JP4215740B2 - Computer network system - Google Patents

Description

  The present invention relates to a computer network system in which a plurality of terminal computers and a server computer are connected via a network.

2. Description of the Related Art Conventionally, computer network systems that use a plurality of terminal computers and server computers connected via a network have been developed (see, for example, Patent Documents 1 to 6).
FIG. 7 is a configuration diagram of a conventional computer network system.
In FIG. 7, a server computer 701 and a plurality of routers 704 to 706 are connected to a network signal transmission path 703.

  A storage device 702 composed of a magnetic disk or the like is connected to the server 701. The storage device 702 includes software (management tool) that realizes a function for constructing a computer network system such as management of the plurality of terminal computers 713 to 718 by being executed by the server 701, and a plurality of terminal computers 713 to 718. For each of the basic software (OS) 711 and the application software (AS) 710 that operates on the server 701 and is operated by the terminal computers 713 to 718 via the network signal transmission path 703 and the settings for each of the terminal computers 713 to 718 Data 712 is stored.

  Here, the basic software is the minimum software necessary for performing application such as data creation by operating application software connected to the server and operating on the server. In addition, the setting data refers to when the terminal computers 713 to 714 are activated and starts up with settings based on the referenced setting data. Examples of the setting data include the IP address of the terminal computer. Terminal unique information, terminal computer device information such as the number of display colors, server connection information such as server address information, and the like.

A plurality of terminal computers 713,..., 714 are connected to the router 704, a plurality of terminal computers 715,..., 716 are connected to the router 705, and a plurality of terminal computers 717,. 718 is connected.
The router 704 and a plurality of terminal computers 713,..., 714 connected thereto constitute one subnet 707, and the router 705 and the plurality of terminal computers 715,. A subnet 708 is configured, and the router 706 and a plurality of terminal computers 717,..., 718 connected to the router 706 configure one subnet 709.

Each terminal computer 713 to 718 is a so-called thin client, and includes a central processing unit (CPU), an operation unit, a display unit, and a semiconductor memory, and is the same as the basic software (OS) and setting data 712 downloaded from the server 701. Are stored in the semiconductor memory, the OS is started up when the power is turned on, and the setting is started based on the setting data.
The activated terminal computers 713 to 718 are connected to the server 701 via the routers 704 to 706 and the network signal transmission path 703 to which the terminal computers 713 are connected, and operate on the server 701 by operating the terminal computers 713 to 718. Application software 710 can be remotely operated.

Since each of the terminal computers 713 to 718 is turned on from the server 701, the user does not need to turn on each of the terminal computers 713 to 718 individually.
In addition, when updating the basic software such as version upgrade or bug correction of each terminal computer 713 to 718, since the basic software to be updated from the server 701 is transmitted to each terminal computer 713 to 718, there are a plurality of basic software updates. The terminal devices 713 to 718 can be easily updated all at once, such as upgrading the basic software.

However, the setting data of each terminal computer 713 to 718 is stored as a database in each terminal computer 713 to 718 and the storage device 702 accessible by the server 701.
The setting data held in the terminal computers 713 to 718 is personal information, and easy access has a security problem. Further, the server 701 on which the management tool operates is a server that can log in, and the presence of the setting data database 712 poses a security problem.

  In addition, when the OS of the terminal computers 713 to 718 is updated by executing the management tool on the server 701, the setting data of the terminal computers 713 to 718 will disappear. In order to avoid this, the setting data is temporarily saved in the storage device 702 when the OS is updated, and is re-saved in the terminal computers 713 to 718 after the OS is updated. Therefore, when updating the OSs of a plurality of terminal computers 713 to 718 at the same time, there is a problem that the network bandwidth is compressed and processing at the time of OS update is not performed quickly.

Further, it is necessary to prohibit the power-off of each of the terminal computers 713 to 718 at the time of updating, but there is a problem that the updating operation is not normally and quickly performed when the power is cut off by mistake.
Also, when a plurality of terminal computers 713 to 718 are simultaneously powered on (wake-on-on-run) from the server 701, since broadcast packets are used, only terminal computers in the same subnetwork are powered on simultaneously. However, in a computer network system having a large number of sub-networks, power-on processing must be performed in units of each sub-network, and thus there is a problem that rapid processing becomes difficult.

