JP4267442B2 - Remote operation method, remote operation system, and server system - Google Patents

Description

  The present invention relates to a remote operation method, a remote operation system, and a server system, and in particular, a remote operation method, a remote operation system, and a server that enable a computer constituting a server device and the like to be operated from a remotely installed device. About the system.

  As a conventional technique for remotely operating a computer constituting a server device or the like, a method of remotely operating the server device from a remote PC connected to a LAN mainly using software is known. In this prior art, since the software for remote operation depends on the OS of the server device, the remote operation can be performed only when the server OS is operating normally. In many cases, only VGA, keyboard, and mouse can be used during remote operation.

  The above-described remote operation method according to the prior art can reduce maintenance management costs and increase the reliability of the system. And this prior art introduces a dedicated application program to both the server device and the remote PC for maintenance work during normal operation of the server device for the server system that operates at the customer site, via the LAN. The server screen, keyboard, and mouse can be operated mainly from a remote location.

As a conventional technique related to this type of remote operation method, for example, a technique described in Patent Document 1 is known.
JP-A-9-81468

  However, the above-described conventional technology has a problem that the remote operation cannot be executed unless the OS of the server is operating normally and the dedicated application program is operating normally. That is, this conventional technique has a problem that remote operation is impossible when a failure occurs in the server device.

  In addition, the above-described conventional technology has a problem that devices that can be used are limited to VGA, keyboard, and mouse, and devices other than these cannot be used.

  Furthermore, in the above-described prior art, when a device such as an HDD connected to the server device is damaged, it is necessary to go to the installation location of the server device to replace the damaged device. There is a problem that cost reduction is not sufficient.

  The object of the present invention is to solve the above-mentioned problems of the prior art, and without restricting the state of the server, even if an administrator, a system engineer, etc. are not stationed at the installation location of the server device, It is possible to remotely operate and control the server device, and even during maintenance of the server device, maintenance work can be performed from a remote location without requiring maintenance personnel to go to the installation location of the server device. An object of the present invention is to provide a remote operation method, a remote operation system, and a server system that enable cost reduction and increase the reliability of the system.

  According to the present invention, the object is a remote operation method comprising a server device and a plurality of devices installed remotely from an installation location of the server device, and operating the server device from the plurality of devices. A server-side remote control device connected to the server device emulates the I / O interface signal of the server device and communicates with the remote-side remote control device installed on the remote side via a communication line. This is achieved by transmitting / receiving an I / O interface signal, and the remote-side remote control device transmitting / receiving the I / O interface signal to / from a plurality of devices connected to the remote-side remote control device. .

  In addition, the object is to provide the server apparatus in a remote operation system that includes a server apparatus and a plurality of devices installed remotely from the installation location of the server apparatus, and operates the server apparatus from the plurality of devices. A server-side remote control device connected to the server-side remote control device via a communication line and connected to each of the plurality of devices; The apparatus comprises means for emulating the I / O interface signal of the server device, data conversion means for converting data between the I / O interface signal and communication data, and communication means, A remote-side remote control device communicates between I / O interface signals and communication data for each of the plurality of devices. A data converting means for performing over data conversion is accomplished by being constituted by a communication means.

  Further, the object is to provide a server system comprising a server device and a server-side remote control device connected to the server device, and configured to be operable from a plurality of devices installed remotely from the installation location of the server device. The server-side remote control device connected to the server device emulates the I / O interface signal of the server device and data conversion for converting data between the I / O interface signal and communication data This is achieved by comprising communication means for performing communication between the means and a remote-side remote control apparatus installed on the remote side and connected to the plurality of devices.

  According to the present invention, it is possible to perform remote operation and control of a server device without depending on the server OS and BIOS during operation of the server device, and regardless of the state of the server OS. Further, according to the present invention, when a failure occurs in the server device, it is possible to isolate the failure and cope with the failure without going to the installation location of the server device, thereby reducing the maintenance management cost of the server device.

