JP2007293775A - Client server system and server device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a client server system and a server device that enable a user to clearly recognize that a client terminal device cannot be linked to the server device since the server device is powered off in such a case. <P>SOLUTION: When powered off while linked to the client terminal device 6, the server device 3 transmits power-off notice signal indicating that the server device is to be powered off by a preliminary power source (preliminary power source part 34) to the client terminal device 6 by a power-off notice means (CPU 351, power-off notice program 353a, etc.) The client terminal device 6 receives the power-off notice signal by a receiving means (CPU 641, receiving program 643a, etc.) and informs the user that the server device 3 has been powered off by an information means (CPU 641, first information program 643b, etc.). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a client / server system and a server device in which a client terminal device and a server device are connected via a wireless network.

In recent years, a system that provides information (content information) from a server device to a client terminal device via a network has been used. Examples of the server device include a television device, a video recorder, a PVR (Personal Video Recorder), a BS (Broadcasting Satellite) broadcast and a CS (Communication Satellite) broadcast tuner, and an STB (Set Top Box).
), DVD (Digital Versatile Disk) players, audio devices, and other types of AV devices 1 are connected, and content information corresponding to the AV devices 1 connected to the server device is transferred from the server device to the client terminal device. Can be provided.

In such a client / server system, when the client terminal device links to the server device, the server device must be powered on. Even if the server device is powered off, the client terminal device Various techniques for preventing inconvenience are proposed.
For example, according to the mobile communication system and mobile terminal proposed in Patent Document 1, a mobile phone transmits a location registration request signal to a base station outside the service area, receives a location registration acceptance signal from the base station, and waits. If the standby completion state is due to the transition from the power OFF state to the ON state when the reception complete state is entered, an automatic incoming call history inquiry is performed immediately on the network, while When the reception is not completed, an incoming call history automatic inquiry is performed on the network after N minutes have elapsed after completion of the standby. As a result, when the mobile phone is switched from OFF to ON and when the mobile phone in the ON state is moved from outside the service area to within the service area, the answering machine or mail server can be used. Can be efficiently implemented.
In addition, according to the mobile phone system disclosed in Patent Document 2, a simple base station device is installed at the entrance of a building and the power OFF signal is notified, and the mobile phone that has received the signal simply simplifies the phone number. The base station apparatus is notified, and further, the simple base station apparatus notifies the location management server in the wireless network via the public base station apparatus and registers, and the power of the wireless unit is turned off. Accordingly, it is possible to recognize that the mobile phone is in a communication prohibited state or a dormant state by referring to the registered content of the location management server in response to an incoming request to the mobile phone in the area where use is prohibited. It is possible to prevent unauthorized incoming call processing from being performed on a public base station whose location is registered by the mobile phone.
JP 2005-184263 A JP-A-11-69412

By the way, when the client terminal device cannot link with the server device, if the user can clearly recognize that the cause of the link establishment failure is that the server device is powered off, it will not repeatedly perform useless link requests, It is possible to quickly take measures such as turning on the power of the server device. However, although the techniques of Patent Documents 1 and 2 can prevent a useless link request (inquiry and incoming call processing) when a link cannot be established, the link failure occurs because the server device is turned off. The user cannot clearly recognize whether it is possible or cannot be linked for other reasons.

  An object of the present invention is to provide a client / server system and a server that allow a user to clearly recognize that, when a client terminal device cannot be linked to a server device, the server device cannot be linked because the power is off. Is to provide a device.

In order to solve the above-mentioned problem, the invention described in claim 1 includes one or more client terminal devices, a server device connected to the one or more client terminal devices via a wireless network, and transmitting and receiving information; In a client / server system comprising:
The server device
Power off transition notifying means for transmitting to the client terminal device a power off transition notifying signal for notifying the transition to power off by a standby power source when transitioning to power off during the link with the client terminal device; ,
A power off state notification means for transmitting a power off state notification signal for notifying that the power is off by the standby power source to the client terminal device at a predetermined interval during power off,
The client terminal device
Receiving means for receiving the power-off transition notification signal transmitted by the power-off transition notification means and the power-off state notification signal transmitted by the power-off state notification means;
First notification means for notifying a user that the server device has shifted to power-off based on reception of the power-off transition notification signal by the reception means;
Second notification means for notifying a user that the server device is in a power-off state based on reception of the power-off state notification signal by the reception means;
It is characterized by providing.

