KR101624360B1 - System for controlling automatically indoor surroundings with using sensor - Google Patents

Abstract

The present invention relates to a system for automatically controlling an indoor environment device for controlling an indoor environment by using a plurality of sensors located indoors. According to the embodiment of the present invention, the indoor environment of all or a part of the indoor area of the room can be automatically created according to the state of the user located per unit area. In addition, according to the embodiment of the present invention, an indoor environment can be created in accordance with the user's tendency and needs without manual control of the user.

Description

TECHNICAL FIELD [0001] The present invention relates to an indoor environment control system using a sensor,

The present invention relates to a system for controlling an indoor environment, and more particularly, to a system for automatically controlling an indoor environment device for controlling an indoor environment using a plurality of sensors located in a room.

The conventional indoor environment control system interlocks with a plurality of indoor environment devices based on the ubiquitous home network technology, with a specific IP for allowing the user to control from the outside. Therefore, the conventional indoor environment control system generally needs to be controlled by the user in a wired or wireless manner, or the indoor environment is controlled by a predetermined procedure.

In addition, since the conventional indoor environment control system is mainly controlled by the indoor unit or by the indoor environment equipment (such as fluorescent lamp, heating, etc.), it may be insufficient to form detailed environment for each unit area.

For example, in a study space such as a library, even though a limited number of users are located in each unit area (such as a desk), the indoor environment control system may be a room environment device corresponding to the entire study space Fluorescent lamps, heating appliances, etc.) or specific indoor environmental appliances (such as cooling appliances). In this case, since the indoor environment devices operate all over the space where the user is not located, energy may be wasted.

The indoor environment corresponding to at least one or more unit areas is automatically controlled by detecting the user information for each unit area of the room, and the indoor environment of all or some unit areas of the room is automatically An indoor environment automatic control system using a sensor that can be provided is provided.

There is provided an indoor environment automatic control system using a sensor capable of creating an indoor environment according to a user's tendency and need without manually controlling the user by controlling the indoor environment equipment by analyzing information about the user located in the room.

According to an aspect of the present invention, there is provided a system for automatically controlling an indoor environment using a sensor, the system comprising: at least one sensor for detecting status information of a user in a unit area of the room; And a control unit for controlling the indoor environment equipment corresponding to at least one of the unit areas based on the received information.

According to another aspect of the present invention, there is provided an automatic indoor environment control system using a sensor, comprising: a storage device for storing identification information and profiles of at least one user; at least one sensor for detecting identification information of an arbitrary user located in the room; And a controller for analyzing a profile of a user corresponding to the detected identification information and controlling at least one indoor environmental appliance in the room according to the analysis result.

According to the embodiment of the present invention, the indoor environment automatic control system can provide the optimal environment for the user limited in some spaces and reduce the energy loss through the control of the indoor environment device for each unit area of the room.

In addition, according to the embodiment of the present invention, the indoor environment automatic control system can automatically create an indoor environment suitable for the user's tendency by using the profile of the user.

1 is a view showing a configuration of an indoor environment automatic control system according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
3 is a view illustrating an operation of an indoor environment automatic control system according to an embodiment of the present invention.
4 to 8 are views showing an example of detailed operation of an indoor environment automatic control system according to an embodiment of the present invention.
9 is a view showing an operation of an indoor environment automatic control system according to another example of the present invention.
10 is a view showing an example of detailed operation of an indoor environment automatic control system according to another example of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a system for automatically controlling an indoor environment according to an embodiment of the present invention.

1, the indoor environment automatic control system includes one or more sensors 100-1 to 100-4, a controller 110, a storage device 120, and one or more indoor environment devices 130 to 134 .

The sensors 100-1 to 100-4 are installed at specific positions in at least one unit area or indoors of the room, and detect the state information of the surrounding users. The sensors 100-1 to 100-4 may be at least one of an infrared temperature sensor, a CDC sensor, an RFID communication module, and a Zigbee communication module. The user's state information may include at least one of the presence or absence of the user, the number, the identification information, the body temperature, the ambient temperature, and the motion information.