JP 2000-339064 A JP 2000-339245 A JP 2000-339246 A JP 2001-34551 A JP 2001-92550 A JP 2003-216433 A

The present invention has been made in view of the above problems, and has an object to improve security.
Another object of the present invention is to speed up the processing.

According to the present invention, in a computer network system in which a plurality of terminal computers and a server computer are connected via a network, the plurality of terminal computers are divided into a plurality of sub-networks, and each sub-network is included in the sub-network. A management computer for storing setting data of a plurality of terminal computers, wherein each terminal computer reads the setting data stored in the management computer and starts up with settings corresponding to the setting data. A computer network system is provided.
Each terminal computer reads the setting data stored in the management computer, and starts up with settings corresponding to the setting data.

Here, each of the terminal computers may be configured to read the setting data stored in the management computer included in the subnetwork to which the terminal computer belongs and start up with the setting corresponding to the setting data.
In addition, each terminal computer may be configured to read setting data stored in the management computer included in the subnetwork to which the terminal computer belongs and start up with settings corresponding to the setting data.

Further, the server computer issues a power control instruction for controlling the power supply of each terminal computer to the management computer, and the management computer responds to the power control instruction to the subnetwork to which the server computer belongs. You may comprise so that the power supply of each terminal computer contained may be controlled.
The server computer may be configured to change setting data stored in each management computer.

  The server computer transmits update software to each management computer, and each management computer transmits the update software received from the server computer to each terminal computer included in the subnetwork to which the server computer belongs. Then, the software of each terminal computer may be updated.

The server computer transmits the setting data of the terminal computer managed by one management computer to another management computer, and the other management computer manages the received setting data of the terminal computer managed by itself. You may comprise so that it may be used as setting data.
In addition, when performing communication, the management computer, the server computer, and the terminal computers change the port numbers in a predetermined order predetermined for each communication so that the port numbers match between the communicating computers. You may comprise so that it may perform.

According to the network computer system of the present invention, it becomes possible to protect the setting data of the terminal computer and improve the security.
In addition, it becomes possible to quickly perform basic software update processing and the like.

A network computer system according to an embodiment of the present invention will be described below with reference to the drawings.
First, the outline of a network system according to an embodiment of the present invention will be described. A plurality of terminal computers (clients) are divided into sub-network units and divided into a plurality of groups.
Each subnetwork is provided with one management computer for managing terminal computers belonging to the subnetwork.

The management computer is configured such that simple login is not possible. Although details are omitted in the following description, in the present embodiment, communication between the server, the management computer, and the terminal computer is performed using a predetermined protocol. Specifically, when performing communication for transmitting and receiving software and data between the management computer and the server computer, and when performing communication for transmitting and receiving software and data between the management computer and the terminal computer. Each time communication is performed, each other's port is changed in synchronization in a predetermined order (for example, based on a predetermined mathematical expression).
A server computer (a management tool that is software is executed by a central processing unit (CPU) to realize a function described later) communicates only with each management computer and does not directly communicate with each terminal computer. It is configured as follows.

There is no database of setting data on the server computer that executes the management tool.
The setting data of each terminal computer is stored in a database in a storage device managed by a management computer included in the subnetwork to which the terminal computer belongs. Each management computer stores setting information of a plurality of terminal computers included in its own subnetwork in association with each terminal computer and manages the setting information unique to the terminal computer in the storage device. Setting data common to the terminal computers is stored and managed in the storage device.

The setting data is data representing the setting contents when each terminal computer is activated, and each terminal computer refers to the setting data at the time of network connection such as activation, and starts up with the setting corresponding to the referenced setting data.
The setting data includes setting data specific to each terminal computer used individually by each terminal computer, and a plurality of terminal computers (for example, all terminal computers included in a sub-network or all network computers included in the entire network system). There is setting data common to each terminal computer used in common by the terminal computer.

  The setting data unique to each terminal computer includes an IP address (Internet Protocol Address) of the terminal computer, a terminal computer name, a terminal computer password, touch panel calibration information, and the like. Setting data common to a plurality of terminal computers includes connection information to the server 101 such as protocol type and server 101 address information, terminal computer device information such as the number of display colors and voice setting information, and the like.