The invention according to claim 2 is a server device that transmits and receives information to or from one or more client terminal devices connected via a wireless network.
A power-off transition notification means for transmitting to the client terminal device a power-off transition notification signal for notifying the transition to power-off when shifting to power-off during the link with the client terminal device. And

  According to a third aspect of the present invention, in the server device according to the second aspect, the power-off transition notification unit transmits the power-off transition notification signal to the client terminal device before the power-off transition. It is characterized by that.

According to a fourth aspect of the present invention, in the server device according to the second aspect, the server device includes a standby power source.
The power-off notification means transmits the power-off transition notification signal to the client terminal device by the standby power after the power-off.

According to a fifth aspect of the present invention, there is provided a client / server system comprising: one or more client terminal devices; and a server device connected to the one or more client terminal devices via a wireless network and transmitting / receiving information. ,
The server device
Power off transition notifying means for transmitting to the client terminal device a power off transition notifying signal for notifying that the standby power is to be switched off when shifting to power off during the link with the client terminal device. Prepared,
The client terminal device
Receiving means for receiving the power-off transition notification signal transmitted by the power-off transition notification means;
Informing means for informing the user that the server device has shifted to power off based on reception of the power off transition notification signal by the receiving means;
It is characterized by providing.

The invention according to claim 6 is a server device that transmits and receives information to and from one or a plurality of client terminal devices connected via a wireless network.
A power-off state notification unit is provided that transmits a power-off state notification signal for notifying that a power-off state is established by a standby power source to the client terminal device at a predetermined interval during power-off.

According to a seventh aspect of the present invention, there is provided a client / server system comprising: one or more client terminal devices; and a server device connected to the one or more client terminal devices via a wireless network and transmitting / receiving information. ,
The server device
A power off state notification means for transmitting a power off state notification signal for notifying that the power is off by a standby power source to the client terminal device at a predetermined interval during power off;
The client terminal device
Receiving means for receiving the power off state notification signal transmitted by the power off state notifying means;
Informing means for informing the user that the server device is in a power-off state based on reception of the power-off state notification signal by the receiving means;
It is characterized by providing.

According to the first aspect of the present invention, the server device notifies the power-off transition notifying means that when the power-off transition occurs during the link with the client terminal device, the backup power-off transition is performed by the standby power. A power-off transition notification signal to be transmitted to the client terminal device, and a power-off state notification signal for notifying that the power-off state is established by a standby power source during power-off by the power-off state notification means at a predetermined interval Then, the data is transmitted to the client terminal device. Further, the client terminal device receives the power-off transition notification signal and the power-off state notification signal transmitted by the power-off transition notification unit by the receiving unit, and based on the reception of the power-off transition notification signal by the receiving unit, The notification device of 1 notifies the user that the server device has shifted to the power-off state, and the server device is in the power-off state based on the reception of the power-off state notification signal by the reception device by the second notification device. This is notified to the user.
Accordingly, when the notification from the first notification unit based on the reception of the power-off transition notification signal and the notification by the second notification unit based on the reception of the power-off state notification signal cannot be linked from the client terminal device to the server device, The user can clearly recognize that the server apparatus cannot be linked because the server apparatus is powered off.

  According to the second aspect of the present invention, the server apparatus notifies the power-off transition when the power-off transition notifying means notifies the power-off transition when the server apparatus is switched off during the link with the client terminal apparatus. A notification signal is transmitted to the client terminal device. Accordingly, when the client terminal device cannot be linked to the server device by the power off transition notification signal, the user can clearly recognize that the server device cannot be linked because the server device is powered off.

  According to the invention described in claim 3, it is a matter of course that the effect of the invention described in claim 2 can be obtained, and the server device sends the power-off transition notification signal to the client terminal before the power-off. Send to device. Therefore, a server apparatus that can transmit a power-off transition notification signal without providing a standby power supply and that allows the user to clearly recognize that the server apparatus cannot be linked because the server apparatus is powered off. It can be provided at low cost.

