JP7340924B2 - Control device, control system, terminal device, control method and program - Google Patents

Description

The present invention relates to a control device, a control system, a terminal device, a control method, and a program.

This is an air conditioning control device that controls an air conditioner that operates to bring the indoor temperature shared by multiple users closer to a set temperature, and it aggregates and aggregates information on each user's intention regarding the air conditioning experience at a predetermined aggregation timing. A method has been proposed in which a change value of the set temperature is determined based on the results of the determination (for example, see Patent Document 1).

Japanese Patent Application Publication No. 2015-169418

Incidentally, users existing in an air-conditioned area are generally replaced over time. Therefore, it is required that the air-conditioning state of the air-conditioned area be appropriately changed in accordance with the change of users.

The present invention has been made in view of the above reasons, and provides a control device, a control system, a terminal device, a control method, and a program that can maintain an area in an environment suitable for users existing in the area. The purpose is to

In order to achieve the above object, the control device according to the present invention includes:
A control device that controls equipment that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value,
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in the area, and area identification information that identifies the area. a questionnaire acquisition unit that acquires questionnaire information including;
an operation information acquisition unit that acquires operation information indicating an operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount determined by the correction amount determination unit and the operation information; ,
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area ,
The correction amount determination section refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation section.

According to the present invention, the questionnaire acquisition unit sends a questionnaire to users in the area from a terminal device owned by a user in the area, indicating the response results corresponding to preset questions regarding the environment of the area. Get information. Then, the correction amount determination unit determines a first correction amount for the user's evaluation value based on the questionnaire information, and the target environmental index value calculation unit determines the evaluation value corrected using the first correction amount, A new target environmental index value is calculated based on the operation information. This makes it easier for the intentions of users existing in the area included in the questionnaire information to be reflected in the environment of the area, so that the area can be maintained in an optimal environment for the users existing in that area.

Schematic configuration diagram of a control system according to an embodiment of the present invention Block diagram showing the configuration of an air conditioner according to an embodiment Block diagram showing the configuration of a terminal device according to an embodiment 1 shows a terminal device according to an embodiment, in which (A) shows a state where a message prompting an answer to a question is displayed on the display section, and (B) shows a state where a question is displayed on the display section. Figure (C) is a diagram showing the state in which information regarding the service of gratitude from the facility is displayed on the display unit. Block diagram showing the configuration of a control device according to an embodiment (A) is a diagram showing an example of a questionnaire list according to the embodiment, and (B) is a diagram showing an example of a log list according to the embodiment. (A) is a diagram showing an example of a deviation value list according to the embodiment, and (B) is a diagram showing an example of the equipment arrangement table according to the embodiment. A diagram showing an example of a first correction amount table according to an embodiment (A) is a diagram showing an example of the contents of the second correction amount table according to the embodiment, and (B) is a diagram showing an example of the contents of the change amount table according to the embodiment. Sequence diagram showing the operation of the control system according to the embodiment Sequence diagram showing the operation of the control system according to the embodiment Flowchart showing an example of the flow of questionnaire information generation processing executed by the terminal device according to the embodiment Flowchart showing an example of the flow of air conditioner control processing executed by the control device according to the embodiment Flowchart showing an example of the flow of air conditioner control processing executed by the control device according to the embodiment

DESCRIPTION OF THE PREFERRED EMBODIMENTS A control device and a control system including the control device according to an embodiment of the present invention will be described below with reference to the accompanying drawings. The control system according to this embodiment includes an air conditioner that operates to bring the temperature of a target area shared by multiple users closer to a target temperature, and an air conditioner that is owned by a user in the target area and that provides information to the user. The present invention includes a terminal device having a display section that displays the information, and a control device. The terminal device includes a position acquisition unit that acquires position information indicating the position of the terminal device using radio waves emitted by a base station or an artificial satellite every predetermined reference time, and the position information acquired by the position acquisition unit. a position determination unit that determines whether or not the terminal device exists within the target area based on; and a display unit of the terminal device when the position determination unit determines that the terminal device exists within the target area; a display control unit that displays preset questions regarding the environment of the target area, and evaluation value information indicating an evaluation value obtained by quantifying the answer to the questions displayed on the display unit by the display control unit, and the target area. and a questionnaire information generation unit that generates questionnaire information including area identification information for identifying the area. The control device also includes a log acquisition unit that acquires log information from the air conditioner, and a determination unit that determines whether it is necessary to correct the target temperature of the air conditioner based on the questionnaire information and the log information. When the determination unit determines that it is necessary to correct the target temperature, a correction amount determination unit that determines a first correction amount for the target temperature; and a target temperature transmitter that transmits target temperature information indicating a new target temperature to the air conditioner.

As shown in FIG. 1, the control system according to the present embodiment includes air conditioners 40 and gateway devices 30 installed in facilities H1 and H2, and owned by each user UA, UB, UC, UD, and UE. The terminal device 70 and the control device 10 are provided. The terminal device 70 is capable of communicating with the control device 10 via the network NT. Furthermore, the air conditioner 40 can communicate with the control device 10 via the gateway device 30 and the network NT. Here, the network NT is, for example, a wide area network using a public line. The gateway device 30 communicates with the air conditioner 40 using a communication method that conforms to the LAN standard or the short-range wireless communication standard (for example, the Bluetooth (registered trademark) standard). Each facility H1, H2 is divided into one or more target areas A1, A21, A22. Among the plurality of air conditioners 40, air conditioners 40A and 40B are installed in target area A1 in facility H1, air conditioner 40C is installed in target area A21 in facility H2, and air conditioner 40D is installed in target area A21 in facility H2. , is installed in target area A22 within facility H2. Note that the target areas A1, A21, and A22 may be units of rooms within the facilities H1 and H2, or may be multiple areas within a large space such as a large hall. Then, the control device 10 sets the target temperature of each air conditioner 40 for each of the target areas A1, A21, and A22. The gateway device 30 has a protocol conversion function, a packet transmission/reception function, a relay function between different types of networks such as a router, and a conversion function between different types of transmission line media such as a modem.

As shown in FIG. 2, the air conditioner 40 includes a compressor 461 that compresses refrigerant, a drive unit 462 that drives the compressor 461, a blower fan 451, a drive unit 452 that drives the blower fan 451, and a It has a sensor 481 and a control unit 407 that controls the drive units 452 and 462. The drive unit 462 includes an inverter circuit (not shown), an inverter control circuit (not shown), and the like, and drives the compressor 461 at a rotation speed according to a control signal input from the control unit 407. The drive unit 452 also includes an inverter circuit (not shown), an inverter control circuit (not shown), etc., and drives the blower fan 451 at a rotation speed according to a control signal input from the control unit 407. The temperature sensor 481 is mounted on the air conditioner 40 and outputs a measurement signal according to the temperature of the areas A1, A21, and A22 that are air-conditioned by the air conditioner 40.

