PC and scanner / network connection device>
FIG. 2 is a block diagram of the scanner / network connection apparatus 100, the scanner 200, the network 300, and the scanner control PC 500.
[0014]
The hardware configuration of the scanner control PC is not different from that of a normal PC, but will be described for the time being.
[0015]
In the figure, reference numeral 501 denotes a CPU that controls the entire apparatus, and reference numeral 502 denotes a ROM that stores a boot program, BIOS, and the like. Reference numeral 503 denotes a RAM that loads an OS and applications executed by the CPU 501 and is used as a work area. Reference numeral 504 denotes a keyboard, and 506 denotes a pointing device such as a mouse (registered trademark). Reference numeral 506 denotes a network interface for connecting to the network 300, and reference numeral 507 denotes a display control unit 507 equipped with a graphics engine processor and a video memory. Reference numeral 508 denotes a display device such as a CRT, and 509 denotes an OS, a scanning application in the embodiment, and a hard disk device for temporarily storing images. Although any operating OS may be used, in the embodiment, it is assumed that Windows® provided by Microsoft Corporation in the United States operates. Details of the scanning application will be described later.
[0016]
On the other hand, the scanner / network connection apparatus 100 has the following configuration. Reference numeral 101 denotes a CPU that controls the entire apparatus (the processing speed as high as that of a PC CPU is not necessary), 102 a ROM that stores a program (firmware) that is a processing procedure, and 103 a RAM that is used as a work area. is there. 104 is a touch panel, 105 is a controller for liquid crystal display, and 106 is a liquid crystal display. The touch panel in the embodiment employs a pressure-sensitive type composed of a transparent sheet and is provided on the front surface of the liquid crystal display (LCD) 106. Of course, the coordinate detection method is not limited to this, and any method may be used. Further, the LCD 106 in the embodiment has a display capability of 320 × 200 dots so that the resolution is sufficient to function as the user interface of the scanner 200, and the display image is binary. Reference numeral 107 denotes a network interface, and reference numeral 108 denotes a SCSI interface. Since the image scanner 200 may be an existing scanner device having a SCSI interface, its details are omitted.
[0017]
FIG. 3 shows the layer structure of the scanner control PC 500 and the scanner / network connection apparatus 100 shown in FIG.
[0018]
On the scanner control PC 500, a network driver and a scanner driver operate. The network driver may be prepared by a manufacturer that manufactures / sells the network interface 506 or a driver supported by the OS. The scanner driver may be, for example, a TWAIN (Technology Without any Interested Name) driver prepared by the manufacturer of the scanner 200, and is not special. The characteristic points in this embodiment are the virtual LCD driver 551, the virtual touch panel driver 552, and the virtual SCSI driver 553.
[0019]
The virtual LCD driver 551 looks as if the LCD 106 and the LCD controller 105 included in the remote scanner / network connection apparatus 100 are connected as hardware to a local scanner control PC 500 called a scanner control PC. It is a driver. The virtual touch panel driver is also a driver that makes it appear as if the touch panel 104 included in the scanner / network connection apparatus 100 is connected to the local scanner control PC 500 as hardware. The virtual SCSI driver is also a driver for making it appear as if the SCSI interface 108 of the scanner / network connection apparatus 100 is connected to the local scanner control PC 500 as hardware.
[0020]
In short, these three virtual drivers operate hardware resources of the scanner / network connection apparatus 100 that exists remotely as if the local PC such as the scanner control PC 500 has. More specifically, the virtual LCD driver 551 and the virtual touch panel driver 552 make it possible for a standard input / output device (also referred to as a console, generically referring to a display device and an input device that receives input from a user in the computer technical field) to be a scanner. It operates as if it is connected to the control PC 500, and operates as if there is a SCSI interface (card) by the virtual SCSI driver.
[0021]
On the other hand, on the scanner / network connection apparatus 100, a network driver 154 as firmware operates, and an LCD server 151, a touch panel task 152, and a SCSI server 153 operate on the upper layer.
[0022]
In the above configuration, the virtual LCD driver 551 in the scanner control PC 500 and the LCD server 151 in the scanner / network connection apparatus 100 cooperate to realize image display on the LCD 151 included in the scanner / network connection apparatus 100. Incidentally, the format of the data output from the virtual LCD driver of the scanner control PC 500 to the scanner / network connection device 100 is the identification code, the display coordinate position (x, y) of the upper left corner of the rectangular image to be displayed, The width W and height H, which are rectangular sizes, and an actual bit stream (binary image data of 1 bit per pixel) were used.
[0023]
In addition, the virtual touch panel driver 552 in the scanner control PC 500 and the touch panel task 152 in the scanner / network connection apparatus 100 cooperate with each other, and the touch coordinate position (x, y) by the user of the touch panel 104 included in the scanner / network connection apparatus 100. ) Can be detected and notified to the upper layer. Since the flow of data flows from the touch panel task 152 to the touch panel driver 552, the touch panel task 152 is a client and the touch panel driver 552 is a server.
[0024]
The virtual SCSI driver 553 in the scanner control PC 500 and the SCSI server 153 in the scanner / network connection apparatus 100 cooperate with each other. That is, when there is a request command from the scanner driver of the scanner control PC, the virtual SCSI driver 553 transmits the request command to the scanner / network connection apparatus 100. Upon receiving this, the scanner / network connection apparatus 100 outputs it to the scanner 200 via the SCSI driver. Further, the data output from the scanner 200 (including the read image data) can be finally supplied to an application operating on the scanner control PC via the reverse path.
[0025]
As described above, there are roughly three types of data between the scanner control PC 500 and the scanner / network connection apparatus 100. Therefore, it is necessary to be able to distinguish each data. In this embodiment, the problem is solved by using a port number indicating logic. That is, in addition to adding the destination IP address and its own IP address to the header of the packet flowing on the network, the port number is P1, if it is related to display, the touch panel coordinate data is P2, and the SCSI data is P3 is used, and each network driver performs allocation based on the port numbers. However, normally, in TCP / IP communication, the client side specifies the port number and accesses the server. In other words, the client side needs to use the port number opened by the server.
[0026]
As shown in FIG. 3, the scanner / network connection apparatus 100 is configured by dedicated hardware, and the LCD server 151 and the SCSI server 153 that operate are literally functioning as servers, so the ports used by these two servers. P1 and P3 may be fixed. That is, the virtual LCD driver and the virtual SCSI driver of the scanner control PC 500 may communicate with each other on the assumption that the ports P1 and P3 of the IP address of the scanner / network connection apparatus 100 are open from the beginning.