Each terminal computer obtains setting data from the management computer included in the subnetwork to which the terminal computer belongs, starts up with settings corresponding to the setting data, connects to the network, and executes basic software. Thus, the application software operating on the server computer is remotely operated by connecting to the server computer via the network.
The basic software means the minimum software necessary to perform data creation work, etc. by connecting to a server computer via a network and remotely operating application software running on the server computer. ing.

The outline of the network computer system according to the embodiment of the present invention is as described above, and will be described in detail below.
FIG. 1 is a configuration diagram of a computer network system according to an embodiment of the present invention.
In FIG. 1, a server computer 101 and a plurality of routers 104 to 106 are connected to a network signal transmission path 103.

  The server 101 is connected to a storage device 102 as a first storage unit configured by a magnetic disk or the like. The storage device 102 includes a plurality of terminal computers including software (management tool) that realizes a function for constructing a computer network system such as management of the plurality of terminal computers 112 to 117 by being executed by the server 101 itself. The basic software (OS) 111 used by 112 to 117 and the application software (AS) 110 that operates on the server 101 and is operated by the terminal computers 112 to 117 via the network signal transmission path 103 are stored.

  FIG. 2 is a block diagram illustrating the configuration of the server 101. In FIG. 2, a server 101 includes an operation unit 201 as an operation unit configured by a keyboard and a mouse, a display unit 202 as a display unit configured by a liquid crystal display device, and a program (management tool) stored in a storage device 102. ), A central processing unit (CPU) 203 as a control means for performing processing as described later, a memory 204 as a storage means, and transmission / reception of signals such as data and software via the network signal transmission path 103 A network interface (I / F) 205 is provided as transmission / reception means.

A plurality of terminal computers 112,..., 113 are connected to the router 104, and a management computer 118 is also connected. The management computer 118 includes software executed by the management computer 118 itself, terminal computers 112,..., 113 connected to the router 104, that is, terminal computers 112 included in the subnetwork 107. A storage device 121 is connected as second storage means for storing 113 setting data. The router 104, the terminal computers 112,... 113, the management computer 118, and the storage device 121 constitute one subnetwork 107.
The setting data stored in the storage device 121 is stored in setting data common to all the terminal computers 112 to 117 and each terminal computer 112 to 113 provided corresponding to each terminal computer 112 to 113 included in the sub-network 107. It has its own setting data.

  The router 105 is connected to a plurality of terminal computers 114,..., 115 and a management computer 119. The management computer 119 includes software executed by the management computer 119 itself, terminal computers 114,..., 115 connected to the router 105, that is, terminal computers 114,. A storage device 122 is connected as second storage means for storing 115 setting data. The router 105, the terminal computers 114,..., 115, the management computer 119 and the storage device 122 constitute one subnetwork 108. The setting data stored in the storage device 122 is transmitted to the setting data common to all the terminal computers 112 to 117 and the terminal computers 114 to 115 provided corresponding to the terminal computers 114 to 115 included in the subnetwork 108. It has its own setting data.

  Similarly, a plurality of terminal computers 116,..., 117 are connected to the router 106, and a management computer 120 is connected. The management computer 120 includes software executed by the management computer 120 itself, terminal computers 116 connected to the router 106,..., 117, that is, terminal computers 116 included in the subnetwork 109,. A storage device 123 is connected as second storage means for storing 117 setting data. The router 106, the terminal computers 116,... 117, the management computer 120, and the storage device 123 constitute one subnetwork 109. The setting data stored in the storage device 123 is transmitted to the setting data common to all the terminal computers 112 to 117 and the terminal computers 116 to 117 provided corresponding to the terminal computers 116 to 117 included in the sub-network 109. It has its own setting data.

FIG. 3 is a block diagram showing the configuration of the management computer. The management computers 118 to 120 have the same configuration, and FIG. 3 representatively shows the configuration of the management computer 118.
In FIG. 3, the management computer 118 executes a program stored in an operation unit 301 as an operation unit configured by a keyboard and a mouse, a display unit 302 as a display unit configured by a liquid crystal display device, and the storage device 121. Thus, a central processing unit (CPU) 303 as a management means for performing processing as described later, a memory 304 as a storage means, and a network interface as a transmission / reception means for transmitting and receiving signals such as data and software via the router 104 (I / F) 305 is provided.

