KR102398071B1 - System for controlling environment using portable sensor box and method thereof - Google Patents

Abstract

An environmental control system using a movable sensor box and a control method thereof are disclosed.
The system is movable and includes a sensor box that measures an external environment, outputs corresponding environmental information, and receives a preference from a user. The electronic device controls the environment of the area around the sensor box, and the device control device controls the electronic device. In addition, the management device controls the environment for the area around the sensor box by controlling the electronic device through the device control device based on the environment information measured by the sensor box, but with respect to the area where the sensor box is located When there is a preferred environment value set by a user's preference input through the sensor box, the electronic device is controlled using the preferred environment value.

Description

SYSTEM FOR CONTROLLING ENVIRONMENT USING PORTABLE SENSOR BOX AND METHOD THEREOF

The present invention relates to an environment control system using a movable sensor box and a control method therefor.

Recently, an environment in an office space may be constructed by various electronic devices that can be controlled by a remote controller or a central management device. For example, an environment such as temperature, humidity, and illuminance of an office space may be established by controlling an air conditioner or lighting.

Such environmental control is generally performed based on environmental information sensed through various sensors, for example, a temperature sensor, a humidity sensor, an illuminance sensor, and the like.

However, sensors that collect environmental information in the office space are either fixedly installed at the time of construction of a building or fixedly installed in various electronic devices that control the environment, so they cannot accurately reflect the work environment with severe location fluctuations in the office space. has a problem.

The technical problem to be achieved by the present invention is to provide an environment control system using a movable sensor box capable of providing an office environment based on environmental sensor information that a user actually feels rather than a fixed position sensor, and a control method thereof.

An environmental control system according to one aspect of the present invention,

a sensor box that is movable, measures an external environment, outputs corresponding environmental information, and receives a preference from a user; an electronic device for controlling the environment of the area around the sensor box; a device control device for controlling the electronic device; And on the basis of the environmental information measured by the sensor box, control the electronic device through the device control device to control the environment for the area around the sensor box, the sensor box for the area where the sensor box is located and a management device configured to control the electronic device by using the preferred environment value when there is a preferred environment value set by a user's preference input through the user's preference.

Here, when a plurality of preferred environment values exist for the region, the management device may control the electronic device by using an average value of the plurality of preferred environment values.

In addition, the management apparatus may set an initial environment value for each area, and when there is no preferred environment value for the area, control the electronic device using the initial environment value.

In addition, the management device is characterized in that when it is determined that the user preference input through the sensor box is a good preference, the control environment value of the environment control being performed is set as the preferred environment value for the corresponding area.

In addition, when it is determined that the user preference input through the sensor box is a bad preference, the management device performs environmental control by sequentially applying a plurality of change levels to the control environment value of the environment control being performed. do.

In addition, the plurality of change levels is characterized in that it is set in such a way that the range of the control value is sequentially widened based on the reference control value.

In addition, the sensor box may include: an environment sensor unit including a plurality of sensors for measuring surrounding environment information; a motion monitoring sensor that detects external motion; a preference input unit for receiving a preference for a surrounding environment state from a user; and a control unit configured to transmit the environmental information measured through the environment sensor unit to the management device when a surrounding motion is detected by the motion sensor, and transmit user preference information input through the preference input unit to the management device. include

In addition, the method further includes an access point for performing communication between the sensor box and the management device, wherein the management device determines an area in which the sensor box is located through a result of performing communication between the sensor box and the access point. a region determining unit to determine; a storage unit for storing information used by the management device to control an environment around the sensor box based on the environment information received from the sensor box; a preference determination unit for determining a type of user preference information received from the sensor box; an environment value setting unit configured to set a control environment value for controlling the electronic device through the device control device based on the environment information measured from the sensor box; and a control unit configured to perform environmental control on the periphery of the sensor box through control of the electronic device through the device control device for the area determined by the area determination unit when the environment information is received from the sensor box .

An environment management method according to another feature of the present invention,

receiving, by the management device, environmental information measured by the sensor box; determining whether a preferred environment value corresponding to an area in which the sensor box is located is set; setting the preferred environment value as a control environment value when the preferred environment value is set; setting a preset initial environment value as a control environment value when the preferred environment value is not set; and controlling the environment around the sensor box through control of the electronic device according to the control environment value.

Here, in the setting of the preferred environment value as a control environment value, determining whether there are a plurality of preferred environment values; calculating an average value of a plurality of preferred environment values when it is determined that there are a plurality of them; setting the calculated average value as the control environment value; and setting the preferred environment value as the control environment value when it is determined that there is only one preferred environment value.