[0027]
On the other hand, in the communication of the coordinate position information of the touch panel, the virtual touch panel driver 552 that operates on the scanner control PC 500 side becomes the receiving side, that is, the server. As described above, since the scanner control PC 500 in the embodiment is realized by an information processing apparatus such as a general-purpose personal computer, there is no limit to the applications that run on it. Naturally, the port number of the TCP / IP protocol used by each application may be freely used, and the port being used by another application cannot be used for touch panel data communication. That is, when the virtual touch panel driver 552 operates, it searches for an available port and uses it.
[0028]
Therefore, unless the touch panel task 152 in the scanner / network connection apparatus 100 knows the port number, the touched coordinate position information cannot be notified to the scanner control PC 500. Therefore, in this embodiment, the port number P2 used by the touch panel task 152 addressed to the LCD server 151 (of course, the SCSI server 153) using the fixed port P1 can be distinguished from the data to be displayed. Added notification in command format.
[0029]
<Description of processing of scanner / network connection device>
Hereinafter, the processing procedure of the scanner / network connection apparatus 100 in the embodiment will be described in order.
[0030]
FIG. 4 shows an initial process of the scanner / network connection apparatus 100.
[0031]
When the power is turned on, initialization processing is performed. This initialization processing includes initialization of the network interface 107 and driving of the network driver 154. The network driver 154 monitors a packet on the network 300, performs processing for capturing a packet of an IP address assigned to itself in advance (registered in a non-volatile memory not shown), and transmits the packet to the network. It will be. The registration of the IP address may be performed by setting a fixed address or setting as a DHCP (Dynamic Host Configuration Protocol) client using a setting menu of the scanner / network connection apparatus 100 (not shown). .
[0032]
In step S2, the LCD server task 151 is generated and activated (details are shown in FIGS. 5 and 6). In steps S3 and S4, the touch panel task 152 and the SCSI server 153 are generated and activated (details are shown in FIGS. 7 and 8). Thereafter, multitasking is enabled so that these processes operate as multitasking (step S5).
[0033]
As described above, each of the LCD server 151, the touch panel task 152, and the SCSI server 152 starts its processing. Each processing content will be described below in order.
[0034]
The LCD server 151 performs processing according to the processing procedure shown in FIG.
[0035]
First, in step S11, the LCD controller 105 is initialized, and in step S12, a screen indicating connection waiting is displayed from the scanner control PC 500. This screen is, for example, as shown in FIG. Since the image shown in FIG. 10 is an image before connection from the scanner control PC 500, it is voluntarily displayed on the scanner / network connection apparatus 100 side. At this time, the IP address assigned to the network interface 107 of the scanner / network connection apparatus 100 is also displayed. As a result, even when the scanner / network connection apparatus 100 is connected to the network 300 as a DHCP client, its IP can be easily determined.
[0036]
In step S13, the port P1 is monitored to wait for a connection from the scanner control PC 500.
[0037]
When the connection is made, the process proceeds to step S14, where it is determined whether or not a command has been received, and the process proceeds to step S16 in which the command is received, and processing corresponding to various commands is performed (details will be described with reference to FIG. 6). . On the other hand, when the notification of the connection end is received (corresponding to the case where the scanning application is ended in the scanner control PC 500), the process proceeds to step S12 to wait for the next connection request.
[0038]
FIG. 6 shows details of step S16 described above.
[0039]
In step S21, it is determined whether or not a bitmap is received. If it is determined that the bitmap is received, the subsequent bitmap data is output to the LCD controller 105 based on the upper left corner coordinate, width, and height information, thereby displaying an image on the LCD 106. Since the number of display pixels of the LCD 106 in the embodiment is 320 × 200 and a binary image is displayed, the maximum size of one image is 320 × 200 bits = 64000 bits, and the bandwidth of a normal network Is 10 Mbps or 100 Mbps, the burden on the network is negligible, and the response does not deteriorate even when the screen is updated.
[0040]
The function of the LCD server 151 is sufficient as described above. However, as described above, since the touch panel task needs to determine the scanner control PC port to be transmitted, the port number in the LCD server 151 is determined. Control the validation and valid / invalid of touch panel.
[0041]
Therefore, in step S23, it is determined whether or not a touch panel start command has been received. If the command is received, a touch panel coordinate transmission port included in the command is acquired and stored in an appropriate position in the RAM 103. And the touch panel flag indicating that the touch panel is valid is turned ON. The touch panel start command has been described as including the touch panel port number P2, but it goes without saying that the touch panel start command may be provided separately.
[0042]
In step S25, it is determined whether a touch panel stop command has been received. If it is determined that it has been received, the touch panel flag is turned OFF.
[0043]
Although the touch panel task will be described later, when the touch panel flag is in the ON state, the touch coordinate position is output to the port P2 of the network address of the scanner / network connection apparatus 100, and the touch position coordinate data is output.
[0044]
Next, the processing procedure of the SCSI server in the scanner / network connection apparatus 100 will be described with reference to the flowchart of FIG.
[0045]
First, in step S31, the SCSI interface 108 is initialized. Next, in step S32, it waits for connection from the scanner control PC 500 to be made.
[0046]
In step S33, the port P3 is monitored to determine whether or not a command related to SCSI has been received from the scanner control PC 500. If not, the process proceeds to step S34 to determine whether or not it is a connection end notification command. Is received, the process returns to step S32. Otherwise, the process returns to step S33.
[0047]
If it is determined that a command related to SCSI (excluding the connection end command) has been received, the process proceeds to step S35, and the received SCSI command is executed. That is, the SCSI interface 108 is command-processed. As a result, since there is some response from the scanner 200 connected to the SCSI interface 108, it is received and this received data is output to the port P3 of the scanner control PC.
[0048]
As described above, the processing of the SCSI server 153 simply causes the SCSI interface 108 to execute the SCSI command received from the network, and the SCSI interface 108 returns the result (this includes reading the document). Data is also included), and the processing is simply to notify the scanner control PC 500 of the data.
[0049]
In general, a device connected to a SCSI interface (in the case of an 8-bit data bus) has one of IDs 0 to 6 (ID = 7 is often assigned to a SCSI interface). Also, in the initial stage, by scanning the SCSI interface for each ID, whether or not a device having that ID is connected is detected. Then, the OS holds the result, and thereafter communicates with the SCSI device using the ID.
[0050]
Also in this embodiment, since the virtual SCSI driver and the SCSI server of the scanner control PC 500 do the same thing, the scanner control PC 500 side knows which SCSI device is connected. In other words, the SCSI server 153 in the embodiment does not need any information about what ID the connected scanner 200 has.
[0051]
Next, processing contents of the touch panel task 152 in the scanner / network connection apparatus 100 will be described with reference to the flowchart of FIG.