  Hereinafter, embodiments of a remote operation method, a remote operation system, and a server system according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a remote operation system according to a first embodiment for carrying out a remote operation method according to the present invention. In FIG. 1, 1 is a server device, 2 is a server side remote control device, 3 is a remote side remote control device, 4 is an I / O controller, 5 is a CPU, 6 is a BIOS, 7 is a device driver, 8 is an OS, 9 Is a power supply unit, 10 is a device emulator, 11 and 14 are data converters, 12 and 13 are LAN controllers, 15 is an I / O I / F / user I / F, 16 and 22 are VGA I / Fs, 17 and 23 Is a console I / F, 18, 24 is a file device I / F, 19, 25 is a switch I / F, 20, 26 is an LED / buzzer I / F, 21 is a LAN line, 27 is a CRT, 28 is a keyboard, 29 Is a CD ROM drive, 30 is a switch, 31 is an LED buzzer, 32 is an operator, and 33 is an I / F circuit.

  As shown in FIG. 1A, the remote operation system according to the first embodiment of the present invention includes a server device 1, a server-side remote control device 2, a remote-side remote control device 3, and general-purpose device groups 27 to 27. 31, and the server-side remote control device 2 and the remote-side remote control device 3 are connected by a LAN line 21. The operator 32 can operate the server apparatus 1 using the general-purpose device groups 27 to 31 installed remotely from the server apparatus 1. The server device 1 and the server-side remote control device 2 constitute a server system of the present invention.

  Between the server apparatus 1 and the server-side remote control apparatus 2, a VGA I / F 16 as an I / F circuit 33 of the I / O controller 4, a console I / F 17, a file device I / F 18, a switch I / F 19, Connected by LED / buzzer I / F20. In addition, between the remote-side remote control device 3 and the general-purpose device groups 27 to 31, the VGA I / F 22, console I / F 23, file device I / F 24, switch I / F 25, LED • Connected by buzzer I / F26.

  The server device 1 may be a general-purpose device, and components used are also configured using general-purpose components. The server device 1 includes components such as a CPU 5, a BIOS 6, a device driver 7, an OS 8, an I / O controller 4, and a power supply unit 9. When performing remote control and control of the server apparatus 1 using the system shown in FIG. 1A, it is not necessary to modify or change the BIOS 6, OS 8, or the motherboard, or add software drivers.

  The device groups 27 to 31 are device groups that are normally connected to the corresponding I / Fs 16 to 20 of the server device 1 and may be configured by general-purpose parts. In the illustrated example, CRT27, keyboard 28, CDROM 29, switches 30 (Power switch, Reset switch, etc.), LED / buzzer 31 are shown as devices, but another device may be provided. A corresponding I / F is provided in the remote-side remote control device 3, and a corresponding I / F is also provided between the server device 1 and the server-side remote control device 2.

  As shown in FIG. 1B, the server-side remote control device 2 communicates with the device emulator 10 that behaves like each device with respect to each I / F 16 to 20 of the server device 1 and each I / F 16 to 20. The data conversion unit 11 performs mutual conversion between data and packet data in LAN communication using the LAN line 21, and the LAN controller 12 performs communication with the remote remote control device 3. Further, as shown in FIG. 1C, the remote-side remote control device 3 provides an I / O I / F to the device groups 27 to 31 and provides a user I / F to the operator 32. / F • user I / F 15, a data conversion unit 14 that performs data conversion similar to the data conversion unit 11 described above, and a LAN controller 13 that performs communication with the server-side remote control device 2.

  In the above-described first embodiment of the present invention, the remote-side remote control device 3 and the plurality of devices 27 to 31 can be configured by a normally used PC or the like. The attached device can be used. In this case, the function of the remote-side remote control device 3 may be configured by software or the like inside the PC. Further, when a PC or the like is not used, the remote-side remote control device 3 and the plurality of devices 27 to 31 comprise the remote-side remote control device 3 with hardware having the functions described above, and each device You may connect and comprise 27-31. The server-side remote control device 2 includes a CPU independent of the server device 1, and the functions of the server-side remote control device as described above may be configured by software or the like.

  Next, an example of remote operation in the remote operation system according to the embodiment of the present invention configured as described above will be described. First, an operation procedure for performing Power ON of the server apparatus 1 from a remote location will be described. When this procedure is performed, at least the I / O controller 4, the server remote control device 2, and the remote remote control device 3 need to be supplied with necessary power.

