DE19521745A1 - Network system - Google Patents

Description

The invention relates to a network system and relates in particular a network system in which information processing is direction has an image input device, its image input function shared by other information entry devices can be.

In recent years, information processing systems have been in use generally used in office work; in such information Mation processing systems communicate a number of pieces of information ion processing units with each other. Such Informationsver work facilities are shared with each other Transmission path connected to carry out communications. The Communications can be through high frequency communications or with the aid of recording media which are carried out in each of the information processing devices removable are accommodated.

Fig. 9 shows an example of a conventional information processing system proposed in Japanese Published Patent Application No. 59-64956. The information processing system shown in Fig. 9 uses the aforementioned communication method by means of a common transmission path.

The conventional information processing system shown in FIG. 9 has a number of workstations 41 , a print server 42 , a file server 43 , a facsimile server 44 and a transmission path 49 . Each of the workstations 41 , which can also be referred to as customers, is operated by a user with the aid of the information processing system. As a result, each of the work stations 41 is provided with a display device for providing an interface between the user and the system, and an input device such as a keypad to enter commands into the system. In general, the display device has a sophisticated user interface so that the user can enter commands for various functions included in the system by a simple input operation. Since the workstations 41 are connected to the print server 42 , the file server 43 and the facsimile server 44 via the transmission path 49 , the workstations 41 can use these servers together. In addition, each of the workstations 41 is provided with an image input device, if necessary, so as to perform document preparation and editing, for example, using an image or a text.

It should be noted that a personal computer with a communication interface can be used as a customer who plays the same role as each of the workstations 41 . It is common for every person in an office to have their own personal computer with a communication interface. In this case, a user may wish to prepare and edit text that has been input from his own personal computer. In order to meet the requirement of a user, an image input device can be provided for each user's personal computer. However, since an image input device is very expensive, the difficulty is that the total cost to equip the image input device for the personal computer of each user is extremely high, and hence this method is not economical.

Since every personal computer has a communication interface it is more economical for a number of users to be one Share image input device, which is close to the Be Users is arranged by their personal computer with the Image input device are connected. This method is special advantageous, since an input picture is not very often by one single user is needed, and since if a population of personal computers becomes larger, the use of an image input device increases and the distance between the image input device and each of the information processing facilities ge wrestler.

According to the invention, therefore, an improved and useful Network system are created, in which the aforementioned After parts are eliminated. In particular, according to the invention Network system can be created that as an information processor is used in which an information processing processing device has an image input device, the Image input function from other information processing directions can be shared.

Another object of the invention is a network system to create that ver as an information processing system is used, in which an image input function of an informa tion processing device by a simple operation controls is that at other information processing device has been made so that image information from the In formation processing facility to other information processing processing facilities can be transferred.

According to the invention, this is in a network system in which a number of information processing facilities a commu  Carry out nication with each other by the characteristics in the characteristic drawing part of claim 1 achieved. Advantageous Next Formations of the invention are the subject of claim 1 un Indirectly or indirectly related claims. Besides, is this according to a further aspect of the invention at an Infor mation processing device ver in a network system is used in which image data from the image processing direction to other image processing devices via a Transmission path are transmitted, which the Informationsver work facility and other information processing connecting devices with each other through the features in characterizing part of claim 9 achieved. Beneficial Developments are the subject of Rückbe to claim 9 drawn claims.

The invention is based on preferred embodiments tion forms with reference to the accompanying drawings in individual explained. Show it:

Fig. 1 is an illustration of an essential part of a system structure of a network system according to the invention;

Fig. 2 is a block diagram of a first information processing device shown in Fig. 1;

Fig. 3 is a block diagram of a second information processing device shown in Fig. 1;

Fig. 4 is a flowchart of an operation performed by the first and second information processing devices shown in Fig. 1 when an image is inserted into a text prepared by the first information processing device;

FIG. 5 shows an example of an "image information transfer request" which is transferred from the first to the second information processing device;

Fig. 6 is an illustration of an example of waltungstabelle provided in the second information processing device Ver;

Fig. 7 is an illustration of another example of an "image information transfer request" which is transmitted from the first to the second information processing means;

FIG. 8 shows another example of the management table provided in the second information processing device, and

Fig. 9 is a diagram showing an example of a conventional In information processing system.

