JP6711635B2 - Network system, electrical equipment, communication terminal, and program for communication terminal - Google Patents

Description

The present invention relates to a technique for operating an electric device when receiving a command, and particularly to a technique for performing an operation suitable for a user around the electric device.

2. Description of the Related Art Conventionally, there is known a technique of controlling the operation of a device according to the surrounding users. For example, Japanese Patent Laying-Open No. 2000-3795 (Patent Document 1) discloses a device level setting system. According to Patent Document 1, when a sensor that is installed in a space such as a conference room is used to detect a badge that transmits a signal with an identification ID, the device that exists in the room is automatically activated and the badge is displayed. By referring to the attribute of the person who owns the device from a database prepared in advance, the device existing in the room is dynamically set to the optimum state for the person. Further, when there are a plurality of people in the space, the indoor environment is set by averaging the attributes of each person so as not to make everyone uncomfortable.

Further, Japanese Patent Laying-Open No. 2005-172288 (Patent Document 2) discloses a control system for an air conditioner. According to Patent Document 2, a control system for an air conditioner including an indoor unit and an outdoor unit is a first information acquisition unit that is installed indoors to acquire information about a person in the room, or is installed outside the room, and information about an occupant. Based on the information of the information acquisition means having at least one of the second information acquisition means for acquiring the information and the information of the person in the room or the person in the room acquired by the information acquisition means. The personal identification device and the control device that controls the operation of the air conditioner based on the information regarding the person in the room or the person who entered the room identified by the personal identification device.

Further, Japanese Patent Laid-Open No. 2009-103328 (Patent Document 3) discloses an air conditioner. According to Patent Document 3, an air conditioner provided with a remote controller configured to be capable of transmitting a predetermined signal for air conditioning in a space to an indoor unit, a remote controller for detecting an operator of the remote controller. An operator detection unit, an operator identification unit that identifies a remote control operator, a preference information input/output unit that reads out air conditioning preference information according to the remote control operator identified by the operator identification unit, and the preference information. An operation condition determination unit that determines the operation condition according to the operation condition and an operation control unit are provided.

Further, Japanese Patent Laid-Open No. 2015-17728 (Patent Document 4) discloses an air conditioner. According to Patent Document 4, the air conditioner detects an image capturing unit, a human body detection unit that detects an occupant in the image captured by the image capturing unit, and a feature amount of the occupant detected by the human body detection unit. A feature amount detecting means and a determining means for determining whether or not the person in the room having the feature amount is a family member based on the frequency of the feature amount of the person in the room detected by the feature amount detecting means. According to the present invention, it is possible to estimate the family of the people in the room, so that it is possible to perform air conditioning control according to the preference of the family.

JP 2000-3795 A JP, 2005-172288, A JP, 2009-103328, A JP, 2015-17728, A

There is a demand for a network system, an electric device, a communication terminal, and a program for the communication terminal that are easier to use than before. Therefore, an object of the present invention is to provide a network system, an electric device, a communication terminal, and a program for the communication terminal, which are easier to use than ever before.

According to an aspect of the present invention, an electric device that receives a command through a remote controller or a main body operation unit and a first control for the electric device are stored in association with a user, and the first control via the remote controller or the main body operation unit is stored. There is provided a network system, comprising: a server that causes the electric device to execute the first control corresponding to the user in the vicinity of the electric device when receiving a first predetermined operation for the electric device. ..

Preferably, the server stores the first control for the electric device after receiving the second predetermined operation in association with the user in the vicinity of the electric device.

Preferably, the second predetermined operation is the same as the first predetermined operation for the electric device.

Preferably, the first predetermined operation is pressing an automatic operation button. The server causes the electric device to execute a normal automatic operation when the first control corresponding to a user in the vicinity of the electric device is not registered when a predetermined operation for the electric device is received. ..

Preferably, when there are a plurality of users in the vicinity of the electric device, the server switches the target user among the plurality of users each time the first predetermined operation for the electric device is received, The electric device is caused to execute the first control corresponding to the user after switching.

Preferably, the server stores the first control for the electric device in association with a combination of one or a plurality of users. When there are a plurality of users around the electric device, the server corresponds to a combination of the plurality of users around the electric device when receiving the first predetermined operation for the electric device. Causes the electric device to execute a first control.

Preferably, when there are a plurality of users in the vicinity of the electric device, the server provides each of the plurality of users in the vicinity of the electric device when receiving the first predetermined operation with respect to the electric device. An average control is determined based on the corresponding first control, and the electric device is caused to execute an operation corresponding to the average control.

Preferably, when one or more users around the electric device have changed, the server causes the electric device to execute the first control corresponding to the changed one or more users.

Preferably, at least the electric device, a communication terminal owned by the user, an SNS page of a group to which the electric device or the user belongs when the electric device performs an operation corresponding to the first control. Either outputs information indicating the first control.

According to another aspect of the present invention, there is provided an electric device that receives a command via a remote controller or a main body operation unit. The electric device, when receiving a predetermined operation on the electric device, a memory for storing the first control for the electric device after receiving the predetermined operation on the electric device in association with the user, A processor for executing the first control corresponding to the user in the vicinity of the electric device by referring to the memory.

According to another aspect of the present invention, there is provided a network system including an electric device that receives a command via a remote controller or a main body operation unit, and a communication terminal that can communicate with the electric device and that can be easily carried by a user. To be done. The communication terminal stores a first control for the electric device after the electric device receives a predetermined operation, and stores information about the first control when the electric device receives a predetermined operation. Send to electrical equipment. The electric device executes the first control according to the information from the communication terminal.

According to another aspect of the present invention, a communication terminal capable of communicating with an electric device is provided. The communication terminal refers to the memory for storing the first control for the electric device after the electric device receives the predetermined operation, and the memory when the electric device receives the predetermined operation. A processor for providing information about the first control to the electrical device according to.

According to another aspect of the present invention, a program for a communication terminal including a memory and a processor is provided. The program stores a first control for the electric device in the memory after the electric device receives a predetermined operation, and refers to the memory when the electric device receives the predetermined operation. Providing the information on the first control to the electric device, and causing the processor to execute.

As described above, according to the present invention, a network system, an electric device, a communication terminal, and a program for the communication terminal, which are easier to use than before, are provided.

It is an image figure which shows the whole structure of the network system 1 concerning 1st Embodiment, and a 1st operation outline. It is an image figure which shows the whole structure of the network system 1 concerning 1st Embodiment, and a 2nd operation outline. It is an image figure showing the whole network system 1 composition concerning a 1st embodiment, and the 3rd outline of operation. It is a block diagram showing the hardware constitutions of the server 100 concerning 1st Embodiment. It is an image figure which shows the user preference control data 121 concerning 1st Embodiment. It is a block diagram showing the hardware constitutions of air conditioner 200 as an electric equipment concerning a 1st embodiment. It is a block diagram showing the hardware constitutions of smart phone 300 as an electric equipment concerning a 1st embodiment. 5 is a flowchart showing information processing when the server 100 according to the first embodiment receives data from the air conditioner 200. 6 is a flowchart showing information processing when the air conditioner 200 according to the first embodiment receives a command from the remote controller 290. 7 is a flowchart showing information processing of the air conditioner 200 when there is a change in the configuration of the user around the air conditioner 200 during automatic operation according to the first embodiment. It is an image figure which shows the whole structure and operation outline|summary of the network system 1 concerning 2nd Embodiment. It is an image figure which shows the user preference control data 122 concerning 2nd Embodiment. It is an image figure which shows the whole structure and operation|movement outline of the network system 1 concerning 3rd Embodiment. It is an image figure which shows the whole structure and operation outline of the network system 1 concerning 4th Embodiment. It is an image figure showing the whole network system 1 composition and operation outline concerning a 5th embodiment. It is an image figure which shows the whole structure and operation outline of the network system 1 concerning 6th Embodiment. It is a flow chart which shows information processing when air-conditioner 200 concerning a 6th embodiment receives a command from remote control 290. It is a flowchart which shows the information processing of the air conditioner 200 when the structure of the user around the air conditioner 200 changes during automatic operation concerning a 6th embodiment. It is an image figure showing the whole network system 1 composition and operation outline concerning a 7th embodiment. It is a flow chart which shows information processing when smart phone 300 concerning a 7th embodiment receives data from air conditioner 200. It is a flow chart which shows information processing when air-conditioner 200 concerning a 7th embodiment receives a command from remote control 290. It is a flowchart which shows the information processing of the air conditioner 200 when the structure of the user who exists in the periphery of the air conditioner 200 during automatic operation concerning a 7th embodiment changes. It is an image figure showing the whole network system 1 composition and operation outline concerning an 8th embodiment. It is an image figure which shows the whole structure and operation outline of the network system 1 concerning 9th Embodiment. It is an image figure which shows the whole structure and operation outline of the network system 1 concerning 10th Embodiment. It is an image figure which shows the whole structure and operation|movement outline of the network system 1 concerning 11th Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.
<First Embodiment>
<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 1 is an image diagram showing an overall configuration of a network system 1 according to the present embodiment and a first operation outline. FIG. 2 is an image diagram showing an overall configuration of the network system 1 according to the present embodiment and a second operation outline. FIG. 3 is an image diagram showing an overall configuration of the network system 1 according to the present embodiment and a third operation outline.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes a server 100, an air conditioner 200 as an electric device capable of communicating with the server 100, a remote controller 290 for inputting a command to the air conditioner 200, and a smartphone as a user terminal. 300 and.