(1-1) The operator 32 uses the devices of the switches 30 to perform a Power ON operation on the server device with respect to the remote-side remote control device 3. Data by this operation is transmitted to the remote remote control device 3 via the switch I / F 25.

(1-2) The above-described Power ON operation is recognized as a Power ON signal to the switch I / F by the I / O I / F / user I / F 15 of the remote-side remote control device 3, and the data conversion unit 14 As a result, the packet data is converted into packet data of a communication protocol between the server-side remote control device 2 and the remote-side remote control device 3 and transmitted to the server-side remote control device 2 through the LAN controller 13.

(1-3) The server-side remote control device 2 receives the packet data from the remote-side remote control device 3 through the LAN controller 12, and converts it into a Power ON signal for the switch I / F by the data conversion unit 11.

(1-4) The Power ON signal is transmitted to the server apparatus 1 through the device emulator 10 and the switch I / F 19.

(1-5) The I / O controller 4 of the server apparatus 1 that has received the Power ON signal turns on the power supply unit 9.

  As described above, according to the embodiment of the present invention, Power ON of the server apparatus 1 from a remote place can be realized. In the above-described operation, the operations (1-4) to (1-5) can be viewed from the motherboard, BIOS, and OS of the server device 1 in the same manner as pressing the power switch connected to the main body of the server device 1. .

  Next, a processing procedure for notifying a remote operator of Power ON in the server apparatus 1 will be described.

(2-1) When the power of the server device 1 is turned on, the I / O controller 4 transmits a Power ON LED lighting signal to the server-side remote control device 2 via the LED / buzzer I / F 20.

(2-2) The server-side remote control device 2 receives the Power ON LED lighting signal from the server device 1 via the device emulator 10, and the data conversion unit 11 receives this lighting signal from the server-side remote control device 2 and remotely The packet data of the communication protocol between the control device and 3 is converted.

(2-3) The converted packet data is transmitted to the remote remote control device 3 via the LAN controller 12.

(2-4) The remote-side remote control device 3 receives the packet data from the server-side remote control device 2 by the LAN controller 13 and converts the signal into a Power ON LED lighting signal by the data conversion unit 14.

(2-5) The aforementioned Power ON LED lighting signal lights the LED device of the LED / buzzer 31 via the LED / buzzer I / F 26. Thus, the operator 32 can know that the server device 1 is powered on.

  Next, an operation procedure for performing keyboard operation and screen display of the server device 1 from a remote location will be described.

(3-1) Operation data of the keyboard 28 by the operator 31 is taken into the server device 1 by polling performed from the I / O controller 4 of the server device 1 through the console I / F 17.

(3-2) The server-side remote control device 2 receives polling data from the server device 1 via the console I / F 17 by the device emulator 10, converts the polling data into packet data by the data conversion unit 11, and The data is transmitted to the remote remote control device 3 via the controller 12.

(3-3) The remote-side remote control device 3 receives the packet data from the server-side remote control device 2 by the LAN controller 13 and converts it into polling data to the keyboard device by the data conversion unit 14. The converted polling data is transmitted to the keyboard 28 via the console I / F 23 connected to the I / O I / F / user I / F 15.

(3-4) When the operator is inputting to the remote side keyboard 28, information on the input keys from the keyboard 28 is transmitted to the I / O I / F / user IF 15 via the console I / F 23. The The input key data is converted into packet data by the data converter 14 and transmitted to the server-side remote control device 2 via the LAN controller 13.

(3-5) The server-side remote control device 2 receives the packet data from the remote-side remote control device 3 by the LAN controller 12 and converts it into input key data by the data conversion unit 11. The converted data is returned as reply data for polling from the device emulator 10 to the I / O controller 4 via the console I / F 17.

(3-6) The screen data to the VGA device such as the CRT 27 is always sent from the server apparatus 1 to the server side remote control apparatus 2 through the VGA I / F 16.