[0052]
First, in step S41, initialization processing is performed. Next, it is determined whether or not the touch input to the panel by the user has changed on the touch panel 104, and the change is awaited. Note that a change in touch input is the opposite of a change in which the touch panel 104 is pressed from a non-contact state. In the latter case, meaningless data may be sent as coordinate data, or it may be sent with attribute information indicating whether or not it has been touched.
[0053]
If it is determined that there is a change in the touch input, the process proceeds to step S43, and it is determined whether or not the touch panel flag is ON at that time. The touch panel flag ON / OFF control is performed by the LCD server 151 as described above. When it is determined that the touch input has changed and the touch panel flag is ON, the touch coordinate data (which allows the user to determine whether the touch has been touched or released) is used as the previous LCD server 151. The port P2 stored in S24 is read out and the coordinate data is output to the port P2 of the scanner control PC 500.
[0054]
The processing contents in the scanner / network connection apparatus 100 according to the embodiment have been described above.
[0055]
<Description of scanning application>
Next, a scanning application that operates on the scanner control PC 500 will be described.
[0056]
In the following description, the meanings of terms such as “display”, “touch input”, and “image input” are processes when viewed from the scanning application. For example, display processing performed by the scanning application is performed on the virtual LCD driver 551. The virtual LCD driver 551 generates a bitmap in accordance with the instructed request, transmits it to the port P1 addressed to the IP of the scanner / network connection apparatus 100, and displays it on the remote LCD 106. Note that touch input is the same, and instructions for reading to the scanner are the same.
[0057]
FIG. 9 is a flowchart showing the processing contents of the scanning application.
[0058]
This scanning application is stored in the hard disk 509 of the scanner control PC 500 and is activated by the user or automatically according to the activation of the PC.
[0059]
First, in step S51, the scanner / network connection apparatus 100 is connected via the network 300. This connection processing includes processing for connecting to the ports P1 and P3 of the IP address of the scanner / network connection device 100, processing for searching for the port P2 that can be used for receiving touch data, and notifying it (touch panel flag ON command). ) Is included.
[0060]
Next, the process proceeds to step S52, screen display processing on the LCD 106 is performed, touch input is performed in step S53, and processing corresponding thereto is performed in step S55. By repeating the processing of S52, S53, and S55, the user input in the scanner / network connection apparatus 100 and the display update of the response screen in response thereto are sequentially performed. When the screen is switched, the process of drawing an image corresponding to the screen is naturally performed in step S52, and the user performs input according to the processing. Here, the point that I want to pay attention to is that when the scanning application obtains the coordinate information input by touch, it grasps the screen image that was displayed just before that, that is, the coordinate position of various buttons that the user would operate. Therefore, it is known what instruction the touch coordinate information is. In addition, as a general rule, processing for a button touched by the user is performed when the touch state changes to the non-touch state. When the touch state is reached, a process of transferring a highlight image of the touched button or the like is performed.
[0061]
Further, as will be apparent from the description to be described later, various setting registrations are also performed by the user through the loop of S52, 53, and 55 described above.
[0062]
Now, as described above, the screen is updated as necessary, and various settings are made by the user. Finally, it is determined that coordinate information corresponding to a scan start instruction has been received. If so, the process advances from step S54 to step S56 to instruct the scanner driver to read. As a result, the virtual SCSI driver 553 issues the instruction command to the port P3 of the IP address that is the scanner / network connection apparatus 100, and starts scanning. As a result, the read document image data is sent from the scanner / network connection apparatus 100, so that the virtual SCSI driver 153 outputs the data to the scanner driver and is finally passed to the scanning application. (S57).
[0063]
When the scanning application receives the read image, the scanning application performs post-processing on the read image in accordance with the contents set in the previous setting process (S52, S53, S55).
[0064]
As the types of post-processing in the embodiment, the following can be realized.
1. Storage of read image in desired file server (file server specified by user) and setting of storage file format at that time,
2. FAX transmission (transfer to FAX server),
3. Send as an email attachment,
3. Transfer to the server by FTP and set the storage file format at that time,
4). Printing on the desired printer server,
5.1 to 4 desired combination processing
These processes will be described later.
[0065]
In addition, in FIG. 9, when there is an instruction to end the scanning application (this instruction is an instruction on the scanner control PC 500), in step S59, a cutting process (an instruction command to turn off the touch panel flag is issued). This process is finished. Of course, the scanning application may be always in an operating state.
[0066]
As described above, in order to facilitate understanding of the specific processing contents of the scanning application, description will be made with reference to FIGS.
[0067]
FIG. 10 shows a screen displayed on the LCD 106 of the scanner / network connection device before starting the scanning application on the scanner control PC 500.
[0068]
When the scanning application is activated, connection can be attempted as described above. However, when the scanning application is installed in the PC 500 and activated for the first time, the IP address of the scanner / network connection device 100 is unknown, so FIG. The screen shown is displayed on the scanner control PC 500, the IP of the scanner / network connection device 100 is input, and the registration is saved. This registration is stored in the HDD or the like, so that it is not required to input an IP address at the next startup.
[0069]
When the connection is made, the scanning application causes the virtual LCD driver 551 to draw the screen shown in FIG. 12 in order to display the initial screen on the LCD 106 of the scanner / network connection apparatus 100. As shown in FIG. 12, since the image to be displayed is the entire surface of the LCD 106, the virtual driver 551 draws an image with display positions 0, 0, width 320, and height 200, and displays the bitmap image as a scanner / image. The transmission is performed toward the port P1 of the IP address of the network connection apparatus 100 (corresponding to the process of step S52 in FIG. 9).
[0070]
In the case of FIG. 12, the user touches one of Guest (for general unspecified users), a user name of Jam, and a user name of staff. For example, when “Guest” is touched, the coordinate position information is notified to the scanner control PC 500 (corresponding to S53 in FIG. 9), and as a result, the scanning application determines which one is touched based on the coordinate data. Since it becomes clear, the selected content is temporarily stored in the RAM 503 (corresponding to S55).
[0071]
Then, in order to notify that the “Guest” has been touched, a highlight image (inverted image) of that portion is created and a display instruction is given to the virtual LCD driver 551. Since the login user name has been selected, the “logon” button and the reverse image are displayed on the virtual LCD driver 551 in the same manner to indicate that the “logon” button functions. The virtual LCD driver 551 updates the display screen by transmitting the bitmap image for which display is instructed to the port P1 of the scanner / network connection apparatus 100 (corresponding to S52).
[0072]
As a result, the LCD 106 of the scanner / network connection apparatus 100 is updated from the screen shown in FIG. 12 to the screen shown in FIG.
[0073]
Hereinafter, it is assumed that communication between the scanner control PC 500 and the scanner / network connection apparatus 100 is performed in the same manner, and will be briefly described.