An embodiment of a network system according to the invention will now be described. In Fig. 1, an essential part of a system structure of the embodiment of the network system according to the invention is shown. In Fig. 1 three first Informationsverar processing devices 1 a to 1 c are shown; however, the number of first information processing devices is not limited to three. The network system also has a second information processing device 2 which has an image input device which is used together with the first information processing devices. In Fig. 1, although only one second information processing device is shown, be provided devices a plurality of second information processing. A third information processing device 3 functions as a file server. The aforementioned first to third information processing devices are connected to each other by a transmission path 9 .

In the above-mentioned embodiment, each of the first information processing devices 1 a to 1 c (which will be referred to as first information processing devices 1 "for the sake of simplicity) can be a personal computer with a communication interface or workstation, which is referred to as a customer A customer using the network system as an information processing system uses the first information processing device to perform most of the jobs, and hence the first information processing device 1 is generally provided with a sophisticated user interface, and the user runs various user programs using the first Information processing device 1 by.

Each of the first and second information processing devices 2 and 3 is referred to as a server, and its functions are shared with the first image information device 1 to execute a specific user program.

A structure of the first information processing device 1 will now be described with reference to FIG. 1. FIG. 2 is a block diagram of a first information processing device 1 shown in FIG. 1 . In FIG. 2, a central processing unit (CPU) 11 controls structural elements, not shown in FIG. 2, in accordance with an operating system stored in a read-only memory (ROM) 12 and executes a user program loaded into a random access memory (RAM) 13 . The user program is loaded, for example, from a floppy disk, which is accommodated in a floppy disk drive (FDD) 19 , via a floppy disk drive control unit (FDC) 18 into the RAM 13 .

A keypad (KB) 15 is used to enter character information of a text and commands in the first information processing device 1 . Entered information, which is converted into code information, is transmitted to the RAM 13 via a keyboard control unit (KBC) 14 and stored in the RAM 13 . A display (DP) 17 is controlled by a display control unit (DPC) 16 and has a display, for example a cathode ray tube (CRT) or, for example, a liquid crystal display (LCD) to a user messages and various characters and Display image information. Various sets of file data are stored on a hard disk, which is housed in a hard disk drive (HD) 21 , via a hard disk drive control unit (HDC) 20 . A communication control unit (CCU) 24 controls communications with other information processing devices via the transmission path 9 . The aforementioned elements in the first information processing device 1 are connected to one another via a bus 25 .

3 now a structure based on Fig. Second, written in Fig. 2 depicted information processing device 2 be. In Fig. 3, parts which basically have the same function as the parts shown in Fig. 2 are denoted by the same reference numerals with a suffix "a" and will not be described again. For example, a central processing unit (CPU) 11 a shown in FIG. 3 performs the same function as the CPU 11 shown in FIG. 2,
It should be noted that programs in a ROM 12 a vomit chert, which may include a program that differs from gen Demjéni stored in the ROM 12th In addition, information that is stored in a RAM 13 a and on a hard disk in an HDD unit 12 a is fundamentally different from that which is stored in the RAM 13 and the hard disk in the HDD unit 21 . A display device 17 a can use a simple display compared to the display device 17 .

The second information processing device 2 has a set of keys 27 (Ks), which has a ten-key field and a few further keys, instead of the key field 15 of the first information processing device 1 . Information which has been entered from the set of keys 27 is transmitted via a key control unit (Kc) inside the second information processing device 2 .

The second information processing device 2 is provided with an image reading unit 29 , an image input control unit 28 and an image processing unit 30 . The image reading unit 29 scans a template image in order to input image data into a RAM 13 a or the image processing unit 30 via the image input control unit 28 , by means of which image data is converted into digital data.