Next, with reference to FIG. 1(A) to FIG. 1(C), an outline of operation of the network system 1 according to the present embodiment will be described. First, as shown in FIG. 1(A), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. The air conditioner 200 inquires of the server 100 about the father's favorite control. When the control information desired by the father is not yet stored in the server 100, the air conditioner 200 starts normal automatic operation.

For example, the air conditioner 200 performs a cooling operation or a heating operation as an automatic operation based on the room temperature and the outside air temperature. With respect to FIG. 1A, the air conditioner 200 performs the cooling operation at the target temperature of 27° C. based on the room temperature of 29° C. and the outside air temperature of 31° C.

As shown in FIG. 1B, during automatic operation, the father inputs a command for lowering the temperature to the air conditioner 200 via the remote controller 290. The air conditioner 200 transmits the information for identifying the father and the received control information to the server 100. The server 100 accumulates the father's favorite control. After that, the dad turns off the power.

After that, as shown in FIG. 1(C), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. The air conditioner 200 inquires of the server 100 about the father's favorite control. When the father's favorite control information is stored in the server 100, the air conditioner 200 starts cooling operation at the target temperature of 26° C., for example, based on the father's favorite control information.

Similarly, as shown in FIG. 2(A), the mother enters the room. The mother pushes the automatic driving button on the remote controller 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects mother's smartphone 300. The air conditioner 200 inquires of the server 100 about the control the mother likes. When the control information desired by the mother is not yet stored in the server 100, the air conditioner 200 starts normal automatic operation.

For example, the air conditioner 200 performs a cooling operation or a heating operation as an automatic operation based on the room temperature and the outside air temperature. 2(A), the air conditioner 200 executes the cooling operation at the target temperature of 27° C. based on the room temperature of 29° C. and the outside air temperature of 31° C.

As shown in FIG. 2B, during automatic operation, the mother inputs a command for raising the temperature to the air conditioner 200 via the remote controller 290. Air conditioner 200 transmits to server 100 the information for identifying the mother and the received control information. The server 100 stores the mother's favorite control. After that, the mother turns off the power.

Then, as shown in FIG. 2(C), the mother enters the room. The mother pushes the automatic driving button on the remote controller 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects mother's smartphone 300. The air conditioner 200 inquires of the server 100 about the control the mother likes. When the mother's favorite control information is stored in the server 100, the air conditioner 200 starts the cooling operation at the target temperature of 28° C., for example, based on the mother's favorite control information.

After that, as shown in FIG. 3(A), the father enters the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects the father's smartphone 300. The air conditioner 200 inquires of the server 100 about the father's favorite control. When the father's favorite control information is stored in the server 100, the air conditioner 200 starts cooling operation at the target temperature of 26° C., for example, based on the father's favorite control information.

Then, as shown in FIG. 3(B), the mother further enters the room. The mother pushes the automatic driving button on the remote controller 290. The air conditioner 200 detects the smartphone of the father and the smartphone 300 of the mother. The air conditioner 200 inquires of the server 100 about the control preferred by the father and the control preferred by the mother. Since the server 100 previously transmitted the control information desired by the father, the server 100 now transmits the control preferred by the mother to the air conditioner 200. The air conditioner 200 starts cooling operation at a target temperature of 28° C., for example, based on the control information that the mother likes.

Then, as shown in FIG. 3C, the father further presses the automatic operation button on the remote controller 290. The air conditioner 200 detects the smartphone of the father and the smartphone 300 of the mother. The air conditioner 200 inquires of the server 100 about the control preferred by the father and the control preferred by the mother. Since the server 100 previously transmitted the control information desired by the mother, the server 100 transmits the control information preferred by the father to the air conditioner 200 this time. The air conditioner 200 starts cooling operation at a target temperature of 26° C., for example, based on the control information that the father likes.

As described above, in the network system 1 according to the present embodiment, the electric device can recognize the peripheral users and execute the operation suitable for the users around the electric device.

Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail.
<Hardware configuration of server 100>

First, one aspect of the hardware configuration of the server 100 configuring the network system 1 will be described. Note that FIG. 4 is a block diagram showing the hardware configuration of the server 100 according to the present embodiment.

Referring to FIG. 4, server 100 includes a CPU (Central Processing Unit) 110, a memory 120, and a communication interface 160 as main components.

The CPU 110 controls each unit of the server 100 by executing the program stored in the memory 120. More specifically, the CPU 110 executes a program stored in the memory 120 and refers to various types of data to execute various types of processing described below.

The memory 120 is realized by various types of RAM (Random Access Memory), various types of ROM (Read-Only Memory), flash memory, and the like. The memory 120 is a USB (Universal Serial Bus) (registered trademark) memory, a CD (Compact Disc), a DVD (Digital Versatile Disk), a memory card, a hard disk, an IC (Integrated Circuit) card, which is used via an interface. , An optical card, a mask ROM, an EPROM (Erasable Programmable Read Only Memory), and an EEPROM (Electronically Erasable Programmable Read-Only Memory).

The memory 120 stores a program executed by the CPU 110, data generated by executing the program by the CPU 110, input data, and a database used for other services according to the present embodiment. For example, the memory 120 stores user preference control data 121.

FIG. 5 is an image diagram showing the user preference control data 121 according to the present embodiment. Referring to FIG. 5, user preference control data 121 stores the correspondence between the user and the control of preference for each electric device.

Returning to FIG. 4, the communication interface 160 transmits the data from the CPU 110 to an electric device via the Internet, a router, or the like. On the contrary, the communication interface 160 receives data from an electric device via the Internet, a router, etc., and transfers it to the CPU 110.
<Hardware configuration of air conditioner 200 as an electric device>

Next, one aspect of the hardware configuration of the air conditioner 200 as an electric device configuring the network system 1 will be described. 6. FIG. 6 is a block diagram showing the hardware configuration of air conditioner 200 as an electric device according to the present embodiment.

Referring to FIG. 6, air conditioner 200 includes CPU 210, memory 220, display 230, operation unit 240, communication interface 260, device drive unit 270, camera 280, and speaker 250 as main components. Including.

The CPU 210 controls each unit of the air conditioner 200 by executing a program stored in the memory 220 or an external storage medium.

The memory 220 is realized by various RAMs, various ROMs, and the like. The memory 220 stores a program executed by the CPU 210, data generated by the execution of the program by the CPU 210, data received from the server 100, data input via the operation unit 240, and the like. For example, the memory 220 stores the correspondence between the identification information of the smartphone 300 and the identification information of the user. Then, the CPU 210 receives the identification information from the smartphone 300 and recognizes the users around the air conditioner 200.

The display 230 outputs characters, images, etc. based on the signal from the CPU 110.

