JP2005202306A - Large screen display system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a large screen display system which continues display of normal multiscreens even in case of the occurrence of a fault in any of screen display devices. <P>SOLUTION: A monitor application 43 which monitors sub-PCs 23 to 26 and detects the sub-PCs 23 to 26 having the occurring fault is packaged and when the sub-PC 25 having the occurring fault is detected by the monitor application 43, the sub-PC 25 is disconnected from the display and a spare sub-PC 27 is connected to the display. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a large screen display system that displays screens on a plurality of displays constituting a multi-screen.

  A conventional large-screen display system includes N displays constituting a multi-screen and N screen display devices that display a screen on the display, and the N screen display devices display screen data of the entire multi-screen. Is received, the screen data corresponding to the display to which it is connected is selected from the screen data of the entire multi-screen, and the screen is displayed on the display according to the selected screen data (see, for example, Patent Document 1). .

Japanese Examined Patent Publication No. 2-61759 (pages 5 to 6, FIG. 1)

  Since the conventional large screen display system is configured as described above, a multi-screen can be displayed while N screen display devices are operating normally. However, if a failure occurs in any of the screen display devices, the intended screen is not displayed on the display connected to the screen display device, and normal multi-screen display cannot be continued. was there.

  The present invention has been made to solve the above-described problems, and provides a large-screen display system capable of continuing normal multi-screen display even if a failure occurs in any screen display device. For the purpose.

  The large-screen display system according to the present invention includes a failure detection unit that monitors a plurality of screen display devices and detects a screen display device in which a failure has occurred, and the screen in which the failure has occurred by the failure detection unit When a display device is detected, the screen display device is disconnected from the display, and a spare screen display device is connected to the display.

  According to the present invention, the failure detection means for monitoring a plurality of screen display devices and detecting the screen display device in which the failure has occurred is provided, and the screen display device in which the failure has occurred is detected by the failure detection means. If the screen display device is disconnected from the display and the spare screen display device is connected to the display, a normal multi-screen display can be displayed even if one of the screen display devices fails. There is an effect that can be continued.

Embodiment 1 FIG.
1 is a block diagram showing a large screen display system according to Embodiment 1 of the present invention. 2 is a block diagram showing a display of a large screen display system, FIG. 3 is a block diagram showing a sub PC of the large screen display system, and FIG. 4 is a block diagram showing a main PC of the large screen display system. is there.
In the figure, displays 1 to 4 constitute a part of a multi-screen, and one multi-screen is composed of the screens of four displays 1 to 4. In this example, four displays 1 to 4 are installed, but it goes without saying that the number is not limited to four as long as there are a plurality of displays.
The input switch 11 of the displays 1 to 4 connects either the input terminal # 1 or the input terminal # 2 to the display processing unit 12. The display processing unit 12 is a main body of the displays 1 to 4, and is a part that displays a screen in accordance with a drawing command output from the sub PCs 23 to 27.

The main PC 21, which is a display control device, is composed of, for example, a personal computer, generates screen data for the entire multi-screen, and performs connection switching processing between the sub PCs 23 to 27 and the displays 1 to 4. The multi-caster 22 multi-distributes the screen data of the entire multi-screen generated by the main PC 21 to the sub PCs 23 to 27.
The sub PCs 23 to 27 which are screen display devices are constituted by personal computers, for example, and screen data corresponding to the displays 1 to 4 to which the sub PCs 23 to 27 are connected are selected from among the screen data of the entire multi-screen transmitted by the multicaster 22. A screen is displayed on the display according to the selected screen data. In this example, five sub PCs 23 to 27 are installed and one sub PC is used as a spare. However, it is necessary to install at least one more sub PC than the display.

