JP2011087420A - Target electric-energy control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem wherein a target electric energy in the present month cannot be achieved because a communication time is required, and a correction value largely differs from an actual value when the communication state of a target electric-energy control system is poor, or when the correction of a target power value is made every time the environments is changed. <P>SOLUTION: In the target electric-energy control system, a residual electric-energy determining means 2 obtains a residual electric energy by subtracting a working electric energy of the present month in a prersent-month working electric-energy storage means 13 from a target electric energy of the present month in a present-month target electric-energy storage means 1. A day target electric-energy determining means 4 receives the residual electric energy obtained by the residual electric-energy determining means 2, residual days stored in a residual-day storage means 3, and a working status predicted by a working status prediction means 5 as input data to determine the target electric energy in the day. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a target power amount control system that controls a plurality of devices connected to achieve a target power amount that is a target of the current month.

  The configuration and operation of the conventional target power amount control system will be described below. In the configuration of the conventional technique, first, in order to divide the target power amount of the current month into a certain period, the target power amount in each period is set. By realizing the target power amount for that period by device control, device control below the target power amount for the current month is performed. Further, the target power amount for a certain period can be set with higher accuracy by correcting the target power amount for the period according to the environment such as room temperature and temperature.

  According to such a configuration and operation, the target power amount for the current month is divided into target power amounts for a certain period, the target power amount for a certain period is corrected according to the environment, and the corrected target power amount is realized. Since the device is controlled, the target power amount for the current month can be realized with higher accuracy.

JP 2001-327076 A

  In the conventional technique, the target power amount for the current month can be realized with higher accuracy by dividing the target power amount for the current month and performing correction according to the environment. However, when the communication state of the target power amount control system is poor, if the target power value is corrected each time the environment changes, the communication time may take a long time, so that there may be cases where sufficient device control time cannot be performed. . In particular, many of the communication devices used by white goods are low-cost and the communication state is not good.

  In addition, it is necessary to obtain a correction value for the environment in advance, but it takes time for the experiment, and the usage environment differs between the laboratory and the actual home, so the correction value is very different from the actual value, and as a result the target power consumption for the current month May not be possible.

  In order to solve the above problems, the present invention provides a target power storage unit for the current month that stores a target power amount for the current month, a remaining power amount determination unit that determines a remaining power amount that can be used in the current month, and a remaining power amount determination unit. Current target power amount determining means for determining the target power amount of the system for the current day from the remaining power amount and the remaining number of days, a usage state predicting means for learning the usage situation and predicting the current usage state of the day, and the usage state prediction means A target power amount change amount determining means for determining a change amount of the target power amount according to the use state by means of, and a target power amount changing means for changing the target power amount for the current day using the change amount by the target power amount change amount storage means; A transmission means for transmitting the shared power amount to a plurality of devices determined to achieve the target power amount on the day, and the device controls the device to achieve the shared power amount received on the day Eyes Providing power amount control system.

  According to the configuration of the above invention, by providing the use state predicting means for learning the use state and predicting the use state of the day, the number of communication of the connected device can be reduced to one round trip / day in principle. In addition, it is not necessary to set correction values in advance through experiments or the like by learning past usage conditions, and more accurate correction values can be obtained by learning based on actual data in a real home. it can.

  In order to solve the above-described conventional problems, the present invention provides a target power storage unit for the current month that stores a target power amount for the current month, a remaining power amount determination unit that determines a remaining power amount that can be used in the current month, and a remaining power A target power amount determining unit for determining the target power amount of the system for the current day based on the remaining power amount and the remaining days of the amount determining unit, a usage state predicting unit for learning the usage status and predicting the usage state on the current day, and the use A target power amount change amount determining means for determining the amount of change in the target power amount according to the use state by the state prediction means, and a current target power amount for changing the target power amount for the current day using the change amount by the target power amount change amount storage means. A change means and a transmission means for transmitting the shared power amount to a plurality of devices determined to achieve the target power amount for the day are provided.

  As a result, the communication frequency of the connected device can be set to one round trip / day in principle. In addition, it is not necessary to set correction values in advance through experiments or the like by learning past usage conditions, and more accurate correction values can be obtained by learning based on actual data in a real home. it can.

  Since the target power amount change means of the present invention changes the target power amount of the day using the change amount by the target power amount change amount storage means, in principle, the number of communication of the connected device is one round trip / day, By learning the usage situation, it is not necessary to set a correction value in advance by experiment or the like.

