JP7084173B2 - Management equipment, information processing methods, energy supply equipment, information processing systems, and programs - Google Patents

Description

The present invention relates to a management device for managing an energy supply device, an information processing method, an energy supply device, an information processing system, and a program.

Conventionally, equipment (hereinafter, energy supply device) that provides energy (electricity, liquid fuel, etc.) for operating a vehicle or various devices has been arranged and provided at each position in the area. These energy supply devices may be connected by an energy supply network (such as a power grid or pipeline). Normally, these energy supply devices use existing monitoring networks and communication networks such as grid equipment to manage and grasp the operating status of the equipment and the inventory of energy that can be provided in an integrated manner.

Here, if the existing monitoring network or system equipment for the energy supply device is not operating normally in the event of a disaster, etc., the status of each energy supply device (remaining amount of fuel, presence / absence of operation, etc.) should be appropriately checked. There is a problem that it cannot be grasped. For example, Patent Document 1 describes a method of transmitting safety information via an in-vehicle terminal and a mobile terminal when a failure occurs in a mobile phone network or an Internet access network in the event of a disaster.

Japanese Unexamined Patent Publication No. 2015-69516

On the other hand, in the event of a disaster or the like, if the energy supply network such as the power grid to which the energy supply device is connected is not operating normally, the energy supply in the energy supply device will also be cut off. However, each energy supply device may still be able to supply energy due to residual energy or the like, and the energy may not be utilized and may be wasted.

Therefore, an object of the present invention is to provide a technique for grasping and managing the operating status of an energy supply device even when an abnormality occurs in the energy supply network.

In order to solve the above problems, the present invention has the following configurations. That is, it is a management device capable of communicating with a plurality of energy supply devices capable of receiving energy supply from the energy supply network and supplying energy to the moving body via the communication network, and when an abnormality occurs in the energy supply network, the said Operational information including first information that can identify the location of the energy supply device from the energy supply device and second information about the remaining energy amount of the energy supply device or the expected amount of energy that can be generated by the energy supply device. An operation information receiving means receiving via the communication network, and at least the first information among the operation information, the mobile body via the communication network or through another communication network different from the communication network. It is characterized in that it is provided with a providing means provided to the user.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a technique for grasping and managing the operating status of an energy supply device even when an abnormality occurs in the energy supply network.

The figure for demonstrating the whole outline which concerns on this embodiment. The figure which shows an example of the hardware composition of the energy supply device which concerns on this embodiment. The functional block diagram of the energy supply device which concerns on this embodiment. The figure which shows an example of the hardware composition of the management apparatus which concerns on this embodiment. The functional block diagram of the management apparatus which concerns on this embodiment. The flowchart which shows an example of the processing of the information processing system which concerns on this embodiment. The flowchart which shows an example of the processing of the information processing system which concerns on this embodiment. The figure which shows an example of the operation information of the energy supply apparatus which concerns on this embodiment. The flowchart which shows an example of the processing of the management apparatus which concerns on this embodiment. The flowchart which shows an example of the processing of the energy supply device which concerns on this embodiment.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings. The configuration shown below is an example, and is not limited to this.

<First Embodiment>
[Overview]
FIG. 1 is a diagram for explaining an overall outline of an information processing system (energy management system) including a management device (management server) according to an embodiment of the present invention. In FIG. 1, a plurality of energy supply devices 101 capable of supplying energy are provided at each point. Then, information on the state of these energy supply devices 101 is collected and managed at the management base (for example, the management device) 102 via the communication network 105 composed of the existing communication network, grid equipment, and the like. It is assumed that it is. Further, it is assumed that the energy supply device 101 and the management device 102 are connected by an energy supply network 104 for supplying the energy provided by the energy supply device 101 or the energy capable of generating the energy. Further, it is assumed that various moving bodies 103 that receive energy and can move using the supplied energy come and go around the energy supply device 101.

The type of energy here is not particularly limited, and may be, for example, a liquid fuel such as gasoline or liquid hydrogen, a gas fuel, or electric power. When the energy is electric power, the energy supply network 104 may be an electric power network. Further, when the energy is hydrogen, the energy supply network 104 may be a hydrogen pipeline. Further, the energy supply device 101 may be attached to a facility connected to the energy supply network 104, including a house, a store such as a gas station or a convenience store, a station, an office, a vending machine, a parking lot, a bicycle parking lot, and a signal. , Or the facility itself. Further, examples of the moving body 103 include vehicles such as four-wheeled vehicles and two-wheeled vehicles, and flying bodies such as drones. Examples of the vehicle include an electric vehicle, a hybrid vehicle, a fuel cell vehicle, and the like.

Here, it is assumed that an abnormal situation such as a disaster occurs. In such a case, the communication network 105 functions normally, but the energy supply network 104 does not function normally, and the management device 102 cannot determine whether to guide the moving body 103 to the energy supply device 101. Can occur. In such a situation, the management device 102 can determine that the moving body 103 is not guided to the energy supply device 101 because it is uncertain whether the energy supply device 101 can supply energy to the moving body 103. As a result, the energy supply device 101 cannot supply energy to the moving body 103 even though the energy supply device 101 has energy that can be supplied. The situation in which the energy supply network 104 does not function normally may include a situation in which the energy supply device 101 is temporarily disconnected from the energy supply network 104 due to maintenance, inspection, or failure of the energy supply network 104.

In the present embodiment, even in a situation where the energy supply network 104 does not function normally, the energy supply device 101 transmits operation information to the management device 102, including information that can identify the energy supply capacity and the location of the energy supply device 101. The configuration to be reported will be described.