The storage device 120 may be implemented as a storage medium such as a ROM (Read Only Memory), a Flash memory, and a RAM (Random Access Memory). The storage device 120 stores a program for controlling the indoor environment devices of the control device 110 and various setting data.

The control device 110 controls one or more indoor environmental devices 130 to 134 corresponding to at least one of the unit areas based on the state information detected by the sensors 100-1 to 100-4.

Here, the indoor environment devices 130 to 134 are to create an indoor environment (such as an environment according to the amount of light, an environment according to temperature, an auditory environment, a visual environment, a cleanliness of the room, etc.) , A display device, a sound device, a cleaning device (such as an automatic robot cleaner), and a fragrance providing device (such as a device equipped with a perfume).

The indoor environment devices 130 to 134 may be installed at specific locations in the room such as the indoor environment device A 130 (for example, a heating device) To B-4 (131 to 134) (such as a lighting device, a display device, and the like), the environment for each unit area can be separately provided.

Therefore, the control device 110 analyzes the state information of the sensors 100-1 to 100-4, and controls the indoor environment devices corresponding to one or more unit areas according to the analysis result.

More specifically, the control device 110 detects the unit area in which the user is located based on the state information of the sensors 100-1 to 100-4, and detects the indoor environment devices 130 to 134 corresponding to the detected unit area And can control the indoor environment device A 130 according to whether the number of users is equal to or more than a predetermined number or the average body temperature of the users is equal to or smaller than a predetermined value based on the state information. In addition, the controller 110 analyzes the motion information of each user among the unit areas in which the user is located based on the status information, and generates the unit area in which the current user is located and the indoor environment device in the unit area in which the non- (130 to 134) can be controlled differently.

The control device 110 controls the control of the indoor environment devices 130 to 134 based on at least one of weather, time, day, month, season, and day of the week You can decide.

For example, in case of inclement weather, the control device 110 determines that the degree of control of the lighting devices in the indoor environment devices 130 to 134 is higher than the reference value, and controls the degree of control of the lighting devices to be lower than the reference value in case of the sunny weather. You can decide. The controller 110 may determine the degree of control of the lighting device or the display device depending on whether the current time is the daytime or the nighttime, Such as a cleaning device, for example, a three hour operation of the cleaning device).

On the other hand, the storage device 120 may further store identification information and profiles corresponding to one or more users.

Here, the user's profile may include at least one of a user's preference temperature, preferred light amount, preference fragrance, health information, priority, and necessary equipment.

In this case, the sensors 100-1 to 100-4 further detect the identification information of the user located in one or more unit areas, and the control device 110 detects the identification information of the user identified by the sensors 100-1 to 100-4 The indoor environment devices 130 to 134 corresponding to one or more unit areas can be controlled by analyzing the profile of the user corresponding to the identification information.

In other words, the control device 110 obtains the user's profile from the storage device 120 based on the identification information identified through the sensors 100-1 through 100-4 located in the respective unit areas, The user can control the indoor environment devices 130 to 134 in the unit area where the user is located according to one or more of the user's preference temperature, preferred light amount, preference scent, health information, and priority.

2 is a block diagram illustrating a configuration of an indoor environment automatic control system according to another embodiment of the present invention.

Referring to FIG. 2, the indoor environment automatic control system includes at least one sensor 200, a controller 210, and a storage device 220.

The sensor 200 detects the state information of the user in the room. In particular, the sensor 200 may be at least one of a CDC sensor, an RFID communication module, and a Zigbee communication module. The sensor 200 is installed at a specific position in the room, and can detect the identification information of the user.

The storage device 220 may be implemented as a storage medium such as a ROM (Read Only Memory), a Flash memory, and a RAM (Random Access Memory). The storage device 220 stores a program for controlling the indoor environment devices of the control device 110 and various setting data. In addition, the storage device 220 stores identification information and profiles corresponding to one or more users.

Here, the user's profile may include at least one of a user's preference temperature, preferred light amount, preference fragrance, health information, priority, and necessary equipment.

