DE19824560A1 - ISDN network communication device, communication system using an ISDN network, and power control method for the communication system - Google Patents

Description

FIELD OF THE INVENTION

The present invention relates to an ISDN network factory terminal unit, one using an ISDN network Communication system and a method for controlling one Energy for the ISDN terminal unit.

BACKGROUND OF THE INVENTION

Because of expanding networks of computer systems and the trend of their increasing complexity became one Remote access procedure for quick maintenance or support a computer by operating one Remote terminal unit provided.

To turn on / off a power for a personal computer or the like via a telephone line if accessed from a remote location on the personal computer traditionally, one (in which disclosed Japanese Patent Publication No. SHO 52-79841 of fenbarte) device for separating and extracting a Si gnals for a data receiver carrier detection circuit from Control signals from there between through a main terminal station unit remotely operated subordinate or secondary end device units and controlling an energy for the Slave terminal unit according to a binary state of the Signals and a (in Japanese Patent Laid-Open Publication No. SHO 56-159720 disclosed tax system energy for a computer system by transmission a power ON message and a power disconnect to Request message from a terminal or terminal Unit proposed to the computer system. A reception or a transmission of signals and messages between one Unit for remote operation and one unit or one System that is to be operated remotely is in this pre direction and this system through an ordinary analog Te telephone line executed.

In contrast, technology for a verb grew by using an ISDN (integrated service digi  network) instead of a new analog coin coin box line network, between ISDN network factory terminal units, such as B. computers developed. For remote control of energy for a computer or the like using this ISDN network became one Energy control unit for one connected to the ISDN network ne terminal unit proposed (the in the disclosed Japanese Patent Publication No. HEI 5-308390 is) in which subaddress information in which data on Control energy stored for a terminal unit and are set, is added to a call signal which is from a transmitting terminal unit is delivered, and according to the Subaddress information is an energy for a receiving end Unit to be controlled remotely, ON / OFF switch is tested.

In the Japanese Patent Laid-Open However, technology No. HEI 5-308390 disclosed technology must the sending terminal unit has a function of adding Subaddress information with data for controlling an energy for have a terminal unit stored therein and are set, and the energy for one can be over do not remotely control the terminal unit connected to the ISDN network unless this function is intended.

The present invention has been made to solve the problems as described above, and it's one Object of the present invention, an energy for one Computers or the like using one exist to control the signal remotely in a system for the ISDN network factory is used without any special signals or requiring data to be an energy for a computer or remote control via the ISDN network.

The ISDN network communication device 1 according to the vorlie invention, as shown in the basics of which Fig. 1 is shown, a receiving unit 11 for receiving an INFO2 signal received by the ISDN network 4 according to a call is reported or reported by another communication device 2 connected to the ISDN network 4 , or a SETUP or SETUP signal, which is a connection set-up request signal, and outputting a report on receipt of the signal and a control unit 12 for Generating a power ON signal for controlling power for a controlled device 3 according to the report of receiving the signal from the receiving unit 11 and outputting the power ON signal to the controlled device 3 .

The ISDN network communication device 1 according to the vorlie invention has, as shown in the basics of which Fig. 2 shows, a monitoring unit 13 for monitoring an INFO1 signal, one of another, via a bus 7 with the communication device 1 connected communication device 5 is transmitted start signal, and, when the INFO1 signal is received, output a report to inform the device of its receipt and a called subscriber determination unit 14 to determine if one A report of reception of an INFO2 signal is received by the receiving unit 11 at a specified timing after a report of a reception of an INFO1 signal is received by the monitoring unit 13 that the signal is a response from the ISDN network 4th to a call from another communication device 5 , and to leave the signal as it is, and also to determine when a report on an emp an INFO2 signal is received by the receiving unit 11 before a report of a reception of the INFO1 signal is received by the monitoring unit 13 , that the communication device 1 is being called, and to allow the control unit 12 to power ON Output signal.

The ISDN network communication device 1 according to the present invention comprises, as shown in Fig. 3 showing the basic thereof, a timer unit 15 for measuring a time which has passed after the power ON signal to the controlled device 3 is output, and a transmission unit 16 for continuously sending a call alerting ALARM signal to the ISDN network 4 during a time measurement by the timer unit 15 , stopping transmission of the ALARM signal when a time measurement by the timer unit 15 for at least a period of time required for the power-ON processing for the controlled device 3 is continued, and sending a CONNECT signal, which reports the completion of a connection, to the ISDN network 4 .

In the ISDN network communication device 1 according to the prior invention, as shown in the basic illustration of FIG. 4, the controlled device 3 , when the out on receipt of the energy ON signal led out energy ON -Processing ended and the normal operation release state is brought about, a state shift or state change report to the communication device 1 , and the communication device 1 has a transmitting unit 16 for the continuous transmission of the call alarming ALARM signal to the ISDN network is received 4, during a time period to after it is issued, the power-oN signal to the GE controlled device 3 until the state Wech itself maybe of the controlled device 3, stopping transmitting the alarm signal when the on the status change report from the controlled Device 3 is received and simultaneously send the CONNECT signal, which reports the completion of a connection, to there s ISDN network 4 .

The ISDN network communication device 1 according to the present invention comprises, as shown in Fig. 5 showing the basics thereof, an identifier determination unit 17 for determining an identifier specific to the other communication device 2 which is the CONSTRUCTION Signal, the identifier being contained in the CONSTRUCTION signal, a line disconnection unit 18 for disconnecting a line connected to the ISDN network 4 after the power ON signal is output to the controlled device 3 , a timer unit 15 for Measuring a time that has passed after the power ON signal is output to the controlled device 3 and a call back unit 19 for calling back the other communication device 2 according to the identifier contained in the CONSTRUCTION signal after at least one for the energy-ON processing for the controlled device 3 required time period by the timer unit 15 acc eating is.

In the ISDN network communication device 1 according to the present invention, as shown in the basic illustration of FIG. 6, the controlled device 3 outputs a status change report to the communication device 1 when the reception of the power ON Signal-executed energy-ON processing is ended and the normal operation release state is brought about, and the communication device 1 has an identifier determination unit 17 for determining an identifier that is specific to the other communication device 2 that is the CONSTRUCTION signal with the identifier included in the CONSTRUCTION signal, a line disconnection unit 18 for disconnecting a line connected to the ISDN network 4 after the power ON signal is output to the controlled device 3 , and a callback unit 19 for callback of another communication device 2 , which corresponds to the identifier contained in the CONSTRUCTION signal, if the Status change direction is received by the controlled device 3 after which the line is disconnected.

The ISDN network communication device 1 according to the present invention has, as shown in the basics of which FIG. 7 shows, an identifier determination unit 17 for determining an identifier that is specific to the other communication device 2 that is Has set up signal, the identifier being included in the set-up signal, a storage unit 101 for storing a call termination time therein beforehand, within which the line connection with the other communication device 2 can be maintained, in correlation with the identifier and also therein beforehand to store a time period for the power ON processing for the controlled device 3 , and a line connection determination unit 102 for selecting a corresponding call termination time in accordance with an identifier determined by the identifier determination unit 17 and also selecting a time period which is for the Energy ON processing for the gest The controlled device 3 is required from the storage unit 101 and also to determine whether the connected line should be kept in the connected state or disconnected according to the selected call retrieval time as well as the time required for the power-on processing.

The communication system using the ISDN network according to the present invention has, as shown in FIG. 1, the basics of which, an ISDN network 4 , a first communication device 1 and a second communication device 2 , through the ISDN network 4th may be connected to each other, and a controlled device connected to the first communication device 1 , the power ON processing therefor being controlled according to a call from the second communication device 2 , and the first communication device 1 has a receiving unit 11 for receiving against an INFO2 signal, which is a start signal from the ISDN network 4 , or a SETUP signal, which is a connection establishment request signal, according to a call from the second communication device 2 connected to the ISDN network 4 and outputted a report of reception of the signal and a control unit 12 for generating an energy ON signal for controlling energy Before for the controlled device 3 according to the report of a reception of the sent from the receiving unit 11 and outputting the signal Ener pour-on signal to the controlled device. 3

In the communication system using the ISDN network according to the present invention, as shown in FIG. 2 of the basic principles thereof, the first communication device 1 has a monitoring unit 13 for monitoring an INFO1 signal which is one of one via a bus 7 is the third communication device 5 connected to the first communication device 1 , and, when the INFO1 signal is received, output a report of reception of the signal and a called party determination unit 14 to determine if a report upon receipt of an INFO2 signal from the receiving unit 11 of the first communication device 1 at a specified timing, after a report on receipt of the INFO1 signal from the monitoring unit 13 is received that the signal is a response from the ISDN Network 4 is on a call from the third communication device 5 , and leaving the signal as it is, and also for determining when a report of reception of the INFO2 signal is received by the reception unit 11 before a report on reception of the INFO1 signal is received by the monitoring unit 13 that the first communication device 1 is being called, and outputting the INFO2 signal reception report to the control unit 12 for the first communication device 1 .