[Energy supply device]
(Hardware configuration example)
FIG. 2 is a diagram showing an example of the hardware configuration of the energy supply device according to the present embodiment. The energy supply device 101 includes a CPU 201, a RAM 202, a ROM 203, an HDD 204, a NIC 205, an energy supply network interface (I / F) 206, and an energy supply unit 208. Further, the energy supply device 101 optionally includes an energy storage unit 207 or an energy generation unit 209. The components are communicably connected to each other via the internal bus 210. Further, the energy supply network I / F 206, the energy storage unit 207, the energy supply unit 208, and the energy generation unit 209 can transfer energy to and from each other. The CPU 201 controls the entire information processing of the energy supply device 101. The RAM (Random Access Memory) 202 is a volatile storage area and is used as a work memory of the CPU 201 or the like. The ROM (Read Only Memory) 203 is a non-volatile storage area, and holds various programs and data. The HDD (Hard Disk Drive) 204 is a non-volatile storage area and holds various data. The NIC (Network Interface Card) 205 controls communication with an external device via an external network (not shown), and transmits / receives various data. The communication method here is not limited to wired / wireless and communication methods, and these may be combined.

The energy supply network I / F 206 conveys energy supplied from the energy supply network 104 such as electric power, gas, and gasoline to the energy storage unit 207 or the energy supply unit 208. In one example, when the energy supplied by the energy supply device 101 is electric power, the energy supply network I / F 206 may be a transformer or a step-down device. In another example, when the energy supplied by the energy supply device 101 is gasoline, the energy supply network I / F 206 may be a gasoline pipeline or a gasoline carrier.

The energy storage unit 207 has a function of storing the energy received from the energy supply network I / F 206 or generated by the energy generation unit 209. In one example, the energy storage unit 207 may be a battery, a gas cylinder, or a gasoline tank. The form of energy stored in the energy storage unit 207 and the form of energy supplied by the energy supply device 101 may not be the same, and the form of storing energy and the form of supplying energy may be different. In that case, the energy storage unit 207 may further have an energy conversion unit and convert it into a form for supplying the stored energy. For example, when the energy supply device 101 supplies electric power, the energy storage unit 207 converts the electric power into a biomass fuel or the like and stores it, and when the energy is supplied to the mobile body 103, the energy storage unit 207 generates and supplies electric power from the biomass fuel. You may. In addition, both electricity and biomass fuel may be supplied. This makes it possible to increase the types of energy that can be supplied by the energy supply device 101. It also allows the energy to be retained in a form suitable for storage.

The energy supply unit 208 is an interface for supplying energy to the moving body 103. As an example, when the energy supply device 101 supplies electric power, the energy supply unit 208 may be a charging plug connecting the energy storage unit 207 and the mobile body. The energy generation unit 209 can generate energy using natural energy. In one example, the energy generation unit 209 may be a power generation device such as a photovoltaic panel or a wind turbine. The form of the energy generated by the energy generation unit 209 and the energy supplied by the energy supply unit 208 to the moving body may be different.

Further, the energy supply device 101 has a power supply unit (not shown). The power supply unit supplies electric power for operating each component of the energy supply device 101. In one example, when the energy supply network 104 is a power grid, the power supply unit may be integrally formed with the energy supply network I / F 206. Further, when the energy supply device 101 is connected to the energy supply network 104, the power supply unit can supply electric power to each component of the energy supply device 101 by using the energy from the energy supply network 104. On the other hand, when the energy supply device 101 is disconnected from the energy supply network 104, the power supply unit uses the energy received from the energy storage unit 207 or the energy generation unit 209 to power each component of the energy supply device 101. Can be supplied.

In the present embodiment, it is assumed that the energy supply device 101 associates the information regarding the amount of energy possessed by the energy storage unit 207 with its own identifier and holds it in the HDD 204. The information held in the HDD 204 may be provided to an external device (for example, the management device 102) via the NIC 205 at a periodic or predetermined timing described later.

(Functional block diagram)
FIG. 3 is a functional block diagram of the energy supply device 101 according to the present embodiment. The CPU 201 of the energy supply device 101 functions as a failure detection unit (abnormality detection unit) 301, an operation information acquisition unit 302, and a communication unit 303 by executing a program.

The fault detection unit 301 detects that the energy supply device 101 has been disconnected from the energy supply network 104. In one example, the failure may be detected by receiving a signal from the management device 102 notifying that the failure has occurred in the energy supply network 104. The operation information acquisition unit 302 acquires information that can specify the location of the energy supply device 101 and information on the amount of remaining energy held. The information that can specify the location of the energy supply device 101 may be the position information itself of the energy supply device 101. When the management device 102 stores the identifier of the energy supply device 101 in association with the position information, the identifier may be used. Information on the amount of residual energy possessed by the energy supply device 101 can be acquired via the energy storage unit 207 and the energy generation unit 209. The remaining energy amount is, for example, a numerical value corresponding to the amount of energy held by the energy storage unit 207, such as electric power amount, voltage, charging time, atmospheric pressure, replenishment time, number of supply times, or elapsed time since the last replenishment. Can be a number for. Further, for example, information regarding the amount of energy generated by the energy generation unit 209 within a predetermined period up to the present may be included. The communication unit 303 notifies the management device 102 of the operation information when a failure occurs (when an abnormality occurs) in the energy supply network 104.

