JP2024075875A - Information processing system, information processing method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance an incentive when a user as a consumer uses a power storage facility.

SOLUTION: A user management server 11 includes: an achievement acquisition unit that acquires a charge/discharge achievement including a charge achievement obtained by charging a storage battery 16 by power supplied from a commercial power system, and a discharge achievement obtained when the storage battery 16 is discharged, from a battery control unit that controls charge/discharge of the storage battery 16 related to a user; an identification unit that calculates a reward granting ratio by using a profit obtained by a price difference between a power market price per unit power in a charge period when the storage battery 16 is charged by power supplied from the commercial power system and a power market price per unit power in a discharge period when the storage battery 16 is discharged; and a reward granting unit that calculates a reward to be granted to the user by using accumulated discharge power of the storage battery 16 based on the charge/discharge achievement and the reward granting ratio to record a calculated reward in association with the user in a storage unit.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to an information processing system, an information processing method, and a program.

In recent years, energy storage equipment that stores electricity supplied from a commercial power system has been installed in ordinary homes or facilities such as stores (see, for example, Patent Document 1). In the system described in Patent Document 1, consumers who receive electricity from the commercial power system use electricity from storage batteries in response to requests (demand response) from aggregators, etc., thereby reducing the amount of electricity supplied from the commercial power system. This system also calculates an appropriate remuneration according to the amount of regulated power as remuneration for consumers who comply with the requests.

JP 2018-170925 A

However, in the above system, consumers can only receive rewards if they respond to demand response. This means that consumers do not have a sufficient incentive to use energy storage facilities.

In one aspect, an information provision system that solves the above problem is provided. The information provision system includes: a result acquisition unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge result including a charging result of the storage battery being charged with power supplied from a commercial power system and a discharging result of the storage battery being discharged; a determination unit that calculates a reward grant rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period during which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period during which the storage battery is discharged; and a reward grant unit that calculates a reward to be granted to the user using the discharge result based on the charge and discharge results and the reward grant rate, and associates the calculated reward with the user and records it in a storage unit.

In one aspect, an information processing method for solving the above problem is provided. The information processing method includes a result acquisition process in which one or more computers acquire, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge result including a charging result in which the storage battery is charged with power supplied from a commercial power system and a discharging result in which the storage battery is discharged; a determination process in which a reward grant rate is calculated using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged; and a reward grant process in which a reward to be granted to the user is calculated using a discharge result based on the charge and discharge results and the reward grant rate, and the calculated reward is recorded in a storage unit in association with the user.

In one aspect, a program for solving the above problem is provided. The program causes one or more computers to function as: a result acquisition unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge result including a charge result in which the storage battery is charged with power supplied from a commercial power grid and a discharge result in which the storage battery is discharged; a determination unit that calculates a reward grant rate using a profit obtained from a price difference between the market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power grid and the market price of electricity per unit power during a discharging period in which the storage battery is discharged; and a reward grant unit that calculates a reward to be granted to the user using the discharge result based on the charge and discharge results and the reward grant rate, and associates the calculated reward with the user and records it in a storage unit.

The present invention can increase the incentive for consumers to use energy storage facilities.

FIG. 1 is a diagram illustrating a schematic configuration of an information processing system according to an embodiment. FIG. 2 is a diagram illustrating a hardware configuration of the information processing apparatus according to the embodiment. FIG. 2 is a block diagram showing functions of a charge/discharge management server according to the embodiment. FIG. 4 is a diagram showing a charge/discharge plan according to the embodiment. FIG. 2 is a block diagram showing functions of a user management server of the embodiment. 4 is a schematic diagram showing a structure of user information in the embodiment; FIG. 4 is a schematic diagram showing a structure of charge/discharge management information in the embodiment; FIG. 13 is a flowchart showing the procedure of a reward granting process according to the embodiment. FIG. 13 is a diagram showing a discharge record screen in the embodiment; FIG. 13 is a diagram showing an EC site screen according to another embodiment.

An embodiment of an information processing system, an information processing method, and a program will be described.
<Information Processing System>
As shown in FIG. 1 , a consumer 20 uses a power storage facility 14, a private power generation facility 18, and a power consumption device 19. The power storage facility 14 charges a storage battery 16 with power supplied from a commercial power system or power supplied from the private power generation facility 18. The consumer 20 receives power at a price (electricity rate) designated by an electric utility such as a retail electricity supplier by making a contract for receiving electric services with the electric utility. The electricity rate per unit amount of power may change in conjunction with the transaction price in the power trading market or the amount of electricity used, or may be constant. The power trading market is, for example, a spot market. In the spot market, electricity to be generated or sold the next day is bid on by the day before, and the transaction is concluded.

The private power generation facility 18 is a known facility such as a solar power generation facility used by the consumer 20. The power consumption equipment 19 can be powered by electricity supplied from the commercial power grid and electricity supplied from the power storage facility 14. In this embodiment, the consumer 20 is an ordinary household or a facility. The facility is a store, factory, school, building, etc. The power consumption equipment 19 is an air conditioner, home appliances such as a refrigerator or a washing machine, an electric vehicle, etc. In the following, the consumer 20 is described as a "user".