The operation unit 240 is realized by buttons, a touch panel, a keyboard, and the like, receives an instruction from the user, and inputs the instruction to the CPU 210.

The communication interface 260 is a wireless LAN communication such as IEEE802.11a/b/g/n/ac, a communication module such as ZigBee (registered trademark), BlueTooth (registered trademark), or a wired LAN such as Ethernet (registered trademark). Will be realized. The communication interface 260 exchanges data with other devices by wire communication or wireless communication. That is, the CPU 210 receives various kinds of information from other devices such as the server 100, the remote controller 290, and the smartphone 300 via the communication interface 260, and sends various kinds of information to the other devices.

The device driving unit 270 controls each unit (motor, heater, etc.) of the electric device based on a signal from the CPU 210.

The camera 280 shoots a still image or a moving image based on a signal from the CPU 210. Specifically, the camera 280 delivers the captured image data to the CPU 210. The CPU 210 sequentially stores the image data in the memory 220.

The speaker 250 outputs sound based on the signal from the CPU 210.
<Hardware configuration of smartphone 300 as user terminal>

Next, one aspect of the hardware configuration of the smartphone 300 as a user terminal configuring the network system 1 will be described. 7. FIG. 7 is a block diagram showing the hardware configuration of smartphone 300 as the electric device according to the present embodiment.

Referring to FIG. 7, smartphone 300 includes a CPU 310, a memory 320, a display 330, an operation unit 340, a communication interface 360, and a speaker 380 as main components.

The CPU 310 controls each unit of the smartphone 300 by executing the program stored in the memory 320.

The memory 320 is realized by various RAMs, various ROMs, and the like. The memory 320 identifies the program executed by the CPU 310, the data generated by the execution of the program by the CPU 310, the data received from the server 100 or the air conditioner 200, the data input via the operation unit 340, and the user of the user terminal. The information for doing so is stored.

For example, the memory 320 stores the identification information of the smartphone 300, and the CPU 310 provides the identification information to the air conditioner 200 via the communication interface 360 in response to a request from the air conditioner 200. Alternatively, the memory 320 stores the identification information of the user of the smartphone 300, and the CPU 310 provides the identification information of the user to the air conditioner 200 via the communication interface 360 in response to a request from the air conditioner 200.

The display 330 displays an image or text based on the data from the CPU 310. The operation unit 340 includes a pointing device, a switch, and the like, and inputs various commands from the user to the CPU 310. The user terminal may have a touch panel 350 including the display 330 and the operation unit 340.

The communication interface 360 transmits the data from the CPU 310 to the server 100 and the air conditioner 200 via the Internet, a router, or the like. For example, the CPU 310 reads the user ID from the memory 320 and sends it to the air conditioner 200 and the server 100 via the communication interface 360. Conversely, the communication interface 360 receives data from the server 100 and the air conditioner 200 via the Internet, a router, etc., and transfers the data to the CPU 310.
<Information processing in server 100>

Next, information processing when the server 100 according to the present embodiment receives data from the air conditioner 200 will be described with reference to FIG. 8. Note that FIG. 8 is a flowchart showing information processing when the server 100 according to the present embodiment receives data from the air conditioner 200.

CPU110 of the server 100 will perform the following processes, if data is received from the air conditioner 200 via the communication interface 160. From the received data, the CPU 110 determines whether or not the target air conditioner 200 has received an automatic driving command from the user (step S102). When air conditioner 200 receives the automatic operation command (YES in step S102), CPU 110 reads information for identifying the user from the received data (step S104).

The CPU 110 refers to the user favorite control data 121 and reads out a control command corresponding to the user (step S106). The CPU 110 transmits a control command to the air conditioner 200 via the communication interface 160 (step S108). The CPU 110 waits for the next data via the communication interface 160.

More specifically, in the present embodiment, CPU 110 of server 100, when transmitting information indicating the user's favorite control to air conditioner 200, associates it with information for identifying air conditioner 200, and finally The information for specifying the target user is stored in the memory 120. Then, when the data from the air conditioner 200 includes information for identifying a plurality of users, the CPU 110 refers to the memory 120 every time the data is received from the air conditioner 200, and finally becomes the target. The control commands corresponding to the users other than the user are sequentially read (step S106), and the control commands are transmitted to the air conditioner 200 (step S108).

If the favorite control command corresponding to the target user is not registered in the user favorite control data 121, the CPU 110 does not receive the desired control command corresponding to the user via the communication interface 160. The fact that the registration is made is transmitted to the air conditioner 200 (step S108).

When air conditioner 200 receives another control command (NO in step S102), CPU 110 reads information for identifying the user from the received data (step S112). The CPU 110 reads the command accepted by the air conditioner 200 from the received data, and updates the control command corresponding to the user of the user preference control data 121 (step S114). The CPU 110 waits for the next data via the communication interface 160.
<Information processing in the air conditioner 200>

Next, information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290 will be described with reference to FIG. 9. Note that FIG. 9 is a flowchart showing information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290.

When CPU 210 of air conditioner 200 receives data from remote controller 290 via communication interface 260, CPU 210 executes the following process. The CPU 210 determines from the received data whether or not the automatic driving command has been received (step S122). When the automatic driving command is received (YES in step S122), CPU 210 identifies the user from smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via communication interface 260. Information is acquired (step S124). CPU 210 may identify the user around air conditioner 200 by analyzing the image acquired through camera 280, or may recognize the user around air conditioner 200 by other methods.

The CPU 210 transmits to the server 100, via the communication interface 260, the fact that the automatic driving command has been accepted by the server 100 and the information for identifying the user in the vicinity (step S126). The CPU 210 receives a desired control command corresponding to the user from the server 100 via the communication interface 260 (step S128), and controls the device drive unit 270 based on the control command (step S130).

At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, or may cause the smartphone 300 to output a voice or a display indicating a control command, or the user or the user via the server 100. The control command may be posted on the bulletin board of SNS (Social Networking Service) of the group to which the air conditioner 200 belongs. For example, CPU 210 causes them to output information indicating the user and information indicating the control. The CPU 210 waits for the next data via the communication interface 260.

When a normal control command is received (NO in step S122), CPU 210 controls device drive unit 270 based on the control command (step S132). The CPU 210 acquires information for identifying the user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 (step S134). The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 transmits to the server 100, via the communication interface 260, the fact that the control command has been accepted by the server 100 and the information for identifying the user in the vicinity (step S136). The CPU 210 waits for the next data via the communication interface 260.

Next, with reference to FIG. 10, information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during automatic operation changes will be described. 10. Note that FIG. 10 is a flowchart showing information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during the automatic operation according to the present embodiment changes.

First, the CPU 210 of the air conditioner 200 periodically provides information for identifying a user from the smartphone 300 via WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 during automatic operation. It is acquired (step S142). Alternatively, CPU 210 may identify the user around air conditioner 200 by analyzing the image acquired through camera 280, or may recognize the user around air conditioner 200 by other methods.

The CPU 210 determines whether the combination of the previous user and the combination of the current user match (step S144). When there is a change in the combination of the previous user and the combination of the current user (YES in step S144), CPU 110 stores the newly acquired information for identifying the user in memory 220 this time. (Step S146).

Via the communication interface 260, the fact that the automatic driving command is accepted by the server 100 and the information for specifying the user in the vicinity are transmitted to the server 100 (step S148). The CPU 210 receives a control command corresponding to the user from the server 100 via the communication interface 260 (step S150), and controls the device drive unit 270 based on the control command (step S152). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, or may cause the smartphone 300 to output a voice or a display indicating a control command, or the user or the user via the server 100. The control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. The CPU 210 waits until the next predetermined time elapses.

When there is no change in the previous user combination and the current user combination (NO in step S144), CPU 210 waits until the next predetermined time elapses.