[Management device]
(Hardware configuration)
FIG. 4 is a diagram showing an example of the hardware configuration of the management device 102 according to the present embodiment. The management device 102 here can function as a management server that manages the state of each energy supply device 101.

The management device 102 includes a CPU 401, a RAM 402, a ROM 403, an HDD 404, a NIC 405, a display device 406, an input device 407, and an energy supply network I / F 408. The parts are communicably connected to each other via the internal bus 409. The CPU 401 controls the entire processing of the management device 102. The RAM (Random Access Memory) 402 is a volatile storage area and is used as a work memory or the like. The ROM (Read Only Memory) 403 is a non-volatile storage area, and holds various programs and data. The HDD (Hard Disk Drive) 404 is a non-volatile storage area and holds various data. The NIC (Network Interface Card) 405 controls communication with an external device via an external network (not shown), and transmits / receives various data. The communication method here is not limited to wired / wireless and communication methods, and these may be combined. The display device 406 displays various data to the user. The input device 407 accepts inputs and operations from the user. The energy supply network I / F408 is connected to the energy supply network 104 and detects a failure that has occurred in the energy supply network 104. In addition to the failure, other defects, failures, abnormalities, etc. may be used. For example, when the energy supply network 104 is a power network, the energy supply network I / F406 monitors the voltage and frequency fluctuations of the power network (energy supply network), and a failure occurs in the energy supply network 104 according to a predetermined condition. It can be judged that it was done. The predetermined condition may include, for example, a case where the voltage drops below a predetermined value or a case where the magnitude of the voltage fluctuation or the frequency fluctuation is larger than the predetermined threshold value. There may be a plurality of energy supply networks I / F 406, or they may be distributed and arranged on the energy supply network 104. This makes it possible to more accurately identify the location where the failure of the energy supply network 104 has occurred.

(Functional block diagram)
FIG. 5 is a diagram showing an example of a functional block diagram of the management device 102 according to the present embodiment. The management device 102 includes an energy supply device management unit 501, an operation information reception unit 502, a supply capacity determination unit 503, an information provision unit 504, an energy supply device information DB 507, a communication unit 506, and a failure detection unit (abnormality detection unit) 510. Be prepared. Further, the management device 102 may be configured to include the mobile information management unit 505, the mobile information DB 508, and the map information DB 509. The CPU 401 of the management device 102 can function as at least one functional block of the management device 102 by executing a program.

The energy supply device management unit 501 manages the information (operation information) of the energy supply device 101 provided at each location in the energy supply device information DB 507 and updates it in a timely manner. The energy supply device management unit 501 can also operate as a position information acquisition means for acquiring the location of the energy supply device 101 based on the identifier of the energy supply device 101 in cooperation with the energy supply device information DB 507. The operation information receiving unit 502 acquires the operation information of each energy supply device 101 via the communication network 105. The configuration is not limited to this, and the operation information receiving unit 502 may be configured to receive and store various information transmitted from the moving body 103 periodically or at a predetermined timing. ..

The supply capacity determination unit 503 determines whether or not the energy supply device 101 can supply energy based on the operation information received from a certain energy supply device 101. This determination can be made at the timing when the operation information is received from the energy supply device 101, the timing when the inquiry for the energy supply device 101 is received from the mobile body 103, and the like. The information providing unit 504 can provide the moving body 103 with information regarding the location of the energy supply device 101 capable of supplying energy. In one example, the management device 102 has a function as a Web server, and information on the location of the energy supply device 101 as a movement plan together with the map information stored in the map information DB 509 on the moving body 103 that has accessed the management device 102. May be sent. The notification to the mobile body 103 may include at least information about the location of the energy supply device 101, and may further include information about available energy, energy supply price, or uptime. Further, in another example, the management device 102 has a function as a mail server or cooperates with another mail server, and based on the information of the mobile information DB 508, energy is applied to a specific mobile 103. Information on the supply device 101 may be provided. The mobile information management unit 505 manages and updates various information provided by the mobile 103 (hereinafter referred to as mobile information) in the mobile information DB 508. The various information provided by the moving body 103 may be, for example, information about the position of the moving body 103, the amount of remaining energy, the moving distance, the moving time, or the destination. The communication unit 506 can be used to receive the operating state from each energy supply device 101 or to provide the user with information about the location of the energy supply device 101 capable of supplying energy. The management device 102 may be configured to have a screen as a user interface in order to provide information about the energy supply device 101 capable of supplying energy.

The energy supply device information DB 507 is a database for managing an operating state, including information that can specify the remaining energy amount or location held by each energy supply device 101. In addition, information such as the location information of the energy supply device 101 and the type of energy to be handled may also be managed. The mobile body information DB 508 is a database for managing various information (type of energy used, remaining capacity, location information, movement history, etc.) regarding the mobile body 103. The map information DB 509 is a database for holding map information regarding the area to be managed.

The functions of these management devices 102 may be realized by a plurality of devices. In such a case, the devices having each function may be connected to each other so as to be communicable and operate as an energy management system.

[Processing flow]
FIG. 6 is a flowchart showing an example of processing of the information processing system 100 according to the present embodiment. This flowchart is realized by the energy supply device 101 and the management device 102 having each CPU read a program held in a ROM or the like and function as each processing unit shown in FIG. 4 or FIG.