The power management system 10 is a system separate from the commercial power grid. The power management system 10 controls the charging and discharging of the power storage equipment 14 according to a charging and discharging plan. The power management system 10 also returns a portion of the profits earned by the power company to the user.

The power management system 10 includes a user management server 11, a charge/discharge management server 12, a power storage facility 14, and a user device 13. These devices are connected to each other via a network NW such as the Internet so that they can send and receive various data.

The charge/discharge management server 12 creates a charge/discharge plan for the power storage equipment 14 for each user. The charge/discharge plan is a predetermined schedule for charging and discharging the storage battery 16. The charge/discharge plan includes a charging period and a target value for charging, and a discharging period and a target value for discharging. The target value indicates the state of charge (SOC) indicating the remaining charge or the amount of stored power. The charge/discharge management server 12 also transmits charge and discharge commands to the power storage equipment 14 according to the charge/discharge plan. The charge/discharge management server 12 also acquires charge/discharge performance from the power storage equipment 14. The charge/discharge management server 12 constitutes an information processing system.

The user management server 11 acquires the charging and discharging records from the charging and discharging management server 12. The user management server 11 also distributes the profits of the electric utility company obtained from the charging and discharging of the power storage equipment 14 to each user as a reward. In this embodiment, the user management server 11 constitutes an information processing system.

The power storage equipment 14 controls the charging and discharging of the storage battery 16 based on requests from the charge/discharge management server 12. The power storage equipment 14 charges when electricity rates are low, and discharges when electricity rates are high.

The power storage facility 14 includes a battery control unit 15, a storage battery 16, and a power measurement unit 17. The battery control unit 15 charges and discharges the storage battery 16 according to the charging command and the discharging command received from the charge/discharge management server 12. The storage battery 16 is a secondary battery that can be charged and discharged. The storage battery 16 is associated with a user. For example, the storage battery 16 is owned by the user or rented from an electric utility. The power measurement unit 17 includes a measurement unit that measures the amount of power received from the commercial power system, and a measurement unit that measures the charging power charged by the storage battery 16 and the discharging power discharged by the storage battery 16. The power measurement unit 17 includes a meter that measures the amount of power received by the user (kWh) every predetermined period (e.g., 30 minutes). This meter is a certified meter that complies with the Measurement Act. The power measurement unit 17 also includes a meter that measures the charging and discharging performance of the storage battery 16 every predetermined period. For example, the meter measures the discharge power (kW) of the storage battery 16 at predetermined time intervals (e.g., every 10 minutes). The power measurement unit 17 transmits the charge/discharge performance including the measurement results to the charge/discharge management server 12.

The user device 13 is a device used by a user, such as a personal computer, a multi-function telephone such as a smartphone, etc. The user device 13 displays on a screen the electricity charges that the user plans to pay, the rewards given to the user, etc.

<Hardware Configuration>
2, the hardware configuration of the information processing device H10 constituting the user management server 11 will be described. The information processing device H10 includes a communication device H11, an input device H12, a display device H13, a storage device H14, and a processor H15. Note that this hardware configuration is an example, and it is also possible to realize it by other hardware. Note that the input device H12 and the display device H13 may be omitted.

The communication device H11 is an interface that transmits and receives data by establishing a communication path with another device. For example, the communication device H11 is a network interface or a wireless interface.

The input device H12 is a device that accepts input of various information based on the operation of the person in charge. The input device H12 is, for example, a touch panel, a mouse, a keyboard, etc. The display device H13 is, for example, a display that displays various information.

The storage device H14 (computer-readable medium) stores data and various programs for executing various functions of the user device 13. Examples of the storage device H14 include ROM, RAM, and a hard disk. The storage device H14 includes any available recording medium that can be accessed by a general-purpose or dedicated computer. The storage device H14 stores a program for distributing the profits of the electric utility obtained by charging and discharging the power storage facility 14 to each user as a reward, and various data used to execute the program.

The processor H15 uses the programs and data stored in the storage device H14 to control each process in the user device 13. Examples of the processor H15 include a CPU and an MPU. The processor H15 expands the programs into the RAM and executes various processes for each process.

Processor H15 is not limited to performing software processing for all of the processes it executes. For example, processor H15 may be equipped with a dedicated hardware circuit (e.g., an application specific integrated circuit: ASIC) that performs hardware processing for at least some of the processes it executes. In other words, processor H15 may be configured as any of the following:

[1] One or more processors that operate according to a computer program (software); [2] One or more dedicated hardware circuits that execute at least a portion of various processes; [3] A circuit that includes a combination of these.
The hardware configuration of the charge/discharge management server 12 and the hardware configuration of the user device 13 are similar to that of the information processing device H10, and therefore the description thereof will be omitted.

<Charge/discharge management server functions>
The functions of the charge/discharge management server 12 will be described with reference to Fig. 3. The charge/discharge management server 12 includes a prediction unit 21, a plan creation unit 22, a command unit 23, a price acquisition unit 24, a performance acquisition unit 26, and a profit calculation unit 25.

The prediction unit 21 predicts the trading price of electricity in the electricity trading market during the prediction period. The prediction unit 21 also predicts the user's electricity demand and the amount of power generated by the private power generation facility 18 based on past charging and discharging records and weather forecasts, etc.

