KR102264797B1 - Hub device, control device and control device control method - Google Patents

Abstract

The present invention is a system including a user terminal for obtaining a user action, a server device for generating a control command, a hub device for obtaining a control command from the server device to generate a control signal, and at least one functional device operating according to the control signal. In the hub device included in , a communication unit for communicating with an external device including a server device and at least one functional device, a signal unit for generating a control signal for controlling the at least one functional device, and a communication unit from the server device Obtaining a first control command for requesting control of the first functional device so that the first functional device performs the target operation, and controlling the first functional device to perform the target operation on the basis of the first control command through the signal unit The present invention relates to a hub device including a control unit for generating a control signal and outputting a first control signal through a communication unit, and a method for controlling the same.

Description

HUB DEVICE, CONTROL DEVICE AND CONTROL DEVICE CONTROL METHOD

The present invention relates to a hub device, a control device, and a control method of the control device, and more particularly, to a hub device having an environmental sensor, receiving a control command from a user terminal and generating a control signal, and control generating a control command It relates to an apparatus and a method for controlling the same.

The Internet of Things (IoT) refers to intelligent technologies and services that connect all things based on the Internet to communicate information between people and things and between things and things. The Internet of Things (IoT) is an advanced stage compared to the existing wired communication-based Internet or mobile Internet, and its growth is accelerating with the development of communication technology and artificial intelligence technology including big data.

According to this trend, introduction of a hub system for mediating the flow of information between things has been requested. That is, the use of a data hub or a control hub for mediating a signal system between a user terminal and electronic devices and supporting control of dependent electronic devices is increasing.

However, there is a limit to providing a more optimized Internet of Things environment based on the residential environment and user characteristics only by using such a control hub. In particular, according to the recent trend in which single-person households are increasing, the introduction of an indoor device control auxiliary system is required according to the user's tendency, and a device for providing a smarter object control environment through data collection based on user characteristics and system demands are increasing.

One object of the present invention is to provide a hub device and a method for controlling the same.

Another object of the present invention is to provide a hub device including a sensor and a method for controlling the same.

Another object of the present invention is to provide a control device and a control method thereof.

Another object of the present invention is to provide a control device using a user pattern and a control method thereof.

According to an aspect of the present invention, a user terminal acquiring a user action, a server device generating a control command, a hub device generating a control signal by acquiring a control command from the server device, and at least one function operating according to the control signal A hub device included in a system comprising the device is provided.

In this case, the hub device receives the first functional device from the server device through a communication unit that communicates with an external device including the server device and at least one functional device, a signal unit that generates a control signal for controlling the at least one functional device, and the communication unit. acquires a first control command for requesting control of the first functional device to perform the target operation, and receives a first control signal for controlling the first functional device to perform the target operation on the basis of the first control command through the signal unit It may include a control unit for generating and outputting the first control signal through the communication unit.

The target operation is intended by the user to the first function device in consideration of the first operation, that is, the server device outputs the first object group through the user terminal and the user selects at least one object from the first object group If it is determined that the target action is determinable by the first determination of whether the target action, which is the performed action, is determinable, it is determined in consideration of the first action, and if the target action is not determined by the first determination, the server The second operation of the user that is performed after the first operation through the terminal and selects any one object from the second object group may be obtained and determined in consideration of the second operation.

According to another aspect of the present invention, a control command for communicating with a user terminal for outputting a plurality of selectable objects and obtaining a user's operation of selecting at least one object among the plurality of objects and for controlling at least one functional device A control method of a control device for assisting a user's operation for controlling at least one functional device is provided as a control method of a control device for generating

The control method includes outputting a first object group through a user terminal, obtaining a first operation of the user to select at least one object from among the first object group, taking the first operation into consideration, by the user performing a first determination of whether a target action, which is an action to be performed by the functional device, is determinable (the target action is applied to any one object included in the second object group output from the user terminal according to the first action operation of the corresponding functional device), if it is determined that the target operation is determinable by the first determination, determining the target operation in consideration of the first operation; and if the target operation is not determined by the first determination, the user terminal obtaining a second motion of the user who selects any one object from the second object group, which is performed after the first motion through , and determining the target motion in consideration of the second motion, and the target motion determined by the first functional device It may include generating a first control command for controlling to perform.

According to another aspect of the present invention, a control device that outputs an object and communicates with a user terminal that obtains a user action and generates a control command for controlling at least one functional device, and obtains a control command from the control device to control A control device included in a system is provided that includes a hub device that generates a signal and at least one functional device that operates in response to the control signal.

The control device outputs a first object group through a communication unit and a user terminal communicating with an external device including a user terminal and a hub device, and obtains a first operation of the user to select at least one object from the first object group, , in consideration of the first operation, a first determination is performed to determine whether a target operation, which is an operation intended for the first functional device, can be determined by the user (the target operation is output from the user terminal according to the first operation) operation of a functional device corresponding to any one object included in the second object group), if it is determined that the target operation is determinable by the first determination, the target operation is determined in consideration of the first operation, and the first determination If the target motion is not determined by , the second motion of the user that is performed after the first motion through the user terminal and selects any one object from the second object group is obtained, and the target motion is determined in consideration of the second motion. and a control unit configured to generate a first control command for controlling the control device to perform the determined target operation of the first functional device.

Solutions of the present invention are not limited to the above-described solutions, and solutions not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the present specification and the accompanying drawings. will be able

According to the present invention, a remote control system of a functional device can be provided.

According to the present invention, a hub device for intermediary between a functional device and a control device can be provided.

According to the present invention, a hub device for acquiring environment information can be provided.

According to the present invention, a control method and apparatus using pattern data can be provided.

The effects of the present invention are not limited to the above-mentioned effects, and the effects not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the present specification and the accompanying drawings.

1 is a conceptual diagram for explaining a system according to an embodiment of the present invention.
2 is a conceptual diagram illustrating a system according to an embodiment of the present invention.
4 is a block diagram illustrating a hub device according to an embodiment of the present invention.
5 is a block diagram illustrating a functional device according to an embodiment of the present invention.
6 is a block diagram illustrating a server device according to an embodiment of the present invention.
7 is a view for explaining the application of the switch control device according to an embodiment of the present invention.
8 is a view for explaining a switch control apparatus according to an embodiment of the present invention.
9 is a view for explaining a switch control apparatus according to an embodiment of the present invention.
10 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
11 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
12 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
13 is a flowchart illustrating a method of controlling a hub device according to an embodiment of the present invention.
14 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
15 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
16 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
17 is a flowchart for explaining the operation of a system according to an embodiment of the present invention.
18 is a flowchart illustrating an operation of a system according to an embodiment of the present invention.
19 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention.
20 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention.
21 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention.
22 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention.

The above-described objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. However, since the present invention may have various changes and may have various embodiments, specific embodiments will be exemplified in the drawings and described in detail below.

In the drawings, the thicknesses of layers and regions are exaggerated for clarity, and an element or layer is also referred to as “on” or “on” another component or layer. It includes all cases where another layer or other component is interposed in the middle as well as directly on top of another component or layer. Throughout the specification, like reference numerals refer to like elements in principle. In addition, components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

If it is determined that a detailed description of a known function or configuration related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, the suffixes "module" and "part" for the components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have a meaning or role distinct from each other by themselves.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and available to those skilled in the art of computer software. Examples of the computer-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic such as floppy disks. - includes magneto-optical media, and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

1. system

1.1 Overview

According to an embodiment of the present invention, a system in which various functional devices can be remotely controlled according to a user's control command may be provided. The system according to an embodiment of the present invention may be implemented as an example of an IoT platform that can be used to design and build a new Internet of Things (IoT) application.

A system according to an embodiment of the present invention may include a control device, at least one hub device, and at least one function device. Each device constituting the system will be described in more detail below.

1 is a conceptual diagram for explaining a system according to an embodiment of the present invention.

Referring to FIG. 1 , a system according to an embodiment of the present invention may include a control device 100 , a hub device 200 , and at least one functional device 300 . Referring to FIG. 1 , a system according to an embodiment of the present invention may include a first functional device 301 and a second functional device 302 .

Hereinafter, the configuration, function, and operation of each device constituting the system will be described with reference to some embodiments.

Referring to FIG. 1 , the control device 100 may communicate with the hub device 200 . The control device 100 may communicate with the functional devices 301 and 302 through the hub device 200 . The control device 100 may control the functional device 300 through the hub device 200 . The control device 100 may be located outside the house and communicate with the hub device 200 .

Referring to FIG. 1 , the hub device 200 may communicate with the control device 100 and the functional devices 301 and 302 . The hub device 200 may be located in the premises and may communicate with the control device 100 and the functional devices 301 and 302 .

Referring to FIG. 1 , a first functional device 301 and a second functional device 302 may communicate with a hub device 200 . The first functional device 301 and the second functional device 302 may obtain a signal output from the hub device 200 . The first functional device 301 and the second functional device 302 may be located in the premises and communicate with the hub device 200 .

A system according to another embodiment of the present invention may include a control device, a hub device, at least one functional device, and a server device.

2 is a conceptual diagram illustrating a system according to an embodiment of the present invention. Referring to FIG. 2 , a system according to an embodiment of the present invention may include a control device 100 , a hub device 200 , at least one functional device 300 , and a server device 400 .

Referring to FIG. 2 , the control device 100 may communicate with the server device 400 . The control device 100 may communicate with the hub device 200 through the server device 400 . The control device 100 may communicate with the functional device 300 through the server device 400 .

Referring to FIG. 2 , the server device 400 may communicate with the control device 100 and/or the hub device 200 . The server device 400 may communicate with the functional device 300 through the hub device 200 .

In addition, the hub device 200 and the control device 300 may be implemented similarly to those described above with reference to FIG. 1 .

1.2 control unit

1.2.1 Significance

The control device according to an embodiment of the present invention may acquire a user's control operation. The control device may output a generated control command or a control command generation request based on the control operation. Specifically, the control device obtains a user action for controlling at least one functional device, generates a control command, user action information, or a control command generation request, etc. based on the obtained user action, It can be transmitted to a device or a server device, etc.

The control apparatus described in this specification may be implemented as a user terminal or a smart device.

According to an embodiment of the present invention, the control device may be a user terminal or a smart device that acquires a user's utterance (eg, a voice command) as a control operation for requesting control of the functional device. For example, the control device may be a smart device such as a smart speaker including a microphone module and acquiring a user's utterance.

According to an embodiment of the present invention, the control apparatus may be a user terminal or a smart device that acquires a user's touch operation (ie, acquires a touch event) as a control operation for controlling a functional device. For example, the control device may be a user terminal, such as a smart phone or a tablet, in which a display having a touch interface is mounted and obtains a touch event by a user.

1.2.2 Configuration and function

3 is a block diagram illustrating a control device according to an embodiment of the present invention. Referring to FIG. 3 , the control apparatus 100 according to an embodiment of the present invention may include a user action acquisition unit 110 , a communication unit 130 , and a control unit 150 .

The user action obtaining unit 110 may obtain a user action. The user action obtaining unit 110 may obtain a user action for controlling the functional device. The user action obtaining unit 110 may obtain a user action requesting a change of an environmental state such as temperature and illuminance. The user action obtaining unit 110 may obtain a user action requesting control of a functional device in order to request an environment state change.

According to an embodiment of the present invention, the user motion acquisition unit 110 may include a voice acquisition module (eg, a microphone module) that acquires a user's utterance (eg, a voice command). Alternatively, the user action obtaining unit 110 may include a touch event obtaining module (eg, a touch display module) for obtaining a user's touch action.

The communication unit 130 may communicate with an external device. The communication unit 130 may perform short-range or long-distance wireless communication.