In S601, the management device 102 detects the failure of the energy supply network 104. In one example, it can be determined that a failure has occurred when a signal notifying that the energy supply network 104 has failed is received from a sensor on the energy supply device 101 or the energy supply network 104 or another server. If it is determined in S601 that the energy supply network 104 has failed (YES in S601), the management device 102 advances the process to S602. If it is not determined in S601 that the energy supply network 104 has failed (NO in S601), the management device 102 returns the process to S601. When the management device 102 detects that the energy supply network 104 has a failure in S601, the energy supply device 101 may be notified via the communication unit 506. In S602, the management device 102 requests the energy supply device 101 for operation information. As an example, in S602, the management device 102 may notify the energy supply device 101 of the occurrence of a failure, and the energy supply device 101 that receives the failure may be configured to transmit the operation information to the management device 102. The management device 102 is S602, and it is not necessary to request operation information from all the energy supply devices 101 managed by the management device 102, and the energy supply device 101 is not supplied with energy from the energy supply network 104 due to a failure. You may request the operation information only from.

Next, when the energy supply device 101 receives a request for operation information from the management device 102 in S611, the energy supply device 101 acquires the operation information in S612. The information acquired here is information necessary for acquiring the position information of the energy supply device 101, and may include an identifier of the energy supply device 101, position information, and the like. Further, the operation information includes information on the amount of energy generated within a predetermined period in the past or the predicted amount of energy that can be generated within a predetermined period in the future when the energy supply device 101 has the energy generation unit 209. It may be included. Further, when the energy supply device 101 has the energy storage unit 207, the remaining amount of energy possessed by the energy storage unit 207 may be included. After that, the energy supply device 101 advances the processing to S613. In S613, the energy supply device 101 transmits the operation information to the management device 102, and returns the process to S612. It should be noted that the process may be put to sleep for a certain period of time before returning the process from S613 to S612.

Next, in S603, the management device 102 receives operation information from the energy supply device 101. Subsequently, the process proceeds to S604, and information about the energy supply device 101 that has transmitted the operation information is acquired from the energy supply device information DB. Subsequently, the management device 102 advances the processing to S605, and determines whether the energy supply device 101 can supply energy. In one example, it may be determined whether the amount of residual energy held by the energy supply device 101 is equal to or greater than the threshold value, and it may be determined that the energy supply device 101 can supply energy. The threshold value may be a predetermined value such as 100 kWh, or may be a ratio of the amount of energy possessed to the amount of energy possessed by the energy supply device 101. Further, the threshold value may be set by the owner of the energy supply device 101, the manufacturer, or the management device 102. In another example, the amount of energy consumed or generated by the energy supply device 101 within a predetermined time is predicted and predicted based on the amount of residual energy acquired from the energy supply device information DB 507 and the amount of residual energy included in the operation information. The determination may be made based on the amount of energy. Thereby, the power consumption of the facility in which the energy supply device 101 is arranged can be estimated. When it is determined in S605 that the energy supply device 101 can supply energy (YES in S605), the management device 102 advances the process to S606. When it is determined in S605 that the energy supply device 101 cannot supply energy (NO in S605), the management device 102 returns the process to S603.

In S606, the management device 102 provides information about the location of the energy supply device 101. In one example, an energy supply that is located within a predetermined distance from the position of the moving body 103 that has inquired about the position of the energy supply device 101 capable of supplying energy and can supply the energy used by the moving body 103 for movement. Information about the device 101 may be transmitted. The position of the moving body 103 may be included in the inquiry about the position of the energy supply device 101 capable of supplying energy, or may be provided by the moving body information management unit 505. Alternatively, as described above, it may be provided by Web access or by e-mail.

When the management device 102 transmits a request for operation information to the energy supply device 101 in S602, communication is performed via the communication network 105, but if there are a plurality of communication networks 105, one of them is used. You can use the communication network of. Any communication network may be used for the processing of S613 in which the energy supply device 101 transmits operation information and the processing of S606 in which the management device 102 provides information that can specify the location of the energy supply device 101. Further, the communication networks used in the processes of S602, S613, and S606 may be the same or different.

As described above, in the present embodiment, when the energy supply device has a remaining amount of energy that can be supplied when a failure of the energy supply network occurs, the energy supply device notifies the management device that the energy can be supplied. .. In one example, the energy supply device may be capable of supplying power other than the mobile body connected to the energy supply device. For example, the energy supply device may supply electric power for operating one or more components of the energy supply device or energy for operating a facility in which the energy supply device is installed. In such a case, the amount of residual energy possessed by the energy supply device may change even when the moving body is not supplied with energy. Therefore, the energy supply device disconnected from the energy supply network may periodically notify the management device of the remaining energy amount. This makes it possible to grasp the amount of electric power used for applications other than the supply to the mobile body.

Next, with reference to FIG. 7, an example of processing in the case where energy is supplied from the energy supply device 101 to the moving body 103 will be described.