The screen data generation application 31 of the main PC 21 generates screen data for the entire multi-screen and performs processing for transmitting the screen data to the multi-caster 22. The screen data generation application 31 and the multicaster 22 constitute a multi-transmission means.
The OS 41 of the sub PCs 23 to 27 is an operating system, which is activated upon receiving an activation command from the main PC 21 and activates the screen display application 42 and the monitoring application 43. The screen display application 42 of the sub PCs 23 to 27 selects screen data corresponding to the displays 1 to 4 to which the screen display application 42 of the sub PC 23 to 27 is connected from the screen data of the entire multi screen transmitted by the multi caster 22. A process of displaying a screen on the display is performed according to the data. The screen display application 42 displays a screen on the displays 1 to 4 by outputting a drawing command from either the output terminal # 1 or the output terminal # 2 to the displays 1 to 4 under the instruction of the main PC 21. .

The monitoring application 43 of the sub PCs 23 to 27 monitors the state of the screen display application 42 and, when detecting that a failure has occurred in the screen display application 42, notifies the main PC 21 that a failure has occurred. Note that the monitoring application 43 constitutes a failure detection means.
When the connection management application 32 of the main PC 21 receives a failure notification from the monitoring application 43 of any of the sub PCs, it constitutes a connection management means for disconnecting the sub PC from the display and connecting the spare sub PC to the display. .

Here, the screen data generation application 31 and the connection management application 32 are mounted on the main PC 21 and the CPU (not shown) of the main PC 21 will explain the screen data generation application 31 and the connection management application 32 executed. You may make it mount the hardware (for example, slot board | substrate which consists of IC integrated circuits etc.) for exclusive use which performs the processing content of the application 31 and the connection management application 32 in the main PC21.
Further, here, the screen display application 42 and the monitoring application 43 are mounted on the sub PCs 23 to 27, and the CPU (not shown) of the sub PCs 23 to 27 executes the screen display application 42 and the monitoring application 43. Dedicated hardware for executing the processing contents of the display application 42 and the monitoring application 43 (for example, a slot board made of an IC integrated circuit) may be mounted on the sub PCs 23 to 27.

Next, the operation will be described.
In the first embodiment, for convenience of explanation, the physical connection relationship between the sub PCs 23 to 27 and the displays 1 to 4 is as follows, and the connection management application 32 of the main PC 21 stores the physical connection relationship in advance. Suppose you are.
-Sub-PC23 output terminal # 1 → Display 1 input terminal # 1
・ Sub PC 24 output terminal # 1 → Display 2 input terminal # 1
-Sub-PC25 output terminal # 1 → Display 3 input terminal # 1
-Output terminal # 1 of the sub PC 26 → Input terminal # 1 of the display 4
・ Output terminal # 2 of sub PC 24 → Input terminal # 2 of display 1
・ Output terminal # 2 of sub PC 25 → Input terminal # 2 of display 2
Sub-PC 26 output terminal # 2 → Display 3 input terminal # 2
-Sub-PC27 output terminal # 2 → display 4 input terminal # 2

First, the main PC 21 performs the following initial settings.
In the initial state where no failure has occurred in any of the sub PCs 23 to 27, for example, the connection management application 32 of the main PC 21 is set to display a multi-screen using the sub PCs 23 to 26 ( The sub-PC 27 is reserved), and a connection destination designation command for setting the connection destination of the display processing unit 12 to the input terminal # 1 is output to the input selectors 11 of the displays 1 to 4.
Thereby, the input switch 11 of the displays 1 to 4 sets the connection destination of the display processing unit 12 to the input terminal # 1.

The connection management application 32 of the main PC 21 outputs a start command to the OS 41 of the sub PCs 23 to 27. When the OS 41 starts the screen display application 42 or the monitoring application 43, the connection management application 32 of the main PC 21 responds to the screen display application 42 of the sub PCs 23 to 26. Then, an output destination designation command for setting the output destination of the drawing command to the output terminal # 1 is output. Since the sub PC 27 is reserved, no output destination designation command is output to the screen display application 42 of the sub PC 27. However, when a failure occurs in the sub PCs 23 to 26, the screen display application 42 of the sub PC 27 immediately performs display processing. The screen display application 42 of the sub PC 27 is also activated.
Further, the connection management application 32 of the main PC 21 notifies the display area of the display corresponding to the sub PCs 23 to 26 to the screen display application 42 of the sub PCs 23 to 26.
For example, the screen display application 42 of the PC 23 is notified that the upper left area of the multi-screen is the display area, the screen display application 42 of the PC 24 is notified that the upper right area of the multi-screen is the display area, and the PC 25 The screen display application 42 is notified that the lower left area of the multi-screen is the display area, and the screen display application 42 of the PC 26 is notified that the lower right area of the multi-screen is the display area.