An operation performed to prepare a document containing a text and an image by the first information processing device 1 will now be described. FIG. 4 is a flowchart of an operation performed by the first and second information processing devices when image data from the second image processing device 2 is input to the first image processing device 1 . That is, according to the operation shown in FIG. 4, image information which has been input from the second information processing device 2 is transmitted to the first image information processing device 1 and is included in an application process which has been performed in the first information processing device 1 .

An operation will now be described with reference to FIG. 4, which is to be carried out when an image is inserted into a text which is prepared by the first information processing device 1 a. An "image information transfer request" is transferred in step 1 ("step" is abbreviated as "S" below) from the first information processing device 1 a to the second information processing device 2 .

Fig. 5 shows an example of an "image information transfer request", which is transferred from the CPU 11 to the communication control unit 24 of the information processing device 1 a. In Fig. 5, "A" represents a request for image information and an attribute "ad1" a destination to which the image information is to be transmitted. The attribute "ad1" can be an address of the first information processing device 1 a in the network system or a code which corresponds to the address of the information processing device 1 a. In any case, if the code is determined beforehand, it is not necessary for a user to determine a destination every time the user transmits the "image information transfer request". In addition, an address of the information processing device 2 must also be determined when the CPU 11 transmits the "image information transfer request" to the communication control unit 24 . If this address is also set beforehand, it is not necessary for the user to determine the address when the user transmits the image information transfer request.

The description of the operation will now be continued with reference to FIG. 4. The "image information transfer request" is transmitted via the transmission path 9 to the second information processing device 2 and is received by the latter ( 2 ) at S2 by the communication control unit 24 a provided in it. The control unit 24 a transfers the "image information transfer request" to the CPU 11 a at S3. The CPU 11 a then determines at S4 whether image data that are transmitted to the first information processing device 1 a, whether they have already been entered or not. That is, the image data may be input before the "image information transfer request" is transferred, or may be input after the "image information transfer request" is transferred. Since the second information processing device 2 has a hard disk drive 21 a, if the image data is input beforehand, the image data are stored in the hard disk. In such a case, in order to distinguish a destination of the respective image data stored in the hard disk, the destination for the image data to be input must be set when the user inputs the image data, for example, by using a management table shown in FIG. 6 .

In Fig. 6, "destination" represents information of a destination at which image data that has been input by the user is to be transmitted. This information can be information relating to an address of one of the first information processing devices 1 to which the image data should be transmitted in the network system. A "memory address" represents a first position of the image data on the hard disk. The "memory address" can be represented by a logical number of each sector on the hard disk. A "partial length" represents a length of a file of the image data stored on the hard disk. The "file length" can be represented by a number of sectors which are occupied by the image data. It should be noted that the image data can be compressed using an MH method, which is generally used in a facsimile transmission technique. The CPU 11 checks A, whether the image data which have been determined by the "image-information transfer request", have already been entered by referring to the in Fig. Management table shown. 6

If the image data determined by the "image information transfer request" has already been entered, the routine goes to S14, in which the image data corresponding to the "storage position" and the "file length" in the management table, output from the hard disk and transferred to RAM 13 a. Which are at the RAM 13 a trasmitted image data at S15, the communication control unit 24 a to the particular destination (in this case, the first information processing device 1 a) transmitted before the entire image data are retrieved from the hard disk. The first information processing device 1 a receives the image data at S16 via the communication control unit 24 and stores the image data in the RAM 13 . Thereafter, the first information processing device 1 a performs an inserting operation of the image data into a text in accordance with a user program executed therein.

If it is determined at S4 that the image data determined by the "image information transfer request" has not yet been entered, the routine proceeds to S5 where a message requesting the input of the image data to be sent to the specified destination are to be transmitted, is shown on a display 17 a, and the routine then waits for the input of the image data. Then, it is determined at S6 whether or not destination information to be used for transmitting the image data is input first. If it is determined that the destination information is not entered, the routine goes to S12, where it is determined whether image data is entered.

