JP2023136101A - Control system, schedule management method, and program - Google Patents

Abstract

To make it easy for a user to understand which equipment operates when combining scene-based control and schedule-based control.SOLUTION: In a control system, a scene information storage unit 121 stores scene information that defines at least one device and at least one operation to be performed by the at least one device. A schedule storage unit 122 stores a schedule in which at least one operation determined by the scene information stored in the scene information storage unit 121 is executed. A device schedule acquisition unit 115 acquires a device schedule that is a combination of at least one device and a schedule time from among the schedules stored in the schedule storage unit 122.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to a control system, a schedule management method, and a program.

2. Description of the Related Art There is a known technique for controlling the operation of devices based on a scene control file that describes control details for each device (for example, see Patent Document 1).

JP2013-98613A

In a control system that controls equipment using scenes as described above, when combining scene-based control and schedule-based control, there is a problem in that it is difficult for the user to know which equipment actually operates and when.

The present disclosure has been made in view of the above reasons, and it is an object of the present disclosure to provide a control system, etc. that can make it easy for the user to understand which equipment operates when when combining scene-based control and schedule-based control. With the goal.

In order to achieve the above object, the control system according to the present disclosure includes:
a scene information storage unit that stores scene information that defines at least one device and at least one operation to be performed by the at least one device;
a schedule storage unit that stores a schedule for executing at least one operation determined by the scene information stored in the scene information storage unit;
The apparatus further includes an equipment schedule acquisition unit that acquires an equipment schedule that is a combination of the at least one equipment and a schedule time from among the schedules stored in the schedule storage unit.

According to the present disclosure, a device schedule that is a combination of at least one device and a schedule time is acquired from among schedules in which at least one operation defined by scene information is executed. Therefore, when combining scene-based control and schedule-based control, it is possible to make it easier for the user to understand which equipment is to be operated and when.

A diagram showing the overall configuration of a control system according to Embodiment 1 Block diagram showing the hardware configuration of a cloud server and a terminal device according to Embodiment 1 Block diagram showing the functional configuration of the control system according to Embodiment 1 A diagram showing an example of information stored in the scene information storage unit according to the first embodiment A diagram showing an example of a device selection screen displayed on the terminal device according to Embodiment 1. A diagram showing an example of an operation designation screen displayed on the terminal device according to Embodiment 1. A diagram showing an example of information stored in the schedule storage unit according to the first embodiment A diagram showing an example of a schedule display screen displayed on the terminal device according to Embodiment 1. A diagram showing an example of a schedule setting screen displayed on the terminal device according to Embodiment 1. A diagram showing an example of a scene selection screen displayed on the terminal device according to Embodiment 1. A diagram illustrating an example of a device schedule acquired from a schedule storage unit according to Embodiment 1. A diagram showing an example of a device schedule display screen displayed on the terminal device according to Embodiment 1. A sequence diagram showing the flow of scene information registration processing, schedule registration processing, and schedule acquisition processing executed by the control system according to Embodiment 1. Flowchart showing the flow of device control processing executed by the cloud server according to Embodiment 1 Sequence diagram showing the flow of device schedule acquisition processing executed by the control system according to Embodiment 1 Block diagram showing the functional configuration of a control system according to Embodiment 2 Sequence diagram showing the flow of schedule registration processing executed by the control system according to Embodiment 2 A diagram showing an example of a device selection screen displayed on a terminal device according to Embodiment 5. A diagram showing an example of a scene selection screen displayed on a terminal device according to Embodiment 5.

Hereinafter, embodiments will be described in detail with reference to the drawings. In addition, the same or equivalent parts in the figures are given the same reference numerals.

(Embodiment 1)
FIG. 1 shows the overall configuration of a control system according to the first embodiment. The control system is a system that can remotely control a plurality of devices 3 installed inside the building H from outside the building H.

As shown in FIG. 1, the control system according to the first embodiment includes a cloud server 1, a terminal device 2, and a plurality of devices 3. The plurality of devices 3 are installed inside the building H. The building H is, for example, a single-family house, an apartment complex, an office building, a commercial facility, a factory, or the like.

Each of the plurality of devices 3 is a device to be controlled in the control system. Specifically, each of the plurality of devices 3 is an electric device such as an air conditioner that air-conditions the inside of the building H, a ventilation device that ventilates the inside of the building H, a water heater that boils water, and the like.

Although not shown, each of the plurality of devices 3 is connected to an operating device such as a remote control, a wall switch, or the like. A user in the building H can input instructions such as start and stop of operation, intensity of operation, etc. to the device 3 by operating the operating device. The operation of the device 3 using the operating device is called "hand-held operation." On the other hand, when a user remotely operates the device 3 using the terminal device 2, it is called "remote operation."

Although not shown, each of the plurality of devices 3 is connected to a local network NW2 constructed within the building H via a communication adapter. The local network NW2 is connected to the wide area network NW1 via a BBR (broadband router) 5. The local network NW2 is, for example, a wired LAN (Local Area Network), a wireless LAN, or an ECHONET Lite (registered trademark) network. The wide area network NW1 is, for example, the Internet.

The cloud server 1 and the terminal device 2 can communicate with each other via the wide area network NW1. The cloud server 1 is capable of communicating with a plurality of devices 3 via a wide area network NW1 and a local network NW2.

The cloud server 1 is a device that manages a control system, and specifically is a server that provides resources in cloud computing. As shown in FIG. 2, the cloud server 1 includes a control section 11, a storage section 12, and a communication section 15.

The control unit 11 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory). The CPU is also called a central processing unit, central processing unit, processor, microprocessor, microcomputer, etc., and functions as a central processing unit that executes processing and calculations related to control of the cloud server 1. In the control unit 11, the CPU reads out programs and data stored in the ROM, and uses the RAM as a work area to centrally control the cloud server 1.

The storage unit 12 includes nonvolatile memory such as a flash memory, an EPROM (Erasable Programmable ROM), an EEPROM (Electrically Erasable Programmable ROM), and a hard disk, and plays a role as a so-called secondary storage device or auxiliary storage device. The storage unit 12 stores programs and data used by the control unit 11 to perform various processes. It also stores data generated or acquired by the control unit 11 performing various processes.

The communication unit 15 includes a communication interface for the cloud server 1 to communicate with an external device via the wide area network NW1. The communication unit 15 transmits and receives various information to and from the terminal device 2 and the plurality of devices 3 via the wide area network NW1.

