1. Field of the Invention
The present invention relates to a system for searching a device on a network, and more particularly to a device searching system which can plainly display a searched device and its location information.
2. Related Background Art
Directory service has been provided as a method of efficiently searching and utilizing various resources (such as printers, servers and scanners) connected to a network.
Such directory service is, so to speak, a telephone directory of a network which stores various information. A specific example of a directory system using the directory service is LDAP (Lightweight Directory Access Protocol). The specifications of LDAP are described in RFC (Request For Comments) 1777 which is standard specifications issued by IETF (Internet Engineering Task Force).
For example, by searching a device connected to a network by using the directory service, a list of device terminals usable by the network can be obtained.
However, this list does not provide location information of a device terminal in a way easy to recognize.
A device search system has been desired which is suitable for notifying a user of device hierarchical location information in a way easy to confirm. For example, if the device is a network printer, the device hierarchical location information may be “location of a printer nearest to the user on this floor”, “location of a color printer in a building” and the like.
Under the above-described circumstance, it is an object of the invention to hierarchically manage location information of devices connected to a network, identify the location of the device requested to search in a hierarchical structure, and display the identified device location for the user in a way easy to recognize.
It is another object of the present invention to provide a user with acquire hierarchically managed location information at a desired hierarchical level, as device search result.
According to an embodiment of the invention, a server, which manages a database registering a plurality piece of attribute information of devices on a network, has hierarchical location information representing the locations of the devices on the network in a hierarchical data structure, as the attribute information, receives at least one search condition including the attribute information from a client, and searches the device satisfying the search condition from the database. The search result including the hierarchical location information of the searched device is transmitted to the client.
According to another embodiment of the invention, a client, which enters a search condition for searching a device on a network, transmits a search request including the entered search condition to a search computer on the network, and receives hierarchical location information of the searched device as a search result for the search request. The location information of the searched device is displayed in accordance with the hierarchical location information contained in the search result.
According to another embodiment of the invention, a device on a network stores at least one piece of static attribute information representative of a performance of the device and hierarchical location information. The hierarchical location information has a plurality of hierarchical data logically discriminated. The stored static attribute information and hierarchical location information are transmitted to a server to store the information in a database.
Other objects and features of the present invention will become more apparent from the following description of embodiments when read in conjunction with the accompanying drawings.
With reference to the accompanying drawings, embodiments of the invention will be described, the invention pertaining to a server, a client, a device terminal, a device search system, a device search method, respectively connected to a network, and a storage medium storing a program realizing the device search method.
As shown in
The client 20 may be a general computer or the like. The client 20 comprises a search module 21 and a display module 22. The search module 21 transmits a desired device search condition to the server 10 and receives the search result. The display module 22 displays the received search result.
The server 10 has a database 11 for managing attribute information of devices on the network 40 and functions as a directory server. Identification information and various attribute information of each device on the network are stored in the database 11.
A search module 12 searches a device satisfying a desired condition from the database 11 in accordance with the device search condition received from the client 20 and transmits the search result to the client. A device attribute registration module 31 receives the device attribute from the device 30 and registers it in the database 11.
The device 30 has a function of providing the client 20 with various services, and may be a scanner, a printer, a facsimile or the like. The device attribute transmission module 31 transmits its attribute information to the server 10 and requests the server 10 to register it.
An example shown in
The device search system may have a plurality of servers.
In
Reference numerals 111 and 113 represent a desk top PC and a note PC. These PCs can execute programs of network clients. The desk top PC 111 and note PC 113 are connected to the network as client terminals, and have the functions of issuing inquiry information on a device satisfying a desired condition to the server connected to the network and displaying the search result, as will be later described.
Reference numeral 112 represents a work station WS capable of executing a program of the network server of the embodiment. The work station WS 112 is connected to the network as the server, stores various information on the network devices 101 and 105 as will be later described, and receives a device search inquiry from the client 111 or 113 connected to the network to return the search result.
