KR20110076795A - System for controlling automatically indoor surroundings with using sensor - Google Patents

Abstract

PURPOSE: A system for automatically controlling inner environment is provided to manage interior environment by the need and the tendency of a user. CONSTITUTION: One or more sensors(100-1~100-4) detect state information of a user in an interior unit area. A control device(110) controls the interior environment equipment(131~134) based on the state information detected by each sensor. The interior environment equipment copes with one or more unit areas.

Description

Indoor environment automatic control system using sensor {SYSTEM FOR CONTROLLING AUTOMATICALLY INDOOR SURROUNDINGS WITH USING 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 by using a plurality of sensors located in an indoor environment.

Conventional indoor environment control system is based on the ubiquitous home network technology, and works with a number of indoor environment devices with a specific IP for the user to control from the outside. Therefore, the conventional indoor environment control system generally needs to be controlled by the user by wire / wireless or controls the indoor environment by a preset procedure.

In addition, since the conventional indoor environment control system mainly controls the entire indoor unit or controls the indoor environment devices (eg, fluorescent lamps, heating, etc.), it may be insufficient to create a detailed unit area environment.

For example, in a study space such as a library, even if some users are limited to each unit area (such as a desk), the indoor environment control system may not be able to cover the indoor environment devices (such as the entire study space). Fluorescent lights, heating devices, etc.) or specific indoor environment devices (such as cooling devices). In this case, since all indoor environment devices operate even in a space where a user is not located, energy waste may occur.

By detecting user information for each unit area of the room and automatically controlling indoor environment devices corresponding to at least one or more unit areas, the indoor environment of all or part of the unit area of the room is automatically controlled according to the state of the user located in each unit area. An indoor environment automatic control system using a buildable sensor is provided.

By analyzing information about a user located in the room and controlling the indoor environment device, a system for automatically controlling an indoor environment using a sensor that can create an indoor environment according to a user's inclination and needs without a user's manual control is provided.

According to an aspect of the present invention, in the system for automatically controlling the environment of the room using the sensor, at least one sensor for detecting the state information of the user in the unit area of the room, and the state information detected by each sensor An indoor environment automatic control system using a sensor comprising a control device for controlling an indoor environment device corresponding to at least one of the unit area based on the.

According to another aspect of the present invention, in the automatic indoor environment control system using a sensor, a storage device for storing identification information and profile of one or more users, and one or more sensors for detecting identification information of any user located in the room And analyzing a user profile corresponding to the detected identification information, and controlling the at least one indoor environment device in the room according to the analysis result.

According to an embodiment of the present invention, the automatic indoor environment control system may provide an optimal environment for a user who is located in a limited number of spaces and reduce energy loss through control of indoor environment devices for each unit area of the room.

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

1 is a view showing the configuration of the automatic control system for indoor environment according to an embodiment of the present invention
2 is a view showing the configuration of an automatic control system for indoor environment according to another embodiment of the present invention.
3 is a view showing the operation of the indoor environment automatic control system according to an embodiment of the present invention.
4 to 8 are views showing an example of a detailed operation of the indoor environment automatic control system according to an embodiment of the present invention.
9 is a view showing the operation of the automatic indoor environment control system according to another embodiment of the present invention.
10 is a view showing an example of a detailed operation of the automatic indoor environment control system according to another example of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of a system for automatically controlling an indoor environment according to an embodiment of the present invention.

Referring to FIG. 1, the automatic indoor environment control system includes one or more sensors 100-1 to 100-4, a control device 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 one or more unit areas of a room or at a specific location of the room to detect state information of 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 state information of the user may include one or more of presence, number, identification information, body temperature, ambient temperature, and movement information of the user.

The storage device 120 may be implemented as a storage medium such as a read only memory (ROM), a flash memory, or a random access memory (RAM). In addition, the storage device 120 stores a program and various setting data for controlling the indoor environment device of the control device 110.

The controller 110 controls the one or more indoor environment 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 device (130 to 134) is to create an indoor environment (for example, the environment according to the amount of light, the environment according to the temperature, the acoustic environment, the visual environment, the cleanliness of the room, etc.), lighting equipment, heating equipment , A display device, an acoustic device, a cleaning device (eg, an automatic robot cleaner, etc.), a fragrance providing device (eg, an air freshener).

The indoor environment devices 130 to 134 may be installed at a specific location in the room, such as the indoor environment device A 130 (for example, a heating device) to create an environment of the entire room, or the indoor environment device B-1. To B-4 (131 to 134) (for example, a lighting device, a display device, etc.) may be installed in each unit area to create a separate environment for each unit area.