FIG. 4 is a block diagram showing the configuration of the terminal computer. The terminal computers 112 to 117 have the same configuration, and FIG. 4 representatively shows the configuration of the terminal computer 112.
In FIG. 4, the terminal computer 112 executes a program stored in an operation unit 401 as an operation unit configured by a keyboard and a mouse, a display unit 402 as a display unit configured by a liquid crystal display device and the like, and a memory 404. Accordingly, a central processing unit (CPU) 403 as a control means for performing processing as will be described later, a memory 404 as a storage means, and a network interface as a transmission / reception means for transmitting and receiving signals such as data and software via the router 104 ( I / F) 405.

The memory 404 is constituted by a semiconductor memory, and has a bios area in which a BIOS (BIOS), which is a boot OS that performs initial startup, and a basic software area in which basic software is stored. As an initial state, initial basic software is stored in the basic software area.
Thus, each terminal computer 112-117 is a terminal computer (thin client) that does not have a hard disk.

FIG. 5 is a flowchart for explaining the operation of the computer network system according to the present embodiment. The setting data of the terminal computers 112 to 117 stored in the storage devices 121 to 123 managed by the management computers 118 to 120 are shown in FIG. It is a figure which shows the process at the time of the server 101 changing, and the process at the time of starting in the state corresponding to this setting data with reference to the setting data newly stored in the memory | storage devices 121-123 for the terminal computers 112-117 .
FIG. 6 is a flowchart for explaining the operation of the computer network system according to this embodiment, and is a diagram showing processing when the server 101 updates the basic software of each of the terminal computers 112 to 117.

Hereinafter, the operation of the network computer system according to the present embodiment will be described in detail with reference to FIGS.
As described above, the server 101 communicates with the management computers 118 to 120, but does not directly communicate with the terminal computers 112 to 117. The communication between the server 101 and each of the management computers 118 to 120 is not a broadcast packet, but is performed using a predetermined protocol that enables simultaneous communication between the server 101 and the plurality of sub-networks 107 to 109. It is configured as follows.

In addition, in the case of explanation regarding a specific component, when the same explanation can be made with other components, for convenience of explanation, all symbols corresponding to the components to be explained (for example, in the case of a management computer) Are denoted by reference numerals 118 to 120, and in the case of a terminal computer, reference numerals 112 to 117).
In addition, the CPU 203 of the server 101, the CPU 303 of the management computers 118 to 120, and the CPU 403 of the terminal computers 112 to 117 communicate with the management computers 118 to 120 when communicating between the server 101 and each management computer 118 to 120. When communication is performed between the terminal computers 112 to 117 managed by the management computers 118 to 120, each port is configured to change each other's ports in synchronization with each other in a predetermined order. .

  In FIG. 5, when changing the setting data, the CPU 203 of the server 101 changes the setting data input from the operation unit 201 by the user (setting data change instruction including information specifying the terminal computer to be changed). In response, the management computer 118-120 that manages the setting data to be changed is accessed via the network interface 205, and settings are made from the storage devices 121-123 managed by the management computer 118-120. Data is read (step S501). The CPU 203 displays the read setting data on the display unit 202.

The CPU 203 changes the read setting data in accordance with the change contents of the setting data input from the operation unit 201 (step S502), and the changed new setting data is changed via the network interface 205. It transmits to the management computer 118-120 which manages the computers 112-117 (step S503).
The CPU 303 of the management computer 118-120 receives the new setting data via the network interface 305, and stores the setting data stored in the storage devices 121-123 managed by the management computer 118-120 as the new setting data. The setting data is changed and saved (step S504). Thereby, the setting data changing process is completed.

Next, the CPU 203 of the server 101 manages each management computer 118 to 120 with respect to each management computer 118 to 120 so that all terminal computers 112 to 117 are connected to the network by turning on the power. A power-on instruction for instructing to turn on the terminal computers 112 to 117 is simultaneously transmitted.
The CPU 303 of each management computer 118-120 receives the power-on instruction from the server 101 via the network interface 305, and is included in the terminal computers 112-117 managed by itself (subnetworks 107-109 to which it belongs). Control is performed so that all the terminal computers 112 to 117) are powered on simultaneously. As a result, the power supplies of all the terminal computers 112 to 117 are activated.

