JP6139908B2 - Power management apparatus, communication control apparatus, power management system, and power management method - Google Patents

Description

  The present invention relates to a power management apparatus, a communication control apparatus, a power management system, and a power management method that control a plurality of devices.

  Conventionally, a power management apparatus that controls a plurality of devices such as a load and a distributed power source provided in a consumer is known. Among such power management apparatuses, an apparatus that controls equipment provided in a house is referred to as HEMS (Home Energy Management System) or the like.

  Here, as a method of controlling a plurality of devices, assuming that each device has a router function, a method in which each device transfers a message using a routing table provided in each device (for example, ZigBee, ECHONET Lite) has been proposed (for example, Patent Document 1).

  Each device autonomously updates a routing table provided in each device by transmitting a periodic search message or the like. Therefore, the power management apparatus is not involved in updating the routing table provided in each device.

JP 2011-129085 A

  By the way, the upper limit of the number of destination addresses that can be stored in the routing table provided in each device is limited. Therefore, a case where a necessary destination address is not stored in the routing table occurs. In such a case, it is necessary to transmit a search message and receive a response message to the search message, resulting in network delay. In particular, when the number of devices provided in the consumer increases, the network delay accompanying the transmission of the search message and the reception of the response message further increases.

  Accordingly, the present invention has been made to solve the above-described problem, and an object thereof is to provide a power management device, a communication control device, and a power management method that can appropriately suppress a network delay. To do.

  A power management apparatus according to a first feature manages power of the plurality of devices in a power management system in which communication is performed using a routing table included in each of the plurality of devices. The power management apparatus sends a protected address designation message for designating a destination address that should not be deleted from the routing table among destination addresses included in the routing table to at least one of the plurality of devices. A transmitting unit for transmitting is provided.

  In the first feature, the transmission unit transmits the protection address designation message when the number of the plurality of devices is larger than the upper limit number of destination addresses stored in the routing table.

  1st characteristic WHEREIN: The said transmission part transmits the said protection address designation | designated message according to reception of the detection result of a sensor.

  In the first feature, the power management apparatus includes a specifying unit that specifies a destination address of a device associated with the detection result of the sensor according to the detection result of the sensor. The transmission unit transmits the protected address specification message specifying the destination address specified by the specification unit as a destination address that should not be deleted from the routing table.

  1st characteristic WHEREIN: The said transmission part transmits the said protection address designation | designated message according to the timing when the charge of the electric power purchased from a system | strain is changed.

  In the first feature, the power management apparatus includes a specifying unit that specifies a destination address of a device associated with a detection result of the sensor according to a change in a charge of power purchased from the system. The transmission unit transmits the protected address specification message specifying the destination address specified by the specification unit as a destination address that should not be deleted from the routing table.

  In the first feature, the transmission unit transmits the protection address specification message that specifies a destination address of a predetermined device as a destination address that should not be deleted from the routing table.

  A communication control apparatus according to a second feature controls communication of the plurality of devices in a communication system in which communication is performed using a routing table included in each of the plurality of devices. The communication control apparatus sends a protected address designation message for designating a destination address that should not be deleted from the routing table, among destination addresses included in the routing table, to at least one of the plurality of devices. A transmitting unit for transmitting is provided.

  A power management system according to a third feature includes a plurality of devices and a power management device that manages power of the plurality of devices, and performs communication using a routing table included in each of the plurality of devices. It is. The power management device, for at least one device among the plurality of devices, specifies a destination address that should not be deleted from the routing table among destination addresses included in the routing table. Is provided.

  A power management method according to a fourth feature includes a plurality of devices and a power management device that manages power of the plurality of devices, and power is communicated using a routing table included in each of the plurality of devices. In the management system, the plurality of devices are controlled. The power management method designates a destination address that should not be deleted from the routing table, among destination addresses included in the routing table, for at least one of the plurality of devices from the power management device. Sending a protected addressing message.

  ADVANTAGE OF THE INVENTION According to this invention, the power management apparatus, communication control apparatus, and power management method which can suppress network delay appropriately can be provided.

FIG. 1 is a diagram illustrating a power management system 100 according to the first embodiment. FIG. 2 is a diagram illustrating the power management apparatus 10 according to the first embodiment. FIG. 3 is a diagram illustrating an example of a table included in the control unit 13 according to the first embodiment. FIG. 4 is a diagram illustrating an example of a routing table provided in the device 20 according to the first embodiment. FIG. 5 is a diagram illustrating an example of a routing table provided in the device 20 according to the first embodiment. FIG. 6 is a diagram illustrating a power management method (first process) according to the first embodiment. FIG. 7 is a diagram illustrating a power management method (first process) according to the first embodiment.