[0074]
When the logon button is touched on the screen of FIG. 13, the screen shown in FIG. 14 is displayed on the LCD 106. This figure is a screen for setting an output destination when a document image set (to be) on the scanner 200 is read. Basically, when this screen is displayed, a destination list is displayed by touching “destination table” in order to determine a transmission destination, and a necessary number is sequentially selected.
[0075]
However, as can be seen from the fact that “200 dpi” is displayed in FIG. 14, it is shown that the reading resolution is 200 dpi by default. If you want to change this resolution, touch the same location to display the screen as shown in FIG. 15 (draw the window image located in the foreground, transfer the location, size, and bitmap). Become).
[0076]
In FIG. 14, when the “gray (monochrome 256 gradation)” button is touched, the reading mode designation screen shown in FIG. 16 is displayed, and when the “A4” button is touched, the original size to be read shown in FIG. 17 is designated. Window is displayed. When the “single-sided” button is touched, a single-sided / double-sided selection window shown in FIG. 18 is displayed. When a desired item is touched in the windows in FIGS. 15 to 18 and OK is touched in each window, a screen similar to that in FIG. 14 reflecting the result is displayed.
[0077]
Here, a brief explanation will be given. Usually, what kind of scanning resolution is supported by the application etc. for the scanner driver (usually installed from the CDROM) attached to the scanner device, and what kind of scanning original size is supported? Further, when any mode (black and white binary, black and white multivalue, color multivalue, etc.) is inquired as the reading gradation, a response is returned from the scanner driver. 15 to 18, the display screen is drawn by acquiring the above data from the driver in the scanner 200 according to the embodiment. In other words, it can be said that the screens displayed in FIGS. 15 to 18 are determined by functions that can be selected by the combination of the scanner 200 and the scanner driver in the embodiment.
[0078]
Although the reading mode is designated, for example, there are two processing methods for reading an original image by performing error diffusion processing. The first one is that the scanner apparatus itself has various reading modes, and the original is read by sending a command specifying the mode. Second, the scanner device uniformly reads the multi-tone image with the same resolution, and the scanner driver performs processing such as resolution conversion.
[0079]
In the case of the combination of the scanner and the scanner driver as in the former, when the mode is designated from the scanning application, the scanner driver outputs the SCSI command to the virtual SCSI driver 553. As a result, the scanner / network The SCSI server of the connection device 100 outputs the command to the connected scanner.
[0080]
In the latter case, since the scanner driver processes itself, a command corresponding to the setting mode is not output to the virtual SCSI driver.
[0081]
That is, as long as the combination of the scanner 200 and the scanner driver is correct, an unknown command cannot be issued to the scanner 200. Therefore, the virtual SCSI driver in the embodiment does not substantially select the scanner device and the scanner driver that are actually used, and even if a new scanner device is introduced in the future, it can be used as a network scanner. It will be easy to understand what is possible.
[0082]
Now, on the screen shown in FIG. 14 (or, if various settings are made on the screen shown in FIG. Since the logon user name is “Guest” on the scanner control PC 500, the scanning application refers to the address book created for “Guest” in the HDD 509 and displays a list of registered destinations. A screen as shown in FIG. 19 is displayed using a virtual LCD driver.
[0083]
As shown in FIG. 19, a destination list screen is displayed. As shown in the figure, the destination list screen displays a destination list, a destination search button (magnifying glass icon button), an edit button for adding or deleting a destination, a scroll button, a close button, and the like.
[0084]
In the destination list area, four are displayed in the figure, because four are registered in the address book of the user “Guest”. If a button in the combo box format displayed as “All” is touched, a destination to be selected can be specified for each category. For example, in the case of FAX transmission, by touching this button, only the destination registered as FAX transmission is displayed. In the illustrated case, “all” indicates that all categories of registered destinations are displayed in a mixed state.
[0085]
When the “MENU” button on the screen of FIG. 19 is touched, the address book for the user who is logged on at that time (in the case shown, the address book for the user “Guest”) is edited. Is done. In the figure, a “Register” button for registering a new destination, an “Edit” button for editing the registered destination, a “Delete” button for deleting the registered destination, and a “Close” button indicating completion are displayed. Composed.
[0086]
When the “Register” button is touched on the screen of FIG. 20, the screen shown in FIG. 21 is displayed. As shown in the drawing, in the embodiment, it is possible to specify any one of FAX, FTP, mail, PC (file server), printer, and group as a method of transmitting a read image. The “group” refers to a group of a plurality of destinations, and is the same as a broadcast in normal FAX. However, it differs greatly in that different transmission categories may be mixed.
[0087]
Here, when the “PC” button is touched, the screen shown in FIG. 22 is displayed. Here, the display name of the destination and the path name on the network are input.
[0088]
When the “display name” button is touched, a keyboard image is displayed as shown in FIG. 23, and desired keys are sequentially input. Every time there is one key input, the input character is displayed at the cursor position. This is the result of drawing the image of the character in the display field at the corresponding position each time as described above. is there. Since the image of a character is at most about a dozen dots × a dozen dots, the amount of information transferred by the virtual LCD driver is very small, and a sufficient response can be obtained with respect to touch input. That is, for the user, it is possible to provide an operating environment as if processing is performed in the scanner / network connection apparatus 100.
[0089]
FIG. 24 shows an example in which “Aoki ToDo” is entered as the display name to be registered. Operations such as key input mistakes and inserting characters can be handled with the cursor movement button, backspace, etc. For example, touching the “Shift” button capitalizes the letters of the displayed individual keys. You can switch (to draw a keyboard image shown in capital letters). Whenever there is a key input from the virtual keyboard, the scanner control PC 500 determines which key is pressed from the coordinate data. If it is a character key, it stores the character code in order, and if it is a key for correction, etc. Processing such as correcting the stored character string is performed.
[0090]
Thus, when the registration of the display name is completed, the character string “Akio ToDO” is input to the display name input field in FIG. 22 by touching the “OK” button in FIG. (The scanner control PC can acquire this character string code).
[0091]
When the “pass” button is touched on the screen of FIG. 22, the screen shown in FIG. 25 is displayed. This screen is a screen based on information obtained by the scanner control PC 500 browsing the PC supplying the file on the network. Normally, in a Microsoft network, a PC serving as a browse master manages a PC (server) set to be supplied on the network, so that information on file servers on the network can be acquired from the browse master.
[0092]
Now, in FIG. 25, when the server that is the network path name of the registered name “Aoki ToDo” is selected, when selecting a server that is not displayed on the screen, scroll buttons (2 displayed on the upper right of the screen) are selected. Touch one of the triangle buttons) and scroll to find the target server. When viewed from the user, it looks as if it is scrolling, but in reality, every time the scroll button is touched, the scanning application causes the virtual LCD driver 551 to draw the bitmap image of the area displaying the server list, The result is displayed on the LCD 106 as described above.