The control unit 407 includes a CPU (Central Processing Unit) 401, a main storage section 402, an auxiliary storage section 403, a communication interface 404, a sensor interface 482, and a bus 409 that interconnects these. The main storage unit 402 is a volatile memory and is used as a work area for the CPU 401. The auxiliary storage unit 403 is a nonvolatile memory such as a magnetic disk or a semiconductor flash memory, and stores programs for realizing various functions of the control unit 407. The communication interface 404 is, for example, a network card, and communicates with the gateway device 30 via a wireless LAN (Local Area Network), a wired LAN, or the like. The sensor interface 482 generates measured temperature information indicating the measured temperatures of the target areas A1, A21, and A22 based on the measurement signal input from the temperature sensor 481, and outputs it to the CPU 401.

The CPU 401 reads out the program stored in the auxiliary storage unit 403 to the main storage unit 402 and executes it, thereby updating the target temperature updating unit 411, the measured temperature updating unit 412, the log generation unit 413, the log transmission unit 414, and the air conditioning control unit 415. functions as The auxiliary storage unit 403 also includes a target temperature storage unit 431 that stores target temperature information indicating the target temperatures of the target areas A1, A21, and A22 for air conditioning by the air conditioner 40, and a target area A1 measured by the temperature sensor 481. , A21, and A22.

Upon receiving target temperature information from a remote control device (not shown) or control device 10 corresponding to the air conditioner 40, the target temperature updating section 411 updates the target temperature stored in the target temperature storage section 431 with the received target temperature information. Update information. The measured temperature update unit 412 acquires measured temperature information from the sensor interface 482, and updates the measured temperature information stored in the measured temperature storage unit 432 with the acquired measured temperature information.

Upon receiving log request information, which will be described later, from the control device 10, the log generation unit 413 generates log information that is operation information indicating the operation status of the air conditioner 40. Specifically, the log generation unit 413 acquires target temperature information from the target temperature storage unit 431, acquires measured temperature information from the measured temperature storage unit 432, and stores serial number information specific to the air conditioner 40 and the target temperature information. Log information including temperature information and measured temperature information is generated. The log transmitter 414 transmits the log information generated by the log generator 413 to the control device 10. The air conditioning control unit 415 generates a control signal for bringing the temperature of the target areas A1, A21, and A22 closer to the target temperature indicated by the target temperature information stored in the target temperature storage unit 431, and outputs it to the drive units 452 and 462. Thereby, the drive units 452 and 462 drive the compressor 461 and the blower fan 451 so that the temperature of the target areas A1, A21, and A22 approaches the target temperature.

The terminal device 70 is a mobile terminal such as a smartphone or a tablet, and as shown in FIG. , a positioning unit 707 , and a bus 709 that interconnects these. The main memory section 702 is a volatile memory, and the auxiliary memory section 703 is a nonvolatile memory such as a semiconductor flash memory. The auxiliary storage unit 703 stores programs for realizing various functions of the terminal device 70. Examples of the program include applications developed by the manufacturer of the air conditioner 40. This application may be provided in a form that is integrated into an application installed by the user UA, UB, UC, UD, or UE to operate a home HEMS (Home Energy Management System), for example.

The display unit 705 is, for example, a liquid crystal display, and displays various information on the users UA, UB, UC, UD, and UE. The input unit 706 is, for example, a touch panel, and is operated by users UA, UB, UC, UD, and UE. The communication interface 704 is, for example, a wireless module, and communicates with the control device 10 via the network NT. The positioning unit 707 obtains position information indicating the position of the terminal device 70 by positioning the terminal device 70 using radio waves emitted from a base station for a mobile phone or an artificial satellite at each predetermined reference time. generate. The positioning unit 707 receives a GPS signal emitted from, for example, an artificial satellite, uses the received GPS (Global Positioning System) signal to measure the position of the terminal device 70, and generates position information. The positioning unit 707 outputs the generated position information to the CPU 701.

The CPU 701 reads out the program stored in the auxiliary storage unit 703 to the main storage unit 702 and executes it, thereby controlling the position acquisition unit 711, area information acquisition unit 712, position determination unit 713, display control unit 714, questionnaire generation unit 715, and It functions as a questionnaire transmitter 716. Further, the auxiliary storage unit 703 includes an area information storage unit 731 that stores target area information indicating the range of target areas A1, A21, and A22.

The position acquisition unit 711 acquires position information input from the positioning unit 707. The area information acquisition unit 712 acquires target area information transmitted from the control device 10. The position determining unit 713 determines in which target area A1, A21, A22 the terminal device 70 is located, based on the position information and target area information that the position acquiring unit 711 acquired from the positioning unit 707. do. When the position determination unit 713 determines that the terminal device 70 exists within the target areas A1, A21, and A22, the display control unit 714 displays a predetermined message regarding the temperature of the target areas A1, A21, and A22 on the display unit 705 of the terminal device 70. Display the set questions. The display control unit 714 causes the display unit 705 to display, for example, a push notification to prompt the user to answer the questions as shown in FIG. 4(A), and then displays the questions as shown in FIG. 4(B). It is displayed on the display unit 705. Note that when the display control unit 714 receives answers to the questions from the users UA, UB, UC, UD, and UE, the display control unit 714 displays information regarding the thank-you service from the facilities H1 and H2 as shown in FIG. 4(C). may be displayed on the display section 705. This can create an incentive for the users UA, UB, UC, UD, and UE to answer the questions.

Returning to FIG. 3, the questionnaire generation unit 715 identifies target areas A1, A21, and A22 with evaluation value information indicating an evaluation value obtained by quantifying the answers to the questions displayed on the display unit 705 by the display control unit 714. Questionnaire information including area identification information is generated. The questionnaire transmitter 716 transmits the questionnaire information generated by the questionnaire generator 715 to the control device 10.

The control device 10 is, for example, a general-purpose personal computer, and as shown in FIG. 5, it includes a CPU 101, a main storage section 102, an auxiliary storage section 103, a communication interface 104, and a bus 109 that interconnects these. has. The main storage unit 102 is a volatile memory, and the auxiliary storage unit 103 is a nonvolatile memory such as a magnetic disk or a semiconductor flash memory. The auxiliary storage unit 103 stores programs for realizing various functions of the control device 10. The communication interface 104 is a wireless module, a wired communication interface, or the like, and communicates with the air conditioner 40 and the terminal device 70 via the network NT.