In addition, after the step of controlling the environment, receiving the user's preference through the sensor box; checking a change level when it is determined that the user's preference is bad through the preference; calculating a changed environment value by applying the change level based on the initial environment value or the preferred environment value; setting the calculated change environment value as the control environment value; and controlling the environment around the sensor box through control of the electronic device according to the control environment value.

In addition, when it is determined that the user's preference is good through the preference, the control environment value is set as a preference environment value for the region.

In addition, in the calculating of the changed environment value, the environment control is performed by sequentially applying a plurality of change levels based on the initial environment value or the preferred environment value.

In addition, the plurality of change levels is characterized in that the range of the control value is sequentially set based on the initial environment value or the preferred environment value.

According to the present invention, it is possible to provide an office environment based on environmental sensor information that a user actually feels rather than a fixed position sensor.

In addition, it is possible to provide a personalized office environment based on a personal preference environment.

In addition, it is possible to optimize energy use for existing buildings.

1 is a diagram schematically illustrating an environment control system according to an embodiment of the present invention.
FIG. 2 is a view showing a detailed configuration of the sensor box shown in FIG. 1 .
FIG. 3 is a diagram illustrating a specific configuration of the management device shown in FIG. 1 .
4 is a view for explaining a method of changing a temperature control environment value according to an embodiment of the present invention.
5 is a view for explaining a method of changing a humidity control environment value according to an embodiment of the present invention.
6 is a view for explaining a method of changing an illuminance control environment value according to an embodiment of the present invention.
7 is a flowchart of an environment control method by motion detection according to an embodiment of the present invention.
8 is a flowchart of an environment control method based on user preference input according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as “…unit”, “…group”, and “module” described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software. there is.

Hereinafter, an environment control system using a movable sensor box according to an embodiment of the present invention will be described with reference to the drawings.

1 is a diagram schematically illustrating an environment control system 10 according to an embodiment of the present invention.

As shown in FIG. 1 , the environmental control system 10 according to an embodiment of the present invention includes a sensor box 100 , a management device 200 , an access point 300 , and a lighting and air conditioner 400 . and a device control device 500 .

The sensor box 100 is movable, measures the surrounding environment information and transmits it to the management device 200 through the access point 300 . Such environmental information is information that can measure surrounding information through a sensor, and includes, for example, temperature, humidity, illuminance, oxygen saturation, etc. However, in the embodiment of the present invention, for convenience of explanation, temperature, humidity and It is assumed that only illuminance is measured.

The sensor box 100 measures the surrounding environment information only when the surrounding motion is detected. Here, the periphery refers to, for example, within a radius of about 1 m with respect to the sensor box 100 .

Also, the sensor box 100 may receive a user's preference input for environment information and transmit it to the management device 200 . For example, the user may input a preference such as whether the current state of temperature, humidity, or illuminance is good or bad through the sensor box 100 .

The management device 200 receives environmental information around the sensor box 100 measured by the sensor box 100 and controls the environment around the sensor box 100 . Control of such an environment may be changed by a user's preference input through the sensor box 100 . For example, if the user's preference through the sensor box 100 is input as good, the current surrounding environment of the sensor box 100 is maintained as it is, but if the user's preference is input as bad, the sensor box ( 100) performs environmental control by changing the surrounding environment until the user's preference is improved.

To this end, the management device 200 controls the electronic device, in particular, the lighting and air conditioner 400 through the device control device 500 .

The lighting and air conditioner 400 refers to the lighting and air conditioner installed around the sensor box 100 .

The device control device 500 controls the environment around the sensor box 100 by controlling the lighting and the air conditioner 400 . For example, illuminance is controlled by lighting control, and temperature and humidity are controlled by controlling the air conditioner.

FIG. 2 is a view showing a specific configuration of the sensor box 100 shown in FIG. 1 .

As shown in FIG. 2 , the sensor box 100 includes an environment sensor unit 110 , a motion detection sensor 120 , a short-range communication unit 130 , a preference input unit 140 , a display unit 150 and a control unit 160 . include

The environment sensor unit 110 includes sensors for measuring environmental information around the sensor box 100 . Such sensors may include a temperature sensor 111 for measuring temperature, a humidity sensor 113 for measuring humidity, and an illuminance sensor 115 for measuring illuminance.