The control device 210 analyzes the profile of the user corresponding to the detected identifier using the identification information detected by the sensor 200 and controls one or more indoor environmental devices in the room according to the analysis result.

The indoor environment device 230 generates an indoor environment (for example, an environment depending on the amount of light, an environment depending on temperature, an auditory environment, a visual environment, a room cleanliness, etc.) A display device, a sound device, a perfume providing device, a cleaning device, and a perfume providing device.

Accordingly, the control device 210 controls one or more indoor environment devices based on the profile of the user, according to one or more of the user's preference temperature, preferred light amount, preference scent, health information, priority, and necessary devices . In other words, the control device 210 controls the temperature of the heating device or the cooling device according to the preference temperature and / or health information of the profile of the user, controls the light amount of the lighting device according to the preferred light amount, It is possible to select the fragrance of the fragrance providing device and operate the indoor environment device corresponding to the necessary device (such as cleaning device) automatically.

In addition, when the plurality of pieces of identification information detected in the room are used, the control device 210 can control the indoor environment equipment using the identification information having the highest priority in the profile of each identification information.

Here, the user's profile can be downloaded in real time via the communication network 250 as needed.

Accordingly, the indoor environment automatic control system may further include a server 260 and a communication unit 240.

The server 260 provides information and services required for the indoor environment automatic control system from the outside through the communication network 250. In particular, the server 260 may facilitate updating and managing a profile for a large number of users by storing the identification information and profile of the user in the database.

Accordingly, the server 260 periodically collects, processes, and classifies the users' identification information and profiles and stores them in the database. When the control device 210 requests to provide a profile together with arbitrary identification information, it provides a profile corresponding to the identification information.

The communication network 250 may be a wired / wireless communication network such as a LAN (local area network) or a WAN (wide area network) for data transmission. The communication unit 240 may communicate with the communication network 250, It can be a receiving communication module.

Therefore, the control device 210 requests and requests the user's profile corresponding to the identification information to the server 260 through the communication unit 240 using the identification information detected by the sensor 200. [

3 is a flowchart illustrating an operation of an indoor environment automatic control system according to an embodiment of the present invention.

Referring to FIG. 3, in operation 300, status information of a user in each unit area is detected through sensors 100-1 to 100-4.

Particularly, the step 300 may detect state information including at least one of the presence, number, identification information, body temperature, ambient temperature, motion information, and identification information of one or more users per unit area.

In step 310, the state information detected in step 300 is analyzed. In step 320, the indoor environment appliances corresponding to one or more unit areas are controlled according to the analyzed state information.

Here, the indoor environment devices 130 to 134 are to create an indoor environment (such as an environment according to the amount of light, an environment according to temperature, an auditory environment, a visual environment, a cleanliness of the room, etc.) , A display device, a sound device, a cleaning device, and a perfume providing device.

In step 310, one or more of the presence or the number of the user, the user, the body temperature of the user, the ambient temperature, and the movement of the user are analyzed based on the status information of the sensors 100-1 to 100-4. May control the indoor environment equipment of one or more unit areas based on the result of the analysis.

FIGS. 4 to 5 show implementation examples of step 310. FIG.

In the case of Figs. 4 and 5, at least one of the plurality of sensors 100-1 to 100-4 is implemented by an infrared temperature sensor, and can be installed in each unit area.

Referring to FIG. 4, in step 311, it is determined whether there is a unit area in which a user is located through the status information detected by the sensors 100-1 to 100-4.

If it is determined in step 311 that there is a unit area in which the user is located, step 312 determines control of one or more indoor environmental devices (for example, a unit area in which the user is located or an indoor environment device corresponding to the entire unit area) . Here, in step 312, the control can be determined by selecting one of the indoor environment devices (e.g., a lighting device, a heating device) designated by the user or the system in advance.

In addition, step 312 may include the steps shown in FIG.

In the case of FIG. 5, at least one of the plurality of sensors 100-1 to 100-4 may be implemented as an RFID communication module to detect user identification information.

Referring to FIG. 5, step 312a detects the identification information of the user located in the unit area.