When the initial setting is completed, the screen data generation application 31 of the main PC 21 generates screen data for the entire multi-screen and transmits the screen data to the multicaster 22.
When the multi-caster 22 receives the screen data of the entire multi-screen generated by the main PC 21, the multi-caster 22 multi-distributes the screen data to the sub PCs 23 to 26.

When the screen display application 42 of the sub PCs 23 to 26 receives the screen data of the entire multi-screen transmitted by the multi-caster 22, the screen display application 42 corresponds to the displays 1 to 4 to which the screen display application 42 is connected. Select the screen data to be used.
That is, the screen data corresponding to the display area of the corresponding display notified at the time of initial setting from the connection management application 32 of the main PC 21 is selected.
For example, the screen display application 42 of the PC 23 selects screen data in the upper left area of the multi-screen, the screen display application 42 of the PC 24 selects screen data in the upper right area of the multi-screen, and the screen display application 42 of the PC 25 Screen data in the lower left area is selected, and the screen display application 42 of the PC 26 selects screen data in the lower right area of the multi-screen.

When the screen display application 42 of the sub PCs 23 to 26 selects screen data corresponding to the displays 1 to 4 to which the self is connected from the screen data of the entire multi-screen, the connection management application 32 of the main PC 21 performs initial setting. Since the output destination designation command for setting the output destination of the drawing command to the output terminal # 1 is received, the screen drawing command is output to the output terminal # 1 according to the selected screen data.
Thereby, the display processing unit 12 of the displays 1 to 4 inputs the drawing command output from the output terminal # 1 of the sub PCs 23 to 26 via the input terminal # 1 and the input switch 11, and according to the drawing command. Display the screen.

When the screen display application 42 starts display processing, the monitoring application 43 of the sub PCs 23 to 26 sequentially monitors the state of the screen display application 42 and determines whether or not a failure has occurred in the screen display application 42. .
For example, the monitoring application 43 monitors the status flag of the screen display application 42 (the status flag represents the state currently being executed by the screen display application 42), and the status flag does not change for a certain period of time. It is determined that a failure has occurred in the screen display application 42.
Also, when the monitoring application 43 transmits a predetermined response response request signal to the screen display application 42 and no response signal is returned from the screen display application 42 even after a certain period of time has elapsed. It is determined that a failure has occurred in the screen display application 42.

When the monitoring application 43 of the sub PCs 23 to 26 determines that a failure has occurred in the screen display application 42, the monitoring application 43 notifies the main PC 21 that a failure has occurred.
Here, for the sake of convenience of explanation, it is assumed that a failure has occurred in the screen display application 42 of the sub PC 25 and the failure occurrence notification has been sent from the screen display application 42 of the sub PC 25 to the main PC 21.

When the connection management application 32 of the main PC 21 receives the above-described failure occurrence notification from the screen display application 42 of the sub PC 25, the connection management application 32 of the display PC 12 is connected to the input switch 11 of the display 3 to which the sub PC 25 is connected. A connection destination designation command for switching the connection destination from the input terminal # 1 to the input terminal # 2 is output. Further, a connection destination designation command for switching the connection destination of the display processing unit 12 from the input terminal # 1 to the input terminal # 2 is output to the input switch 11 of the display 4.
Thereby, the input switch 11 of the displays 3 and 4 performs a process of switching the connection destination of the display processing unit 12 from the input terminal # 1 to the input terminal # 2.