  According to the invention described in claim 4, it is needless to say that the effect of the invention described in claim 2 can be obtained, and the server device includes a standby power supply, and after the power supply is turned off, An off transition notification signal is transmitted to the client terminal device. Therefore, even when the power supply is suddenly cut off, such as when the power cord is disconnected from the commercial AC power supply in the server device, the power-off transition notification signal can be reliably transmitted.

  According to the fifth aspect of the present invention, the server device notifies the power-off transition notifying means that when the power-off transition is made during the link with the client terminal device, the standby power-off transitions to the power-off. To the client terminal device, the client terminal device receives the power-off transition notification signal transmitted by the power-off transition notification unit by the receiving unit, and the power by the receiving unit is received by the notification unit. Based on the reception of the off transition notification signal, the user is notified that the server apparatus has transitioned to power off. Therefore, when the client terminal device cannot link to the server device by the notification based on the reception of the power-off transition notification signal, the user clearly recognizes that the server device cannot be linked because the server device is powered off. be able to.

  According to the invention described in claim 6, the server device sends the power-off state notification signal for notifying the power-off state by the standby power source by the standby power source during the power-off state by the power-off state notifying unit at a predetermined interval. Then, the data is transmitted to the client terminal device. Therefore, the user can clearly recognize from the power-off state notification signal that when the client terminal device cannot be linked to the server device, the server device cannot be linked because the server device is powered off.

  According to the invention described in claim 7, the server device sends the power-off state notification signal for notifying the power-off state by the standby power source during the power-off state by means of the power-off state notification means at a predetermined interval. The client terminal device receives the power-off state notification signal transmitted by the power-off state notification unit by the reception unit, and the notification unit receives the power-off state notification signal by the reception unit. Based on the above, the user is notified that the server device is in the power-off state. Therefore, when the client terminal device cannot link to the server device by the notification based on the reception of the power-off state notification signal, the user clearly recognizes that the server device cannot be linked because the server device is powered off. be able to.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings. The scope of the invention is not limited to the illustrated example.

<Configuration>
First, the configuration of the client / server system S, the server device 3, and the client terminal device 6 will be described.

[Client-server system configuration]
As shown in FIG. 1, for example, the client / server system S includes a server device 3 to which various AV devices 1 are connected, and one or a plurality of client terminal devices 6 to which an output device 4 is connected. The server device 3 and the client terminal device 6 are connected via a wireless network N so that information can be transmitted and received between them. The server device 3 includes a remote control device (hereinafter referred to as a remote controller) 2 for performing remote operation on the server device 3, and the client terminal device 6 is provided with a remote control 5 for performing remote operation on the client terminal device 6. It has.
The number of client terminal devices 6 with respect to the server device 3 is not limited to that shown in FIG.

Information transmitted from the server device 3 to the client terminal device 6 includes, for example, content information. For example, the content information is acquired from various AV devices 1 connected to the server device 3 and is output to the output device 4 connected to the client terminal device 6.
Examples of information transmitted from the client terminal device 6 to the server device 3 include a link establishment request and a control request. The link establishment request is transmitted when the link with the server apparatus 3 is established, and the control request is a request for content information transmitted from the server apparatus 3 after the link with the server apparatus 3 is established. is there.
Specifically, for example, when the client terminal device 6 receives a signal related to a control request for one piece of content information from the remote controller 5 in a link disconnection state, the client terminal device 6 first transmits a link establishment request to the server device 3. When the server apparatus 3 receives the link establishment request transmitted from the client terminal apparatus 6, the server apparatus 3 exchanges a preset EDD-ID (Extended Service Set IDentifier) and determines whether or not the ESS-IDs of both apparatuses match. Judging. The server device 3 transmits a link establishment response to the client terminal device 6 when the ESS-IDs of the two devices match each other, and when the link establishment is permitted by performing authentication using the MAC address or the like. When the client terminal device 6 receives the link establishment response, the link is established and the link establishment process ends.
When the link is established between the client terminal device 6 and the server device 3, the client terminal device 6 subsequently transmits a control request corresponding to the signal transmitted from the remote controller 5 to the server device 3. The server device 3 that has received the control request executes control corresponding to the control request with respect to the various AV devices 1 and the like, and transmits information obtained as a result of the execution to the client terminal device 6. Then, the client terminal device 6 that has received the information outputs the information to the output device 4 or the like.