Of these devices, the color printer 101, MFP copier 102, monochrome printer 103, client 111, server 112 and a fire wall 120 are installed on the second floor 2F, whereas the monochrome printer 104 and scanner 105 are installed on the first floor 1F. The note PC 113 installed on the first floor and connected to a LAN 100 may be removably used.
The network 100 interconnecting these devices is connected via the fire wall 120 to the Internet 130 and to another network 140.
In
PC 200 has a CPU 202 which executes the network device search software stored in a hard disk (HD) 211 or a floppy disk (FD) 212. PC 200 collectively controls each device connected to a system bus 201.
Reference numeral 204 represents a RAM which functions as a main memory, work memory or the like of CPU 202. Reference numeral 205 represents a keyboard controller (KBC) which controls inputs from a keyboard (KB) 209. Reference numeral 206 represents a CRT controller (CRTC) which controls a CRT display (CRT) 210.
Reference numeral 207 represents a disk controller (DKC) which controls access to the hard disk (HD) 211 and floppy disk (FD) 212 storing a boot program, various application programs, edition files, user files, network management programs and the like.
Reference numeral 208 represents a network interface card (NIC) which transfers data to and from the network printer, another network device or another PC via LAN 220.
Reference numeral 213 represents a mouse controller (MC) which controls a mouse (MS) 214. In this embodiment, LAN 220 corresponds to LAN 100 shown in
Next, hierarchical location information representative of a location of each device on the network will be described.
As shown in
In the example shown in
Each entry will be described. “C” indicates country information (JP is Japan, US is America, etc.). “O” indicates organization information (ABC trading Co. Ltd., XYZ trading Co. Ltd., etc.). “BR” indicates branch information such as a branch shop and a branch office (Tokyo branch, Osaka branch, etc., hereinafter called branch information).
“BU” indicates building information (AA building, BB building, etc.). “FL” indicates floor information (1F, 2F, etc.). “BL” indicates block information of a block on each floor (1-1, 2-1, etc.). “DV” indicates device information (printer, MFP, etc.). “NM” indicates a device name (LBP1110, LBP3310, etc.).
A layout bit map is prepared for a block hierarchical level “BL”, the layout bit map including image data for visually displaying the layout. The coordinate information of the layout bit map is indicated by the map 310 shown in
“OP” shown in
The option information may be set to another hierarchical level or it may be omitted from the data structure.
As described earlier, the main object of the invention is to hierarchically manage location information of devices connected to a network, identify the location of the device requested to search in a hierarchical structure, and display the identified device location for the user in a way easy to recognize.
First to third embodiments of a device search system using the hierarchical location information will be described.
In the first embodiment of the device search system using the hierarchical location information, the layout bit map for visually displaying a device location is stored in the client.
The structure of the server 112 for managing attribute information of each device will be described first.
In
In this database 800 shown in
Examples of the other attribute information include an attribute 811 representative of a presence/absence of a color input/output function, an attribute 812 representative of a presence/absence of a staple function, an attribute 813 representative of a presence/absence of a double-sided print function, and an IP address 814.
This database may be a database management system commonly used in this field, or may be directory information base such as X.500.
The device registration data 900 includes location information TAG 901 (902 to 911) set with the device hierarchical location information and device attribute information TAG 912 (913 to 916) set with the device attribute information. After a power is turned on, each device transmits its own device registration data 900 to the server 112.
The transmission operation of the device registration data 900 may be executed when any item in the device registration data 900 is changed, when a device is plugged in to the network, or periodically. The device registration data 900 may be transmitted from the device in response to an inquiry from the server.
Upon reception of the device registration data 900 from a device, the server registers the received device registration data in the database 800.
For example, if a device is selected as the entry, the pull-down menu of printer, MFP and scanner is displayed as the attribute and a user selects one of them as the search attribute information.
The search condition is entered by using input buttons 1003 and 1004, the input button 1003 entering the search condition AND and the input button 1004 entering the search condition OR. After the user enters the search conditions, a search starts when a search start button 1005 is actuated.