Further, the connection management application 32 of the main PC 21 outputs an output destination designation command for switching the output destination of the drawing command from the output terminal # 1 to the output terminal # 2 to the screen display application 42 of the sub PCs 26 and 27.
Furthermore, the connection management application 32 of the main PC 21 notifies the display area of the display corresponding to the sub PCs 26 and 27 to the screen display application 42 of the sub PCs 26 and 27.
For example, the screen display application 42 of the PC 26 is notified that the lower left area of the multi-screen is the display area, and the screen display application 42 of the PC 27 is notified that the lower right area of the multi-screen is the display area.

Thereafter, when the screen display application 42 of the sub PCs 23, 24, 26, and 27 receives the screen data of the entire multi-screen in the same manner as described above, the display 1 to which the screen display application 42 of the sub-PC 23, 24, 26, 27 is connected is selected. Screen data corresponding to ˜4 is selected, and a drawing command is output to the output terminal # 1 or the output terminal # 2 according to the selected screen data. That is, the screen display application 42 of the sub PCs 23 and 24 outputs a drawing command to the output terminal # 1, and the screen display application 42 of the sub PCs 26 and 27 outputs a drawing command to the output terminal # 2.
As a result, the display processing unit 12 of the displays 1 and 2 inputs the drawing command output from the output terminal # 1 of the sub PCs 23 and 24 via the input terminal # 1 and the input switch 11, and according to the drawing command. Display the screen. The display processing unit 12 of the displays 3 and 4 inputs a drawing command output from the output terminal # 2 of the sub PCs 26 and 27 via the input terminal # 2 and the input switch 11, and displays a screen according to the drawing command. Is displayed.

  As is apparent from the above, according to the first embodiment, the monitoring application 43 that monitors the sub PCs 23 to 26 and detects the sub PCs 23 to 26 in which a failure has occurred is mounted. When a sub PC 25 in which a failure has occurred is detected, the sub PC 25 is disconnected from the display, and the spare sub PC 27 is connected to the display. Therefore, even if a failure occurs in any of the sub PCs, There is an effect that normal multi-screen display can be continued.

  Further, according to the first embodiment, when the spare sub PC 27 is connected to the display, the connection management application 32 of the main PC 21 and the spare PCs 23, 24, 26 in which the occurrence of the failure is not detected by the monitoring application 43 and the spare PC The display 1 to 4 corresponding to the sub PC 27 is determined, and the connection switching process for connecting the corresponding sub PCs 23, 24, 26 and 27 and the displays 1 to 4 is performed. There is an effect that the connection between the plurality of sub-PCs and the plurality of displays can be switched without installing.

Embodiment 2. FIG.
In the first embodiment, the monitoring application 43 is installed in each of the sub PCs 23 to 27 and the monitoring application 43 monitors the state of the screen display application 42. However, as shown in FIG. The monitoring application 43 may be installed, and the monitoring application 43 may monitor the state of the screen display application 42 of the sub PCs 23 to 27, and the same effect as in the first embodiment can be obtained.

Embodiment 3 FIG.
6 is a block diagram showing a large screen display system according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
Under the instruction of the connection management application 32 of the main PC 21, the multiplexer 28 performs a process of connecting the display connected to the sub PC in which the occurrence of the failure is detected and the spare sub PC.

  In the first embodiment, when the spare sub PC 27 is connected to the display, the connection management application 32 of the main PC 21 is assigned to the sub PCs 23, 24, 26 and the spare sub PC 27 in which no failure has been detected by the monitoring application 43. Although the corresponding displays 1 to 4 are determined and the connection switching process for connecting the corresponding sub PCs 23, 24, 26, and 27 to the displays 1 to 4 is shown, the multiplexer 28 manages the connection of the main PC 21. Under the instruction of the application 32, the display 3 connected to the sub PC 25 in which the occurrence of the failure is detected may be connected to the spare sub PC 27.