In the communication system using the ISDN network according to the present invention, as shown in FIG. 3 of which the basic principles are shown, the first communication device 1 has a timer unit 15 for measuring a time that has passed after the power ON -Si signal is output to the controlled device 3 , and a transmission unit 16 for continuously sending a call alerting ALARM signal to the ISDN network 4 during a time measurement by the timer unit 15 and also stopping a transmission of the ALARM signal when time measurement by the timer unit 15 is continued for at least a period of time required for the power ON processing for the controlled device 3 , and sending a CONNECT signal indicating a connection completion report to the ISDN network 4 .

In the communication system using the ISDN network according to the present invention, as shown in FIG. 4 of which the basic principles are shown, the controlled device 3 has a status change reporting unit 31 to switch when receiving the power ON signal executed energy-ON processing is ended and the normal operation release state is brought about, to issue a report on the change of state to the first communication device 1 , and the first communication device 1 has a transmitting unit 16 for continuously transmitting one Call the alarming ALARM signal to the ISDN network 4 for a period of time after the power ON signal is output to the controlled device 3 until the status change report is received from the controlled device 3 , stopping transmission of the ALARM signal when the state change report is received by the controlled device 3 and sending a CONNECT signal that completion of a connection is reported to the ISDN network 4 .

In the communication system using the ISDN network according to the present invention, as shown in FIG. 8 of which the basic principles are shown, at least one of the first communication device 1 and the second communication device 2 has a line separation unit 18 or 21 for disconnecting a connected line on after the first Kom munikationsgerät 1, the power oN signal outputs to the controlled device 3, and the second communication device 2 has a timer unit 22 for measuring a time, the cation unit through the first communica after output of the power-on signal 1 has elapsed, and a recall unit 23 for recalling the first communication device 1 when the time measurement by the timer unit 22 has continued for at least a period of time required for the power-on processing for the controlled device 3 . In this invention, if there are a plurality of remotely controlled devices, a memory unit 24 is provided in the second communication device 2 to previously store therein a time required for completion of power-on processing for each controlled device 3 , and the time required for completion or completion of the power-on processing corresponding to one of the controlled devices called by the second communication device 2 is selected from the storage part 24 , and a measurement of a time by the timer unit 22 continues until a time reaches the selected time.

In the communication system using the ISDN network according to the present invention, as shown in FIG. 5 of which the basic principles are shown, at least one of the first communication device 1 and the second communication device 2 has a line disconnection unit 18 for disconnecting a connected line, after the first communication device 1 outputs the power ON signal to the controlled device 3 , and the first communication device 1 has an identifier determination unit 17 for determining an identifier specific to the second communication device 2 that is the CONSTRUCTION Signal, with the identifier included in the CONSTRUCTION signal, a timing unit 15 for measuring a time that has passed after the power ON signal is output to the controlled device 3 , and a recall unit 19 for recalling the second communication device 2, according to the identifier contained in the CONSTRUCTION signal, whom n a time measurement is carried out by the timer unit 15 during a time period which is required at least for the energy-ON processing for the controlled device 3 .

In the communication system using the ISDN network according to the present invention, as shown in FIG. 6 of which the basic principles are shown, the controlled device 3 has a state change reporting unit 31 to switch when receiving the power ON signal executed energy-ON processing ended and the normal operation release state is brought about to issue a status change report to the first communication device 1 , and has either the first communication device 1 or the second communication device 2 a line separation unit 18 or 21 for separating a line connected to after the first communication apparatus 1 outputs the power oN-Si gnal to the controlled device 3, and further, the first communication apparatus 1 an identifier He averaging unit 17 for determining an identifier on which the second Communication device 2 is specific, which has issued the ASSEMBLY signal, the Ident ifizie rer is included in the CONSTRUCTION signal, and a callback unit 19 for recalling the second communication device 2 corresponding to the identifier in the CONSTRUCTION signal when the status change report is received by the controlled device 3 after the line is disconnected.

In the communication system using the ISDN network according to the present invention, as shown in FIG. 7 of the basic principles thereof , the first communication device 1 has an identifier determination unit 17 for determining an identifier which is used for the second communication device 2 specifically, which has issued the CONSTRUCTION signal, the identifier being contained in the CONSTRUCTION signal, a storage unit 101 for storing a call termination time therein within which the line connection state is maintained for the second communication device 2 , in correlation to an identifier and also to previously store therein a time period required for the power ON processing for the controlled device 3 and a line connection determination unit 102 for selecting a call termination time corresponding to the identifier given by the Identifier determination unit 17 was determined, and e time required for the power-on processing for the controlled device 3 from the storage unit 101 and also for determining whether the connected line should be kept in the connected state or disconnected, according to the selected call abort time as well time required for energy ON processing.

In the method for controlling energy for a communication system using the ISDN network according to the present invention, in order to activate energy for a communication between a first communication device and a second communication device which can be connected to one another by the ISDN network To control the controlled device 3 connected to the first communication device in accordance with a call from the second communication device, the method has a step in which the second communication device calls the first communication device, a step in which the first communication device receives an INFO2 signal, which is a start signal reported by the ISDN network, or a SETUP signal, which is a connection set-up request signal, according to a call from the second communication device, and a step in which the first communication device receives a power ON signal to control activation of an energy for the gest generated device and outputting an energy ON signal to the ge controlled device.

In the process of controlling energy for one Communication system using ISDN network according to present invention monitors the first communication area always recommends receiving the INFO1 signal, which is one of one  connected to the first communication device via a bus third communication device is transmitted start signal, and the step of outputting the power ON signal has one Step up in which it is determined if the INFO2 signal with a specified timing is received after the INFO1 signal is received that the signal has a response from the ISDN network on a call from the third communication cation device, and when the INFO2 signal is received, before the INFO1 signal is received that the first communication kationsgerät is called, a step in which nothing is done if it is determined that the signal a response from the ISDN network to a call from the third communication device, and a step in which an energy ON signal is generated and sent to the controlled device tion is output when it is determined that the first com communication device is being called.

The procedure for controlling an energy for a communication cation system according to the present invention has a Step in which the controlled device transfers the energy ON processing upon receipt of the power ON signal executes after the first communication device the Ener outputs power ON signal to the controlled device, one Step in which, on the other hand, the first communication device, after the first communication device the power ON signal outputs a measurement of a to the controlled device Time that has passed after the first commu device outputs the energy ON signal, one step, in which the first communication device is constantly making a call alarming ALARM signal during a measurement of the elapsed time to the ISDN network, and a step in which the first communication device when timing is carried out for a period of time that for at least the Power ON processing for the controlled device transmission of the ALARM signal stops and also a CONNECT signal that reports a full indicates the end of a connection that sends to the ISDN network.

Use the procedure to control an ISDN network the communication system according to the present invention has a step in which the controlled device  the energy ON processing upon receipt of the energy Executes ON signal after the first communication area advises the power ON signal to the controlled device gives a step in which the controlled device one Status change report to the first communication device returns when the normal operation release state is reached leads after the energy-on processing for the ge controlled device is finished, a step in which the first communication device continuously a call alar lubricating ALARM signal to the ISDN network after the first communication device sends the energy ON signal to the controlled device outputs, and a step in which the first communication device a transmission of the ALARM signal stops when the state change report is controlled by the Device is received and a CONNECT signal indicating a Completion of a connection reported to the ISDN network sends.

The method of controlling energy for an ISDN network communication system using the factory according to the present The present invention has a step in which at least either the first communication device or the second commu nication device disconnects a connected line after the first communication device the energy ON signal to the ge controlled device outputs a step in which the two te communication device takes a measurement of a time that has elapsed after the first communication device Power ON signal and a step in which the second communication device the first communication device like who or calls after a time measurement at least for a period of time that is executed for the Power ON processing for the controlled device is required.

The method of controlling energy for an ISDN network communication system using the plant according to the present Invention has a step in which the first Communication device after receiving the CONSTRUCTION signal identifies an identifier for the second communication specific device that outputs the ASSEMBLY signal the identifier is contained in the CONSTRUCTION signal,  a step in which either the first communication device or the second communication device has a connected line disconnects after the first communication device Outputs an ON signal to the controlled device Step in which the first communication device measures a time which has passed after the power ON signal has gone out ben, and a step in which the first communication the second communication device corresponds to the im CONSTRUCTION signal contained identifiers if one Time measurement is carried out for a period of time at least for the energy ON processing for the controlled pre direction is required.

The method of controlling energy for an ISDN network communication system using the plant according to the present The present invention has a step in which the control device upon receipt of the power ON signal towards the power-on processing after the first Communication device sends the energy ON signal to the controlled Device outputs a step in which the controlled Device a status change report to the first commu nic device outputs when the normal operation release state is brought about after the energy-ON processing end is a step in which the first communication device after receiving the CONSTRUCTION signal Identifier identified for the second communication is specific to the device that issued the CONSTRUCTION signal, the identifier being contained in the CONSTRUCTION signal, ei a step in which at least either the first communication onsgerät or the second communication device a connected Line disconnects after the first communication device Outputs power ON signal to the controlled device, and a step in which the first communication device the two te communication device according to that in the ASSEMBLY signal held identifier calls back when controlled by the Device the change of state report is received after the line is disconnected.