[0093]
Here, it is assumed that “Aoki” is selected as the server. When the server “Aoki” is selected by touching, the scanner control PC 500 tries to acquire the resource shared by the server “Aoki” with respect to the server “Aoki”. The user name is the user who is logged on to the scanner control PC 500. If a login password is set for the server “Aoki”, the server prompts for a password, so a screen for entering the password is displayed. FIG. 26 shows an example of the screen. As shown in the figure, a virtual keyboard is displayed, and each key is entered to input a password. However, since the scanner control PC 500 detects that a password is requested from the server “Aoki”, it is input so that each character of the password input by the key is not notified to a third party. Whatever the character is, the character image “*” is drawn and displayed on the LCD 106. Finally, when the password input is completed, the “OK” button is touched. As a result, if the input password does not match the password set in the server “Aoki”, the user is prompted to input again. If they match, a list of share names set by the server “Aoki” is displayed. For example, FIG. Here, by selecting a desired shared name and finally touching an “OK” button, the setting of a newly registered name and its path is completed.
[0094]
FIG. 28 shows a screen when the resource name “ToDo” shared by the server “Aoki” is touched and then the “OK” button is touched on the screen of FIG. 27. That is, the input result in FIG. 22 shown above is shown. When the “OK” button is touched here, the file sharing resource “\\ Aoki \ ToDo” is added to the address book of the login user name “Guest” in the scanner / network connection apparatus 100, and the abbreviated display name “Aoki ToDo” is displayed. "Will be registered.
[0095]
The above is the registration of the file server, but since the printer server also exists on the network 300, it can be registered by the same operation. In addition, since mail, FAX, FTP, etc. exist on the Internet outside the network 300, they cannot be browsed from the network 300. Here, registration of a mail destination when “mail” is touched on the screen of FIG. 21 will be described.
[0096]
The screen in this case is as shown in FIG. 29, and the display name and mail address are input. These are set by displaying the virtual keyboard shown in FIG. FIG. 30 shows a screen after the input is made, and touching the “OK” button here registers a new mail destination name “Tanaka Taro”.
[0097]
As described above, the file server as the document reading destination + its supply name (generally the directory name) and the mail destination are registered. When the screen of the destination list (FIG. 19) is displayed again, these new servers are registered. The contents registered in (1) are reflected (see FIG. 31).
[0098]
The above is the description when “Register” is touched on the screen of FIG. 20, but when the “Delete” button is touched in FIG. 20, the registered data can be deleted. FIG. 32 shows the deletion screen. The method of deletion is performed by touching the destination to be deleted and then touching “OK”.
[0099]
When the “Edit” button is touched on the screen of FIG. 20, a list of registered destinations is displayed, and the desired destination can be selected to edit individual destination data. However, from the above description, those skilled in the art can easily conceive.
[0100]
The address registration and the like have been described above, but it should be noted that the above is a case where “Guest” is used as the user name when logging on to the scanner / network connection apparatus 100. When logging on with another user name, the work proceeds according to the dedicated address book.
[0101]
Next, a process when the “transmission setting” button is touched in FIG. 14 will be described.
[0102]
FIG. 33 shows a screen displayed when the “transmission setting” button is touched. As shown, a file name, a file format, and a mail button are displayed.
[0103]
When the “file name” button is touched, a virtual keyboard is displayed as shown in FIG. 34, and each key is touched to display the transmission destination when the original image is read (accordingly, the file). The name of the file can be set when it is stored in the destination (PC and FTP are valid when designated). It is assumed that the file name when the file name is input and the actually read image is transferred to the designated address difference is the user input file name character string + the input date / month / day / hour / minute / second. .
[0104]
In FIG. 33, when the “mail” button is touched, a screen for inputting a subject and text is displayed as shown in FIG. As described above, the subject and the text are input by displaying a virtual keyboard when each button is touched.
[0105]
In FIG. 33, when the “file format” button is touched, the screen shown in FIG. 36 is displayed. As shown in the figure, the file format can be set for three types of monochrome (binary), gray, and color. Also, in the drawing, as a default, “monochrome” is set to multi-TIFF (file format obtained by extending the TIFF format to a plurality of pages), and “gray” and “color” are set to PDF (file format proposed by Adobe in the United States). It shows that. These default file formats can be changed for each user (Guest here).
[0106]
Here, in order to change the currently set format of “monochrome”, the “change” button of “monochrome” is touched. As a result, as shown in FIG. 37, a screen in which the previously selected format is inverted is displayed. The user can change the desired one by selecting a desired one and touching the “OK” button. Once changed, this result is reflected in the next default (the scanner control PC 500 stores and holds the file format for each user).
[0107]
For example, when the “change button” for “color” is touched on the screen of FIG. 36, the screen shown in FIG. 38 is displayed. A difference from FIG. 37 is that “JPEG” is added as a file format because it is color. The changing method is the same as in FIG.
[0108]
As described above, the user can freely perform processing such as setting of the reading resolution, registration of the destination, file name, file format, mail setting, and the like by using the user interface of the scanner / network connection apparatus 100. In any case, one or more desired destinations are touched from the screen of FIG. 19 or FIG. 31, and the “OK” button is touched to determine the destination. In more detail, when the destination is touched once, it is highlighted to indicate that the destination is selected, and when touched again, the display form is returned to indicate the non-selected state. Therefore, the user can select one or more desired destinations.
[0109]
Thus, when the destination is selected, the selected destination is displayed in the column shown under “Destination” in FIG. 14, and the user can confirm the destination selected by the user. .
[0110]
Here, a particular point of interest is that, in the case of the embodiment, a mixture of different categories is allowed as a transmission destination. That is, for one original reading, different transmission categories can be selected, such as transmission as a file server and transmission as an e-mail as a transmission destination. Of course, other transmission categories such as FAX, printer, FTP, and group can be mixed.
[0111]
As described above, various settings such as the reading mode can be performed as necessary, and the transmission destination is selected. This processing is performed by the scanner control PC 500 on the network 300. More specifically, This is performed by the loop processing of S52, S53, and S55 of FIG.
[0112]
When the scanning application running on the scanner control PC 500 determines that the destination is displayed in the destination list field of FIG. 14 and the “scan” button is touched, the setting is made for the scanner driver. Issue content notification and read instructions. In response to this, the scanner driver outputs a scan start command together with the setting command to the virtual SCSI driver 553 if the setting content is performed on the scanner 200 side, and scans if the setting content is a type to be performed by the scanner driver. A start command is output to the virtual SCSI driver 553. The virtual SCSI driver 553 transmits a command (including the SCSI-ID of the scanner 200) directed from the scanner driver, which is a higher-level process, to the port P 3 of the scanner / network connection apparatus 100 via the network 300. (Corresponding to step S56 in FIG. 9).