The plan creation unit 22 creates a charge/discharge plan for the storage battery 16 based on the information predicted by the prediction unit 21 and the charge/discharge performance of the power storage facility 14. For example, the charge/discharge plan may be a plan for the day after the plan is created, or a plan for one hour later. The plan creation unit 22 records the created charge/discharge plan in a storage unit (not shown).

The command unit 23 transmits control commands to the battery control unit 15 based on the charge and discharge plan. For example, the command unit 23 generates charge commands and discharge commands for each predetermined time based on the charge and discharge plan. The charge command includes a target value for charging. The discharge command includes a target value for discharging. The power storage equipment 14 charges and discharges based on the received charge and discharge commands to reach the target values.

The price acquisition unit 24 acquires a trading price per unit of electricity in the electricity trading market. The trading price is the electricity price for each predetermined time period (e.g., 30 minutes).
The result acquisition unit 26 acquires the charge/discharge results of the storage battery 16 from the battery control unit 15. The charge/discharge results include information that can identify the amount of received power, the charging power, and the discharging power for each predetermined period (e.g., 30 minutes). The result acquisition unit 26 records the acquired charge/discharge results in the charge/discharge information storage unit 27.

The revenue calculation unit 25 calculates the revenue of the electric utility based on a plurality of cases. The calculated revenue is recorded in the charge/discharge information storage unit 27.
The charge/discharge plan created by the plan creation unit 22 will be described with reference to Fig. 4. The plan creation unit 22 creates a plan so that the storage battery 16 is charged during a time period when the trading price of electricity is low, and the amount of electricity received from the commercial power grid is reduced during a time period when the trading price is high. In addition, the plan is created so that the amount of received electricity can be reduced during a time period when a demand response request, which is a request to reduce the amount of received electricity, is likely to be issued.

Figure 4 is an example of a charge/discharge plan for winter. The plan creation unit 22 identifies a lower limit value for the state of charge of the storage battery 16. The lower limit value is 0% or a value greater than 0%. The lower limit value for the state of charge may be set to a value such as "30%" so that the power of the storage battery 16 can be used even in an emergency such as a power outage. The plan creation unit 22 creates a charge/discharge plan so that the state of charge of the storage battery 16 is efficiently maintained between the lower limit value and an upper limit value (e.g. 100%).

The planning unit 22 determines that the period T1, from nighttime to early morning when the trading price in the electricity trading market (hereinafter referred to as the market price) is low, is a period in which the storage battery 16 is charged with power supplied via the commercial power grid. The planning unit 22 determines that the period T2, when the market price is high and the amount of power consumed by the user is large, is a period in which the storage battery 16 is discharged to suppress the reception of power from the commercial power grid. The planning unit 22 also determines that the period T3, when the amount of solar radiation is high and the user's demand for power is low, is a period in which the storage battery 16 is charged with power generated by the private power generation facility 18 (here, photovoltaic power generation facility). The period T4 is a period in which discharging is stopped assuming the possibility of a demand response being activated. The period T5, when the market price is high and the amount of power consumed is high, is a period in which the storage battery 16 is discharged to suppress the reception of power from the commercial power grid.

The command unit 23 outputs a charge command for the charging periods T1 and T3, and a discharge command for the discharging periods T2 and T5.
<User management server functions>
5, the functions of the user management server 11 will be described. The user management server 11 includes a performance acquisition unit 30, a specification unit 31, and a reward granting unit 32. The user management server 11 also includes a user information storage unit 33.

The result acquisition unit 30 acquires charge and discharge results including the charge result of charging the storage battery 16 with power supplied from the commercial power system and the discharge result of discharging the storage battery 16. The charge and discharge results include the amount of power received from the commercial power system, the charge result and charging period indicating the charging power charged into the storage battery 16, and the discharge result and discharging period indicating the discharging power discharged from the storage battery 16.

The determination unit 31 calculates the reward rate using the revenue obtained from the price difference ΔP (P2-P1) between the market price P1 per unit of power during the charging period in which the storage battery 16 is charged with power supplied from the commercial power grid and the market price P2 per unit of power during the discharging period in which the storage battery 16 is discharged. In other words, a difference occurs in the market price of electricity per unit of power between a time period in which electricity rates are low and a time period in which electricity rates are high. Therefore, if the storage battery 16 is charged during a time period in which electricity rates are low and then discharged during a time period in which electricity rates are high, it is possible to reduce electricity rates compared to operating the power consumption device 19 with power received from the commercial power grid without going through the storage battery 16 during a time period in which electricity rates are high. The determination unit 31 calculates the reward rate using the reduced electricity rate as revenue.

In this embodiment, the reward rate is a point rate. The points can be acquired, held, used, etc. by the user 100. The points can be used for electricity services using the storage battery 16 or other services. For example, the user 100 can obtain products in exchange for the points he holds in an electronic commerce system (not shown). The specification unit 31 determines the reward rate as a value obtained by dividing a predetermined percentage of the profits of the electric utility company in the target period by the discharged power (kW) of the storage battery 16 of all users who use the electricity service. When the target period is one year, the reward rate (points/kW) is calculated by dividing the predetermined percentage of the profits by the annual discharged power of all users. The target period for calculating the reward rate is not particularly limited. For example, the target period may be one month or one year.

