JP2009199455A - Network management server, program, network, and power management method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network management server capable of performing power supply control regardless of the type of apparatus without causing a risk of wrong detection of a network failure. <P>SOLUTION: A power management system 1 has a network management server 3, a power supply control instruction switch 7a, and a power supply apparatus 11a, which are connected to each other via a network 5 to which a control object apparatus 9a and the like are connected. When the power supply control instruction switch 7a is turned on, the power management system 1 transmits power supply control information. The network management server 3 identifies the power supply control instruction switch of a sender, and selects the correspondent control object apparatus and procedures for power supply control and monitoring control. The network management server 3 determines from the use situation of the control object apparatus whether the power supply control is to be performed or not. When the power supply control is to be performed, the network management server 3 monitors the control object apparatus, and instructs the power supply apparatus to control power supply. The power supply apparatus does (or does not) perform the power supply to the correspondent control object apparatus. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a network management server, a program for causing the network management server to function, a network management method using the network management server, and a network management system.

  In recent years, with the development of communication technology, a technology for remotely managing other terminal devices using a server or the like via a network or the like has been developed.

  For example, a technique called “Wakeup-On-LAN” is known as a technique for remotely managing ON / OFF of power of other terminal apparatuses.

  Wakeup-On-LAN is a technique for controlling ON / OFF of a power supply of a terminal device on a LAN (local area network) using another terminal device connected via the LAN.

  For example, FIG. 3 of Patent Document 1 discloses a technique for turning on power according to a certain schedule in a terminal device having a Wakeup-On-LAN function (Patent Document 1).

JP 2002-44177 A

  However, in such a system, when the terminal that is the target of power control is the target of network monitoring, if the power is turned off, the monitoring device may erroneously detect the power cut as a network failure. There was a problem that it was necessary to stop monitoring on the management side in advance.

  Also, in such a system, a device that does not have a Wakeup-On-LAN function, specifically, a wireless access point installed on the ceiling, a control target device (network device) installed below the floor, a router, L2 There is a problem that it cannot be applied to the / L3 switch or the like.

  The present invention has been made in view of such problems, and its purpose is to provide a power supply that can cause remote detection of a network failure and can be remotely controlled regardless of the type of apparatus. To provide a management server.

  In order to achieve the above-described object, the first invention is a network management server that performs monitoring and power control on a control target device that is connected to a network and receives power supply from a power supply device connected to the network. A control policy database having information relating to power control of the control target device, a control target device that performs power control and monitoring with reference to the control policy database, and a procedure for power control and monitoring to the control target device A selecting means for selecting, a judging means for confirming whether or not the power supply control is possible by confirming the usage status of the selected control target device, and the control target selected by the selecting means based on the judgment of the judging means Management means for monitoring the device, and the power supply device corresponding to the device to be controlled based on the judgment of the judgment means And a power control instruction means for instructing the power control of a network management server, characterized in that it comprises a.

  The second invention is a program for operating a computer as the network management server described in the first invention.

  A third invention is a network and power supply management method using the network management server described in the first invention.

  A fourth invention includes a network management server that monitors a control target device connected to a network, and a power supply device that is connected to the network management server via the network and supplies power to the control target device. The server includes a control policy database having information related to power control of the control target device, a control target device that performs power control and monitoring with reference to the control policy database, and power control to the control target device A selection means for selecting a monitoring procedure, a determination means for confirming whether or not the power supply control is possible by confirming the usage status of the selected control target device, and the selection means based on the determination by the determination means. Management means for monitoring the selected control target device, and corresponding to the control target device based on the judgment of the judgment means Power control instruction means for instructing power supply to the power supply device, and the power supply device turns on / off the power to the control target device based on the power control instruction from the server. A power management system comprising power ON / OFF means for performing power supply.

  According to the present invention, it is possible to provide a power management system that does not cause a false detection of a network failure and can perform remote power control regardless of the type of device.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail based on the drawings.

  First, a schematic configuration of a power management system 1 according to an embodiment of the present invention will be described with reference to FIG.

  As shown in FIG. 1, the power management system 1 includes a network management server 3 that performs monitoring and power (remote) control of control target devices 9a, 9b, 13a, and 13b, which will be described later, and power control that indicates power ON / OFF. Power supply control instruction switches 7a and 7b for transmitting information to the network management server 3, control target devices 9a and 9b, and power supply devices 11a and 11b for supplying power to the control target devices 13a and 13b are provided. 5 is connected.