  Hereinafter, a power management system according to an embodiment of the present invention will be described with reference to the drawings. In the following description of the drawings, the same or similar parts are denoted by the same or similar reference numerals.

  However, it should be noted that the drawings are schematic and ratios of dimensions and the like are different from actual ones. Therefore, specific dimensions and the like should be determined in consideration of the following description. Moreover, it is a matter of course that portions having different dimensional relationships and ratios are included between the drawings.

[Outline of Embodiment]
The power management apparatus according to the embodiment manages power of the plurality of devices in a power management system in which communication is performed using a routing table included in each of the plurality of devices. The power management apparatus sends a protected address designation message for designating a destination address that should not be deleted from the routing table among destination addresses included in the routing table to at least one of the plurality of devices. A transmitting unit for transmitting is provided.

  In the embodiment, a protection address designation message that designates a destination address that should not be deleted from the routing table is transmitted from the power management apparatus to the device. Accordingly, the destination address designated by the power management apparatus can be protected in the routing table provided in each device. In other words, by newly introducing the concept of “destination address that should not be deleted from the device routing table”, it is possible to suppress the deletion of the necessary destination address from the routing table, and to transmit the search message and the response message. Network delays associated with reception are suppressed.

[First Embodiment]
(Configuration of power management system)
Hereinafter, the power management system according to the first embodiment will be described. FIG. 1 is a diagram illustrating a power management system 100 according to the first embodiment.

  As illustrated in FIG. 1, the power management system 100 includes a power management device 10, a plurality of devices 20, and a plurality of sensors 30.

  In the power management system 100, communication is performed using a routing table that each of the plurality of devices 20 has. Communication performed in the power management system 100 may be performed via a wire or may be performed wirelessly.

  In the power management system 100, for example, ZigBee can be used as a protocol related to the lower layer (network layer: third layer of the OSI reference model), that is, the IP / UDP layer. As a protocol related to the upper layer (application layer: seventh layer of the OSI reference model), for example, ECHONET Lite that defines a message format can be used.

  The power management apparatus 10 is an apparatus that manages the power of a plurality of devices 20. For example, the power management apparatus 10 that controls the power of a device provided in a house is referred to as HEMS (Home Energy Management System). The power management device 10 that controls the power of the equipment provided in the store is referred to as SEMS (Store Energy Management System). The power management apparatus 10 that controls the power of the equipment provided in the building is referred to as BEMS (Building Energy Management System). The power management apparatus 10 that controls the power of the equipment provided in the factory is referred to as FEMS (Factor Energy Management System). Details of the power management apparatus 10 will be described later.

  The device 20 is a device provided in a consumer such as a house, a store, a building, or a factory. The device 20 is a device that consumes power, such as an air conditioner, a lighting device, and a refrigerator. Or the apparatus 20 is a distributed power supply which supplies or accumulate | stores electric power like a solar cell apparatus, a fuel cell apparatus, a storage battery apparatus, etc., for example.

  Each device 20 has a routing table that associates a destination address with a next address, and has a function (router function) for transferring a message using the routing table. Each device 20 periodically transmits a search message by broadcast or multicast, and updates a routing table by receiving a response message to the search message.

  Thereby, even when a new device is connected to the power management system 100, the routing table can be maintained in an appropriate state. Alternatively, the routing table can be maintained in an appropriate state even when the power supply of the device provided in the power management system 100 or the router function is turned on / off. Alternatively, in a case where communication performed in the power management system 100 is performed via wireless, the routing table can be maintained in an appropriate state even when the device moves.

  In the first embodiment, the plurality of devices 20 include devices (A1 to A5) provided in area A, devices (B1 to B2) provided in area B, and devices (C1 to C3) provided in area C. including.

  In the case illustrated in FIG. 1, “A1-A2-A3”, “A1-A4-A5”, “B1-B2”, and “C1-C2-C3” are formed as routes for transferring messages. .

  The sensor 30 is a sensor such as a human sensor, a temperature sensor, or an illuminance sensor. The power management apparatus 10 described above controls the power of each device 20 according to the detection result of the sensor 30. The sensor 30 may be considered as an example of a device.

  In the first embodiment, the plurality of sensors 30 include a sensor (A) provided in area A, a sensor (B) provided in area B, and a sensor (C) provided in area C.

(Power management device)
The power management apparatus according to the first embodiment will be described below. FIG. 2 is a diagram illustrating the power management apparatus 10 according to the first embodiment.

  As illustrated in FIG. 2, the power management apparatus 10 includes a reception unit 11, a transmission unit 12, and a control unit 13.