The wireless network N is, for example, the Bluetooth standard or IEEE (Institute of Electrical and
Electronic Engineers) A network such as a wireless local area network (LAN) conforming to the 802.11 standard.

For example, as shown in FIG. 2, the remote controller 2 includes various input buttons and the like, and when a user presses one of the various input buttons, a signal corresponding to the input button is transmitted to the server. The remote control signal light receiving unit 31 of the apparatus 3 is transmitted. Specifically, a power on / off key 2a for turning on / off the power of the server device 3 is provided.
Further, for example, as shown in FIG. 2, the remote controller 5 includes various input buttons, and when a user presses one of the various input buttons, a signal corresponding to the input button is output. Then, the data is transmitted to the remote control signal light receiving unit 61 of the client terminal device 6.

[Configuration of server device]
For example, as shown in FIG. 2, the server device 3 includes a remote control signal light receiving unit 31, an encoder 32, a main power supply unit 33, a standby power supply unit (backup power supply) 34, a control unit 35, a wireless communication unit 36, and the like. Is done. Each unit is connected by a bus 37. The server device 3 is connected to various AV devices 1.

  The remote control signal light receiving unit 31 receives various remote control signals transmitted from the remote control 2, for example.

  For example, the encoder 32 encodes content information (video information and audio information) input from the various AV devices 1 to the server device 3 into compressed content information (compressed video information and compressed audio information) in a predetermined file format. Specifically, for example, the encoder 32 encodes video information input from the various AV devices 1 to the server device 3 into compressed video information such as MPEG-2 (Moving Picture Experts Group phase 2) format, and various AV Audio information input from the device 1 to the server device 3 is encoded into compressed audio information such as an AAC (Advanced Audio Coding) format.

The main power supply unit 33 converts, for example, an AC voltage supplied from a commercial AC power supply via a power cord (not shown) into DC voltages VCC and VDD having predetermined voltage values, and outputs them to the control unit 35. When the main power supply unit 33 receives a control signal output from the control unit 35 to turn on the power, the main power supply unit 33 enters a power-on state, validates the power supply from the commercial AC power supply, and supplies power to all the apparatus components. When the control signal instructing the power off is received, the power is turned off, the power supply from the commercial AC power supply is invalidated, and the power supply to all the device components of the server device 3 is cut off.
Here, the entire device configuration unit refers to the remote control signal light receiving unit 31, the encoder 32, the main power supply unit 33, the standby power supply unit 34, the control unit 35, the wireless communication unit 36, and the like in the server device 3 of the present embodiment. ing.

The standby power supply unit 34 includes, for example, a rechargeable battery (not shown) and the like, and supplies power to each device component of the server device 3 in a predetermined case. Specifically, the standby power supply unit 34 transmits a power-off transition notification signal and a power-off state notification signal to the client terminal device 6 in the execution of a power-off transition notification program 353a and a power-off state notification program 353b described later. In addition, instead of the main power supply unit 33, power is supplied to each device component such as the control unit 35 and the wireless communication unit 36.
Note that the standby power supply unit 34 is charged by the main power supply unit 35 in the power-on state.

  For example, as shown in FIG. 2, the control unit 35 includes a CPU (Central Processing Unit) 351, a RAM (Random Access Memory) 352, a ROM (Read Only Memory) 353, and the like.

  The CPU 351 performs various control operations according to various processing programs for the server device 3 stored in the ROM 353.

  The RAM 352 includes a program storage area for expanding a processing program executed by the CPU 351, a data storage area for storing input data, a processing result generated when the processing program is executed, and the like.

The ROM 353 stores a system program that can be executed by the server device 3, various processing programs that can be executed by the system program, data that is used when executing these various processing programs, data of processing results that are arithmetically processed by the CPU 351, and the like. Remember. Note that the program is stored in the ROM 353 in the form of a computer readable program code.
Specifically, the ROM 353 stores, for example, a power-off transition notification program 353a, a power-off state notification program 353b, and the like.