The motion sensor 120 is a sensor for detecting a motion around the sensor box 100 . Since the motion detection sensor 120 is already well known, a detailed description thereof will be omitted.

The short-range communication unit 130 performs communication for data transfer between the sensor box 100 and the access point 300 . As such short-distance communication, Wi-Fi, Zigbee, Radio Frequency (RF) communication, etc. may be used.

The preference input unit 140 receives the user's preference for the environment around the sensor box 100 . Such preference input can be input through a button type selection, and preference can be input for each environment state. For example, preference may be separately input for each environmental information measurable by the environment sensor unit 110 , that is, temperature, humidity, and illuminance. In addition, although various inputs are possible according to user preference, in the embodiment of the present invention, it is assumed that input is possible by classifying only good and bad preferences.

The display unit 150 notifies the user of the environmental condition around the sensor box 100 or displays information for inputting user preference.

When a motion around the sensor box 100 is detected by the motion detection sensor 120 , the control unit 160 transmits the environmental information measured through the environment sensor unit 110 to the management device 200 through the short-distance communication unit 130 . and also transmits the user preference information input through the user preference input unit 140 to the management device 200 through the short-distance communication unit 130 .

FIG. 3 is a diagram illustrating a detailed configuration of the management device 200 illustrated in FIG. 1 .

As shown in FIG. 3 , the management device 200 includes communication units 210 and 220 , an area determination unit 230 , a storage unit 240 , a preference determination unit 250 , an environment value setting unit 260 , and a control unit. (270).

The communication unit 210 performs data transmission and reception with the sensor box 100 through the access point 300 .

The communication unit 220 performs communication with the device control device 500 .

The area determination unit 230 determines the area in which the sensor box 100 is located through the result of performing communication between the sensor box 100 and the access point 300 . This area determination is performed when the location of the sensor box 100 is confirmed through the access point 300 in a state in which the entire area within the office space where environmental control is performed according to an embodiment of the present invention is divided into a plurality of areas. It is carried out by determining the area to which it belongs. Here, since the access point 300 is already well known for a technique for confirming the position of the sensor box 100 through communication with the sensor box 100 , a detailed description thereof will be omitted. For example, the access point 300 may determine the position of the sensor box 100 through the direction of the radio wave received from the sensor box 100 and the signal strength of the radio wave, and the access point 300 performs this position check. Since it is natural to provide means for the purpose, a detailed description thereof will be omitted.

The storage unit 240 stores various types of information used by the management device 200 to control the environment around the sensor box 100 based on the environment information received from the sensor box 100 .

To this end, the storage unit 240 includes a preference environment value storage unit 241 , an initial environment value storage unit 243 , a control environment value storage unit 245 , and a change step storage unit 247 .

The preferred environment value storage unit 241 stores the control environment value when the user preference is good for each area and for each area temperature, humidity, and illuminance as a preferred environment value. A plurality of such preferred environment values may be stored. That is, since each user may have a different preferred environment, a preferred environment value according to the preferred environment for each user may be set, respectively. These preferred environmental values are respectively set for each temperature, humidity, and illuminance.

The initial environment value storage unit 243 stores an initial environment value used when a preferred environment value is not stored for each area and for each temperature, humidity, and illuminance of each area. That is, these initial environmental values are stored for each temperature, humidity, and illuminance.

The control environment value storage unit 245 stores an environment value used to perform environmental control by the management device 200 . These environmental values are stored for each divided area in the office space, and also stored for each area by temperature, humidity, and illuminance.

The change step storage unit 247 stores step information of changing the environment value according to user preference. This step information is stored for each area and for each area's temperature, humidity, and illuminance. The change step will be described in detail later.

On the other hand, the preference determination unit 250 receives the user preference information transmitted from the sensor box 100 and determines whether the user preference is good or bad.

The environment value setting unit 260 sets an environment value for controlling the lighting and the air conditioner 400 through the device control device 500 based on the environment information measured from the sensor box 100 .

The environment value setting unit 260 includes a preference control determining unit 261 , a change step determining unit 263 , and a setting unit 265 .

The preference control determination unit 261 determines preference control according to whether the preference environment value is stored in the preference environment value storage unit 241 . That is, when the preference environment value is stored, it is determined as preference control.

The change step determining unit 263 determines the change step by temperature, humidity and illuminance of each area based on the change step information for each area, temperature, humidity, and illuminance stored in the change step storage unit 247 .