The determination unit 31 also acquires an operational capacity that is preset by the user 100 and is an allowable range of the capacity of the storage battery 16 that allows control by the battery control unit 15. The determination unit 31 then increases the reward as the operational capacity increases. Specifically, the determination unit 31 associates a fixed amount of reward with the user 100 based on the operating capacity, in addition to a pay-per-use reward based on the reward grant rate and the discharge performance of each user 100.

The reward granting unit 32 calculates a reward using the cumulative discharge power (kW) for each user 100 as the discharge performance based on the charge and discharge performance and the reward granting rate. Then, the calculated reward is granted to the user 100. Specifically, the reward granting unit 32 calculates the reward by multiplying the reward granting rate by the cumulative discharge power of the user 100 during the grant period for which the reward is calculated. The grant period is, for example, one month. The cumulative discharge power used at this time is the accumulated power (kW) discharged by the storage battery 16 during the grant period.

That is, since the storage battery 16 stores the power supplied from the private power generation facility 18 in addition to the power supplied from the commercial power system, the discharged power amount of the storage battery 16 is not equal to the amount of power received via the commercial power system. When measuring the discharged power amount (kWh) of the storage battery 16 to calculate the reward, a certified meter must be used due to the constraints of power measurement. However, if a certified meter for the storage battery 16 is provided in the storage facility 14 in addition to the certified meter that measures the amount of power received from the commercial power system, the cost will increase. For this reason, in this embodiment, the discharged power included in the charge and discharge results is accumulated to calculate the cumulative discharged power. For example, when the meter of the power measurement unit 17 measures the discharged power of the storage battery 16 every 10 minutes, the result acquisition unit 30 assumes that the discharged power is constant for 10 minutes and calculates the amount of discharged power for 10 minutes for each measurement value. Furthermore, the amount of discharged power for 10 minutes based on each measurement value is added six times to obtain the cumulative discharged power for 60 minutes. This cumulative discharge power can be considered as the amount of discharged power (kWh). The greater the cumulative discharge power, the greater the amount of discharged power. In this way, even if the amount of discharged power of the storage battery 16 is not measured, by using the discharged power, it is possible to estimate the amount of discharged power of the storage battery 16 even when there are restrictions on measuring the amount of power or when there are circumstances that make it difficult to measure the amount of power.

The reward granting unit 32 associates the calculated reward with the user 100 and records it in the user information storage unit 33. In this embodiment, the reward is points. That is, the greater the cumulative discharge power, the more points are granted to the user 100. Also, the greater the reward grant rate, the more points are granted to the user 100.

A method for determining the reward award rate by the specification unit 31 will be described in detail.
The reward grant rate is commonly used within the target period. For example, the reward grant rate may be constant or may be updated every year. Alternatively, the reward grant rate may be updated every reward grant period (every month).

The remuneration rate is calculated based on a number of cases within the calculation period of the remuneration rate. In each case, values V1 to V5, which are the profits of the electric utility, are created.
The determination unit 31 calculates a rebate value Vc, which is a predetermined ratio of the value Vall, which is the total of the values V1 to V5 per unit power. This rebate value Vc is the value to be rebated to the user 100. Furthermore, the determination unit 31 divides the rebate value Vc by the discharged power E, which is the cumulative total of the discharged power of all users 100 during the calculation period (Vc/E). As a result, the determination unit 31 obtains a reward grant rate.

We will now explain each case used when calculating values V1 to V5. The first case is arbitrage trading. The value V1 (yen/kWh) obtained in this case is calculated by multiplying the price difference ΔP (yen) between the above-mentioned market prices P1 and P2 by the number of times N1 that arbitrage trading was conducted within the target period. In other words, the value V1 in the first case is the value obtained by charging during periods when electricity rates are low and discharging during periods when electricity rates are high.

The second case is a reduction in the imbalance fee. The imbalance fee is a fee imposed on the electric utility for the difference between the electric utility's supply plan and the amount of power actually supplied when the balance cannot be achieved. The value V2 (yen/kWh) obtained in this case is calculated by multiplying the imbalance fee reduced by controlling the charging and discharging of the storage battery 16 by the number of times N2 in response to the power reduction command.

The third case is responding to a demand response request. Note that the demand response command (reduction request) and the collection of actual results including the amount of power reduction in response may be managed by an aggregator other than the electric utility. By responding to the demand response, the electric utility can receive a response fee. The value V3 (yen/kWh) obtained in this case is calculated by multiplying the response fee per unit of power by the number of times N3 that it occurred during the target period.

The fourth case is a response to a capacity market command. When power becomes scarce and there is an activation command (request for reduction) from the general electricity transmission and distribution company, a response remuneration can be obtained by responding appropriately. For example, the battery control unit 15 reduces the amount of discharged power or supplies surplus power to the commercial power grid (reverse power flow). The value V4 (yen/kWh) obtained in this case is calculated by multiplying the response remuneration per unit of power by the number of times N4 that occurred during the target period.

The fifth case is a reduction in wheeling charges. Wheeling charges are fees paid by businesses to general electricity transmission and distribution businesses as a fee for using the electricity transmission and distribution network. Wheeling charges vary depending on the time of day. The value V5 (yen/kWh) obtained in this case is calculated by multiplying the usage fee per unit of electricity that can be reduced by using the electricity transmission and distribution network during times when wheeling charges are low by the number of uses N5 in the target period. Note that the number of times used in each case is the number that applies to all users 100.