  Furthermore, controlled devices 9a, 9b, 13a, and 13b that are monitored and controlled by the network management server 3 are connected to the network 5.

  Specifically, the network management server 3 is a device having a hardware configuration to be described later.

  The power control instruction switches 7a and 7b are physical switches, for example, but the structure is not particularly limited as long as the power control information can be transmitted by turning the switches ON and OFF.

  As long as the power supply devices 11a and 11b can supply power to the control target devices 9a and 9b and the control target devices 13a and 13b, the structure is not particularly limited, and the power supply devices 11a and 11b are connected to the control target device like the power supply device 11a. It may be a structure that only supplies power, or may be a power supply type network device that also has a function of connecting the device to be controlled to the network 5 like the power supply device 11b. The structure of the power supply devices 11a and 11b will be described later.

  The control target devices 9a, 9b, 13a, and 13b are devices that receive power control by the power management system 1, and are connected to the network 5 and receive power supply from the power supply devices 11a and 11b connected to the network 5. If so, the structure is not particularly limited.

  For example, not only a terminal device such as a computer but also a HUB (hub), a router, a wireless access point, and the like may be used.

  Next, an example of the hardware configuration of the devices constituting the power management system 1 will be described with reference to FIGS.

  The structure of the power control instruction switches 7a and 7b is as described above, and a description thereof is omitted.

  First, the hardware configuration of the network management server 3 will be described with reference to FIGS.

  As shown in FIG. 2, the network management server 3 periodically uses the Internet Control Message Protocol (ICMP) and the Simple Network Management Protocol (SNMP) to periodically supply power supply devices 11 a and 11 b and a control target device (network device) 9 a. , 9b, 13a, 13b, a network state management unit 205 as a management unit for performing state monitoring, a power control unit 206 as a power control instruction unit for issuing a power control instruction to the power supply devices 11a, 11b, A control determination unit 204 is included as a determination unit that controls driving of the network state management unit 205 and the power supply control unit 206.

  Furthermore, the network management server 3 is connected to the control target devices (network devices) 9a, 9b, 13a, 13b and the power supply devices 11a, 11b to be monitored, and information on the procedure for power control, that is, power control Control policy database 203, which is a database having information on the control policy, control policy search unit 202 as a selection means for searching the control policy database 203, power control information transmitted from the power control instruction switches 7a and 7b, and transmission A receiving unit for analyzing the original and a power control information receiving unit 201 as the analyzing unit are included.

  As shown in FIG. 3, the control policy database 203 is switch name information 210 that is information indicating a power control instruction switch connected to the network 5, and a control target device that is information indicating a control target device corresponding to the power control instruction switch. Information 211, information on procedures for performing power control and monitoring control of the control target device, specifically, a power supply device corresponding to the control target device (a power supply device connected to the control target device) and a control procedure (method) ) Has control procedure information 212, which is information relating to ().

  Next, an example of the hardware configuration of the power supply devices 11a and 11b will be described with reference to FIGS.

  As shown in FIG. 4, in the power supply device 11a, a control unit 41, a storage unit 45, a communication unit 49, a power supply unit 47, and the like are connected to each other via a bus 32a.

  The control unit 41 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and is connected to each device via the bus 32a according to a program stored in the storage unit 45. Is controlled.

  The power supply unit 47 supplies power to the connected control target devices 9a and 9b.

  The storage unit 45 stores a control program 101a for driving and controlling each component of the power supply device 11a.

  The communication unit 49 is a part that communicates with other devices via the network 5, and is connected to the network 5 via a cable 49a.

  On the other hand, as shown in FIG. 5, the power supply device 11b includes a control unit 61, a storage unit 65, a communication unit 69, port input / output units (power supply units) 63a and 63b, and the like connected to each other via a bus 32b. Yes.

  The control unit 41 drives and controls each device connected via the bus 32b in accordance with a program stored in the storage unit 65.

  The port input / output units (power supply units) 63 a and 63 b are parts for supplying power to the control target devices 13 a and 13 b and connecting the control target devices 13 a and 13 b to the network 5.

  In other words, the power supply device 11b not only supplies power to the control target devices 13a and 13b, but also has a function as a relay for connecting to the network 5.

  The storage unit 65 stores a control program 101b for driving and controlling each component of the power supply device 11b.

  The communication unit 69 is a part that communicates with other devices via the network 5 and is connected to the network 5 via a cable 69a.

  Next, an example of the hardware configuration of the control target devices 9a, 9b, 13a, and 13b will be described with reference to FIG.