The system block diagram of the target electric energy control system of Embodiment 1 of this invention The figure which shows the structure of the use condition estimation means of Embodiment 1 of this invention. The flowchart which shows operation | movement of the target electric energy control system of Embodiment 1 of this invention. The figure which shows the type | formula which calculates | requires the day target electric energy Pt of Embodiment 1 of this invention The figure which shows the change of the electric energy used with respect to the days of Embodiment 1 of this invention. The figure which shows the electric power with respect to the external temperature of Embodiment 1 of this invention The figure which shows the prediction electric energy with respect to the initial external temperature of Embodiment 2 of this invention. The figure which shows operation | movement of the calendar means of Embodiment 2 of this invention. The figure which shows operation | movement of the user input means of Embodiment 3 of this invention.

  According to a first aspect of the present invention, there is provided a current month target power amount storage means for storing a target power amount for the current month, a remaining power amount determination means for determining a remaining power amount usable in the current month, and a remaining power amount of the remaining power amount determination means. Depending on the usage state by the target state energy determining means for determining the target power amount for the current day from the remaining days, the usage state predicting means for learning the usage status and predicting the usage state for the current day, and the usage state prediction means Target power amount change amount determination means for determining the target power amount change amount, current day target power amount change means for changing the target power amount for the current day using the change amount by the target power amount change amount storage means, and the target power amount for the day The target power amount is configured to include transmission means for transmitting the shared power amount to a plurality of devices determined to achieve the above, and the device is configured to control the device to achieve the shared power amount received on the day System It is intended.

  According to the first aspect of the present invention, by providing the use state prediction means for learning the use state and predicting the use state of the day, the number of communication of the connected device can be made one round trip / day in principle. In addition, it is not necessary to set correction values in advance through experiments or the like by learning past usage conditions, and more accurate correction values can be obtained by learning based on actual data in a real home. it can.

In addition to the first invention, the second invention is configured such that the target power amount change amount determining means learns the regularity of the change amount with respect to the number of days.

  According to the second aspect of the invention, it is possible to obtain a more accurate correction value by learning the amount of change with respect to the number of days, for example, regularity of day of the week, holiday / weekday, and the like, and predicting the correction amount.

  According to a third invention, in addition to the second invention, the target power amount change amount determining means uses a day of the week and a holiday by a calendar of the calendar means when learning the regularity of the change amount.

  According to the third aspect of the present invention, the user's life pattern generally differs greatly between weekdays / holidays, and more accurate correction values can be obtained by knowing the day of the week and holidays according to the calendar.

  In addition to the third invention, the fourth invention is configured such that the user's schedule can be written in the calendar of the calendar means.

  According to the fourth aspect of the invention, a plan for a user's holiday / weekday or long vacation can be entered in advance in the calendar, so that a more accurate correction value can be obtained.

  In the fifth invention, in addition to the invention described in any one of the second to fourth, the target power amount change amount determining means determines the change amount on the current day using the use state at the time of determining the change amount as an initial value. It is to be configured.

  According to the fifth aspect, a more accurate correction value can be obtained by substituting the use state at the time of determining the change amount as an initial value into the learning result and predicting the correction value.

According to a sixth aspect of the invention, in addition to the invention according to any one of the second to fifth aspects, the target power amount change amount determining means uses a result of a weather forecast as a use state.
In particular, the seventh invention is a program for causing a computer to execute at least a part of the functions of any one of the first to sixth inventions. It is possible to easily realize at least a part by cooperating hard resources such as a server.

  In the eighth aspect of the invention, in particular, by using a computer-readable recording medium in which the program of the seventh aspect of the invention is recorded, the program can be recorded on the recording medium or distributed using a communication line. Distribution / update and installation work can be done easily.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
The configuration of Embodiment 1 of the present invention will be described with reference to FIG. In FIG. 1, reference numeral 1 denotes a target power amount storage means for the current month, which stores a target power amount for the current month, for example, September set for the user.

  The usage state predicting unit 5 learns the power consumption of the current month by the power usage storage unit 13 of the current month, and predicts the usage state to be used when determining the target power amount such as the target power amount of the day.

Further, the remaining power amount determining means 2 calculates the remaining power amount for the current month from the current month's used power amount by the current month's used power amount storage means 13 and the target power amount for the current month by the current month target power amount storage means 1. Reference numeral 3 denotes a remaining number of days storage means for calculating the number of days remaining in the current month.

  The current day target power amount determining means 4 determines the target power amount for the current day from the remaining power amount by the remaining power amount determining means 2, the remaining number of days by the remaining number storage means 3, and the usage state by the usage state prediction means 5.