The CPU 101 reads out the program stored in the auxiliary storage unit 103 to the main storage unit 102 and executes it, thereby executing the questionnaire acquisition unit 111, log request transmission unit 112, log acquisition unit 113, deviation value calculation unit 114, and average evaluation value calculation. 115 , a correction amount determining unit 116 , a target temperature calculating unit 117 , a target temperature transmitting unit 118 , and an area information transmitting unit 119 . The auxiliary storage unit 103 includes a questionnaire storage unit 131, a log storage unit 132, a deviation value storage unit 133, an equipment arrangement storage unit 134, a first correction amount storage unit 135, a second correction amount storage unit 136, It has a change amount storage section 137 and an area information storage section 138.

For example, as shown in FIG. 6A, the questionnaire storage unit 131 stores a questionnaire list LS1 in which evaluation value information indicating the results of the questionnaire is associated with response date and time information, user identification information, and area identification information. . The questionnaire storage unit 131 stores past evaluation value information within a preset reference period. The evaluation value information includes answer results corresponding to preset questions regarding the temperature of target areas A1, A21, and A22 to users UA, UB, UC, UD, and UE existing in target areas A1, A21, and A22. Indicates the numerical evaluation value. For example, five evaluation values are used: "+2 (hot)", "+1 (slightly hot)", "0 (just right)", "-1 (slightly cold)", and "-2 (cold)". be done. The answer date and time information is information indicating the date and time when the users UA, UB, UC, UD, and UE answered the above-mentioned questions via the input unit 706 of the terminal device 70. The user identification information is information for identifying each user UA, UB, UC, UD, and UE, and corresponds to, for example, account information used for login authentication when starting an application on the terminal device 70. The area identification information is information that identifies target areas A1, A21, and A22 for air conditioning by the air conditioner 40. For example, the user UA indicates that the user UA existed in the target area A1 at the answer date and time "2018/8/3 12:11" when he answered the above-mentioned question.

For example, as shown in FIG. 6(B), the log storage unit 132 stores serial number information, target temperature information, and measured temperature information included in the log information acquired from the air conditioner 40. It stores a log list LS2 that is associated with acquisition date and time information indicating the date and time of the acquisition. The serial number information indicates a serial number unique to the air conditioner 40 that is the source of the acquired log information. The target temperature information corresponds to the target temperature information stored in the target temperature storage unit 431 when the air conditioner 40, which is the source of the acquired log information, transmits the log information. The measured temperature information corresponds to the measured temperature information that was stored in the measured temperature storage unit 432 when the air conditioner 40, which is the source of the acquired log information, sent the log information.

For example, as shown in FIG. 7A, the deviation value storage unit 133 stores deviation value information indicating deviation values corresponding to each user UA, UB, UC, UD, and UE in a manner that corresponds to user identification information. A deviation value list LS3 is stored. This deviation value is a value less than 50 for users who tend to have lower evaluation values than the average value of the overall evaluation values of users UA, UB, UC, UD, and UE, that is, users who tend to answer "cold". shows. On the other hand, this deviation value tends to be higher than the average value of the evaluation values of all users UA, UB, UC, UD, and UE, that is, a value of 50 or more for users who tend to answer "hot". show.

For example, as shown in FIG. 7(B), the equipment location storage unit 134 stores serial number information of the air conditioners 40 installed in each of the target areas A1, A21, and A22. It stores an equipment arrangement table TA1 that is associated with area identification information and automatic setting flag information. The serial number information indicates the serial number unique to the air conditioner 40 as described above. The automatic setting flag information indicates whether or not the target temperature of the air conditioner 40 is automatically set in each of the target areas A1, A21, and A22 based on the questionnaire information of the users UA, UB, UC, UD, and UE. Show that. When the automatic setting flag information is set to "F (TRUE)", the target temperature of the air conditioner 40 installed in the target area (for example, area A1) is set to the target temperature of the air conditioner 40 installed in the target area (for example, area A1). UA, UB, UC) are automatically set based on their respective questionnaire information. On the other hand, when the automatic setting flag information is set to "F (FALSE)", the target temperature of the air conditioner 40 installed in the target area (for example, areas A21 and A22) is The temperature is set based only on the target temperature information received from the remote control device. The content of this automatic setting flag information may be set by, for example, an administrator of the air conditioner 40 using a dedicated terminal device (not shown) connected to the network NT.

The first correction amount storage unit 135 stores a first correction amount table TA2 in which first correction amount information is associated with deviation value range information, as shown in FIG. 8, for example. This first correction amount is an amount for correcting bias in the evaluation value, and becomes positive when the deviation value is less than 50, and its absolute value becomes larger as the deviation value becomes smaller. On the other hand, the first correction amount becomes negative when the deviation value exceeds 50, and the absolute value becomes larger as the deviation value becomes larger. That is, by adding the first correction amount to the evaluation values of users UA, UB, UC, UD, and UE, the evaluation values of users who tend to answer "cold" increase, and users who answer "hot" increase. The evaluation value of users who tend to do so will decrease. As a result, the average value of the evaluation values of users UA, UB, UC, UD, and UE will be the evaluation values of users who have an extremely high tendency to answer "hot" or a tendency to answer "cold". This prevents being influenced by extremely large user evaluation values.

The second correction amount storage unit 136 stores a second correction amount table showing the correlation between the temperature difference between the target temperature and the measured temperature and the second correction amount, as shown in FIG. 9(A), for example. ing. This second correction amount is an amount for reducing the amount of change in the target temperature at a stage where the temperature difference between the target temperature and the measured temperature is large. By adding this second correction amount to the evaluation values of users UA, UB, UC, UD, and UE, for example, if the measured temperature is higher than the target temperature, the second correction amount becomes a negative value and the evaluation value becomes Correct to decrease the average value.

The change amount storage unit 137 stores the correlation between the average evaluation value of all users UA, UB, UC, UD, and UE and the change amount of the target temperature of the air conditioner 40, as shown in FIG. 9(B), for example. A change amount table showing the relationship is stored. This change amount table shows a relationship in which the value obtained by reversing the sign of the average evaluation value corresponds to the change amount. Therefore, when the average evaluation value is a positive value, that is, when all users UA, UB, UC, UD, and UE tend to answer "hot", the amount of change becomes a negative value, and the change amount of the air conditioner 40 The target temperature will drop.

The area information storage unit 138 stores target area information indicating the range of target areas A1, A21, and A22 for air conditioning by the air conditioners 40 in the facilities H1 and H2.