  As described above, the hardware configurations of the control target devices 9a, 9b, 13a, and 13b are connected to the network 5 and receive power from the power supply devices 11a and 11b connected to the network 5. In particular, the structure is not limited.

  That is, not only a terminal device such as a computer but also a HUB (hub), a router, a wireless access point, or the like may be used.

  For example, as shown in FIG. 6, the hardware configuration when the control target device 9a is a HUB includes a control unit 51, a storage unit 55, a communication unit 59, port input / output units 53a, 53b, and 53c via a bus 32c. Are connected to each other.

  The control unit 51 drives and controls each device connected via the bus 32c in accordance with a program stored in the storage unit 55.

  The port input / output units 53 a, 53 b, and 53 c are ports for connecting other terminal devices (not shown) to the network 5.

  The communication unit 59 is a part that communicates with other devices via the network 5, and is connected to the network 5 via a cable 59a.

  Note that details of the storage unit 55 are omitted.

  Next, the operation of the power management system 1 will be described with reference to FIGS.

  First, an outline of the operation of the entire power management system 1 (power control instruction switches 7a and 7b, network management server 3, and power supply devices 11a and 11b) will be described with reference to FIG.

  First, when the power control instruction switches 7a and 7b are turned on or off, the power control instruction switches 7a and 7b transmit power control information (step 301).

  The network management server 3 receives the power control information and identifies the power control instruction switch that is the transmission source of the power control information (step 302).

  Next, the network management server 3 specifies a control target device (control target device to be a target of power control) corresponding to the power control instruction switch of the transmission source, and performs procedures for power control and monitoring control of the specified control target device. Is selected (step 303).

  Next, the network management server 3 confirms the usage status of the control target device that is the target of power control, determines whether power control is possible from the usage status (step 304), and proceeds to step 305 if it is determined to control, If it is determined not to control, the process proceeds to step 304 again.

  The case where it is determined that the control is not performed is, for example, information for turning off the power supply control information. However, if the control target device is transferring a file via the network and the power supply is turned off. This is a case where processing of the transfer destination becomes abnormal.

  In this case, it is not determined to perform control to turn off the power of the control target device at least until use is completed.

  If it is determined that control is to be performed, monitoring of the specified control target device is controlled by the selected monitoring control procedure (step 305). Specifically, monitoring is stopped when the power control information is information for turning off the power, and monitoring is started when the power control information is information for turning on the power.

  Next, the network management server 3 instructs the power supply device corresponding to the specified control target device (power supply device that supplies power to the specified control target device), specifically, If the power control information is information for turning off the power, the power supply is instructed to stop supplying, and if the power control information is information for turning on the power, the power supply is instructed (step 306).

  The power supply apparatus that has received the instruction supplies power to the specified control target apparatus or stops supplying power (step 307).

  As described above, the power management system 1 has a configuration in which the system that monitors the network state of the device to be controlled and the system that controls the power supply are integrated.

  Therefore, there is no possibility of erroneously detecting power ON / OFF control as a network failure.

  Further, the power management system 1 does not directly control the device to be controlled, but performs power control via the power supply device.

  Therefore, the hardware configuration of the control target devices 9a, 9b, 13a, and 13b is particularly structured as long as it is connected to the network 5 and receives power supply from the power supply devices 11a and 11b connected to the network 5. The power supply control is possible for various devices without limitation.

  Next, the operation of the network management server 3 among the operations of the power management system 1 will be described in detail.

  First, when the power control information is transmitted, the power control information receiving unit 201 of the network management server 3 receives the power control information (step 401 in FIG. 8 and step 302 in FIG. 7).

  Next, the power control information receiving unit 201 analyzes from which power control instruction switch the power control information is transmitted (step 402 in FIG. 8 and step 302 in FIG. 7).

  Specifically, since the power supply control information includes identification information of the power supply control information of the transmission source such as an IP address and an identification number, the transmission source is specified with reference to this identification number.

  Next, the control policy search unit 202 acquires the control target device that performs power control and the power control and monitoring control procedures from the control policy database 203 (step 403 in FIG. 8 and step 303 in FIG. 7).

  Specifically, the control unit 31 controls the control target device (control target device that performs power control) corresponding to the power control instruction switch that has transmitted the power control information from the switch name information 210 and the control target device information 211 of the control policy database 203. ) Is selected.

  Furthermore, a power control device that supplies power to the control target device is selected from the control procedure information 212 of the control policy database 203, and a monitoring procedure for the control target device and a power control procedure for the power supply device are acquired.