The power-off transition notification program 353a is, for example, a power-off transition notification signal for notifying the CPU 351 that the standby power supply 34 shifts to power-off when the power-off is performed during the link with the client terminal device 6. Is a program for realizing the function of transmitting to the client terminal device 6.
Specifically, during the link with the client terminal device 6, the CPU 351 receives the remote control signal generated based on the operation of the power on / off key 2 a of the remote control 2 by the remote control signal light receiving unit 31, and controls the control unit 35. Is output to the main power supply unit 33 based on the remote control signal, thereby controlling the main power supply unit 33 in a power-off state to supply power to all the device components of the server device 3. Further, based on the power supply from the standby power supply unit 34, the wireless communication unit 36 transmits a power-off transition notification signal to notify the client terminal device 6 of the power-off transition notification.
The CPU 351 functions as a power-off transition notification unit by executing the power-off transition notification program 353a.

The power-off state notification program 353b, for example, sends to the client terminal device 6 a power-off state notification signal for notifying the CPU 351 that the power is off by the standby power supply unit 34 while the power is off. This is a program for realizing the function of transmitting.
Specifically, the CPU 351 is in a power-off state at a predetermined interval (for example, once / second) while the main power supply unit 33 is in a power-off state and the power supply to all the apparatus components is off. Based on the power supply from the standby power supply unit 34, the wireless communication unit 36 transmits a power-off state notification signal to notify the client terminal device 6.
The CPU 351 functions as a power-off state notification unit by executing the power-off state notification program 353b.

The wireless communication unit 36 transmits / receives various information to / from the client terminal device 6 via the wireless network N. Specifically, the wireless communication unit 36 conforms to an antenna 36a and an RF (Radio Frequency) converter (not shown) for transmitting and receiving wireless signals to and from the client terminal device 6, Bluetooth standard, and IEEE 802.11 standard. A wireless LAN card (not shown) for connecting to a conforming wireless LAN is provided.
Specifically, the wireless communication unit 36 according to the present invention transmits a power-off transition notification signal to a wireless communication unit 62 (described later) of the client terminal device 6 and transmits the power-off state notification signal to the wireless communication of the client terminal device 6. To the unit 62. The wireless communication unit 36 constitutes a power-off transition notifying means together with the CPU 351 executing the power-off transition notification program 353a by transmitting a power-off transition notification signal, and also transmits a power-off state notification signal. The power-off transition notifying means is configured together with the CPU 351 executing the power-off state notification program 353b.

[Configuration of client terminal]
As shown in FIG. 2, for example, the client terminal device 6 includes a remote control signal light receiving unit 61, a wireless communication unit 62, a decoder 63, a control unit 64, and the like. Each unit is connected by a bus 65. The client terminal device 6 is connected to the output device 4 and can be operated by the remote controller 5.

  The output device 4 outputs content information (video information and audio information) input from the client terminal device 6, for example. Specifically, for example, the output device 4 includes a video output unit 41 including a monitor 41a that outputs video information, an audio output unit 42 including a speaker 42a that outputs audio information, and the like.

  For example, the remote control signal light receiving unit 61 receives various remote control signals transmitted from the remote controller 5.

The wireless communication unit 62 has substantially the same configuration as the wireless communication unit 36 of the server device 3, and transmits / receives various information to / from the server device 3 via the wireless network N. Specifically, the wireless communication unit 62 conforms to an antenna 62a, an RF (Radio Frequency) converter (not shown) for transmitting and receiving wireless signals to and from the server device 3, Bluetooth standards, and IEEE 802.11 standards. A wireless LAN card (not shown) for connecting to the wireless LAN.
Specifically, the wireless communication unit 62 in the present invention receives the power-off transition notification signal transmitted from the server device 3 and also receives the power-off state notification signal transmitted from the server device 3. The wireless communication unit 62 configures a reception unit together with the CPU 641 that has executed the reception program 643a by receiving the power-off transition notification signal and the power-off state notification signal.

  For example, the decoder 63 decodes the content received by the wireless communication unit 62 in accordance with an instruction from the control unit 64 and outputs the decoded content to the output device 4.