The questionnaire acquisition unit 111 acquires the aforementioned questionnaire information transmitted from the terminal devices 70 owned by the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22. The log request transmitting unit 112 refers to the equipment arrangement table TA1 stored in the equipment arrangement storage unit 134, and determines which areas are installed in the target areas A1, A21, and A22 where the automatic setting flag information is set to “F (TRUE).” log request information requesting transmission of log information to the air conditioner 40 that has been installed. The log acquisition unit 113 is an operation information acquisition unit that acquires log information from the air conditioner 40, which is the destination of the log request information. The log acquisition unit 113 registers the acquired log information in the log list LS2 stored in the log storage unit 132.

The deviation value calculation unit 114 calculates the deviation value of the evaluation value of each user based on the past questionnaire information of each of the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22. . The correction amount determination unit 116 determines a first correction amount for each evaluation value of the users UA, UB, UC, UD, and UE based on the questionnaire information. Specifically, the correction amount determination unit 116 refers to the first correction amount table TA2 stored in the first correction amount storage unit 135, and calculates the user UA, UB, UC, A first correction amount corresponding to each deviation value of UD and UE is determined. Further, the correction amount determination unit 116 refers to the equipment arrangement table TA1 stored in the equipment arrangement storage unit 134 from among the log list LS2 stored in the log storage unit 132, and sets the automatic setting flag information to F (TRUE). The set target areas A1, A21, and A22 are specified, and log information of the air conditioners 40 installed in the specified target areas A1, A21, and A22 is extracted. Then, the correction amount determination unit 116 calculates a temperature difference corresponding to the difference value between the target temperature and the measured temperature from the target temperature information and the measured temperature information included in the extracted log information, and calculates the temperature difference corresponding to the difference value between the target temperature and the measured temperature, and A second correction amount corresponding to the calculated temperature difference is determined by referring to a second correction amount table stored in the second correction amount table.

The average evaluation value calculation unit 115 calculates the evaluation values of the users UA, UB, UC, UD, and UE by adding the first correction amount to the evaluation values of the users UA, UB, UC, UD, and UE. is corrected, and an average evaluation value that is the average value of the corrected evaluation values of the users UA, UB, UC, UD, and UE is calculated.

The target temperature calculation unit 117 calculates the evaluation values of the users UA, UB, UC, UD, and UE corrected using the first correction amount determined by the correction amount determination unit 116 and the evaluation values calculated by the correction amount determination unit 116. This is a target environmental index value calculation unit that calculates a new target temperature based on the second correction amount that has been calculated and the target temperature included in the above-mentioned log information. Specifically, the target temperature calculation unit 117 first adds the aforementioned second correction amount to the average evaluation values of the users UA, UB, UC, UD, and UE calculated by the average evaluation value calculation unit 115. to calculate a new average evaluation value. Then, the target temperature calculation unit 117 refers to the change amount table stored in the change amount storage unit 137, specifies the change amount corresponding to the calculated new average evaluation value, and adds the change amount to the target temperature included in the log information. A new target temperature is calculated by adding the specified change amount. Target temperature transmitting section 118 transmits target temperature information indicating the target temperature calculated by target temperature calculating section 117 to air conditioner 40 .

The area information transmitting unit 119 broadcasts the area information stored in the area information storage unit 138 to the terminal devices 70 owned by the users UA, UB, UC, UD, and UE.

Next, the operation of the control system according to this embodiment will be explained with reference to FIGS. 10 and 11. First, as shown in FIG. 10, target area information indicating the target areas A1, A21, and A22 for air conditioning by the air conditioners 40 in the facilities H1 and H2 is transmitted from the control device 10 to each user UA, UB, and UC. , UD, and the terminal device 70 owned by the UE (step S1). Upon receiving the target area information, the terminal device 70 stores the received target area information in the area information storage unit 731 (step S2). Next, the terminal device 70 acquires location information indicating the location of the terminal device 70 (step S3).

Here, it is assumed that the terminal device 70 determines that the terminal device 70 exists within the target areas A1, A21, and A22 based on the target area information and the position information of the terminal device 70 (step S4). In this case, the terminal device 70 causes the display unit 705 to display preset questions regarding the temperatures of the target areas A1, A21, and A22 (step S5). Subsequently, the terminal device 70 displays questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answers to the questions displayed on the display unit 705 and area identification information identifying target areas A1, A21, and A22. is generated (step S6). Thereafter, the generated questionnaire information is transmitted from the terminal device 70 to the control device 10 (step S7).

On the other hand, upon receiving the questionnaire information, the control device 10 registers the received questionnaire information in the questionnaire list stored in the questionnaire storage unit 131 (step S8).

After that, it is assumed that the time has come to collect preset log information of the air conditioner 40. Then, the control device 10 refers to the device placement table TA1 stored in the device placement storage unit 134, and selects the target areas for which the automatic setting flag information is set to F (TRUE) from among the target areas A1, A21, and A22. Assume that it is determined that A1, A21, and A22 exist (step S9). In this case, log request information requesting the air conditioner 40 to transmit log information is transmitted from the control device 10 to the air conditioner 40 (step S10). Then, the log information of the air conditioner 40 that has received the log request information is transmitted from the air conditioner 40 to the control device 10 (step S11). On the other hand, upon receiving the log information, the control device 10 registers the received log information in the log list LS2 stored in the log storage unit 132 (step S12). Next, for each target area A1, A21, A22, the control device 10 performs a past questionnaire survey of each of the users UA, UB, UC, UD, and UE existing in the target area A1, A21, and A22 within the above-mentioned reference period. Information is acquired from the questionnaire storage unit 131 (step S13).

Subsequently, as shown in FIG. 11, the control device 10 calculates deviation values for each of the users UA, UB, UC, UD, and UE for the evaluation values included in the acquired questionnaire information (step S14). Thereafter, the control device 10 refers to the first correction amount table TA2 stored in the first correction amount storage unit 135, and determines the first correction amount corresponding to the deviation value of each of the users UA, UB, UC, UD, and UE. is determined (step S15). Next, the control device 10 adds the above-mentioned first correction amount to the evaluation values of the users UA, UB, UC, UD, and UE, thereby calculating the evaluation values of the users UA, UB, UC, UD, and UE. is corrected (step S16). Subsequently, the control device 10 calculates an average evaluation value that is the average value of the corrected evaluation values of the users UA, UB, UC, UD, and UE (step S17).