  Next, the control determination unit 204 instructs the network state management unit 205 to check the usage status of the control target device that is the target of power control, and the network state management unit 205 specifies the MIB ( The communication processing status and the like are confirmed from the information of Management Information Base (step 404 in FIG. 8 and step 304 in FIG. 7).

  The control determination unit 204 determines whether or not power control is possible based on the usage status of the control target device that is a power control target (step 405 in FIG. 8 and step 304 in FIG. 7).

  When performing power control, the network state management unit 205 controls monitoring of the control target device, and the power control unit 206 controls power supply of the power supply device (steps 406 and 407 in FIG. 8 and steps in FIG. 7). 305, 306).

  As described above, according to the first embodiment, the power management system 1 includes the network management server 3, the power control instruction switches 7a and 7b, and the power supply devices 11a and 11b. When an instruction to turn on / off the power is transmitted from the instruction switches 7a, 7b, the usage status (communication processing status) of the control target device that is the target of power control is confirmed, and monitoring control is performed after determining whether power control is possible. And power control.

  Therefore, there is no false detection of a network failure accompanying power control, and safe power control can be realized.

  Further, according to the first embodiment, the power management system 1 is configured to perform power control on the power supply device that supplies power to the control target device, not the control target device.

  Therefore, the power management system 1 can perform remote control of power regardless of the type of device.

  Further, according to the first embodiment, the power management system 1 has the control procedure database 212 in which the control policy database 203 is information relating to the control procedure of the power supply apparatus.

  Therefore, power control (ON / OFF operation) can be performed from the network management server 3 side without recognizing the control procedure of each power supply apparatus.

  Furthermore, according to the first embodiment, the power management system 1 is configured to instruct power control of different devices to be controlled by the power control instruction switches 7a and 7b.

  Therefore, the operation range and the like can be limited by performing control with a plurality of power supply control instruction switches arranged.

  Next, a power management system 1a according to the second embodiment will be described.

  In the second embodiment, elements that perform the same functions as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  The power management system 1a according to the second embodiment has a configuration in which the network management server 3a includes a schedule control unit 207, and enables power control according to a schedule.

  First, the hardware configuration of the network management server 3a will be described with reference to FIG.

  Note that the overall configuration and individual hardware configuration of the power management system 1a are the same as those in the first embodiment, and a description thereof will be omitted.

  As shown in FIG. 9, the network management server 3a includes a schedule control unit 207 for instructing the control policy search unit 202 to perform processing according to the schedule.

  As shown in FIG. 10, the control policy database 203a includes schedule information 227, which is schedule information related to power control and monitoring control, and power control instruction switches 7a, 7b during power control according to the schedule. It has exception handling information 228 that is information relating to power control and monitoring procedures when a power ON / OFF instruction is transmitted.

  The schedule information 227 includes time zone information 221 that is information indicating a time zone in which control is performed, schedule control target device information 222 that is information indicating a control target device that performs control in the time zone, information indicating control contents, and procedures. Schedule control procedure information 223.

  On the other hand, the exception processing information 228 includes exception processing condition information 224 which is information indicating conditions for performing exception processing, exception processing content information 225 indicating the contents of exception processing, and information indicating exception processing procedures (control contents and method). Exception processing control information 226 that is

  For example, in FIG. 10, the schedule information 227 indicates that “from 23:00 to 7:00, a process for turning off the power of all control target devices (controlling the power supply device) is performed (monitoring control is also stopped)”. The exception processing information 228 indicates that “when the power control instruction switch 7a is turned on, the power is supplied to the control target device 9a (by controlling the power supply device 11a) (the control target device 9b) "is recorded.

  Next, the operation of the power management system 1a will be described with reference to FIGS.

  First, referring to FIG. 11, an outline of the operation of the entire power management system 1a (power control instruction switches 7a and 7b, network management server 3a, and power supply devices 11a and 11b) when performing processing according to the schedule information 227 will be described. I will explain.

  Further, the operation of the power control instruction switches 7a and 7b will be described in the exception process described later, and thus the description thereof is omitted here.

  First, at the time defined in the schedule (23:00 in the example of FIG. 10), the network management server 3a specifies the control target device that is the target of power control based on the schedule information 227, and specifies the specified control. A procedure for power control and monitoring control of the target device is selected (step 501).

  Next, the network management server 3a confirms the usage status of the control target device that is the target of power control, determines whether power control is possible from the usage status (step 502), and proceeds to step 503 if it is determined to control, If it is determined not to control, the process proceeds to step 502 again.