[0113]
The SCSI server 153 in the scanner / network connection apparatus 100 receives this command and executes it on the SCSI interface 108 to cause the scanner 200 to read the original. As a result, the SCSI server 153 receives the data read via the SCSI interface 108, and transmits it to the port P3 of the scanner control PC 500, that is, the virtual SCSI driver 553. The virtual SCSI driver sends the received image data to the scanner driver, performs appropriate processing with the scanner driver (may be through), and passes the image data to the scanning application. The scanning application receives it and stores it in the primary storage area in the HDD 509 (corresponding to step S57 in FIG. 9).
[0114]
Thereafter, the scanning application performs the stored image transmission processing according to the contents set in the loop processing of S52, S53, and S55 of FIG. 9 (corresponding to step S58 of FIG. 9).
[0115]
Hereinafter, specific processing contents in step S58 of FIG. 9 will be described with reference to the flowchart of FIG.
[0116]
First, in step S61, the selected destination information is sorted by transmission category in the loop processing of steps S52, S53, and S55 of FIG. For example, in the case of FAX transmission, processing such as collecting FAX transmission destinations is performed. Next, in steps S62 to S66, it is determined whether there is a destination for FAX transmission, mail transmission, transmission to a printer (printing), FTP transmission, transmission to a PC (storage in a file server), respectively. The transmission process is performed in steps S67 to S71.
[0117]
For example, in the case of FAX transmission (step S67), it is transmitted together with the destination information (telephone number) to the FAX server (see FIG. 1). The FAX server transmits the received image data by FAX toward a designated destination. If there are a plurality of destinations for FAX transmission, each destination is transmitted to the FAX server. However, this does not apply as long as the FAX server has a broadcast transmission function.
[0118]
In addition, when a FAX modem is connected to the scanner control PC 500 itself, a facsimile service using the FAX modem may be activated and passed to it, so a FAX server independent of the scanner control PC 500 is not essential. .
[0119]
In the case of mail transmission, the image data is converted into MIME (Multipurpose Internet Mail Extensions) format and transmitted to the mail server together with the destination mail address. Of course, if a subject and text are present, they are also transmitted. Note that SMTP or the like may be used as a communication protocol from the scanner control PC 500 to the mail server. The mail server performs transmission through a router or the like according to a known procedure.
[0120]
In the case of print processing, the image data is output to a network printer. However, this output is performed via a printer driver (driver for a network printer specified by the user) of the scanner control PC 500, as is well known.
[0121]
As for FTP transmission, it is only transmitted to an FTP server designated according to the FTP protocol. Furthermore, when the transmission destination is a PC (file server), transmission is performed toward the shared name of the file server. However, when the transmission destination is an FTP server, a mail server, a PC, or the like, the file name to be transmitted is set to a set file name, and is converted into a set file format (for example, PDF) before transmission. .
[0122]
The point to be noted here is that, as described above, even if a plurality of destinations and different transmission categories are mixed by reading one document image, it can be realized by reading the document once. That is, regardless of the number of destinations to be transmitted, and regardless of the types of categories to be transmitted and the combination of them, the scanner control PC 500 acts as a proxy. As a result, the document can be read by the scanner 200 only once.
[0123]
As described above, according to the present embodiment, an existing general-purpose SCSI scanner device can be connected to a network using a scanner / network connection device 100 as hardware, a virtual driver group operating on a general-purpose PC, and a scanning application. Will be available. In addition, since the scanner / network connection apparatus 100 has a very simple configuration, it is possible to construct a network scanning system at low cost.
[0124]
Further, as described above, since the firmware operating in the scanner / network connection apparatus 100 has only a minimum necessary function, it is possible to substantially eliminate the firmware upgrade (update the firmware). In some cases, the data can be stored in a rewritable flash memory or the like because it can be configured with a mask ROM, which makes it possible to make the device cheaper).
[0125]
In addition, the destination of the scanned image can be specified not only from the file server but also from mail, fax, printer, etc. As before, once stored in the file server, the operation using the PC is simplified. It becomes possible to become.
[0126]
Also, since settings relating to reading can be set and changed on the scanner / network connection apparatus 100, the user can read an original image and set its conditions in a series of operations. As a result, an excellent environment can be provided.
[0127]
Further, according to the present embodiment, it becomes possible to execute a mixture of different transmission categories of faxing a document image and transmitting it by e-mail, thereby further improving user convenience.
[0128]
<Second Embodiment>
In the above-described embodiment, for example, when a document is read by the scanner 200 and the scanner / network connection apparatus 100 is transmitting the read image data to the scanner control PC 500, the CPU 501 of the scanner control PC 500 performs driver and application processing, specifically, In this case, a large amount of CPU power is consumed for receiving and storing image data.
[0129]
This means that it is difficult to update the display screen from the scanner control PC 500 to the scanner / network connection device 100 while reading a document image. If this is done, the transmission speed of the important read image data will be reduced. Means it could fall. Therefore, if priority is given to the transmission speed of image data, the display screen of the LCD 106 of the scanner / network connection apparatus 100 cannot be changed. For the user of the scanner / network connection apparatus 100, while the original image is read and transmitted, the screen of the LCD 106 appears to be in a frozen state, which gives anxiety.
[0130]
Therefore, in the second embodiment, the scanner / network connection apparatus 100 is added with an animation function for spontaneously switching and displaying a plurality of images.
[0131]
The image to be switched is dealt with by scanning the scanning application of the scanner control PC 500 in advance to the scanner / network connection device 100 and storing it, and sending a command for controlling the start and end of animation from the scanner control PC 500. .
[0132]
Further, the timing at which the scanning application in the scanner control PC 500 issues the animation start command is performed immediately before the scan start command is issued.
[0133]
In order to realize such processing, for example, the processing of the scanner / network connection apparatus 100 is as follows.
[0134]
FIG. 40 shows a processing procedure when the scanner / network connection apparatus 100 is activated. 4 is different from FIG. 4 in that the processing related to the generation and activation of the animation task in step S6 is added between steps S4 and S5, and the initialization flag in step S1 has an animation flag (reserved in the RAM 503). Therefore, a process is added to turn off the flag for determining whether the animation is valid / invalid. The rest is the same as FIG.
[0135]
The animation task is as shown in FIG. 41, for example.
[0136]
First, in step S71, it is determined whether or not the animation flag is ON. No processing is performed unless the animation flag is ON.