If the detailed location of 2F is to be designated for the search, for example a “block” is entered at 1001c and “2-1” is entered at 1002c. A search for “printer at block 2-1” can therefore be executed.
It is necessary to describe how the server received the search condition equation shown in
In order to avoid this, it is necessary that the server 112 has a scheme of automatically identify the upper hierarchical level than the floor hierarchical level (FL).
One example of this scheme is to make the server store hierarchical location information for the search conditions at the hierarchical level higher than the floor hierarchical level (FL) and use this information. According to this method, when a search request is issued to the server installed at the AA building of the Tokyo branch under the condition of “FL=2F”, only the device on 2F of the AA building can be used as the search candidate.
If the device installed on 2F of the YY building of the Osaka branch is desired to be searched, a search request is issued to the server installed on 2F of the YY building of the Osaka branch under the search condition of “FL=2F”.
In the example shown in
In this case, the search condition equation shown in
With this full-path designation, it is possible to search the device installed on 2F of the YY building of the Osaka branch from the server installed at the AA building of the Tokyo branch.
In accordance with the search condition shown in
The search result 1300 includes the hierarchical location information 1301 to 1310 and device attribute information 1311 to 1314. If there are a plurality of devices satisfying the search condition, the search result 1300 includes the hierarchical location information 1301 to 1310 and device attribute information 1311 to 1314, respectively of a plurality of devices.
Since the device satisfying the search condition shown in
By using this correspondence list, the client 111 can identify the layout bit map in accordance with the hierarchical location information.
In this embodiment, layout bit maps shown in
For other blocks, the layout bit map shown in
Each device icon is one-to-one correspondence with each device name (NM), and a device icon representative of a device whose name is not known is also used.
The client derives the hierarchical location information and device attribute information from the search result acquired from the server 112, and selects the corresponding layout bit map and device icon.
Since the coordinate information for the selected layout bit map can be obtained from the acquired hierarchical location information, the device icon 2002 representative of the color printer 101 (LBP1110) is superposed at the coordinate “10X+10Y” of the selected layout bit map.
By superposing the device icon at the corresponding coordinate of the layout bit map, it is possible to display the location of the search requested device in a manner easy to be recognized by the user.
Reference numeral 2305 represents an LBP engine controller to which an engine 2309 is connected. Reference numeral 2306 represents a panel controller which manages a panel 2310 by controlling input/output to and from the panel.
The color LBP 101 of this embodiment has a hard disk (HD) 2211 and can temporarily spool print data in this disk. Reference numeral 2307 represents a disk controller which controls HD 2211. Reference numeral 2308 represents a network interface controller to which a network is connected.
Reference numeral 2312 represents a non-volatile RAM (NVRAM) which retains data even while the power of the printer 101 is turned off. In this embodiment, NVRAM stores hierarchical location information, attribute information, and the like. Such information may be stored in HD 2211 instead of NVRAM 2312.
With reference to the flow chart shown in
LBP 101 stores the hierarchical location information and attribute information in the non-volatile RAM 2312 serving as a device location storing means. When a power is turned on, CPU 2302 of LBP 101 establishes a connection to the server 112 (Step S2801). After the connection, LBP 101 reads the hierarchical location information and attribute information from the non-volatile RAM 2312, sends it to the server 112 which registers it in managing means in the format shown in
After the registration, CPU 2302 of LBP 101 releases the connection to the server 112 (Step S2803). With these steps, after the power is turned on, each device registers the hierarchical location information and attribute information in the server 112.
Various methods of transmitting the hierarchical location information of each device to another computer may be used in addition to the registration operation in the directory server shown in
For example, in a network system having no directory server, the hierarchical location information may be set to a response packet which is transmitted in response to a broadcast operation or multicast operation of a device search protocol such as SLP issued from a computer on the network.
Next, with reference to the flow chart of
When a power is turned on, the server 112 first opens a reception port (Step S2401). Next, an event is acquired (Step S2402) and judges whether the acquired event is an end command (Step S2403). If it is judged that the event is the end command, the reception port is closed (Step S2404) to terminate the process.