After that, the control device 10 calculates the temperature difference between the target temperature and the measured temperature from the target temperature information and the measured temperature information included in the above-mentioned log information (step S18). Next, the control device 10 refers to the second correction amount table stored in the second correction amount storage section 136 and determines the second correction amount corresponding to the above-mentioned temperature difference (step S19).

Next, the control device 10 corrects the average evaluation value by adding the above-mentioned second correction amount to the calculated average evaluation value of the users UA, UB, UC, UD, and UE (step S20). Next, the control device 10 refers to the change amount table stored in the change amount storage section 137 and identifies the change amount corresponding to the new average evaluation value after correction (step S21). After that, the control device 10 calculates a new target temperature by adding the specified change amount to the target temperature included in the log information (step S22). Next, target temperature information indicating the calculated target temperature is transmitted from the control device 10 to the air conditioner 40 (step S23).

On the other hand, upon receiving the target temperature information, the air conditioner 40 updates the target temperature information stored in the target temperature storage unit 431 with the received target temperature information (step S24). The air conditioner 40 then operates based on the updated target temperature information (step S25).

Next, the questionnaire information generation process executed by the terminal device 70 according to the present embodiment will be described with reference to FIG. 12. This questionnaire information generation process is started, for example, when an application for generating questionnaire information is started after the terminal device 70 is powered on. First, the area information acquisition unit 712 determines whether target area information transmitted from the control device 10 has been received (step S201). If the area information acquisition unit 712 determines that target area information has not been received (step S201: No), the process of step S203, which will be described later, is executed.

On the other hand, if the area information acquisition unit 712 determines that the target area information has been received (step S201: Yes), the area information acquisition unit 712 stores the target area information in the area information storage unit 731 (step S202). Next, the position acquisition unit 711 determines whether a preset positioning time has arrived (step S203). If the position acquisition unit 711 determines that the positioning time has not arrived (step S203: No), the process of step S201 is executed again. On the other hand, when the position acquisition unit 711 determines that the positioning time has arrived (step S203: Yes), the position acquisition unit 711 acquires position information indicating the position of the terminal device 70 from the positioning unit 707 (step S204).

Subsequently, the position determination unit 713 determines whether the terminal device 70 exists within the target areas A1, A21, and A22 based on the position information and target area information that the position acquisition unit 711 acquired from the positioning unit 707. Determination is made (step S205). When the position determining unit 713 determines that the terminal device 70 does not exist within the target areas A1, A21, and A22 (step S205: No), the process of step S201 is executed again. On the other hand, assume that the position determining unit 713 determines that the terminal device 70 exists within the target areas A1, A21, and A22 (step S205: Yes). In this case, the display control unit 714 causes the display unit 705 of the terminal device 70 to display preset questions regarding the temperatures of the target areas A1, A21, and A22 (step S206).

Next, the questionnaire generation unit 715 determines whether or not the answers to the questions input by the users UA, UB, UC, UD, and UE through the input unit 706 have been received within a preset response period. (Step S207). If the questionnaire generation unit 715 determines that no response results have been received within the aforementioned response period (step S207: No), the process of step S201 is executed again. On the other hand, when it is determined that the answer results have been received within the above-mentioned answer period (step S207: Yes), the questionnaire generation unit 715 includes evaluation value information indicating an evaluation value obtained by quantifying the above-mentioned answer results, the target area A1, Questionnaire information including area identification information identifying A21 and A22 is generated (step S208). Thereafter, the questionnaire transmitter 716 transmits the questionnaire information generated by the questionnaire generator 715 to the control device 10 (step S209). Next, the process of step S201 is executed again.

Next, the air conditioner control process executed by the control device 10 according to the present embodiment will be described with reference to FIGS. 13 and 14. This air conditioner control process is started, for example, when the control device 10 is powered on. First, as shown in FIG. 13, the area information transmitting unit 119 broadcasts the area information stored in the area information storage unit 138 to the terminal devices 70 owned by the users UA, UB, UC, UD, and UE ( Step S101). Next, the questionnaire acquisition unit 111 determines whether questionnaire information transmitted from the terminal device 70 has been received (step S102). If the questionnaire acquisition unit 111 determines that the questionnaire information has not been received (step S102: No), the process of step S104, which will be described later, is executed.

On the other hand, when the questionnaire acquisition unit 111 determines that the questionnaire information has been received (step S102: Yes), the questionnaire acquisition unit 111 registers the received questionnaire information in the questionnaire list LS1 stored in the questionnaire storage unit 131 (step S103). Subsequently, the log request transmitter 112 determines whether a preset log information collection time has arrived (step S104). If the log request transmitter 112 determines that the log information collection time has not arrived (step S104: No), the process of step S101 is executed again. On the other hand, assume that the log request transmitter 112 determines that the time to collect log information has arrived (step S104: Yes). In this case, the log request transmitting unit 112 refers to the device placement table TA1 stored in the device placement storage unit 134, and determines whether the automatic setting flag information is set to F (TRUE) in the target areas A1, A21, and A22. It is determined whether or not target areas A1, A21, and A22 exist (step S105).

When the log request transmitter 112 determines that there are no target areas A1, A21, A22 whose automatic setting flag information is set to F (TRUE) among the target areas A1, A21, A22 (step S105: No). ), the process of step S101 is executed again. On the other hand, assume that the log request transmitter 112 determines that there are target areas A1, A21, and A22 whose automatic setting flag information is set to F (TRUE) among the target areas A1, A21, and A22 (step S105: Yes). In this case, the log request transmitting unit 112 transmits log request information requesting the air conditioner 40 to transmit log information to the target areas A1, A21, and A22 for which the automatic setting flag information is set to F (TRUE). The information is transmitted to the air conditioner 40 installed at (step S106).

Here, when the air conditioner 40 receives the log request information, the log generation unit 413 of the air conditioner 40 generates log information, and the log transmission unit 414 transmits the generated log information to the control device 10. do. Then, the log acquisition unit 113 acquires the log information transmitted from the air conditioner 40 (step S107). Thereafter, the log acquisition unit 113 registers the acquired log information in the log list LS2 stored in the log storage unit 132 (step S108).

Next, the deviation value calculation unit 114 and the average evaluation value calculation unit 115 calculate the value of each of the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22 for each target area A1, A21, and A22. Past questionnaire information within the aforementioned reference period is acquired from the questionnaire storage unit 131 (step S109). Subsequently, the deviation value calculation unit 114 calculates each user UA, UB, UC, and UE based on the past questionnaire information of each of the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22. A deviation value between the evaluation values of UD and UE is calculated (step S110). Thereafter, the correction amount determination unit 116 refers to the first correction amount table TA2 stored in the first correction amount storage unit 135, and determines the user UA, UB, UC, UD, and UE calculated by the deviation value calculation unit 114. A first correction amount corresponding to each deviation value is determined (step S111). For example, assume that the first correction amount table TA2 is set as shown in FIG. 8, and the deviation value of the user UA is "32". In this case, the correction amount determining unit 116 refers to the first correction amount table TA2 and determines the first correction amount corresponding to the user UA to be "0.75".