  However, in this embodiment, when the power is turned on, the broadcast packet is not used, and the CPU 203 of the server computer 101 powers on the management computers 118 to 120 in the plurality of sub-networks 107 to 109 all at once. The terminal computers controlled by the management computers 118 to 120 and controlled to power on the management computers 118 to 120 using a protocol for performing the power-on instruction to the terminal computers 112 to 117. Instructions to turn on the power to 112 to 117 are performed. As a result, all the management computers 118 to 120 in the plurality of sub-networks 107 to 109 are turned on simultaneously.

  Further, when the power of each of the terminal computers 112 to 117 is turned off, the CPU 203 of the server computer 101 similarly controls all the management computers 118 to 120 included in the network system. An instruction is given to shut off the power of all the terminal computers 112 to 117 managed by 120. Each of the management computers 118 to 120 shuts off the power of the terminal computers 112 to 117 managed by the management computers 118 to 120, and then shuts down its own power to end the power shut-off process.

  When the CPU 403 of each terminal computer 112-117 is activated to connect to the network (step S505), the management computer 118-120 included in the subnetwork 107-109 to which the terminal computer 112-117 belongs is connected to the management computer 118-120. The setting data stored in the storage devices 121 to 123 managed by 118 to 120 (common setting data and unique setting data associated with the self) are read (step S506) and stored in the memory 404. The stored basic software is started up and set up with settings corresponding to the setting data (step S507). Thereby, each terminal computer 112-117 is started up with the setting content corresponding to the changed setting data at the time of network connection.

  Next, when the server 101 updates the basic software of each of the terminal computers 112 to 117 with new basic software, in FIG. 6, when the user operates the operation unit 201 of the server 101 to instruct basic software update processing. First, the power sources of all the management computers 118 to 120 and terminal computers 112 to 117 included in the computer network system are activated, and the computers 112 to 120 are connected to the network to be in an operating state.

  At this time, the CPU 203 of the server 101 powers on the management computers 118 to 120, and also controls the management computers 118 to 120 with terminal computers managed by the management computers 118 to 120 (the same subnetwork as the management computer). Instruct to turn on the power of the terminal computer belonging to. In response to the power-on instruction from the server computer 101, each management computer 118-120 powers on the terminal computers 112-117 that it manages.

Next, the CPU 203 of the server 101 designates a terminal computer to be updated via the network interface 205 and transmits new basic software (OS) to the management computers 118 to 120 (step S601).
When the CPU 303 of the management computer 118 to 120 receives the new basic software via the network interface 305, the terminal computer 112 to 117 managed by the terminal computer 112 to 117 to be updated instructed by the server 101 is transmitted. In this case, the received basic software is temporarily stored in the storage devices 121 to 123 managed by itself (step S602).

  Next, the CPU 303 of the management computers 118 to 120 updates the terminal to be updated designated by the server 101 among the terminal computers 112 to 117 included in the subnetwork 107 to 109 to which the management computer 118 to 120 belongs. The new basic software stored once is transmitted to the computer (step S603).

  The CPU 403 of each terminal computer 112-117 receives the new basic software via the network interface 405, changes the basic software stored in its own memory 404 to the new basic software and updates it. And stored in the memory 404 (step S604). Thereby, the update process of the basic software in each of the terminal computers 112 to 117 is completed.

After completion of the update process, the CPU 403 of the terminal computers 112 to 117 completes the update indicating that the update of the basic software has been completed to the management computers 118 to 120 that have transmitted the new basic software via the network interface 405. A notification is transmitted (step S605).
The CPU 303 of the management computer 118 to 120 that has received the update completion notification stores the information that can identify the terminal computers 112 to 117 for which the update processing has been completed (for example, a computer-specific identification code) that is managed by itself. To 123 (step S606). In addition, the CPU 303 of the management computers 118 to 120 deletes the basic software stored once.

Next, the CPU 303 of the management computer 118-120 transmits the setting data stored in the storage devices 121-123 managed by itself to the terminal computers 112-117 that have transmitted the update completion notification (step). S607).
The CPUs 403 of the terminal computers 112 to 117 that have received the setting data start up the new basic software stored in the memory 404 and start up with settings corresponding to the setting data (step S608). As a result, each of the terminal computers 112 to 117 starts up by executing the updated basic software and is connected to the network.