If it is judged at Step S2403 that the event is not the end command, it is judged whether the event is a search request from the client 111 or the like (Step S2405). In the case of the search request, a database search process is executed at Step S2406.
If it is judged at Step S2405 that the event is not the search request, it is judged at Step S2407 whether the even is a database registration request from the device. If it is judged that the event is the registration request, the received data is registered in the table 800 shown in
Next, with reference to the flow chart shown in
In this search process, it is judged at Step S2501 whether all search conditions have been processed. Until all search conditions have been processed, this search process is repeated.
If all search conditions on a reception packet have been searched at Step S2501, the search result is transmitted to the client (Step S2502).
If all search conditions have not been searched, the flow advances to Step S2503 whereat the next search condition is acquired from the reception packet. It is judged whether all registration device information in the table shown in
If it is judged that all registration device information has been searched, the flow returns to Step S2501.
If it is judged at Step S2504 that all registration device information has not been searched, the flow advances to Step S2505 whereat device information of an n-th device is read from HD 211. It is checked whether the read device information satisfies the search condition (Step S2506).
If it is judged that the read device information satisfies the search condition, the device information is acquired (Step S2507) and added to the search result (Step S2508).
If it is judged at Step S2506 that the device information does not satisfy the search condition, the flow returns to Step S2504 for the next device. Devices in the table 800 shown in
Next, the overall operation of the client 111 will be described.
The client 111 runs an event driven type program, and when an even occurs, analyzes it and executes a corresponding process.
As shown in the flow chart of
On the client 111 side, a user enters search conditions from the search condition input window shown in
If it is judged at Step S2603 that the event is a request of issuing a search command, the client 111 transmits the search request to the server 112 (Step S2604).
In this case, the search condition equation such as shown in
The client 111 waits for the search result from the server. It is checked at Step S2605 whether an event of the search result is received. If it is judged at Step S2605 that the search result such as shown in
Next, with reference to the flow chart shown in
First, at Step S2701, it is judged whether all search results have been processed. If it is judged that all search results have been processed, the process is terminated.
If it is judged at Step S2701 that all search results have not been processed, the flow advances to Step S2702 whereat the hierarchical location information is acquired from the received search result. In accordance with the acquired hierarchical location information, it is judged whether the client can display a layout bit map (Step S2703).
The judgement at Step S2703 that the layout bit map can be displayed or not means the device information received as the search results contains the hierarchical location information shown in
In this embodiment, the device hierarchical location information capable of being displayed contains the hierarchical location information which includes the information indicated by reference numeral 1401 in
The NM information is derived from the hierarchical location information (Step S2711) and the device icon corresponding to the NM information is displayed in the area 1902 shown in
If it is judged at Step S2703 that the device can be displayed, the BL information is derived from the hierarchical location information (Step S2704). The client displays the necessary layout bit map by referring to the BL information table shown in
It is checked whether the corresponding layout bit map is already displayed (Step S2705). If it is judged that the layout bit map is not still displayed, the corresponding bit map is displayed (Step S2706). The NM information and layout bit map is acquired from the hierarchical location information (Step S2707).
If it is judged at Step S2705 that the layout bit map is already displayed, the flow advances to Step S2707. The device icon corresponding to the NM information is read from the table shown in
With the above Steps, the layout bit map such as shown in
With Steps S2705 to 2707, if a plurality of devices are found as the search results, the devices are displayed on the same layout bit maps or on different layout bit maps.
Device attribute information other than the location information may be displayed as a tool tip 701 such as shown in
In this embodiment, since the search result shown in
In this embodiment, although all the layout bit maps are stored in the client, they may be stored in the client and server in a distributed manner.
In the second embodiment, layout bit maps for displaying the location of a device are stored in the server. Different points from the first embodiment will be described mainly.
In the first embodiment, the layout bit maps are stored in the client. Therefore, when the search result is displayed at the client, the server is not required to transfer a layout bit map to the client. It is therefore possible to reduce a load of the display process and shorten the display time, and also mitigate traffics of the network system.