[0137]
If it is determined that the animation flag is turned on, the process proceeds to step S72, and a timer value (not shown) is acquired. In step S73, it is determined whether or not a set time has elapsed since the previous image was displayed. If it is determined that the set time has elapsed, the next image data stored in the RAM 103 is read and the LCD controller is controlled to display it on the LCD 106.
[0138]
FIG. 42 shows the processing procedure of the LCD server 151 in the second embodiment.
[0139]
A difference from FIG. 6 is that steps S201 to S206 are added. That is, when animation bitmap data is received, a process for saving the animation bitmap in the RAM 103 and a process for turning on / off the animation flag according to the animation start / end command are provided.
[0140]
On the other hand, as a scanning application of the scanner control PC 500, a bitmap image (at least 2) together with a command indicating that it is for animation in response to the user touching the scan start button immediately before step S56 in FIG. Are transmitted to and stored in the scanner / network connection apparatus 100, and an animation start command is transmitted. Then, an animation stop command may be transmitted after the image input is completed in step S57.
[0141]
FIG. 45 shows a table for managing animation images stored in the RAM 103 as described above. As shown in the figure, this table is managed by a storage pointer (address) in the RAM 103 of the bitmap image, and a display time for each frame is provided (if the display interval is uniform, this field is Unnecessary). In the record next to the last frame, NULL data is stored, indicating that there are no more frames. Actually, in the case of a simple animation, 2 to 4 or 5 frames are sufficient, but elaborate animation can also be performed. In addition, the bitmap image to be saved does not need to be the screen size, and only the portion to be animated (in the figure, the bitmap image having x, y coordinates of 100, 120, width 50, height 70) is stored. The memory size can be reduced.
[0142]
When such processing is performed, for example, while reading a document and transmitting the image data to the scanner control PC 500, images as shown in FIG. 43 and FIG. 44 are alternately displayed. It is possible to let the user know that the process is progressing.
[0143]
In the embodiment, an example in which two screens are switched has been described. However, the number may be three or more. In the embodiment, the animation process is handled in the same way as a task such as an LCD server. However, since the screen switching interval in the animation process only needs to be twice per second, the priority of the multitask process is low. It doesn't matter. In some cases, an interrupt may be generated every 0.5 seconds.
[0144]
Further, when the scanner 200 is provided with an ADF and can read a plurality of originals at a time, the application transfers only the image portion indicating the page number each time one original is read. Also let you know how many sheets are being read.
[0145]
Further, when the second embodiment is developed, for example, when the scanning application does not receive touch position information from the scanner / network connection apparatus 100 even after an appropriate period of time, the image displayed at that time is displayed. The information may be saved, and instead, animation bitmap data and an animation start command may be transmitted. When the touch coordinate data is received, an animation stop command is transmitted, and the saved image is transmitted. In this way, a comical animation can be performed during a period when the user is not operating.
[0146]
Although the scanner connected to the scanner / network connection apparatus 100 in the embodiment has been described as an apparatus having a SCSI interface, it may be a USB (Universal Serial Bus) connection scanner or another interface. Absent. For example, in the case of a USB scanner, the same thing can be realized if a virtual USB driver is installed in the scanner control PC 500 and a USB server is installed in the scanner / network connection apparatus 100 instead of the SCSI server. Those skilled in the art can easily conceive.
[0147]
Further, the user interface of the scanner / network connection apparatus 100 is not limited to LCD (liquid crystal display) + touch panel, and any user interface may be used. This is because if a different user interface is adopted, it is sufficient if the driver and firmware corresponding to the user interface are facilitated. However, it is not desirable to provide the scanner / network connection apparatus 100 with a physical switch or button. This is because when such a physical button or switch is provided, its function is restricted by the mark or character of the button. Therefore, as in the above-described embodiment, from the viewpoint of the user interface, it can be said that a logical (graphical) button or the like displayed on the display screen is a desirable form.
[0148]
Further, in the embodiment, as an example of reading a document image, FAX transmission, mail, printer (printing), FTP transmission, and storage in a PC have been described as examples. However, the present invention is not limited to this. . For example, the OCR process may be performed and the result may be transmitted to a desired destination or stored in a filing system.
[0149]
In addition, a general application for reading a document image from a scanner device and editing various images does not use the virtual LCD driver and the virtual touch panel driver described in the embodiment, but at least the virtual application in the embodiment. The SCSI driver can be used as it is. That is, if the virtual SCSI driver in this embodiment is installed, it can be easily conceived that an existing application can be operated as it is.
[0150]
In the embodiment, although the scanner / network connection apparatus 100 is required as hardware, the control application (scanning application in the embodiment) and the virtual driver are installed in a general-purpose information processing apparatus such as a personal computer. Obviously, the present invention includes these computer programs.
[0151]
In general, a computer program (application or driver) is stored in a computer-readable storage medium such as a CDROM and installed in a computer. Therefore, the present invention also includes such a computer-readable storage medium. It is clear that it is a category.
[0152]
【The invention's effect】
As described above, according to the present invention, not only can an image scanner apparatus of a type connected to a general-purpose information processing apparatus be used on a network at low cost, but also operations such as setting / changing reading conditions, and reading The start operation can be performed with one device. Further, according to the configuration of the present invention, the destination of the read document image can be arbitrarily set.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a computer network to which an embodiment is applied.
FIG. 2 is a block configuration diagram of a scanner / network connection apparatus and a scanner control PC in the embodiment.
FIG. 3 is a diagram illustrating a layer structure of a computer program of a scanner / network connection apparatus and a scanner control PC in the embodiment.
FIG. 4 is a flowchart illustrating a processing procedure when a scanner / network connection apparatus is turned on in the embodiment.
FIG. 5 is a flowchart showing a processing procedure of the LCD server operating in the scanner / network connection apparatus in the embodiment.
FIG. 6 is a flowchart showing details of step S16 in FIG.
FIG. 7 is a flowchart showing a processing procedure of a SCSI server operating in the scanner / network connection apparatus in the embodiment.
FIG. 8 is a flowchart illustrating a processing procedure of a touch panel task that operates in the scanner / network connection apparatus according to the embodiment.
FIG. 9 is a flowchart showing the processing contents of a scanning application operating on the scanner control PC in the embodiment.
FIG. 10 is a diagram showing an initial screen displayed on the LCD of the scanner / network connection apparatus in the embodiment.
FIG. 11 is a diagram showing an IP address input screen of the scanner / network connection device on the scanner control PC.
FIG. 12 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 13 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 14 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 15 is a diagram illustrating an example of a display screen of the scanner / network connection apparatus according to the embodiment.