<Data used by the power management system>
The user information 40 and the charge/discharge management information 41 used by the power management system 10 will be described with reference to FIGS. 6 and 7. FIG.

Figure 6 is an example of user information 40. User information 40 is recorded for each user in the user information storage unit 33. User information 40 includes a user ID, accumulated discharged power, planned remuneration, and retained remuneration. The accumulated discharged power is the accumulated value of the power discharged by the storage battery 16 within the remuneration period for which the remuneration is granted. The planned remuneration indicates the remuneration that is scheduled to be granted to the user on the fixed date for which the remuneration is granted. The retained remuneration is the remuneration that the user retains. The remuneration increases when a new remuneration is granted. The retained remuneration decreases when the user purchases a product, etc.

Figure 7 shows the charge/discharge management information 41. The charge/discharge management information 41 is recorded in the charge/discharge information storage unit 27. The charge/discharge management information 41 includes a user ID, charge/discharge history, and a charge/discharge plan. The charge/discharge history is information acquired from the battery control unit 15. The charge/discharge plan specifies whether charging, discharging, or no charging or discharging will be performed at each specified time.

<Operation>
The procedure by which the user management server 11 calculates the reward to be given to the user will be described with reference to FIG.

The result acquisition unit 30 acquires the cumulative discharge power (step S1). The cumulative discharge power acquired here is the cumulative discharge power for each user. The result acquisition unit 30 accumulates the discharge power included in the discharge results during the reward granting period to obtain the cumulative discharge power.

The identification unit 31 identifies the reward grant rate calculated in advance (step S2). Furthermore, the reward grant unit 32 calculates points, which are rewards, by multiplying the cumulative discharge power included in the charge/discharge performance by the reward grant rate (step S3). The reward grant unit 32 calculates points, for example, by multiplying the cumulative discharge power by the reward grant rate. The reward grant unit 32 registers the calculated reward by adding it to the owned reward in the user information 40 (step S4).

Figure 9 shows a usage history screen 50 displayed by the display device H13 of the user device 13. The user device 13 displays the usage history screen 50 using an application installed on the user device 13. In this case, the application requests usage history information from the web server. The web server obtains the electricity fee paid by the user from at least one of the user management server 11 and the charge/discharge management server 12. The web server also obtains the planned remuneration and the holding remuneration from the user management server 11. The web server then transmits this information to the user device 13. The user device 13 displays this information on the usage history screen 50. Alternatively, the user device 13 displays the usage history screen 50 by reading web data using a browser program installed on the user device 13. The web data includes files written in a markup language such as HTML, image data embedded in the files, JavaScript (registered trademark) programs, etc.

The usage history screen 50 includes owned rewards 51 (owned points) and planned rewards 52 (planned points to be acquired). The usage history screen 50 also includes electricity charges 53 and the amount of electricity used 54 supplied from the commercial power grid for the period that includes the day the screen was viewed.

The effects of the above embodiment will be described.
(1) The storage battery 16 connected to the commercial power system is charged with power supplied from the commercial power system and discharged on a daily basis. According to the above embodiment, the battery control unit 15 controls the storage battery 16 to charge when the electricity rate is low and discharge when the electricity rate is high. In addition, the specification unit 31 calculates the reward grant rate using the profit obtained by the price difference ΔP between the market price P1 during the period when the storage battery 16 is charged in the time period when the electricity rate is low and the market price P2 per unit power during the period when the storage battery 16 is discharged. In other words, since the reward grant rate is calculated according to the charging and discharging performed on a daily basis, the profit (reward) returned to the user can be increased. Therefore, it is possible to make the user feel that there is a high incentive to use the storage battery 16. This makes it possible to increase the number of storage batteries 16 in use. In addition, since the reward is calculated based on the discharge record of each user, it is possible to increase the reward when the discharge record is large. Therefore, it is possible to increase the satisfaction level of the user.

(2) The reward granting unit 32 calculates the reward using the cumulative discharged power (kW) obtained by accumulating the discharged power of the storage battery 16 for each predetermined time period as the discharge performance. This makes it possible to estimate the discharged power amount of the storage battery 16 without using a certified meter that measures the discharged power amount of the storage battery 16, thereby making it possible to reduce the cost required for installing the storage facility 14.

(3) The charge/discharge plan is created based on the market price predicted by the prediction unit 21 of the charge/discharge management server 12, so that the storage battery 16 can be charged when the market price is low and the power of the storage battery 16 can be consumed when the market price is high.

(4) According to the above embodiment, the reward rate is calculated using the reward given when a power reduction request is complied with, which makes it possible to increase the reward given to the user.
(5) According to the above embodiment, the reward rate is calculated based on the imbalance charge that can be reduced by controlling the storage battery 16 in response to a request to reduce power transmitted to balance the power supply plan and the actual supply amount of the electric utility company. This makes it possible to increase the profit (reward) returned to the user.

(6) According to the above embodiment, the reward award rate is calculated using the fee difference between the wheeling volume fees, which makes it possible to increase the profit (reward) returned to the user.
(7) According to the above embodiment, the storage battery 16 is charged by the power supplied by the private power generation facility 18. This allows the user to reduce the electricity bill for the power received from the commercial power grid. In addition, since the reward grant rate uses the discharge record of the storage battery 16, even if the power charged by the power supplied by the private power generation facility 18 is used for the power consumption device 19, the reward grant rate can be reflected.