  The case where it is determined that the control is not performed is, for example, information for turning off the power supply control information, but the control target device is in the middle of transferring a file via the network 5 and the power supply is turned off. This is a case where the processing of the transfer destination becomes abnormal.

  If it is determined that control is to be performed, the specified control target device is monitored by the selected monitoring control procedure (step 503).

  Next, the network management server 3a supplies power or supplies power to the power supply device (power supply device that supplies power to the specified control target device) corresponding to the specified control target device. A stop is instructed (step 504).

  The power supply apparatus that has received the instruction supplies power to the specified control target apparatus or stops supplying power (step 505).

  As described above, the power management system 1a has a configuration in which the system that monitors the network state of the device to be controlled and the system that controls the power supply are integrated.

  For this reason, there is no risk of erroneous detection of power ON / OFF as a network failure.

  Further, the power management system 1a does not directly control the device to be controlled, but performs power control via the power supply device.

  Therefore, the hardware configuration of the control target devices 9a, 9b, 13a, and 13b is particularly structured as long as it is connected to the network 5 and receives power supply from the power supply devices 11a and 11b connected to the network 5. The power supply control is possible for various devices without limitation.

  Next, of the operations of the power management system 1a when performing processing according to the schedule information 227, the operations of the network management server 3a will be described in detail with reference to FIG.

  It is assumed that schedule information 227 and exception processing information 228 are registered in advance in the control policy database 203a (step 601).

  First, the schedule control unit 207 issues an instruction to perform power control to the control policy search unit 202 at the time defined in the schedule information 227 (in the above example, 23:00) (step 602 in FIG. 12, 11 (step 501 in FIG. 11), the control policy search unit 202 acquires the control target device for performing power control and the control procedure from the schedule information 227 in the control policy database 203a (step 603 in FIG. 12, step 501 in FIG. 11). .

  Specifically, the schedule control unit 207 issues an instruction to perform power control to the control policy search unit 202 at the time set in the time zone information 221 of the control policy database 203a, and the control policy search unit 202 From the control target device information 222 and the schedule control procedure information 223 information, a control target device that performs power control and a power control device that supplies power to the control target device are selected, and power control (ON / OFF) of the control target device is selected. ) And monitoring control and obtaining a power control procedure for the power supply device.

  Next, the control determination unit 204 instructs the network state management unit 205 to check the usage status of the control target device that is the target of power control, and the network state management unit 205 specifies the MIB ( The communication processing status and the like are confirmed from the information of Management Information Base (step 604 in FIG. 12 and step 502 in FIG. 11).

  The control determination unit 204 determines whether or not power control is possible based on the usage status of the control target device that is the power control target (step 605 in FIG. 12 and step 502 in FIG. 11).

  When performing power control, the network state management unit 205 controls network monitoring of the control target device (step 606 in FIG. 12 and step 503 in FIG. 11), and the power control unit 206 controls power supply of the power supply device. (Step 607 in FIG. 12 and Step 504 in FIG. 11).

  Next, regarding the operation of the entire power management system 1a when the power control instruction switch 7a is turned on during the power control and the monitoring control according to the schedule information 227, that is, when the exception processing condition is satisfied, This will be described with reference to FIG.

  First, when the power control instruction switch 7a is turned on, the power control instruction switch 7a transmits power control information (step 701).

  The network management server 3a receives the power control information and identifies the power control instruction switch that is the transmission source of the power control information (step 702).

  Next, the network management server 3a identifies a control target device (control target device that is a target of power control) corresponding to the power control instruction switch of the transmission source based on the exception processing information 228 described in the control policy database 203a. Then, the procedure of power supply control and supervisory control of the identified control target device is selected (step 703).

  Next, the network management server 3a confirms the usage status of the control target device that is the target of power control, determines whether or not power control is possible from the usage status (step 704), and proceeds to step 705 if determined to control. If it is determined not to control, the process proceeds to step 704 again.

  When it is determined that control is to be performed, the specified control target device is monitored by the selected monitoring control procedure (step 705).

  Next, the network management server 3a supplies power (power control) to the power supply device (power supply device 11a that supplies power to the specified control target device 9a) corresponding to the specified control target device. (Step 706).

  The power supply apparatus that has received the instruction supplies power to the specified control target apparatus 9a (step 707).

  As described above, the network management server 3a schedules when the power control instruction switch 7a is turned on during the power control and the monitoring control according to the schedule information 227 (when the exception processing condition is satisfied). The process based on the exception process information 228 is prioritized over the process based on the information 227.