Specifically, it is as follows.
In the third embodiment, the physical connection relationship between the sub PCs 23 to 27 and the displays 1 to 4 is as follows.
-Sub-PC23 output terminal # 1 → Display 1 input terminal # 1
・ Sub PC 24 output terminal # 1 → Display 2 input terminal # 1
-Sub-PC25 output terminal # 1 → Display 3 input terminal # 1
-Output terminal # 1 of the sub PC 26 → Input terminal # 1 of the display 4
-Output terminal # 1 of the sub PC 27-> multiplexer 28
Multiplexer 28 → Display terminals # 2 of displays 1 to 4

First, the main PC 21 performs the following initial settings.
The connection management application 32 of the main PC 21 sets the connection destination of the display processing unit 12 to the input switch 11 of the displays 1 to 4 in the initial state where no failure has occurred in any of the sub PCs 23 to 27. The connection destination designation command to be set to # 1 is output.
Thereby, the input switch 11 of the displays 1 to 4 sets the connection destination of the display processing unit 12 to the input terminal # 1.

The connection management application 32 of the main PC 21 outputs a start command to the OS 41 of the sub PCs 23 to 27, and when the OS 41 starts the screen display application 42 or the monitoring application 43, the connection management application 32 of the main PC 21 Notifies the display area of the display to which is connected.
For example, the screen display application 42 of the PC 23 is notified that the upper left area of the multi-screen is the display area, the screen display application 42 of the PC 24 is notified that the upper right area of the multi-screen is the display area, and the PC 25 The screen display application 42 is notified that the lower left area of the multi-screen is the display area, and the screen display application 42 of the PC 26 is notified that the lower right area of the multi-screen is the display area.

When the initial setting is completed, the screen data generation application 31 of the main PC 21 generates screen data for the entire multi-screen and transmits the screen data to the multicaster 22.
When the multi-caster 22 receives the screen data of the entire multi-screen generated by the main PC 21, the multi-caster 22 multi-distributes the screen data to the sub PCs 23 to 26.

When the screen display application 42 of the sub PCs 23 to 26 receives the screen data of the entire multi-screen transmitted by the multi-caster 22, the screen display application 42 corresponds to the displays 1 to 4 to which the screen display application 42 is connected. Select the screen data to be used.
That is, the screen data corresponding to the display area of the corresponding display notified at the time of initial setting from the connection management application 32 of the main PC 21 is selected.
For example, the screen display application 42 of the PC 23 selects screen data in the upper left area of the multi-screen, the screen display application 42 of the PC 24 selects screen data in the upper right area of the multi-screen, and the screen display application 42 of the PC 25 Screen data in the lower left area is selected, and the screen display application 42 of the PC 26 selects screen data in the lower right area of the multi-screen.

When the screen display application 42 of the sub PCs 23 to 26 selects the screen data corresponding to the displays 1 to 4 to which the self is connected from the screen data of the entire multi-screen, the screen display application 42 outputs a drawing command according to the selected screen data. Output to terminal # 1.
Thereby, the display processing unit 12 of the displays 1 to 4 inputs the drawing command output from the output terminal # 1 of the sub PCs 23 to 26 via the input terminal # 1 and the input switch 11, and according to the drawing command. Display the screen.

When the screen display application 42 starts display processing, the monitoring application 43 of the sub PCs 23 to 26 sequentially monitors the state of the screen display application 42 and determines whether or not a failure has occurred in the screen display application 42. .
For example, the monitoring application 43 monitors the status flag of the screen display application 42 (the status flag represents the state currently being executed by the screen display application 42), and the status flag does not change for a certain period of time. It is determined that a failure has occurred in the screen display application 42.
Also, when the monitoring application 43 transmits a predetermined response response request signal to the screen display application 42 and no response signal is returned from the screen display application 42 even after a certain period of time has elapsed. It is determined that a failure has occurred in the screen display application 42.

When the monitoring application 43 of the sub PCs 23 to 26 determines that a failure has occurred in the screen display application 42, the monitoring application 43 notifies the main PC 21 that a failure has occurred.
Here, for the sake of convenience of explanation, it is assumed that a failure has occurred in the screen display application 42 of the sub PC 25 and the failure occurrence notification has been sent from the screen display application 42 of the sub PC 25 to the main PC 21.