More specifically, in the present embodiment, the server 100 stores the information for specifying the last target user in association with the information for specifying the air conditioner 200. The CPU 210 of the air conditioner 200 may store information for identifying the user who was the last target in the memory 220. Then, when there are a plurality of users around the air conditioner 200, the CPU 210 receives information from the remote controller 290 each time data is received from the remote controller 290 to identify a user other than the last targeted user, and the server 100. The fact that the automatic driving command has been accepted may be transmitted to the server 100 via the communication interface 160 (step S126). That is, the control of sequentially switching users may be performed on the air conditioner 200 side.
<Second Embodiment>

In the first embodiment, when a plurality of users are around the electric device, each time the automatic driving command is pressed, the control is switched to another user's favorite control. However, it is not limited to such a form.

For example, the server 100 or the air conditioner 200 may calculate and acquire the preference control suitable for the plurality of users based on the preference control of each of the plurality of users. Specifically, the CPU 110 of the server 100 or the CPU 210 of the air conditioner 200, based on the preference control of each of the plurality of users, averages the preference control suitable for each of the plurality of users, such as the target temperature and the target volume. The air conditioner 200 may calculate the average value such as the target time and execute the preference control after the calculation.

Alternatively, as in the present embodiment, the preference control may be prepared for each combination of one or more users.
<Overall configuration of network system and operation outline>

The overall configuration of network system 1 according to the present embodiment is similar to that of the first embodiment, and therefore description thereof will not be repeated here. Hereinafter, an outline of operation of the network system 1 according to the present embodiment will be described with reference to FIG. 11. FIG. 11 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

In the present embodiment, as shown in FIG. 1(B) and FIG. 2(B), the server 100 accumulates the father's favorite control and the mother's favorite control. Further, the server 100 also accumulates the preference control for the combination of the father and the mother.

For example, as shown in FIG. 11(A), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. The air conditioner 200 inquires of the server 100 about the father's favorite control. When the father's favorite control information is stored in the server 100, the air conditioner 200 starts cooling operation at the target temperature of 26° C., for example, based on the father's favorite control information.

Then, as shown in FIG. 11B, the mother further enters the room. The mother pushes the automatic driving button on the remote controller 290. The air conditioner 200 detects the smartphone of the father and the smartphone 300 of the mother. The air conditioner 200 inquires of the server 100 about a favorite control corresponding to the combination of the father and the mother. When the server 100 stores the desired control information corresponding to the combination of the father and the mother, the air conditioner 200 determines, for example, that the target temperature of 27° C. is based on the desired control information for the combination of the father and the mother. Start cooling operation.

Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail. The hardware configurations of server 100, air conditioner 200 as an electric device, and smartphone 300 as a user terminal are the same as those in the first embodiment, and therefore description thereof will not be repeated here.

However, the memory 120 of the server 100 according to the present embodiment stores user preference control data 122 as shown in FIG. Referring to FIG. 12, user preference control data 122 stores a correspondence relationship between a combination of one or a plurality of users and a favorite control for each electric device.
<Information processing in server 100>

Next, with reference to FIG. 8 again, information processing when the server 100 according to the present embodiment receives data from the air conditioner 200 will be described.

CPU110 of the server 100 will perform the following processes, if data is received from the air conditioner 200 via the communication interface 160. From the received data, the CPU 110 determines whether the target air conditioner 200 has received an automatic driving command from the user (step S102). When air conditioner 200 receives the automatic operation command (YES in step S102), CPU 110 reads out information for identifying one or a combination of a plurality of users from the received data (step S104).

The CPU 110 refers to the user preference control data 121 and reads out a control command corresponding to one or a combination of a plurality of users (step S106). The CPU 110 transmits a control command to the air conditioner 200 via the communication interface 160 (step S108). The CPU 110 waits for the next data via the communication interface 160.

If the user's favorite control data 121 does not have a favorite control command corresponding to a combination of one or more users, the CPU 110 controls the user's favorite control via the communication interface 160. The fact that the command is not registered is transmitted to the air conditioner 200 (step S108).

When air conditioner 200 receives another control command (NO in step S102), CPU 110 reads information for identifying one or a plurality of user combinations from the received data (step S112). The CPU 110 reads the command accepted by the air conditioner 200 from the received data, and updates the control command corresponding to the combination of one or more users of the user preference control data 121 (step S114). The CPU 110 waits for the next data via the communication interface 160.
<Information processing in the air conditioner 200>

Next, referring to FIG. 9 again, information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290 will be described.

When CPU 210 of air conditioner 200 receives data from remote controller 290 via communication interface 260, CPU 210 executes the following process. The CPU 210 determines from the received data whether or not the automatic driving command has been received (step S122). When the automatic driving command is received (YES in step S122), CPU 210 causes one or more smartphones 300 to perform a user operation via WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via communication interface 260. The information for specifying is acquired (step S124). The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 transmits to the server 100, via the communication interface 260, information indicating that the server 100 has accepted the automatic driving command and information for identifying one or more users in the vicinity (step S126). The CPU 210 receives a control command corresponding to one or more users from the server 100 via the communication interface 260 (step S128), and controls the device drive unit 270 based on the control command (step S130).

At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, or may cause the smartphone 300 to output a voice or a display indicating a control command, or the user or the user via the server 100. The control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. For example, CPU 210 causes them to output information indicating one or more users and information indicating control. The CPU 210 waits for the next data via the communication interface 260.

When a normal control command is received (NO in step S122), CPU 210 controls device drive unit 270 based on the control command (step S132). The CPU 210 acquires information for identifying the user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 (step S134). The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 transmits to the server 100, via the communication interface 260, the fact that the control command has been accepted by the server 100 and the information for specifying one or more users in the vicinity (step S136). The CPU 210 waits for the next data via the communication interface 260.

Next, with reference to FIG. 10, information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during automatic operation changes will be described. 10. Note that FIG. 10 is a flowchart showing information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during the automatic operation according to the present embodiment changes.

First, the CPU 210 of the air conditioner 200 periodically identifies a user from one or more smartphones 300 through WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 during automatic operation. Information is acquired (step S142). Alternatively, CPU 210 may identify the user around air conditioner 200 by analyzing the image acquired through camera 280, or may recognize the user around air conditioner 200 by other methods.

The CPU 210 determines whether the combination of the previous user and the combination of the current user match (step S144). When there is a change in the combination of the previous user and the combination of the current user (YES in step S144), CPU 110 has information for identifying the newly acquired combination of one or more users. Is stored in the memory 220 (step S146).

The CPU 210 transmits to the server 100, via the communication interface 260, the fact that the automatic driving command has been accepted by the server 100 and the information for specifying the combination of one or more users in the vicinity (step S148). The CPU 210 receives a control command corresponding to a combination of one or more users from the server 100 via the communication interface 260 (step S150), and controls the device driving unit 270 based on the control command (step S152). ). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, or may cause the smartphone 300 to output a voice or a display indicating a control command, or the user or the user via the server 100. The control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. The CPU 210 waits until the next predetermined time elapses.

When there is no change in the previous user combination and the current user combination (NO in step S144), CPU 210 waits until the next predetermined time elapses.
<Third Embodiment>

In the first and second embodiments, the air conditioner 200 as an electric device recognizes the user. However, the form is not limited to this.

In the present embodiment, as shown in FIG. 13, network system 1 identifies a user via detection device 500 that can communicate with air conditioner 200 as an electric device. For example, the detection device 500 may acquire information for identifying a user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication. Alternatively, the detection device 500 may be equipped with an image sensor and may identify the user based on the acquired image. Alternatively, the detection device 500 may be equipped with an image sensor and the acquired image may be transmitted to the air conditioner 200 so that the air conditioner 200 identifies the user. Alternatively, the detection device 500 may be equipped with an image sensor, and the server 100 may identify the user by transmitting the acquired image to the server 100.
<Fourth Embodiment>

In the first and second embodiments, the air conditioner 200 as an electric device recognizes the user. However, the form is not limited to this.

In this embodiment, as shown in FIG. 14, the network system 1 identifies a user via the detection device 500 that can communicate with the server 100. For example, the detection device 500 may acquire information for identifying a user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication. Alternatively, the detection device 500 may be equipped with an image sensor and may identify the user based on the acquired image. Alternatively, the detection device 500 may be equipped with an image sensor, and the server 100 may identify the user by transmitting the acquired image to the server 100.
<Fifth Embodiment>

In the first and second embodiments, the air conditioner 200 as an electric device recognizes the user. However, the form is not limited to this.