  Next, of the operations of the power management system 1 when performing exception processing, the operations of the network management server 3a will be described in detail with reference to FIG.

  It is assumed that schedule information 227 and exception processing information 228 are registered in advance in the control policy database 203a of the network management server 3a.

  When the power control information is transmitted, the power control information receiving unit 201 of the network management server 3a receives the power control information (step 801 in FIG. 14 and step 702 in FIG. 13).

  Next, the power control information receiving unit 201 analyzes from which power control instruction switch 7a the power control information is transmitted (step 802 in FIG. 14 and step 702 in FIG. 13).

  Specifically, since the power supply control information includes identification information of the power supply control information of the transmission source such as an IP address and an identification number, the transmission source is specified with reference to this identification number.

  Next, based on the exception processing information 228 described in the control policy database 203a, the control policy search unit 202 selects a control target device (control target device targeted for exception processing) corresponding to the power control instruction switch of the transmission source. The power supply control and monitoring control procedures of the specified control target apparatus are selected (step 803 in FIG. 14 and step 703 in FIG. 13).

  Specifically, based on the exception processing condition information 224, it is determined that the exception processing condition information 224 is collated with the power control instruction switch of the transmission source, and the exception processing content information 225 and the exception processing control information 226 are determined. Referring to the control target device 9a that performs exception processing, the power supply device 11a that is the target of power control, and information about the procedure thereof are acquired.

  When the exception processing condition is not satisfied, in FIG. 10, when the power control switch 7b is pressed, the power control information is ignored, and the control is performed according to the schedule information 227 without performing the exception processing. .

  Next, the control determination unit 204 instructs the network state management unit 205 to check the usage status of the control target device that is the target of power control, and the network state management unit 205 specifies the MIB ( The communication processing status and the like are confirmed from the information of Management Information Base (step 804 in FIG. 14 and step 704 in FIG. 13).

  The control determination unit determines whether or not power control is possible based on the usage status of the control target device that is the power control target (step 805 in FIG. 14 and step 704 in FIG. 13).

  When performing power control, the network state management unit 205 executes control of monitoring of the control target device (step 806 in FIG. 14 and step 705 in FIG. 13), and the power control unit 206 controls power supply of the power supply device. (Step 807 in FIG. 14 and Step 706 in FIG. 13).

  As described above, when exception processing conditions are satisfied, priority can be given to exception processing, so that even during control according to the schedule information 227, a part of power control can be performed exceptionally. Control different from the schedule information 227 can be performed on some control target devices.

  As described above, according to the second embodiment, the power management system 1a includes the network management server 3a, the power control instruction switches 7a and 7b, and the power supply devices 11a and 11b. The network management server 3a When an instruction to turn on / off the power is transmitted from the instruction switch 7a, the usage status (communication processing status) of the control target device that is the power control target is confirmed, and whether or not power control can be performed is determined. Take control.

  Therefore, the same effect as that of the first embodiment is obtained.

  Further, according to the second embodiment, the power management system 1a performs power control based on the schedule information 227, and a power ON / OFF instruction is issued from the power control instruction switch 7a during the power control based on the schedule information 227. When it is transmitted, exception processing is performed based on the exception processing information 228.

  Therefore, both the power control based on the schedule information 227 and the exception processing based on the exception processing information 228 can be performed by the network management server 3a, and in the event of an emergency, exception processing is performed based on the exception processing information 228 for some control target devices. (Control different from the schedule information 227) can be performed.

  In the above-described embodiment, the case where the present invention is applied to the power supply control of the hub has been described. However, the present invention is not limited to this, and is connected to the network 5 and connected to the network 5. The present invention can be applied to all devices to be controlled that are supplied with power from a supply device.

  For example, in the present invention, the hardware configuration of the network management server 3 and the network management server 3a is disclosed in FIG. 2 and FIG. 9, but this is a software configuration, and the present invention is directed to the CPU using a computer according to the instructions of the software. Can also be executed.