When it is determined by the preference control determination unit 261 that the control is not preferred, the setting unit 265 uses the initial environment values for each temperature, humidity and illuminance stored in the initial environment value storage unit 243 as control environment values. It is set and transmitted to the device control device 500 so that the lighting and air conditioner 400 can be controlled with an initial environmental value.

In addition, when it is determined by the preference control determination unit 261 that the control for a specific area is the preference control, the setting unit 265 may store the preference environment value for the corresponding area stored in the preference environment value storage unit 241 . is set as a control environment value to control the lighting and air conditioner 400 through the device control device 500 . At this time, when there are a plurality of preferred environment values stored for a specific area, an average value of the plurality of preferred environment values is calculated, the average environment value is set as a control environment value, and the lighting and air conditioner ( 400) is controlled.

In addition, when the user preference is input as bad, the setting unit 265 includes the control environment value stored in the control environment value storage unit 245 and the change stage information stored in the change stage storage unit 247 for the corresponding area. is used to set a new control environment value and transmits it to the device control device 500 so that the lighting and air conditioner 400 can be controlled with the changed control environment value.

When the environmental information is received from the sensor box 100, the control unit 270 uses the lighting and air conditioner 400 through the device control device 500 for the area determined by the area determination unit 230 to the sensor box ( 100) Perform environmental control for the surroundings.

At this time, the control unit 270 sets the control environment value through the storage unit 240 and the setting unit 250 and transmits it to the device control device 500 to control the lighting and air conditioner 400 .

In addition, even when user preference information is received from the sensor box 100 , the control unit 270 uses the lighting and air conditioner 400 through the device control device 500 for the area determined by the area determination unit 230 . to perform environmental control around the sensor box 100 .

At this time, when it is determined by the preference determination unit 250 that the user preference is good, the control unit 270 maintains the control of the lighting and the air conditioner 400 through the device control device 500 with the existing control environment value. make it possible

However, when it is determined by the preference determination unit 250 that the user preference is bad, the control unit 270 changes and sets the control environment value through the environment value setting unit 260 to control the lighting and air conditioner 400 . .

Next, a method of changing a control environment value according to an embodiment of the present invention will be described with reference to the drawings.

4 is a view for explaining a method for changing a temperature control environment value according to an embodiment of the present invention, FIG. 5 is a view for explaining a method for changing a humidity control environment value according to an embodiment of the present invention, and FIG. 6 is this It is a diagram for explaining a method of changing an illuminance control environment value according to an embodiment of the present invention. Here, as for the change of the control environment value for temperature, humidity and illuminance, only the unit of the change level is different as ℃ in the case of temperature, % in the case of humidity, and lux in the case of illuminance. Only the case of the illustrated temperature will be described as an example. In addition, since the use of the preferred environment temperature or the initial set temperature is the same, the initial set temperature is used here for description.

First, the user's movement through the sensor box 100 is detected in a state where the current office temperature is a ℃, and temperature control is started at the initial set temperature b ℃ (S1)

As such, if the user preference is input as bad through the sensor box 100 while temperature control is being performed, it is impossible to know the temperature to be changed, so first, a temperature higher than b°C, which is the currently set control temperature, is applied, that is, a temperature higher than b°C. Substantially, a +1 change level is applied to perform temperature control as a b+1°C control temperature (S2).

In this way, if the user preference is input as bad through the sensor box 100 while the temperature control is performed with the +1 change level, the next change level, -1, is applied, A temperature of b-1°C lower by 1°C is applied as a change temperature to perform temperature control (S3).

Next, if the user preference is input as bad again through the sensor box 100 while temperature control is being performed with the -1 change level, the next change level of +2 is applied because the -1 change level is currently being applied, and the initial temperature of b℃ A temperature of b+2°C higher by 2°C is applied as a change temperature to perform temperature control (S4).

As such, when changing the level of temperature due to poor user preference during temperature control according to an embodiment of the present invention, the reference temperature, here, +1, -1, +2, -2, +3, -3, +4, -4, … Temperature control is performed by applying the change level in such a way that the changed temperature width is sequentially widened.

As shown in FIGS. 5 and 6 , the above method is also applied to humidity and illuminance, so that the change level of humidity and illuminance is sequentially widened, whereby humidity and illuminance control is performed.

Hereinafter, an environment control method according to an embodiment of the present invention will be described with reference to the drawings.

First, a description will be given of a method in which motion is detected by the sensor box 100 and environment control around the sensor box 100 is performed by the management device 200 .