  For example, as shown in FIG. 2, the control unit 64 includes a CPU 641, a RAM 642, a ROM 643, and the like.

  The CPU 641 performs various control operations in accordance with various processing programs for the client terminal device 6 stored in the ROM 643.

  The RAM 642 includes a program storage area for expanding a processing program executed by the CPU 641, a data storage area for storing input data, a processing result generated when the processing program is executed, and the like.

The ROM 643 is a system program that can be executed by the client terminal device 6, various processing programs that can be executed by the system program, data that is used when executing these various processing programs, data of processing results that are arithmetically processed by the CPU 641, and the like. Remember. Note that the program is stored in the ROM 643 in the form of a computer readable program code.
Specifically, the ROM 643 stores, for example, a reception program 643a, a first notification program 643b, a second notification program 643c, and the like.

The reception program 643a is a program for causing the CPU 641 to realize a function of receiving the power-off transition notification signal and the power-off state notification signal transmitted from the server device 3, for example.
Specifically, the CPU 641 receives the power-off transition notification signal transmitted from the server device 3 via the wireless network N by the wireless communication unit 62 during the link with the server device 3.
Further, the CPU 641 transmits a link establishment request to the server device 3 in a state where the link with the server device 3 is disconnected. When the link establishment response is not transmitted from the server device 3 and the link establishment fails, the CPU 641 The wireless communication unit 62 receives the power-off state notification signal transmitted from the server device 3 via.
The CPU 641 functions as a reception unit by executing the reception program 643a.

The first notification program 643b is, for example, a program for realizing a function of notifying the CPU 641 that the server device 3 has shifted to the power-off state based on the reception of the power-off transition notification signal by the execution of the reception program 643a. It is.
Specifically, when the wireless communication unit 62 receives the power-off transition notification means transmitted from the server apparatus 3 by executing the above-described reception program 643a, the CPU 641 performs the processing based on the received power-off transition notification signal. 3, a display for notifying the user that the power of the server device 3 has been turned off (for example, “SERVER power off”) is displayed on the monitor 41 a of the video output unit 41.
The CPU 641 functions as first notification means (notification means) by executing the first notification program 643b.

The second notification program 643c is, for example, a program for realizing a function of notifying the CPU 641 that the server device 3 is in the power-off state based on the reception of the power-off state notification signal by the execution of the reception program 643a. It is.
Specifically, when the CPU 641 receives the power-off state notification signal transmitted from the server device 3 via the wireless communication unit 62 by executing the above-described reception program 643a, the CPU 641 is based on the received power-off state notification signal. As shown in FIG. 3, a display (for example, “SERVER power OFF” or the like) for notifying the user that the power of the server device 3 is in an off state is displayed on the monitor 41 a of the video output unit 41. These displays in the first notification program 643b and the second notification program 643c are performed based on data stored in a predetermined area of the ROM 643.
The CPU 641 functions as second notification means (notification means) by executing the second notification program 643c.

<Power-off transition notification processing by client / server system>
Next, the power-off transition notification process by the client / server system S will be described with reference to the flowchart of FIG.

This process is a process executed when a link is established between the server device 3 and the client terminal device 6 and information is transmitted and received. First, in step S <b> 1, the CPU 351 of the server device 3 monitors signal input from the remote control signal light receiving unit 31 and determines whether or not the power on / off key 2 a in the remote control 2 has been operated. If the CPU 351 determines in step S1 that the power on / off key 2a has been operated (step S1; Yes), the main power unit 33 is turned off by outputting a control signal to the main power unit 33 in step S2. To stop the power supply to all the device components of the server device 3, and in step S3, the power supply from the standby power supply 34 notifies the power-off transition notification signal of the power-off transition. Is transmitted to the client terminal device 6 via the wireless communication unit 62, and this process is terminated.
On the other hand, when the client terminal device 6 receives the power-off transition notification signal transmitted from the server device 3 in step S4, the wireless communication unit 62 receives the power-off transition notification signal in step S5, based on the received power-off transition communication signal. 3 is displayed on the video output unit 41 to notify the user that the power source 3 has been turned off, and this processing is terminated.