According to an embodiment of the present invention, the communication unit 130 may perform remote wireless communication with an external device. The communication unit 130 may transmit data to an external device or acquire data from an external device using a long-distance wireless communication method such as the Internet, 3G, 4G, LTC, or Wi-fi.

According to an embodiment of the present invention, the communication unit 130 may communicate with the hub device. The communication unit 130 may directly communicate with the hub device. For example, the communication unit 130 may be connected to the hub device through a peer-to-peer (P2P) or Wi-Fi connection to exchange data.

According to an embodiment of the present invention, the communication unit 130 may communicate directly with the functional device or communicate with the functional device through a hub device.

According to an embodiment of the present invention, the communication unit 130 may communicate with the server device. The communication unit 130 may communicate with the hub device through the server device.

The control unit 150 may acquire a user motion through the user motion acquisition unit 110 . The control unit 150 may communicate with an external device through the communication unit 130 . The controller 150 may generate a control command based on the acquired user action. The control unit 150 may transmit the control command generated through the communication unit 130 to an external device. Alternatively, the controller 150 may transmit a user action, a request for generating a control command according to a user action, or control request information according to a user action to an external device (eg, a server device) through the communication unit 130 .

The controller 150 may control the control device by using an application installed in the control device or by communicating with an external server. For example, the controller 150 may control the operation of the control device using an application stored in the internal memory, an application provided from an external server, or a script of an external server obtained through a web browser, or the like.

According to an embodiment of the present invention, the controller 150 may collect data. Data collection of the control unit 150 will be described in more detail in Table of Contents 2. Data Collection to be described later.

Meanwhile, although not shown in FIG. 3 , the control device 100 may store an application for controlling at least one functional device and may generate a control signal for controlling the functional device through the application. The control device may include a memory unit for storing the application.

The functions and operations of the control device described in this specification may be performed by the server device. In other words, when the system is implemented in a form including a server device as shown in FIG. 2 , all of the control process for collecting data from the control device, the hub device, and/or the functional device or controlling the operation thereof is performed in the server device. can be performed.

1.3 Hub device

1.3.1 Significance

The hub device according to an embodiment of the present invention may communicate with the control device and at least one functional device to assist the control device to remotely control the functional device. As a specific example, the hub device may obtain a control command for controlling the functional device from the control device, generate a control signal corresponding to the control command, and output the control signal so that the functional device operates according to the control signal. As another example, the hub device may obtain a control command generated by the server device based on a user action obtained by the control device, and generate and output a control signal corresponding to the control command.

A hub device according to an embodiment of the present invention may store a control signal of a functional device. Specifically, the hub device may store the control signal of the functional device corresponding to the control command transmitted from the control device.

The hub device described in this specification may be a physically independent device, or may be implemented in the form of a hub module that is built-in or attached to another device to perform a hub function.

1.3.2 Configuration and function

4 is a block diagram illustrating a hub device according to an embodiment of the present invention. Referring to FIG. 4 , the hub device 200 according to an embodiment of the present invention may include an environment sensor unit 210 , a communication unit 230 , a signal unit 250 , and a control unit 270 .

The environment sensor unit 210 may obtain environment information. The environment sensor unit may include a sensor module for obtaining environment information. For example, the environment sensor unit may include one or more modules selected from a temperature sensor module, an illuminance sensor module, a microphone module, a humidity sensor module, and a dust (air) sensor module.

The environment information obtained by the environment sensor unit 210 may be information related to the user's residential environment. The environment information may be information related to the function of the functional device. For example, the environment information may be illuminance information, temperature information, audio information, humidity information, or air quality information in the house.

According to an embodiment of the present invention, the environmental sensor unit 210 may include a plurality of environmental sensors. Each of the environmental sensors included in the plurality of environmental sensors may communicate with an external device using different communication methods.

As a specific example, the environment sensor unit 210 may include a first environment sensor and a second environment sensor. The first environment sensor may obtain first environment information, and the second environment sensor may obtain second environment information different from the first environment information. For example, the environment sensor unit 210 may include a first environment sensor (ie, an illuminance sensor) that acquires illuminance information and a second environment sensor (ie, a temperature sensor) that acquires temperature information.

The communication unit 230 may communicate with an external device. For example, the communication unit 230 may communicate with a control device, a server device, and/or a functional device included in the system disclosed herein. The communication unit 230 may communicate with a communication unit of another hub device.

The communication unit 230 may perform wireless communication or wired communication. For example, the communication unit 230 may perform wired communication with an external device through a USB connection or a wired LAN. Alternatively, the communication unit 230 may perform wireless communication with an external device, such as Wi-fi, Bluetooth, or ZigBee. The communication unit 230 may perform optical wireless communication using infrared (IR).

The communication unit 230 may perform long-distance communication or short-distance communication. For example, the communication unit 230 may transmit data to an external device or acquire data from the external device through a short-distance communication method such as NFC, Bluetooth, Wi-Fi, infrared (IR), or Zigbee.

According to an embodiment of the present invention, the communication unit 230 may include a first communication unit and a second communication unit. The first communication unit may communicate with the external device using a first communication method, and the second communication unit may communicate with the external device using a second communication method that is different from the first communication method. For example, the communication unit 230 may include a first communication unit that communicates with the server device using a long-distance communication method and a second communication unit that communicates with the functional device using a short-range communication method.

The signal unit 250 may process a control signal of an external device. The signal unit 250 may store and/or obtain a control signal. The signal unit 250 may obtain or generate a control signal for controlling operations of a plurality of functional devices. The signal unit 250 may obtain or generate a control signal using a database in which control signals for controlling operations of a plurality of functional devices are stored.

With respect to the operation of the signal unit 250, it will be described in more detail in 1.3.3 Control Signal Management Table of Contents to be described later.

The controller 270 may obtain a control command, obtain a control signal according to the control command, and output the obtained control signal. As a specific example, the control unit 270 may obtain a control command for controlling the functional device from the control device or the server device through the communication unit 230 . Also, the control unit 270 may obtain a control signal corresponding to the control command obtained through the signal unit 250 . The control unit 270 may output the acquired control signal so that the functional device operates according to the control signal (or control command) through the communication unit 230 .

According to an embodiment of the present invention, the controller 270 may collect data. The controller 270 may collect environment information, operation information of the functional device, and the like. Although not shown in FIG. 4 , the hub device 200 may further include a data collection unit for collecting data, and the controller 270 may collect data through the data collection unit.

Regarding the data collection operation, it will be described in more detail in the following 2. Data Collection Table of Contents.

Although not shown in FIG. 4 , the hub device 200 may further include a memory unit. The memory unit may store firmware, applications, and the like necessary for the operation of the hub device. The memory unit may store a driver, a database, etc. necessary for the hub device to control the functional device.

Hereinafter, in relation to the operation of the signal unit 250 described above, the operation of the hub device for storing and/or outputting the control signal of the functional device will be described in more detail.

1.3.3 Control Signal Management

According to an embodiment of the present invention, the hub device may manage the control signal of the functional device. The hub device may acquire, store, or output the control signal of the functional device. Management of the control signals described below may be performed by a control signal unit included in the hub device.

According to an embodiment of the present invention, the hub device may receive a control signal of the functional device. For example, the hub device may have a control signal input mode for obtaining a control signal of the functional device output from a dedicated control device (eg, a remote control of the functional device) of the functional device that outputs the control signal of the functional device.

The hub device may obtain or generate a control signal by using a control signal database in which control signals for a plurality of functional devices are stored. The control signal database may store identification information of the functional device or device information in association with the control signal. The control signal database may be stored in the hub device or a separate server.

The hub device may output a control signal of the functional device. The hub device may output a control signal for controlling a plurality of functional devices. The hub device may output a control signal for controlling the target function device.

The hub device may store and/or output control signals for a plurality of functional devices. The control signals of the plurality of functional devices may include control signals transmitted and received through one or more communication methods. For example, the hub device stores and/or outputs a first control signal for controlling the first function device using a first communication method (eg, infrared communication), and a second communication method (eg, infrared communication) , Bluetooth) may be used to store and/or output a second control signal for controlling the second function device.

1.4 Functional device

1.4.1 Significance

A functional device according to an embodiment of the present invention may perform at least one function. The functional device may communicate with a hub device, a server device and/or a control device. Specifically, the functional device may obtain a control signal from the hub device, the server device, and/or the control device, and perform a function based on the control signal. The functional device may be provided as a peripheral device of the hub device.

The functional device may be an environment control device that controls the user environment. For example, the functional device may be a temperature control device for controlling the temperature of a space in which the functional device is installed, a humidity control device for controlling humidity, an illuminance (or lighting) control device for adjusting the illuminance, and the like.

The functional device may be a media output device that outputs audio or video. For example, the functional device may be a TV, radio, smart display, smart speaker, or the like.

1.4.2 Configuration and function

5 is a block diagram illustrating a functional device according to an embodiment of the present invention. Referring to FIG. 5 , the functional device 300 according to an embodiment of the present invention may include a functional unit 310 , a communication unit 330 , and a control unit 350 .

The function unit 310 may perform a specific function. The function unit 310 may include a function module that performs a function. The function unit 310 may operate based on a control command or a control signal. The functional device 300 may have a different shape according to the function of the functional unit 310 .

According to an embodiment of the present invention, the functional unit 310 may perform environmental control. In other words, the function unit 310 may include an environment control module, for example, a temperature control module, an illuminance control module, and the like.

According to another embodiment, the function unit 310 may output media. In other words, the function unit 310 may include a media output module, for example, a display module or a speaker module.

The communication unit 330 may communicate with an external device. The communication unit 330 may communicate with a hub device, a server device, and/or a control device. The communication unit 330 may perform short-range or long-distance wireless communication.

According to an embodiment of the present invention, the communication unit 330 may perform short-range wireless communication. The communication unit 330 may perform short-range wireless communication such as infrared or NFC, and obtain a control signal from a hub device or a control device located in a short distance.

The controller 350 may control the functional device to obtain a control signal and operate according to the control signal. The control unit 350 may obtain a control signal through the communication unit 330 , and may control an operation according to the control signal through the function unit 310 to be performed.

1.4.3 Switch Control Unit (Switcher)

According to an embodiment of the present invention, the above-described functional device may be a switch control device that physically controls an on/off state of a toggle switch commonly used for indoor power control. The switch control device may be particularly applicable to a toggle switch (or button-type switch) commonly used as a lighting power switch in a room.

Hereinafter, a switch control device will be described as an example of a functional device.

7 is a view for explaining the application of the switch control apparatus 400 according to an embodiment of the present invention. Specifically, FIG. 7 is a conceptual diagram for explaining a button-type lighting switch 1 to which the switch control device 400 according to an embodiment of the present invention can be applied.

Referring to Figure 7, the switch control device 400 according to an embodiment of the present invention is formed along the circumference of one or more buttons (1a) and the button (1a) to fix the button (1a) and the wall to each other case ( It is attached to the front of the button-type light switch 1 made of 1b) and can directly apply a pressing pressure to the button 1a.

The switch control device 400 may obtain a remote control signal (eg, an IR signal or a Bluetooth signal) output from a control device in which an application is installed, for example, a mobile terminal, and may perform driving to control the button 1a. Alternatively, the switch control device 400 may obtain a remote control signal output from the hub device in which the application is installed and drive the button 1a to control it.

The button-type light switch 1 may be generally formed of a one-member switch, a two-member switch, and a three-member switch according to the number of buttons 1a included in the light switch 1 . At this time, the switch control device 400 according to an embodiment of the present invention may be provided to be compatible with any one of the 1- to 3-prong switches 1, and the specific form will be described in more detail below.