In the second embodiment, the layout bit maps are stored in the server. Therefore, map information can be collectively managed by the server, and the client is not required to store the map information. It is therefore possible to make maintenance such as updating easy and reduce a load on memory resources of the client.
Either the first or second embodiment can be adopted in accordance with the load on the network system and the client performance.
In the second embodiment, stored in the hard disk of the server 112 are the layout bit maps shown in
Different points from the first embodiment will be described with reference to the flow charts shown in
First, the process to be executed by the server will be described with reference to the flow chart shown in
The server 112 runs an event driven type program, and when an even occurs, analyzes it and executes a corresponding process.
When a power is turned on, the server 112 first opens a reception port (Step S4301). Next, an event is acquired (Step S4302) and judges whether the acquired event is an end command (Step S4303). If it is judged that the event is the end command, the reception port is closed (Step S4304) to terminate the process.
If it is judged at Step S4303 that the event is not the end command, it is judged whether the event is a search request (Step S4305). In the case of the search request, a database search process is executed at Step S4306.
This search process is executed in accordance with the flow chart shown in
If it is judged at Step S4305 that the event is not the search request, it is judged at Step S4307 whether the even is a database registration request. If it is judged that the event is the registration request, the received data is registered in the table 800 shown in
The overall operation of the client is performed in accordance with the flow chart shown in
First, at Step S4401, it is judged whether all search results have been processed. If it is judged that all search results have been processed, the process is terminated.
If it is judged at Step S4401 that all search results have not been processed, the hierarchical location information is derived from the received search result at Step S4402. Thereafter, a connection to the server 112 is established (Step S4403) and the layout bit map corresponding to the acquired hierarchical location information is acquired by using the correspondence table shown in
It is judged whether the corresponding layout bit map is already displayed (Step S4405). If not displayed, the corresponding layout bit map is acquired from the server (Step S4406). Acquiring the layout bit map is executed in accordance with a designation of the block hierarchical level (BL) by the client 111. The NM information and layout bit map are acquired in accordance with the hierarchical location information (Step S4407). If it is judged at Step S4405 that the layout bit map is already displayed, the flow advances directly to Step S4407.
Next, the corresponding device icon is acquired in accordance with the NM information (Step S4408). The display position of the corresponding device icon on the layout bit map is determined to display it at the predetermined position (Step S2709). After the device icon is displayed, the connection to the server 112 is released (Step 2710).
If the search request pertains to the hierarchical location information not containing the information 1401 shown in
In this embodiment, since the search result shown in
Next, with reference to the flow chart shown in
First, at Step S4501 it is judged whether the event is a search request for the layout bit map information. If the event is the map search request, the flow advances to Step S4502 whereat it is judged whether the searched location can be displayed on any map.
If it is judged that the searched location can be displayed, the flow advances to Step S4503 whereat the corresponding map information is acquired by using the correspondence table shown in
Acquiring the layout bit map is executed in accordance with a designation of the block hierarchical level (BL) by the client 111.
Next, the flow advances to Step S4504 whereat the acquired layout bit map is returned to the client 111. If it is judged at Step S4502 that the searched location cannot be displayed on any map, the flow advances to Step S4505 to acquire the unknown map.
If it is judged at Step S4501 that the event is not the search request for the layout map information, the flow advances to Step S4506 whereat it is judged whether the event is a device icon search request. In the case of the device icon search, the corresponding device icon is acquired at Step S4507 by using the device icon table shown in
Next, the acquired device icon is returned to the client 111 (Step S4504). If it is judged at Step S4506 that the event is not the device icon search request, another process is executed (Step S4508).
In this embodiment, the server 112 transmits the layout bit map and device icon corresponding to the search result to the client 111, and the client 111 synthesizes the received layout bit map and device icon in accordance with the coordinate information (Step S2708 shown in
Instead, the server 112 may synthesize the layout bit map and device icon corresponding to the search result, and transmit the synthesized layout bit map together with the search result to the client 111. In this case, the client 111 is not required to execute the map synthesis process (Step S2708 shown in
Next, another embodiment of the device search using the hierarchical location information will be described. In the first and second embodiments, as shown in
In the first and second embodiments, only the layout bit maps corresponding to the block (BL) hierarchical level are stored. In the third embodiment, the layout bit maps corresponding to each hierarchical level of the hierarchical location information are stored and reflected upon the search result display at the client 111.