If it is determined that the image data are inputted, who transmitted the image data at S13, the image reading unit 29, the image input control unit 28 and the image processing unit 30 to the RAM 13 a. Thereafter, the routine proceeds to S15 to transmit in the RAM 13 a stored image data to the first Bildver processing apparatus 1 a, is as previously described. Note that data compression is performed in the image processing unit 30 . Also, as mentioned above with respect to the invention, if the image data is input without inputting the destination information, the image data to be input is automatically transferred to the first information processing device which recently sent the "image information transfer request".

The image data input operation for image data that does not correspond to the image data requested from the second information processing device 2 can be performed even when the second information processing device 2 requests the image data. This is recognized at S6 when an input of destination information is entered via the ten-key field included in the set of keys 27 . That is, if it is determined in S6 that the destination location information is entered, the operation proceeds to S7, in which the CPU 11a captures Destination information. Image data to be transmitted in accordance with the destination information is then input at S8, and the routine goes to S9, in which it is determined whether or not an "image information transfer request" is received from an information processing device Destination information corresponds, which has been received by the CPU 11 a at S7.

If it is determined in S9 that the "image information Trans feranforderung" has already been received, the Bildda be th stored at S10 in the RAM 13 a, transmitted directly to the first information processing device corresponding to the received at S7 destination information, and then the routine returns to S6. If on the other hand made solid at S9 that the "image information transfer request" has not yet been received, the routine proceeds to S11, in which the transfer in the RAM 13 a stored image data to the hard disk and stored therein; the routine then returns to S6. At this time, the destination information, the storage address and the file length of the image data are registered in the management table shown in FIG. 6.

As mentioned above, in the present invention, when the image data is input without destination information, the image data to be input is automatically transferred to the first information processing device which has recently "sent" the image information transfer request. As a result, the operation to input image data becomes very simple. It should be noted that if image data corresponding to the "image information transfer request" received at S2 has not yet been received, even after an input operation of the image data performed at S8 has ended, and then the transmission or the storage of the entered image data is ended at S10 or S11, the message that has been displayed at S5 to request the input of the image data is shown again on the display 17 a.

The determination of the destination using the destination information as the attribute data as mentioned above can be accomplished by providing instead of the destination information, identification information corresponding to each set of image data stored on the hard disk, wherein the input image data can be distinguished from one another by the identification information. Fig. 7 shows an example of such identification information, wherein an identification "11" corresponds to a set of image data. Fig. 8 shows an example of a management table in such a case. The management table in Fig. 8 is the same as that in Fig. 6 except that the destination information is replaced with the identification information, and hence further description can be omitted.

Note that the second information processing device 1 in the above description may be an image input device whose main function is an image input operation, or may be a digital copying machine whose main functions are image input and output operations. In addition, the second information processing device may be a facsimile whose main functions are image input and output operations and facsimile transmission. Further, image data input from the second information processing device 2 can be stored as a file in the third information processing device 3 , which serves as a file server to create a file name in the image data, so that the first information processing information obtains the desired image data wins from the third information processing device 3 by determining the file name.

Claims (11)