8 and 9 are views for explaining a switch control device according to an embodiment of the present invention, and are an exploded perspective view of one side and an exploded perspective view of the other side, respectively, showing the configuration of a switch control device according to an embodiment of the present invention; .

Referring to FIG. 8 , the switch control device 400 may include a main frame 410 , a driving assembly 420 , a controller panel 430 , a holder frame 440 , and a cover frame 450 .

The driving assembly 420 may provide power for applying a pressing pressure to the button 1a. The driving assembly 420 may include a driving module 421 that applies pressure to the button 1a and a battery 422 that supplies power to the driving module 421 . As shown in the figure, the driving module 421 includes a pair of protruding members 421a each protruding toward both sides of the button 1a, and a motor (not shown) for providing power to the protruding members 421a. may include

The pair of protruding members 421a are respectively connected to the motor and rotate based on the rotational force of the motor so that they protrude so that the protruding member 421a presses one side of the button 1a in a pressing manner. Various other physical structures may be used to apply pressure to the button 1a.

The driving module 421 is formed in one to three pieces to be applied to the one- to three-prong switch 1, respectively, so that the switch control device 400 can be formed by distinguishing it according to the number of the driving modules 421 . Preferably, in order to be used more economically and conveniently, a plurality of driving modules 421, preferably three as shown in the drawings, are pre-formed, and the button of the applied light switch 1 (1a) It is possible to selectively operate a specific driving module 421 according to the number.

More specifically, the switch control device 400 having a plurality of driving modules 421 selectively selects a specific driving module according to a control signal transmitted from the hub device, a control signal transmitted from the control device, or a control command generated from the control device. 421 may be implemented to work.

The main frame 410 may be provided in a box shape with a rear surface fixed to the case 1b of the light switch 1 and an open front surface. The main frame 410 forms a space for accommodating a coupling member for coupling with the case 1b and a button 1a on the rear side, respectively, and a driving assembly 420 and a controller panel 430 in the front side inner space. etc. can be accommodated. More specifically, the main frame 410 may be formed to form a coupling member receiving groove 411 and a button receiving part on the rear side, and to include a driving module receiving part 413 and a battery receiving part 414 on the front side. have.

The coupling member accommodating groove 411 may be recessed inwardly at the upper and lower portions of the rear surface, respectively. Preferably, the coupling member that can be inserted into the coupling member receiving groove 411 may be a magnet. In other words, the first coupling member 1b (1) formed of a magnet is pre-attached to a portion corresponding to the coupling member receiving groove 411 in the case 1b, and the first coupling member is attached to the coupling member receiving groove 411. (1b(1)) and a second coupling member (not shown) detachably corresponding to the insertion fixed or built-in installation of the present invention including the main frame 410 by the coupling action of the first and second coupling members The switch control device 400 may be coupled to the case 1b of the light switch 1 .

The button accommodating part (not shown) may be provided with a space in which the rear surface of the main frame 410 and the button 1a of the light switch 1 can be spaced apart from each other by a predetermined interval. Or, the portion corresponding to the button (1a) on the rear side of the main frame 410 is recessed to the front side, or the main frame 410 and the combination used for coupling the case (1b) of the light switch (1) It is also possible to perform the role of the button accommodating part by forming the thickness of the member above a certain level to be spaced apart. That is, the button receiving portion may ultimately be provided as a space for maintaining a state in which the surface of the main frame 410 does not come into contact with the button 1a.

The driving module accommodating part 413 and the battery accommodating part 414 are spaces provided to accommodate the driving module 421 and the battery 422 , respectively. It may be partitioned and provided. In particular, the rear surface of the driving module accommodating part 413 is disposed to correspond to the front surface of the button accommodating part, and on the corresponding surface, the protruding member 421a of the driving module 421 penetrates the main frame 410 and protrudes toward the button 1a. A plurality of protrusion member through-holes 412 provided to be able to be formed may be formed. The number of protrusion member through-holes 412 may be formed according to the number of driving modules 421 . For example, when three driving modules 421 are formed as shown in the drawing, a total of six driving modules 421 may be formed to guide three pairs of the protruding members 421a.

The controller panel 430 is stacked on the front side of the driving assembly 420 and includes a printed circuit board 431 coupled to the main frame 410, and a remote control signal for receiving a remote control signal from the control device. It is a basic electronic configuration including a receiving unit 431a and a driving control unit 431b for controlling the driving assembly 420 based on a remote control signal.

More specifically, when a user generates a remote control signal for on/off control of a specific button 1a and transmits it via a wireless communication means such as the above-described Bluetooth, the remote control signal receiving unit 431a receives the signal and , based on this, the driving control unit 431b controls the power output from the driving assembly 420 , that is, the battery 422 , and differentially controls the motor supplied with power to thereby perform the protruding motion of the protruding member 421a can do. It is preferable that the controller panel 430 is fixedly coupled to the main frame 410 in a state where the driving assembly 420 is accommodated therebetween. In particular, the controller panel 430 includes a printed circuit board 431 and a printed circuit. It may be formed to include a support member 432 to be stably fixed to the inner space of the main frame 410 while surrounding the periphery of the substrate 431 .

In addition, the driving control unit 431b is a protrusion distance determining means that is configured to adjust the protrusion distance of the protruding member 421a in order to stably act on the button 1a of the various applied lighting switches 1 ( 431b(1)).

The protrusion distance determination means 431b ( 1 ) is interlocked with the illuminance sensor in a state in which the switch control device 400 is installed on the button front part of the specific light switch 1 to illuminate according to the protrusion distance of the protrusion member 421a By learning whether the on/off operation of the light switch 1 is pressed, the protrusion distance of the protrusion member 421a corresponding to the degree of pressing to be applied is determined to generate appropriate protrusion distance information. That is, in a state in which the illuminance sensor and the motor of the driving module 421 are interlocked, the on/off change of the lighting according to the rotational speed of the motor controlling the protrusion of the protruding member 421a is sensed, and the button 1a is pressed for operation. to judge the extent. In this case, the appropriate protrusion distance information may be formed by the number of rotations of the motor, and may be derived from various other mechanical values.

The protrusion member 421a protrudes more than necessary and the protrusion member 421a is damaged by driving the motor of the driving module 421 based on the appropriate protrusion distance information generated by the protrusion distance determining means 431b(1). problems can be prevented.

The holder frame 440 is stacked on the front side of the controller panel 430 in a state where the driving assembly 420 is accommodated between the main frame 410 and the controller panel 430 to be fixedly coupled to the main frame 410 . As shown in the figure, one side of the main frame 410, the controller panel 430, and the holder frame 440 may be sequentially coupled to each other through a separate coupling means to be fixed. The holder frame 440 is primarily for stably fixing the controller panel 430, and the area around the printed circuit board 431 of the controller panel 430 is directly in contact with the cover frame 450 to be described later and is rubbed or rubbed. Alternatively, in order to prevent in advance a case in which the pressure applied from the outside is directly transmitted to the printed circuit board 431 and the printed circuit board 431 is electrically damaged, the board protection part 441 may be included. The board protection part 441 is formed through a portion corresponding to the printed circuit board 431 , and a hollow portion may be formed in the front portion of the printed circuit board 431 by the thickness of the holder frame 440 . . Even when the cover frame 450, which will be described later, is fixed in contact with the holder frame 440 by the substrate protection unit 441, the rear surface of the cover frame 450 and the printed circuit board 431 are not in direct contact with each other. can

A fitting groove 442 for fitting with the fitting protrusion 451 formed on one side of the circumference of the cover frame 450 may be formed on the side of the holder frame 440 .

The cover frame 450 covers the upper surface of the main frame 410 and forms a fitting protrusion 451 at a position corresponding to the fitting groove 442 formed on the side of the holder frame 440 .

Referring to the drawings, the coupling sequence of each configuration will be described once again. The driving module 421 and the battery 422 are accommodated in the driving module accommodating part 413 and the battery accommodating part 414 of the main frame 410, respectively. , the controller panel 430 is disposed on the front side, and the main frame 410 and the holder frame ( 440) is firmly fixed. Thereafter, by fitting the fitting protrusion 451 of the cover frame 450 to the fitting groove 442 of the holder frame 440, it may be assembled.

At this time, the printed circuit board 431 is protected from the cover frame 450 by the board protection unit 441 to enhance durability, and when a problem occurs in the printed circuit board 431 during use, the cover frame 450 . Only by separating the printed circuit board 431 to the outside can be easily repaired. Although it can be said that the above-described configuration alone is sufficient to achieve the object of the present invention, in order to be more stably compatible with the number of buttons 1a and the size of the buttons 1a of the light switch 1 installed on the indoor wall, To this end, it is possible to allow the positions of the plurality of driving modules 421 within the main frame 410 to be varied to a certain level. For this, a rail 415 is additionally formed on one side of the main frame 410, and each driving module 421 may be provided with a rail engaging portion 421b that is inserted into the rail 415 to slide and move. have.

1.5 Server device

1.5.1 Significance

The server device according to an embodiment of the present invention may generate a control command. The server device may communicate with a control device (ie, a user terminal) to obtain user motion information and the like, and generate a control command based thereon. The server device may generate a control command for controlling the functional device and transmit it to the hub device.

The server device described in this specification may be provided as a cloud server or the like.

1.5.2 Configuration and function

6 is a block diagram illustrating a server device according to an embodiment of the present invention. Referring to FIG. 6 , the server device 500 according to an embodiment of the present invention may include a communication unit 510 and a control unit 530 .

The communication unit 510 may communicate with an external device. The communication unit 510 may communicate with a control device (ie, a user terminal) or a hub device. The communication unit 510 may communicate with the functional device.

The controller 530 may control the operation of the server device 500 . The control unit 530 may obtain user operation information or a request for generating a control command from the control device through the communication unit 510 . The controller 530 may generate a control command for controlling the functional device based on information obtained from the control device. The controller 530 may transmit the generated control command to the hub device.

1.6 System Operation

In the system according to an embodiment of the present invention, the hub device may acquire environment information and transmit it to the user terminal, and the control device, that is, the user terminal, may acquire the environment information. The control device may provide the obtained environment information to the user. For example, the control device may output the obtained environment information in the form of voice or image.

The operation of the system according to another embodiment of the present invention may include, when the hub device acquires an environment value according to the operation of the functional device and transmits it to the control device, the control device acquires the environment value.

10 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. Figure 10 (A) shows the operation of the functional device according to an embodiment of the present invention, Figure 10 (B) shows the operation of the hub device according to an embodiment of the present invention, Figure 10 (C) represents an operation of a control device (eg, a user terminal) according to an embodiment of the present invention.

Referring to FIG. 10 , in the operation of the system according to an embodiment of the present invention, after the functional device performs a specific function (SA1), the hub device obtains an environment value (or environment information) according to the function performance of the functional device. Obtaining (SB1) and transmitting (SB2) the obtained environment value to the control device may include obtaining (SC1) the environment value by the control device.

As a more specific example, in the operation of the system according to an embodiment of the present invention, when an environmental change, for example, a change in illuminance, a change in temperature, etc. occurs as the functional device performs a function, a sensor module having a built-in hub device; For example, such an environmental change may be detected using a temperature sensor or an illuminance sensor, and the obtained environmental information may be transmitted to the user terminal. Alternatively, the hub device may detect a change in operating state occurring in the functional device, for example, termination due to insufficient power, wake-up due to user manipulation, and the like, and transmit the sensed environment information to the control device.

In a system according to another embodiment of the present invention, the user terminal transmits a control command according to a control operation for controlling the user's functional device to the hub device, and the hub device controls the functional device based on the acquired control command. To generate and output a control signal for controlling, the functional device may be implemented to obtain the output control signal and operate according to the control signal.