The method of controlling energy for an ISDN network communication system using the plant according to the present Invention has a step in which the first  Communication device after receiving the CONSTRUCTION signal identifies an identifier for the second communication specific device that outputs the ASSEMBLY signal the identifier is contained in the CONSTRUCTION signal, and a step in which the first communication device corresponding call termination time according to the determined Identifiers as well as a time period that selects for the power ON processing for the controlled device is required, and according to the selected call termination time and the time required for the power-on processing period determines whether the connected line is connected Condition should be kept or separated.

Other objects and features of this invention will be apparent from the following description with reference to the enclosed Understand drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is the first diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 2 is the second diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 3 is the third diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 4 is the fourth diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 5 is the fifth diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 6 is the sixth diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 7 is the seventh diagram showing the principle of the ISDN network communication device and the communication system using the ISDN network according to the present invention;

Fig. 8 is the eighth diagram showing the principle of the communication system using the ISDN network according to the present invention;

Fig. 9 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 1;

Fig. 10 is an explanatory diagram for explaining a communication state when connection of a line begins in the ISDN network system specified in the prescribed format;

Fig. 11 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 9;

Fig. 12 is a block diagram showing another example of the ISDN communication system illustrated in the diagram of Fig. 1;

Fig. 13 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 12;

Fig. 14 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 2;

Fig. 15 is a flowchart showing an example of processing for the power remote control method in the communication system shown in Fig. 14;

Fig. 16 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 3;

Fig. 17 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 16;

Fig. 18 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 4;

Fig. 19 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 18;

Fig. 20 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 8;

Fig. 21 is a block diagram illustrating an example of processing for the remote power control method in the communication system shown in Fig. 20;

Fig. 22 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 5;

Fig. 23 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 22;

Fig. 24 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 6;

Fig. 25 is a flowchart showing an example of the processing for the power remote control method in the communication system shown in Fig. 24;

Fig. 26 is a block diagram showing an example of the ISDN communication system illustrated in the diagram of Fig. 7; and

FIG. 27 is a flowchart illustrating an example of the processing for the power remote control method in the communication system shown in FIG. 26.

DESCRIPTION OF THE PREFERRED EMBODIMENT

In the following, a detailed description will be for from EMBODIMENTS of the ISDN network communication device that an ISDN network-use communication system and a Ver drive for controlling a power for the communication system according to the present invention with reference to Fig. 9 to Fig. Version 27.

FIG. 9 shows an example of the ISDN communication system illustrated in the diagram of FIG. 1. It should be noted that components with the same configuration or equivalent functions as those shown in Fig. 1 are assigned the same reference numerals.

In embodiment 1, as shown in FIG. 9, a second communication device operated by an operator (not shown in the figure) is an ISDN-compatible digital telephone 2 . A controlled device which is remotely controlled by this ISDN-compatible digital telephone 2 via the ISDN network 4 is a personal computer 3 . A first communication device provided between the ISDN network 4 and the personal computer 3 is an internal ISDN card 1 , which is a type of an improved card with a function of connecting to the ISDN network 4 and is built into the personal computer 3 .

The internal ISDN card 1 has a receiving part 11 and a control part 12 . The receiving part 11 receives an INFO2 signal reported by the ISDN network 4 according to a call from the ISDN-compatible digital telephone 2 and outputs to the control part 12 a report of a reception of the signal (signal reception report). The control part 12 receives the signal reception report sent from the reception part 11 , generates an energy ON signal for controlling an energy for the personal computer 3, and outputs the energy ON signal to an energy control part 32 for the personal computer 3 . It is assumed herein that electrical energy is always supplied to the internal ISDN card 1 separately from the energy for the main body of the computer controlled by the energy control part 32 .

The personal computer 3 , when the power control part 32 has received the power-on signal, automatically changes to a power-on state when the power is off, and brings about a normal operation release state and returns to a standby state or an energy saving or energy consumption state called sleep automatically returns to the normal operation release state.

Fig. 10 shows a communication state when a line connection is started in the ISDN network system defined by a prescribed format. First, the sending communication device (in this embodiment, the ISDN-compatible digital telephone 2 ) sends an INFO1 signal, which is one of start signals, to the ISDN network 4 to the receiving communication device (in this embodiment, the internal ISDN card 1 ) to call. An INFO2 signal is sent back from the ISDN network 4 to the call. The sending de communication device then sends an INFO3 signal to the ISDN network 4 , and an INFO4 is sent back from the ISDN network 4 . With these communication processes, the sending communication device sends a connection establishment (SETUP) signal to the ISDN network 4 .

The ISDN network 4 then sends an INFO2 signal to the receiving communication device, and the receiving communication device sends an INFO3 signal back to the ISDN network 4 . The INFO4 signal and the connection establishment (SETUP) signal are then successively output from the ISDN network 4 , and the receiving communication device successively receives these signals, which detects a connection of a line full. It should be noted that each of the INFO1 through -4 and connection establishment (SETUP) signals is a previously defined signal in the communication system using the ISDN network.

FIG. 11 shows an example of processing for an energy remote control method in the communication system shown in FIG. 9. It should be particularly noted that processing carried out in the sending communication device (in this embodiment, the ISDN-capable digital telephone 2 ) and processing in the receiving communication device (in this embodiment, the internal ISDN card 1 ) are carried out in the figure are written in consideration of a correlation in terms of the time in between. When the power of the personal computer 3 is OFF, the receiving communication device is initially in a waiting state for the INFO2 signal (step S111).

When the sending communication device calls the receiving communication device in this state (step 211), the receiving part 11 of the receiving communication device receives the INFO2 signal from the ISDN network 4 and outputs a report of receipt of the signal to the control part 12 . The control section 12 generates a power ON signal when the signal reception portion is received and outputs the signal to the power control section 12 for the computer 3 (step S112). With this operation, the power or the power supply of the computer 3 is turned ON. The same effect is obtained when the personal computer 3 returns from the power consumption state to the normal operation release state.

In Embodiment 1, the INFO2 signal is an existing signal in the ISDN network system, and for this reason, the power for the computer 3 can be controlled remotely even if there is no special function for sending a signal specific to a remote control or the like to an ISDN Suitable digital telephone 2 is added, which is used for remote operation by an operator.

In embodiment 1, a timing control for outputting a signal from the ISDN network 4 to the internal ISDN card 1 is faster with the INFO2 signal than e.g. B. a CONSTRUCTION signal provided, which will be described later in an embodiment 2, so that an activation of the computer 3 and a return from its energy consumption state can be carried out with egg ner faster timing.

This is extremely effective in view of the fact that a time within which a line connection state can be maintained with the ISDN network 4 , ie a call drop-off time, is generally limited to one minute and sometimes a case occurs when there is a call by an ISDN-compatible digital telephone 2, it takes more than a few seconds to output a SETUP signal if a line is not in good condition to be connected.

FIG. 12 shows another example of the ISDN communication system illustrated in the diagram of FIG. 1. It should be noted that components with the same configuration or equivalent functions as those shown in FIG. 1 are assigned the same reference numerals.

In embodiment 2, as shown in FIG. 12, the second communication device operated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The device controlled remotely over the ISDN network 4 by this personal computer 2 with built-in ISDN card is a dial-up router 3 . The first communication device with a function of a connection to the ISDN network 4 is a line control part 1 of the dialing communication server 3 .

The line control part 1 has a receiving part 11 and a control part 12 . The receiving part 11 receives a SETUP signal reported by the ISDN network 4 in accordance with a call from the personal computer 2 with an installed ISDN card and outputs a report to the control part 12 about a reception of the signal (signal reception report).

The control part 12 receives the signal reception report sent from the reception part 11 , generates an energy ON signal for controlling an energy for the main body of the dialing communication server, and outputs the power ON signal to an energy control part 32 for the dialing communication server 3 . Herein, it is assumed that, separately from the power for the main body of the dial communication server 3 controlled by the power control part 32, electrical power is always supplied to the line control part 1 .

The dial-up communication server 3 , when the power control part 32 has received the power-on signal, automatically changes to a power-on state when the power is off, and brings about and returns to the normal operation enable state Time of its energy consumption state automatically returns to the normal operation release state.

FIG. 13 shows an example of processing for a power remote control method in the communication system shown in FIG. 12. It should be particularly mentioned that in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and in the receiving communication device (in this embodiment, a line control part 1 ), processing performed in the figure in view of a timeline correla tion are written in between. When the power of the main body of the dialing communication server is OFF, the receiving communication device is first in a waiting state for the SETUP signal (step S121).

When the sending communication device calls the receiving communication device in this state (step S221), the receiving part 11 of the receiving communication device receives the SETUP signal from the ISDN network 4 and outputs to the control part 12 a report of reception of the signal. When the signal reception report is received, the control part 12 generates an energy ON signal and outputs the signal to the energy control part 32 of the dial communication server 3 (step S122). With this operation, the power of the main body of the dial-up communication server is turned ON. The same operation is also carried out when the dial-up communication server 3 returns from the power consumption state to the normal operation release state.

In Embodiment 2, the CONSTRUCTION signal is a signal existing in the ISDN network system, and for this reason, the power of the dial-up communication server 3 can be controlled remotely even if there is no special function for sending a signal specific for remote control or the like a personal computer 2 with a built-in ISDN card is added, which is used by an operator for remote operation.

FIG. 14 shows an example of the ISDN communication system illustrated in the diagram of FIG. 2. It should be noted that components with the same configuration or equivalent functions as those shown in FIG. 2 are assigned the same reference numerals.