The above-described embodiments may be modified as follows: The above-described embodiments and the following modifications may be combined with each other to the extent that no technical contradiction occurs.
<Granting rewards for selling electricity>
In the above embodiment, the user uses the power charged by the power storage facility 14 as the power for the power consumption device 19. Instead of or in addition to this, the power charged to the storage battery 16 may be used as power for power sale. In this aspect, the battery control unit 15 causes the power charged to the storage battery 16 to be discharged as power for power sale. The result acquisition unit 30 acquires the power sales result of the storage battery 16. The determination unit 31 calculates the reward grant rate based on the power sales result. For example, the plan creation unit 22 creates a charge/discharge plan so that the power storage facility 14 discharges during a period when the power selling price is high. Then, the determination unit 31 calculates the revenue to be generated based on the number of times power is sold within the target period. Furthermore, the determination unit 31 calculates the reward grant rate using the calculated revenue.

The user management server 11 acquires the power sales record, including the amount of power sold, which is the amount of power transmitted by the power storage equipment 14, from the battery control unit 15. The user management server 11 also calculates the reward for selling power by multiplying the amount of power sold by a reward grant rate. The reward grant rate used at this time may be the same as or different from the reward grant rate for discharged power in the above embodiment. This allows the user to obtain a reward even when selling power, thereby increasing user satisfaction.

<Charging and discharging plan>
In the above embodiment, the charge/discharge management server 12 creates a charge/discharge plan for the power storage facility 14 for each user. Alternatively, the charge/discharge management server 12 may create a charge/discharge plan for all users or for each group to which a plurality of users belong. For example, a group is created for each region. The region is divided into areas based on whether there is a commonality in the amount of solar radiation or the amount of power demand, such as cold regions. Alternatively, the region may be divided into areas within the jurisdiction of a power transmission and distribution business operator. In this aspect, the processing load of the charge/discharge management server 12 due to the complexity of the processing can be reduced.

・The user management server 11 may record the user's schedule in the user information 40. In this embodiment, the user management server 11 includes a registration unit (not shown) that registers a schedule including the date and time when the consumption of the power discharged by the storage battery 16 is low. The battery control unit 15 controls the storage battery 16 based on a charge and discharge plan based on the schedule. Specifically, the charge and discharge management server 12 acquires the user's schedule from the user management server 11. Then, the plan creation unit 22 creates a charge and discharge plan based on the schedule. In addition, the command unit 23 transmits a command to the battery control unit 15 based on the charge and discharge plan. The schedule may be one that the user himself/herself registered in the user management server 11 using the user device 13. Alternatively, the schedule may be one that is determined from the purchase history of products on an EC (Electronic Commerce) site or the like. For example, the purchase history for determining the schedule is a reservation for accommodation or a reservation for transportation. For example, an electronic commerce server (not shown) that provides an EC site transmits the schedule of the travel plan to the user management server 11 when a user makes a reservation for a trip. The user management server 11 transmits the user's schedule (when the user plans to be at home or away) to the charge/discharge management server 12. Based on the user's schedule, the charge/discharge management server 12 creates a charge/discharge plan that reduces the overall amount of power received from the commercial power system when the user is not at home compared to when the user is at home. The charge/discharge management server 12 may also create a charge/discharge plan to charge to a target charge state according to a target time, such as the time the user plans to return home.

In the above embodiment, the charge/discharge management server 12 creates a charge/discharge plan for the next day or thereafter based on the charge/discharge record, so if the user is absent for an extended period of time, the charge/discharge plan is gradually updated to match the absence. However, by having the charge/discharge management server 12 acquire the user's schedule in advance, it is possible to create a charge/discharge plan in advance that matches the schedule. In this way, the storage battery 16 is controlled based on a charge/discharge plan that matches the user's schedule, so that it is possible to prevent the user from receiving an amount of power that far exceeds the amount of power that needs to be received during the absence period (for example, the amount of power consumed by home appliances that operate even when the user is absent). This makes it possible to reduce the electricity charges paid by the user.

<Reward rate>
In the above embodiment, the reward grant rate is calculated using the values V1 to V5 corresponding to the above cases 1 to 5. Alternatively, the reward grant rate may be calculated using the value V1 corresponding to the above cases 1 to 5 and at least one of the values V2 to V5.

The reward grant rate may be a different value for each user. In the above embodiment, the determination unit 31 calculated the reward grant rate for all users using values V1 to V5. Alternatively, the determination unit 31 may calculate the reward grant rate using values V1 to V5 calculated for each user.

- In the above embodiment, the reward rate is a value obtained by dividing a predetermined percentage of the revenue of the electric utility by the discharged power of all users during the target period. Alternatively, the identification unit 31 may calculate the reward rate by dividing the predetermined percentage of the revenue by the total value of the discharged power of each user belonging to a predetermined segment. The criteria for dividing the segments are not particularly limited, and user attributes can be used. For example, the user attributes can be the type of contract between the user and the electric utility, or the user's loyalty status (user rank) in the electric service or a service that includes the electric service. Alternatively, the above segments can be segments used in targeted advertising, etc. Alternatively, the segments can be divided by geographical information such as the area including the user's address (the location where the storage battery 16 is installed) or the area under the jurisdiction of the electric power transmission and distribution utility.