  The receiving unit 11 receives a message from each device 20. The receiving unit 11 receives the detection result from each sensor 30.

  The transmission unit 12 transmits a message to each device 20. In the first embodiment, the transmission unit 12 transmits a protected address designation message that designates a destination address that should not be deleted from the routing table of each device 20.

  The transmission unit 12 only needs to have a function of transmitting a protection address designation message to at least one of the plurality of devices 20. The transmission unit 12 may transmit the protection address designation message by broadcast or multicast. Alternatively, the transmission unit 12 may transmit a protection address designation message to the device 20 designated by the control unit 13.

  The transmission unit 12 transmits a cancellation message requesting cancellation of a destination address that should not be deleted from the routing table. The transmission unit 12 may transmit the release message by broadcast or multicast. Alternatively, the transmission unit 12 may transmit a release message to the device 20 that has received the protection address designation message.

  The protected address designation message and the release message may be messages defined by a protocol related to a lower layer (for example, ZigBee) or may be messages defined by a protocol related to an upper layer (for example, ECHONET Lite). Good.

  The control unit 13 controls the power management apparatus 10. The control unit 13 controls the power of each device 20 according to the detection result of the sensor 30, the change of the charge of power purchased from the system, or the user operation. For example, the control unit 13 controls the operation mode of each device 20.

  In the first embodiment, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message.

  Specifically, first, when the number of the plurality of devices 20 provided in the power management system 100 is larger than the upper limit number of destination addresses stored in the routing table, the control unit 13 protects the protected address designation message. Is transmitted to the transmission unit 12. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

  The number of the plurality of devices 20 provided in the power management system 100 may be the number of devices connected to the power management system 100. Alternatively, the number of the plurality of devices 20 provided in the power management system 100 may be the number of devices that are powered on. Alternatively, the number of the plurality of devices 20 provided in the power management system 100 may be the number of devices whose router function is on.

  Secondly, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message in response to reception of the detection result of the sensor 30. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

  Here, the control unit 13 instructs the transmission unit 12 to transmit a release message when the control performed according to the detection result of the sensor 30 is completed. The transmission unit 12 transmits a release message in response to an instruction from the control unit 13.

  Thirdly, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message in accordance with the timing at which the price of power purchased from the system is changed (hereinafter, the rate change timing). The charge change timing is predetermined by, for example, an electric power company. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

  Here, the control unit 13 instructs the transmission unit 12 to transmit a release message when the control performed in accordance with the change in the charge of power purchased from the system is completed. The transmission unit 12 transmits a release message in response to an instruction from the control unit 13.

  In the first embodiment, the control unit 13 configures a specifying unit that specifies a destination address (hereinafter, a protection target address) that should not be deleted from the routing table provided in each device 20.

  Specifically, first, the control unit 13 specifies the destination address of the device 20 associated with the detection result of the sensor 30 as the protection target address according to the detection result of the sensor 30. The device 20 associated with the detection result of the sensor 30 is the device 20 to be controlled according to the detection result of the sensor 30. When specifying the protection target address, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message for designating the protection target address. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

  As illustrated in FIG. 3, the control unit 13 may include a table that associates the detection result of the sensor 30 with the device 20. Alternatively, the control unit 13 may acquire the correspondence shown in FIG. 3 by analyzing a program set in the control unit 13.

  Secondly, the control unit 13 specifies the destination address of the device 20 associated with the change in the rate of power supplied from the grid as the protection target address. The device 20 associated with the change in the rate of power supplied from the grid should be controlled in accordance with the change in the rate of power supplied from the grid in accordance with the change in the rate of power supplied from the grid. Device 20. When specifying the protection target address, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message for designating the protection target address. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

  The control unit 13 may have a table similar to that in FIG. 3 for the change in the rate of power supplied from the grid. Or the control part 13 may acquire the correspondence similar to FIG. 3 by the analysis of the program set to the control part 13. FIG.

  Thirdly, the control unit 13 specifies a predetermined destination address of the device 20 as a protection target address. The predetermined device 20 is a device 20 that plays an important role in the power management system 100. Alternatively, the predetermined device 20 is a device 20 that transmits or receives a message that cannot tolerate a network delay. When the predetermined device 20 is connected to the power management system 100, the control unit 13 instructs the transmission unit 12 to transmit a protection address designation message that designates a protection target address. The transmission unit 12 transmits a protection address designation message in response to an instruction from the control unit 13.

(Routing table provided for each device)
Hereinafter, the routing table provided in the device according to the first embodiment will be described. 4 and 5 are diagrams illustrating an example of a routing table provided in the device 20 according to the first embodiment.