7 is a flowchart of an environment control method by motion detection according to an embodiment of the present invention.

Before the description, it is assumed in the embodiment of the present invention that an office space in which environment control is performed is divided into a plurality of areas, and the corresponding area can be determined based on location information belonging to each area.

Referring to FIG. 7 , in the management device 200 , an initial environment value for the entire office space is preset by an administrator ( S100 ). Here, the initial environment value may be set for each of a plurality of areas, but in the embodiment of the present invention, it is assumed that the initial environment value is set for the entire office space for convenience of explanation, and the initial environment value is temperature, humidity and It is assumed that each is set for each illuminance.

Next, when the sensor box 100 is moved to a specific area and then a motion is detected by the motion sensor 120 (S110), the sensor box 100 is a temperature sensor 111 of the sensor unit 110, The ambient environment information of the sensor box 100, that is, temperature, humidity, and illuminance is measured through the humidity sensor 113 and the illuminance sensor 115 (S120), and transmitted to the management device 200 through the access point 300 do (S130).

When the environment information is received from the sensor box 100 , the management device 200 determines an area in which the sensor box 100 is located through the area determination unit 230 ( S140 ).

Thereafter, the management device 200 determines whether there is a preferred environment value corresponding to the region determined in step S140 in the preferred environment value storage unit 241 ( S150 ), and if there is a preferred environment value, the preferred environment value It is determined whether there are a plurality of values (S160).

If there are a plurality of preferred environment values, an average value is calculated (S165) and the calculated average value is set as a preferred environment value (S170).

However, if there is only one preferred environment value or after the preferred environment value is set as an average value in step S170, the preferred environment value is set as the control environment value (S175).

On the other hand, if there is no preferred environment value corresponding to the area determined in step S140 in the preferred environment value storage unit 241 in the step S150, it corresponds to the corresponding area stored in the initial environment value storage unit 243 The initial environment value to be set as a control environment value (S180).

Thereafter, the management device 200 transmits the control environment value set in the step S175 or S180 to the device control device 500 ( S185 ), and the device control device 500 transmits the control environment value to control the lighting and the air conditioner 400 using (S190) to control the environment around the sensor box 100 (S195).

Next, a description will be given of an environment control method when a user preference is input through the sensor box 100 while environment control around the sensor box 100 is performed by the management device 200 .

8 is a flowchart of an environment control method based on user preference input according to an embodiment of the present invention.

Referring to FIG. 8 , in a state where the management device 200 controls the environment around the sensor box 100 by controlling the lighting and the air conditioner 400 through the device control device 500 using the control environment value ( S200), when a user preference is input through the preference input unit 140 of the sensor box 100 (S210), the sensor box 100 transmits the input user preference information to the management device 200 through the access point 300 It transmits (S220).

As such, when user preference information is received from the sensor box 100 , the management device 200 determines an area in which the sensor box 100 is located through the area determination unit 230 ( S230 ).

After that, the management device 200 determines whether the user preference is bad through the user preference information transmitted from the sensor box 100 (S240), and if the user preference is input as bad, the change level storage unit 240 In the above step (S230), the level of change for the area determined in step (S250) is checked (S250).

Next, the management device 200 calculates the change environment value used in the next control by using the checked change level and the control environment value for the corresponding area stored in the control environment value storage unit 245 ( S260 ).

Then, the management device 200 sets the changed environment value as the control environment value (S270) and transmits it to the device control device 500 (S280).

Accordingly, the device control device 500 controls the lighting and air conditioner 400 using the control environment value reset to the environment value changed due to the poor user preference (S290) to newly control the environment around the sensor box 100 do (S295).

On the other hand, if the user preference is input as good rather than bad in step S240 , the management device 200 sets the currently controlled control environment value as the preferred environment value for the corresponding area as the preferred environment value storage unit 241 . ) is stored in (S297).

In the above description, only the environmental control of the surrounding environment of the sensor box 100 based on temperature, humidity and illuminance has been described, but the technical scope of the present invention is not limited thereto, and the environment is determined by the environmental information measured by the sensor. For the controllable environmental state, it may be easily applied by those skilled in the art when referring to the above description.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the right.