In S701, the energy supply device 101 determines whether or not there is a connection to the energy supply unit 208. In one example, when the energy supply device 101 supplies electric power, the moving body 103 is connected to the charging plug functioning as the energy supply unit 208, so that the energy supply device 101 determines that the energy supply unit 208 is connected. .. In another example, energy is generated when the moving body 103 moves within a predetermined distance from the energy supply unit 208, or when the user of the moving body 103 operates a user interface (not shown) provided in the energy supply device 101. It may be determined that the supply unit 208 has a connection. That is, when the mobile body 103 receives energy from the energy supply device 101 now or in the near future, it may be determined that the energy supply unit 208 has been connected. If there is no connection to the energy supply unit 208 (NO in S701), the energy supply device 101 returns the process to S701. When the mobile body 103 is connected to the energy supply unit 208 (YES in S701), the energy supply end notification is subsequently transmitted to the management device 102 in S702. Subsequently, in S703, the energy supply device 101 supplies energy to the moving body 103 connected to the energy supply unit 208. In the present embodiment, when the moving body 103 is connected to the energy supply unit 208, the energy supply device 101 transmits the energy supply end notification, but the moving body 103 transmits the energy supply end notification. It is also good. The energy supply end notification by the energy supply device 101 may include not only whether or not the notification is possible, but also information about the remaining energy amount and the energy supply unit 208. For example, when the energy supply device 101 includes two energy supply units 208 and one moving body 103 moves to the energy supply device 101, even if information that ends the energy supply of only one energy supply unit 208 is included. good. The energy supply may be stopped after the energy supply to the moving body 103 connected to the energy supply unit 208 is completed.

When the management device 102 receives the energy supply end notification in S711, the process proceeds to S712 and ends the provision of the location information of the energy supply device 101 that has transmitted the energy supply end notification. In one example, the location information of the energy supply device 101 that has transmitted the energy supply end notification may be deleted from the information provided to the user, or the information indicating that the energy supply device 101 cannot supply energy may be stored in the moving body 103. May be sent to the user of. Further, the provision of the location information may be terminated by some users or all users. For example, the location information of the energy supply device 101 may not be transmitted to the user of the mobile body 103 that has already been supplied with energy by the energy supply device 101. This avoids a situation in which when one moving body 103 is supplied with energy from the energy supply device 101, another moving body 103 moves to the energy supply device 101 and cannot receive the energy supply. be able to.

[Operation information]
FIG. 8 shows an example of operation information used when the energy supply device 101 according to the present embodiment notifies the management device 102 of the state of the energy supply device 101 when a failure of the energy supply network 104 is detected. It is a figure.

The identifier 801 is an identifier of the energy supply device 101, and is used to acquire the position information of the energy supply device 101 from the energy supply device information DB 507. The date and time 802 is the time when the energy supply network 104 fails. The energy type 803 is a type of energy that can be supplied by the energy supply device 101. The remaining energy 804 is the amount of residual energy possessed by the energy storage unit 207 of the energy supply device 101. The energy generation amount 805 is an energy amount generated by the energy generation unit 209 within the past predetermined time. Alternatively, it is an estimated amount of energy generated by the energy generation unit 209 within a predetermined time. When the energy supply device 101 does not have the energy generation unit 209, the energy generation amount 805 of the energy supply device 101 may be omitted as shown in FIG. 7B.

The operation information shown in FIG. 8 is an example and is not limited to this. For example, as shown in FIG. 7C, other information may be included depending on the type of energy supplied by the energy supply device 101.

<Second embodiment>
In the first embodiment, the energy supply device 101 receives the notification of the failure of the energy supply network 104 from the management device 102, and transmits the operation information at predetermined intervals. However, the energy supply device 101 may detect a failure of the energy supply network 104 and start transmitting operation information. Further, in the first embodiment, the management device 102 determines whether the energy supply device 101 can supply energy. However, it may be determined whether the energy supply device 101 can supply energy based on the amount of residual energy. In the present embodiment, the energy supply device 101 that detects a failure of the energy supply network 104 and determines that energy can be supplied will be described. The description of the same configuration or processing as that of the first embodiment will be omitted.

FIG. 9 is an example of a process executed by the energy supply device 101 according to the present embodiment. This processing flow is realized by the CPU of the energy supply device 101 reading a program held in a ROM or the like and functioning as each processing unit shown in FIG.

In S901, the energy supply device 101 determines whether or not the energy supply network 104 has failed. In one example, the energy supply network I / F 206 may detect a failure in the energy supply network 104. For example, when the energy supply device 101 supplies power, the energy supply network I / F 206 monitors the state of the power network (energy supply network), and it is said that a failure has occurred in the energy supply network 104 according to a predetermined condition. I can judge. The predetermined condition may include, for example, a case where the voltage drops below a predetermined value or a case where the magnitude of the voltage fluctuation is larger than a predetermined threshold value. If the energy supply network 104 is faulty (YES in S901), the energy supply device 101 advances processing to S902. If the energy supply network 104 has not failed (NO in S901), the energy supply device 101 determines that it can operate normally, and returns the process to S901. When returning the process to S901, the process may be waited for a certain period of time.

In S902, the energy supply device 101 determines whether or not the communication with the management device 102 is normally performed via the NIC 205, that is, whether or not the communication network 105 has a failure. For example, the energy supply device 101 may detect a failure of the communication network 105 by establishing communication with the management device 102. Alternatively, the energy supply device 101 may determine that the failure of the communication network 105 has not occurred by receiving the connection request from the management device 102. When the failure is detected by receiving the signal notifying the failure from the management device 102 in S901, the processing of S902 may be omitted. If it is determined that the communication network 105 has not failed (NO in S902), the energy supply device 101 proceeds to S612, and if it is determined that the communication network 105 has a failure (YES in S902). ), End the process.

In S612, the energy supply device 101 acquires the operation information of the energy supply device 101 by the operation information acquisition unit 302. In one example, at least one of the types of energy that can be supplied by the energy supply device 101 or the amount of residual energy may be updated. Subsequently, the energy supply device 101 advances the processing to S613 and transmits the operation information to the management device 102. Subsequently, the energy supply device 101 advances the processing to S903.