In the present embodiment, as shown in FIG. 15, in network system 1, server 300 may specify a user by communicating with smartphone 100 as a user terminal. For example, the database accessible by the server 100 associates the position information of the air conditioner 200 as an electric device with the users belonging to the family having the air conditioner 200. Then, the smartphone 300 transmits the user information and the current position to the server 100. The CPU 110 of the server 100 may identify the users located around the air conditioner 200 based on the position information of the air conditioner 200 and the current position of the smartphone 300 of the user who belongs to the family of the user who owns the air conditioner 200. ..
<Sixth Embodiment>

In the first to fifth embodiments, the server 100 accumulates the control command of the preference of each user and provides it to the electric device. However, it is not limited to such a form. In the network system 1 according to the present embodiment, an electric device stores a control command that the user likes.

<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 16 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes an air conditioner 200 as an electric device, a remote controller 290 for inputting a command to the air conditioner 200, and a smartphone 300 as a user terminal.

Next, an outline of the operation of the network system 1 according to the present embodiment will be described with reference to FIGS. 16(A) to 16(C). First, as shown in FIG. 16(A), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. If the father's favorite control information is not yet stored in the air conditioner 200, the air conditioner 200 starts normal automatic operation.

For example, the air conditioner 200 performs a cooling operation or a heating operation as an automatic operation based on the room temperature and the outside air temperature. 16A, the air conditioner 200 executes the cooling operation at the target temperature of 27° C. based on the room temperature of 29° C. and the outside air temperature of 31° C.

As shown in FIG. 16B, during automatic operation, the father inputs a command for lowering the temperature to the air conditioner 200 via the remote controller 290. The air conditioner 200 stores the control that the father likes. After that, the dad turns off the power.

Then, as shown in FIG. 16(C), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. When the air conditioner 200 has accumulated the control information that the father likes, based on the control information that the father likes, the air conditioner 200 starts the cooling operation at the target temperature of 26° C., for example.

As described above, in the network system 1 according to the present embodiment, the electric device can recognize the peripheral users and execute the operation suitable for the users around the electric device. Naturally, the user may be recognized by another method as in the second to fifth embodiments.

Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail. Note that the hardware configurations of the air conditioner 200 as an electric device and the smartphone 300 as a user terminal are the same as those in the first embodiment, and therefore the description thereof will not be repeated here.

However, the memory 220 of the air conditioner 200 according to the present embodiment stores user preference control data 121 and 122 as shown in FIGS. 5 and 12.
<Information processing in the air conditioner 200>

Next, information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290 will be described with reference to FIG. Note that FIG. 17 is a flowchart showing information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290.

When CPU 210 of air conditioner 200 receives data from remote controller 290 via communication interface 260, CPU 210 executes the following process. The CPU 210 determines from the received data whether or not the automatic driving command has been accepted (step S222). When the automatic driving command is received (YES in step S222), CPU 210 specifies the user from smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via communication interface 260. Information is acquired (step S224). The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 refers to the user favorite control data in the memory 220 and reads out a control command corresponding to a combination of one or more users (step S226). The CPU 210 controls the device driving unit 270 based on the control command (step S230). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, may cause the smartphone 300 to output a voice or a display indicating the control command, or may cause the user to output the voice or display indicating the control command. Alternatively, the control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. For example, CPU 210 causes them to output information indicating one or more users and information indicating control. The CPU 210 waits for the next data via the communication interface 260.

When a normal control command is received (NO in step S222), CPU 210 controls device drive unit 270 based on the control command (step S232). The CPU 210 acquires information for identifying a user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 (step S234). The CPU 210 updates the control command corresponding to the combination of one or more users of the user favorite control data in the memory 220 (step S236). The CPU 210 waits for the next data via the communication interface 260.

Next, with reference to FIG. 18, information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during automatic operation changes will be described. Note that FIG. 18 is a flowchart showing information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during the automatic operation according to the present embodiment changes.

First, the CPU 210 of the air conditioner 200 periodically specifies a user from one or more smartphones 300 via WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 during automatic operation. Information is acquired (step S242). Alternatively, CPU 210 may identify the user around air conditioner 200 by analyzing the image acquired through camera 280, or may recognize the user around air conditioner 200 by other methods.

The CPU 210 determines whether or not the combination of the previous user and the combination of the current user match (step S244). When there is a change in the combination of the previous user and the combination of the current user (YES in step S244), CPU 110 stores in memory 220 newly acquired information for identifying the user. (Step S246).

The CPU 210 refers to the user's favorite control data in the memory 220 and reads out the control command corresponding to the combination of the users (step S250). The CPU 210 controls the device driving unit 270 based on the control command (step S252). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, or may cause the smartphone 300 to output a voice or a display indicating the control command, or the user via another server. Alternatively, the control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. The CPU 210 waits until the next predetermined time elapses.

If there is no change in the previous user combination and the current user combination (NO in step S244), CPU 210 waits until the next predetermined time elapses.
<Seventh Embodiment>

In the first to fifth embodiments, the server 100 accumulates the control command of the preference of each user and provides it to the electric device. However, it is not limited to such a form. In the network system 1 according to the present embodiment, a user terminal stores control commands suitable for its own user.

<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 19 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, with reference to FIG. 19, an overall configuration of the network system 1 according to the present embodiment will be described. The network system 1 according to the present embodiment mainly includes an air conditioner 200 as an electric device, a remote controller 290 for inputting a command to the air conditioner 200, and a smartphone 300 as a user terminal. Then, the smartphone 300 has a preference control application installed.

Next, an outline of the operation of the network system 1 according to the present embodiment will be described with reference to FIGS. First, as shown in FIG. 19(A), the father enters the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. The air conditioner 200 inquires of the smartphone 300 preference control application about the preference control of the father of the smartphone 300 user. If the father's favorite control information is not yet stored in the favorite control application, the air conditioner 200 starts normal automatic operation.

For example, the air conditioner 200 performs a cooling operation or a heating operation as an automatic operation based on the room temperature and the outside air temperature. As for FIG. 19A, the air conditioner 200 executes the cooling operation at the target temperature of 27° C. based on the room temperature of 29° C. and the outside air temperature of 31° C.

As shown in FIG. 19(B), during automatic operation, the father inputs a command for lowering the temperature to the air conditioner 200 via the remote controller 290. The air conditioner 200 provides the father's favorite control to the favorite control application of the smartphone 300. The liking control application accumulates dad's favorite control commands. After that, the dad turns off the power.

After that, as shown in FIG. 19C, the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The air conditioner 200 detects surrounding users. In the present embodiment, air conditioner 200 detects father's smartphone 300. The air conditioner 200 inquires of the smartphone 300 preference control application about the preference control of the father of the smartphone 300 user. When the preference control application stores the control information of the father's preference, the preference control application provides the control information of the father's preference to the air conditioner 200. The air conditioner 200 starts cooling operation at a target temperature of 26° C., for example, based on the control information that the father likes.

As described above, in the network system 1 according to the present embodiment, the electric device can recognize the peripheral users and execute the operation suitable for the users around the electric device. Naturally, the user may be recognized by another method as in the second to fifth embodiments.

Hereinafter, a specific configuration of the network system 1 for realizing such a function will be described in detail. Note that the hardware configurations of the air conditioner 200 as an electric device and the smartphone 300 as a user terminal are the same as those in the first embodiment, and therefore the description thereof will not be repeated here.

However, the memory 320 of the smartphone 300 according to the present embodiment stores the favorite control application and the control information of the user of the smartphone 300.
<Information processing in the smartphone 300 as a user terminal>

Next, information processing when the smartphone 300 according to the present embodiment receives data from the air conditioner 200 will be described with reference to FIG. 20. FIG. 20 is a flowchart showing information processing when the smartphone 300 according to the present embodiment receives data from the air conditioner 200.