Next, as shown in FIG. 14, the average evaluation value calculation unit 115 adds the above-mentioned first correction amount to the evaluation values of the users UA, UB, UC, UD, and UE. , UC, UD, and UE are corrected (step S112). For example, if the evaluation value of the user UA is "0 (just good)", the evaluation value is corrected to "0.75 (=0+0.75)". Subsequently, the average evaluation value calculation unit 115 calculates an average evaluation value that is the average value of the corrected evaluation values of the users UA, UB, UC, UD, and UE (step S113).

After that, the correction amount determining unit 116 calculates the temperature difference between the target temperature and the measured temperature from the target temperature information and the measured temperature information included in the above-mentioned log information (step S114). Here, the correction amount determination unit 116 uses temperature sensors 481 attached to each of the plurality of air conditioners 40 installed in the target area A1 as the measured temperature of the target area A1 in which the plurality of air conditioners 40 are installed. The average value of the measured temperatures obtained through measurement is used. For example, as shown in FIG. 7(B), air conditioners 40 with serial number information "0010" and "0011" are installed in target area A1, and air conditioners 40 with serial number information "0010" and "0011" are installed in target area A1. It is assumed that log information as shown in FIG. 6(B) has been obtained for. In this case, (30.2+29.8)/2=30.0° C. is adopted as the measured temperature of the target area A1. Therefore, the temperature difference corresponding to the target area A1 is "-2.5°C (=27.5°C-30.0°C)".

Next, the correction amount determination unit 116 refers to the second correction amount table stored in the second correction amount storage unit 136 and determines the second correction amount corresponding to the calculated temperature difference (step S115). Subsequently, the target temperature calculation unit 117 calculates the average evaluation by adding the above-mentioned second correction amount to the average evaluation values of the users UA, UB, UC, UD, and UE calculated by the average evaluation value calculation unit 115. The value is corrected (step S116). Thereafter, the target temperature calculation unit 117 refers to the change amount table stored in the change amount storage unit 137 and identifies the change amount corresponding to the new average evaluation value after correction (step S117). Next, the target temperature calculation unit 117 calculates a new target temperature by adding the specified change amount to the target temperature included in the log information (step S118). Subsequently, the target temperature transmitting unit 118 transmits target temperature information indicating the target temperature calculated by the target temperature calculating unit 117 to the air conditioner 40 (step S119).

As explained above, according to the control device 10 according to the present embodiment, the questionnaire acquisition unit 111 uses terminals owned by the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22. Questionnaire information indicating response results corresponding to questions regarding the temperature of target areas A1, A21, and A22 is acquired from the device 70. Then, the correction amount determination unit 116 determines the first correction amount for the evaluation values of the users UA, UB, UC, UD, and UE based on the questionnaire information, and the target temperature calculation unit 117 determines the first correction amount. A new target temperature is calculated based on the corrected evaluation value and the target temperature information included in the log information. This makes it easier for the intentions of the users UA, UB, UC, UD, and UE present in the target areas A1, A21, and A22 included in the questionnaire information to be reflected in the temperatures of the target areas A1, A21, and A22. Therefore, the target areas A1, A21, A22 can be maintained at the optimum temperature for the users UA, UB, UC, UD, and UE present in the target areas A1, A21, and A22.

Further, in the control device 10 according to the present embodiment, the deviation value calculation unit 114 calculates the deviation value based on the past questionnaire information of each of the users UA, UB, UC, UD, and UE existing in the target areas A1, A21, and A22. , the deviation value of the evaluation values of each user UA, UB, UC, UD, and UE is calculated, and the correction amount determining unit 116 refers to the first correction amount table TA2 stored in the first correction amount storage unit 135. , determines a first correction amount corresponding to the deviation value calculated by the deviation value calculation unit 114. Then, the average evaluation value calculation unit 115 adds the above-mentioned first correction amount to the evaluation values of each of the users UA, UB, UC, UD, and UE. The evaluation value is corrected, and an average evaluation value that is the average value of the corrected evaluation values of the users UA, UB, UC, UD, and UE is calculated. As a result, the average evaluation value will be less affected by the evaluation values of users who tend to answer extremely ``cold'' or users who tend to answer extremely ``hot,'' so the target The temperature can be set to a temperature appropriate for the users UA, UB, UC, UD, and the entire UE.

Furthermore, in the control device 10 according to the present embodiment, the correction amount determining unit 116 refers to the second correction amount table stored in the second correction amount storage unit 136 to determine the temperature difference between the target temperature and the measured temperature. The corresponding second correction amount is determined, and the target temperature calculation unit 117 calculates the target temperature based on the second correction amount determined by the correction amount determination unit 116 and the average evaluation value. As a result, for example, immediately after the air conditioner 40 starts operating, and the target areas A1, A21, and A22 have not yet been sufficiently cooled, users UA, UB, UC, UD, and UE may say "It's hot". This prevents the target temperature from being set lower than necessary based on the questionnaire information.

Although each embodiment of the present invention has been described above, the present invention is not limited to each of the above-described embodiments. For example, the control system may include a lighting fixture that operates to bring the illuminance of a target area shared by a plurality of users closer to a target illuminance, and a control device that controls the lighting fixture. In this case, the questionnaire acquisition unit acquires evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the illuminance of the target area, from a terminal device owned by a user existing in the target area. Questionnaire information including area identification information for identifying the target area may be acquired. Further, the operation information acquisition unit may acquire operation information from the lighting equipment indicating the operating status of the lighting equipment, that is, current value information indicating the current value of the current supplied to the light source mounted on the lighting equipment. . The control device includes a target current value calculation unit that calculates a new target current value based on the evaluation value corrected using the first correction amount determined by the correction amount determination unit and the current value information. All you have to do is prepare.

Alternatively, the control system may include an audio device that outputs sound such that the volume of sound output to a target area shared by multiple users approaches a target volume, and a control device that controls the audio device. It may be prepared. In this case, the questionnaire acquisition unit acquires evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the acoustics of the target area, from a terminal device owned by a user existing in the target area. Questionnaire information including area identification information for identifying the target area may be acquired. Further, the operation information acquisition unit may acquire operation information indicating the operation status of the audio device, ie, volume information indicating the volume of the audio device, from the audio device. The control device may include a target volume calculation unit that calculates a new target volume based on the evaluation value corrected using the first correction amount determined by the correction amount determination unit and the volume information. Just do it. Alternatively, the control system may include a humidifying device that adjusts humidity in a target area shared by multiple users so as to approach a target humidity, and a control device that controls the humidifying device. .