In S903, the energy supply device 101 determines whether or not energy can be supplied. Here, it may be determined that energy can be supplied when the amount of residual energy is equal to or greater than the threshold value, and energy cannot be supplied when the amount of residual energy is less than the threshold value. In one example, the amount of residual energy of the energy supply device 101 or the amount of energy expected to be consumed (estimated amount of energy consumed), or the amount of energy expected to be generated by the energy generation unit 209 (estimated amount of energy generated). Determine if it is above the threshold. In one example, it may be determined whether or not the value obtained by subtracting the estimated energy consumption amount from the sum of the residual energy amount and the estimated generated energy amount of the energy supply device 101 is equal to or more than the threshold value. When the energy supply device 101 determines that energy can be supplied (YES in S903), the energy supply device 101 returns the process to S612 and transmits the operation information to the management device 102. You may wait for a predetermined time before returning the process to S612. If the energy supply device 101 determines that energy supply is not possible (NO in S903), the process proceeds to S904, and the management device 102 is notified that energy supply is not possible. In one example, the signal notifying the management device 102 that energy supply is not possible may be operational information. The management device 102 notified by the energy supply device 101 that the energy cannot be supplied does not have to provide the location information of the energy supply device 101.

As described above, the energy supply device according to the present embodiment transmits operation information to the management device when a failure occurs in the energy supply network. As a result, the management device 102 can determine the occurrence of a failure in the energy supply network by receiving the operation information.

Further, even if the remaining energy amount of the energy supply device is reduced by the supply to the moving body after the energy supply device notifies the management device of the operation information by the processing flow described above, the management device supplies the energy. The amount of residual energy of the device can be grasped.

<Third embodiment>
In the first embodiment, when a failure occurs in the energy supply network, the management device determines whether the energy supply device can supply energy according to the operation information received from the energy supply device, and provides the information. .. In one example, the management device may control the operation of the energy supply device according to the operation information received from the energy supply device. In the present embodiment, with reference to FIG. 10, a management device that determines whether the energy supply device can supply energy based on the operation information received from the energy supply device and controls the energy supply device will be described. The description of the same configuration or processing as that of the first embodiment or the second embodiment will be omitted.

In FIG. 10, if the energy supply device 101 is not capable of supplying energy in S605 (NO in S605), or after providing information regarding the location of the energy supply device 101 in S606, the process proceeds to S1001. In S1001, the management device 102 transmits a control command for controlling the energy supply device 101. In one example, the control command is transmitted to the energy supply device 101. For example, when the energy supply device 101 can supply energy in a plurality of energy types and can convert the energy types, the management device 102 requests that the amount of residual energy in each energy type be adjusted. You may. For example, the management device 102 that has received the operation information of FIG. 7C may request that 40 liters of hydrogen gas be converted into electric power. In another example, the management device 102 may control the energy supply device 101 in which the moving body 103 does not exist in the vicinity to supply energy to the facility in which the energy supply device 101 is installed.

In another example, the control command is transmitted to the manager or inspector of the energy supply device 101. For example, the management device 102 may request an inspector to inspect the energy supply device 101 for abnormalities.

As described above, the management device according to the present embodiment transmits a control command regarding the energy supply device when a failure occurs in the energy supply network. As a result, the operating status of the energy supply device can be controlled by the management device.

<Other embodiments>
The energy supply device may not notify the management device of the remaining energy depending on the setting even if the remaining energy is available. For example, if the energy supply device retains the remaining amount of energy that can be supplied, but a failure occurs in the energy supply network, a predetermined amount of energy should be supplied to a house or the like in which the energy supply device is attached. If it is set. This prevents the management device from guiding the mobile body to an energy supply device that does not supply energy to the mobile body.

Further, the management device 102 may be integrally configured with the energy supply device 101, or may be integrally configured with the moving body 103.

<Summary of embodiments>
1. 1. The management device (for example, 102) of the above embodiment is a communication network with a plurality of energy supply devices (for example, 101) capable of receiving energy from an energy supply network (for example, 104) and supplying energy to a mobile body (for example, 103). A management device capable of communicating via (for example, 105), the first information capable of specifying the location of the energy supply device from the energy supply device when an abnormality occurs in the energy supply network, and the energy supply device. An operation information receiving means (for example, 502 and S603) that receives operation information including a second information about the held energy via the communication network, and at least the first information among the operation information are communicated with each other. It is characterized by comprising providing means (eg, 504 and S606) provided to the mobile body via a network or via another communication network different from the communication network.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

2. 2. The management device of the above embodiment further includes determination means (for example, 503 and S605) for determining whether or not the energy supply device can supply energy based on the received operation information, and the determination means. When it is determined that energy can be supplied in the above-mentioned mobile body, at least the first information among the operation information is transmitted through the communication network or through another communication network different from the communication network. It is characterized by providing to.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

3. 3. The management device of the above embodiment is further provided with a failure detecting means for detecting a failure of the energy supply network.

This allows the management device to notify that the energy supply device has failed.

4. The management device of the above embodiment further comprises a specific means (for example, 505) for identifying the moving body located within a predetermined distance from the energy supply device, and the providing means transmits information to the moving body. Then, the information is provided to the moving body, and the providing means provides at least the first information of the operating information only to the moving body specified by the specific means via the communication network or the said. It is characterized by transmitting via another communication network different from the communication network.

As a result, the management device can transmit information that can identify the position information of the energy supply device only to the mobile body that may move to the energy supply device, and the network load can be reduced.

5. The operation information of the above embodiment is characterized by including the amount of residual energy of the energy supply device.