The terminal device 2 is a terminal that can be operated by a user located outside the building H. The terminal device 2 is, for example, a smartphone, a tablet terminal, a personal computer, or the like. As shown in FIG. 2, the terminal device 2 includes a control section 21, a storage section 22, an input section 23, a display section 24, and a communication section 25.

The control unit 21 includes a CPU, ROM, and RAM. The CPU is also called a central processing unit, central processing unit, processor, microprocessor, microcomputer, etc., and functions as a central processing unit that executes processing and calculations related to control of the terminal device 2 . In the control unit 21, the CPU reads programs and data stored in the ROM, and performs overall control of the terminal device 2 using the RAM as a work area.

The storage unit 22 includes a nonvolatile semiconductor memory such as a flash memory, EPROM, and EEPROM, and plays a role as a so-called secondary storage device or auxiliary storage device. The storage unit 22 stores programs and data used by the control unit 21 to perform various processes. It also stores data generated or acquired by the control unit 21 performing various processes.

The input unit 23 includes input devices such as a keyboard, a mouse, a switch, a touch pad, and a touch panel, and receives operation input from the user. The user can input various instructions to the terminal device 2 by operating the input unit 23. When the input unit 23 receives an operation instruction input from a user, the input unit 23 transmits the received operation instruction to the control unit 21 .

The display unit 24 includes a display device such as an LCD (Liquid Crystal Display) panel or an organic EL (Electro-Luminescence) panel. The display section 24 is driven by a display drive circuit (not shown) and displays various images under the control of the control section 21.

The communication unit 25 includes a communication interface for the terminal device 2 to communicate with an external device. The communication unit 25 transmits and receives various information to and from the cloud server 1 via the wide area network NW1.

Next, the functional configuration of the control system will be described with reference to FIG. 3. As shown in FIG. 3, the cloud server 1 functionally includes a scene information management section 111, a schedule management section 112, a device control section 113, and a device schedule acquisition section 115. Further, the terminal device 2 functionally includes an input reception section 211 and a display control section 213.

Each of these functions is realized by software, firmware, or a combination of software and firmware. Software and firmware are written as programs and stored in ROM or storage units 12 and 22. Each of these functions is realized by the CPU executing programs stored in the ROM or the storage units 12 and 22.

Further, the cloud server 1 includes a scene information storage section 121 and a schedule storage section 122. These are constructed in appropriate storage areas of the storage unit 12.

<Scene information storage unit 121>
In the cloud server 1, the scene information storage unit 121 stores scene information. The scene information is information that defines the content of scene control, which is control using scenes. Here, scene control means control for causing at least one device 3 to execute an operation all at once. By using scene control, the user does not have to individually select operations for each device 3, so the user's convenience when controlling the devices 3 can be improved.

Specifically, the scene information defines at least one device 3 and at least one operation to be performed by the at least one device 3. When scene control based on one piece of scene information is executed, a control command is transmitted that causes each of at least one device 3 to collectively execute at least one operation defined in the scene information. Note that execution at once does not necessarily mean execution at the same timing, but may be executed at different timings.

Specifically, as shown in FIG. 4, the scene information storage unit 121 stores a plurality of pieces of scene information. Each piece of scene information includes a "scene name" that is the name of the scene, a "scene ID" that identifies the scene information, an "operation" that indicates the control content, and a "scene ID" that identifies the device to be controlled. "Device ID". As the device ID, for example, a MAC (Media Access Control) address assigned to each device 3 can be used.

For example, scene information for "Good morning" defines an operation for turning on the living room air conditioner and an operation for turning off the bedroom air conditioner. The scene information for "I'm coming" specifies the operation to turn off the living room air conditioner and the operation to turn off the ventilation fan.

Note that one scene information may define a plurality of devices 3 and a plurality of operations to be performed by the plurality of devices 3, or one scene information to define one device 3 and one operation to be performed by the device 3. It may also be something that specifies. Even if the scene information defines one device 3 and one operation, the user's convenience in controlling the device 3 can be improved by combining the device 3 and the operation as scene information. .

Returning to FIG. 3, in the terminal device 2, the input accepting unit 211 accepts an instruction input by the user to the input unit 23. For example, the user can input an instruction to register new scene information in the scene information storage section 121 and an instruction to update scene information already stored in the scene information storage section 121. Further, the user can input an instruction to register a new schedule in the schedule storage section 122 and an instruction to update a schedule already stored in the schedule storage section 122. The input receiving unit 211 receives such input from the user.

When the input reception unit 211 receives an input to register new scene information or an input to update scene information, the display control unit 213 displays a scene setting screen for setting scene information on the display unit 24. . Here, the scene setting screen is a screen for selecting basic settings when generating scene information.

The display control unit 213 displays, as a scene setting screen, a screen for setting a combination of at least one device 3 defined in the scene information and an operation to be performed by the at least one device 3. The user registers new scene information in the scene information storage section 121 and edits scene information already stored in the scene information storage section 121 while viewing the scene setting screen displayed on the display section 24. be able to.

When registering new scene information, the display control unit 213 displays a screen for selecting the device 3 as a first scene setting screen. Specifically, the display control unit 213 displays a device selection screen 241 as shown in FIG. 5 on the display unit 24.

On the device selection screen 241, the display control unit 213 displays multiple candidates for the device 3 that can be selected in the scene information, such as “water heater 1,” “dressing room heater 1,” “bathroom heater 1,” etc. indicate. The user operates the input unit 23 to select at least one device 3 to be included in the scene information from among the multiple candidates displayed on the device selection screen 241.

When the user selects the device 3, the display control unit 213 displays a screen for setting operations to be performed by the selected device 3 as a second scene setting screen. For example, when the device 3 of “ventilation fan 1” is selected on the device selection screen 241, the display control unit 213 displays an operation designation screen 242 as shown in FIG. 6 on the display unit 24.

On the operation specification screen 242, the display control unit 213 displays a plurality of candidates for operations to be performed by the selected device 3. In the example of FIG. 6, the display control unit 213 selects an operation to perform ventilation with a strong air volume labeled "Strong" and an operation to ventilate with a weak air volume labeled "Weak" as candidates for the operation to be performed by "ventilation fan 1". and the operation to stop, which is written as "stop", are displayed. The user operates the input unit 23 to specify an operation to be performed by the selected device 3 from among the plurality of candidates displayed on the operation specification screen 242.

When a plurality of devices 3 are selected on the device selection screen 241, the display control unit 213 displays such an operation designation screen 242 for each of the selected devices 3. Then, the display control unit 213 receives from the user a designation of an operation to be performed on each of the plurality of selected devices 3.