  When the user operates the operation unit 401 while viewing the display unit 402 of the terminal computers 112 to 117 connected to the network, each terminal computer 112 to 117 is connected to itself using the function of the basic software. The application software 110 operating on the server 101 can be remotely operated via the routers 104 to 106 and the network signal transmission path 103.

  In the basic software update process, if there is a terminal computer for which the basic software update process has not been performed due to, for example, the power source of any of the terminal computers 112 to 117 being cut off, the CPU 203 of the server 101 In step S606, the management computers 118 to 120 refer to the information of the update completion computers stored in the storage devices 121 to 123 to identify the unupdated terminal computers 112 to 117, and the unupdated terminal computers 112 to The processing shown in FIG. By repeating this, the update process of the basic software of all the terminal computers 112 to 117 is performed.

Next, an operation when copying setting data managed by one management computer 118 to 120 under the management of another management computer 118 to 120 will be described.
In this case, in response to a copy instruction (specification of setting data managed by the copy source management computer and an instruction to copy by specifying the copy destination management computer) by the operation unit 201, the CPU 203 of the server 101 The setting data is acquired from the management computers 118 to 120 that manage the copy source setting data, and transmitted to the copy destination management computers 118 to 120 for copying.

The CPU 303 of the copy destination management computers 118 to 120 rewrites the setting data stored in the storage devices 121 to 123 and managed by the CPU 303 to the received setting data.
As a result, the common setting data and the unique setting data of one terminal computer 112 to 117 can be copied as the setting data of the other terminal computers 112 to 117, and the settings of the terminal computers 112 to 117 can be set. There is an effect that it can be performed quickly and easily.

  As described above, the network computer system according to the embodiment of the present invention is a computer network system in which a plurality of terminal computers 112 to 117 and a server computer 101 are connected to each other and used. 117 is divided into a plurality of sub-networks 107 to 109, and management computers 118 to 120 for storing setting data of a plurality of terminal computers 112 to 117 included in the sub-networks 107 to 109 are provided for each of the sub-networks 107 to 109. Each of the terminal computers 112 to 117 reads the setting data stored in the management computers 118 to 120, and starts up with settings corresponding to the setting data.

Each of the terminal computers 112 to 117 is configured to read the setting data stored in the management computers 118 to 120 included in the subnetwork 107 to 109 to which the terminal computer 112 belongs and start up with the setting corresponding to the setting data.
Each terminal computer 112-117 reads the setting data stored in the management computers 118-120 included in the sub-network 107-109 to which the terminal computer 112-117 belongs when connecting to the network such as when the power is turned on, and corresponds to the setting data. It is configured to stand up with the setting to be.

The server computer 101 issues a power control instruction to control the power on / off of the terminal computers 112 to 117 to the management computers 118 to 120, and the management computers 118 to 120 respond to the power control instructions. Thus, the terminal computers 112 to 117 included in the subnetworks 107 to 109 to which the terminal belongs are controlled to be turned on or off.
The server computer 101 changes the setting data stored in each management computer 118-120.

  The server computer 101 transmits update software such as basic update software to the management computers 118 to 120. The management computers 118 to 120 transfer the software received from the server computer 101 to the subnetworks 107 to 107 to which the server computer 101 belongs. Are transmitted to the terminal computers 112 to 117 included in the software, and the software of the terminal computers 112 to 117 is updated.

The server computer 101 transmits the setting data of the terminal computers 112 to 117 managed by one management computer 118 to 120 to the other management computers 118 to 120, and the other management computers 118 to 120 The received setting data is configured to be used as setting data for the terminal computers 112 to 117 managed by itself.
In addition, the management computers 118 to 120, the server computer 101, and the terminal computers 112 to 117 have ports in a predetermined order that is predetermined for each communication so that the port numbers match when performing communication. It is configured to perform communication by changing the number.

  Therefore, according to the network computer system according to the present embodiment, the setting data of the terminal computers 112 to 117 does not exist in the server 101 or the terminal computers 112 to 117, but is only stored in the management computers 107 to 109. It becomes possible to protect the setting data and improve the security. In addition, it becomes possible to quickly perform basic software update processing and the like.