When the connection management application 32 of the main PC 21 receives the above-described failure occurrence notification from the screen display application 42 of the sub PC 25, the connection management application 32 of the display PC 12 is connected to the input switch 11 of the display 3 to which the sub PC 25 is connected. A connection destination designation command for switching the connection destination from the input terminal # 1 to the input terminal # 2 is output. Also, a connection destination designation command for setting the connection destination of the spare sub PC 27 on the display 3 is output to the multiplexer 28.
As a result, the input switch 11 of the display 3 performs a process of switching the connection destination of the display processing unit 12 from the input terminal # 1 to the input terminal # 2, and the multiplexer 28 sets the connection destination of the spare sub PC 27 to the display 3. Implement the process set to.

Further, the connection management application 32 of the main PC 21 notifies the display area of the display 3 corresponding to the spare sub PC 27 to the screen display application 42 of the sub PC 27.
In other words, the screen display application 42 of the PC 27 is notified that the lower left area of the multi-screen is the display area (the same display area as the display area that the screen display application 42 of the PC 25 in which the failure occurred is in charge) is notified. .

Thereafter, when the screen display application 42 of the sub PCs 23, 24, 26 receives the screen data of the entire multi-screen in the same manner as described above, the display 1, 2 to which the screen display application 42 of the sub-PC 23, 24, 26 is connected is selected. , 4 is selected, and a drawing command is output to the output terminal # 1 according to the selected screen data.
Further, when the screen display application 42 of the spare sub PC 27 receives the screen data of the entire multi-screen, the screen display application 42 selects the screen data corresponding to the display 3 to which the self is connected from the screen data of the entire multi-screen. A drawing command is output to the output terminal # 1 according to the selected screen data.
As a result, the display processing unit 12 of the displays 1, 2, 4 receives the drawing command output from the output terminal # 1 of the sub PCs 23, 24, 26 via the input terminal # 1 and the input switch 11, Display the screen according to the drawing command.
Further, the display processing unit 12 of the display 3 inputs a drawing command output from the output terminal # 1 of the spare sub PC 27 via the multiplexer 28, the input terminal # 2, and the input switch 11, and according to the drawing command. Display the screen.

  As is apparent from the above, according to the third embodiment, the multiplexer 28 is connected to the display 3 connected to the sub PC 25 in which the occurrence of the failure is detected under the instruction of the connection management application 32 of the main PC 21 and a spare. Since the processing for connecting the sub PC 27 is implemented, normal multi-screen display can be continued without changing the display corresponding to the sub PCs 23, 24, and 26 in which no failure has been detected. There is an effect that can be done.

Embodiment 4 FIG.
FIG. 7 is a block diagram showing a main PC of a large-screen display system according to Embodiment 4 of the present invention. In the figure, the same reference numerals as those in FIG.
The restart application 33 of the main PC 21 constitutes restart means for restarting the sub PC in which the occurrence of the failure is detected by the monitoring application 43.
Here, a description will be given of a case in which the restart application 33 is mounted on the main PC 21 and a CPU (not shown) of the main PC 21 executes the restart application 33, but dedicated hardware for executing the processing contents of the restart application 33 ( For example, a slot board made of an IC integrated circuit or the like may be mounted on the main PC 21.

In the first to third embodiments, when the connection management application 32 of the main PC 21 receives a failure notification from the monitoring application 43 of any of the sub PCs 23 to 26, the sub PC is disconnected from the display, and the spare sub PC 27 is removed. Although what is connected to the display has been shown, the restart application 33 of the main PC 21 may restart the sub PC disconnected from the display. If the restart of the failed sub PC is successful, the sub PC can be made to stand by as a spare sub PC thereafter.
Specifically, the sub PC in which the failure has occurred is restarted as follows.

For example, when the restart application 33 of the main PC 21 receives a failure notification from the monitoring application 43 of the sub PC 25, the OS 41 of the sub PC 25 instructs the OS 41 of the sub PC 25 to restart the screen display application 42. Try rebooting.
If the OS 41 of the sub PC 25 can successfully restart the screen display application 42, the OS 41 notifies the restart application 33 of the main PC 21 to that effect.