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

In detail, the controller 110 detects a unit area in which a user is located based on state information of the sensors 100-1 to 100-4, and controls the indoor environment devices 130 to 134 corresponding to the detected unit area. The indoor environment device A 130 may be controlled according to whether the number of users is more than a predetermined number or the average body temperature of the users is less than or more than a predetermined value based on the status information. In addition, the control apparatus 110 analyzes the motion information of each user among the unit areas where the user is located on the basis of the state information to determine the indoor environment device of the unit area where the user is currently moving and the unit area where the user is not moving. 130 to 134 may be controlled differently.

In addition, the controller 110 controls the degree of control of the indoor environment devices 130 to 134 based on one or more of weather, time, day, month, season, and day of the week when the indoor environment devices 130 to 134 are controlled. You can decide.

For example, the controller 110 determines that the degree of control of the lighting device among the indoor environment devices 130 to 134 is higher than the reference value in the case of inclement weather, and the control degree of the lighting device is lower than the reference value in the case of sunny weather. You can decide. In addition, the controller 110 determines the degree of control of the lighting device or the display device according to whether the current time is a day time or a night time, or the indoor environment device (depending on whether the day is a preset day, day, month, or season). For example, it is possible to determine the degree of control (eg, a three hour operation of the cleaning device) of the cleaning device.

Meanwhile, the storage device 120 may further store identification information and a profile corresponding to one or more users.

Here, the user's profile may include one or more of the user's preferred temperature, preferred light quantity, preferred fragrance, health information, priority, and necessary devices.

In this case, the sensors 100-1 to 100-4 further detect the identification information of the user located in the one or more unit areas, and the control device 110 is identified through the sensors 100-1 to 100-4. The user's profile corresponding to the identification information may be analyzed to control the indoor environment devices 130 to 134 corresponding to one or more unit areas.

In other words, the controller 110 obtains the user's profile from the storage device 120 based on the identification information identified through the sensors 100-1 to 100-4 located in each unit area, and obtains the obtained profile. The analysis may 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 preferred temperature, preferred light quantity, preferred fragrance, health information, and priority.

2 is a view showing the configuration of the automatic control of the indoor environment according to another embodiment of the present invention.

Referring to FIG. 2, the automatic indoor environment control system includes one or more sensors 200, a control device 210, and a storage device 220.

The sensor 200 detects state information of a user indoors. 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 may be installed at a specific location in the room to detect identification information of the user.

The storage device 220 may be implemented as a storage medium such as a read only memory (ROM), a flash memory, or a random access memory (RAM). In addition, the storage device 220 stores a program and various setting data for controlling the indoor environment device of the control device 110. The storage device 220 also stores identification information and profiles corresponding to one or more users.

Here, the user's profile may include one or more of the user's preferred temperature, preferred light quantity, preferred fragrance, health information, priority, and necessary devices.

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

The indoor environment device 230 is to create an indoor environment (eg, environment according to light quantity, environment according to temperature, auditory environment, visual environment, cleanliness of the room, etc.), lighting device, heating device, cooling device, At least one of a display device, an audio device, a fragrance providing device, a cleaning device, and a fragrance providing device.

Accordingly, the controller 210 controls the one or more indoor environment devices based on the user's profile according to one or more of the user's preferred temperature, preferred light quantity, preferred aroma, health information, priority, and necessary devices. . In other words, the controller 210 controls the temperature of the heating device or the cooling device according to the user's profile's preferred temperature and / or health information, controls the amount of light of the lighting device according to the preferred amount of light, and according to the preferred scent. The fragrance of the fragrance providing device may be selected, and the indoor environment device (eg, the cleaning device) corresponding to the required device may be automatically turned on.

In addition, when a plurality of pieces of identification information detected indoors, the controller 210 may control the indoor environment device by using the identification information having the highest priority in the profile of each identification information.

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

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

The server 260 provides information and services necessary for an automatic indoor environment control system through the communication network 250 from the outside. In particular, as the server 260 stores user identification information and profiles in a database, it may be easy to update and manage profiles for large numbers of users.

Accordingly, the server 260 periodically collects, processes / classifies and stores identification information and profiles of users in a database. When a request for providing a profile together with arbitrary identification information is requested from the control device 210, a profile corresponding to the identification information is provided.

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

Therefore, the controller 210 requests and downloads a profile of a user corresponding to the identification information from the server 260 through the communication unit 240 using the identification information detected by the sensor 200.

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

Referring to FIG. 3, step 300 detects state information of a user in each unit area through sensors 100-1 to 100-4.

In particular, step 300 may detect state information including one or more of presence, number, identification information, body temperature, ambient temperature, movement information, and identification information of one or more unit regions.

Step 310 analyzes the state information detected by step 300. In operation 320, the indoor environment device corresponding to one or more unit areas is controlled according to the analyzed state information.