In the third embodiment, the searched device can be displayed on a layout bit map at the hierarchical level desired by a user, including the location information from rough location information at a building level to detailed location information at one block on one floor.
In the third embodiment, although the layout bit maps are stored in the client 111 similar to the first embodiment, the layout bit maps may be stored in the server 112 similar to the second embodiment.
In the example shown in
By using the layout bit map corresponding to each hierarchical level, it is possible to display the search result in accordance with “the present location of a user”, “the degree of location information recognized by a user” and the like.
For example, when a device in the AA building is searched, the layout bit map corresponding to the floor information (FL) at the hierarchical level one level lower than the building information (BU=AA building) is used for the search result display.
Effective location information can therefore be supplied to a user who recognizes the AA building but does not know the information of the inside of the AA building.
In this case, the user selects the building name (BU) from the pull-down menu at 1001c in the input window shown in
Next, the search result display process by the client 111 according to the third embodiment will be described with reference to the flow chart shown in
First, at Step S6001, it is judged whether all search results have been processed. This Step judges an end of the search result display process.
If it is judged at Step S6001 that all search results have not been processed, the attribute NM is derived from the next search result at Step S6002. This Step is executed so that the device icon can be displayed at Step S6008, S6010 or S6013.
Next, it is judged at Step S6003 whether the layout bit map corresponding to the searched condition attribute is already displayed. In this example, since the search was executed with the attribute O=attribute value ABC trading Co. Ltd., the searched device icon is displayed on the layout bit map shown in
If it is judged at Step S6003 that the layout bit map shown in
It is judged at Step S6011 whether the unknown map is already displayed. If not, the unknown map is displayed at Step S6012, and the device icon corresponding to the NM value acquired at Step S6002 is displayed in the device column of the unknown map (Step S6013).
If it is judged at Step S6006 that the attribute value can be displayed, it is judged whether the lower hierarchical level is the MAP attribute (Step S6007). If not, the flow advances to Step S6008 whereat the device icon corresponding to the NM value acquired at Step S6002 is superposed upon the displayed layout bit map at the attribute position. In this case, the attribute value of the attribute BR one level lower than the hierarchical level O in the hierarchical location information is the Tokyo branch (
In order to search the location of the device more precisely, the user selects the block name (BL) from the pull-down menu at 1001a in the input window shown in
The client acquires the search result from the server by the method described in the above embodiments. In accordance with the search result acquired from the server, the client displays the device icon on the layout bit map. Namely, the process shown in
It is checked at Step S6009 whether the coordinate is in the areal range of the layout bit map. If in the areal range, at Step 6010 the device icon corresponding to the NM value acquired at Step S6002 is displayed superposed upon the displayed layout bit map at the coordinate position.
In this case, since the search was executed with the attribute value of 2-1 as the block attribute (BL), the layout bit map shown in
Therefore, as shown in
Other layout bit maps prepared for respective hierarchical levels will be described.
As described earlier,
Since the layout bit map is stored for each hierarchical level of the hierarchical location information, the search result can be displayed in various display styles at the client 111.
First and second applications will be described assuming that the layout bit map shown in
(First Application)
A user selects with a mouse the device having an icon 5503 corresponding to LBP1110 installed on the 2F floor of the layout bit map shown in
A scheme of displaying the layout bit map at the block hierarchical level shown in
If the server 112 stores the layout bit map, the server 112 transmits to the client the layout bit map shown in
(Second Application)
In the first application, the device icon on the displayed layout bit map (
In the second application, upon the selection operation with a mouse, the layout bit map is displayed which corresponds to the hierarchical level just under the presently displayed level.