11 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. FIG. 11(A) shows the operation of the functional device according to an embodiment of the present invention, FIG. 11(B) shows the operation of the hub device according to the embodiment of the present invention, and FIG. 11(C) represents an operation of a control device (eg, a user terminal) according to an embodiment of the present invention.

Referring to FIG. 11 , the control device may acquire the user's motion (SC1). The control device may generate a control command for controlling the functional device based on the acquired user action (SC2) and transmit the generated control command to the hub device (SC3). The hub device may obtain a control command, generate a control signal for controlling the functional device (SB1), and output the generated control signal (SB2). The functional device may obtain the output control signal and operate based on the acquired control signal (SA1).

As a more specific example, the control device may provide the user with environment information obtained from the hub device and obtain a user action for controlling the functional device performed in consideration of the environment information. The control device may generate a control command for controlling the functional device to change the environment value based on a user action requesting a change of the environment value and transmit it to the hub device.

12 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. Figure 12 (A) shows the operation of the functional device according to an embodiment of the present invention, Figure 12 (B) shows the operation of the hub device according to an embodiment of the present invention, Figure 12 (C) shows an operation of a server device according to an embodiment of the present invention, and FIG. 12D shows an operation of a control device (ie, a user terminal) according to an embodiment of the present invention.

Referring to FIG. 12 , the control device may acquire a user action ( SD1 ) and transmit the acquired user action to a server device ( SD2 ). The server device may acquire a user action, generate a control command based on the acquired user action (SC1), and transmit the generated control command to the hub device (SC2). The hub device may obtain a control command, generate a control signal based on the acquired control command (SB1), and output the generated control signal (SB2). Accordingly, the functional device may obtain the control signal output from the hub device, and operate SA1 based on the obtained control signal.

The above embodiments are merely examples and the present invention is not limited to the above embodiments, and the operation of the system according to the present invention may be implemented in various forms.

2. Data Collection

System operation in accordance with the present invention may include collecting data. Data collection may be performed in a control device, a hub device, or a functional device constituting the system. The collected data may be stored in each device (ie, a control device, a hub device, or a function device) or a server device.

The collected data may be information related to user operation, user environment information, operation information of a device, and the like. The collected data may be used to form the user's pattern data. In relation to this user pattern data, it will be described in more detail in 3. Pattern data table of contents to be described later.

Data may be collected for each individual user. The collected data may be collected and/or stored together with related user identification information, and used to generate pattern data corresponding to an individual user.

2.1 Data collection from the control unit

The control device may acquire and/or collect data. The control unit of the control device may collect data. The control unit of the control device may collect data through the user motion acquisition unit or the communication unit. The controller of the control device may transmit the collected data to a separate external device (eg, a server) or store it in an embedded memory.

The data collected by the control device may be user motion data. The control device may collect user motion information through the user motion acquisition unit. For example, the control device may collect touch event information as a user action obtained through the touch input module. Alternatively, the control device may collect voice command information as a user action obtained through the microphone module. Alternatively, the control device may collect a plurality of types of user motion information obtained through a plurality of modules.

The user motion data may include user motion data according to time. For example, the user motion data may include information on a specific motion of the user performed at a specific time. More specifically, the user motion data may include touch event or voice command information for selecting a specific object of the user performed at a specific time.

The user motion data may include user motion data according to the location of the control device. The position of the control device may be an absolute position of the control device obtained through GPS or the like. Alternatively, the position of the control device may be a relative position of the control device with respect to an external device (eg, a hub device or a functional device) obtained through signal strength or the like.

User motion data collected by the control device may be used to generate user motion pattern data.

The user action data collected by the control device may be collected by the server device and stored in the server device.

2.2 Data Collection from Hub Devices

The hub device may acquire and/or collect data. A controller included in the hub device may collect data. The controller of the hub device may collect data through the communication unit or the environment sensor unit. The controller of the hub device may transmit the collected data to a separate external device (eg, a server or a control device) or store it in an internal memory.

The data collected by the hub device may be environmental data. The hub device may collect environmental data through the environment sensor unit. For example, the hub device may collect temperature data acquired through the temperature sensor module, illuminance data acquired through the illuminance sensor module, and the like.

The hub device may include a plurality of sensor modules and collect a plurality of environmental data. For example, the hub device may include an illuminance sensor module, a temperature sensor module, and a microphone module, and may acquire illuminance data, temperature data, and audio data.

The environmental data may include environmental change data over time. For example, the environment data may include environment information acquired at a specific time or environment change information over time. As a specific example, the environmental data may include temperature information according to time of a space in which the hub device is installed, illuminance information according to time, audio information according to time, and the like.

The environment data collected by the hub device may be used to generate environment pattern data.

The data collected by the hub device may be control data. The hub device may collect control command data through the communication unit. For example, the hub device may obtain a control command from the control device, and collect control data based on the acquired control command.

The control command data may include control command data obtained over time. For example, the control command data may include control command data for controlling a specific function device acquired at a specific time.

Control data collected by the hub device may be used to generate control pattern data.

Environment data or control pattern data collected by the hub device may be collected by the server device and stored in the server device.

2.3 Data collection of functional devices

The functional device may acquire and/or collect data. The control unit of the functional device may collect data. The control unit of the functional device may transmit the collected data to a separate external device (eg, a server, a hub device, or a control device) or store it in an embedded memory.

The data collected by the functional device may be device operation data. The functional device may collect device operation information performed through the functional unit. Alternatively, the functional device may include a separate manipulation unit and collect device operation information according to a functional device control operation applied to the manipulation unit.

As a specific example, when the functional device is a switch control device or a lighting control device having a physical switch, the functional device may be operated by manipulating a physical switch directly applied without obtaining a control signal output from the hub device. . In this case, when the operation of the physical switch occurs, the functional device may collect information about the operation, for example, operation time, operation contents, and the like.

The device motion data may include device motion data over time. For example, the device operation data may include an operation change of the functional device occurring at a specific time, an operation operation of the functional device, control signal information acquired by the functional device, and the like. As a specific example, the device operation data may collect a time when power of the functional device is turned on/off, a time when the functional device acquires a specific control signal, and the like.

Device motion data collected by the functional device may be used to generate device motion pattern data.

Device operation data collected by the functional device may be collected by the server device and stored in the server device.

3. Pattern data

In the method or the like according to the present invention, pattern data may be used. Examples of the pattern data may include pattern data generated based on data change over time, pattern data according to a relationship between a plurality of data, and the like. The pattern data may be generated in a control device, a hub device, a function device, or a separate server. In particular, the pattern data may be generated by the server device disclosed herein. The server device may collect data from an external device and generate pattern data based on the collected data.

The pattern data may be generated and/or stored to correspond to a user. For example, the pattern data may be generated as user-corresponding pattern data based on identification information of individual users.

The pattern data may be updated. The pattern data may be updated at regular intervals. The pattern data may be updated when data that does not conform to the pattern data is acquired more than a reference number of times (when the acquired number is greater than or equal to the reference frequency).

Hereinafter, generation and use of pattern data will be described.

3.1 Generation of patterns

3.1.1 Pattern data over time

According to an embodiment of the present invention, the pattern data may be generated in consideration of changes over time of the collected data.

For example, according to the user motion data according to time, when the first user motion is acquired repeatedly or at a predetermined frequency or more in the first time zone, it is considered that the acquisition of the first user motion is strongly estimated in the first time zone, Pattern data including that the first user action is obtained in the first time period may be generated.

As a more specific example, when a user action to change the power of the lighting control device (or a switch control device attached to the lighting control device) from off to on after 8:00 pm is obtained at a reference frequency or more, the lighting control device after 8:00 pm Pattern data including that a user action to turn on the power is obtained may be generated.

For another example, according to the user motion data over time, when the second user motion is acquired and then the third user motion is acquired repeatedly or more than a certain frequency, the second user motion and the third user motion are successively Since it is strongly estimated that , it is strongly estimated, pattern data including successive acquisitions of the 22nd user motion and the third user motion may be generated.

As a more specific example, the user action to change the lighting control device (or the switch control device attached to the lighting control device) from on to off within a predetermined time interval after the user action to change the power of the TV from off to on is obtained When more than the frequency is obtained, pattern data including successively obtained user action of turning on the power of the TV and the user action of turning off the light may be generated.

For another example, according to the user motion data over time, if the number of times the fourth user action is obtained with the first cycle exceeds the reference number of times or exceeds the reference frequency, the fourth user action is the first cycle As it is strongly estimated that the fourth user action is obtained with the first period, pattern data including those obtained with the first period may be generated. This period can be determined approximately.

As a more specific example, when the number of times a user action for controlling the operation of the temperature control device (ie, air conditioner, etc.) is repeatedly acquired every 2 hours exceeds the reference number, the user action for controlling the operation of the temperature control device is performed for 2 hours Pattern data including those obtained periodically may be generated.

As for the above-described method for generating pattern data according to time, one or more methods may be used in combination. In addition, the above-described information regarding pattern data generation may be similarly applied to control command data acquired over time from hub data, device operation data over time acquired from functional devices, and the like.

3.1.2 Complex pattern data

According to another embodiment of the present invention, the pattern data may be generated based on one or more types of data collected from one or more devices.

For example, the pattern data may be generated in consideration of user motion data and environment data. The pattern data may be generated based on a correlation between specific environment information (or environment value) and a specific user action.

As a more specific example, in the pattern data, if the frequency at which the first user action is obtained from the user when the first environment value is obtained is greater than or equal to the reference frequency, it is considered that the acquisition of the first user action is strongly estimated when the first environment value is obtained. , pattern data including that the acquisition of the first user action corresponds to the acquisition of the first environment value may be generated.

For example, when temperature information indicating that the indoor temperature has risen above the reference temperature is obtained, when a user action for controlling the user's temperature control device is obtained above the reference frequency, the temperature rises above the reference temperature and the user's temperature Pattern data including corresponding control device actions may be generated.

Also, for example, when the illuminance information indicating that the indoor illuminance has fallen below the reference illuminance is obtained, when the user action for controlling the lighting control device (or the switch control device attached to the lighting control device) is obtained more than the reference frequency, indoor Pattern data including a correspondence between a decrease in illuminance below a reference illuminance and a user action for controlling the user's lighting device may be generated.

As another example, the pattern data may be generated by considering the device operation data and the environment data together. The pattern data may be generated in consideration of a correlation between specific device operation data and specific environment information (or environment value).

As a more specific example, when the number of times that the first device operation information is acquired when the first environment value is obtained exceeds the reference number of times, pattern data including that the first device operation corresponds to the acquisition of the first environment value can be created

For example, when the indoor temperature is equal to or greater than the reference temperature, when the number of times the operation of the temperature control device (ie, air conditioner) is started exceeds the reference number, the pattern data including that the indoor temperature equal to or greater than the reference temperature corresponds to the operation of the temperature control apparatus can be created. In this case, the operation of the temperature control device may be an automatic operation or a direct operation by a user.

The above-described pattern data may be generated in consideration of a plurality of types of data and changes in each data over time.

For example, when the indoor illuminance falls below the reference illuminance after 8 o'clock, when the user action for controlling the lighting control device (or the switch control device attached to the lighting control device) is acquired at the reference frequency or more, after 8 o'clock Pattern data including a correspondence between a fall of the indoor illuminance of the illuminance below the reference illuminance and a user's operation for controlling the lighting device may be generated.

The above-described pattern data may be generated by complexly considering information obtained from the outside and information obtained from the system disclosed in the present invention. For example, the pattern data may be generated by complexly considering weather information, season information, date information, etc. obtained from the outside, and environmental information and operation information obtained by devices constituting the system.