  As shown in FIG. 4, the routing table provided in the device 20 is a table that associates a destination address, a next address, a distance, and a protection flag. In FIG. 4, the routing table which apparatus A1 has is illustrated. Since there is an upper limit number of destination addresses that can be stored in the routing table, the destination addresses of all devices are not stored in the routing table. In the case shown in FIG. 4, the addresses of the devices B2, C2, and C3 are not stored as destination addresses.

  The destination address is an address indicating the destination of the message. The next address is an address indicating a transfer destination of a message to be transmitted to the destination address. The distance is a distance (for example, the number of hops) on the transfer path between the own device and the device having the destination address.

  The protection flag is a flag indicating whether or not deletion of a destination address from the routing table is permitted. When “0” is set in the protection flag, it is allowed to delete the destination address from the routing table. On the other hand, when “1” is set in the protection flag, it is not allowed to delete the destination address from the routing table.

  For example, when the power management apparatus 10 receives the detection result aa of the sensor A, a protection address designation message for designating the destination addresses of the devices A2 and A3 is transmitted from the power management apparatus 10 as shown in FIG. The Therefore, as shown in FIG. 5, the device A1 sets “1” in the protection flag associated with the destination addresses A2 and A3 in accordance with the protection address designation message.

(Power management method)
Hereinafter, the power management method according to the first embodiment will be described. 6 and 7 are flowcharts showing the power management method according to the first embodiment. 6 and 7 show processing performed by the power management apparatus 10.

  First, a process (first process) for transmitting a protection address designation message according to the detection result of the sensor 30 will be described.

  As shown in FIG. 6, in step S <b> 10, the power management apparatus 10 receives the detection result of the sensor 30.

  In step S <b> 20, the power management apparatus 10 determines the control content of each device 20 according to the detection result of the sensor 30. At this stage, the power management apparatus 10 preferably specifies the destination address of the device 20 corresponding to the detection result of the sensor 30 as the protection target address.

  In step S <b> 30, the power management apparatus 10 stops the message transmission to the devices 20 having a priority lower than the predetermined priority among the plurality of devices 20 provided in the power management system 100.

  In step S40, the power management apparatus 10 transmits a protection address specification message that specifies the protection target address specified in step S20. As described above, the power management apparatus 10 may transmit the protection address specification message by broadcast or multicast. Alternatively, the power management apparatus 10 may transmit a protection address designation message to the device 20 designated by the power management apparatus 10.

  Here, the device 20 that receives the protection address designation message sets “1” in the protection flag associated with the protection target address designated by the protection address designation message.

  In step S50, the power management apparatus 10 starts power control of each device 20 in accordance with the control content determined in step S20. That is, the power management apparatus 10 transmits various messages to the device 20 to be controlled according to the control content determined in step S20.

  In step S <b> 60, the power management apparatus 10 ends the power control of each device 20.

  In step S <b> 70, the power management apparatus 10 transmits a release message requesting release of a destination address that should not be deleted from the routing table. As described above, the power management apparatus 10 may transmit the release message by broadcast or multicast. Alternatively, the power management apparatus 10 may transmit a release message to the device 20 that has received the protection address designation message.

  Secondly, a process (first process) for transmitting a protection address designation message according to the charge change timing will be described.

  As shown in FIG. 7, in step S110, the power management apparatus 10 detects a charge change timing. Here, it should be noted that the charge change timing is detected a predetermined time before the charge change timing. The predetermined time is a time that should be secured for performing the processing after step 120.

  In step S120, the power management apparatus 10 determines the control content of each device 20 in accordance with the change in the charge for the power supplied from the grid. In this stage, it is preferable that the power management apparatus 10 specifies the destination address of the device 20 corresponding to the change in the charge of the power supplied from the grid as the protection target address.

  In step S <b> 130, the power management apparatus 10 stops the message transmission to the devices 20 having a priority lower than the predetermined priority among the plurality of devices 20 provided in the power management system 100.

  In step S140, the power management apparatus 10 transmits a protection address designation message that designates the protection target address identified in step S120. As described above, the power management apparatus 10 may transmit the protection address specification message by broadcast or multicast. Alternatively, the power management apparatus 10 may transmit a protection address designation message to the device 20 designated by the power management apparatus 10.

  Here, the device 20 that receives the protection address designation message sets “1” in the protection flag associated with the protection target address designated by the protection address designation message.

  In step S150, the power management apparatus 10 starts power control of each device 20 in accordance with the control content determined in step S120. That is, the power management apparatus 10 transmits various messages to the device 20 to be controlled according to the control content determined in step S120.

  In step S160, the power management apparatus 10 ends the power control of each device 20.