The reward rate may increase gradually according to the period of use of the storage battery 16. The reward rate may also change depending on whether the user rents or purchases the storage battery 16 from the electric utility company.

<Charging and discharging performance>
In the above embodiment, the result acquisition unit 30 calculates the cumulative discharge power using the discharge power of the storage battery 16 included in the discharge result. Alternatively, the power measurement unit 17 of the power storage equipment 14 or the result acquisition unit 26 of the charge/discharge management server 12 may calculate the cumulative discharge power using the discharge power of the storage battery 16.

<Electricity storage equipment>
In the above embodiment, the power measurement unit 17 of the power storage equipment 14 measures the discharge power (kW) of the storage battery 16 at predetermined time intervals. Alternatively, the power measurement unit 17 may measure the amount of discharged power (kWh) of the storage battery 16. In this case, the power measurement unit 17 measures the amount of discharged power using a calibrated meter that complies with the Weights and Measures Act.

<EC site>
The power management system 10 may include an electronic commerce server (not shown) that provides an EC site (website) that sells products. The electronic commerce server displays advertisements for products corresponding to the user's charge/discharge record on a home screen or the like that is viewed by the user. Note that the advertisement referred to here includes any advertisement that serves as an entry point for the user to purchase products.

One mode of displaying product advertisements will be described. When the e-commerce server receives a request for web data from the user device 13, it determines whether the user is using an electricity service that uses the storage battery 16 and purchases electricity from the electric utility. Alternatively, it determines whether the user's purchase history includes a purchase history of the storage battery 16. When it determines that the user 100 is using an electricity service or that the user's purchase history includes a purchase history of the storage battery 16, the e-commerce server transmits to the user device 13 the web data including advertisement content in which the electricity consuming device is posted. The electricity consuming device may not be included in the user's purchase history.

Figure 10 shows an example of a home screen 60. The home screen 60 includes advertising content 61 for home appliances as power consuming devices. Furthermore, the e-commerce server provides a reward such as points (purchase reward) when a user purchases a product listed in the advertising content 61. At this time, the purchase reward for a user who uses an electricity service may be greater than that of a user who purchases the same product without using the electricity service. This allows users who use an electricity service to be given a special benefit when purchasing a product.

<Information Processing System>
In the above embodiment, the result acquisition unit 30 receives the charge/discharge result from the charge/discharge management server 12. Alternatively, the result acquisition unit 30 of the user management server 11 may receive the charge/discharge result from the battery control unit 15 without going through the charge/discharge management server 12.

- In the above embodiment, the user management server 11 is provided with a performance acquisition unit 30, an identification unit 31, and a reward granting unit 32. These configurations may be distributed between the user management server 11 and the charge/discharge management server 12, or may be provided in either the user management server 11 or the charge/discharge management server 12. The user management server 11 may also be provided with at least one of the prediction unit 21, the plan creation unit 22, the command unit 23, the price acquisition unit 24, and the revenue calculation unit 25. Furthermore, the user management server 11 may function as the electronic commerce server. Furthermore, the information processing system of the claims may be provided with a power storage facility 14.

- In the above embodiment, the determination unit 31 of the user management server 11 calculates the reward grant rate based on the price difference ΔP between the market prices P1 and P2. Alternatively, the user device 13 may be configured to include the determination unit 31. In this embodiment, the user device 13 acquires the market prices P1 and P2 and the charge/discharge record. The source of information is at least one of the charge/discharge management server 12, the user management server 11, and the energy storage facility 14. The user device 13 then calculates the reward grant rate for the user who uses the user device 13. The user device 13 transmits the calculated reward grant rate to the user management server 11. In this manner, the processing load on the user management server 11 can be reduced.

- In the above embodiment, the determination unit 31 of the user management server 11 calculates the reward grant rate based on the price difference ΔP between the market prices P1 and P2. Alternatively, the determination unit 31 may obtain the reward grant rate calculated by the charge/discharge management server 12 or a reward grant rate calculated by another device.

Next, the technical ideas that can be understood from the above-described embodiment and other examples will be described below.
[A] a record acquiring unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge record including a charge record of charging the storage battery with power supplied from a commercial power system and a discharge record of discharging the storage battery;
a determination unit that calculates a reward grant rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
an information processing system comprising: a reward granting unit that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit.

[B] The information processing system according to [A], wherein the reward granting unit uses, as the discharge performance, the accumulated discharged power obtained by accumulating the discharged power of the storage battery for each predetermined time period.
[C] a prediction unit that predicts the market price of electricity in the electricity trading market during a prediction period;
A plan creation unit that creates a charge/discharge plan for the storage battery for the prediction target period based on the predicted market price;
The information processing system according to [A] or [B], further comprising: a command unit that transmits commands to the battery control unit based on the charge and discharge plan.

[D] The information processing system according to any one of [A] to [C], wherein the determination unit calculates the reward grant rate using a corresponding reward obtained when the storage battery is controlled in response to a request to reduce power.