CPU310 of the smart phone 300 will perform the following processes, if data is received from the air conditioner 200 via the communication interface 360. From the received data, the CPU 310 determines whether the target air conditioner 200 has received an automatic driving command from the user (step S302). When the air conditioner 200 receives the automatic operation command (YES in step S302), the CPU 310 refers to the user favorite control data in the memory 320, and reads out the favorite control command corresponding to the user (step). S306).

The CPU 310 transmits a control command to the air conditioner 200 via the communication interface 360 (step S308). The CPU 310 waits for the next data via the communication interface 160.

If the favorite control command corresponding to the user is not registered in the user favorite control data of the memory 320, the CPU 310 does not register the favorite control command corresponding to the user via the communication interface 360. Is transmitted to the air conditioner 200 (step S308).

When the air conditioner 200 receives another control command (NO in step S302), the CPU 310 reads the command accepted by the air conditioner 200 from the received data and notifies the user of the user favorite control data in the memory 320. The corresponding control command is updated (step S314). The CPU 110 waits for the next data via the communication interface 160.
<Information processing in the air conditioner 200>

Next, with reference to FIG. 21, information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290 will be described. 21 is a flowchart showing information processing when the air conditioner 200 according to the present embodiment receives a command from the remote controller 290.

When CPU 210 of air conditioner 200 receives data from remote controller 290 via communication interface 260, CPU 210 executes the following process. The CPU 210 determines from the received data whether or not the automatic driving command has been received (step S322). When the automatic driving command is received (YES in step S322), CPU 210 identifies the user from smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via communication interface 260. To get information for. The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 transmits the fact that the automatic driving command has been accepted to the smartphone 300 via the communication interface 260, the WiFi (registered trademark) communication, or the Bluetooth (registered trademark) communication via the communication interface 260, and the smartphone 300 sends the user information to the smartphone 300. Requesting a control command of your choice (step S326). The CPU 210 receives a control command corresponding to the user from the smartphone 300 via the communication interface 260 (step S328), and controls the device driving unit 270 based on the control command (step S330). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, may cause the smartphone 300 to output a voice or a display indicating the control command, or may cause the user to output the voice or display indicating the control command. Alternatively, the control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. For example, CPU 210 causes them to output information indicating one or more users and information indicating control. The CPU 210 waits for the next data via the communication interface 260.

When a normal control command is received (NO in step S322), CPU 210 controls device drive unit 270 based on the control command (step S332). The CPU 210 acquires information for identifying a user from the smartphone 300 by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260. The CPU 210 may identify the user around the air conditioner 200 by analyzing the image acquired via the camera 280, or may recognize the user around the air conditioner 200 by other methods.

The CPU 210 transmits to the smartphone 300, via the communication interface 260, the fact that the control command has been accepted and the information for identifying the user in the vicinity by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication ( Step S336). The CPU 210 waits for the next data via the communication interface 260.

Next, with reference to FIG. 22, information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during automatic operation changes will be described. Note that FIG. 22 is a flowchart showing information processing of the air conditioner 200 when the configuration of the user around the air conditioner 200 during the automatic operation according to the present embodiment changes.

First, the CPU 210 of the air conditioner 200 periodically provides information for identifying a user from the smartphone 300 via WiFi (registered trademark) communication or Bluetooth (registered trademark) communication via the communication interface 260 during automatic operation. It is acquired (step S342). Alternatively, CPU 210 may identify the user around air conditioner 200 by analyzing the image acquired through camera 280, or may recognize the user around air conditioner 200 by other methods.

The CPU 210 determines whether or not the combination of the previous user and the combination of the current user match (step S344). If there is a change in the previous user combination and the current user combination (YES in step S344), CPU 110 stores in memory 220 newly acquired information for specifying the user. (Step S346).

Through the CPU 210 and the communication interface 260, by WiFi (registered trademark) communication or Bluetooth (registered trademark) communication, the fact that the automatic driving command has been accepted and the information for specifying the user in the vicinity are transmitted to the smartphone 300 ( Step S348). The CPU 210 receives a control command corresponding to the user from the smartphone 300 via the communication interface 260 (step S350), and controls the device driving unit 270 based on the control command (step S352). At this time, the CPU 210 may cause the speaker 250 or the display 230 to output information indicating a control command, may cause the smartphone 300 to output a voice or a display indicating the control command, or may cause the user to output the voice or display indicating the control command. Alternatively, the control command may be posted on the SNS bulletin board of the group to which the air conditioner 200 belongs. The CPU 210 waits until the next predetermined time elapses.

When there is no change in the combination of the previous user and the combination of the current user (NO in step S344), CPU 210 waits until the next predetermined time elapses.

Naturally, as in the first embodiment, the smartphone 300 stores the favorite control commands of the plurality of users and sequentially targets the automatic operation commands from the air conditioner 200 based on the notification. The user may be switched to provide the control command of the user's preference to the air conditioner 200. Alternatively, as in the second embodiment, the smartphone 300 stores a favorite control command for each combination of a plurality of users, and based on the combination of one or a plurality of users from the air conditioner 200, the combination. The control command of your choice may be provided to the air conditioner 200.

Alternatively, the smartphone 300 stores only the control command of its own user, and when there are a plurality of users around the air conditioner 200, the target user is sequentially switched each time the air conditioner 200 receives an automatic driving command. Then, the control command of the user's preference may be requested to the smartphone 300 of the user and the control command may be executed.
<Eighth Embodiment>

In the first to seventh embodiments, the network system 1 includes the air conditioner 200 as an electric device. However, it is not limited to such a form. In the present embodiment, network system 1 includes television 200B as an electric device. In addition, below, although the case where the electric device of the first embodiment is the television 200B will be described, the same can be applied to the second to seventh embodiments.
<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 23 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes a server 100, a television 200B as an electric device capable of communicating with the server 100, a remote controller 290 for inputting a command to the television 200B, and a smartphone as a user terminal. 300 and.

Next, an outline of the operation of the network system 1 according to the present embodiment will be described with reference to FIGS. First, as shown in FIG. 23(A), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The television 200B detects surrounding users. In the present embodiment, television 200B detects father's smartphone 300. The television 200B inquires of the server 100 about the control the father prefers. If the control information desired by the father is not yet stored in the server 100, the television 200B starts normal automatic operation.

For example, the television 200B selects the channel and volume when any user of the family including the father turns off the power as the automatic driving. 23A, the television 200B displays 10 channels at a volume of 20.

As shown in FIG. 23B, during automatic operation, the father inputs a 1-channel selection command to the television 200B via the remote controller 290. The television 200B transmits, to the server 100, information for identifying the father and favorite control information. The server 100 accumulates the father's favorite control. After that, the dad turns off the power.

After that, as shown in FIG. 1(C), the father comes into the room. Dad pushes the automatic driving button on the remote control 290. The television 200B detects surrounding users. In the present embodiment, television 200B detects father's smartphone 300. The television 200B inquires of the server 100 about the control the father prefers. When the father's favorite control information is stored in the server 100, the television 200B displays, for example, one channel at a volume of 20 based on the father's favorite control information.

The outline of the operation of another user entering the room, the hardware configuration of the server 100, the television 200B, the remote controller 290, and the smartphone 300 configuring the network system 1, and the information processing of each device are the first to seventh embodiments. Since those skilled in the art can easily realize from the description of those modes, the description will not be repeated here.
<Ninth Embodiment>

In the first to seventh embodiments, the network system 1 includes the air conditioner 200 as an electric device. However, it is not limited to such a form. In the present embodiment, network system 1 includes a washing machine 200C as an electric device. In addition, below, although the case where the electric device of the first embodiment is the washing machine 200C will be described, the same can be applied to the second to seventh embodiments.
<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 24 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes a server 100, a washing machine 200C as an electric device capable of communicating with the server 100, and a smartphone 300 as a user terminal.

Next, with reference to FIG. 24(A) to FIG. 24(C), an outline of operation of the network system 1 according to the present embodiment will be described. First, as shown in FIG. 24(A), the father comes in front of the washing machine 200C. Dad pushes the automatic operation button on the washing machine 200C. The washing machine 200C detects surrounding users. In the present embodiment, washing machine 200C detects father's smartphone 300. The washing machine 200C inquires of the server 100 about the control the father prefers. If the control information desired by the father is not yet stored in the server 100, the washing machine 200C starts normal automatic operation.