  In step S170, the power management apparatus 10 transmits a release message requesting release of a destination address that should not be deleted from the routing table. As described above, the power management apparatus 10 may transmit the release message by broadcast or multicast. Alternatively, the power management apparatus 10 may transmit a release message to the device 20 that has received the protection address designation message.

(Function and effect)
In the first embodiment, a protection address designation message that designates a destination address that should not be deleted from the routing table is transmitted from the power management apparatus 10 to the device 20. Thereby, in the routing table provided in each device 20, the destination address designated by the power management apparatus can be protected. That is, by newly introducing the concept of “destination address that should not be deleted from the routing table of the device 20”, it is possible to suppress deletion of a necessary destination address from the routing table, and to transmit a search message and a response message. Network delay associated with the reception of.

[Other Embodiments]
Although the present invention has been described with reference to the above-described embodiments, it should not be understood that the descriptions and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples and operational techniques will be apparent to those skilled in the art.

  Although not particularly mentioned in the embodiment, the control unit 13 has a larger number of the plurality of devices 20 provided in the power management system 100 than the upper limit number of destination addresses stored in the routing table, and the detection of the sensor 30. When the result is received, the transmission unit 12 may be instructed to transmit the protection address designation message.

  Although not particularly mentioned in the embodiment, the control unit 13 has a larger number of the plurality of devices 20 provided in the power management system 100 than the upper limit number of destination addresses stored in the routing table, and the power charge change timing. May be instructed to the transmission unit 12 to transmit the protection address designation message.

  In the embodiment, the power management system 100 that manages the power of the plurality of devices 20 has been illustrated. However, the embodiment is not limited to this. Specifically, the above-described embodiment may be applied to a communication system in which communication is performed using a routing table included in each of a plurality of devices. In such a case, the power management device may be read as a communication control device.

  Although not mentioned in the embodiment, a destination address that should not be deleted from the routing table may be determined in advance in the routing table provided in each device 20 without receiving the designation of the power management apparatus 10.

  DESCRIPTION OF SYMBOLS 10 ... Power management apparatus, 11 ... Reception part, 12 ... Transmission part, 13 ... Control part, 20 ... Apparatus, 30 ... Sensor, 100 ... Power management system

Claims (9)

In a power management system in which communication is performed using a routing table included in each of a plurality of devices, a power management device that manages power of the plurality of devices,
A transmitting unit that transmits a protected address designation message that designates a destination address that should not be deleted from the routing table, among destination addresses included in the routing table, to at least one of the plurality of devices; A power management apparatus comprising:   The power management according to claim 1, wherein the transmission unit transmits the protection address designation message when the number of the plurality of devices is larger than an upper limit number of destination addresses stored in the routing table. apparatus.   The power management apparatus according to claim 1, wherein the transmission unit transmits the protection address designation message in response to reception of a detection result of a sensor. According to the detection result of the sensor, comprising a specifying unit that specifies the destination address of the device associated with the detection result of the sensor,
3. The power according to claim 2, wherein the transmission unit transmits the protected address specification message that specifies the destination address specified by the specification unit as a destination address that should not be deleted from the routing table. Management device.   5. The power management apparatus according to claim 1, wherein the transmission unit transmits the protection address designation message in accordance with a timing at which a charge for power purchased from a system is changed. . The transmission unit transmits the protection address designation message according to the timing when the charge of power purchased from the grid is changed,
In accordance with a change in the price of power purchased from the system, a specifying unit that specifies the destination address of the device associated with the detection result of the sensor,
And the transmission unit, the as a destination address should not be deleted from the routing table, according to claim 1 or claim, characterized in that transmitting the protected addressing message specifying the destination address specified by the specifying section 2 The power management device described in 1.   7. The transmission unit according to claim 1, wherein the transmission unit transmits the protection address designation message that designates a destination address of a predetermined device as a destination address that should not be deleted from the routing table. The power management apparatus according to any one of the above. A power management system comprising a plurality of devices and a power management device that manages power of the plurality of devices, wherein communication is performed using a routing table that each of the plurality of devices has,
The power management device, for at least one device among the plurality of devices, specifies a destination address that should not be deleted from the routing table among destination addresses included in the routing table. A power management system comprising a transmission unit for transmitting the power. A power management system that includes a plurality of devices and a power management device that manages power of the plurality of devices, and that performs communication using a routing table included in each of the plurality of devices, and controls the plurality of devices. A power management method,
A protected address designation message for designating a destination address that should not be deleted from the routing table among destination addresses included in the routing table for at least one of the plurality of devices from the power management system. A power management method comprising the step of transmitting.

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