Returning to FIG. 3, in the cloud server 1, the scene information management unit 111 manages registration and updating of scene information stored in the scene information storage unit 121. Specifically, when the input receiving unit 211 receives an input for registering scene information, the scene information management unit 111 transmits the scene information generated based on the user's input to the scene setting screen to the communication unit 15. The information is obtained from the terminal device 2 via the terminal device 2. Then, the scene information management unit 111 registers the acquired scene information in the scene information storage unit 121. The scene information to be registered includes a combination of at least one device selected on the device selection screen 241 and at least one operation specified on the operation designation screen 242.

<Schedule storage unit 122>
Returning to FIG. 3, the schedule storage unit 122 stores the schedule. The schedule is information that determines the time at which the device 3 is to perform the operation.

Specifically, as shown in FIG. 7, the schedule storage unit 122 stores information such as "schedule time", "operation" indicating the content of the scheduled operation, and whether the scheduled operation is an operation based on scene information or a device operation. The "operation type" indicating whether the scheduled operation is scheduled, and the "scene ID/device ID" for identifying the scheduled operation are stored in association with each other.

Here, if the device type is "scene", scene control based on scene information is executed at the scheduled time. The contents of the scene control are determined in the scene information storage section 121. For example, in the schedule shown in FIG. 7, two operations defined in the scene information "Good morning" are executed at 7:00. Furthermore, at 9:00, two operations specified in the scene information "I'm coming" are executed.

On the other hand, when the device type is "device operation", an independent operation by one device 3 is executed at the scheduled time. For example, in the schedule shown in FIG. 7, an operation is performed to turn on one device 3, the living room air conditioner, at 17:00.

In this way, the schedule storage unit 122 includes, as a schedule, a schedule for causing at least one target device 3 to execute at least one operation determined by each of the plurality of scene information stored in the scene information storage unit 121; A schedule of device operations, which are operations to be performed by one device 3 independently, is stored.

In the terminal device 2, the display control unit 213 displays the schedule stored in the schedule storage unit 122 on the display unit 24. The display control unit 213 transmits a schedule acquisition instruction from the cloud server 1 based on the user's input. Then, the display control unit 213 obtains a list of schedules stored in the schedule storage unit 122 and displays it on the display unit 24.

Specifically, the display control unit 213 displays a schedule display screen 243 as shown in FIG. 8 on the display unit 24. The display control unit 213 displays a plurality of schedule names in chronological order as a list of schedules on the schedule display screen 243.

When the input reception unit 211 receives an input to register a new schedule or an input to update the schedule, the display control unit 213 displays a schedule setting screen 244 for setting a schedule as shown in FIG. 24.

On the schedule setting screen 244, the display control unit 213 displays items for setting the name of the schedule, the execution time of the schedule, the operations to be performed in the schedule, and the like. In the example of FIG. 9, in the schedule named "Morning Air Conditioning", one device operation and one scene control are set to be executed from Monday to Friday at 9:00.

When accepting an input to register a new schedule, the input reception unit 211 selects the device 3 or scene information to be the target of the new schedule and inputs the time of the new schedule on the schedule setting screen 244. And I accept it.

Specifically, when setting a schedule for device operation, the display control unit 213 displays the device selection screen 241 shown in FIG. 5, the operation designation screen 242 shown in FIG. is displayed on the display section 24.

On the device selection screen 241, the display control unit 213 displays a plurality of candidates for devices 3 that can be selected as targets for a new schedule. Then, the input receiving unit 211 receives a selection of the device 3 to be operated at the input time from among the plurality of candidates displayed on the device selection screen 241.

On the operation specification screen 242, the display control unit 213 displays a plurality of candidates for operations to be performed by the device 3 selected on the device selection screen 241. Then, the input receiving unit 211 receives a designation of an operation to be performed by the selected device 3 from among the plurality of candidates displayed on the manipulation designation screen 242.

On the other hand, when setting a schedule for scene control, the display control unit 213 displays a scene selection screen 245 as shown in FIG. 10 on the display unit 24. On the scene selection screen 245, the display control unit 213 displays a plurality of candidates for scene information that can be selected as targets for a new schedule. The user operates the input unit 23 to select scene information that defines the scene control to be executed at the input time from among the multiple candidates displayed on the scene selection screen 245.

Returning to FIG. 3, in the cloud server 1, the schedule management unit 112 manages registration and updating of schedules stored in the schedule storage unit 122. Specifically, when the input receiving unit 211 receives an input for registering a schedule, the schedule management unit 112 acquires information input by the user to the schedule setting screen 244 from the terminal device 2 via the communication unit 15. . The schedule management unit 112 then registers the schedule based on the acquired input information in the schedule storage unit 122.

<Device control unit 113>
In the cloud server 1, the device control unit 113 controls each of the plurality of devices 3. The device control unit 113 controls the operation of the device 3 to be controlled by transmitting a control command to the device 3 to be controlled among the plurality of devices 3 via the communication unit 15 .

More specifically, the device control section 113 controls the device 3 according to the schedule stored in the schedule storage section 122. To be more specific, when the scheduled time for the operation determined by the scene information arrives, the device control unit 113 causes at least one target device 3 to execute at least one operation determined by the scene information.

For example, when 7:00 arrives at which the scene information of "Good morning" is defined in the schedule shown in FIG. The combination of ``living air conditioner ON'' and ``bedroom air conditioner OFF'' is identified. Then, the device control unit 113 sends control commands to the living room air conditioner and the bedroom air conditioner, turning on the living room air conditioner and turning off the bedroom air conditioner.

On the other hand, when the scheduled time for a device operation to be performed by one device 3 has arrived, the device control unit 113 causes that one device 3 to execute the operation specified in the schedule. For example, when 17:00 arrives, at which time the "living air conditioner ON" operation is specified in the schedule shown in FIG. 7, the device control unit 113 transmits a control command to the living room air conditioner to turn on the living room air conditioner.

Furthermore, in addition to controlling the device 3 based on the schedule, the device control unit 113 can also control the device 3 based on operation information received from the user on the terminal device 2. Specifically, the user can input operations such as turning on/off, changing the operating mode, etc. to any of the plurality of devices 3 to the input unit 23 of the terminal device 2 as a remote control.

When the input reception unit 211 receives such an operation from the user, it transmits operation information indicating the content of the received operation to the cloud server 1 via the communication unit 25. The operation information transmitted to the cloud server 1 is supplied to the device control unit 113. Upon receiving the operation information from the terminal device 2, the device control unit 113 causes the target device 3 to execute the operation input by the user based on the received operation information.