1 is a schematic diagram showing a configuration of a power management system 1. FIG. 2 is a block diagram showing a network management server 3. FIG. 3 is a diagram illustrating a configuration of a control policy database 203. FIG. It is a block diagram which shows the power supply apparatus 11a. It is a block diagram which shows the power supply apparatus 11b. It is an example of the block diagram which shows the control object apparatus 9a. 3 is a flowchart showing the operation of the power management system 1. FIG. 7 is a flowchart showing the operation of the network management server 3. It is a block diagram which shows the network management server 3a. It is a figure which shows the structure of the control policy database 203a. It is a flowchart which shows operation | movement of the power management system 1a. FIG. 11 is a flowchart showing the operation of the network management server 3a. It is a flowchart which shows operation | movement of the power management system 1a in the case of exception processing. FIG. 13 is a flowchart showing the operation of the network management server 3a.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ......... Power supply management system 3 ......... Network management server 5 ......... Network 7a ......... Power control instruction switch 9a ......... Control object apparatus 11a ...... Power supply apparatus 13a ...... Control object apparatus 201 …… Power control information receiving unit 202 …… Control policy searching unit 203 …… Control policy database 204 …… Control judging unit 205 …… Network state management unit 206 …… Power source control unit 207 …… Schedule control unit 227 …… Schedule information 228 …… Exception handling information

Claims (18)