As a result, even if the energy supply device is disconnected from the energy supply network, the energy supply device operates, the facility to which the energy supply device is attached is operated, or the energy supply device is supplied to the moving body. It becomes possible to store energy. In addition, by including the remaining energy amount in the operation information, the management device can grasp the remaining energy amount, and the management device may guide the moving body to the energy supply device in which the remaining energy amount is not sufficient. Can be lowered.

6. The operation information of the above embodiment is characterized by including an expected amount of energy generated by the energy supply device.

As a result, even if the energy supply device is disconnected from the energy supply network, the energy supply device operates, the facility to which the energy supply device is attached is operated, or the energy supply device is supplied to the moving body. Can generate energy. Further, by notifying the management device of the amount expected to be generated by the energy generation unit, the management device can predict the amount of residual energy possessed by the energy supply device.

7. When the energy supply device of the above embodiment receives information via the communication network indicating that the mobile body that has provided the information receives energy from the energy supply device, the providing means is the first. 1 It is characterized by stopping the provision of information.

This allows the management device to know that the energy supply device has supplied the moving body.

8. The energy of the above embodiment is electric power, the energy supply network is an electric power network, and the mobile body is an electric vehicle.

Thereby, even if the power grid fails, the management device can guide the electric vehicle to the energy supply device if the energy supply device can charge the electric vehicle.

9. The information processing method of the above embodiment is a communication network (for example, 105) and a plurality of energy supply devices (for example, 101) capable of receiving energy from an energy supply network (for example, 104) and supplying energy to a mobile body (for example, 103). ) Is an information processing method executed by a management device (for example, 102) capable of communicating via), and the first information capable of specifying the location of the energy supply device from the energy supply device when an abnormality occurs in the energy supply network. The operation information receiving step (for example, S603) for receiving the operation information including the second information about the energy held by the energy supply device via the communication network, and at least the first of the operation information. It is characterized by comprising a providing step (for example, S606) of providing information to the mobile body via the communication network or via another communication network different from the communication network.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

10. The energy supply device (for example, 101) of the above embodiment is an energy supply device capable of receiving energy supply from an energy supply network (for example, 104) and supplying energy to a moving body (for example, 103), and is a management device (for example, 103). A receiving means (for example, S611) that receives a request for operation information from 102) via a communication network (for example, 105), and first information that can specify the location of the energy supply device when the request for operation information is received. It is characterized by having a transmission means (for example, S613) for transmitting the operation information including the second information about the energy held by the energy supply device to the management device via the communication network.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

11. The energy supply device of the above embodiment further includes an abnormality detecting means for detecting an abnormality in the energy supply network, and when the abnormality is detected, the transmitting means can specify the location of the energy supply device. The operation information including the information and the second information regarding the energy held by the energy supply device is transmitted to the management device via the communication network.

As a result, the energy supply device can detect the failure of the energy supply network at high speed.

12. The energy supply device of the above embodiment is characterized in that the operation information is transmitted when the amount of energy that can be supplied becomes less than the threshold value.

As a result, it is possible to notify the management device that the energy supply device will not be able to supply energy within a predetermined period, and it is possible to prevent the management device from inducing the moving object to the energy supply device.

13. The information processing system of the above embodiment is an information processing system including a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body, and a management device, and the energy supply device is , Operation information including the first information that can specify the location of the energy supply device and the second information about the energy held by the energy supply device when an abnormality occurs in the energy supply network is transmitted via the communication network. The management device includes a transmitting means for transmitting to the management device, and the management device has a receiving means for receiving the operation information and at least the first information among the operation information via the communication network or with the communication network. Is provided with a providing means provided to the user of the mobile body via another different communication network.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

14. In the program of the above embodiment, a plurality of energy supply devices capable of receiving energy from the energy supply network and supplying energy to the mobile body and a management device capable of communicating via the communication network are used to generate an abnormality in the energy supply network. Occasionally, operating information including first information that can identify the location of the energy supply device from the energy supply device and second information about the energy held by the energy supply device is received via the communication network. As an operation information receiving means, a providing means for providing at least the first information among the operation information to the user of the mobile body via the communication network or another communication network different from the communication network. Make it work.

Thereby, even if the energy supply network fails, the management device can guide the moving body to the energy supply device if the energy supply device can supply energy to the moving body.

100: Information processing system, 101: Energy supply device, 102: Management device, 103: Mobile device, 104: Energy supply network, 105: Communication network, 201: CPU, 202: RAM, 203: ROM, 204: HDD, 205 : NIC, 206: Energy supply network I / F, 207: Energy storage unit, 208: Energy supply unit, 209: Energy generation unit, 210: Bus

Claims (16)