On the other hand, here, although not exemplified for all possible embodiments of the present invention, the pattern data according to the present invention is based on the complex consideration of various types of data disclosed in the present specification, that is, based on the correlation between the data. can be created

3.2 Use of patterns

3.2.1 Aids in user actions

The pattern data may be used to predict or assist a user's motion. The method according to an embodiment of the present invention may be implemented to assist a user operation by predicting a user operation performed by the user using pattern data. For example, the server device according to the present invention may generate pattern data based on the collected data and predict a user action using the generated pattern data to control a functional device and the like.

More specifically, in the method according to an embodiment of the present invention, when a specific time period or specific environment information is obtained, a corresponding user action is performed with reference to user motion pattern data according to time or user motion pattern data according to environment information. It may include performing a corresponding operation by viewing it as acquired.

Alternatively, in the method according to an embodiment of the present invention, when a specific time period or specific environment information is obtained, with reference to user motion pattern data according to time or user motion pattern data according to environment information, the corresponding user operation is performed. It may include outputting a guide message requesting confirmation for the.

In relation to the assistance of the user's motion, it will be described in more detail in the table of contents of 5. Embodiment 2 to be described later.

3.2.2 Aids in environmental control

The pattern data can be used to predict or assist in environmental control. The method according to an embodiment of the present invention may be implemented to predict environmental control by using pattern data and assist in environmental control operation. For example, the server device according to the present invention may assist the environment control operation by generating environment control pattern data, etc. with reference to the environment data collected through the hub device, and controlling the functional device using the generated environment control pattern data.

As a specific example, in the method according to an embodiment of the present invention, an operation of a functional device related to environment information predicted by the pattern data is performed with reference to environment control pattern data according to time or environment control pattern data according to device operation. This may include controlling.

3.2.3 Assist in device operation

The pattern data may be used to predict or assist in device operation. A method according to an embodiment of the present invention may be implemented to predict device operation using pattern data and assist device operation.

As a specific example, the method according to an embodiment of the present invention may include performing a device operation predicted by the pattern data with reference to device operation pattern data according to time or device operation pattern data according to environment information. have.

4. Example 1: Control command generation system according to environmental information (18-044)

4.1 Significance

In the system according to an embodiment of the present invention, the hub device acquires environmental information and transmits the acquired environmental information to the control device, the control device acquires the environmental information and generates a control command in consideration of the environmental information, and the generated The control command may be transmitted to the hub device, and the hub device may generate and transmit a control signal for controlling the functional device to operate according to the control command based on the control command.

According to an embodiment of the present invention, a system including the above-described control device, hub device, and function device may be provided. Specific details of each device constituting the system may be applied similarly to those described above.

4.2 Method

13 is a flowchart illustrating a method of controlling a hub device according to an embodiment of the present invention. According to an embodiment of the present invention, a control for having an environmental sensor, communicating with an external device (eg, a server device or a control device) to receive a control command from an external device, and controlling at least one functional device A method of controlling a hub device that generates a signal may be provided.

In this embodiment, the functional device includes a first functional device and a second functional device, and the environmental sensor is a function of the first environmental sensor and the second functional device to obtain first environmental information related to the function of the first functional device. It may include a second environment sensor for obtaining the second environment information related to the.

Referring to FIG. 13 , in a method for controlling a hub device according to an embodiment of the present invention, the step of acquiring a first environment value (or environment information) and transmitting it to an external device (S110) includes at least one function from the external device. obtaining a first control command for controlling the device (S130), generating a first control signal for controlling a first function module of the first function device based on the first control command (S150), and The method may include outputting a first control signal so that the first function module of the one-function device operates according to the first control command ( S170 ).

The first functional device may be a lighting switch control device including a driving module for physically controlling the lighting switch including at least one button.

The driving module provides power to selectively drive the first and second projections and the first and second projections for turning on or off the lighting corresponding to the lighting switch by pressing one side and the other side of the button, respectively It may include a motor.

The first function device is a light switch control device applied to a light switch including at least one button, and the function module of the first function device selectively applies a force to one side and the other side of at least one button of the light switch It may be a driving module including a pair of protruding members for turning on or off the light and a motor for providing power to the protruding members.

The step of obtaining and transmitting the first environment information to the external device ( S110 ) may include obtaining the first environment information through the first environment sensor and transmitting the obtained first environment information to the external device.

The transmitting of the first environment information to the external device may include acquiring illuminance information of a space in which the hub device is provided through the first environment sensor and transmitting the obtained illuminance information to the external device.

The step of transmitting the first environment information to the external device further includes issuing the first environment information obtained through the first environment sensor to an external device that has subscribed to the first environment information through the MQTT protocol. can do.

In the step of obtaining the first control command for controlling the at least one functional device from the external device ( S130 ), the first control command may be generated in consideration of the first environment information.

The first control command may be generated in consideration of the first environment information and user identification information. In this case, the user identification information may mean user identification information of the user who provided the first control command. The first control command may be generated with reference to pattern data of the control command according to the first environment information acquired through the first environment sensor. Alternatively, the first control command may be generated in consideration of the acquired first environment information using a user pattern database in which at least one piece of user identification information and pattern data corresponding to each user identification information are stored.

In the step of obtaining the first control command ( S130 ), the external device obtains the first action from the user, and refers to the first environment information and user pattern data for the user, a predetermined time from the time the first action is obtained The method may further include acquiring a first control command for controlling the first functional device based on the first operation when the number of times the user action requesting control of the first functional device is obtained is equal to or greater than the reference number of times within the first function device. In this case, when the external device obtains the first action from the user, the external device (eg, a server device) communicates with a user terminal that obtains the user action, and obtains the first action through the user terminal. .

The obtaining of the first control command from the external device may include obtaining a first control command generated in consideration of the illuminance information and for controlling the lighting switch.

The step of generating a first control signal for controlling the first function module of the first function device based on the first control command ( S150 ) includes a control signal for controlling the first function device and a control signal for controlling the second function device. and generating a first control signal for controlling a first function module of the first function device based on a first control command by using a database in which a control signal is stored.

The generating of the first control signal ( S150 ) may include using a control signal database in which a control signal for controlling the first function device and a control signal for controlling the second function device are stored, based on the first control command. and generating a first control signal for controlling a first function module of the one-function device.

In the step of generating the first control signal ( S150 ), information on at least one control target function device included in the first control command is acquired, and a first function module of the first function device corresponding to the control target function device information is controlled. It may include generating a first control signal for

The generating of the first control signal may include generating a control signal for controlling a driving module of the light switch control device based on a first control command for controlling the light switch.

The step of outputting the first control signal so that the first function module of the first function device operates according to the first control command (S170) is a first control signal so that the driving module of the light switch control device operates according to the first control command may include outputting

Meanwhile, the first control command may be generated in the external device in order to further control the second functional device in consideration of user pattern data related to the operation of the first functional device. In this case, the generating of the first control signal may further include generating a second control signal for controlling the second function module of the second function device. In this case, the step of outputting the first control signal may further include outputting the second control signal so that the second function module of the second function device operates according to the second control command. The generating of the first control signal may further include generating a second control signal for controlling a second function module of the second function device corresponding to the control target function device information included in the first control command. .

As a specific example, according to the control method of the hub device according to an embodiment of the present invention, after obtaining a user action to change the TV power from off to on, the user action to control the lighting of the environment in which the TV is installed within a reference time is performed. When the acquired number exceeds the reference number of times, pattern data may be generated based on the correlation between the TV power control operation and the lighting control operation, and based on the pattern data, based on the user's operation to control the TV power , it may be possible to generate a control command for controlling the illuminance or lighting of the TV and the space in which the TV is installed.

In this case, the user pattern data considered may be motion pattern data of the first functional device, motion pattern data of the second functional device, and/or pattern data of user motion acquired from an external device.

The step of obtaining the first control command further includes obtaining a first control command through first wireless communication, and the step of outputting the first control signal includes outputting the first control signal through the second wireless communication. may include more. In this case, the first wireless communication and the second wireless communication may use different communication methods. Alternatively, the first wireless communication and the second wireless communication may use the same communication method but different communication ports or communication channels.

14 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. Figure 14 (A) shows the operation of the functional device according to an embodiment of the present invention, Figure 14 (B) shows the operation of the hub device according to an embodiment of the present invention, Figure 14 (C) represents the operation of the control device according to an embodiment of the present invention.

Referring to FIG. 14 , in the method of controlling a system according to an embodiment of the present invention, the hub device acquires an environment value (SB1), transmits the acquired environmental value to the control device (SB2), and the control device uses the environment value , generate a control command of the functional device based on the acquired environment value (SC1), and transmit the generated control command of the functional device to the hub device (SC2), and the hub device obtains the functional device control command, generating a control signal of the functional device based on (SB3) and outputting the control signal of the functional device (SB4), the functional device may operate SA1 based thereon.

The generation of the control command of the functional device based on the environment value is generated based on a pre-prepared environment value (or environment information) and operation data of the functional device, or a correlation between the environment value and control command data or the environment value and user operation data. It may include generating a control command by using the pattern data.

15 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. Figure 15 (A) shows the operation of the functional device according to an embodiment of the present invention, Figure 15 (B) shows the operation of the hub device according to an embodiment of the present invention, Figure 15 (C) shows an operation of a server device according to an embodiment of the present invention, and FIG. 15D shows an operation of a control device according to an embodiment of the present invention.

Referring to FIG. 15 , the hub device may obtain an environment value (SB1) and transmit the obtained environment value to the server device (SB2). The server device may acquire an environment value (SC1) and generate a control command for controlling the functional device based on the acquired environment value (SC2). In this case, the server device may generate a control command in consideration of a user action obtained through the control device (ie, the user terminal). The server device may transmit the generated control command to the hub device (SC3).

The hub device may obtain a control command, generate a control signal for controlling the functional device based on the obtained control command (SB3), and output the generated control signal (SB4). After outputting the control signal, the hub device may check whether the functional device is operating (SB5). In other words, after outputting a control signal for causing a specific target function device to operate, the hub device may detect whether the target function device properly operates according to the control signal. When the function device does not operate properly as a result of checking whether the hub device operates, the hub device may re-output (SB5) a pre-generated control signal. Alternatively, the hub device may regenerate and re-output a modified control signal different from the previously generated control signal. Thereafter, when the function device obtains the re-output control signal and operates (SA1) based thereon, the hub device may check the operation result (SB7) and transmit it to the server device. The server device may transmit the operation result obtained from the hub device to the control device (SC4), and the control device may display the operation result (SA1).

In the present embodiment, it has been described that the hub device checks whether the functional device operates, but the invention according to the present application is not limited thereto. For example, the hub device may acquire an environment value necessary for checking whether the functional device operates and transmit it to the server device, and the server device may check whether the functional device operates.

16 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. Figure 16 (A) shows the operation of the functional device according to the embodiment of the present invention, Figure 16 (B) shows the operation of the hub device according to the embodiment of the present invention, Figure 16 (C) represents the operation of the control device according to an embodiment of the present invention.

Referring to FIG. 16 , in the method of controlling a system according to an embodiment of the present invention, the hub device acquires an environment value (SB1), transmits the acquired environmental value to the control device (SB2), and the control device sets the environment Acquire a value (SC1), generate a control command of the functional device based on the acquired environment value (SC2), and transmit the generated control command of the functional device to the hub device (SC3), and the hub device sends a function device control command is obtained, generates a control signal of the functional device based on it (SB3), outputs the control signal of the functional device (SB4), and then, when the functional device operates according to the control signal (SA1), the hub device When the operation is confirmed (SB7) and the operation result of the functional device is transmitted to the control device, the control device may include displaying the operation result (SC4).