In the embodiment, an example will be described in which the positioning unit 707 generates position information indicating the position of the terminal device 70 by measuring the position of the terminal device 70 using radio waves emitted from a base station for a mobile phone or an artificial satellite. explained. However, the present invention is not limited to this, and the positioning unit 707 may generate position information by, for example, performing short-range wireless communication with the air conditioner 40.

In the embodiment, an example has been described in which the location information of the users UA, UB, UC, UD, and UE is acquired using the terminal device 70 owned by the users UA, UB, UC, UD, and UE. For example, the location information of users UA, UB, UC, UD, and UE can be obtained using tablet terminals installed in advance in facilities H1 and H2 (for example, tablet terminals for menu ordering installed in pubs). It may be something that does. In this case, the control device 10 may include a tablet terminal storage unit that stores a tablet terminal arrangement table indicating the correspondence between the installation locations of the tablet terminals and the target areas A1, A21, and A22.

Further, various functions of the control device 10 and the terminal device 70 according to the present invention may be realized by software, firmware, or a combination of software and firmware. In this case, the software or firmware is written as a program, and the program is stored on a computer-readable disk such as a flexible disk, CD-ROM (Compact Disc Read Only Memory), DVD (Digital Versatile Disc), and MO (Magneto-Optical Disc). By storing and distributing the program in a recording medium, reading the program into the computer, and installing the program, a computer capable of realizing each of the above-mentioned functions may be configured. In the case where each function is realized by sharing between an OS (Operating System) and an application, or by cooperation between the OS and an application, only the parts other than the OS may be stored in the recording medium.

Furthermore, it is also possible to superimpose each program on a carrier wave and distribute it via a communication network. For example, the program may be posted on a bulletin board (BBS, Bulletin Board System) on a communication network and distributed via the network. The above-described process may be executed by starting these programs and executing them under the control of the OS in the same way as other application programs.

INDUSTRIAL APPLICABILITY The present invention is suitable as a control device for controlling air conditioners installed in large stores, large public facilities, etc.

10 control device, 30 gateway device, 40, 40A, 40B, 40C, 40D air conditioner, 70 terminal device, 101,401,701 CPU, 102,402,702 main storage section, 103,403,703 auxiliary storage section, 104,404,704 communication interface, 109,409,709 bus, 111 questionnaire acquisition unit, 112 log request transmission unit, 113 log acquisition unit, 114 deviation value calculation unit, 115 average evaluation value calculation unit, 116 correction amount determination unit, 117 target temperature calculation unit, 118 target temperature transmission unit, 119 area information transmission unit, 131 questionnaire storage unit, 132 log storage unit, 133 deviation value storage unit, 134 equipment arrangement storage unit, 135 first correction amount storage unit, 136 2 correction amount storage unit, 137 change amount storage unit, 138, 731 area information storage unit, 411 target temperature update unit, 412 measured temperature update unit, 413 log generation unit, 414 log transmission unit, 415 air conditioning control unit, 431 target temperature Storage unit, 432 Measured temperature storage unit, 451 Blow fan, 452, 462 Drive unit, 461 Compressor, 481 Temperature sensor, 482 Sensor interface, 711 Position acquisition unit, 712 Area information acquisition unit, 713 Position determination unit, 714 Display control Department, 715 Questionnaire generation section, 716 Questionnaire transmission section, A1, A21, A22 Target area, H1, H2 Facility, LS1 Questionnaire list, LS2 Log list, LS3 Deviation value list, NT network, TA1 Equipment placement table, TA2 First correction quantity table, UA, UB, UC, UD, UE User

Claims (15)