Here, the indoor environment device (130 to 134) is to create an indoor environment (for example, the environment according to the amount of light, the environment according to the temperature, the acoustic environment, the visual environment, the cleanliness of the room, etc.), lighting equipment, heating equipment , At least one of a display device, an audio device, a cleaning device, and a fragrance providing device.

In operation 310, one or more of the presence or number of users, which user, the user's body temperature, the ambient temperature, and the user's movement are analyzed based on the state information of the sensors 100-1 to 100-4. The step may control the indoor environment device of the one or more unit areas based on the result of the analysis.

4 to 5 show implementation examples of step 310.

4 and 5, at least one of the plurality of sensors 100-1 to 100-4 may be implemented as an infrared temperature sensor and installed in each unit region.

Referring to FIG. 4, in operation 311, it is determined whether there is a unit area where a user is located based on state 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 environment devices (eg, indoor environment devices corresponding to the unit area in which the user is located or the entire unit area). . Here, in operation 312, a control may be determined by selecting a predetermined indoor environment device (eg, a lighting device or a heating device) on a user or a system among each indoor environment device.

In addition, step 312 may include the steps shown in FIG. 5.

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

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

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

Here, the user's profile may include one or more of the user's preferred temperature, preferred light quantity, preferred fragrance, health information, priority, and necessary devices.

Accordingly, step 312b determines the heating device and temperature for providing the user's preferred temperature based on the user's profile, the lighting device and control degree for providing the user's preferred light quantity, and the user's preferred The fragrance providing device and the fragrance for providing the fragrance may be determined, and the indoor environment device and the degree of control set as the device required by the user may be determined.

In operation 312b, when a plurality of users or identification information are included, the indoor environment device to be controlled and the degree of control thereof may be determined based on the profile having the highest priority in the profile.

Accordingly, the indoor environment device is automatically controlled according to the user's preference, thereby increasing the user's satisfaction.

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

Referring to FIG. 6, one or more of the plurality of sensors 100-1 to 100-4 may be implemented as an infrared sensor, and may detect a human movement.

In step 312c, the motion of the user in the unit area where the user is located is detected by step 311.

If it is determined that the user's motion is determined by the step 312c, the step 312d determines control of the indoor environment device (eg, turning on the lighting device) of the unit area in which the motion occurs.

On the contrary, if it is determined that there is no user's movement in step 312c, the step 312d may determine control of the indoor environment device of the unit area in which there is no motion.

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

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

In step 312e, the body temperature or the ambient temperature of the user in the unit area where the user is located is detected by step 311, and it is determined whether the detected body temperature or the ambient temperature is equal to or less than a reference value.

In operation 312f, when the body temperature or the ambient temperature is determined to be equal to or less than the reference value by the step 312e, the control of the indoor environment device (eg, the temperature control of the heating device) to increase the body temperature or the ambient temperature is determined.

Here, step 312e determines whether the detected body temperature or ambient temperature is greater than or equal to the reference value, and step 312f determines whether the body temperature or ambient temperature is lower than the reference value by the step 312e. Control (such as temperature control of the cooling device) can be determined.

In this case, the body temperature or the ambient temperature of the user can be obtained for each unit area, so that the user's state can be grasped in detail. In addition, the indoor environment of each unit area may be controlled to be suited to the user who is actually located by controlling the indoor environment device of each unit area in consideration of the user's body temperature and the ambient temperature.

Referring to FIG. 8, step 312g determines whether the number of indoor users is greater than a preset number.

Here, since the unit area in which the user is located is already determined in step 311, in step 312g, the number of indoor users may be calculated based on the number of unit areas in which the user is determined to be located. Alternatively, if one or more of the sensors 100-1 to 100-4 detect the identification information of the user located in the unit area, step 312g calculates the number of indoor users based on the number of detected identification information. can do.

In step 312h, when the number of users in the room is greater than the preset number by step 312g, the indoor environment device corresponding to one or more unit areas is controlled.

Here, in step 312h, if the number of users in the room is larger than a preset number, step 312h may include an indoor environment device (eg, a central heating device, a center) provided for the whole or one or more unit areas of the room rather than each unit area. Etc.) may be desirable.

9 is a view showing the operation of the automatic indoor environment control system according to another embodiment of the present invention.

Here, one or more of the sensors 200 is implemented with 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 profiles corresponding to one or more users.

Referring to FIG. 9, step 900 detects identification information of a user located indoors by using the sensor 200.

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

Here, in step 930, it may be determined whether the detected identification information is plural, and in the case of the plural identification information, a profile of the identification information having the highest priority may be requested.

In operation 920, it is determined whether a profile has been downloaded from the server 260.

If it is determined in step 920 that it has been downloaded, step 930 analyzes the downloaded profile to determine the indoor environment device to be controlled and the degree of control thereof.