In step 312b, the indoor environment device to be controlled based on the profile of the user corresponding to the detected identification information and the degree of control thereof are determined.

Here, the user's profile may include at least one of a user's preference temperature, preferred light amount, preference fragrance, health information, priority, and necessary equipment.

Accordingly, step 312b determines the heating device and the temperature for providing the user's preferred temperature based on the user's profile, determines the lighting device and the degree of control for providing the user with the preferred amount of light, The perfume providing device and the perfume for providing the perfume can be determined, and the indoor environment equipment and the degree of control set by the user can be determined.

Also, in step 312b, if the user or the identification information is plural, the indoor environment device to be controlled based on the profile having the highest priority in the profile and the degree of control thereof can be determined.

Accordingly, the indoor environment equipment is automatically controlled according to the preference of the user, thereby increasing the satisfaction of the user.

Meanwhile, the step 312 may include the steps shown in one of Figs. 6, 7 and 8.

Referring to FIG. 6, at least one of the plurality of sensors 100-1 to 100-4 is implemented by an infrared sensor, and can detect movement of a person.

In step 312c, a motion of the user in the unit area in which the user is located is sensed.

If it is determined in step 312c that the user is moving, step 312d determines the control of the indoor environment device in the unit area in which the movement is performed (for example, the lighting device is turned on).

Conversely, if it is determined in step 312c that there is no user movement, the control unit 312 may determine the control of the indoor environment device in the unit area without the movement.

Accordingly, the indoor environment equipment in the unit area is automatically controlled according to whether there is a movement of the user in the unit area, so that convenience and energy saving of the user can be achieved.

Referring to FIG. 7, at least one of the plurality of sensors 100-1 to 100-4 is implemented by an infrared sensor, and can detect the body temperature or the ambient temperature of the user.

In step 311, the user's body temperature or ambient temperature is detected in the unit area in which the user is located, and it is determined whether the detected body temperature or ambient temperature is less than a reference value.

If it is determined in step 312e that the body temperature or the ambient temperature is lower than the reference value, the control of the indoor environment device (e.g., temperature control of the heating device) for increasing the body temperature or the ambient temperature is determined.

In step 312e, it is determined whether the detected temperature or the ambient temperature is equal to or greater than a reference value. In step 312e, the indoor environment device for lowering the body temperature or the ambient temperature as the body temperature or the ambient temperature is determined to be equal to or greater than the reference value (E.g., temperature control of the cooling device).

In this case, the body temperature or the ambient temperature of the user can be acquired for each unit area, and the state of the user can be grasped in more detail. In addition, by controlling the indoor environment devices for each unit area in consideration of the body temperature and the ambient temperature of the user, the indoor environment for each unit area can be adjusted to suit the actual user.

Referring to FIG. 8, step 312g determines whether the number of users in the room is greater than a predetermined number.

Here, since the unit area in which the user is located has already been determined in step 311, step 312g can calculate the number of users in the room based on the number of unit areas determined to be located by the user. Alternatively, if at least one of the sensors 100-1 to 100-4 detects the identification information of the user located in the unit area, step 312g calculates the number of users in the room based on the number of detected identification information can do.

If the number of users in the room is greater than the preset number by the step 312g, the control unit 312 controls the indoor environment devices corresponding to one or more unit areas.

If the number of users in the room is greater than the predetermined number, the step 312h may include a step of performing a step 312h to store indoor environmental devices (for example, a central heating device, a central heating device, Or the like).

9 is a flowchart illustrating an operation of an indoor environment automatic control system according to another example of the present invention.

Here, at least one of the sensors 200 is implemented as at least one of a CDC sensor, an RFID communication module, and a Zigbee communication module, and the storage device 220 stores identification information and a profile corresponding to one or more users.

Referring to FIG. 9, in operation 900, identification information of a user located in a room is detected using the sensor 200. FIG.

In step 910, the server 260 is requested of the user profile corresponding to the identification information detected in step 900, and the server 260 provides the requested profile.