<Device schedule acquisition unit 115>
In the cloud server 1, the device schedule acquisition unit 115 acquires a device schedule that is a combination of at least one device 3 and a schedule time from among the schedules stored in the schedule storage unit 122. Here, the device schedule is a schedule obtained by rearranging the schedules stored in the schedule storage unit 122 in units of devices 3.

The schedule stored in the schedule storage unit 122 includes schedules of a plurality of devices 3 to be controlled, and is not organized in units of individual devices 3. Therefore, there is a problem in that it is difficult for the user to understand the schedule for each individual device 3.

In particular, the schedule stored in the schedule storage unit 122 includes an operation to be performed by one device 3 whose operation type is "equipment operation" and an operation to be performed by at least one device 3 whose operation type is "scene". At least one operation is scheduled.

When the operation type is "scene", it is difficult for the user to immediately grasp information about which device 3 operates in that "scene" just by looking at the schedule. In this way, in order to solve the problem that it is difficult for the user to grasp which equipment 3 operates and when, the equipment schedule acquisition unit 115 acquires information on each of the plurality of equipment 3 from the schedule stored in the schedule storage unit 122. A device schedule is generated by combining scheduled times at which operations are performed on the devices.

Specifically, the device schedule acquisition unit 115 acquires a device ID that is identification information of each device 3 whose schedule time is determined in the schedule stored in the schedule storage unit 122. Then, the device schedule acquisition unit 115 acquires a device schedule by combining the acquired device ID and schedule time of each device 3.

First, when the operation type in the schedule storage unit 122 is “device operation”, the device schedule acquisition unit 115 acquires the device ID associated with the “device operation”. Then, the device schedule acquisition unit 115 combines the acquired device ID with the schedule time associated with the device ID in the schedule storage unit 122.

Second, when the operation type in the schedule storage unit 122 is “scene”, the device schedule acquisition unit 115 acquires the scene ID associated with the “scene”. Furthermore, the device schedule acquisition unit 115 refers to the scene information storage unit 121 and acquires at least one device ID associated with the acquired scene ID. Then, the device schedule acquisition unit 115 combines each of the acquired at least one device ID with the schedule time associated with the scene ID in the schedule storage unit 122.

In this manner, the device schedule acquisition unit 115 combines the device ID and schedule time for each operation of the “device operation” and “scene” operation types in the schedule storage unit 122. Thereby, the device schedule acquisition unit 115 acquires the device schedule. In other words, the device schedule acquisition unit 115 selects one of a schedule for executing at least one operation determined by the scene information stored in the schedule storage unit 122 and a schedule for an operation to be performed independently by one device. , get the equipment schedule.

Specifically, as shown in FIG. 11, the device schedule acquisition unit 115 generates information in which "device ID", "schedule time", and "operation" are associated with each other as the device schedule. Here, when one device 3 is operated at a plurality of schedule times, the device schedule acquisition unit 115 combines the operations corresponding to the plurality of schedule times into the one device ID in the device schedule.

For example, in the device schedule shown in FIG. 11, the living room air conditioner with the device ID "DEVICE_AAA" is turned on at 7:00, turned off at 9:00, and turned on at 17:00. It is managed in combination with an ID. Thereby, the device schedule acquisition unit 115 generates a device schedule, which is a schedule in which the schedule time and operation details are summarized for each device 3.

In the terminal device 2, the display control unit 213 acquires the device schedule acquired by the device schedule acquisition unit 115 from the cloud server 1 via the communication unit 25, and displays the acquired device schedule on the display unit 24 for each device 3. indicate. Specifically, the display control unit 213 displays an equipment schedule display screen 246 as shown in FIG. 12 on the display unit 24.

On the device schedule display screen 246, the display control unit 213 sorts and displays a set of device schedules for each device 3. Specifically, the display control unit 213 displays time information in the vertical direction, and displays the names of the plurality of devices 3 side by side in the horizontal direction. Then, on the device schedule display screen 246, the display control unit 213 displays for each device 3 whether or not each of the plurality of devices 3 operates at each time. Thereby, the user can easily check for each device 3 when each of the plurality of devices 3 is operating and when it is not operating.

Next, the flow of processing executed in the control system according to the first embodiment will be described with reference to FIGS. 13 to 15.

First, with reference to FIG. 13, scene information registration processing for registering scene information (steps S11 to S13), schedule registration processing for registering a schedule (steps S21 to S23), and schedule acquisition processing for displaying a schedule (steps The flow of steps S31 to S35) will be explained. The scene information registration process, the schedule registration process, and the schedule acquisition process are examples of the scene information registration step, the schedule registration step, and the schedule acquisition step, respectively.

First, the scene information registration process is executed when new scene information is registered in the scene information storage unit 121. When the scene information registration process is started, in the terminal device 2, the control unit 21 functions as the input reception unit 211 and accepts registration of scene information (step S11).

Specifically, the control unit 21 displays the device selection screen 241 shown in FIG. 5 and the operation designation screen 242 shown in FIG. 6 as the scene setting screen. Thereby, the control unit 21 receives at least one device 3 and at least one operation from the user as scene information registration.

When the registration of scene information is accepted, the control unit 21 transmits the scene information to be registered to the cloud server 1 (step S12). In the cloud server 1, the control unit 11 receives scene information transmitted from the terminal device 2. Then, the control unit 11 functions as the scene information management unit 111 and registers the received scene information in the scene information storage unit 121 (step S13). With the above steps, the scene information registration process ends.

Second, the schedule registration process is executed when registering a new schedule in the schedule storage unit 122. When the schedule registration process is started, in the terminal device 2, the control unit 21 functions as the input reception unit 211 and accepts registration of the schedule (step S21).

Specifically, the control unit 21 displays the schedule setting screen 244 shown in FIG. 7. Thereby, the control unit 21 receives, as schedule registration, the selection of the device 3 or scene information to be the target of the new schedule, and the input of the time of the new schedule.

When the schedule registration is accepted, the control unit 21 transmits the schedule to be registered to the cloud server 1 (step S22). In the cloud server 1, the control unit 11 receives the schedule transmitted from the terminal device 2. Then, the control unit 11 functions as the schedule management unit 112 and registers the received schedule in the schedule storage unit 122 (step S23). With the above steps, the schedule registration process ends.

Thirdly, the schedule acquisition process is executed when the user wishes to check the schedule. When the schedule acquisition process is started, in the terminal device 2, the control unit 21 functions as the input reception unit 211, and receives a schedule acquisition instruction from the user via the input unit 23 (step S31).