17 is a flowchart for explaining the operation of a system according to an embodiment of the present invention. Figure 17 (A) shows the operation of the functional device according to an embodiment of the present invention, Figure 17 (B) shows the operation of the hub device according to an embodiment of the present invention, Figure 17 (C) represents the operation of the control device according to an embodiment of the present invention.

Referring to FIG. 17 , in the method of controlling a system according to an embodiment of the present invention, the hub device acquires an environment value (SB1), transmits the acquired environmental value to the control device (SB2), and the control device sets the environment Acquire a value (SC1), generate a control command of the functional device based on the acquired environment value (SC2), and transmit the generated control command of the functional device to the hub device (SC3), and the hub device sends a function device control command After obtaining (SB3) the control signal of the functional device and outputting the control signal of the functional device (SB4), the hub device checks whether the functional device operates (SB5), and the generated control signal is re-output (SB6) and the function device operates according to the re-output signal (SA1), the hub device confirms the operation result of the function device (SB7) and transmits it to the control device, the control device displays or It may include output (SC4).

The hub device confirms whether the functional device operates (SB7) may be performed through a sensor module built into the hub device. For example, the hub device may check whether the power of the TV is turned on by outputting a signal for turning on the power of the TV and detecting a change in the audio signal through the microphone module. Alternatively, after outputting a control signal for controlling the power of the lighting device, the hub device may determine whether lighting control is performed through the illuminance sensor module.

Herein, the description has been made based on the case in which the hub device checks whether the functional device operates, but the present invention is not limited thereto. According to an embodiment of the present invention, the hub device provides information for checking whether the functional device operates. It is also possible to obtain and transmit to the control device (or the control device directly acquires information for confirming whether the functional device operates), and to determine whether the function device operates in the control device or a server communicating with the control device.

Displaying or outputting (SC4) the operation result of the functional device by the control device may be implemented by displaying the operation result on a display (eg, a push notification) or outputting the operation result by voice through a speaker.

In the above embodiments, only the case in which the operation result of the functional device by the output or re-output signal is output from the user terminal (ie, the control device) through a push notification, etc., but in various other cases, for example, abnormality in the functional device When this occurs, when an abnormal environmental change occurs, etc., the hub device detects it and transmits it to the control device, so that the control device may output the information through a push message or the like.

18 is a flowchart illustrating an operation of a system according to an embodiment of the present invention. 18(A), (B) and (C) respectively show the operation of the first functional device, the operation of the second functional device, and the operation of the hub device according to an embodiment of the present invention.

Referring to FIG. 18 , in the method of controlling a system according to an embodiment of the present invention, the hub device acquires a user's motion (SC1), and a first control signal for controlling a first functional device based on the user's motion and generating a second control signal for controlling the second function device (SC2), and outputting the first control signal and the second control signal (SC3) to operate the first function device and the second function device, the first function and operating SA1 and SB1 according to the control signal by the device and the second function device.

Specifically, the hub device obtains a control command for controlling the user's first functional device, and outputs a control signal for controlling the second functional device associated with the first functional device together or sequentially based on this. can

Operations described as being performed by the control device in the above embodiments may be implemented in a form directly or indirectly performed by the server device.

4.3 Apparatus performing the method

According to an embodiment of the present invention, there may be provided a hub device that receives a control command from a user terminal and outputs a control signal for controlling at least one functional device. The functional device may include a first functional device and a second functional device. The functional device may be a lighting switch control device including a driving module for physically controlling the lighting switch including at least one button.

As described above with reference to FIG. 4 , the hub device 200 according to an embodiment of the present invention may include an environment sensor unit 210 , a communication unit 230 , a signal unit 250 , and a control unit 270 . can

The environment sensor unit 210 may include a first environment sensor for obtaining first environment information related to the function of the first functional device and a second environment sensor for obtaining second environment information related to the function of the second function device. have.

The communication unit 230 may output or acquire a signal to communicate with an external device. According to an embodiment of the present invention, the communication unit 230 may include a first communication unit performing first communication and a second communication unit performing second communication. The first communication unit and the second communication unit may be a first wireless communication unit and/or a second wireless communication unit, respectively.

In this case, the control unit may obtain a control command (including the first control command) from the control device through the first communication unit. The control unit may output a control signal (including the first control signal) for controlling the operation of the functional device through the second communication unit. In this case, the first wireless communication and the second wireless communication may use different communication methods. Alternatively, the first wireless communication and the second wireless communication may use the same communication method but different communication ports or communication channels.

The signal unit 250 may generate a control signal for controlling at least one functional device. In this case, the at least one functional device may include a first functional device and a second functional device.

The controller 270 may obtain the first environment information through the first environment sensor and transmit the obtained first environment information to the user terminal. The transmitting of the first environment information to the user terminal may further include issuing the first environment information obtained through the first environment sensor to the user terminal that has subscribed to the first environment information through the MQTT protocol. can

The control unit 270 may obtain a first control command for controlling at least one functional device from the user terminal through the communication unit 230 . The first control command may be generated in consideration of the first environment information.

The control unit 270 uses a control signal database in which a control signal for controlling the first function device and a control signal for controlling the second function device are stored, and based on the first control command, the first function of the first function device A first control signal for controlling the module may be generated.

The control unit 270 obtains information on at least one control target function device included in the first control command, and controls a first function module of the first function device corresponding to the control target function device information based on the first control command. It is possible to generate a first control signal for

The first control command may be generated in consideration of the first environment information and user identification information (ie, user identification information of the user who provided the first control command). The first control command may be generated with reference to pattern data of the control command according to the first environment information acquired through the first environment sensor. The first control command may be generated by using a user pattern database in which at least one piece of user identification information and pattern data corresponding to each user identification information are stored, and taking the obtained first environment information into account.

Acquiring the first control command includes: the user terminal acquires the first action from the user, refers to the first environment information and user pattern data for the user, and refers to the first function within a predetermined time from the time the first action is obtained The method may further include obtaining a first control command for controlling the first functional device based on the first operation when the number of times the user action requesting control of the device is obtained is equal to or greater than the reference number of times.

The control unit 270 may output a first control signal through the communication unit 230 so that the first function module of the first function device operates according to the first control command.

According to an embodiment of the present invention, the first functional device may be a lighting switch control device including a driving module for physically controlling the lighting switch including at least one button. At this time, the driving module presses one side and the other side of the button, respectively, to turn on or turn off the light corresponding to the light switch, and the first and second protrusions and the first protrusions and the second protrusions are driven to selectively drive power. It may include a motor to provide.

Alternatively, the first function device is a light switch control device applied to a light switch including at least one button, and the function module of the first function device selectively forces the at least one button on one side and the other side of the light switch It may be a driving module including a pair of protruding members for turning on or off lighting by operating the , and a motor providing power to the protruding members.

According to an embodiment of the present invention, transmitting the first environment information to the user terminal includes acquiring the illuminance information of the space in which the hub device is provided through the first environment sensor and transmitting the obtained illuminance information to the user terminal. may include In this case, obtaining the first control command from the user terminal may include obtaining a first control command for controlling the light switch generated in consideration of the illuminance information. Generating the first control signal may include generating a control signal for controlling a driving module of the lighting switch control device based on a first control command for controlling the lighting switch. Transmitting the first control signal to the first function device may include transmitting the first control signal to the first function device so that the driving module of the lighting switch control device operates according to the first control command.

According to an embodiment of the present invention, the first control command is generated in the user terminal in order to control the second functional device in consideration of user pattern data related to the operation of the first functional device, and generating the first control signal The method further includes generating a second control signal for controlling a second function module of the second function device, wherein the outputting the first control signal includes: the second function module of the second function device according to the second control command The method may further include outputting a second control signal to operate. The second functional device may correspond to control target functional device information included in the first control command.

Meanwhile, obtaining the first control command further includes obtaining a first control command through first wireless communication, and outputting the first control signal includes outputting the first control signal through second wireless communication. may include more. In this case, the first wireless communication and the second wireless communication may use different communication methods. Alternatively, the first wireless communication and the second wireless communication may use the same communication method but different communication ports or communication channels.

5. Embodiment 2: Motion Aid Process (18-045)

5.1 Significance

According to an embodiment of the present invention, a method of controlling a hub device or a control method of a control device for assisting a user operation may be provided. According to the present embodiment, by predicting or assisting a user's motion based on pattern data, an optimized service may be provided to the user.

Hereinafter, a control method, apparatus, and the like for assisting in the determination of the target operation will be described. The target operation described herein may be an operation of a user (eg, a touch operation, a voice command, a device control operation) or an operation of a control device, a hub device, or a function device induced by a user.

5.2 Method

A method for controlling a hub device according to an embodiment of the present invention includes receiving a first control command from a control device (eg, a server device or a user terminal) for requesting control of the first functional device so that the first functional device performs a target operation. The method may include acquiring, generating a first control signal for controlling the first functional device to perform a target operation based on the first control command, and outputting the first control signal.

In this case, the target operation is performed by the user in consideration of the first operation, which is the user's operation in which the user terminal outputs the first object group and selects at least one object from the first object group by the control device. When it is determined that the target action is determinable by the first determination of whether the target action, which is the intended action to be performed, is determinable, it is determined in consideration of the first action, and if the target action is not determined by the first determination, the user terminal It may be determined by obtaining a second operation of the user that is performed after the first operation and selects any one object from the second object group, and taking the second operation into consideration.

19 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention. According to an embodiment of the present invention, a control command for communicating with a user terminal for outputting a plurality of selectable objects and obtaining a user's operation for selecting at least one object among the plurality of objects and for controlling at least one functional device As a control method of a control device for generating a , a control method of a control device for assisting a user in an operation for controlling at least one functional device may be provided. In this embodiment, the control device may be understood as a server device.

Referring to FIG. 19 , in the method of controlling a control device according to an embodiment of the present invention, a first determination for determining whether a target operation is determined in consideration of a step of acquiring a first operation ( S210 ), and the first operation is performed. performing the step (S220), determining the target action in consideration of the first action when the target action can be determined (S231), and when the target action cannot be determined, the step of obtaining the second action performed after the first action (S231) S241), determining the target operation in consideration of the second operation (S243), and transmitting a first control command for the first functional device to perform the determined target operation to the hub device (S250) .

The target operation may be determined in consideration of user identification information and environment information related to a functional element of at least one functional device. The environment information may be obtained through the hub device. That is, the environment information may be acquired through a sensor built into the hub device. The hub device may acquire user environment information and transmit it to the control device, obtain a control command from the control device, and output a control signal for controlling the functional device based on the acquired control command.

The step of obtaining the first operation ( S210 ) may include, by the control device, outputting the first object group through the user terminal, and obtaining the first operation of the user selecting at least one object from the first object group. have.

In the step S220 of performing a first determination of whether or not the target operation is determined in consideration of the first operation ( S220 ), in consideration of the first operation, the user determines whether the target operation, which is an intended operation for the first functional device, can be determined. The method may include performing a first determination to determine whether or not, and the target operation may be an operation of a functional device corresponding to any one object included in a second object group output from the user terminal according to the first operation.

Whether the target operation is determinable may be determined in consideration of user pattern information including user selection information for a plurality of objects according to user's environment information. Alternatively, determining whether the target action is determinable may include determining the performance possibility of the first target action and determining whether the performance possibility of the first target action exceeds a threshold.

The possibility of performing the target operation may be determined based on the above-described pattern data. For example, the determination of whether or not the target action is determined is based on the above-described pattern data when the frequency (or number of times) that the first target action is performed after the previously performed action is equal to or greater than the reference frequency (or greater than or equal to the reference number) It may include determining that the target action is determinable as the first target action.

