KR20150031077A - Lighting control system and method - Google Patents

Abstract

A lighting control system and an operating method thereof analyze lighting patterns according to whether there are people in the room and movements of the people to control specific lights according to whether there is people in the room and control the brightness of lights according to the brightness of the interior, and analyze lighting patterns to control a plurality of lights according to the analyzed pattern information. Therefore, efficiency and ease of management may be improved by controlling lights more conveniently and effectively, and power consumption may be reduced by preventing an unnecessary use of lights.

Description

[0001] Lighting control system and method [0002]

The present invention relates to an illumination control system and an operation method thereof, and more particularly, to an illumination control system and an operation method thereof for controlling illumination using pattern information according to occupant and illumination use.

A plurality of lighting devices are installed in a building of a home or a building. These luminaires illuminate the dark interior to help the user indoors. Especially, as the society develops, the life pattern is not simply divided into day and night, but the importance of lighting is increasing as it is changed into 24 hour life.

Conventionally, lighting devices have been generally turned on and off according to switch operation. In recent years, however, not only a plurality of lights are controlled but also the brightness of illumination has been controllably changed.

In addition, as the issue of power consumption increases, the importance of a control method that can reduce power consumption while more effectively controlling a plurality of lights is emphasized.

 In addition, there is an increasing need to control a specific light according to a user's life pattern, apart from collectively controlling a plurality of lights.

It is an object of the present invention to provide a lighting control system for controlling a plurality of lights by analyzing a lighting use pattern according to the presence or absence of a occupant and a movement of occupants and thereby controlling the lighting accordingly to more effectively control the lighting, System and an operation method thereof.

The system according to the present invention comprises at least one wireless lighting device having a communication module and illuminated with light corresponding to a received control signal; A controller for analyzing a pattern repeated from the on / off control history of the wireless lighting apparatus and controlling the wireless lighting apparatus according to the pattern; The controller sets a schedule corresponding to a control pattern of the wireless lighting apparatus, and controls the wireless lighting apparatus according to the schedule.

Further, an operation method of the present invention includes: a step in which a wireless lighting device operates in response to a control signal to be input; The controller connected to the wireless lighting device accumulating the on / off control history of the wireless lighting device; Analyzing a pattern repeatedly appearing from the control history by the controller to generate pattern data; Setting a schedule for the controller to control the wireless lighting device in accordance with the pattern data; And operating the wireless lighting device according to the schedule.

In the illumination control system and the method of operating the same according to the present invention, the brightness of the illumination is controlled according to the brightness of the room as well as controlling the specific illumination according to the presence or absence of the occupant in controlling the plurality of lights, By controlling the plurality of lights according to the pattern information, it is possible to control the lighting more conveniently and effectively, thereby improving the efficiency and convenience of management, preventing unnecessary use of illumination, and reducing power consumption .

1 is a diagram illustrating an example of a lighting control system installed in a room according to the present invention.
2 is a diagram showing the configuration of a lighting control system according to the present invention.
3 is a diagram showing another embodiment of a lighting control system according to the present invention.
4 is a flowchart showing a lighting control method according to the present invention.
5 is a flow chart illustrating a method for controlling the brightness of illumination in accordance with the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

1 is a diagram illustrating an example of a lighting control system installed in a room according to the present invention. Referring to Fig. 1, a plurality of wireless lighting devices 21 to 26 are installed in a ceiling in a room. At this time, wireless communication modules (not shown) are provided in each of the wireless lighting devices 21 to 26. That is, it is a lighting device equipped with a wireless communication module. In addition, each desk may be provided with a separate auxiliary light such as a stand.

Also, illuminance sensors 61 to 63 for measuring the room brightness are provided. At this time, the illuminance sensor can be installed on a wall surface other than the ceiling, and can be installed at a predetermined distance unit based on the window 9. In the daytime, the surroundings of the window 9 are bright and darker as the distance from the window 9 increases. The brightness of the room can be measured through the illuminance sensors 61 to 63. Of course, the illuminance sensors 61 to 63 measure not only the natural light but also the indoor brightness including the illumination light when the wireless lighting device is turned on.