Upon receiving the schedule acquisition instruction, the control unit 21 transmits the received schedule acquisition instruction to the cloud server 1 (step S32). In the cloud server 1, upon receiving the schedule acquisition instruction transmitted from the terminal device 2, the control unit 11 acquires a schedule list from the schedule storage unit 122 (step S33).

After acquiring the schedule list, the control unit 11 transmits the acquired schedule list to the terminal device 2 (step S34). In the terminal device 2, the control unit 21 receives the schedule list transmitted from the cloud server 1.

Upon receiving the schedule list, the control unit 21 functions as the display control unit 213 and displays the received schedule list on the display unit 24 (step S35). For example, the control unit 21 displays the schedule display screen 243 shown in FIG. 8. With the above, the schedule acquisition process ends.

Next, with reference to FIG. 14, the flow of the device control process executed by the device control unit 113 will be described. The device control process is executed at any time while the cloud server 1 is in a normally operable state. The device control process is an example of a device control step.

When the device control process is started, in the cloud server 1, the control unit 11 determines whether the schedule time for any device operation stored in the schedule storage unit 122 has arrived (step S41).

When the scheduled time for device operation arrives (step S41; YES), the control unit 11 controls one target device 3 to execute the operation specified in the schedule (step S42).

On the other hand, if the scheduled time for device operation has not arrived (step S41; NO), the control unit 11 next determines that the scheduled time for any scene control stored in the schedule storage unit 122 has arrived. It is determined whether or not (step S43).

When the schedule time for scene control arrives (step S43; YES), the control unit 11 acquires target scene information from the scene information storage unit 121 (step S44). Thereby, the control unit 11 specifies at least one device 3 and at least one operation to be performed.

After acquiring the scene information, the control unit 11 controls at least one target device 3 to execute at least one operation determined by the scene information (step S45).

If the schedule time for device operation or scene control stored in the schedule storage unit 122 has not arrived (step S43; NO), the control unit 11 stops the process in step S41 and performs any device operation or scene control. Wait until the scheduled time arrives. The control unit 11 then executes the device operation or scene control specified in the schedule every time the scheduled time arrives.

Next, with reference to FIG. 15, the flow of a device schedule acquisition process for acquiring a device schedule will be described. The device schedule acquisition process is executed when the user desires to check the schedule for each device 3. The device schedule acquisition process is an example of a device schedule acquisition step.

When the device schedule acquisition process is started, in the terminal device 2, the control unit 21 functions as the input reception unit 211, and receives an instruction to acquire the device schedule from the user via the input unit 23 (step S51).

Upon receiving the device schedule acquisition instruction, the control unit 21 transmits the received device schedule acquisition instruction to the cloud server 1 (step S52). In the cloud server 1 , the control unit 11 receives the device schedule acquisition instruction transmitted from the terminal device 2 .

Upon receiving the device schedule acquisition instruction, the control unit 11 functions as the device schedule acquisition unit 115 and acquires the device ID from the schedule stored in the schedule storage unit 122 (step S53). To be more specific, the control unit 11 receives the device IDs, which are the identification information of all the devices 3 scheduled to be operated in the schedule, regardless of whether the operation type is "device operation" or "scene". get.

After acquiring the device ID, the control unit 11 functions as the device schedule acquisition unit 115 and combines the acquired device ID and schedule time (step S54). Thereby, the control unit 11 obtains, for example, the equipment schedule shown in FIG. 11.

After acquiring the device schedule, the control unit 11 transmits the acquired device schedule to the terminal device 2 (step S55). In the terminal device 2, the control unit 21 receives the device schedule transmitted from the cloud server 1.

Upon receiving the device schedule, the control section 21 functions as the display control section 213 and displays the received device schedule on the display section 24 (step S56). For example, the control unit 21 displays the device schedule display screen 246 shown in FIG. 12. With the above, the device schedule acquisition process shown in FIG. 15 ends.

As described above, the control system according to the first embodiment includes the scene information storage unit 121 that stores scene information that defines at least one device 3 and at least one operation; A schedule storage unit 122 that stores a schedule for executing at least one operation determined by scene information, and a combination of at least one device 3 and a schedule time from among the schedules stored in the schedule storage unit 122. Get the equipment schedule that is. As a result, when combining scene-based control and schedule-based control, it is possible to make it easier for the user to understand which equipment operates when.

(Embodiment 2)
Next, a second embodiment will be described. Descriptions of configurations and functions similar to those in Embodiment 1 will be omitted as appropriate.

FIG. 16 shows a functional configuration of a control system according to the second embodiment. Functionally, the cloud server 1 according to the second embodiment further includes a duplication determination unit 117 in addition to the units shown in FIG. The functions of the duplication determination unit 117 are realized by software, firmware, or a combination of software and firmware. Software and firmware are written as programs and stored in the ROM or storage unit 12. Then, the CPU executes the program stored in the ROM or the storage unit 12, thereby realizing the function of the duplication determination unit 117.

In the terminal device 2, the input receiving unit 211 receives an input for registering a new schedule in the schedule storage unit 122. Registration of the schedule is performed based on the user's input on the schedule setting screen 244, as in the first embodiment.

In the cloud server 1, when the input reception unit 211 receives an input for registering a new schedule, the duplication determination unit 117 determines whether the same device is included in the schedule stored in the schedule storage unit 122 due to registration of the new schedule. Based on the equipment schedule acquired by the equipment schedule acquisition unit 115, it is determined whether or not the schedule for No. 3 overlaps.

Here, overlapping schedules means that two or more different schedules specify that the same device 3 is to perform an operation at the same time. For example, if the device 3 to be operated at the time input in a new schedule is already set to operate at the same time in the schedule registered in the schedule storage unit 122, duplication of schedules will occur.

When registering a new schedule, there is a possibility that the user inputs a schedule that overlaps with a schedule already registered in the schedule storage unit 122 as the new schedule. In order to avoid duplication of schedules in this way, the duplication determination unit 117 determines whether there is any duplication of schedules for the same device 3 between the new schedule and the schedule stored in the schedule storage unit 122. Determine.

To be more specific, the duplication determining unit 117 determines, from among the device schedules acquired by the device schedule acquiring unit 115, a device schedule whose time coincides with the time of the new schedule for which registration input was accepted by the input accepting unit 211. Extract. Then, the duplication determining unit 117 determines whether or not the same device 3 exists between the device 3 defined in the new schedule and the device 3 defined in the extracted device schedule. As a result of the determination, if the same device 3 exists, the duplication determining unit 117 determines that there is schedule duplication and notifies the user to that effect.