As shown in FIG. 24(B), during automatic operation or immediately after turning on the power, the father inputs “mode: rush”, “water: small amount”, “water flow: medium” into the washing machine 200C. .. The washing machine 200C transmits, to the server 100, information for identifying the father and control information of his/her preference. The server 100 accumulates the father's favorite control. After that, the dad turns off the power.

Then, as shown in FIG. 24(C), the father comes in front of the washing machine 200C. Dad pushes the automatic operation button on the washing machine 200C. The washing machine 200C detects surrounding users. In the present embodiment, washing machine 200C detects father's smartphone 300. The washing machine 200C inquires of the server 100 about the control the father prefers. When the father's favorite control information is stored in the server 100, the washing machine 200C is based on the father's favorite control information, and "mode: hurry", "water: small amount", "water flow: Start washing at "Middle".

The outline of the operation of another user entering the room, the hardware configurations of the server 100, the washing machine 200C, and the smartphone 300 configuring the network system 1, and the information processing of each device are described in the first to seventh embodiments. Since those skilled in the art can easily implement the description based on these descriptions, the description will not be repeated here.
<Tenth Embodiment>

In the first to seventh embodiments, the network system 1 includes the air conditioner 200 as an electric device. However, it is not limited to such a form. In the present embodiment, network system 1 includes microwave oven 200D as an electric device. In addition, below, although the case where the electric device of the first embodiment is the microwave oven 200D will be described, the same can be applied to the second to seventh embodiments.
<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 25 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes a server 100, a microwave oven 200D as an electric device capable of communicating with the server 100, and a smartphone 300 as a user terminal.

Next, with reference to FIG. 25(A) to FIG. 25(C), an outline of operation of the network system 1 according to the present embodiment will be described. First, as shown in FIG. 25(A), the father comes in front of the microwave oven 200D. Dad pushes the automatic operation button on the main body of the microwave oven 200D. The microwave oven 200D detects surrounding users. In the present embodiment, microwave oven 200D detects father's smartphone 300. The microwave oven 200D inquires of the server 100 about the father's favorite control. If the control information desired by the father is not yet stored in the server 100, the microwave oven 200D starts normal automatic operation.

As shown in FIG. 25(B), during automatic operation or immediately after the power is turned on, the father inputs a "liquor bottle: lukewarm" command to the microwave oven 200D. The microwave oven 200D transmits to the server 100 the information for identifying the father and the desired control information. The server 100 accumulates the father's favorite control. After that, the dad turns off the power.

Then, as shown in FIG. 25(C), the father comes in front of the microwave oven 200D. Dad pushes the automatic operation button on the microwave oven 200D. The microwave oven 200D detects surrounding users. In the present embodiment, microwave oven 200D detects father's smartphone 300. The microwave oven 200D inquires of the server 100 about the father's favorite control. If the father's favorite control information is stored in the server 100, the microwave oven 200D starts heating with "liquor can: lukewarm" based on the father's favorite control information.

The outline of the operation of another user entering the room, the hardware configurations of the server 100, the microwave oven 200D, and the smartphone 300 configuring the network system 1, and the information processing of each device are described in the first to seventh embodiments. Since those skilled in the art can easily implement the description based on these descriptions, the description will not be repeated here.
<Eleventh Embodiment>

In the first to seventh embodiments, the network system 1 includes the air conditioner 200 as an electric device. However, it is not limited to such a form. In the present embodiment, network system 1 includes air purifier 200E as an electric device. In addition, below, although the case where the electric device of the first embodiment is the air purifier 200E will be described, the same can be applied to the second to seventh embodiments.
<Overall configuration of network system and operation outline>

First, the overall configuration and operation outline of the network system 1 according to the present embodiment will be described. FIG. 26 is an image diagram showing the overall configuration and operation outline of the network system 1 according to the present embodiment.

First, the overall configuration of the network system 1 according to the present embodiment will be described with reference to FIG. The network system 1 according to the present embodiment mainly includes a server 100, an air purifier 200E as an electric device capable of communicating with the server 100, and a smartphone 300 as a user terminal.

Next, an outline of the operation of the network system 1 according to the present embodiment will be described with reference to FIGS. First, as shown in FIG. 26(A), the father comes in front of the air purifier 200E. Dad presses the automatic operation button on the body of the air purifier 200E. The air purifier 200E detects surrounding users. In the present embodiment, air purifier 200E detects father's smartphone 300. The air purifier 200E inquires of the server 100 about the father's favorite control. If the control information desired by the father is not yet stored in the server 100, the air purifier 200E starts normal automatic operation.

As shown in FIG. 26(B), during automatic operation or immediately after the power is turned on, the father inputs a command to specify the "pollen removal mode" to the air purifier 200E. The air purifier 200E transmits, to the server 100, information for identifying the father and control information of his/her preference. The server 100 accumulates the father's favorite control. After that, the dad turns off the power.

Thereafter, as shown in FIG. 26(C), the father comes in front of the air purifier 200E. Dad pushes the automatic operation button on the air purifier 200E. The air purifier 200E detects surrounding users. In the present embodiment, air purifier 200E detects father's smartphone 300. The air purifier 200E inquires of the server 100 about the father's favorite control. When the father's favorite control information is stored in the server 100, the air purifier 200E starts operation in the "pollen removal mode" based on the father's favorite control information.

The outline of the operation of another user entering the room, the hardware configurations of the server 100, the air purifier 200E and the smartphone 300 configuring the network system 1, and the information processing of each device are described in the first to seventh embodiments. Since those skilled in the art can easily realize from the description of the forms, the description will not be repeated here.
<Twelfth Embodiment>

In the first to seventh embodiments, the mode in which the user inputs a command to the air conditioner 200 by using the remote controller 290 has been described. May be input.

On the contrary, in the eighth to eleventh embodiments, the mode in which the user inputs a command to the electric device via the main body operation unit has been described, but the user may perform an automatic driving command or the like via the remote controller of the electric device. It may be capable of inputting a command.

Further, the electric device is not limited to those exemplified in the first to twelfth embodiments, and may be another home appliance, an AV device, a home facility, or the like. Then, those devices may be capable of accepting various commands such as an automatic driving command through a remote controller, or may be capable of accepting various commands such as an automatic driving command through a main body operation unit. ..
<Thirteenth Embodiment>

In the first to twelfth embodiments, when the automatic driving command is input to the electric device or while the electric device is executing the automatic driving command, the control around the electric device or the user's favorite control is executed. It was a thing. However, for example, when the electric device is turned on, or while the electric device is executing another operation mode, for example, “My mode” or “Favorite mode”, one or more users around the electric device are You may implement your own control.

Furthermore, even if the user does not newly input an automatic driving command, when the electric device, the detection device, the server, or the user terminal detects that the user has come around the electric device, or the user around the electric device has When it is detected that the combination has been changed, the control around the electric device or the user's favorite control may be executed.

In addition, in the first to twelfth embodiments, when the automatic driving command is input to the electric device or while the electric device is executing the automatic driving command, the control around the electric device or the user's favorite control is performed. It was something that accumulated. However, for example, when the electric device is turned on, or while the electric device is executing another operation mode, for example, “My mode”, “Favorite mode”, “Favorite control registration mode”, etc. It may be the one that accumulates the favorite control of one or more users around.
<Other applications>

It goes without saying that the present invention can also be applied to the case where it is achieved by supplying a program to a system or an apparatus. Then, a storage medium (or memory) storing a program represented by software for achieving the present invention is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus stores the storage medium in the storage medium. The effects of the present invention can also be enjoyed by reading and executing the generated program code.

In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.

Further, by executing the program code read by the computer, not only the functions of the above-described embodiments are realized, but also an OS (operating system) running on the computer based on the instructions of the program code. Needless to say, this also includes the case where a part or all of the actual processing is performed and the functions of the above-described embodiments are realized by the processing.