A management device capable of communicating via a communication network with a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body.
When an abnormality occurs in the energy supply network, the first information that can specify the location of the energy supply device from the energy supply device , the remaining energy amount of the energy supply device, or the expected amount of energy that can be generated by the energy supply device. An operation information receiving means for receiving operation information including the second information regarding the above communication network, and
A means for providing the mobile body with at least the first information among the operation information via the communication network or another communication network different from the communication network.
A management device characterized by being provided with. When the mobile body that has provided the first information receives information indicating that the moving body receives energy from the energy supply device via the communication network, the providing means stops providing the first information. The management device according to claim 1.
A management device capable of communicating via a communication network with a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body.
The operation information including the first information that can specify the location of the energy supply device from the energy supply device and the second information about the energy held by the energy supply device when an abnormality occurs in the energy supply network is described above. Operation information receiving means received via the communication network,
A means for providing the mobile body with at least the first information among the operation information via the communication network or another communication network different from the communication network.
Equipped with
When the mobile body that has provided the first information receives information indicating that the moving body receives energy from the energy supply device via the communication network, the providing means stops providing the first information. A management device characterized by that. Further, it has a determination means for determining whether or not the energy supply device can supply energy based on the received operation information.
When the determination means determines that energy can be supplied, the providing means transfers at least the first information among the operation information via the communication network or another communication different from the communication network. The management device according to any one of claims 1 to 3, wherein the mobile body is provided to the moving body via a network. The management device according to any one of claims 1 to 4, further comprising an abnormality detecting means for detecting an abnormality in the energy supply network. Further provided with specific means for identifying the moving object located within a predetermined distance from the energy supply device.
The providing means provides the information to the moving body by transmitting information to the moving body via the communication network.
For only the mobile body specified by the specific means, the providing means provides at least the first information among the operation information via the communication network or through another communication network different from the communication network. The management device according to any one of claims 1 to 5 , characterized in that transmission is performed. The management device according to any one of claims 1 to 6 , wherein the energy is electric power, the energy supply network is an electric power network, and the mobile body is an electric vehicle. It is an information processing method executed by a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a mobile body and a management device capable of communicating via a communication network.
When an abnormality occurs in the energy supply network, the first information that can specify the location of the energy supply device from the energy supply device , the remaining energy amount of the energy supply device, or the expected amount of energy that can be generated by the energy supply device. An operation information receiving process for receiving operation information including the second information regarding the above communication network, and
A providing step of providing at least the first information among the operation information to the mobile body via the communication network or another communication network different from the communication network.
An information processing method characterized by being provided with. It is an information processing method executed by a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body and a management device capable of communicating via a communication network.
The operation information including the first information that can specify the location of the energy supply device from the energy supply device and the second information about the energy held by the energy supply device when an abnormality occurs in the energy supply network is described above. The operation information receiving process received via the communication network and
A providing step of providing at least the first information among the operation information to the mobile body via the communication network or another communication network different from the communication network.
Equipped with
When the moving body that has provided the first information receives information indicating that the moving body receives energy from the energy supply device via the communication network, the provision of the first information is stopped in the provision step. An information processing method characterized by that. An energy supply device that can supply energy to a moving body while receiving energy from the energy supply network.
A receiving means for receiving a request for operation information from a management device via a communication network,
Upon receiving the request for the operation information, the first information that can identify the location of the energy supply device and the second information regarding the remaining energy amount of the energy supply device or the expected amount of energy that can be generated by the energy supply device. And a transmission means for transmitting the operation information including the above to the management device via the communication network.
An energy supply device characterized by having. An abnormality detecting means for detecting an abnormality in the energy supply network is further provided, and when the abnormality is detected, the first information that the transmitting means can specify the location of the energy supply device and the energy supply device hold the information. The energy supply device according to claim 10, wherein the operation information including the second information regarding the energy is transmitted to the management device via the communication network. The energy supply device according to claim 10 or 11, wherein when the amount of energy that can be supplied becomes less than a threshold value, the operation information is transmitted. An information processing system consisting of a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body, and a management device.
The energy supply device has first information that can specify the location of the energy supply device when an abnormality occurs in the energy supply network, and the amount of residual energy of the energy supply device or the prediction of the energy that can be generated by the energy supply device. A transmission means for transmitting operation information including a second information regarding the amount to the management device via a communication network is provided.
The management device is
A receiving means for receiving the operation information and
A means for providing at least the first information among the operation information to the user of the mobile body via the communication network or another communication network different from the communication network.
An information processing system characterized by being equipped with. An information processing system consisting of a plurality of energy supply devices capable of receiving energy supply from an energy supply network and supplying energy to a moving body, and a management device.
The energy supply device includes operation information including first information that can specify the location of the energy supply device and second information about the energy held by the energy supply device when an abnormality occurs in the energy supply network. A transmission means for transmitting to the management device via a communication network is provided.
The management device is
A receiving means for receiving the operation information and
A means for providing at least the first information among the operation information to the user of the mobile body via the communication network or another communication network different from the communication network.
Equipped with
When the moving body that has provided the first information receives information indicating that the moving body receives energy from the energy supply device via the communication network, the providing means stops providing the first information. An information processing system characterized by this. Multiple energy supply devices that can receive energy from the energy supply network and supply energy to mobile objects and management devices that can communicate via the communication network.
When an abnormality occurs in the energy supply network, the first information that can specify the location of the energy supply device from the energy supply device , the remaining energy amount of the energy supply device, or the expected amount of energy that can be generated by the energy supply device. Operation information receiving means for receiving operation information including the second information regarding the above communication network.
A program that functions as a providing means for providing at least the first information among the operation information to the user of the mobile body via the communication network or another communication network different from the communication network. Multiple energy supply devices that can receive energy from the energy supply network and supply energy to mobile objects and management devices that can communicate via the communication network.
The operation information including the first information that can specify the location of the energy supply device from the energy supply device and the second information about the energy held by the energy supply device when an abnormality occurs in the energy supply network is described above. Operation information receiving means received via the communication network,
A program that functions as a providing means for providing at least the first information among the operation information to the user of the mobile body via the communication network or another communication network different from the communication network. hand,
When the mobile body that has provided the first information receives information indicating that the moving body receives energy from the energy supply device via the communication network, the providing means stops providing the first information. ,program.

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