The flow of schedule registration processing in the second embodiment will be described in more detail with reference to FIG. 17. The schedule registration process is executed when the user desires to register a new schedule in the schedule storage unit 122.

When the schedule registration process is started, the control unit 21 in the terminal device 2 functions as the input reception unit 211 and accepts schedule registration (step S61). Specifically, the control unit 21 displays the schedule setting screen 244 shown in FIG. 7. Thereby, the control unit 21 receives, as schedule registration, the selection of the device 3 or scene information to be the target of the new schedule, and the input of the time of the new schedule.

Upon accepting the schedule registration, the control unit 21 transmits the new schedule to be registered to the cloud server 1 (step S62). In the cloud server 1, the control unit 11 receives the schedule transmitted from the terminal device 2.

Upon receiving the new schedule, the control unit 11 acquires the device ID from the received new schedule (step S63). Specifically, the control unit 11 acquires the device ID of each device 3 that is scheduled to be operated in the new schedule, regardless of whether the operation type is "device operation" or "scene."

After acquiring the device ID, the control unit 11 acquires a device schedule that matches the time of the new schedule from among the schedules stored in the schedule storage unit 122 (step S64). Specifically, the control unit 11 functions as a device schedule acquisition unit 115 and acquires device schedules at all times from among the schedules stored in the schedule storage unit 122. The process of acquiring device schedules at all times is similar to the process performed by the device schedule acquisition unit 115 described in the first embodiment. After acquiring the device schedules for all the times, the control unit 11 refers to the schedule time information included in the device schedules and selects a time that matches the time of the new schedule from among the acquired device schedules for all the times. Extract the schedule of

After acquiring the device schedule, the control unit 11 functions as the duplication determining unit 117 and determines whether there is a matching device ID between the new schedule and the acquired device schedule (step S65). If there is no matching device ID (step S65; NO), it is determined that schedule duplication does not occur. In this case, the control unit 11 functions as the schedule management unit 112 and registers the received new schedule in the schedule storage unit 122 (step S66).

On the other hand, if a matching device ID exists (step S65; YES), the control unit 11 transmits an error message to the terminal device 2 (step S67). In the terminal device 2, upon receiving the error message transmitted from the cloud server 1, the control unit 21 functions as the display control unit 213 and displays the received error message on the display unit 24 (step S68). As a result, the user is notified that a new schedule cannot be registered because the schedules overlap. With the above, the schedule registration process in the second embodiment ends.

In this way, in the second embodiment, when receiving an input to register a new schedule, the duplication determination unit 117 determines whether the new schedule and the schedule stored in the schedule storage unit 122 are the same device. 3. It is determined whether there is any overlap in the schedule for 3. This makes it possible to avoid overlapping schedules for the same device 3 when registering schedules.

(Embodiment 3)
Next, Embodiment 3 will be described. Descriptions of configurations and functions similar to those in Embodiments 1 and 2 will be omitted as appropriate.

In the third embodiment, the input receiving unit 211 receives an input for updating at least some of the schedules stored in the schedule storage unit 122. In this case, the duplication determining unit 117 determines whether or not there is a duplication of schedules for the same device 3 in the schedules stored in the schedule storage unit 122 due to updating of at least some of the schedules. Judgment is made based on the equipment schedule obtained by.

Here, updating the schedule means changing the time of a schedule already registered in the schedule storage unit 122, or changing device operation or scene information specified in the registered schedule. The update of the schedule is performed based on the user's input on the schedule setting screen 244, similarly to the registration of the schedule.

When the schedule is updated, similar to the time of registering the schedule described in the second embodiment, there is a change in the schedule between the updated schedule and the schedule other than the update target stored in the schedule storage unit 122. Duplication may occur.

For example, when the time of a registered schedule is changed to another time, in a schedule other than the update target stored in the schedule storage unit 122, an operation is performed on the same device 3 as the update target schedule at the changed time. may have already been determined. Alternatively, if the device operation or scene information in a registered schedule is changed to another device operation or scene information, in a schedule other than the update target stored in the schedule storage unit 122, the change is performed at the same time as the update target schedule. , there is a possibility that the changed device operation or the operation for the same device 3 as the scene information has already been determined.

In order to avoid such duplication of schedules, the duplication determination unit 117 selects the schedule after receiving the update input by the input reception unit 211 and the schedule stored in the schedule storage unit 122 other than the schedule to be updated. It is determined whether or not there is an overlap in schedules for the same device 3 between the schedules and the schedules for the same device 3.

Specifically, the device schedule acquisition unit 115 selects a combination of at least one device 3 and a schedule time from among the schedules other than the schedule to be updated among the schedules stored in the schedule storage unit 122. Get equipment schedule.

The duplication determination unit 117 extracts, from among the equipment schedules acquired by the equipment schedule acquisition unit 115, the equipment schedule whose time coincides with the time of the schedule after receiving the update input by the input reception unit 211. Then, the duplication determination unit 117 compares the device ID between the device 3 specified in the schedule after receiving the update input and the device 3 specified in the extracted device schedule, and determines whether the device 3 is the same. Determine whether device 3 exists. As a result of the determination, if the same device 3 exists, the duplication determining unit 117 determines that there is schedule duplication and notifies the user to that effect.

Note that the flow of the schedule update process in the third embodiment will be similarly explained by replacing "new schedule" with "schedule after receiving update input" in FIG. 17 described in the second embodiment. be able to.

In this manner, in the third embodiment, when receiving an input to update at least some of the schedules stored in the schedule storage unit 122, the duplication determining unit 117 determines that after receiving the update input, It is determined whether or not there is a schedule overlap for the same device 3 between this schedule and a schedule other than the schedule to be updated among the schedules stored in the schedule storage unit 122. This makes it possible to avoid overlapping schedules for the same device 3 when updating schedules.

(Embodiment 4)
Next, Embodiment 4 will be described. Descriptions of configurations and functions similar to those in Embodiments 1 to 3 will be omitted as appropriate.

In the fourth embodiment, the input accepting unit 211 accepts an input for updating at least some of the scene information stored in the scene information storage unit 121. In this case, the duplication determining unit 117 determines whether or not the schedules stored in the schedule storage unit 122 overlap with the schedules for the same device 3 due to updating of at least part of the scene information. The determination is made based on the equipment schedule acquired by 115.

Here, updating the scene information means changing one of the at least one device 3 defined in any scene information already registered in the scene information storage unit 121 to another device 3, or changing the scene information to another device 3. This means adding a new device 3 to at least one device 3 defined in the information.