(3-7) This screen data is converted in the server-side remote control device 2 and transmitted to the remote-side remote control device 3 as in the case of polling the keyboard device.

(3-8) The remote-side remote control device 3 transmits the screen data sent from the server-side remote control device 2 to the remote site via the I / O I / F / user I / F 15 and VGA I / F 22. Output to the CRT device 27. Thereby, the operator 32 can check the server screen by the CRT 27.

  Although not described in detail, the embodiment shown in FIG. 1 can operate a file device from a remote location using the same procedure as that of the keyboard device.

  As described above, in the remote operation system according to the first embodiment of the present invention, the server device device is installed at a remote location, and the server is operated and controlled from a remote location without a full-time operator at the server device installation location. Therefore, the maintenance cost can be reduced.

  FIG. 2 is a block diagram showing the configuration of a remote control system according to the second embodiment for carrying out the remote control method according to the present invention, which will be described next. The reference numerals in FIG. 2 are the same as those in FIG.

  The second embodiment of the present invention shown in FIG. 2 is a server apparatus 1 in which the server-side remote control device 2 installed separately from the server apparatus 1 in the first embodiment of the present invention described in FIG. The other configuration is the same as that described with reference to FIG. Also in this example, the server apparatus 1 and the device group may be general-purpose apparatuses, and the components to be used may be configured using general-purpose parts. In performing the control, it is not necessary to modify or change the BIOS 6, the OS 8, the motherboard, or add a software driver.

  In the second embodiment of the present invention shown in FIG. 2, the system configuration has changed, but the server-side remote control device 2 is not restricted from operating the server-side remote control device 2 from the server OS, BIOS, motherboard, or the like. In addition, the I / O controller 4 is similar to the first embodiment in that it emulates each of the I / Fs 16 to 20. Further, the configuration other than the server-side remote control device 2 is the same as the example shown in FIG. 1, and therefore the second embodiment operates in the same manner as in the first embodiment, and the server device from a remote location. Complete operation and control.

  In the second embodiment of the present invention described above, the server-side remote control device 2 is a module, so that a system can be constructed at a lower cost and in a smaller size than the first embodiment described with reference to FIG. It becomes possible.

  FIG. 3 is a block diagram showing a configuration of a remote operation system according to the third embodiment for carrying out the remote operation method according to the present invention, which will be described next. In FIG. 3, 34 is a chip in which an I / O controller and a server-side remote control device are integrated, 35 is a server-side remote control circuit unit, 36 is an I / O controller circuit unit, and other symbols are shown in FIG. It is the same as the case.

  The third embodiment of the present invention shown in FIG. 3 integrates the server-side remote control device 2 in the first embodiment of the present invention described with reference to FIG. 1 with an I / O controller 4 to provide an I / O controller / server. This is an example configured as a chip 34 integrated as a side remote control circuit. The third embodiment of the present invention is the same as that described with reference to FIG. 1 except that the server side remote control device 2 and the I / O controller 4 are integrated into one chip. Also in this example, the server apparatus 1 and the device group may be general-purpose apparatuses, and the components to be used may be configured using general-purpose parts. In performing the control, it is not necessary to modify or change the BIOS 6, the OS 8, the motherboard, or add a software driver.

  The chip 34 includes an I / O controller circuit unit 35 and a server-side remote control circuit unit 36. The I / O controller circuit unit 35 is the I / O controller 4 in FIG. 1 corresponds to the server-side remote control device 2 in FIG. 1 and has the circuit configuration shown in FIG. Each I / F of the I / O controller circuit unit 35 is connected to the server side remote control circuit unit 36 in the chip. Similarly to the server-side remote control device 2, the server-side remote control circuit unit 36 emulates each I / F of the I / O controller circuit.

  The third embodiment of the present invention shown in FIG. 3 is basically the same as the first embodiment described with reference to FIG. 1, and therefore operates in the same manner as the first embodiment, and is remotely located. Complete operation and control of the server device can be realized. In the third embodiment of the present invention, the I / O controller and the server-side remote control device are configured as a single chip. Therefore, the I / F circuit 33 required in the first embodiment is provided. Further, since it is unnecessary to prepare a server-side remote control device separately from the server device 1, it is possible to compare with the first and second embodiments of the present invention described with reference to FIGS. 1 and 2. Thus, it is possible to construct a system at a lower cost and a smaller size.