In an embodiment 3, as shown in FIG. 14, the second communication device actuated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The controlled device, which is remotely controlled via the ISDN network 4 by this personal computer 2 with a built-in ISDN card, is a personal computer 3 . The first communication device with a function of a connection to the ISDN network 4 is a terminal or terminal adapter 1 . In this system, in addition to the terminal adapter 1, an ISDN-compatible digital telephone 5 can be connected to the ISDN network 4 via an external bus 7 .

The terminal adapter 1 has a receiving part 11 , a control part 12 and a transmitting part 16 . The receiving part 11 receives an INFO2 signal reported by the ISDN network 4 in accordance with a call from the personal computer 2 with an integrated ISDN card and outputs a report to the control part 12 on receipt of the signal (signal reception report).

The transmitting part 16 monitors an INFO1 signal which is output in response to the fact that an ISDN-compatible digital telephone 5 , which is a different type of communication device, any communication device (not shown in the figure) other than the communication device Adapter 1 calls and, when the INFO1 signal is received, reports to the control unit 12 that it has received the INFO1 signal. Accordingly, the transmission part 16 has a function as a monitoring unit. It should be particularly mentioned that the reason why the transmitting part 16 is used as a monitoring unit is because a line to be used therefor is different from that for the receiving part 11 .

The control unit 12 receives the report of a reception of the INFO2 signal sent by the receiving part 11 and also determines whether the terminal adapter 1 is called by the INFO2 signal sent by the ISDN network 4 or not, according to the question, whether or not the INFO1 signal is received by the transmitting part 16 immediately before receiving the INFO2 signal reception report.

Accordingly, the control part 12 has a function as a called subscriber determination unit. The control unit 12 , when it is determined that the terminal adapter 1 is being called, generates a power-on signal for controlling power for the computer 3 and outputs the power-on signal to the computer 3 . Herein it is assumed that at the end device adapter 1 electrical energy is always supplied.

The computer 3 has a COM-I / F part 33 , which is an interface of a connection with the terminal adapter 1 , an energy part 34 , a CPU 35 and a storage device, which is not shown in the figure, and these Parts are connected to a bus 36 in the computer 3 . When an energy ON signal is received from the control part 12 of the terminal adapter 1, the COM-I / F part 33 outputs an interruption signal to the energy part 34 via a signal line 37 intended for the interruption signal.

The power part 34 has a power ON circuit (not shown) which is kept in an operation enable state by always being supplied with electric power. The power part 34 automatically turns ON the main body of the computer when the interrupt signal is received from the COM-I / F part 33 from the power OFF state with the power ON circuit (not shown) to the normal -Operation release state, and automatically returns to the normal operation release state when the computer is in a power consumption state.

FIG. 15 shows an example of processing for a power remote control method in the communication system shown in FIG. 14. It should be particularly mentioned that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the terminal adapter 1 ) are executed in the processing Figure are written in between regarding a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is first in a wait for the INFO1 signal and INFO2 signal (step S131).

When the sending communication device calls the receiving communication device in this state (step 231 ), the receiving part 11 of the receiving communication device receives the INFO2 signal from the ISDN network 4 and issues a report of receipt of the INFO2 signal to the control unit 12 out. The control part 12 determines, when the INFO2 signal reception report is received, whether or not the reception part 11 received the INFO1 signal immediately before the received INFO2 signal (step S132).

If it is determined that the INFO1 signal is not received immediately before the INFO2 signal is received, it is determined that the INFO2 signal received is a signal sent from the ISDN network 4 , which indicates that the personal computer 2 with the built-in ISDN card called the terminal adapter 1 . The control part 12 then generates a power ON signal and outputs the signal to the COM-I / F part 33 of the computer 3 (step S133). With this operation, the interrupt signal is received by the power part 34 for the computer 3 , which turns ON the power of the main body of the computer.

On the other hand, if it is determined that the INFO1 signal has been received directly before receiving the INFO2 signal, it is determined that the received INFO2 signal is a response signal from the ISDN network 4 due to the fact that the ISDN suitable digital phone 5 as another communication device calls another communication device (not shown) and sends an INFO1 signal, and the signal is left as it is, and the processing returns to step S131. The case in which the signal is left as it is corresponds to the time as shown more concretely in FIG. 10 when the INFO2 signal (the second signal from the top on the left, shown in FIG. 10) is sent back by the ISDN network 4 in response to the INFO1 signal sent by the sending communication device immediately before its transmission is carried out.

When the sending communication device sends the INFO1 signal and the receiving communication device receives the INFO2 signal (the first signal on the right side, shown in Fig. 10), which was output from the ISDN network 4 there after a transmission and reception of the INFO2 to -4 and connection establishment (SETUP) signals between the sending communication device and the ISDN network 4 are carried out, the processing on FIG. 10 also changes to processing for outputting a reception on FIG Power ON signal in step S133. The same processing is also carried out in the case where the computer 3 returns from the power consumption state to the normal operation release state.

In Embodiment 3, the energy can for Compu be remotely controlled ter 3 even if no special radio tion for transmitting a signal that is specific for a remote control or the like, a personal computer 2 with built-in ISDN card is added, and also may prevents the power part for the computer 3 from being operated erroneously as a result of the INFO2 signal reported by the ISDN network 4 in response to the INFO1 signal according to a call from another ISDN-compatible digital telephone 5 , connected by a LAN (local area network) or the like.

FIG. 16 shows an example of the ISDN communication system illustrated in the diagram of FIG. 3. It should be noted that the components with the same configuration or equivalent functions as those shown in FIG. 3 are assigned the same reference numerals.

In an embodiment 4, as shown in FIG. 16, the second communication device actuated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The controlled device, which is remotely controlled via the ISDN network 4 by this personal computer 2 with a built-in ISDN card, is a personal computer 3 . The first communication device with the function of a connection to the ISDN network 4 is a terminal adapter 1 .

The terminal adapter 1 has a receiving part 11 , a control part 12 , a transmitting part 16 and a timer part 15 . The receiving part 11 receives an INFO2 signal, which is reported by the ISDN network 4 according to a call from the personal computer 2 with built-in ISDN card, and outputs a report of reception of the signal (signal reception report) to the control part 12 .

The control section 12 receives the INFO2 signal reception report sent from the receiving section 11 , generates an energy ON signal for controlling an energy for the computer 3, and outputs the energy ON signal to the computer 3 . The transmitting part 16 sends a call alarming ALARM signal as well as a CONNECT signal, which reports the completion of a connection, to the ISDN network 4 .

The timer part 15 measures a time that has passed after the power ON signal is output to the computer 3 , and may have either a hardware timer or a software timer. A time required for a measurement of a time (a timing of the timer) to be completed by the timer part 15 is within a call cancellation time (generally one minute) of the ISDN network 4 to the time required for the operation erfor is sary with which the computer 3 from the power-off state to the power-oN state will change, or the time the default for which is required for the operation, with which the computer 3 from the power consumption state to the Nor male operation -Release status returns. It is assumed here that the terminal adapter 1 is always supplied with electrical energy.

The configuration and effects of the computer 3 are the same as those of the computer 3 in the embodiment 3 , so the description thereof is omitted here.

FIG. 17 shows an example of processing for a power remote control method in the communication system shown in FIG. 16. It should be particularly mentioned that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the terminal adapter 1 ) are executed in the processing Figure are written in between regarding a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is initially in a waiting state for a trigger or trigger signal (INFO2 signal or SETUP signal) (step S141).

When the sending communication device calls the receiving communication device in this state (step S241), the receiving part 11 of the receiving communication device receives the trigger signal from the ISDN network 4 and gives a message or a report of receipt of the trigger signal to the control part 12 out. The control part 12 generates a power ON signal when the signal reception report is received and outputs the signal to the COM-I / F part 33 for the computer 3 . At the same time, the timer part 15 starts time measurement (step S142). With the output of the power ON signal, an interrupt signal is received by the power part 34 for the computer 3 , and the main body of the computer then starts the power ON processing.

The transmitting part 16 then continuously sends an ALARM signal to the ISDN network 4 until the measurement of a time by the timer part 15 is completed after the power ON signal is output (step S144). At a time when the measurement of a time by the timer part 15 is completed (step S143), the transmitting part 16 stops outputting the ALARM signal and sends a CONNECT signal to the ISDN network 4 (step S145). With the transmission of this CONNECT signal are a line of the personal computer 2 with built-in ISDN card and that of the terminal adapter. 1 connected to each other via the ISDN network 4 , and the personal computer 2 with a built-in ISDN card and the computer 3 are connected to each other (step S242).

It should be particularly noted that the time required for a timing measurement to be completed by the timer section 15 , as described above, to the time required for the operation that the computer 3 takes from the power OFF. State changes to the power ON state, or is preset to the time required for the operation by which the computer 3 returns from the power consumption state to the normal operation release state, so that the computer 3 at that time when the CONNECT signal is transmitted is already in the normal operation enable state. The same effect is also obtained in the case where the computer 3 returns from the power consumption state to the normal operation release state.