In step 930, it is determined whether there is a plurality of pieces of the detected identification information, and in the case of a plurality of pieces of identification information, a profile of the identification information having the highest priority can be requested.

In step 920, the server 260 determines whether the profile is downloaded.

If it is determined in step 920 that the downloaded profile is downloaded, the controller 10 analyzes the downloaded profile to determine the indoor environment device to be controlled and the degree of control thereof.

Here, the profile may include at least one of a user's preference temperature, preferred light amount, preference fragrance, health information, priority, and necessary equipment.

In particular, the step 930 determines the temperature control of the heating device or the cooling device based on the user's preference temperature and / or health information based on the profile, determines the light amount control of the lighting device according to the user's preferred light amount, It is possible to determine the fragrance selection of the fragrance providing apparatus according to the preference fragrance and to determine the on-state of the indoor environment apparatus (e.g., cleaning apparatus) corresponding to the user's required apparatus.

In step 940, the indoor environment device determined in step 930 is controlled.

Here, step 930 may include the steps shown in FIG.

Referring to FIG. 10, in step 931, an indoor environmental device (such as a heating device) to be controlled is determined based on a profile corresponding to the identification information (for example, a preferred temperature).

In step 932, the control of the indoor environment device 230 determined in step 931 may be determined in consideration of one or more of the current weather, time, day, month, season, and day of week.

Particularly, in step 932, in the case of a bad weather today, it is possible to determine the degree of control of the lighting equipment in the indoor environment equipment 230 to be higher than the reference value, and to determine the degree of control of the lighting equipment to be lower than the reference value in the case of a sunny weather .

In step 932, the degree of control of the lighting device, the display device, and the like may be determined depending on whether the current time is the daytime or the nighttime, or the indoor environment device (for example, (For example, a three-hour operation of the cleaning machine) can be determined

Accordingly, the indoor environment device 230 can control the degree of control according to the weather, time, day, month, season, and day of the week as well as the preference of the user, thereby creating various indoor environments.

The methods according to embodiments of the present invention 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, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

100-1 to 100-4, 200: sensors
110, 210: Control device
120, 220: storage device
130 to 134, 230: indoor environment devices
240:
250: Network
260: Server

Claims (12)

A system for automatically controlling an indoor environment using a sensor,
One or more sensors for detecting status information and identification information of a user in a unit area of the room;
A storage for storing identification information and profiles of one or more users; And
And a controller for controlling one or more indoor environmental devices corresponding to one or more unit areas based on state information and identification information detected by the sensors and a profile of a user corresponding to the identification information,
The control device includes:
Wherein the at least one indoor environmental device controls at least one of weather, time, day, month, season, and day of the week in the control of the indoor environmental device corresponding to at least one of the unit areas, Analyzing the number of users located in at least one of the unit areas based on the status information,
When the profile of the user corresponding to the detected identification information is analyzed, if the detected identification information is a plurality of profiles, the profile of the user corresponding to the identification information having the highest priority among the plurality of identification information is analyzed, Automatic Control System for Indoor Environment using Sensors to Control Environmental Devices. The control device according to claim 1, wherein the control device
And analyzing at least one of presence, number, identification information, body temperature, ambient temperature, and motion information of at least one user located in at least one of the unit areas based on the state information detected by the sensor, Which controls the indoor environmental equipment corresponding to the
Automatic Control System for Indoor Environment using Sensor. The indoor environmental device according to claim 1,
At least one of a lighting device, a heating device, a cooling device, a display device, a sound device, a cleaning device,
Automatic Control System for Indoor Environment using Sensor. The system of claim 1, wherein the at least one sensor
Infrared sensor, CDC sensor, RFID communication module. At least one of the Zigbee communication modules
Automatic Control System for Indoor Environment using Sensor. delete The method according to claim 1,
Further comprising a communication unit for communicating with a server set externally via wired or wireless,
Wherein the control device requests the server of the user corresponding to the detected identification information to the server through the communication unit and analyzes the profile provided from the server to automatically transmit the indoor environment using the sensor for controlling the one or more indoor environment devices Control system. delete delete delete delete delete delete

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