In addition, although basic software update processing is performed on a plurality of terminal computers 112 to 117, only basic software to be updated flows through the network connecting the server 101 and the management computer. Therefore, it is possible to prevent the network bandwidth from being compressed.
In addition, it is not necessary to access the setting data of the terminal computers 112 to 117 when updating the basic software, and quick processing is possible.

Further, when the basic software is updated, the basic software is normally updated and the setting data is normally set by retrying whatever source of the terminal computers 112 to 117 is disconnected.
In addition, since a management computer that controls the terminal computer group is used, all terminal computers 112 to 117 (including those with different sub-networks) can be remotely turned on and off with a single command. it can.

  In the above embodiment, the basic software is supplied from the server 101 to the terminal computers 112 to 117, but other software such as application software may be used. In this case, each terminal computer may download application software from the server 101 and each terminal computer 112 to 117 may execute the application software.

  In the above embodiment, all the setting data is stored and managed by the management computer in the storage device. However, only a part of the setting data (for example, the minimum general data required at the time of startup) (Setting data (initial setting data)) is stored in the memory 404 of each terminal computer, and the management computer in the sub-network to which the terminal computer belongs fails or the setting data stored in the management computer is damaged. If the setting data stored in the management computer cannot be referred to, the initial setting data stored in the memory 404 may be referred to and the configuration data may be started up. Even in this case, since the management computer stores data other than the initial setting data, it is possible to improve security.

  A computer network system in which a server that manages various software such as basic software and application software for a terminal computer and a plurality of terminal computers that download and use the software are network-connected, and the server and a plurality of terminal computers are network-connected The present invention is applicable to a network computer system that uses a server and a plurality of computers connected via a network, such as a network computer system configured to update software of each terminal computer from the server.

1 is a configuration diagram of a network computer system according to an embodiment of the present invention. It is a block diagram of the server used for embodiment of this invention. It is a block diagram of the management computer used for embodiment of this invention. It is a block diagram of the terminal computer used for embodiment of this invention. It is a flowchart which shows the process of the network computer system which concerns on embodiment of this invention. It is a flowchart which shows the process of the network computer system which concerns on embodiment of this invention. It is a block diagram of the conventional network computer system.

Explanation of symbols

101... Server computers 102, 121 to 123... Storage device 103 as storage means... Network signal transmission path 104 to 106... Router 107 to 109. ... Basic software 112-117 ... Terminal computers 118-120 ... Management computers 201, 301, 401 ... Operation units 202, 302, 402 as operation means Display unit 203 as display means ... CPU as control means
204, 304, 404 ... Memory 205, 305, 405 as storage means ... Network interface 303 as transmission / reception means ... CPU as management means
403 ... CPU as control means

Claims (5)

In a computer network system that uses a plurality of thin client computers and server computers connected via a network,
A plurality of thin client computers are divided into a plurality of sub-networks, and a management computer for storing setting data including personal information of the plurality of thin client computers included in the sub-network is provided for each sub-network,
Wherein each thin client computer reads the setting data including personal information which the management computer is stored, the rise in setting corresponding to the setting data containing the personal information,
The server computer performs a power control instruction for controlling the power of each thin client computer to the management computer, and transmits update basic software used by the thin client computer to each management computer.
In response to the power control instruction, the management computer controls the power of each thin client computer included in the subnetwork to which the management computer belongs, and the basic software for update received from the server computer is transmitted to the subcomputer to which the management computer belongs. A computer network system, wherein the basic software of each thin client computer is updated by transmitting to each thin client computer included in the network. Wherein each thin client computer reads the setting data containing personal information the management computer included in the sub-network to which itself belongs is stored, wherein the rise in setting corresponding to the setting data containing the personal information The computer network system according to claim 1. Wherein each thin client computer, when connecting to the network, reads the configuration data including personal information the management computer included in the sub-network to which itself belongs is stored, to stand up in the configuration corresponding to the setting data containing the personal information The computer network system according to claim 2. 4. The computer network system according to claim 1, wherein the server computer changes setting data including personal information stored in each management computer. The server computer transmits setting data including personal information of a thin client computer managed by one management computer to another management computer,
Said another management computer, the received configuration data including personal information of any one of claims 1 to 4, characterized by the use as setting data including personal information of the thin client computers managed by own Computer network system.

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