FIG. 16 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 17 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 18 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 19 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 20 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 21 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 22 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 23 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 24 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 25 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 26 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 27 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 28 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 29 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 30 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 31 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 32 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 33 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 34 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 35 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 36 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 37 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 38 is a diagram showing an example of a display screen of the scanner / network connection apparatus in the embodiment.
FIG. 39 is a flowchart showing details of step S58 in FIG. 9;
FIG. 40 is a flowchart showing a processing procedure when a scanner / network connection apparatus according to the second embodiment is turned on.
FIG. 41 is a flowchart showing a processing procedure of an animation task in the second embodiment.
FIG. 42 is a flowchart showing a processing procedure of the LCD server in the second embodiment.
FIG. 43 is a diagram illustrating an example of a screen by animation processing during document reading in the second embodiment.
FIG. 44 is a diagram illustrating an example of a screen by animation processing during document reading according to the second embodiment.
FIG. 45 is a diagram showing an example of a table created in animation processing.

Claims (7)

For functioning type of scanner that connects to a general-purpose information processing apparatus as a network scanner, the scanner and the attached device having a scanner interface and a network interface for connecting, and scanner control to control the connection device via the network A network scanning system comprising devices,
The connecting device is
Display means for receiving drawing data including a screen for setting document reading conditions output from the scanner control device and displaying the drawing data at a predetermined display position on the display screen ;
Detecting an operation position on the display screen, and the coordinate position notification means for notifying to said scanner controller,
When a scan request is received from the scanner control device, the scanner interface is configured to execute a scan request and to output data received via the scanner interface to the scanner control device.
The scanner control device
Data relating to reading conditions is acquired from a scanner driver operating in the scanner control device, drawing data for a reading condition setting screen is generated based on the acquired data, and the generated drawing data and a request from the scanner driver are generated Communication means for transmitting a command to the scanner connection means included in the connection device;
Reading condition setting means for setting an original reading condition based on the operation position notified by the coordinate position notifying means when a screen based on the drawing data of the reading condition setting screen is displayed by the display means. When,
And destination setting means for causing the setting of the transmission destination of the image data obtained by scanning by the scanner based on the notified operation position by the coordinate position notification means,
After the destination is set by the destination setting means, when a reading start instruction is given in the connection device, the conditions set by the reading condition setting means are output to the scanner driver and issued by the scanner driver. a scan request means for a scan request to output to the connecting apparatus,
In response to a scan request by the scan request unit, the scanner receives image data obtained by reading a document via the connection device and transmits the image data to a destination set by the destination setting unit. A network scanning system comprising: a transmission means. The conditions set by the reading condition setting means include at least one of reading resolution, monochrome binary / multi-value gray / multi-value color / presence / absence of error diffusion processing, document size, and whether the reading surface is single-sided / double-sided. The network scanning system according to claim 1.   The reading condition setting means determines the condition by transmitting bitmap image data of a selection item screen for reading setting and receiving coordinate data as a result thereof. Network scanning system. Receiving a scanner interface for connecting the type of scanner that connects to a general-purpose information processing apparatus, and a network interface for connection with the network, and the operation unit for a user to perform an operation, the scan request via the network interface when, scanner the relative scanner interface to execute the scan request, controls the connection device and a scanner connecting means for outputting via the network interface the received data via the scanner interface, via the network A control device,
Data relating to reading conditions is acquired from a scanner driver operating on the scanner control device, drawing data for a setting screen for reading conditions is generated based on the acquired data, and the generated drawing data and a request from the scanner driver are generated communication means for transmits the command to the connected equipment,
Reading condition setting means for setting a reading condition of a document based on operation information notified from the connection device when a screen based on drawing data of the reading condition setting screen is displayed on the operation unit;
And destination setting unit to perform setting for transmission destination of the image data obtained by scanning by the scanner based on the notified operation information from the connection device,
After the destination is set by the destination setting means, when a reading start instruction is given in the connection device, the conditions set by the reading condition setting means are output to the scanner driver and issued by the scanner driver. a scan request means for a scan request to output to the connecting apparatus,
In response to a scan request by the scan request unit, the scanner receives image data obtained by reading a document via the connection device and transmits the image data to a destination set by the destination setting unit. A scanner control device comprising: a transmission unit; A scanner interface for connecting the scanner, and a network interface for connection with the network, and the operation unit for a user to perform an operation, upon receiving a scan request via the network interface, the scan relative to the scanner interface A control method of a scanner control device for controlling a connection device including a scanner connection means for executing a request and outputting data received via the scanner interface via the network interface,
Data relating to reading conditions is acquired from a scanner driver operating in the scanner control device, drawing data for a reading condition setting screen is generated based on the acquired data, and the generated drawing data and a request from the scanner driver are generated A communication step of transmitting a command to the scanner connection means of the connection device;
A reading condition setting step of causing the setting of the reading condition of the document on the basis of the operation information screen based on the drawing data of the setting screen for reading condition is notified from the connection device when being displayed on the operating unit,
And destination setting step of causing the setting of the transmission destination of the image data obtained by scanning by the scanner based on the notified operation information from the connection device,
After a destination is set in the destination setting step, when a reading start instruction is given in the connection device, the conditions set in the reading condition setting step are output to the scanner driver and issued by the scanner driver. A scan request step for outputting the scanned request to the connection device ;
In response to a scan request in the scan request process, the scanner receives image data obtained by reading a document via the connection device and transmits the image data to the destination set in the destination setting process. A control method for a scanner control device , comprising: a transmission step. A scanner interface for connecting the scanner, and a network interface for connection with the network, and the operation unit for a user to perform an operation, upon receiving a scan request via the network interface, the scan request to the scanner interface A computer program that causes a computer to function as a scanner control device that controls the connection device including the scanner connection means that outputs the data received via the scanner interface via the network interface. There,
Data relating to reading conditions is acquired from a scanner driver operating in the scanner control device, drawing data for a reading condition setting screen is generated based on the acquired data, and the generated drawing data and a request from the scanner driver are generated Communication means for transmitting a command to the scanner connection means included in the connection device;
A reading condition setting means for causing the setting of the reading condition of the document on the basis of the operation information screen based on the drawing data of the setting screen for reading condition is notified from the connection device when being displayed on the operating unit,
And destination setting unit to perform setting for transmission destination of the image data obtained by scanning by the scanner based on the notified operation information from the connection device,
After the destination is set by the destination setting means, when a reading start instruction is given in the connection device, the conditions set by the reading condition setting means are output to the scanner driver and issued by the scanner driver. a scan request means for a scan request to output to the connecting apparatus,
In response to a scan request by the scan request unit, the scanner receives image data obtained by reading a document via the connection device and transmits the image data to a destination set by the destination setting unit. A computer program that functions as a transmission means. Computer-readable storage medium characterized by storing a computer program according to claim 6.

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