  FIG. 4 is a block diagram showing the configuration of a remote control system according to a fourth embodiment for carrying out the remote control method according to the present invention. Next, this will be described. In FIG. 4, 37 is a device selection unit, 38 is a device selector, 39 and 46 are USB HDDs, 40 is a sensor signal, 41 is a select signal, 42 is an I / F signal, 43 is a server side remote control device, 44 is an I / F error data detection / connection device switching unit 45 is a data conversion unit, and the other symbols are the same as those in FIG. The fourth embodiment of the present invention described here enables the replacement of the function of the server apparatus even when the server apparatus fails, and the server apparatus can be made highly reliable.

  As shown in FIG. 4A, the remote operation system according to the fourth embodiment of the present invention includes a server device 1, a device selection unit 37, a server side remote control device 43, and a remote side remote control device 3. The server-side remote control device 2 and the remote-side remote control device 3 are connected via a LAN line 21. The operator 32 can operate the server apparatus 1 using the general-purpose device groups 27 to 31 installed remotely from the server apparatus 1.

  Between the server device 1 and the server-side remote control device 43, a VGA I / F 16 as an I / F circuit 33 of the I / O controller 4, a console I / F 17, a switch I / F 19, an LED / buzzer I / F 20 Is connected directly. Only the file device I / F 18 connects the server device 1 and the server-side remote control device 43 via the device selection unit 37.

  The device selection unit 37 includes a device selector 38 and a USB HDD 39 mounted on the server device. The device selector 38 from the server-side remote control device 43 based on a sensor signal 40 based on a signal on the file device I / F 18. In response to the select signal 41, the connection destination of the signal on the file device I / F 18 is selected to be the USB HDD 39 mounted on the server device or the I / F signal 42 is connected to the server-side remote control device 43.

  In addition, between the remote-side remote control device 3 and the general-purpose device groups 27, 28, 40, 30, and 31, the VGA I / F 22, the console I / F 23, the file device I / F 24, and the switch of the remote-side remote control device 3 They are connected by I / F 25 and LED / buzzer I / F 26.

  The server device 1 may be a general-purpose device, and components used are also configured using general-purpose components. The server device 1 includes components such as a CPU 5, a BIOS 6, a device driver 7, an OS 8, an I / O controller 4, and a power supply unit 9. When performing remote operation and control of the server apparatus 1 using the system shown in FIG. 4A, it is not necessary to modify or change the BIOS 6, OS 8, or the motherboard, or add software drivers.

  The device groups 27, 28, 30, and 31 are normally device groups that are connected to the corresponding I / Fs 16 to 20 of the server apparatus 1, and may be configured by general-purpose components. In the illustrated example, CRT 27, keyboard 28, USB HDD 46, switches 30 and LED / buzzer 31 are shown as devices.

  The device selection unit 37 is a unit that selects whether a device connected to the I / O I / F of the server device is a device mounted on the server device or a device installed in a remote place. In the example shown in FIG. 4, as a selectable device, the USB HDD 39 mounted in the server device provided in the device selection unit 37 or the USB HDD 46 installed in a remote place is targeted. The file device I / F 18 is connected to the device selector 38 and can select one of the two USB HDDs as a connection destination. That is, one of the connection destinations is connected to the server-side USB HDD 39, and the other is connected to the server-side remote control device 43 as an I / F signal 42. The connection destination can be selected by a select signal 41, and can be selected from the server side remote control device 43. Further, the file device I / F 18 has a sensor signal 40 that is a signal that enables the communication error with the I / O controller 4 to be known.