When the scene information is updated, if scene control based on the scene information is included in the schedule stored in the schedule storage unit 122, there is a possibility that the schedules will overlap. For example, in a schedule other than the scene information to be updated among the schedules stored in the schedule storage unit 122, the same device 3 as the device 3 that has been changed or added to the scene information after the update is sent at the same time. Duplicate schedules occur when operations are scheduled to be performed.

In order to avoid such duplication of schedules, the duplication determination unit 117 stores a schedule in which at least one operation determined by the scene information after receiving the update input by the input reception unit 211 is executed, and a schedule in the schedule storage unit 122. It is determined whether or not there is an overlap of schedules for the same device 3 with schedules other than the scene information to be updated among the stored schedules.

To be more specific, the device schedule acquisition unit 115 selects a combination of at least one device 3 and schedule time from schedules other than the scene information to be updated among the schedules stored in the schedule storage unit 122. Get a certain equipment schedule. Here, the schedule other than the scene information to be updated is a schedule that will not be changed by updating the scene information that has received input, and specifically, scene control based on scene information other than the scene information to be updated is defined. It corresponds to a schedule or a schedule in which equipment operation is determined.

The duplication determination unit 117 extracts, from among the device schedules acquired by the device schedule acquisition unit 115, a device schedule whose time coincides with the time of the schedule at which at least one operation determined by the scene information to be updated is executed. . Then, the duplication determination unit 117 compares the device ID between the device 3 changed or added in the scene information after receiving the update input and the device 3 specified in the extracted device schedule. , it is determined whether the same device 3 exists. As a result of the determination, if the same device 3 exists, the duplication determining unit 117 determines that there is schedule duplication and notifies the user to that effect.

Note that the flow of scene information update processing in the fourth embodiment can be similarly performed by replacing "new schedule" with "scene information after receiving update input" in FIG. 17 described in the second embodiment. can be explained.

In this manner, in the fourth embodiment, when receiving an input for updating at least some scene information among a plurality of pieces of scene information stored in the scene information storage section 121, the duplication determination section 117 determines whether or not to update the scene information. The schedule in which at least one operation determined by the scene information after receiving the input is executed is the same as the schedule other than the scene information to be updated among the schedules stored in the schedule storage unit 122. It is determined whether or not there is an overlap in schedules for device 3. This makes it possible to avoid overlapping schedules for the same device 3 when updating scene information.

(Embodiment 5)
Next, Embodiment 5 will be described. Descriptions of configurations and functions similar to those in Embodiments 1 to 4 will be omitted as appropriate.

In the fifth embodiment, when accepting an input to register a new schedule, the input receiving unit 211 selects the device 3 or scene information to be the target of the new schedule, and inputs the time of the new schedule. accept. Specifically, when accepting an input to register a new schedule, the display control unit 213 displays the schedule setting screen 244, device selection screen 241, and scene selection screen 245 on the display unit 24, as in the first embodiment. indicate.

In the "time" item of the schedule setting screen 244, the input accepting unit 211 accepts input of the time of a new schedule from the user. Further, when setting a device operation schedule as a new schedule, the input receiving unit 211 receives selection of the device 3 to be the target of the new schedule on the device selection screen 241. On the other hand, when setting a scene control schedule as a new schedule, the input receiving unit 211 receives a selection of scene information to be a target of the new schedule on the scene selection screen 245.

In the fifth embodiment, when the input reception unit 211 receives an input of a new schedule time before selecting the device 3 or scene information on the schedule setting screen 244, the input reception unit 211 selects the device acquired by the device schedule acquisition unit 115. From among the schedules, the device ID of the device 3 whose operation is to be executed at the time of the input new schedule is acquired.

The device ID acquired here corresponds to the device ID of the device 3 that is already scheduled to perform some operation at the time of the new schedule. In other words, the input receiving unit 211 identifies the device 3 that, if selected in the new schedule, would cause schedule overlap.

On the device selection screen 241 and the scene selection screen 245, the display control unit 213 selects the device 3 indicated by the acquired device ID as the device 3 whose schedules will overlap if selected, and selects the device 3 as a device that can be selected as a target for a new schedule. Exclude from 3 candidates. As a result, the display control unit 213 determines whether, in the schedule stored in the schedule storage unit 122, the device 3 other than the device 3 on which the operation will be performed at the time of the new schedule or the device 3 where the operation will be performed at the time of the new schedule. The scene information other than the scene information including the device 3 is displayed as a candidate for the device 3 or scene information to be a new schedule target. In other words, the display control unit 213 controls the device 3 on which the operation is to be performed at the new schedule time, or The scene information including the device 3 whose operation is to be performed at the time is excluded from the candidates for the device 3 or scene information to be subjected to a new schedule and displayed.

Specifically, as shown in FIG. 18, on the device selection screen 241, the display control unit 213 selects the device 3 indicated by the acquired device ID from among the multiple candidates for the device 3 to be the target of a new schedule. is displayed as an unselectable candidate. In this example, since the device 3 of “Water Heater 1” cannot be selected, it is displayed in a different color from other selectable devices 3. On the other hand, the display control unit 213 displays devices 3 other than the device 3 indicated by the acquired device ID among the plurality of candidates for the device 3 as selectable candidates.

Alternatively, as shown in FIG. 19, on the scene selection screen 245, the display control unit 213 selects the device 3 indicated by the acquired device ID from among the multiple candidates of scene information to be the target of a new schedule as the operation target. Displays scene information included as unselectable candidates. On the other hand, the display control unit 213 displays, as selectable candidates, scene information that does not include the device 3 indicated by the acquired device ID as an operation target, among the plurality of scene information candidates.

The input reception unit 211 selects a new schedule target from among the selectable device 3 candidates displayed on the device selection screen 241 or the selectable scene information candidates displayed on the scene selection screen 245. The selection of the device 3 or scene information is accepted. As a result, in the fifth embodiment, when registering schedules, it is possible to avoid duplication of schedules for the same device 3 at a timing before the user selects the device 3 or scene information.

(Modified example)
Although the embodiments have been described above, it is possible to combine each embodiment, or to modify or omit each embodiment as appropriate.

For example, in the embodiment described above, the cloud server 1 and the terminal device 2 were provided with the functions of each part shown in FIG. 3 or FIG. 16. However, the functions of each part included in the control system may be provided in a device other than the cloud server 1 or the terminal device 2. For example, the scene information storage unit 121 or the schedule storage unit 122 may be provided in a device external to the cloud server 1.