A control device that controls equipment that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value,
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in the area, and area identification information that identifies the area. a questionnaire acquisition unit that acquires questionnaire information including;
an operation information acquisition unit that acquires operation information indicating an operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount determined by the correction amount determination unit and the operation information; ,
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area,
The correction amount determination unit refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation unit.
Control device. A control device that controls equipment that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value,
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in the area, and area identification information that identifies the area. a questionnaire acquisition unit that acquires questionnaire information including;
an operation information acquisition unit that acquires operation information indicating an operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount determined by the correction amount determination unit and the operation information; ,
a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between a difference value between the actual environmental index value of the area and the target environmental index value and a second correction amount;
The correction amount determining unit refers to the second correction amount table to determine the second correction amount corresponding to the difference value,
The target environmental index value calculation unit calculates a target environmental index value based on the second correction amount determined by the correction amount determination unit and the evaluation value.
Control device. The device is an air conditioner,
The environmental index value is temperature.
The control device according to claim 1 or 2. A device that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value;
a terminal device owned by a user existing in the area and having a display unit that displays information to the user;
a position acquisition unit that acquires position information indicating the position of the terminal device using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that displays preset questions regarding the environment of the area on the display unit of the terminal device when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. and,
an operation information acquisition unit that acquires operation information indicating an operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information; ,
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area,
The correction amount determination unit refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation unit.
control system. A device that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value;
a terminal device owned by a user existing in the area and having a display unit that displays information to the user;
a position acquisition unit that acquires position information indicating the position of the terminal device using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that displays preset questions regarding the environment of the area on the display unit of the terminal device when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. and,
an operation information acquisition unit that acquires operation information indicating an operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information; ,
a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between a difference value between the actual environmental index value of the area and the target environmental index value and a second correction amount;
The correction amount determining unit refers to the second correction amount table to determine the second correction amount corresponding to the difference value,
The target environmental index value calculation unit calculates the target environmental index value based on the second correction amount determined by the correction amount determination unit and the evaluation value.
control system. A terminal device that is owned by a user in an area shared by multiple users and has a display unit that displays information to the user,
a position acquisition unit that acquires position information indicating the position of the terminal device obtained by positioning using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that displays preset questions regarding the environment of the area on the display unit of the terminal device when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. and,
an operation information acquisition unit that acquires operation information indicating the operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information; ,
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area,
The correction amount determination unit refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation unit.
Terminal device. A terminal device that is owned by a user in an area shared by multiple users and has a display unit that displays information to the user,
a position acquisition unit that acquires position information indicating the position of the terminal device obtained by positioning using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that displays preset questions regarding the environment of the area on the display unit of the terminal device when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. and,
an operation information acquisition unit that acquires operation information indicating the operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information; ,
a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between a difference value between the actual environmental index value of the area and the target environmental index value and a second correction amount;
The correction amount determining unit refers to the second correction amount table to determine the second correction amount corresponding to the difference value,
The target environmental index value calculation unit calculates a target environmental index value based on the second correction amount determined by the correction amount determination unit and the evaluation value.
Terminal device. A control method for controlling a device that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value, the method comprising:
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in the area, and area identification information that identifies the area. obtaining survey information including;
a step of acquiring operational information indicating an operational status of the device from the device;
a step of calculating a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area;
Calculation with reference to the first correction amount table stored in a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount of the evaluation value. determining the first correction amount corresponding to the calculated deviation value;
calculating a new target environmental index value based on the evaluation value corrected using the calculated first correction amount and the operation information;
Control method. A control method for controlling a device that operates to bring an environmental index value of an area shared by multiple users closer to a target environmental index value, the method comprising:
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in the area, and area identification information that identifies the area. obtaining survey information including;
a step of acquiring operational information indicating an operational status of the device from the device;
determining a first correction amount for the evaluation value based on the questionnaire information;
the second correction stored in a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between the difference value between the actual environmental index value of the area and the target environmental index value and the second correction amount; determining the second correction amount corresponding to the difference value with reference to an amount table;
calculating a new target environmental index value based on the evaluation value corrected using the calculated first correction amount, the operation information, and the determined second correction amount; including,
Control method. A control method for controlling a terminal device owned by a user in an area shared by multiple users and having a display unit that displays information to the user, the method comprising:
acquiring position information indicating the position of the terminal device using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
determining whether the terminal device exists within the area based on the acquired location information;
If it is determined that the terminal device is present in the area, displaying preset questions regarding the environment of the area on the display unit of the terminal device;
generating questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit and area identification information for identifying the area;
acquiring operational information indicating the operating status of the device from a device that operates so as to bring the environmental index value of the area closer to the target environmental index value ;
a step of calculating a deviation value of the evaluation value of each user based on past questionnaire information of each user existing in the area;
Calculation with reference to the first correction amount table stored in a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount of the evaluation value. determining the first correction amount corresponding to the calculated deviation value;
calculating a new target environmental index value based on the evaluation value corrected using the calculated first correction amount and the operation information;
Control method. A control method for controlling a terminal device owned by a user in an area shared by multiple users and having a display unit that displays information to the user, the method comprising:
acquiring position information indicating the position of the terminal device using radio waves emitted by a base station or an artificial satellite at every predetermined reference time;
determining whether the terminal device exists within the area based on the acquired location information;
If it is determined that the terminal device is present in the area, displaying preset questions regarding the environment of the area on the display unit of the terminal device;
generating questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit and area identification information for identifying the area;
acquiring operational information indicating the operating status of the device from a device that operates so as to bring the environmental index value of the area closer to the target environmental index value ;
determining a first correction amount for the evaluation value based on the questionnaire information;
the second correction stored in a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between the difference value between the actual environmental index value of the area and the target environmental index value and the second correction amount; determining the second correction amount corresponding to the difference value with reference to an amount table;
calculating a new target environmental index value based on the evaluation value corrected using the calculated first correction amount, the operation information, and the determined second correction amount; including,
Control method. computer,
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in an area shared by multiple users; a questionnaire acquisition unit that acquires questionnaire information including area identification information that identifies an area;
an operation information acquisition unit that acquires operation information indicating the operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information;
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of each user's evaluation value based on past questionnaire information of each user existing in the area;
It is a program to function as
The correction amount determination unit refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation unit.
program. computer,
Evaluation value information indicating an evaluation value obtained by quantifying the answer results corresponding to preset questions regarding the environment of the area from a terminal device owned by a user existing in an area shared by multiple users; a questionnaire acquisition unit that acquires questionnaire information including area identification information that identifies an area;
an operation information acquisition unit that acquires operation information indicating the operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information;
a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between a difference value between the actual environmental index value of the area and the target environmental index value and a second correction amount;
It is a program to function as
The correction amount determining unit refers to the second correction amount table to determine the second correction amount corresponding to the difference value,
The target environmental index value calculation unit calculates a target environmental index value based on the second correction amount determined by the correction amount determination unit and the evaluation value.
program. computer,
A display unit owned by a user located in an area shared by multiple users and displaying information to the user using radio waves emitted by a base station or an artificial satellite at each predetermined reference time. a location acquisition unit that acquires location information indicating the location of the terminal device;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that causes the display unit of the terminal device to display preset questions regarding the environment of the area when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. ,
an operation information acquisition unit that acquires operation information indicating the operation status of the device from a device that operates so as to bring the environmental index value of the area closer to the target environmental index value ;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information;
a first correction amount storage unit that stores a first correction amount table showing a correspondence relationship between the deviation value of the evaluation value and the first correction amount;
a deviation value calculation unit that calculates a deviation value of each user's evaluation value based on past questionnaire information of each user existing in the area;
It is a program to function as
The correction amount determination unit refers to the first correction amount table and determines the first correction amount corresponding to the deviation value calculated by the deviation value calculation unit.
program. computer,
A display unit owned by a user located in an area shared by multiple users and displaying information to the user using radio waves emitted by a base station or an artificial satellite at each predetermined reference time. a location acquisition unit that acquires location information indicating the location of the terminal device;
a position determination unit that determines whether the terminal device exists within the area based on the position information acquired by the position acquisition unit;
a display control unit that causes the display unit of the terminal device to display preset questions regarding the environment of the area when the position determination unit determines that the terminal device exists within the area;
A questionnaire information generation unit that generates questionnaire information including evaluation value information indicating an evaluation value obtained by quantifying the answer results to the questions displayed on the display unit by the display control unit and area identification information that identifies the area. ,
an operation information acquisition unit that acquires operation information indicating the operation status of the device from the device;
a correction amount determining unit that determines a first correction amount for the evaluation value based on the questionnaire information;
a target environmental index value calculation unit that calculates a new target environmental index value based on the evaluation value corrected using the first correction amount calculated by the correction amount determination unit and the operation information;
a second correction amount storage unit that stores a second correction amount table showing a correspondence relationship between a difference value between the actual environmental index value of the area and the target environmental index value and a second correction amount;
It is a program to function as
The correction amount determining unit refers to the second correction amount table to determine the second correction amount corresponding to the difference value,
The target environmental index value calculation unit calculates a target environmental index value based on the second correction amount determined by the correction amount determination unit and the evaluation value.
program.

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