  The target power amount sharing amount determination means 6 sends the target power of the target power amount control system to the first device 8, the second device 9, the third device 10, and the fourth device 11 that actually consume power. Decide the amount to be allocated to each device so that the amount can be achieved.

  7 is a transmission means, and the share of the target power amount to each device is set as the target power amount of each device to the first device 8, the second device 9, the third device 10, and the fourth device 11. Transmission is performed using a method such as extra-low power wireless or wireless LAN.

  The first device 8, the second device 9, the third device 10, and the fourth device 11 perform autonomous control so as to be less than or equal to the target power amount of each device transmitted from the transmission unit 7. The power measuring unit 12 measures the power of the first device 8, the second device 9, the third device 10, and the fourth device 11, and the current power consumption storage unit 13 stores the power amount by the power measuring unit 12. It is stored as the amount of power used for the current month.

  Further, 14 is a process start determining means, and when the time measured by the time measuring means 15 is a time for setting the target power amount for the day, the process for operating the remaining power determining means 2 and setting the target power amount for the day is started. To do.

  Reference numeral 16 denotes a remaining day number calculating means. If the remaining number of days is calculated and there is no remaining number of days, the process start determining means 14 is notified to stop the process of setting the target power amount for the day.

  Next, the configuration of the usage state prediction unit 5 will be described in detail with reference to FIG.

  Reference numeral 20 denotes past power amount storage means for storing daily use power by the past month use power storage means.

  Further, the user input means 21 can input a user's schedule and stores it in the calendar means 22. The calendar means 22 stores holidays such as Saturdays and Sundays, holidays, and weekdays, and performs calendar output.

  23 is a power amount learning means, which learns by using the past daily power amount by the past power amount storage means 20 and the calendar output by the calendar means 22, and learns the rules such as regularity and continuity. The learning result is output to the target power amount determination means 4 on that day.

  Next, the operation of the target power amount control system will be described with reference to FIG. In FIG. 3, after the start (S30), the user sets a target power amount for the current month, and the set target power amount for the current month is stored in the target power amount storage unit 1 for the current month (S31). Also, the current month power consumption storage means 13 calculates the current power consumption for the current month from the power measured by the power measurement means 12, and stores it as the current month power consumption (S32). Further, the remaining day number calculating means 3 calculates the remaining number of days from the present to the end of the current month, and stores it as the remaining number of days in the remaining day number storing means 3 (S33).

Then, the remaining power amount determination means 2 subtracts the current power consumption stored in the current month power storage means 13 from the current target power amount stored in the current month target power storage means 1 to obtain the remaining power amount. Ask. Then, the target power amount determination means 4 for the day includes the remaining power amount obtained by the remaining power amount determination means 2, the remaining number of days stored in the remaining number of days storage means 3, and the usage status predicted by the usage status prediction means 5. And the target power amount for the day is determined (S34, S35, S36). In the determination process, first, the remaining power amount determining means 2 tentatively determines the target power amount for the current month by dividing the remaining power amount by the number of remaining days (S34). A correction coefficient and a correction value according to usage conditions such as humidity are calculated (S35), and the target power amount for the current month is corrected based on the correction result (S36).

  The above method is an example of determining the target power amount for the current month from the remaining power amount by the remaining power amount determining unit 2, the remaining number of days by the remaining number storage unit 3, and the usage state predicted by the usage state prediction unit 5. There are various methods such as calculating by In short, the target power amount for the current month can be obtained from the remaining power amount, the number of remaining days, and the usage status.

  Furthermore, the target electric energy sharing amount determining means 6 is connected to the target electric energy of the current month determined by the target electric energy 5 of the current month, the first device 8, the second device 9, the third device 10, and the fourth device. The share amount to the device 11 is determined, and the share amount is notified to each device using the transmission means 7 (S37). And the 1st apparatus 8, the 2nd apparatus 9, the 3rd apparatus 10, and the 4th apparatus 11 perform autonomous control so that the share amount of target electric energy may be achieved (S38).

  When the time measured by the time measuring unit 15 comes to the next day power amount setting timing, the process start determining unit 14 starts the next day power amount setting step (S39). If the remaining number of days by the remaining number calculation means 16 is zero, the target power amount setting for the current month is terminated (S40, S41).

  Next, operations of the target power amount determination unit 4 and the usage state prediction unit 5 will be described as an example with reference to FIGS. 4, 5, and 6.