[E] The information processing system described in any one of [A] to [D], wherein the determination unit calculates the reward grant rate using the fee that can be reduced by controlling the storage battery in response to a request for reduction in power transmitted to balance the power supply plan and the actual supply amount of the electric power utility.

[F] The information processing system described in any one of [A] to [E], wherein the determination unit calculates the reward rate using the revenue obtained from the difference between the wheeling charge per unit of power during the charging period and the wheeling charge per unit of power during the discharging period.

[G] An information processing system according to any one of [A] to [F], wherein the battery control unit charges the storage battery using power supplied by a private power generation facility used by the user.
[H] the battery control unit discharges the power charged in the storage battery as power to be sold;
The information processing system described in any one of [A] to [G], wherein the performance acquisition unit acquires the power sales performance of the storage battery, and the identification unit calculates the reward grant rate based on the power sales performance.

[I] further comprising an electronic commerce server providing a website for selling products;
The electronic commerce server includes:
The information processing system according to any one of claims [A] to [H], wherein when a user device used by the user accesses the website, web data including advertising content for products based on the charging and discharging performance is transmitted to the user device.

[J] the electronic commerce server,
The information processing system described in [I], in which a purchase reward is made higher when the user purchases the product featured in the advertising content than for a user who does not use the storage battery.

[K] A registration unit is provided to register a schedule including a date and time when the consumption of the power discharged from the storage battery is reduced,
The information processing system according to any one of [A] to [J], wherein the battery control unit controls the storage battery based on a charge/discharge plan based on the schedule.

[L] one or more computers,
a performance acquisition process for acquiring, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charging performance including a charging performance of the storage battery being charged with power supplied from a commercial power system and a discharging performance of the storage battery being discharged;
A determination process for calculating a reward rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with electricity supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
An information processing method that executes a reward granting process that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit.

[M] one or more computers,
a record acquiring unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge record including a charge record of the storage battery being charged with power supplied from a commercial power system and a discharge record of the storage battery being discharged;
a determination unit that calculates a reward grant rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
A program that functions as a reward granting unit that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit.

10... Power management system 11... User management server

Claims (13)

a record acquiring unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge record including a charge record of the storage battery being charged with power supplied from a commercial power system and a discharge record of the storage battery being discharged;
a determination unit that calculates a reward grant rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
an information processing system comprising: a reward granting unit that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit. The information processing system according to claim 1, wherein the reward granting unit uses, as the discharge performance, the accumulated discharge power obtained by accumulating the discharge power of the storage battery for each predetermined time period. A prediction unit that predicts a market price of electricity in the electricity trading market during a prediction period;
A plan creation unit that creates a charge/discharge plan for the storage battery for the prediction target period based on the predicted market price;
The information processing system according to claim 1 , further comprising: a command unit that transmits a command to the battery control unit based on the charge and discharge plan. The information processing system according to claim 1, wherein the determination unit calculates the reward grant rate using a corresponding reward obtained when the storage battery is controlled in response to a request to reduce power. The information processing system according to claim 1, wherein the determination unit calculates the reward rate using the amount of money that can be saved by controlling the storage battery in response to a request for power reduction transmitted to balance the power supply plan and the actual supply amount of the electric power company. The information processing system according to claim 1, wherein the determination unit calculates the reward rate using the revenue obtained from the difference between the wheeling charge per unit of power during the charging period and the wheeling charge per unit of power during the discharging period. The information processing system according to claim 1, wherein the battery control unit charges the storage battery with power supplied by a private power generation facility used by the user. The battery control unit discharges the power charged in the storage battery as power to be sold,
The record acquisition unit acquires a record of electricity sales of the storage battery,
The information processing system according to claim 1 , wherein the specifying unit calculates the reward grant rate based on the power selling record. An electronic commerce server providing a website for selling products;
The electronic commerce server includes:
The information processing system according to claim 1 , wherein when a user device used by the user accesses the website, web data including advertising content for a product based on the charging/discharging record is transmitted to the user device. The electronic commerce server includes:
The information processing system according to claim 9 , wherein a purchase remuneration for a user who purchases the product published in the advertising content is set to be higher than a rechargeable battery for a user who does not use the storage battery. a registration unit that registers a schedule including a date and time when the consumption of the power discharged from the storage battery is reduced;
The information processing system according to claim 1 , wherein the battery control unit controls the storage battery based on a charge/discharge plan that is based on the schedule. One or more computers
a performance acquisition process for acquiring, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charging performance including a charging performance of the storage battery being charged with power supplied from a commercial power system and a discharging performance of the storage battery being discharged;
A determination process for calculating a reward rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with electricity supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
An information processing method that executes a reward granting process that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit. One or more computers,
a record acquiring unit that acquires, from a battery control unit that controls charging and discharging of a storage battery associated with a user, a charge record including a charge record of the storage battery being charged with power supplied from a commercial power system and a discharge record of the storage battery being discharged;
a determination unit that calculates a reward grant rate using a profit obtained from a price difference between a market price of electricity per unit power during a charging period in which the storage battery is charged with power supplied from the commercial power system and a market price of electricity per unit power during a discharging period in which the storage battery is discharged;
A program that functions as a reward granting unit that calculates a reward to be granted to the user using the discharge history of the storage battery based on the charge and discharge history and the reward granting rate, and associates the calculated reward with the user and records it in a memory unit.

Images