If the restart application 33 of the main PC 21 can receive a notification indicating the success of the restart from the OS 41 before a predetermined period of time elapses after instructing the OS 41 of the sub PC 25 to restart the screen display application 42. The restart process is terminated.
However, if the notification indicating that the restart is successful is not received from the OS 41 before a certain period of time has elapsed, there is a possibility that a failure has occurred in the OS 41 itself, so an attempt is made to restart the OS 41.

The restart application 33 of the main PC 21 monitors the state of the OS 41 of the sub PC 25, and if the restart of the OS 41 is successful, the restart process is terminated.
However, if the restart of the OS 41 is not successful, the power supplied to the sub PC 25 is temporarily stopped, and then the power is re-supplied to attempt to restart the main PC 21.

  As apparent from the above, according to the fourth embodiment, the restart application 33 of the main PC 21 is configured to restart the sub PC in which the occurrence of the failure is detected by the monitoring application 43. There is an effect that the sub PC in which the occurrence of the failure is detected can be waited as a spare sub PC.

  Further, according to the fourth embodiment, the screen display application 42 is attempted to be restarted in the sub PC in which the failure is first detected, and if the screen display application 42 is not successfully restarted, the sub PC If the OS 41 is tried to restart and the OS 41 is not restarted successfully, the power supplied to the sub PC is temporarily stopped and then the power is resupplied. There is an effect that can speed up the time.

Embodiment 5 FIG.
In the above-described fourth embodiment, the restart of the sub PC separated from the display has been described. However, the restart application 33 of the main PC 21 notifies the failure occurrence from the monitoring application 43 of any of the sub PCs 23 to 26. If the sub PC is restarted and the restart of the sub PC is not successful, the connection management application 32 of the main PC 21 executes the sub PC in the same manner as in the first to third embodiments. May be disconnected from the display, and the spare sub-PC 27 may be connected to the display.
According to the fifth embodiment, if the restart of the sub PC is successful at an early stage, the display of the multi-screen is restored earlier than when the connection switching process as in the first to third embodiments is performed. The effect which can be made is produced.

As shown in FIG. 8, the restart application 33 of the main PC 21 restarts the screen display application 42 of the sub PC when the sub PC has a screen display application 42a in addition to the screen display application 42. During the execution, the screen display application 42a may be caused to execute a screen display process.
Thereby, while the screen display application 42 of the sub PC is being restarted, the screen display application 42a can display a predetermined screen (for example, clock, weather information, etc.) on the display.

Embodiment 6 FIG.
In the fifth embodiment, when the sub PC has the screen display application 42a in addition to the screen display application 42, the restart application 33 of the main PC 21 restarts the screen display application 42 of the sub PC. While the screen display application 42a executes the screen display process while the screen display application 42a is running, the restart application 33 of the main PC 21 does not restart the screen display application 42 of the sub PC, and the screen of the main PC 21 is displayed. The data generation application 31 (application management means) may cause the screen display application 42a to execute screen display processing.

For example, if the screen display application 42a is a spare application that can perform the same display processing as the screen display application 42, normal multi-screen display is not necessarily continued even if the screen display application 42 is not restarted. The effect which can be done is produced.
In addition, even if the screen display application 42a displays a predetermined screen (for example, a clock, weather information, etc.) on the display, an effect that a multi-screen without a sense of incongruity can be displayed is obtained.

Embodiment 7 FIG.
Although not particularly mentioned in the first to sixth embodiments, power may be supplied to the displays 1 to 4 after the startup of all the sub PCs 23 to 27 is completed in the initial setting. .
Thereby, there is an effect that it is possible to avoid a situation in which the screens during startup of the sub PCs 23 to 27 are displayed on the displays 1 to 4.