  FIG. 4 is a graph showing changes in the amount of power used with respect to the number of days, with the horizontal axis representing the number of days N of the month and the vertical axis representing the cumulative amount of power used P for the current month. However, the current number of days is shown as Ns (day) and the current power consumption for the current month is shown as Ps (Wh). FIG. 5 shows changes in the amount of power used for weekdays / holidays, with the horizontal axis representing the number of days N (days) and the vertical axis representing the power consumption P (Wh).

In FIG. 4, since the current month power consumption Ps is used for the current month target power Pm, the remaining (Pm-Ps) is consumed in the remaining days (Nm-Ns).
Current target power amount Pt = (Pm−Ps) / (Nm−Ns)
It becomes. However, as shown in FIG. 5, it is known that the amount of power used varies depending on the daily state, for example, on holidays / weekdays, so it is necessary to respond flexibly to such changes.

  Therefore, daily changes are learned using methods such as neural network and time series analysis, and their regularity is clarified.

  As shown in FIG. 5, since it differs greatly in the case of a weekday / holiday, the current day target power amount determination means 4 determines whether the target day is a holiday / weekday. Thus, it is necessary to correct | amend so that the electric power used may become small on weekdays.

If the day is a holiday,
Pt ← Pt × αk (Dashi, αk = 0.8 to 1.0),
If the day is a weekday,
Pt ← Pt × αh (Dashi, αh = 1.0 to 1.2)
And correct. By performing such correction, an optimal target electric energy for the day can be set.

  Further, an example will be described with reference to FIG. FIG. 6 is a diagram showing changes in the power of the air conditioner during cooling when the horizontal axis is the outside air temperature Ta (degrees) and the power S (W). FIG. 7 is a diagram showing a change in the amount of power of the air conditioner during cooling when the horizontal axis is the initial outside air temperature Ta0 (degrees) and the predicted power consumption Pl (Wh).

  As shown in FIG. 6, it can be seen that the power S of the air conditioner increases when the outside air temperature Ta is high, and the power S of the air conditioner decreases when the outside air temperature Ta is low.

  In addition, it is clear that the usage time of the air conditioner becomes longer when the outside air temperature Ta is high, so the power consumption of the air conditioner greatly depends on the outside air temperature Ta. If the temperature Ta is low, the amount of power used is small. Further, for example, if the outside air temperature at the time of 0:00 is high, the outside air temperature is generally high all day, so that it is possible to know the power amount predicted by knowing the initial outside air temperature Ta0 and the predicted power Pl (FIG. 7).

Therefore, the target power amount determination means 4 for the day sets the correction function F (Ta) for the outside air temperature Ta, and sets the power consumption Pt for the day to Pt ← Pt × F (Ta)
It is possible to set the optimal target electric energy for the day by correcting the above.

  The power amount learning means 23 of the usage state prediction means 5 learns the past power consumption, and if it is a holiday / weekday in FIG. 5, the correction coefficients αk and αh are used, and if it is the outside temperature Ta in FIG. (Ta) is obtained.

On-the-day target electric energy determination means 4 is Pt ← (Pm−Ps) / (Nm−Ns) × αk or αh
Pt ← (Pm−Ps) / (Nm−Ns) × F (Ta)
To determine the optimal target power for the day.

  Next, the operation of the calendar means will be described with reference to FIGS. FIG. 10 shows the calendar for September 2009 shown in FIGS.

  In FIG. 8, 5, 6, 12, 13, 19, 20, 21, 22, 23, 26, and 27 are holidays, and the other days are weekdays. If the calendar is provided in this way and can be used for learning the correction coefficients αk and αh described above, the target power amount for the day can be calculated more accurately.

  In FIG. 9, in addition to FIG. 8, 9th is set as the user's annual leave. In general, it is known that the life pattern of the annual leave behaves in the same way as the life pattern of the holiday, so that the amount of power used is the same as that of the holiday.

  Therefore, if the user can obtain the annual leave as shown in FIG. 9, the target power amount for the day can be set more accurately.

  The calendar means 22 stores the calendar of FIG. 8, and the user input means 21 can input the user's annual leave of FIG. 9 into the calendar. According to the above operation, the target power amount for the day can be set more accurately.

In the first embodiment, the target power amount storage means for storing the target power amount for the current month, the remaining power amount determining means for determining the remaining power amount usable in the current month, the remaining power amount of the remaining power amount determining means, Depending on the usage state by the target state energy determining means for determining the target power amount for the current day from the remaining days, the usage state predicting means for learning the usage status and predicting the usage state for the current day, and the usage state prediction means Target power amount change amount determination means for determining the target power amount change amount, current day target power amount change means for changing the target power amount for the current day using the change amount by the target power amount change amount storage means, and the target power amount for the day The target power amount is configured to include transmission means for transmitting the shared power amount to a plurality of devices determined to achieve the above, and the device is configured to control the device to achieve the shared power amount received on the day System and Is shall.