As a more specific example, when a specific environmental value (eg, a specific time and/or a specific illuminance) is obtained, an operation of requesting control of a user's lighting device or a switch control device for controlling the lighting device (hereinafter, a lighting control operation) ) is obtained above the reference frequency, pattern data associated with the user's lighting control operation for a specific environmental value may be generated. At this time, the control method of the control device according to an embodiment of the present invention can determine whether a lighting control operation as a target operation when a specific environmental value is obtained (or when a specific environmental condition is satisfied) using such pattern data. can determine whether

If the target action is determinable, the step of determining the target action in consideration of the first action ( S231 ) is when, when it is determined that the target action is determinable by the first determination, the control device determines the target action in consideration of the first action. may include

As a more specific example, when it is determined that the target operation can be determined based on the pattern data, the control method of the control device according to an embodiment of the present invention determines the lighting control operation as the target operation, and the determined operation is obtained. A boa control command (eg, a lighting control command) may be generated or a notification for notifying the performance of a lighting control operation may be output, or a message to request confirmation of performing a lighting control operation may be output. In other words, an operation predicted based on the pattern data may be determined and performed as a target operation.

If the target action cannot be determined, obtaining the second action performed after the first action (S24) and determining the target action in consideration of the second action (S243) is performed if the target action is not determined by the first determination, and obtaining, by the control device, a second operation of the user that is performed after the first operation through the user terminal and selects any one object from the second object group, and determining the target operation in consideration of the second operation. .

As a more specific example, when the target operation is not determined based on the pattern data, the control method of the control apparatus according to an embodiment of the present invention acquires a subsequent user operation, that is, a second user operation, and performs the second user operation. An object selected by, for example, an operation corresponding to an object corresponding to a lighting control operation, for example, a lighting control operation may be a target operation. In other words, an operation indicated by a user operation may be determined as a target operation.

In the step S250 of transmitting a first control command for causing the first functional device to perform the determined target operation to the hub device ( S250 ), the control device generates a first control command for controlling the first functional device to perform the determined target operation. may include doing

According to an embodiment of the present invention, the determining of the target operation in consideration of the first operation may further include performing a pre-operation that essentially precedes the determined target operation. In this case, the pre-operation may include that the control device establishes a communication connection with the first functional device. The control device communicates with the hub device in communication with the at least one functional device, and the pre-operation may include requesting the hub device to establish a communication connection between the hub device and the first functional device.

More specifically, when the operation of controlling the lighting control device or the switch control device for controlling the lighting control device is determined as the target operation based on the pattern data, the control device establishes a communication connection between the lighting control device or the switch control device. can be formed

The communication connection may directly or indirectly connect the control device and the lighting control device or the switch control device. For example, the communication connection may be a communication connection between the control device and the lighting control device or switch control device. Alternatively, the communication connection may be a communication connection between the hub device connected to the control device and the lighting control device or switch control device.

The communication connection may be a wireless communication connection. For example, the communication connection may be a short-range wireless communication connection such as NFC or Bluetooth.

According to an embodiment of the present invention, the determining of the target operation in consideration of the second operation may further include performing a pre-operation that essentially precedes the determined target operation. For example, the control method according to an embodiment of the present invention may include acquiring a second operation requesting control of the first functional device and establishing a communication connection with the first functional device.

Specifically, the control method according to an embodiment of the present invention obtains a user action requesting (directly) control of a lighting control device or a switch control device, and establishes a communication connection with the device as a pre-operation. may include

20 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention. According to an embodiment of the present invention, at least one for communicating with a user terminal for outputting a plurality of selectable objects and obtaining a user's operation for selecting at least one object among the plurality of objects and for controlling at least one functional device A method of controlling a control device for generating a control command for controlling a functional device of a control device for assisting a user in an operation for controlling at least one functional device may be provided. In this embodiment, the control device may be understood as a server device.

Referring to FIG. 20 , the method of controlling a control apparatus according to an embodiment of the present invention includes the steps of acquiring a first operation ( S310 ), and acquiring a possibility that the target operation is the first target operation in consideration of the first operation (S320), determining whether the obtained probability exceeds the first threshold (S330), performing a pre-operation if the probability exceeds the first threshold and determining the first target operation as the target operation (S340), If the probability is less than or equal to the first threshold, acquiring a second operation as a subsequent operation (S351), determining the second target operation as the target operation in consideration of the second operation (S353), and the target operation for which the first functional device is determined It may include generating a first control command to perform (S360).

In the step of obtaining the first operation ( S310 ), the control device outputs the first object group through the user terminal, obtains the user's first operation of selecting at least one object from the first object group, and performs the first operation and acquiring a possibility that the target action, which is an action intended for the functional device by the user, is the first target action of the first functional device in consideration of the user environment information.

The target operation may be an operation of a functional device corresponding to any one object included in the second object group output from the user terminal according to the first operation or an operation of requesting control of the functional device.

More specifically, the control device may be a user terminal having a touch display and displaying a plurality of objects (eg, icons). In this case, as an example of the first user action, the control device may obtain a touch event by a user who displays an object of the first group and selects an application capable of controlling a plurality of functional devices.

In this case, the target operation is applied to one object (eg, an operation control selection icon or link of the first functional device) among the objects of the second group (eg, a list of functional devices) displayed on the display according to the user operation for selecting the above-described application. It may be an operation corresponding directly/indirectly. For example, the target operation may be a power on or off operation of the first functional device.

In consideration of the first operation, obtaining a possibility that the target operation, which is an intended action for the first functional device, is the first target operation ( S320 ) includes the user pattern data prepared based on the user's operation information according to the user environment information. It may further include obtaining the possibility of performing the target operation by referring to it.

The step of determining whether the obtained probability exceeds the first threshold ( S330 ) may include determining whether the frequency or number of acquisitions of the first target operation exceeds a reference value based on pre-prepared pattern data.

When the obtained probability exceeds the first threshold, performing the pre-operation and determining the first target action as the target action ( S340 ) is the probability of exceeding the first threshold when the obtained probability exceeds the first threshold It may include performing a pre-operation that necessarily precedes the first target operation having , and determining the first target operation as the target operation in consideration of the first operation.

The pre-operation may include the control device establishing a communication connection with the first functional device. In this case, the third target operation is a target operation performed by the third functional device, and the control method according to an embodiment of the present invention maintains a communication connection when the third functional device is the same as the first functional device, and The method may further include requesting disconnection of the communication connection when the three functional device is different from the first functional device.

Alternatively, the control device may communicate with the hub device communicating with the at least one functional device, and the pre-operation may include the control device requesting the hub device to establish a communication connection between the hub device and the first functional device.

The step of determining the second target motion as the target motion in consideration of the second motion ( S353 ) is performed after the first motion through the user terminal when the obtained probability is less than or equal to the first threshold, and is performed on an object of any one of the second object groups. It may include acquiring a second action of the user who selects , and determining the second target action as the target action in consideration of the second action.

In the step S353 of determining the second target motion as the target motion in consideration of the second motion, the determined second target motion is determined in consideration of the second motion, and a second pre-operation essential for the determined second target motion is performed. may include more.

More specifically, in the control method according to an embodiment of the present invention, a control device having a touch display displays a second object group including a list of a plurality of functional devices, is included in the second object group, and the second object group is included in the second object group. determining, as the target motion, the second target motion as the target motion, based on a user's touch motion selecting an object corresponding to a control motion of the second functional device (which may be the same as or different from the first functional device) can At this time, as a preliminary operation, the establishment of a communication connection between the second function device and the control device may be performed.

According to an embodiment of the present invention, the functional device is a lighting switch control device including a driving module for physically controlling a lighting switch including at least one button, and the target operation is that the lighting switch control device is at least one of the lighting switches. It may include toggling at least one button among the one button.

Meanwhile, although the above embodiments have been described based on a case in which the target action is performed when the target action is determined, the present invention is not limited thereto, and the control method according to the present invention provides a push notification for performing the target action of the determined target action. It may be implemented to perform the target action after the user's confirmation by outputting a notification or generating a shortcut key of a command to perform the target action. These contents may be changed according to the performance possibility of the target operation, user settings, and the like.

In addition, although the above embodiment has been described based on a case in which the possibility that the target action, which is the intended action for the functional device, is the first target action of the first functional device is obtained, the present invention is not limited thereto.

For example, the control method of the control device according to another embodiment of the present invention may include determining the possibility of a target operation for each of a plurality of operations, and determining the most likely operation as the target operation.

21 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention. Specifically, in the control method of the control device described with reference to FIG. 20 , when the likelihood exceeds the first threshold, the step ( S340 ) of performing a pre-operation and determining the first target action as the target action will be described in more detail. It is a drawing for

Referring to FIG. 21 , the method for controlling a control device according to an embodiment of the present invention includes performing a pre-operation ( S341 ), determining whether the obtained probability exceeds a second threshold greater than a first threshold ( S341 ) S342), determining the first target action as the target action in consideration of the first action when the likelihood exceeds the second threshold (S343), is performed after the first action through the user terminal if the likelihood is less than or equal to the second threshold The method may include obtaining a third action of the user who selects one of the second object groups ( S344 ) and determining a third target action as the target action by considering the third action ( S345 ).

22 is a flowchart illustrating a control method of a control device according to an embodiment of the present invention.

Referring to FIG. 22 , in the method of controlling a control apparatus according to an embodiment of the present invention, obtaining a user's first action ( S410 ), obtaining a possibility that the target action is the first target action in consideration of the first action It may include a step (S420) of determining the section including the obtained possibility (S430). S410 and S420 may be implemented similarly to S310 and S320 described above with reference to FIG. 20 .

Referring to FIG. 22 , in the control method of the control apparatus according to an embodiment of the present invention, when the acquired probability is included in the first section, obtaining the second action as a subsequent action ( S461 ), the second action In consideration of the above, the steps of determining a first target action (or a second target action different from the first target action) as the target action ( S463 ) and performing a pre-operation of the first target action ( S465 ) may be included.

When the possibility belongs to the first section, it is determined that the first target motion is not the target motion with a high probability, and the target motion may be determined and a pre-action may be performed based on the user's motion without considering the pattern data. Accordingly, it is possible to minimize the error in determining the target operation.

Referring to FIG. 22 , in the method of controlling a control apparatus according to an embodiment of the present invention, when the acquired probability is included in the second section, performing a pre-operation ( S451 ), and acquiring a third operation as a subsequent operation and determining the first target operation as the target operation in consideration of the step S453 and the step S455 of the third operation.

If the possibility belongs to the second section, there is a possibility that the first target motion is the target motion, but it is considered that the certainty is insufficient, so the pre-operation of the first target motion determined based on the pattern data is performed first, so that the first target motion is the target In the case of a motion, it is possible to improve the operation speed, receive a third motion input from the user to designate a target motion or increase the degree of determination of the target motion, that is, a third motion, and perform the target motion determined based thereon. Accordingly, it is possible to improve the accuracy of determining the target operation while simultaneously improving the processing speed.

Referring to FIG. 22 , in the control method of the control device according to an embodiment of the present invention, when the obtained probability is included in the third section, the first target motion is determined as the target motion in consideration of the first motion, and a preliminary operation is performed. It may include a step of performing (S440).

If the possibility belongs to the third section, it is considered that the probability that the first target motion is the target motion is sufficient, so that a pre-operation of the first target motion determined based on the pattern data may be performed and the first target motion may be determined as the target motion. have. Accordingly, user convenience can be maximized.

Referring to FIG. 22 , the method of controlling a control device according to an embodiment of the present invention may further include generating a first control command for causing the first functional device to perform a determined target operation ( S470 ).

5.3 Apparatus performing the method

According to an embodiment of the present invention, a user terminal for obtaining a user action, a server device for generating a control command, a hub device for generating a control signal by obtaining a control command from the server device, and at least one operating according to the control signal A hub device included in a system including a functional device may be provided.