With the embodiment 4, the power for the computer 3 can be remotely controlled even if no special function for sending a signal specific to remote control or the like is added to a personal computer 2 with an ISDN card built in, and also the invention according to embodiment 4 is effective when the time required for the power-on processing for the computer 3 is shorter than the call termination time (generally one minute) for the ISDN network 4 , and furthermore particularly effective when the computer 3 is not designed to output a report of its moving or its change to the normal operation release state to the terminal adapter 1 .

FIG. 18 shows an example of the ISDN communication system illustrated in the diagram of FIG. 4. It should be noted that the components with the same configuration or equivalent functions as those shown in FIG. 4 are assigned the same reference numerals.

In an embodiment 5, as shown in FIG. 18, the second communication device operated by an operator (not shown in the figure) is a personal computer 2 with a built-in ISDN card. The controlled device, which is remotely controlled via the ISDN network 4 by this personal computer 2 with a built-in ISDN card, is a personal computer 3 . The first communication device with the function of a connection to the ISDN network 4 is a terminal adapter 1 .

The terminal adapter 1 has a receiving part 11 , a control part 12 and a transmitting part 16 . The receiving part 11 receives an INFO2 signal reported by the ISDN network 4 according to a call from the personal computer 2 with an installed ISDN card and outputs a report of a reception of the signal (signal reception report) to the control part 12 .

The control section 12 receives the INFO2 signal reception report sent from the receiving section 11 , generates an energy ON signal for controlling an energy for the computer 3, and outputs the energy ON signal to the computer 3 . The transmitting part 16 sends a call alarming ALARM signal as well as a CONNECT signal, which reports the completion of a connection, to the ISDN network 4 .

The computer 3 has a COM-I / F part 33 , an energy part 34 , a CPU 35 , a memory device which is not shown in the figure, and a status change part 31 , and these parts are on a bus 36 connected in the computer 3 . The state change report part 31 outputs a state change report when the main body of the computer automatically changes from the power OFF state to the power ON state, and brings about the normal operation release state by a power ON signal from End device adapter 1 is received, or when the main body of the computer automatically returns from the power consumption state to the normal operation release state.

The output status change report is sent via the bus 36 in the computer 3 and the COM-I / F part 33 to the control part 12 of the terminal adapter 1 . The configuration and effects of both the power part 34 and the CPU 35 are the same as those in the embodiment 3, so the description thereof is omitted here.

FIG. 19 shows an example of processing for a power remote control method in the communication system shown in FIG. 18. It should be particularly mentioned that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the terminal adapter 1 ) are executed in the processing Figure are written in between regarding a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is initially in a waiting state for a trigger signal (INFO2 signal or CONSTRUCTION signal) (step S151).

When the sending communication device calls the receiving communication device in this state (step S251), the receiving part 11 of the receiving communication device receives the trigger signal from the ISDN network 4 and outputs a report of reception of the signal to the control part 12 . The control part 12 generates a power ON signal when the signal reception is received and outputs the signal to the COM-I / F part 33 for the computer 3 , and at the same time waits for a state change report from the computer 3 (Step S152). With the output of the power ON signal, an interrupt signal is received by the power part 34 for the computer 3 , and the main body of the computer then starts the power ON processing.

The transmitting part 16 then continuously sends an ALARM signal to the ISDN network 4 until the control part 12 receives the status change report from the computer 3 (step S154). At a time when the control part 12 receives the status change report (step S153), the transmission part 16 stops outputting the ALARM signal and sends a CONNECT signal to the ISDN network 4 (step S155). With the transmission of this CONNECT signal, a line of the personal computer 2 with a built-in ISDN card and that of the energy adapter 1 are connected to one another via the ISDN network 4 , and the personal computer 2 with a built-in ISDN card and the computer 3 are connected to one another connected (step S252).

It should be particularly noted that in this case, the time required for an operation with which the computer 3 changes from the power-off state to the power-on state or the time for an operation is required, with which the computer 3 returns from the energy consumption state to the normal operation release state, lies within a call interruption time (generally one minute) for the ISDN network 4 . The same effect is also obtained in the case where the computer 3 returns from the power consumption state to the normal operation release state.

With embodiment 5, the power for the computer 3 can be remotely controlled even if no special function for sending a signal specific to a remote control or the like is added to a personal computer 2 with a built-in ISDN card, and the invention According to Embodiment 5, it is also effective if the time required for the power-on processing for the computer 3 is shorter than the call termination time (generally one minute) for the ISDN network 4 .

FIG. 20 shows an example of the ISDN communication system illustrated in the diagram of FIG. 8. It should be noted that the components with the same configuration or equivalent functions as those shown in Fig. 8 are assigned the same reference numerals.

In an embodiment 6, as shown in FIG. 20, the second communication device actuated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The controlled device, which is remotely controlled via the ISDN network 4 by this personal computer 2 with a built-in ISDN card, is a personal computer 3 . The first communication device, which is seen between the ISDN network 4 and the personal computer 3 , is an ISDN card 1 , which has a function of a connection to the ISDN network 4 and is installed in the personal computer 3 .

The configuration and effects of the internal ISDN card 1 and the personal computer 3 are the same as those in the embodiment 1, so the description thereof is omitted here.