1. Network system in which a number of information processing devices carry out communication with one another, characterized in that
a number of first information processing devices ( 1 a to 1 c) are provided, each having a device for transmitting a request for the transmission of image data;
a second information processing device ( 2 ) has an image input device ( 28 , 29 , 30 ) for inputting the image data and a determination device for determining a destination to which the image data are to be transmitted according to a destination information that is to be transmitted to the second information processing device ( 2 ) has been entered, the second information processing device ( 2 ), when the request to transmit image data is received by one of the first information processing devices ( 1 a to 1 c), corresponding stored image data to one of the first information processing devices ( 1 a to 1 c ) in accordance with the destination, which has been determined by the determination device, and the second information processing device ( 2 ) automatically transmits image data which has been input via the image input devices ( 28 , 29 , 20 ) to one of the first information processors processing device ( 1 a to 1 c) transmits immediately after the image data via the image input device ( 28 , 29 , 30 ), if the image data has not yet been entered, and
the data transmission devices ( 25 ) are provided in order to transmit the request and the image data between the first information processing devices ( 1 a to 1 c) and the second information processing device ( 2 ). 2. Network system according to claim 1, characterized in that the second information processing device ( 2 ) further comprises a display unit to display a message to request input of image data when the request for image data from one of the first information processing devices ( 1 a to 1 c) is received, wherein the image data that has been entered while this message is being displayed is transmitted to one of the first information processing devices ( 1 a to 1 c). 3. A network system according to claim 2, characterized in that the second information processing means (2) other entspre sponding image data, the means in the second information processing (2) are stored at one of the first informa tion processing means (1 a to 1 c) transmits, when the other destination information, which determines another one of the first information processing devices ( 1 a to 1 c), is input while the message is displayed. 4. Network system according to claim 1, characterized in that the second information processing device ( 2 ) has an identifi cation-creating device instead of the determination device in order to provide identification information in which image data to be stored in the second information processing device ( 2 ) the image data are distinguished from one another, the second information processing device ( 2 ), when the request to transmit image data is transmitted from one of the first information processing devices ( 1 a to 1 c), corresponding, stored image data to one of the first information processing devices ( 1 a to 1 c) in accordance with the identification information which is provided by the identification-creating device, the second information processing device ( 2 ) automatically transferring the image data which is input via the image input device ( 28 , 29 , 30 ) have been transmitted to one of the first information processing devices ( 1 a to 1 c) immediately after the image data have been input via the image input device ( 28 , 29 , 30 ), if the image data have not yet been input. 5. Network system according to claim 4, characterized in that the network system further comprises a third information processing device ( 3 ) which stores the image data to be stored. 6. Network system according to claim 1, characterized in that each of the first information processing devices ( 1 a to 1 c) is a personal computer with a communication interface. 7. Network system according to claim 1, characterized in that the second information processing device ( 2 ) is a digital copier with a communication interface. 8. Network system according to claim 1, characterized in that the second information processing device ( 2 ) is a facsimile device. 9. Information processing device ( 2 ), which is used in a network system in which image data from the information processing device ( 2 ) to other information processing devices ( 1 a, 1 b, 1 c) are transmitted via a transmission path ( 25 ) which the Information processing device ( 2 ) and the other information processing devices ( 1 a to 1 c) connects, the information processing device ( 2 ) being characterized in that
an image input device ( 28 , 29 , 30 ) is provided for inputting the image data;
determination means is provided for determining a destination to which the image data is to be transmitted in accordance with the determination information that has been input to the information processing means ( 2 );
a transmission device is provided in order, when a request to transmit image data is received by one of the other information processing devices ( 1 a to 1 c), corresponding image data stored therein to the one of the other information processing devices ( 1 a to 1 c) accordingly to transmit the destination, which has been determined by the determination device, the transmission device automatically transmitting image data which have been input via the image input device ( 28 , 29 , 30 ) to one of the other information processing devices ( 1 a to 1 c), immediately after the image data is input through the image input device ( 28 , 29 , 30 ) if the image data has not yet been input. 10. Information processing device according to claim 9, characterized in that the information processing device further comprises a display unit for displaying a message, requesting input of image data when requesting image data from one of the other information processing means ( 1 a to 1 c) is received, the image data that have been entered while the message is displayed, to which one of the other information processing devices ( 1 a to 1 c) are transmitted. 11. Information processing device according to claim 10, characterized in that the transmission device transmits other corresponding image data which are stored in the information processing device ( 2 ) to another of the other information processing devices ( 1 a to 1 c) if a different destination information, which another of the other information processing devices ( 1 a to 1 c) is determined, is entered while the message is displayed.