Claims (14)

a sensor box that is movable, measures an external environment, outputs corresponding environmental information, and receives a preference from a user;
an electronic device for controlling the environment of the area around the sensor box;
a device control device for controlling the electronic device; and
An initial environment value is set for each area in which the space is divided, and when it is determined that the preference input through the sensor box is a good preference, the control environment value of the environment control being performed is set as the preference environment value of the area in which the sensor box is located. including a management device to set up,
the management device
1) receiving the measured environmental information from the sensor box, 2) using the result of performing communication between the sensor box and an access point to which the sensor box is wirelessly connected, a specific area in which the sensor box is located in the space check, 3) check whether a preferred environment value is set in the specific area, 4) if there is a preferred environment value set in the specific area, transmit a control environment value generated based on the preferred environment value to the device control device and 5) when there is no preferred environment value set in the specific area, a control environment value generated based on the initial environment value is transmitted to the device control device. According to claim 1,
and the management device controls the electronic device by using an average value of the plurality of preferred environment values when a plurality of preferred environment values exist for the specific region. According to claim 1,
and the management device controls the electronic device by using an initial environment value set in the specific area when there is no preferred environment value for the specific area. delete According to claim 1,
When it is determined that the user preference input through the sensor box is a bad preference, the management device performs environmental control by sequentially applying a plurality of change levels to the control environment value of the environment control being performed. control system. 6. The method of claim 5,
The environment control system, characterized in that the plurality of change levels are set in such a way that the range of the control value is sequentially widened based on the reference control value. According to claim 1,
The sensor box is
an environment sensor unit including a plurality of sensors for measuring surrounding environment information;
a motion sensor for detecting external motion;
a preference input unit for receiving a preference for a surrounding environment state from a user; and
When a surrounding motion is detected by the motion sensor, the control unit transmits the environment information measured through the environment sensor unit to the management device, and transmits the user preference information input through the preference input unit to the management device
Environmental control system comprising. According to claim 1,
Further comprising the access point performing communication between the sensor box and the management device,
The management device,
an area determination unit for determining an area in which the sensor box is located based on a result of performing communication between the sensor box and the access point;
a storage unit for storing information used by the management device to control an environment around the sensor box based on the environment information received from the sensor box;
a preference determination unit for determining a type of user preference information received from the sensor box;
an environment value setting unit configured to set a control environment value for controlling the electronic device through the device control device based on the environment information measured from the sensor box; and
When the environmental information is received from the sensor box, the control unit for performing environmental control on the periphery of the sensor box through the control of the electronic device through the device control device with respect to the area determined by the area determination unit
Environmental control system comprising. A method for environmental control of a management device, comprising:
The initial environment value is set for each area in which the space to be managed is divided, and when it is determined that a preference input through a sensor box at an arbitrary location within the space is a good preference, the sensor box sets the environmental control value of the environment control being performed. setting a preferred environment value of the region in which it is located;
receiving environmental information measured by a sensor box at an arbitrary location in the space;
identifying a specific area in which the sensor box is located in the space by using a result of performing communication between the sensor box and an access point to which the sensor box is wirelessly connected;
determining whether a preference environment value corresponding to the specific area is set;
When there is a preference environment value set in the specific area, the control environment value of the specific area is set based on the preferred environment value, and when there is no preference environment value set in the specific area, the specific area based on the initial environment value setting a control environment value of ; and
Controlling the environment around the sensor box through the control of the electronic device according to the control environment value
An environmental control method comprising a. 10. The method of claim 9,
The step of setting the control environment value is
determining whether there are a plurality of preferred environment values stored in the specific area;
calculating an average value of a plurality of preferred environment values when it is determined that there are a plurality of them;
setting the calculated average value as the control environment value; and
setting the stored preferred environment value as the control environment value when it is determined that there is only one preferred environment value stored in the specific area
An environmental control method comprising a. 10. The method of claim 9,
After controlling the environment,
receiving a user's preference through the sensor box;
checking a change level when it is determined that the user's preference is bad through the preference;
calculating a changed environment value by applying the change level based on an initial environment value or a preferred environment value stored in the specific area;
updating the control environment value with the calculated changed environment value; and
Controlling the environment around the sensor box through the control of the electronic device according to the updated control environment value
An environmental control method comprising a. 12. The method of claim 11,
When it is determined that the user's preference is good through the preference, the control environment value is set as the preference environment value for the specific area. 12. The method of claim 11,
In the step of calculating the changed environment value,
The environment control method, characterized in that the environment control is performed by sequentially applying a plurality of change levels based on the initial environment value or the preferred environment value stored in the specific area. 14. The method of claim 13,
The environment control method, characterized in that the plurality of change levels are set in such a way that the range of the control value is sequentially widened.

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