The personal computer 22627 00070 552 001000280000000200012000285913251600040 0002019824560 00004 32508L <with built-in ISDN card has a transmission part 25, a timer part 22 and a non-volatile memory part (memory) 24. The transmitting part 25 outputs an INFO1 signal for calling the internal ISDN card 1 for the computer 3, a REL-COM signal as a signal for disconnecting a line and an INFO1 signal for calling the internal ISDN card 1 again to the ISDN network 4. Accordingly, the transmission part 25 has functions such as a line separation unit 21 as well as a recall unit 23. It should be particularly mentioned that a line separation unit 18 (see FIG. 18) can be provided in the internal ISDN card 1. The timer section 22 outputs a power ON signal to the power control section 32 for the computer 3 and measures a time that has passed after the line is disconnected, and may have either the hardware timer or the software timer. The storage part 24 previously stores therein within the call abort time (generally one minute) for the ISDN network 4 a time required for the computer 3 to receive the power-on signal until the power-on processing is completed is. The timer 22 constantly measures a time for this stored time, namely, until the time reaches a time required for an operation in which the main body of the computer 3 changes from the power-off state to the power-on state , or a time required for the operation at which the computer returns from the power consumption state to the normal operation release state. FIG. 21 shows an example of processing for a power remote control method in the communication system shown in FIG. 20. It should be noted that processing in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the internal ISDN card 1) are executed in the processing Figure are written in between with respect to a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is first in a waiting state for a trigger signal (INFO2 signal or CONSTRUCTION signal) (step S161). When the sending communication device calls the receiving communication device in this state (step S261), the receiving part 11 of the receiving communication device receives the trigger signal from the ISDN network 4 and outputs a report of reception of the signal to the control part 12. The control part 12 generates a power ON signal when the signal reception report is received, and outputs the signal to the power control part 32 for the computer 3 (step S162). With this operation, the main body of the computer 3 starts the power-on processing. On the other hand, when the power ON signal is output to the power control part 32 for the computer 3, the sending communication device outputs the REL-COM signal and disconnects a line. At the same time, the sending communication device reads out a suitable time for a timer to expire from the storage part 24, and measurement of a time is started by the timer part 22 (step S262). This time measurement continues until the time reaches the time read out from the memory part 24 when the time expires in the timer. If the timing expires in the timer (step S263), the sending communication device calls the receiving communication device again (step S264). The main body of the computer 3 is in the normal operation release state at the time when the processing reaches this re-calling, so that the receiving communication device receives an incoming call according to the re-call from the sending communication device (step S163). With this operation, a line of the personal computer 2 with built-in ISDN card and that of the internal ISDN card 1 via the ISDN network 4 are connected to each other, and the personal computer 2 with built-in ISDN card and the computer 3 are connected to each other (Step S265). The same effect is also obtained in the case where the computer returns from the power consumption state to the normal operation release state. With the embodiment 6, the power for the computer 3 can be remotely controlled even if no special function for sending a signal specific to remote control or the like is added to a personal computer 2 with an ISDN card built in, and if there are several remote-controlled terminals, such as B. Computer 3, which are connected to the ISDN network 4, it is also not necessary for him to provide the same number of timer parts each in the computer 3, because only one unit of the timer part 22 is sufficient, so that the system is economical is. With embodiment 6, when a time period for the power-on processing for the computer 3 is longer than the call termination time (generally one minute) for the ISDN network 4, a line is disconnected once, which causes the line charge is blocked or suppressed. FIG. 22 shows an example of the ISDN communication system illustrated in the diagram of FIG. 5. It should be noted that the components with the same configuration or equivalent functions as those shown in Fig. 5 are assigned the same reference numerals. In an embodiment 7, as shown in FIG. 22, the second communication device operated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The controlled device, which is remotely controlled by this personal computer 2 with a built-in ISDN card via the ISDN network 4, is a personal computer 3. The first communication device with a function of a connection to the ISDN network 4 is an end device adapter 1. The terminal adapter 1 has a receiving part 11, a control part 12, a transmitting part 16 and a timer part 15. The receiving part 11 receives a STRUCTURE signal reported by the ISDN network 4 according to a call from the personal computer 2 with an installed ISDN card and outputs a report of a reception of the signal (signal reception report) to the control part 12. The control part 12 receives the signal reception report sent from the reception part 11, generates a power ON signal for controlling power for the personal computer 3, and outputs the power ON signal to the computer 3. The control section 12 also receives a CONSTRUCTION signal from the receiving section 11 and extracts an identifier specific to the personal computer 2 with built-in ISDN card, which is a calling subscriber and is contained in the CONSTRUCTION signal. The control part 12 accordingly has a function as an identifier determination unit 17. The identifier is e.g. B. a telephone number of a calling subscriber. The transmitting part 16 sends a REL-COM signal, which is a signal to cut or disconnect a line to the ISDN network 4, and for this reason has a function as a line separation unit 18. It should be particularly mentioned that the Line separation unit 18 (see FIG. 5) can be provided in the personal computer 2 with a built-in ISDN card. The transmitting part 16 has a callback function for calling the calling subscriber, namely the personal computer 2 with a built-in ISDN card, which forms a callback means 19. The timer portion 15 measures a time that has passed after the power ON signal is output to the computer 3 or after the line is disconnected, and may have either a hardware timer or a software timer. A time required for the completion of a time measurement (a timing of the timer) by the timer portion 15 is the time required for the operation by which the computer 3 went from the power-off state to the Power ON state changes, or is preset to the time required for the operation with which the computer 3 returns from the power consumption state to the normal operation release state. Here it is assumed that the terminal adapter 1 is always supplied with electrical energy. The configuration and effects of the computer 3 are the same as those of the computer 3 in the embodiment 3, so the description thereof is omitted here. FIG. 23 shows an example of processing for a power remote control method in the communication system shown in FIG. 22. It should be particularly mentioned that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the terminal adapter 1) are executed in the processing Figure are written in between regarding a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is first in a waiting state for a trigger signal (INFO2 signal or CONSTRUCTION signal) (step S171). When the sending communication device calls the receiving communication device in this state (step S271), the receiving part 11 of the receiving communication device receives the SETUP signal from the ISDN network 4 and outputs a report of reception of the signal to the control part 12. The control part 12 generates a power ON signal when the signal reception report is received and outputs the signal to the COM-I / F part 33 for the computer 3. With the output of the power ON signal, an interruption signal is received by the power part 34 for the computer 3, and then the main body of the computer starts the power ON processing. With the output of the energy ON signal, the control part 12 also extracts an identifier, such as. B. a telephone number specific to the calling subscriber, from the STRUCTURE signal for a determination. The identified identifier is stored in the control part 12 or in an external storage device (not shown in the figure) for the control part 12. At the same time, the receiving communication device disconnects the line, and the timer part 15 starts timing (step S172). The sending communication device enters a waiting state for receiving a recalled incoming call after the line is disconnected (step S272). The receiving communication device then, at the time when the time measurement by the timer part 15 is completed (step S173), calls back the sending communication device according to the previously determined identifier (step S174). With this recall, a line of the personal computer 2 with built-in ISDN card and that of the terminal adapter 1 via the ISDN network 4 are connected with each other, and the personal computer 2 with built-in ISDN card and the computer 3 are connected to each other (step S273 ). It should be particularly noted that the time required for a timing measurement by the timer part 15 to be completed, as described above, to the time required for the operation that the computer 3 takes from the power OFF. State changes to the power ON state, or is preset to the time required for the operation with which the computer 3 returns from the power consumption state to the normal operation release state, so that the computer 3 at that time is already in the normal operation release state when the callback is executed. The same effect can also be obtained in the case where the computer 3 returns from the power consumption state to the normal operation release state. With the embodiment 7, the power for the computer 3 can be remotely controlled even if no special function for sending a signal specific to remote control or the like is added to a personal computer 2 with built-in ISDN card, and if one Time period for the power-ON processing for the main body of the computer 3 is longer than the call termination time (generally one minute) for the ISDN network, a line is also disconnected once, causing the line fee to be blocked or suppressed , and further, it is also effective when the main body of the computer 3 does not output a report indicating to the terminal adapter 1 that it has changed to the normal operation release state. FIG. 24 shows an example of the ISDN communication system illustrated in the diagram of FIG. 6. It should be noted that components with the same configuration or equivalent functions as those shown in FIG. 6 are assigned the same reference numerals. In an embodiment 8, as shown in FIG. 24, the second communication device actuated by an operator (not shown in the figure) is a personal computer 2 with a built-in ISDN card. The controlled device, which is remotely controlled by this personal computer 2 with a built-in ISDN card via the ISDN network 4, is a dial-up communication server 3. The first communication device with a function of connecting to the ISDN network 4 is a line control part 1 in the dial-up communication server 3. The line control part 1 has a receiving part 11, a control part 12 and a transmitting part 16. Both the configuration and the effects of the receiving part 11, the control part 12 and the transmitting part 16 are the same as those in the embodiment 7, so that the description thereof is omitted here. It is assumed herein that, separately from the power for the main body of the dial communication server controlled by the power control part 32, electrical power is always supplied to the line control part 1. The power control part 32 in the dial communication server 3 has a state change report part 31. This state change report part 31 outputs a state change report when the main body of the dial communication server automatically goes from the power OFF state to the power ON state changes and brings about the normal operation release state by receiving a power