  As shown in FIG. 4B, the server-side remote control device 43 in the fourth embodiment of the present invention is like each device with respect to each I / F 16, 17, 19, 20, 42 of the server device 1. Data conversion similar to that performed by the behaving device emulator 10 and the data conversion unit 11 in the first to third embodiments of the present invention described above was performed, and a device forced switching signal was obtained from communication with the remote remote control device 3. In this case, the data conversion unit 45 that transmits the signal to the I / F error data detection / connection device switching unit 44, the LAN controller 12 that performs communication with the remote remote control device 3, and the sensor signal 40 from the file device I I / F error data detection / connection for switching the connection destination of the device selector 38 by detecting a communication error on / F18 and outputting a select signal 41 It constituted by a device switch 44. Although not shown in FIG. 4, the remote-side remote control device 3 is configured in the same manner as the embodiment shown and described in FIG.

  Next, in the remote operation system according to the fourth embodiment of the present invention configured as described above, when a failure occurs in the USB HDD 39 mounted on the server device in the server during server operation, the remote operation system automatically moves to the remote location. A processing operation for switching to the prepared USB HDD 46 so that the server operation can be continued will be described.

(4-1) When the server device 1 is operated using the USB HDD 39 mounted on the server device (the device selector 38 is in a connection state as shown in FIG. 4A, and the USB HDD 39 is selected. The server-side remote control device 43 always polls the communication of the file device I / F 18 based on the sense signal 40.

(4-2) If there is no response from the USB HDD 39 mounted on the server device to the packet from the I / O controller 4 for a certain time or longer, the I / F data error detection / connection device switching unit 44 of the server side remote control device 43 Then, it is determined that a failure has occurred in the USB HDD 39 mounted on the server device.

(4-3) Upon detecting a failure in the USB HDD 39, the I / F data error detection / connection device switching unit 44 outputs a select signal 41 and switches the selection destination of the device selector 38 to the server-side remote control device 43.

(4-4) By the above-described processing, as in the case of the embodiment described with reference to FIG. 1, the I / O controller 4 installs the remote site via the server-side remote control device 43 and the remote-side remote control device 3. The enumeration (initialization) of the USB HDD 46 is performed, and communication between the server device 1 and the USB HDD 46 becomes possible.

(4-5) The communication between the USB HDD 39 mounted on the server device and the server device 1 is disconnected in accordance with the USB standard due to timeout.

  As described above, according to the fourth embodiment of the present invention, the server-side remote control device 43 can automatically determine the abnormality from the I / F signal and switch the device. Maintenance of the device can be realized.

  Next, in the remote operation system according to the fourth embodiment of the present invention configured as described above, when there is a suspicion of virus infection in the USB HDD 39 mounted on the server device in the server during server operation, from a remote location. A processing operation for allowing the server operation to be continued by forcibly switching to the USB HDD 46 prepared in a remote place will be described.

(5-1) When the operator 32 determines that there is a suspicion of virus infection in the USB HDD 39 mounted on the server device 1, the operator 32 performs a device forced switching operation on the remote remote control device 3.

(5-2) The remote side remote control device 3 recognizes the forced switching operation as a switching signal to the I / F data error detection / connection device switching unit 44 by the I / O I / F / user I / F 15 and The conversion unit 14 converts the packet into a packet conforming to the communication protocol, and the LAN controller 13 transmits the packet to the server-side remote control device 43.

(5-3) In the server-side remote control device 43, the LAN controller 12 receives the packet from the remote-side remote control device 3, and the data conversion unit 45 converts the packet data to obtain a device forced switching signal. The device forced switching signal is transferred to the I / F data error detection / connected device switching unit 44.

(5-4) The I / F data error detection / connection device switching unit 44 outputs the select signal 41 and forcibly switches the connection device of the file device I / F 18 to the server-side remote control device 43.

(5-5) Then, the I / O controller 4 enumerates (initializes) the USB HDD 46 at a remote location, and communication between the server device 1 and the USB HDD 46 becomes possible. Communication between the USB HDD 39 mounted on the server device and the server device 1 is disconnected in accordance with the USB standard due to timeout.

  In the above-described fourth embodiment of the present invention, the server can be operated by forced device switching from the operator 32 by the above-described processing. In addition, by using the fourth embodiment, it is possible to perform maintenance of the server device from a remote place without going to the installation location of the server device regardless of when the server is operating / failing.