<Power-off status notification processing by client / server system>
Next, the processing of the server device 3 in the power-off state notification processing by the client / server system S will be described with reference to the flowchart of FIG. This process is a process executed when the server device 3 is in the power-off state and the link between the server device 3 and the client terminal device 6 is disconnected.

  The server device 3 is operated by power supply from the standby power supply unit 34, and the CPU 351 starts measuring time in step S11, and whether or not a predetermined time (for example, 1 second) has elapsed since starting measuring time in step S12. Judge whether or not. When the CPU 351 determines in step S12 that a predetermined time has elapsed from the start of timing (step S12; Yes), the CPU 351 sends a power-off state notification signal for notifying that the power is off to Based on the supply, the data is transmitted to the client terminal device 6 by the wireless communication unit 36, and the process again proceeds to step S11 to repeat the above processing.

  Next, the processing of the client terminal device 6 in the power-off state notification processing by the client / server system S will be described with reference to the flowchart of FIG.

In step S21, the CPU 641 of the client terminal device 6 monitors the signal input from the remote control signal light receiving unit 61, and determines whether or not a predetermined key for making a control request for one piece of content information has been operated on the remote control 5. . When the CPU 641 determines that a predetermined key operation has been performed on the remote controller 5 (step S21; Yes), the wireless communication unit 36 transmits a link establishment request to the server device 3 (step S22). Next, in step S23, the CPU 641 determines whether or not a link establishment response transmitted from the server device 3 has been received. If it is determined that the link establishment response has been received (step S23; Yes), the client A link is established between the terminal device 6 and the server device 3 (step S24).
On the other hand, if it is determined in step S23 that the link establishment response transmitted from the server device 3 has not been received (step S23; No), the CPU 641 repeats the determination process in step S23 until a predetermined time elapses. When the time has elapsed, the process proceeds to step S25, and it is determined whether or not the power-off state notification signal transmitted from the server device 3 has been received (step S25). When the CPU 641 determines that the power-off state notification signal is not received (step S25; No), the determination process in step S25 is repeated until the predetermined time elapses, and when the predetermined time elapses, the process ends. On the other hand, when CPU 641 determines in step S25 that the power-off state notification signal has been received (step S25; Yes), based on the received power-off state notification signal, the server device 3 is in the off state. A notification screen is displayed on the monitor 41a of the video output unit 41 (step S26), and this process is terminated.

According to the client / server system S according to the present invention described above, when the server apparatus 3 shifts to the power-off state during the link with the client terminal apparatus 6 by the execution of the power-off transition notification program 353a by the CPU 351, The standby power supply 34 transmits a power-off transition notification signal for notifying that the power-off is performed to the client terminal device 6, and the power-off state notification program 353 b is executed by the CPU 351. 34, a power-off state notification signal for notifying that the power is off is transmitted to the client terminal device 6 at a predetermined interval. Also, the client terminal device 6 receives the power-off transition notification signal and the power-off state notification signal transmitted by the execution of the power-off transition notification program 353a by the execution of the reception program 643a by the CPU 641, and receives the first notification program 643b. Is executed to notify the user that the server device 3 has shifted to the power-off state based on the reception of the power-off transition notification signal, and based on the reception of the power-off state notification signal by the execution of the second notification program 643c. The server device 3 is notified to the user that the power is off.
Therefore, the client terminal device 6 links to the server device 3 by the notification by the first notification program 643b based on the reception of the power-off transition notification signal and the notification by the second notification program 643c based on the reception of the power-off state notification signal. When it is not possible, the user can clearly recognize that the server apparatus 3 cannot be linked because the power is off.

In addition, this invention is not limited to the said embodiment, You may perform various improvement and design change in the range which does not deviate from the meaning of this invention.
For example, in the execution of the power-off transition notification program 353a, the power-off transition notification signal is transmitted to the client terminal device 6 by the power supply from the standby power supply 34 after the power supply by the main power supply 33 is stopped. As described above, the main power supply unit 33 may transmit a power-off transition notification signal before the main power supply unit 33 stops the power supply.
In addition, for example, the notification method in the execution of the first notification program 643b and the second notification program 643b is not limited to the one shown in the above embodiment, and for example, notification by voice, an LED (Light Emitting Diode) lamp, or the like. It may be.