ON signal from the line control part 1, or when the main body of the dial-up communication server automatically returns from the power consumption state to the normal operation release state. FIG. 25 shows an example of processing for a power remote control method in the communication system shown in FIG. 23. It should be particularly noted that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the line control part 1) are executed in the figure in FIG Considering a timeline correlation is written in between. When the power of the main body of the dialing communication server is OFF, the receiving communication device is first in a waiting state for a trigger signal (INFO2 signal or CONSTRUCTION signal) (step S181). When the sending communication device calls the receiving communication device in this state (step S281), the receiving part 11 of the receiving communication device receives the SETUP signal from the ISDN network 4 and outputs a report of receipt of the signal to the control section 12. The control part 12 generates, when the Signalempfangsbe direction is received, an energy ON signal and outputs the signal to the energy control part 32 of the dialing communication server 3. With the output of the power-on signal, the main body of the dial-up communication server starts the power-on processing. With the output of the power ON signal, the control section 12 also extracts an identifier, such as. B. a phone number, which is specific for the calling subscriber, from the STRUCTURE signal for a determination. The ascertained identifier is stored in the control part 12 or in an external storage device (not shown in the figure) for the control part 12. At the same time, the receiving communication device disconnects the line and is in a waiting state for the displacement or change report from the change of state report part 31 (step S182). The sending communication device, on the other hand, enters a waiting state for receiving a recalled incoming call after the line is disconnected (step S282). Then, at the time when the change report is received from the state change reporting part 31 (step S183), the receiving communication device calls back the sending communication device according to the identifier previously determined (step S184). With this recall, a line of the personal computer 2 with a built-in ISDN card and that of the line control part 1 for the dialing communication server are connected to one another via the ISDN network 4, and the personal computer 2 with a built-in ISDN card and the dialing communication server 3 connected to each other (step S283). It should be noted that the dial communication server 3 has been in the normal operation release state by the time the callback is made. The same effect can also be obtained in the case where the dial-up communication server 3 returns from the power consumption state to the normal operation release state. With the embodiment 8, the power for the dial-up communication server 3 can be remotely controlled even when there is no special function for sending a signal specific to remote control or the like added to a personal computer 2 with a built-in ISDN card, and, if a time period for the power ON processing for the dial-up communication server 3 is longer than the call abort time (generally one minute) for the ISDN network 4, a line is also disconnected once, which causes the line fee to be blocked is suppressed. FIG. 26 shows an example of the ISDN communication system illustrated in the diagram of FIG. 7. It should be noted that components with the same configuration or equivalent functions as those shown in Fig. 7 are assigned the same reference numerals. In embodiment 9, as shown in FIG. 26, the second communication device operated by an operator (not shown in the figure) is a personal computer 2 with an integrated ISDN card. The controlled device, which is remotely controlled via the ISDN network 4 by this personal computer 2 with a built-in ISDN card, is a personal computer 3. The first communication device with a function of connecting to the ISDN network 4 is a terminal adapter 1 , and it is assumed that the terminal adapter 1 is always supplied with electrical energy. The terminal adapter 1 has a receiving part 11, a control part 12, a transmitting part 16, a storage part 101 and a line connection determination part 102. Both the configuration and the effects of the receiving part 11 and control part 12 are the same as those in the embodiment 7, so that the description thereof is omitted here. The transmitting part 16 sends an ALARM signal for alarming a call, a CONNECT signal, which reports the completion of a connection, a REL-COM signal as a signal for disconnecting the line to the ISDN network 4. Accordingly, the transmitting part 16 a function as a line separation unit. The storage part 101 previously stores a call cancellation time for the personal computer 2 with built-in ISDN card, which is a calling subscriber, in correlation to an identifier and also previously stores therein a time period for the power-on processing for the computer 3 The line connection determination part 102 selects a call termination time corresponding to the calling party according to the identifier obtained by the control part 12, and also selects a period of time required for the power-on processing for the computer 3, and also determines whether the connected line should be kept in the connected state or should be disconnected according to the selected call cancellation time and also the time required for the power-on processing. Namely, when the time required for the power-on processing for the computer 3 is shorter than the call termination time (generally within one minute) for the personal computer 2 with the built-in ISDN card, the terminal adapter 1 sends constantly sends an ALARM signal to the ISDN network 4 until the computer 3 is in the normal operation release state and sends a CONNECT signal instead of the ALARM signal when the computer 3 is in the normal operation release state is, and lines are connected to each other. If the time required for the power-on processing for the computer 3 is longer than the call termination time (generally within one minute) for the personal computer 2 with the ISDN card installed, it is impossible for a connection between the lines within the Call termination time for the personal computer 2 with built-in ISDN card is completed, so that the terminal adapter 1 sends a REL-COM signal to the ISDN network 4 and disconnects the line. The configuration and effects of the computer 3 are the same as those of the computer 3 in the embodiment 3, so the description thereof is omitted here. FIG. 27 shows an example of processing for a power remote control method in the communication system shown in FIG. 26. It should be particularly mentioned that processing performed in the sending communication device (in this embodiment, the personal computer 2 with built-in ISDN card) and processing in the receiving communication device (in this embodiment, the terminal adapter 1) are executed in the processing Figure are written in between considering a time axis correlation. When the power of the main body of the computer 3 is OFF, the receiving communication device is initially in a waiting state for a trigger signal (INFO2 signal or CONSTRUCTION signal) (step S191). When the sending communication device calls the receiving communication device in this state (step S291), the receiving part 11 of the receiving communication device receives a SETUP signal from the ISDN network 4 and outputs a report of receipt of the signal to the control section 12. The control part 12 generates, when the Signalempfangsbe direction is received, a power ON signal and outputs the signal to the COM-I / F part 33 for the computer 3. With the output of the power ON signal, an interrupt signal is received by the power part 34 for the computer 3, and the main body of the computer then starts the power ON processing. With the output of the power ON signal, the control section 12 also extracts an identifier, such as. B. a phone number, which is specific for the calling subscriber, from the STRUCTURE signal for a determination. The determined identifier is stored in the control part 12 or in an external storage device (not shown in the figure) for the control part 12 (step S192). The receiving communication device selects a call cancellation time for the calling subscriber from the storage part 101 according to the determined telephone number or the like for the calling subscriber as well as a time period which takes place for the operation of the computer 3 from the power OFF state to the power ON state. State is required, or a time period for its operation from the power consumption state to the normal operation release state for the storage part 101. The line connection determination part 102 then determines whether the computer 3 is in the normal operation release state within the call termination time (in generally within one minute) may or may not change by comparing the selected call cancellation time with the time required for the power-on processing for the computer 3 (step S193). If it is determined that the computer 3 can change to the normal operation release state within the call termination time, the receiving communication device issues an ALARM signal to the ISDN network 4 (step S194) and, if the computer 3 enters the Normal operation enable state is changed (step S195), instead of the ALARM signal, a CONNECT signal from there (step S196). The sending communication device, on the other hand, determines that the computer 3 is being called because the line is connected while the ALARM signal is being output from the receiving communication device (step S292). With the output of the CONNECT signal from the receiving communication device in step S196, a line of the personal computer 2 with built-in ISDN card and that of the terminal adapter 1 are connected to one another, and the personal computer 2 with built-in ISDN card and the computer 3 are connected to each other (step S293). The receiving communication device, if it is determined in step S193 that it is impossible for the computer 3 to change to the normal operation release state within the call termination time, outputs a REL-COM signal to the ISDN network 4 and disconnects it Line (step S197). If the computer 3 has changed to the normal operation release state (step S198), the receiving communication device calls back the transmitting communication device and connects the line (step S199). On the other hand, because the computer 3 is not called due to a line disconnection (step S292), the sending communication device is in a waiting state for a recalled incoming call (step S294). When the receiving communication device is connected to the personal computer 2 with built-in ISDN card by calling back in step S199, the personal computer 2 with built-in ISDN card and the computer 3 are connected to each other (step S295). The same effect will be obtained in the case where the computer 3 returns from the energy consumption state to the normal operation release state. With the embodiment 9, the power for the computer 3 can be remotely controlled even if no special function for sending a signal specific to a remote control or the like is added to a personal computer 2 with a built-in ISDN card, and also can The fact that the connection can not be made quickly, the personal computer 2 with built-in ISDN card be directed. It should be particularly noted that it should be understood that the present invention can vary the construction in various ways in addition to the above embodiments. A combination of the sending communication device, the receiving communication device, and the controlled device can also be changed to combinations other than those in the embodiments. With the present invention, the INFO2 signal or the CONSTRUCTION signal in the ISDN network system is an existing one of the signal, and for this reason, the power of a controlled device can be remotely controlled even if there is no special function for sending one for remote control or the same specific signal is added to the second communication device that an operator uses for remote control. This application is based on Japanese Patent Application No. HEI 9-287083, which was filed with the Japanese Patent Office on October 20, 1997, the entire contents of which are hereby incorporated by reference. Although the invention has been described in terms of a specific embodiment for a complete and clear disclosure, the appended claims are not to be so limited but are to be interpreted to embrace all modifications and alternative constructions that are obvious to those skilled in the art and more or less covered by the basic teaching set forth herein.