Here, the profile may include one or more of a user's preferred temperature, preferred light quantity, preferred fragrance, health information, priority, and necessary device.

In particular, step 930 determines the temperature control of the heating device or the cooling device according to the user's preferred temperature and / or health information based on the profile, and determines the light amount control of the lighting device according to the user's preferred light quantity, The fragrance selection of the fragrance providing device may be determined according to the preferred fragrance, and the temperature of the indoor environment device (eg, the cleaning device) corresponding to the required device of the user may be determined.

Step 940 controls the indoor environment device determined by step 930.

Here, step 930 may include the step shown in FIG. 10.

Referring to FIG. 10, step 931 determines an indoor environment device (such as a heating device) to be controlled based on a profile (eg, a preferred temperature) corresponding to the identification information.

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

In particular, step 932 may determine that the degree of control of the lighting device in the indoor environment device 230 is higher than the reference value when the weather is inclement weather today, and may determine that the degree of control of the lighting device is lower than the reference value in the sunny weather. .

In addition, step 932 determines the degree of control of the lighting device or display device according to whether the current time is day time or night time, or the indoor environment device (eg, according to whether today is a preset day, day, month, or season). Control degree (e.g., three-hour operation of the cleaning device)

Accordingly, the indoor environment device 230 may control not only the user's preference but also the degree of control according to the weather, time, day, month, season, and day of the week, thereby creating various indoor environments.

Methods according to an embodiment of the present invention can be implemented in the form of program instructions that can be executed by 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. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

100-1 to 100-4, 200: sensor
110, 210: controller
120, 220: Storage device
130 to 134, 230: indoor environment equipment
240: communication unit
250: communication network
260: server

Claims (12)

In the system for automatically controlling the indoor environment using the sensor,
One or more sensors for detecting state information of a user in a unit area of the room; And
Control device for controlling the indoor environment device corresponding to at least one of the unit area based on the state information detected by each sensor
Indoor environment automatic control system using a sensor comprising a. The method of claim 1, wherein the control device
At least one of the unit area by analyzing one or more of presence, number, identification information, body temperature, ambient temperature, and movement information of a user located in at least one of the unit areas based on the state information detected by the sensor To control the indoor environment equipment corresponding to
Indoor environment automatic control system using sensor. The indoor environment device of claim 1, wherein
At least one of a lighting device, heating device, air conditioning device, display device, acoustic device, cleaning device,
Indoor environment automatic control system using sensor. The method of claim 1, wherein the one or more sensors
Infrared sensor, CDC sensor, RFID communication module. At least one of the Zigbee communication modules
Indoor environment automatic control system using sensor. The method of claim 1, wherein the control device
In controlling the indoor environment device corresponding to at least one of the unit areas, the control degree of the indoor environment device is determined in consideration of one or more of weather, time, day, month, season, and day of the week.
Indoor environment automatic control system using sensor. The method of claim 1,
Further comprising a storage device for storing identification information and profiles of one or more users,
The one or more sensors
Detecting identification information of a user located in each of the one or more unit areas;
The control device
Controlling an indoor environment device corresponding to one or more unit areas based on a user profile corresponding to the identification information detected by the one or more sensors;
Indoor environment automatic control system using sensor. In the indoor environment automatic control system using a sensor,
A storage device for storing identification information and profiles of one or more users;
One or more sensors for detecting identification information of any user located indoors; And
A control device for analyzing the user profile corresponding to the detected identification information, and controlling at least one indoor environment device in the room according to the analysis result
Indoor environment automatic control system using a sensor comprising a. The method of claim 7, wherein the control device
When the analysis of the user's profile corresponding to the detected identification information, determining the degree of control of the at least one indoor environment device in consideration of one or more of the current weather, time, day, month, season, day of the week,
Indoor environment automatic control system using sensor. The method of claim 7, wherein the control device
When analyzing the profile of the user corresponding to the detected identification information, when the detected identification information is plural, the profile of the user corresponding to the identification information having the highest priority among the plurality of identification information is analyzed and the at least one indoor location. To control of environmental equipment
Indoor environment automatic control system using sensor. The apparatus of claim 7, wherein the one or more indoor environment devices
At least one of a lighting device, heating device, display device, sound device, cleaning device,
Indoor environment automatic control system using sensor. The method of claim 7, wherein the one or more sensors
Infrared temperature sensor, CDC sensor, RFID communication module. At least one of the Zigbee communication modules
Indoor environment automatic control system using sensor. The method of claim 7, wherein
Further comprising a communication unit for communicating with a server preset outside via wired or wireless,
The control device
Requesting the user's profile corresponding to the detected identification information to the server through the communication unit, analyzing the profile provided from the server to control the one or more indoor environment devices;
Indoor environment automatic control system using sensor.

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