It is a figure which shows typically the whole structure of the client server system of suitable one Embodiment to which this invention is applied. It is a block diagram which shows the principal part structure of the server apparatus which comprises the client server system of FIG. 1, and a client terminal device. It is a figure which illustrates the display of the image | video output part in execution of a 1st alerting | reporting program and a 2nd alerting | reporting program. 3 is a flowchart showing an example of an operation related to a power-off transition notification process by the client / server system of FIG. 1. 3 is a flowchart illustrating an example of an operation of a server apparatus according to a power-off state notification process by the client / server system of FIG. 1. 3 is a flowchart illustrating an example of an operation of a client terminal device according to a power-off state notification process by the client / server system of FIG. 1.

Explanation of symbols

3 Server device 34 Standby power supply (standby power supply)
351 CPU (power-off transition notification means, power-off state notification means)
353a Power-off transition notification program (power-off transition notification means)
353b Power OFF state notification program (power OFF state notification means)
6 Client terminal device 651 CPU (receiving means, first notifying means, second notifying means)
643a Receiving program (receiving means)
643b First notification program (first notification means, notification means)
643c second notification program (second notification means, notification means)
N Wireless network S Client / server system

Claims (7)

In a client / server system comprising one or more client terminal devices and a server device connected to the one or more client terminal devices via a wireless network and transmitting / receiving information,
The server device
Power off transition notifying means for transmitting to the client terminal device a power off transition notifying signal for notifying the transition to power off by a standby power source when transitioning to power off during the link with the client terminal device; ,
A power off state notification means for transmitting a power off state notification signal for notifying that the power is off by the standby power source to the client terminal device at a predetermined interval during power off,
The client terminal device
Receiving means for receiving the power-off transition notification signal transmitted by the power-off transition notification means and the power-off state notification signal transmitted by the power-off state notification means;
First notification means for notifying a user that the server device has shifted to power-off based on reception of the power-off transition notification signal by the reception means;
Second notification means for notifying a user that the server device is in a power-off state based on reception of the power-off state notification signal by the reception means;
A client-server system comprising: In a server device that transmits and receives information to or from one or more client terminal devices connected via a wireless network,
A power-off transition notification means for transmitting to the client terminal device a power-off transition notification signal for notifying the transition to power-off when shifting to power-off during the link with the client terminal device. Server device.   The server apparatus according to claim 2, wherein the power-off transition notification unit transmits the power-off transition notification signal to the client terminal apparatus before shifting to power off. The server device includes a standby power supply,
The server apparatus according to claim 2, wherein the power-off notification unit transmits the power-off transition notification signal to the client terminal apparatus by the standby power supply after transitioning to a power-off state. In a client / server system comprising one or more client terminal devices and a server device connected to the one or more client terminal devices via a wireless network and transmitting / receiving information,
The server device
Power off transition notifying means for transmitting to the client terminal device a power off transition notifying signal for notifying that the standby power is to be switched off when shifting to power off during the link with the client terminal device. Prepared,
The client terminal device
Receiving means for receiving the power-off transition notification signal transmitted by the power-off transition notification means;
Informing means for informing the user that the server device has shifted to power off based on reception of the power off transition notification signal by the receiving means;
A client-server system comprising: In a server device that transmits and receives information to or from one or more client terminal devices connected via a wireless network,
A server comprising: a power-off state notification means for transmitting a power-off state notification signal for notifying that a power-off state is made by a standby power source to the client terminal device at a predetermined interval while the power is off. apparatus. In a client / server system comprising one or more client terminal devices and a server device connected to the one or more client terminal devices via a wireless network and transmitting / receiving information,
The server device
A power off state notification means for transmitting a power off state notification signal for notifying that the power is off by a standby power source to the client terminal device at a predetermined interval during power off;
The client terminal device
Receiving means for receiving the power off state notification signal transmitted by the power off state notifying means;
Informing means for informing the user that the server device is in a power-off state based on reception of the power-off state notification signal by the receiving means;
A client-server system comprising:

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