Connected to the network,
A network management server that performs monitoring and power control on a control target device that receives power supply from a power supply device connected to a network,
A control policy database having information on power control of the device to be controlled;
A control unit that refers to the control policy database, performs power control and monitoring, and a selection unit that selects a power control and monitoring procedure for the control target device;
A determination means for confirming the usage status of the selected control target device and determining whether the power control is possible;
A management unit that monitors the control target device selected by the selection unit based on the determination of the determination unit;
Power control instruction means for instructing power supply to the power supply device corresponding to the device to be controlled based on the determination by the determination means;
A network management server comprising: Receiving means for receiving power control information transmitted from a power instruction control switch connected to the network management server via a network and performing power control of the device to be controlled;
Based on the received power control information, analysis means for identifying the power instruction control switch,
Further comprising
The selection means refers to the control policy database, selects a control target device corresponding to the power instruction control switch as a control target device for performing power control, and performs a power control and monitoring procedure for the control target device. The network management server according to claim 1, further comprising means for selecting The control policy database is
Control target device information that is information about the control target device corresponding to the power instruction control switch;
Control procedure information that is information relating to a power supply device corresponding to the control target device and a procedure for controlling the power supply, and a procedure for monitoring the control target device;
Have
The selection means includes means for selecting a control target device with reference to the control target device information, and selecting a procedure for power control and monitoring to the control target device with reference to the control procedure information. The network management server according to claim 2, wherein: The control policy database is
Having schedule information that is information relating to a schedule of power control and monitoring control of the device to be controlled;
The network management server
A schedule control means for retrieving the schedule information;
The schedule control means, based on the schedule information, schedule control instruction means for instructing the selection means to select a control target device for performing power control and monitoring, and a procedure for power control and monitoring for the control target device. Have
Upon receiving an instruction from the schedule control instruction unit, the selection unit refers to schedule information in the control policy database, and performs power control and monitoring, and power control and monitoring of the power control unit The server according to claim 1, further comprising means for selecting a procedure. The schedule information is
Time zone information, which is information indicating the time zone for power control, and
Schedule control target device information which is information for specifying a control target device to be controlled in the time zone indicated by the time zone information;
Schedule control procedure information which is information indicating a procedure of power control and monitoring to the identified control target device;
Have
The schedule control means refers to the control target device for performing power control and monitoring to the selection means with reference to the time zone information, and means for instructing to select a power control and monitoring procedure for the control target device. Have
The selection means includes means for selecting a control target device with reference to the schedule control target device information, and selecting a procedure for power control and monitoring for the control target device with reference to schedule control procedure information. The network management server according to claim 4. Receiving means for receiving power control information transmitted from a power instruction control switch connected to the network management server via a network and performing power control of the device to be controlled;
Receiving means for receiving the power control information;
Based on the received power control information, analysis means for specifying a control target device corresponding to the power instruction control switch,
Further comprising
The control policy database is
Having exception handling information which is information relating to power control and monitoring procedures when the receiving means receives the power control information;
The selecting means is
Means for selecting a power control and monitoring procedure with reference to the exception processing information of the schedule information in preference to an instruction from the schedule control instruction means when the receiving means receives the power control information; The network management server according to claim 4, wherein: The exception handling information is
Exception processing condition information, which is information indicating the conditions for performing exception processing,
Exception processing content information, which is information indicating the contents of the control target device and exception processing that performs exception processing,
Exception handling control information, which is information indicating the exception handling procedure,
Have
The selecting means refers to the exception processing condition information to determine whether to perform exception processing, refers to the exception processing content information, selects a control target device, and refers to the exception processing control information The network management server according to claim 6, further comprising means for selecting a power control and monitoring procedure for the device to be controlled. The determination means includes
8. When it is determined that the control target device is in use, the control for turning off the power of the control target device is not determined at least until the use ends. The network management server according to any one of the above.   The program for operating a computer as a network management server in any one of Claims 1-8.   A network and a power management method using the network management server according to claim 1. A network management server for monitoring controlled devices connected to the network;
A power supply device connected to the network management server via a network and supplying power to the device to be controlled;
Have
The server
A control policy database having information on power control of the device to be controlled;
A control unit that refers to the control policy database, performs power control and monitoring, and a selection unit that selects a power control and monitoring procedure for the control target device;
A determination means for confirming the usage status of the selected control target device and determining whether the power control is possible;
A management unit that monitors the control target device selected by the selection unit based on the determination of the determination unit;
Power control instruction means for instructing power supply to the power supply device corresponding to the device to be controlled based on the determination by the determination means;
Have
The power supply device
A power management system comprising power supply ON / OFF means for performing power supply ON / OFF to the control target device based on a power control instruction from the server. A power supply instruction control switch connected to the network management server via a network and performing power control of the device to be controlled;
The power instruction control switch is
Power control information, which is information related to power ON / OFF of the control target device;
Transmitting means for transmitting the power control information to the network management server;
Have
The server
Receiving means for receiving the power control information;
Based on the received power control information, analysis means for identifying the power instruction control switch,
Further comprising
The selection means refers to the control policy database, selects a control target device corresponding to the power instruction control switch as a control target device for performing power control, and performs a power control and monitoring procedure for the control target device. The power management system according to claim 11, further comprising means for selecting The control policy database is
Control target device information that is information about the control target device corresponding to the power instruction control switch;
Control procedure information that is information relating to a power supply device corresponding to the control target device and a procedure for controlling the power supply, and a procedure for monitoring the control target device;
Have
The selection means includes means for selecting a control target device with reference to the control target device information, and selecting a procedure for power control and monitoring to the control target device with reference to the control procedure information. The power management system according to claim 12, wherein: The control policy database is
Having schedule information that is information relating to a schedule of power control and monitoring control of the device to be controlled;
The network management server
A schedule control means for retrieving the schedule information;
The schedule control means, based on the schedule information, schedule control instruction means for instructing the selection means to select a control target device for performing power control and monitoring, and a procedure for power control and monitoring for the control target device. Have
Upon receiving an instruction from the schedule control instruction unit, the selection unit refers to schedule information in the control policy database, and performs power control and monitoring, and power control and monitoring of the power control unit 12. The power management system according to claim 11, further comprising means for selecting a procedure. The schedule information is
Time zone information, which is information indicating the time zone for power control, and
Schedule control target device information which is information for specifying a control target device to be controlled in the time zone indicated by the time zone information;
Schedule control procedure information which is information indicating a procedure of power control and monitoring to the identified control target device;
Have
The schedule control means refers to the control target device for performing power control and monitoring to the selection means with reference to the time zone information, and means for instructing to select a power control and monitoring procedure for the control target device. Have
The selection means includes means for selecting a control target device with reference to the schedule control target device information, and selecting a procedure for power control and monitoring for the control target device with reference to schedule control procedure information. The power management system according to claim 14. A power supply instruction control switch connected to the network management server via a network and performing power control of the device to be controlled;
The power instruction control switch is
Power control information, which is information related to power ON / OFF of the control target device;
Transmitting means for transmitting the power control information to the network management server;
Have
The server
Receiving means for receiving the power control information;
Based on the received power control information, analysis means for specifying a control target device corresponding to the power instruction control switch,
Further comprising
The control policy database is
Having exception handling information which is information relating to power control and monitoring procedures when the receiving means receives the power control information;
The selecting means is
Means for selecting a power control and monitoring procedure with reference to the exception processing information of the schedule information in preference to an instruction from the schedule control instruction means when the receiving means receives the power control information; The power management system according to claim 14. The exception handling information is
Exception processing condition information, which is information indicating the conditions for performing exception processing,
Exception processing content information, which is information indicating the contents of the control target device and exception processing that performs exception processing,
Exception handling control information, which is information indicating the exception handling procedure,
Have
The selecting means refers to the exception processing condition information to determine whether to perform exception processing, refers to the exception processing content information, selects a control target device, and refers to the exception processing control information The power management system according to claim 16, further comprising means for selecting a power control and monitoring procedure for the device to be controlled. The determination means includes
18. When it is determined that the control target device is in use, it is not determined to perform control to turn off the power of the control target device at least until use ends. The power management system according to any one of the above.

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