Further, the functions of the device schedule acquisition section 115 and the duplication determination section 117 may be provided in the terminal device 2. When the terminal device 2 includes the function of the device schedule acquisition section 115, the device schedule acquisition section 115 acquires the schedule list stored in the schedule storage section 122 from the cloud server 1. Then, as described above, the device schedule acquisition unit 115 acquires the device ID from the schedule list, and executes the process of combining the device ID and schedule time, thereby acquiring the device schedule from the acquired schedule list.

In the embodiment described above, in the control unit 11 of the cloud server 1, the CPU functions as each unit shown in FIG. 3 by executing a program stored in the ROM or the storage unit 12. Further, in the control unit 21 of the terminal device 2, the CPU functions as each unit shown in FIG. 3 by executing a program stored in the ROM or the storage unit 22. However, the control units 11 and 21 may be dedicated hardware. The dedicated hardware is, for example, a single circuit, a composite circuit, a programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field-Programmable Gate Array), or a combination thereof. When the control units 11 and 21 are dedicated hardware, the functions of each unit may be realized by separate hardware, or the functions of each unit may be realized by a single piece of hardware.

Moreover, some of the functions of each part may be realized by dedicated hardware, and other parts may be realized by software or firmware. In this way, the control units 11 and 21 can implement the above-mentioned functions using hardware, software, firmware, or a combination thereof.

By applying a program that defines the operation of the cloud server 1 or the terminal device 2 to an existing computer such as a personal computer or an information terminal device, it is also possible to make the computer function as the cloud server 1 or the terminal device 2. be.

Furthermore, the distribution method of such a program is arbitrary; for example, it can be distributed on a computer-readable recording medium such as a CD-ROM (Compact Disk ROM), a DVD (Digital Versatile Disk), an MO (Magneto Optical Disk), or a memory card. It may be stored and distributed, or it may be distributed via a communication network such as the Internet.

The present disclosure is capable of various embodiments and modifications without departing from the broad spirit and scope of the present disclosure. Moreover, the embodiments described above are for explaining this disclosure, and do not limit the scope of this disclosure. That is, the scope of the present disclosure is indicated by the claims rather than the embodiments. Various modifications made within the scope of the claims and the meaning of equivalent disclosures are considered to be within the scope of this disclosure.

1 cloud server, 2 terminal device, 3 equipment, 5 BBR, 11, 21 control unit, 12, 22 storage unit, 15, 25 communication unit, 23 input unit, 24 display unit, 111 scene information management unit, 112 schedule management unit , 113 device control section, 115 device schedule acquisition section, 117 duplication determination section, 121 scene information storage section, 122 schedule storage section, 211 input reception section, 213 display control section, 241 device selection screen, 242 operation specification screen, 243 schedule Display screen, 244 Schedule setting screen, 245 Scene selection screen, 246 Equipment schedule display screen, H Building, NW1 wide area network, NW2 local network

Claims (11)

a scene information storage unit that stores scene information that defines at least one device and at least one operation to be performed by the at least one device;
a schedule storage unit that stores a schedule for executing at least one operation determined by the scene information stored in the scene information storage unit;
an equipment schedule acquisition unit that acquires an equipment schedule that is a combination of the at least one equipment and a schedule time from among the schedules stored in the schedule storage unit;
control system. further comprising a display unit that displays the device schedule acquired by the device schedule acquisition unit for each device;
A control system according to claim 1. further comprising a device control unit that causes the at least one device to execute the at least one operation defined in the scene information according to the schedule stored in the schedule storage unit;
The control system according to claim 1 or 2. Registering a new schedule in the schedule storage unit, updating at least some of the schedules stored in the schedule storage unit, and updating at least some of the schedules among the plurality of scene information stored in the scene information storage unit. an input reception unit that receives at least one input of updating at least part of the scene information;
The schedule stored in the schedule storage unit due to at least one of the registration of the new schedule, the update of at least some of the schedules, and the update of at least some of the scene information. an overlap determination unit that determines whether or not there is an overlap in schedules for the same equipment based on the equipment schedule acquired by the equipment schedule acquisition unit;
A control system according to any one of claims 1 to 3. The input receiving unit receives an input for registering the new schedule,
The duplication determination unit determines whether or not there is a duplication of schedules for the same device between the new schedule and the schedule stored in the schedule storage unit.
The control system according to claim 4. The input accepting unit accepts an input for updating at least some of the schedules,
The duplication determining unit is configured to determine whether the at least some of the schedules after receiving the update input by the input receiving unit and at least some of the schedules that are to be updated are stored in the schedule storage unit. determining whether there is an overlap in schedules for the same device with a schedule other than the schedule;
The control system according to claim 4 or 5. The input accepting unit accepts an input for updating at least some of the scene information,
The duplication determining unit is configured to determine a schedule for executing at least one operation determined by the at least part of the scene information after receiving the update input by the input receiving unit, and the schedule stored in the schedule storage unit. determining whether or not there is an overlap of schedules for the same device between the schedules other than the at least some of the scene information to be updated;
A control system according to any one of claims 4 to 6. When accepting an input to register the new schedule, the input accepting unit accepts a selection of device or scene information to be the target of the new schedule, and an input of a time of the new schedule,
When the input reception unit accepts the input of the time, the device to be operated at the time or the device to be operated at the time is based on the device schedule for the time acquired by the device schedule acquisition unit. further comprising a display unit that displays scene information excluding from candidates for devices or scene information to be subject to the new schedule,
The input receiving unit receives a selection of device or scene information to be targeted for the new schedule from among the candidates displayed on the display unit.
A control system according to any one of claims 4 to 7. The schedule storage unit further stores a schedule of operations to be performed independently by one device,
The device schedule acquisition unit selects one of a schedule for executing at least one operation determined by the scene information and a schedule for an operation to be performed independently by the one device, which is stored in the schedule storage unit. , obtaining the equipment schedule;
A control system according to any one of claims 1 to 8. a scene information registration step of registering scene information that defines at least one device and at least one operation to be performed by the at least one device;
a schedule registration step of registering a schedule in which at least one operation determined by the scene information registered in the scene information registration step is executed;
an equipment schedule acquisition step of acquiring an equipment schedule that is a combination of the at least one equipment and a schedule time from among the schedules registered in the schedule registration step;
How to manage your schedule. a scene information storage unit that stores scene information that defines at least one device and at least one operation to be performed by the at least one device;
a schedule storage unit that stores a schedule for executing at least one operation determined by the scene information stored in the scene information storage unit;
A computer equipped with
functioning as an equipment schedule acquisition unit that acquires an equipment schedule that is a combination of the at least one equipment and a schedule time from among the schedules stored in the schedule storage unit;
program.

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