  According to the first embodiment, by providing the use state predicting means that learns the use state and predicts the use state of the day, the number of communication of the connected device can be made one round trip / day in principle. In addition, it is not necessary to set correction values in advance through experiments or the like by learning past usage conditions, and more accurate correction values can be obtained by learning based on actual data in a real home. it can.

  In the first embodiment, the target power amount change amount determining means is configured to learn the regularity of the change amount with respect to the number of days.

  According to the first embodiment, the amount of change with respect to the number of days, for example, regularity such as day of the week, holiday / weekday, etc., is grasped by learning, and the correction amount is predicted, whereby a more accurate correction value can be obtained.

  In the first embodiment, the target power amount change amount determining means uses a day of the week and a holiday by the calendar of the calendar means when learning the regularity of the change amount.

  According to the first embodiment, the user's life pattern generally differs greatly between weekdays / holidays, and a more accurate correction value can be obtained by knowing the day of the week and holidays according to the calendar.

  In the first embodiment, the user's schedule can be written in the calendar of the calendar means.

  According to the first embodiment, a plan such as a user's holiday / weekday or a long vacation can be entered in the calendar in advance, so that a more accurate correction value can be obtained.

  In the first embodiment, the target power amount change amount determining means is configured to determine the change amount on the current day with the use state at the time of determining the change amount as an initial value.

  According to the first embodiment, a more accurate correction value can be obtained by substituting the use state at the time of determining the change amount as an initial value into the learning result and predicting the correction value.

  In the first embodiment, the target power amount change amount determining means uses the result of the weather forecast as the use state.

  Since the first embodiment is a program for causing a computer to execute at least a part thereof, at least a part can be easily achieved by cooperating hardware resources such as electrical / information equipment, a computer, and a server. Can be realized.

  In the first embodiment, a computer-readable recording medium in which a program is recorded is used, so that the program is distributed or updated and the installation work is performed by recording the program on the recording medium or distributing the program using a communication line. Is easy to do.

  As described above, the control method and program for the target power control system according to the present invention can be applied to a small-scale system in the home or a large-scale system other than the home, and the same from the viewpoint of energy saving. It can be applied by the method of

DESCRIPTION OF SYMBOLS 1 Current month target electric energy storage means 2 Remaining electric energy determination means 3 Remaining days storage means 4 Current day target electric energy determination means 5 Usage state prediction means 6 Target electric energy sharing amount determination means 7 Transmission means 8 First device 9 Second device Device 10 Third device 11 Fourth device 12 Electric power measuring means 13 Current month use electric energy storage means 20 Past electric energy storage means 21 User input means 22 Calendar means 23 Electric energy learning means

Claims (8)

Current month target power storage means for storing the target power for the current month;
A remaining power determining means for determining the remaining power that can be used in the current month;
Current day target power amount determining means for determining the target power amount of the system of the day from the remaining power amount of the remaining power amount determining means and the remaining days;
A usage status prediction means for learning usage status and predicting the usage status of the day,
Target power amount change amount determination means for determining a change amount of the target power amount according to the use state by the use state prediction means;
Current day target power amount changing means for changing the target power amount for the current day using the change amount by the target power amount change amount storage means;
A target power amount control system including a transmission unit that transmits shared power amounts to a plurality of devices determined to achieve the target power amount on the day. The target power amount control system according to claim 1, wherein the target power amount change amount determining means is configured to learn the regularity of the change amount with respect to the number of days. The target power amount control system according to claim 2, wherein the target power amount change amount determining means uses a day of the week and a holiday by a calendar of the calendar means when learning the regularity of the change amount. 4. The target power amount control system according to claim 3, wherein the target power amount change amount determining means is configured to write a user's schedule in the calendar of the calendar means. 5. The target power amount control system according to claim 2, wherein the target power amount change amount determination means is configured to determine the change amount on the current day with the use state at the time of determining the change amount as an initial value. The target power amount control system according to any one of claims 2 to 5, wherein the target power amount change amount determining means uses a result of a weather forecast as a use state. The program for making a computer perform at least one part of the function of any one of Claim 1 to 6. A computer-readable recording medium on which the program according to claim 7 is recorded.