A user selects with a mouse an icon 5503 of the layout bit map (
Next, the user selects an icon 5703 in the layout bit map (
In response to the device icon selection operation by a user, the layout bit maps are sequentially changed to the layout bit map at the hierarchical level just under the level of the hierarchical location information. To this end, in accordance with the hierarchical location information indicated by the attribute information 1302 to 1310 of the search result shown in
In the second application, a user can have a stepwise detailed layout and know the route to the location where the desired device is installed.
The layout bit map at each hierarchical level of the hierarchical location information to be displayed in a switching manner may be stored in the client 111, or it may be received from the server 112 together with the search result.
According to the third embodiment, the searched device can be displayed on a layout bit map at the hierarchical level desired by a user, including the location information from rough location information at a building level to detailed location information at one block on one floor.
The invention has been described with reference to the first to third embodiments. The invention is applicable to another system which stores the database 800 stored in the hard disk of the server 112 and the layout bit maps, in another apparatus connected thereto via a network.
In this case, in response to a device search request from the client 111, the server 112 accesses the database information and layout bit maps stored in the other apparatus to execute the search process and return the search result to the client 111.
The device search system described above may be realized by using techniques such as WWW techniques. In this case, the server 112 has a WWW server, a database function (DBMS), and a gateway function for interconnecting the WWW server and DBMS. The WWW server supplies a search window constituted of HTML or XML to the client.
The client displays the search window supplied from the WWW server by using browser software, and a user executes a device search by using the displayed search window.
Various data (maps, icons, and the like) transferred to and from the server, clients and devices is constituted of HTML, XML or the like, and HTTP is used as a data transfer protocol.
In order to realize a function not possessed by general browser software at the client, for example, Applet, one kind of JAVA techniques, may be used.
In the above embodiments, computers are used as the client 111 and server 112. The function of the client and the function of the server may be provided to the device such as a scanner, a facsimile and a printer.
For example, by providing a scanner with the function of the client 111, it becomes possible to search a printer suitable for printing original data read with the scanner or a facsimile suitable for transmitted original data read with the scanner.
If the client has a printer function, the layout bit map displayed a searched device may be printed out.
It is obvious that the object of the invention can be achieved by supplying a system or apparatus with a storage medium storing software program codes realizing the functions of each embodiment described above, and by reading and executing the programs codes stored in the storage medium by a computer (CPU or MPU) of the system and apparatus.
In such a case, the program codes themselves read from the storage medium realize the functions of each embodiment. Therefore, the program code themselves and means for supplying the program codes to a computer, e.g., a storage medium storing such program codes constitute the present invention.
The storage medium for storing such program codes may be a floppy disk, a hard disk, an optical disk, a magnetooptical disk, a. CD-ROM, a magnetic tape, a nonvolatile memory card, a ROM or the like.
In
The area 9998 stores the installing programs. The area 9997 stores the network device control programs. When the network device control programs are to be installed in PC 200, the installing programs stored in the area 9998 are loaded in the system and executed by CPU 202.
The installing programs executed by CPU 202 read the network device control programs from the area 9997 and load them in the hard disk 211.
It is obvious that the scope of the invention also contains not only the case wherein the functions of each embodiment can be realized by executing the program codes read by a computer, but also the case wherein the functions of each embodiment can be realized by executing a portion or the whole of processes by an OS running on the computer or other application software, in accordance with the program codes.
It is obvious that the scope of the invention also contains the case wherein the functions of each embodiment can be realized by writing the program codes read from the storage medium into a memory of a function expansion board inserted into a computer or of a function expansion unit connected to the computer, and thereafter by executing a portion or the whole of actual processes by a CPU of the function expansion board or function expansion unit.
Number | Date | Country | Kind |
---|---|---|---|
11-192382 | Jul 1999 | JP | national |
11-199532 | Jul 1999 | JP | national |
This application is a continuation of application Ser. No. 09/609,224, filed Jun. 30, 2000 now abandoned.
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Parent | 09609224 | Jun 2000 | US |
Child | 10683102 | US |