The hub device includes a communication unit that communicates with an external device including a server device and at least one functional device, a signal unit that generates a control signal for controlling the at least one functional device, and a communication unit that allows the first functional device to communicate with the server device. Obtaining a first control command for requesting control of the first functional device to perform the target operation, and generating a first control signal for controlling the first functional device to perform the target operation based on the first control command through the signal unit and a control unit for outputting the first control signal through the communication unit.

In this case, the target operation is performed by the user in consideration of the first operation, which is the user's operation in which the server device outputs the first object group through the user terminal and selects at least one object from the first object group. When it is determined that the target action is determinable by the first determination of whether the target action that is the intended action to be performed is determinable, it is determined in consideration of the first action, and if the target action is not determined by the first determination, the server device is performed after the first operation through the user terminal, obtains a second operation of the user to select any one object from the second object group, and may be determined in consideration of the second operation.

The communication unit may include a first communication unit and a second communication unit, the first communication unit may perform first wireless communication, and the second communication unit may perform second wireless communication different from the first wireless communication. In this case, the first wireless communication and the second wireless communication may use different channels according to different communication methods or as the same communication method.

In the above embodiment, if it is determined that the target action is determinable by the first determination, determining the target action in consideration of the first action may further include performing a pre-operation that essentially precedes the determined target action. .

The pre-operation may include the server device establishing a communication connection with the first functional device. Alternatively, the server device may communicate with a hub device that communicates with the at least one functional device, and the pre-operation may include requesting the hub device to establish a communication connection between the hub device and the first functional device.

According to another embodiment of the present invention, a control device generating a control command by communicating with a user terminal acquiring a user operation, a hub device generating a control signal by acquiring a control command from the control device, and operating according to the control signal A control device (ie, a server device) included in a system including at least one functional device may be provided.

A server device according to an embodiment of the present invention outputs a first object group through a user action obtaining unit obtaining a user motion, a communication unit communicating with an external device including a hub device, and a user action obtaining unit, and selecting one of the first object groups. Acquire a first action of the user to select at least one object, and perform a first determination of whether a target action that is an action intended for the first functional device by the user is determinable in consideration of the first action and - the target action is an action of a functional device corresponding to any one object included in the second object group output from the user terminal according to the first action - If it is determined that the target action is determinable by the first determination, If the server device determines the target motion in consideration of the first operation, and the target motion is not determined by the first determination, the server device performs the first operation after the first operation through the user terminal and selects any one object from the second object group. and a control unit configured to obtain a second action of a user who selects, determine a target action in consideration of the second action, and generate a first control command for controlling the server device to control the first functional device to perform the determined target action can do.

In this case, determining the target operation in consideration of the first operation may further include performing a pre-operation that necessarily precedes the determined target operation.

The pre-operation may include the server device establishing a communication connection with the first functional device.

The server device communicates with the hub device in communication with the at least one functional device, and the pre-operation may include requesting the hub device to establish a communication connection between the hub device and the first functional device.

Whether the target operation can be determined may be determined in consideration of user pattern information including user selection information for a plurality of objects according to user's environment information.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in a different order than the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (28)

In a system comprising: a user terminal acquiring a user operation, a server device generating a control command, a hub device generating a control signal by acquiring a control command from the server device, and at least one functional device operating according to the control signal In the hub device included,
a communication unit communicating with an external device including the server device and the at least one functional device;
a signal unit generating a control signal for controlling the at least one functional device; and
obtains a first control command for requesting control of the first functional device so that the first functional device performs a target operation from the server device through the communication unit, and receives the first control command based on the first control command through the signal unit a control unit generating a first control signal for controlling a one-function device to perform the target operation, and outputting the first control signal through the communication unit; including,
The target operation may be performed by the user in consideration of a first operation of the server device outputting a first object group through the user terminal and selecting at least one object from the first object group. When it is determined that the target operation is determinable by a first determination of whether a target operation, which is an intended action to be performed by the one-function device, is determinable, it is determined in consideration of the first operation, and the purpose is determined by the first determination If the operation is not determined, the server device acquires a second operation of the user of selecting any one object from a second object group that is performed after the first operation through the user terminal and is different from the first object, and the second operation is performed through the user terminal. 2 It is decided in consideration of the motion,
In response to the first determination, if the target operation can be determined, the control unit further includes performing a pre-operation related to the target operation and the first functional device.
hub device.
According to claim 1,
The communication unit includes a first communication unit and a second communication unit, the first communication unit performs first wireless communication with the server device, and the second communication unit is different from the first wireless communication with the at least one functional device performing a second wireless communication
hub device.
delete According to claim 1,
wherein the server device communicates with the hub device, and the pre-operation includes establishing a communication connection between the hub device and the first function device.
hub device.
According to claim 1,
The server device generates the control command based on the user action obtained from the user terminal,
hub device.
A control method of a control device for generating a control command for controlling at least one functional device and communicating with a user terminal that outputs a plurality of selectable objects and obtains a user's operation of selecting at least one object among the plurality of objects In the control method of the control device for assisting the user's operation for controlling the at least one functional device,
outputting a first object group through the user terminal and obtaining a first operation of the user to select at least one object from the first object group;
performing a first determination to determine whether a target operation, which is an operation intended for the first functional device, to be performed by the user in consideration of the first operation - the target operation is determined according to the first operation operation of the functional device corresponding to any one object included in the second object group output from the user terminal;
determining the target action in consideration of the first action when it is determined that the target action is determinable according to the first determination; and
If the target operation is not determined by the first determination, a second operation of the user that is performed after the first operation and selects any one object from the second object group is obtained through the user terminal, determining the target operation in consideration of a second operation; and
generating a first control command for controlling the first functional device to perform the determined target operation;
When it is determined that the target action is determinable, the method further comprising performing a pre-action essentially preceding the determined target action.
The control method of the control device.
delete 7. The method of claim 6,
The pre-operation includes the control device establishing a communication connection with the first functional device.
The control method of the control device.
9. The method of claim 8,
the control device communicates with a hub device that communicates with the at least one functional device;
The pre-operation comprises requesting the hub device to establish a communication connection between the hub device and the first functional device.
The control method of the control device.
7. The method of claim 6,
The determining of the target operation in consideration of the second operation further includes performing a pre-operation that essentially precedes the determined target operation.
The control method of the control device.
7. The method of claim 6,
The target operation is determined in consideration of the user's identification information and environment information related to the functional element of the at least one functional device,
The control method of the control device.
12. The method of claim 11,
Whether the target operation can be determined is determined in consideration of user pattern information including selection information of the user for the plurality of objects according to the environment information of the user,
The control method of the control device.
13. The method of claim 12,
The environment information is obtained through a hub device,
The control method of the control device.
14. The method of claim 13

the hub device acquires the user environment information and transmits it to the control device, obtains the control command from the control device, and outputs a control signal for controlling the functional device based on the acquired control command;
The control method of the control device.
7. The method of claim 6,
Determining whether the target action is determinable includes determining the possibility of performing the first target action and determining whether the performance possibility of the first target action is greater than or equal to a threshold
The control method of the control device.
A control device that communicates with a user terminal that outputs a plurality of objects and obtains a user action and generates a control command for controlling at least one functional device, a hub device that generates a control signal by acquiring a control command from the control device, and In the control device included in a system comprising at least one functional device operating according to the control signal,
a communication unit communicating with an external device including the user terminal and the hub device; and
Through the user terminal, output a first object group and obtain a first operation of the user to select at least one object from the first object group,
performing a first determination of whether or not a target action, which is an action to be performed by the user on a first functional device, is determinable in consideration of the first action, wherein the target action is determined by the user according to the first action operation of the functional device corresponding to any one object included in the second object group output from the terminal;
If it is determined that the target action is determinable by the first determination, the target action is determined in consideration of the first action,
If the target operation is not determined by the first determination, a second operation of the user that is performed after the first operation and selects any one object from the second object group is obtained through the user terminal, determining the target operation in consideration of the second operation,
a control unit generating, by the control device, a first control command for controlling the first functional device to perform the determined target operation; including,
In response to the first determination, if it is determined that the target operation is determinable, the control unit further includes performing a pre-operation related to the target operation and the first functional device.
controller.
delete 17. The method of claim 16,
The pre-operation includes the control device establishing a communication connection with the first functional device.
controller.
17. The method of claim 16,
the control device communicates with a hub device that communicates with the at least one functional device;
The pre-operation comprises requesting the hub device to establish a communication connection between the hub device and the first functional device.
controller.
17. The method of claim 16,
The target operation is determined in consideration of the user's identification information and environment information related to the functional element of the at least one functional device,
Whether the target operation can be determined is determined in consideration of user pattern information including selection information of the user for the plurality of objects according to the environment information of the user,
controller.
Outputs a plurality of selectable objects and generates a control command for communicating with a user terminal that obtains a user's action of selecting at least one of the plurality of objects and controlling the at least one functional device based on the user action A control method of a control device for assisting the user in an operation for controlling the at least one functional device, the control method comprising:
Outputting a first object group through the user terminal and obtaining a first action of the user to select at least one object from the first object group, and taking the first action and user environment information into consideration Acquiring a possibility that a target action, which is an action intended for a functional device, is a first target action of a first functional device - the target action is included in a second object group output from the user terminal according to the first action operation of the functional device corresponding to any one object;
determining whether the obtained probability exceeds a first threshold;
When the obtained probability exceeds the first threshold, a pre-operation essentially preceding the first target operation having a possibility of exceeding the first threshold is performed, and taking the first operation into consideration, the first objective determining an action as the target action;
When the obtained probability is less than or equal to the first threshold, a second operation of the user that is performed after the first operation through the user terminal and selects any one object from the second object group is obtained, and the second operation is performed through the user terminal. determining a second target motion as the target motion in consideration of the motion; and
generating a control command for controlling the functional device to perform the determined target operation; containing
The control method of the control device.
22. The method of claim 21,
The step of determining the first target action as the target action in consideration of the first action includes:
performing the pre-operation;
determining whether the obtained probability exceeds a second threshold greater than the first threshold;
determining the target action in consideration of the first action when the obtained probability exceeds the second threshold; and
When the obtained probability is less than or equal to the second threshold, a third operation of the user of selecting any one object from the second object group is obtained through the user terminal after the first operation, and the third operation is performed through the user terminal. determining a third target motion determined in consideration of the motion as the target motion; containing
The control method of the control device.
23. The method of claim 22,
The pre-operation includes the control device establishing a communication connection with the first functional device.
The control method of the control device.
24. The method of claim 23,
The third operation is a target operation performed by a third functional device,
The control method is
maintaining the communication connection when the third functional device is the same as the first functional device, and requesting interruption of the communication connection when the third functional device is different from the first functional device; further comprising,
The control method of the control device.
22. The method of claim 21,
the control device communicates with a hub device that communicates with the at least one functional device;
The pre-operation includes the control device requesting the hub device to establish a communication connection between the hub device and the first function device,
The control method of the control device.
22. The method of claim 21,
The determining of the second target motion as the target motion in consideration of the second motion may include determining the determined second target motion in consideration of the second motion, and a second pre-action essential to the determined second target motion. further comprising performing
The control method of the control device.
22. The method of claim 21,
Acquiring the possibility that the target action, which is the intended action for the first functional device, is the first target action,
Further comprising obtaining the possibility of performing the target operation with reference to user pattern data prepared based on the user's operation information according to the user environment information,
The control method of the control device.
22. The method of claim 21,
The functional device is a lighting switch control device including a driving module for physically controlling a lighting switch including at least one button,
The object operation comprises that the light switch control device toggles at least one button of the at least one button of the light switch
The control method of the control device.

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