Claims (23)

1. ISDN network communication device with:
a receiving unit for receiving an INFO2 signal, which is a start signal, which is reported by the ISDN network according to a call from another communication device connected to the ISDN network, or a SETUP signal, which is a connection establishment request signal and outputting a report of reception of the signal; and
a control unit for generating an energy ON signal for controlling energy for a controlled device according to the report of receiving the signal from the receiving unit and outputting the energy ON signal to the controlled device. 2. ISDN network communication device according to claim 1, with:
a monitoring unit for monitoring an INFO1 signal, which is a start signal sent from another communication device connected to the communication device via a bus, and, when the INFO1 signal is received, outputting a report to show that To notify the device of its receipt; and
a called party determination unit for determining when a report of reception of an INFO2 signal is received by the reception unit at a specified timing after a report of reception of an INFO1 signal is received by the monitoring unit that the signal is a response from the ISDN network to a call from another communication device, and leave the signal as it is, and also to determine when a report of reception of an INFO2 signal is received by the receiving unit before a report is received by receiving the INFO1 signal from the monitoring unit, that the communication device is called, and Ge permit that the control unit outputs a power ON signal. 3. ISDN network communication device according to claim 1 with:
a timer unit for measuring a time that has passed after the power ON signal is output to the controlled device; and
a transmitting unit for continuously sending an ALARM signal alerting a call to the ISDN network during a time measurement by the timer unit, stopping transmission of the ALARM signal if a time measurement is continued by the timer unit for at least one period of time that for the Power ON processing is required for the device being controlled and sending a CONNECT signal, indicating completion of a connection, to the ISDN network. 4. The ISDN network communication device according to claim 1, wherein the controlled device when the power-ON processing which is carried out upon receipt of the power-on signal ends and the normal operation release state is brought about , issues a status change report to the communication device, and
the communication device has a transmitting unit for continuously sending the ALARM signal alerting a call to the ISDN network for a period of time after the power ON signal is output to the controlled device until the status change report is received by the controlled device, Stopping transmission of the ALARM signal when the change of state report is received from the controlled device and at the same time sending the CONNECT signal, which signals the completion of a connection, to the ISDN network. 5. ISDN network communication device according to claim 1 with:
an identifier determination unit for determining an identifier specific to the other communication device that has issued the CONSTRUCTION signal, the identifier being contained in the CONSTRUCTION signal,
a line separation unit for disconnecting a line connected to the ISDN network after the power ON signal is output to the controlled device,
a timer unit for measuring a time that has passed after the power ON signal is output to the controlled device, and
a recall unit for recalling the other communication device in accordance with the identifier contained in the CONSTRUCTION signal after at least a period of time required for the power ON processing for the controlled device has been measured by the timer unit . 6. The ISDN network communication device according to claim 1, wherein the controlled device outputs a status change report to the communication device when the power ON processing executed upon receipt of the power ON signal ends and the normal operation release condition is brought about,
the communication device has an identifier determination unit for determining an identifier which is specific for the other communication device which has issued the SETUP signal, the identifier being contained in the SETUP signal,
a line disconnection unit for disconnecting a line connected to the ISDN network after the power ON signal is output to the controlled device, and
a recall unit for recalling another communication device corresponding to the identifier contained in the CONSTRUCTION signal when the state change report is received by the controlled device after the line is disconnected. 7. ISDN network communication device according to claim 1 with:
an identifier determination unit for determining an identifier specific to the other communication device that has issued the CONSTRUCTION signal, the identifier being contained in the CONSTRUCTION signal,
a storage unit for previously storing therein a call drop time within which the line connection with the other communication device can be maintained, in correlation to the identifier and also previously storing a time period for the power-on processing for the controlled device, and
a line connection determination unit for selecting an appropriate call termination time according to an identifier determined by the identifier determination unit and also selecting from the storage unit a time period required for the power-on processing for the controlled device and also for determining whether the connected one Line should be kept in the connected state or disconnected, according to the selected call termination time as well as the time required for the power ON processing. 8. Communication system using the ISDN network with:
an ISDN network,
a first communication device and a second communication device, which can be connected to one another through the ISDN network, and
a controlled device connected to the first communication device, the power ON processing therefor being controlled according to a call from the second communication device, wherein the first communication device comprises:
a receiving unit for receiving an INFO2 signal, which is a start signal reported by the ISDN network, or a SETUP signal, which is a connection establishment request signal, according to a call from the second communication device connected to the ISDN network and output a report of receipt of the signal; and
a control unit for generating an energy ON signal for controlling an energy for the controlled device according to the report of a reception of the signal sent by the receiving unit and outputting the energy ON signal to the controlled device. 9. The communication system using the ISDN network according to claim 8, wherein the first communication device comprises:
a monitoring unit for monitoring an INFO1 signal, which is a start signal sent from a third communication device connected to the first communication device via a bus, and outputting a report of reception of the signal when the INFO1-Si gnal is received; and
a called party determination unit for determining when a report of reception of an INFO2 signal is received by the reception unit of the first communication device at a specified timing after a report of reception of the INFO1 signal is received by the monitoring unit, that the signal is a response from the ISDN network to a call from the third communication device and leaving the signal as it is, and also to determine when a report of receipt of the INFO2 signal is received by the receiving unit, before a report of receipt of the INFO1 signal is received from the monitoring unit, that the first communication device is called, and allow the control unit of the first communication device to output a power ON signal. 10. A communication system using the ISDN network according to claim 8, wherein the first communication device comprises:
a timer unit for measuring a time elapsed after the power ON signal is output to the controlled device; and
a transmitting unit for continuously sending an ALARM signal alerting a call to the ISDN network during a time measurement by the timer unit and also stopping a transmission of the ALARM signal if a time measurement is continued by the timer unit for at least one period of time that for the Power ON processing is required for the controlled device and sending a CONNECT signal, indicating a report of completion of a connection, to the ISDN network. 11. The communication system using the ISDN network according to claim 8, wherein the controlled device comprises a state change reporting unit for outputting a state change report to the first communication device when receiving the power ON signal executed power ON processing is ended and the normal operation release state is established; and
the first communication device comprises a transmitting unit for continuously sending an ALARM signal alerting to a call to the ISDN network for a period of time after the power ON signal is output to the controlled device until the status change report is received by the controlled device, Stopping transmission of the ALARM signal when the change of state report is received from the controlled device and sending a CONNECT signal to complete the connection to the ISDN network. 12. The communication system using the ISDN network according to claim 8, wherein at least one of the first communication device and the second communication device includes a line disconnection unit for disconnecting a connected line after the first communication device transmits the power ON signal to the controlled device issues; and
the second communication device has:
a timer unit for measuring a time elapsed after an output of the power ON signal by the first communication device; and
a re-call unit for re-calling the first communication device when a time measurement by the timer unit continues at least for a period of time required for the power-on processing for the controlled device. 13. A communication system using the ISDN network according to claim 8, wherein at least one of the first communication device and the second communication device has a line disconnection unit for disconnecting a connected line after the first communication device transmits the power ON signal to the controlled device outputs, and that he has the first communication device:
an identifier determining unit for determining an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the SETTING signal;
a timer unit for measuring a time elapsed after the power ON signal is output to the controlled device; and
a recall unit for recalling the second communication device in accordance with the identifier contained in the CONSTRUCTION signal when time measurement by the timer unit is carried out for a period of time required at least for the power-on processing for the controlled device. 14. The communication system using the ISDN network according to claim 8, wherein the controlled device comprises a state change reporting unit for outputting a state change report to the first communication device when the energy is performed upon receipt of the power ON signal -A processing ended and the normal operation release state is established;
at least one of the first communication device and the second communication device has a line disconnection unit for disconnecting a connected line after the first communication device outputs the power ON signal to the controlled device, and also has the first communication device:
an identifier determination unit for determining an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the CONSTRUCTION signal; and
a recall unit for recalling the second communication device corresponding to the identifier in the CONSTRUCTION signal when the change of state report is received from the controlled device after the line is disconnected. 15. A communication system using the ISDN network according to claim 8, wherein the first communication device comprises:
an identifier determination unit for determining an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the CONSTRUCTION signal;
a storage unit for previously storing therein a call cancellation time within which the line connection state is maintained for the second communication device in correlation to an identifier and also previously storing therein a period of time required for the power-on processing for the controlled device; and
a line connection determination unit for selecting from the storage unit a call cut-off time corresponding to the identifier determined by the identifier determination unit and a time required for the power-on processing for the controlled device, and also for determining whether the connected line is in the connected state should be kept or disconnected according to the selected call cancellation time as well as the time required for the power ON processing. 16. A method for controlling an energy for a communication system using the ISDN network in order to activate an energy for the in the tenrich transmissions between a first communication device and a second communication device that can be connected by the ISDN network to control the first communication device connected controlled device according to a call from the second communication device, the method comprising:
a step in which the second communication device calls the first communication device;
a step in which the first communication device receives an INFO2 signal, which is a start signal reported by the ISDN network, or a SETUP signal, which is a connection set-up request signal, according to a call from the second communication device; and
a step in which the first communication device generates an energy ON signal for controlling activation of an energy for the controlled device and outputting the energy ON signal to the controlled device. 17. A method of controlling power for a communication system using the ISDN network according to claim 16, wherein the first communication device always monitors reception of the INFO1 signal, which is a start signal sent from a third communication device is connected to the first communication device via a bus; and the step of outputting the power ON signal comprises:
a step of determining when the INFO2 signal is received at a specified timing after the INFO1 signal is received, that the signal is a response from the ISDN network to a call from the third communication device, and, if the INFO2 signal is received before the INFO1 signal is received, the first communication device is being called;
a step in which nothing is done if it is determined that the signal is a response from the ISDN network to a call from the third communication device; and
a step in which a power ON signal is generated and output to the controlled device when it is determined that the first communication device is being called. 18. A method for controlling energy for a communication system according to claim 16 comprising:
a step in which, after the first communication device outputs the power-on signal to the controlled device, the controlled device performs power-on processing upon receipt of the power-on signal;
a step in which, on the other hand, the first communication device after the first communication device outputs the power ON signal to the controlled device performs a measurement of a time that has passed after the first communication device outputs the power ON signal;
a step in which the first communication device constantly sends a call alerting ALARM signal to the ISDN network during a measurement of the elapsed time;
and
a step in which the first communication device, when timing is performed for a period of time required for at least the power-on processing for the controlled device, stops transmitting the ALARM signal and also a CONNECT signal indicating a Be notifies of completion of a connection to the ISDN network. 19. A method of controlling a communication system using the ISDN network according to claim 16, comprising:
a step in which, after the first communication device outputs the power-on signal to the controlled device, the controlled device performs power-on processing upon receipt of the power-on signal;
a step in which, when the normal operation enable state is established after the power ON processing for the controlled device is finished, the controlled device outputs a change of state report to the first communication device;
a step in which the first communication device continuously sends a call alerting ALARM signal to the ISDN network after the first communication device outputs the power ON signal to the controlled device; and
a step in which, when the change of state report is received by the control device, the first communication device stops transmitting the ALARM signal and sends a CONNECT signal reporting a connection completion to the ISDN network. 20. A method for controlling energy for a communication system using the ISDN network according to claim 16, comprising:
a step in which at least one of the first communication device and the second communication device disconnects a connected line after the first communication device outputs the power ON signal to the controlled device;
a step in which the second communication device performs a measurement of a time that has passed after the first communication device outputs the power ON signal; and
a step in which the second communication device calls the first communication device again after a measurement of a time is carried out at least for a period of time required for the power-on processing for the controlled device. 21. A method for controlling energy for a communication system using the ISDN network according to claim 16, comprising:
a step in which, after the CONSTRUCTION signal is received, the first communication device determines an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the CONSTRUCTION signal;
a step in which either the first communication device or the second communication device disconnects a connected line after the first communication device outputs the power ON signal to the controlled device;
a step in which the first communication device measures a time that has passed after the power ON signal is output; and
a step in which the first communication device calls back the second communication device in accordance with the identifier contained in the CONSTRUCTION signal when a time measurement is carried out for a period of time that is at least required for the power-on processing for the controlled device. 22. A method for controlling energy for a communication system using the ISDN network according to claim 16, comprising:
a step in which the controlled device executes the power-on processing upon receipt of the power-on signal after the first communication device outputs the power-on signal to the controlled device;
a step in which, when the normal operation release state is established after the power-on processing is finished, the controlled device outputs a state change report to the first communication device;
a step in which, after the CONSTRUCTION signal is received, the first communication device determines an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the CONSTRUCTION signal;
a step in which at least one of the first communication device and the second communication device disconnects a connected line after the first communication device outputs the power ON signal to the controlled device; and
a step in which the first communication device calls back the second communication device according to the identifier contained in the CONSTRUCTION signal when the state change report is received by the controlled device after the line is disconnected. 23. A method for controlling energy for a communication system using the ISDN network according to claim 16, comprising:
a step in which, after the CONSTRUCTION signal is received, the first communication device determines an identifier specific to the second communication device that has issued the CONSTRUCTION signal, the identifier being included in the CONSTRUCTION signal; and
a step in which the first communication device selects a corresponding call abort time in accordance with the determined identifier, as well as a time period which is required for the power-on processing for the controlled device, and in accordance with the selected call abort time and that for the power-in Processing time required determines whether the connected line should be kept in the connected state or disconnected.