BRIEF DESCRIPTION OF THE DRAWINGS It is a block diagram which shows the large screen display system by Embodiment 1 of this invention. It is a block diagram which shows the display of a large screen display system. It is a block diagram which shows sub PC of a large screen display system. It is a block diagram which shows main PC of a big screen display system. It is a block diagram which shows main PC and sub PC of the big screen display system by Embodiment 2 of this invention. It is a block diagram which shows the big screen display system by Embodiment 3 of this invention. It is a block diagram which shows main PC of the big screen display system by Embodiment 4 of this invention. It is a block diagram which shows the big screen display system by Embodiment 5 of this invention.

Explanation of symbols

  1-4 display, 11 input switch, 12 display processing unit, 21 main PC, 22 multicaster (multi-transmission means), 23-27 sub PC (screen display device), 28 multiplexer, 31 screen data generation application (multi-transmission) Means, application management means), 32 connection management application (connection management means), 33 restart application (restart means), 41 OS (operating system), 42 screen display application, 42a screen display application, 43 monitoring application (failure detection) means).

Claims (10)

  Multi-transmission means for multi-transmission of the screen data of the entire multi-screen, and screen data corresponding to the display to which the self is connected among a plurality of displays constituting the multi-screen are transmitted by the multi-transmission means. In a large screen display system comprising a plurality of screen display devices that are selected from among the screen display devices that display a screen on the display according to the selected screen data, the plurality of screen display devices are monitored and a failure occurs. When a failure detection unit that detects a screen display device that detects a failure and the failure detection unit detects a faulty screen display device, the screen display device is disconnected from the display, and a spare screen display device is connected to the display. A large-screen display system characterized by comprising connection management means.   When the spare screen display device is connected to the display, the connection management means determines a screen display device in which the occurrence of the fault is not detected by the fault detection means and a display corresponding to the spare screen display device, and has a correspondence relationship. 2. The large screen display system according to claim 1, wherein a connection switching process for connecting the screen display device and the display is performed.   The connection management means connects the display connected to the screen display device in which the occurrence of the failure is detected by the failure detection means and the spare screen display device via a multiplexer. Screen display system.   2. The large screen display system according to claim 1, further comprising restarting means for restarting the screen display device in which occurrence of a fault is detected by the fault detecting means.   The restarting means first tries to restart the screen display application in the screen display device, and if the screen display application has not been restarted successfully, it tries to restart the operating system in the screen display device. 5. The large screen display system according to claim 4, wherein if the restart is not successful, the power supplied to the screen display device is temporarily stopped and then the power is supplied again.   Multi-transmission means for multi-transmission of the screen data of the entire multi-screen, and screen data corresponding to the display to which the self is connected among a plurality of displays constituting the multi-screen are transmitted by the multi-transmission means. In a large screen display system comprising a plurality of screen display devices that are selected from among the screen display devices that display a screen on the display according to the selected screen data, the plurality of screen display devices are monitored and a failure occurs. A failure detection means for detecting a screen display device that is present, and a restart means for restarting the screen display device when a failure is detected by the failure detection means. Large screen display system featuring   The restarting means first tries to restart the screen display application in the screen display device, and if the screen display application has not been restarted successfully, it tries to restart the operating system in the screen display device. 7. The large screen display system according to claim 6, wherein if the restart is not successful, the power supplied to the screen display device is temporarily stopped and then the power is supplied again.   The restarting unit causes another screen display app installed in the screen display device to execute a screen display process while restarting the screen display app in the screen display device. Item 8. The large-screen display system according to Item 7.   7. The connection management means for disconnecting the screen display device from the display and connecting the spare screen display device to the display if the restart of the screen display device by the restart means is not successful. Large screen display system.   Multi-transmission means for multi-transmission of the screen data of the entire multi-screen, and screen data corresponding to the display to which the self is connected among a plurality of displays constituting the multi-screen are transmitted by the multi-transmission means. In a large screen display system comprising a plurality of screen display devices that are selected from among the screen display devices that display a screen on the display according to the selected screen data, the plurality of screen display devices are monitored and a failure occurs. If a fault detection unit that detects a screen display device that detects a fault and a screen display device in which a fault has occurred are detected by the fault detection unit, Application management means for causing other screen display applications installed in the screen display device to execute screen display processing is provided. Large-screen display system, characterized in that.

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