  Further, in the above-described fourth embodiment of the present invention, as long as a communication error can be detected and a device can be switched, it is not limited to a USB HDD mounted on a server device, but replaced with a standard other than USB, or a device other than HDD. Thus, switching of devices can be realized automatically or forcibly. As a result, the conventional operation that can be performed from a remote location is only the operation of the device of the server device, as in the fourth embodiment of the present invention. By operating in combination with a standby device provided when the server device is abnormal, it is possible to operate the server by switching to the standby device when the server device is abnormal.

  Each processing in each embodiment of the present invention described above can be configured as a processing program, and this processing program is stored in a recording medium such as HD, DAT, FD, MO, DVD-ROM, and CD-ROM. It can also be provided via a communication line such as a public communication network including the Internet.

FIG. 1 is a block diagram showing a configuration of a remote operation system according to a first embodiment for carrying out a remote operation method according to the present invention. FIG. 2 is a block diagram showing a configuration of a remote operation system according to the second embodiment for implementing the remote operation method according to the present invention. FIG. 3 is a block diagram showing the configuration of a remote operation system according to the third embodiment for carrying out the remote operation method according to the present invention. FIG. 4 is a block diagram showing a configuration of a remote operation system according to the fourth embodiment for carrying out the remote operation method according to the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Server apparatus 2 Server side remote control apparatus 3 Remote side remote control apparatus 4 I / O controller 5 CPU
6 BIOS
7 Device driver 8 OS
9 Power supply unit 10 Device emulator 11, 14 Data conversion unit 12, 13 LAN controller 15 I / O I / F, user I / F
16, 22 VGA I / F
17, 23 Console I / F
18, 24 File device I / F
19, 25 Switch I / F
20, 26 LED buzzer I / F
21 LAN line 27 CRT
28 Keyboard 29 CD ROM Drive 30 Switch 31 LED / Buzzer 32 Operator 33 I / F Circuit 34 Chip Integrated with I / O Controller and Server-side Remote Control Device 35 Server-side Remote Control Circuit Unit 36 I / O Controller Circuit Unit 37 Device selection unit 38 Device selector 39, 46 USB HDD
40 Sensor signal 41 Select signal 42 I / F signal 43 Remote control device on server side 44 I / F error data detection / connection device switching unit 45 Data conversion unit

Claims (5)

And a server device, and a plurality of devices installed in a remote location from the location of the server device, the remote control method for operating the server device from the plurality of devices, the server connected to the side remote to the server device The control device emulates the I / O interface signal of the server device, and exchanges the I / O interface signal with a remote remote control device installed on the remote side via a communication line. , the remote-side remote control device, remote control method characterized in that for exchanging the I / O interface signals between a plurality of devices connected to the remote side remote control device. And a server device, and a plurality of devices installed in a remote location from the location of the server device, the remote control system for operating the server device from the plurality of devices, the server connected to the side remote to the server device a controller, connected via a communication line with the server-side remote control device, and a remote-side remote control device is connected to each of the plurality of devices, the server-side remote control device, the server device The remote-side remote control device comprises means for emulating the I / O interface signal, data conversion means for converting data between the I / O interface signal and communication data, and communication means. , A device for performing data conversion between the I / O interface signal and communication data for each of the plurality of devices. Remote control system, wherein the data converting means, that is configured by a communication unit. A device selection unit having a device for a server device is connected between the server device and the server side remote control device, and the server side remote control device has an I / B between the server device and the server device. O interface signal monitoring, upon detecting an error of the I / O interface signals, the I / O interface signals for controlling between the server apparatus and devices for the server apparatus, the server apparatus and the server-side 3. The remote operation system according to claim 2, further comprising means for controlling the device selection means so as to connect to a remote control device. The remote operation system according to claim 2, wherein the server-side remote control device is provided in the server device. And a connected server-side remote control device to the server device and the server device, at the server device installed in the operably configured server system from the plurality of devices in a remote location from the location of the server device The connected server-side remote control device includes means for emulating the I / O interface signal of the server device, data conversion means for converting data between the I / O interface signal and communication data, and a remote side. A server system comprising communication means for performing communication with a remote-side remote control device installed and connected to the plurality of devices.

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