Furthermore, after the program code read from the storage medium is written in another storage medium included in the function expansion board inserted into the computer or the function expansion unit connected to the computer, based on the instructions of the program code, It goes without saying that a case where the CPU provided in the function expansion board or the function expansion unit performs a part or all of the actual processing and the processing realizes the functions of the above-described embodiments is also included.
<Summary>

In the first to twelfth embodiments described above, the electric device 200 that receives a command via the remote controller 290 or the main body operation unit 240, and the first control for the electric device 200 are stored in association with the user, and the remote controller 290. Alternatively, the server 100 that causes the electric device 200 to execute the first control corresponding to the user who is in the vicinity of the electric device 200 when the first predetermined operation for the electric device 200 is received via the main body operation unit 240. A network system 1 is provided.

Preferably, the server 100 stores the first control for the electric device 200 after receiving the second predetermined operation in association with the user around the electric device 200.

Preferably, the second predetermined operation is the same as the first predetermined operation on electric device 200.

Preferably, the first predetermined operation is pressing an automatic driving command button. The server 100 causes the electric device 200 to execute a normal automatic operation when the first control corresponding to the user around the electric device 200 is not registered when the predetermined operation for the electric device 200 is received. ..

Preferably, when there are a plurality of users in the vicinity of the electric device 200, the server 100 switches the target user among the plurality of users each time the first predetermined operation for the electric device 200 is received, and after the switching. The electric device 200 is caused to execute the first control corresponding to the user.

Preferably, server 100 stores the first control for electric device 200 in association with a combination of one or a plurality of users. When there are a plurality of users around the electric device 200, the server 100 corresponds to a combination of a plurality of users around the electric device 200 when the first predetermined operation for the electric device 200 is received. The control is executed by the electric device 200.

Preferably, when there are multiple users in the vicinity of the electric device 200, the server 100 corresponds to each of the plurality of users in the vicinity of the electric device 200 when the first predetermined operation for the electric device 200 is received. The average control is determined based on the first control, and the electric device 200 is caused to execute the operation corresponding to the average control.

Preferably, when the one or more users around electric device 200 change, server 100 causes electric device 200 to execute the first control corresponding to the changed one or more users.

Preferably, when the electric device 200 executes the operation corresponding to the first control, at least one of the electric device 200, the communication terminal 300 owned by the user, the SNS page of the electric device 200, or the group to which the user belongs. Outputs information indicating the first control.

According to another aspect of the present invention, electric device 200 is provided which receives a command via remote controller 290 or main body operation unit 240. When the electric device 200 receives a predetermined operation on the electric device 200, a memory 220 for storing the first control for the electric device 200 after receiving the predetermined operation on the electric device 200 in association with the user, and a predetermined operation on the electric device 200. And a processor 210 for executing a first control corresponding to a user in the vicinity of the electric device 200 by referring to the memory 220.

According to another aspect of the present invention, electric device 200 that receives a command via remote controller 290 or main body operation unit 240, and communication terminal 300 that is communicable with electric device 200 and that is easily carried by a user, are provided. A network system 1 is provided. The communication terminal 300 stores the first control for the electric device 200 after the electric device 200 receives the predetermined operation, and when the electric device 200 receives the predetermined operation, the information about the first control is stored in the electric device. Send to 200. The electric device 200 executes the first control according to the information from the communication terminal 300.

According to another aspect of the present invention, communication terminal 300 capable of communicating with electric device 200 is provided. The communication terminal 300 refers to the memory 320 for storing the first control for the electric device 200 after the electric device 200 has received the predetermined operation, and the memory 320 when the electric device 200 has received the predetermined operation. And a processor 310 for providing the information on the first control to the electric device 200.

According to another aspect of the present invention, a program for communication terminal 300 including memory 320 and processor 310 is provided. The program stores the first control of the electric device 200 in the memory 320 after the electric device 200 receives the predetermined operation, and refers to the memory 320 when the electric device 200 receives the predetermined operation. And providing the information on the first control to the electric device 200 by the processor 310.

The embodiments disclosed this time are to be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description but by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

1: Network system 100: Server 110: CPU
120: Memory 121: Control data 122: Control data 160: Communication interface 200: Air conditioner 200B: Television 200C: Washing machine 200D: Microwave oven 200E: Air purifier 210: Processor 220: Memory 230: Display 240: Main body operation part 250: Speaker 260: Communication interface 270: Device drive unit 280: Camera 290: Remote controller 300: Smartphone 310: CPU
320: Memory 330: Display 340: Operation part 350: Touch panel 360: Communication interface 380: Speaker 500: Detection device

Claims (10)

An electric device that receives an operation command from a user,
Corresponding to the user detected in the vicinity of the electric device when the operation command for the electric device is stored in association with the user, and then the first predetermined operation for the electric device is accepted. A server that controls the operation of the electric device based on the operation command that is attached and stored ;
When there are a plurality of users in the vicinity of the electric device, the server switches the target user among the plurality of users each time the first predetermined operation for the electric device is received, and after the switching, notifies the user, that controls the operation of the electrical device based on the operation instructions stored in association with the user after the switching, the network system. The network system according to claim 1, wherein the server stores the operation command for the electric device after receiving a second predetermined operation in association with the user in the vicinity of the electric device. The network system according to claim 2, wherein the second predetermined operation is the same as the first predetermined operation for the electric device. The first predetermined operation is pressing an automatic driving button,
When the server receives the first predetermined operation with respect to the electric device and the operation command corresponding to a user in the vicinity of the electric device is not registered, the server performs normal automatic operation on the electric device. The network system according to any one of claims 1 to 3, which is executed by a network system. When one or more users around the electric device change, the server operates the electric device based on the operation command stored in association with the changed one or more users. The network system according to any one of claims 1 to 4 , which controls a network. When the electric device executes an operation corresponding to the operation command, at least one of the electric device, a communication terminal owned by the user, an SNS page of a group to which the electric device or the user belongs is operated. The network system according to any one of claims 1 to 5 , which outputs information indicating an instruction. An electric device that receives an operation command from a user,
A memory for storing the operation command for the electric device in association with the user,
After storing the operation instruction, when the first predetermined operation for the electric device is received, the operation command is stored in association with the user detected in the vicinity of the electric device by referring to the memory. A processor for controlling the operation of the electric device based on the operation command that is present ,
When there are a plurality of users in the vicinity of the electric device, the processor switches the target user among the plurality of users each time the first predetermined operation for the electric device is received, and after the switching. notifies the user, that controls the operation of the electrical device based on the operation instructions stored in association with the user after the switching, electrical equipment. An electric device that receives an operation command from a user,
A communication terminal that can communicate with the electric device and that is easily carried by the user,
The communication terminal stores the operation command of the user for the electric device, and when the electric device subsequently receives a first predetermined operation, transmits information about the operation command to the electric device,
The electric device receives the information from the communication terminal and executes control based on the operation command ,
When there are a plurality of users in the vicinity of the electric device, the communication terminal switches the target user among the plurality of users each time the first predetermined operation for the electric device is received, and after the switching. along with notifying the user, that controls the operation of the electrical device based on the operation instructions stored in association with the user after the switching, the network system. A communication interface for communicating with electrical equipment,
A memory for storing a user's operation instruction for the electric device;
To provide the electric device with information about the operation command through the communication interface by referring to the memory when the electric device receives a first predetermined operation after storing the operation command. includes a processor, a,
When there are a plurality of users in the vicinity of the electric device, the processor switches the target user among the plurality of users each time the first predetermined operation for the electric device is received, and after the switching. notifies the user, that controls the operation of the electrical device based on the operation instructions stored in association with the user after the switching, the communication terminal. A program for a communication terminal including a communication interface, a memory, and a processor,
Storing a user's operation instruction for the electric device in the memory,
Providing information on the operation command to the electric device via the communication interface by referring to the memory when the electric device receives a first predetermined operation after storing the operation command When,
When there are a plurality of users in the vicinity of the electric device, each time the first predetermined operation for the electric device is accepted, the target user of the plurality of users is switched, and the user after the switching is notified. A program for a communication terminal that causes the processor to execute a step of controlling the operation of the electric device based on the operation command stored in association with the switched user .

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