In addition, a plurality of occupant detection sensors (not shown) may be provided. And may be equipped with an occupant detection sensor coupled to the wireless lighting devices 61 to 67 as the case may be.

There may be a plurality of occupants in the room, and, as shown in the figure, when the desk or the will is arranged, the occupant can stay for a long time on the basis of the desk and the chair. Whereby the position 71 to 74 of the occupant can be specified.

As described above, when the user can specify the position where the occupant stays for a long time with a desk or a chair, the occupant detection sensors can be provided by designating the positions 71 to 74 of the material around the position of the desk or the chair. At this time, occupant detection sensors may be installed in units of wireless lighting units, respectively, or may be installed around occupant positions 71 to 72.

2 is a diagram showing the configuration of a lighting control system according to the present invention.

2, a lighting control system according to the present invention includes a plurality of wireless lighting devices 20, an illumination sensor 60, a terminal 10, a switch 15, and a occupant detection sensor 30. [ On the other hand, the lighting control system further includes a watt hour meter 80 and a controller 40. [ Occasionally, the occupant detection sensor 30 may be embedded in the wireless lighting device 20.

The wireless lighting device 20 is a lighting device, and a wireless communication module is provided. The wireless lighting device 20 is installed on a ceiling at regular intervals, and may be provided with a separate auxiliary illumination as described above.

A wireless communication system such as a short distance communication module, a Zigbee, a Bluetooth, an infrared ray, and a WiFi may be used for the wireless lighting device 20, and the type thereof is not limited thereto. In addition, two or more communication modules can be provided for communication.

The wireless lighting device 20 may communicate with the terminal 10 in a wireless communication manner and may be wired to the occupant monitoring sensor and the light intensity sensor. At this time, the wireless lighting device 20 can perform communication with the terminal 10 through a separate gateway (not shown).

The wireless lighting device 20 can be controlled to be turned on or off depending on whether the terminal 10 and the switch 19 to be connected are operated or not. At this time, the switches can be individually connected to the respective wireless lighting apparatuses 20, or the plurality of wireless lighting apparatuses 20 can be set as one group, and can be controlled on a group basis according to the switch operation. In addition, the brightness is adjusted by the sensing data of the illuminance sensor 60.

The occupant detection sensor 30 may be installed in the wireless lighting device 20, and separately installed separately. The occupant detection sensor 30 is constituted by a sensor for detecting at least one of infrared rays, ultrasonic waves and heat, and judges whether or not there is a occupant in a specific area. In addition, the occupant detection sensor 30 may be configured as an image capturing means for capturing an image. In some cases, more than two sensors are provided to detect multiple occupants.

The occupant detection sensor 30 detects whether a occupant is present in a specific area and transmits the detection result to the wireless lighting apparatus 20. [

At this time, when the occupant is detected by the occupant detection sensor 30, the wireless illuminator 20 can operate to illuminate the specific area.

The terminal 10 can mount a lighting control application and control the plurality of wireless lighting apparatuses 20 by communicating with the wireless lighting apparatus 20 through the communication module provided as the lighting control application is executed.

In addition, the terminal 10 is provided with a plurality of sensors, measures the indoor illuminance, recognizes surrounding sounds or actions, and controls the wireless illuminator 20 based on the data.

At this time, the terminal 10 can transmit a control command to the wireless lighting device 20 located within a predetermined distance, and at least one wireless lighting device 20 receiving the control command is turned on and off according to a control command of the terminal.

The illuminance sensor 60 is installed separately from the wireless lighting device 20 and measures indoor illuminance. At least one illuminance sensor 60 is installed, and when a plurality of illuminance sensors 60 are provided, the indoor illuminance that can be different for each indoor position is measured. For example, when the illuminance sensor is installed at a predetermined interval based on the window 9, the degree of natural light differs according to the distance from the window 9, so that the indoor illuminance according to the distance can be measured.

The light intensity sensor 60 transmits the measured data to the controller 40 and transmits it to the wireless lighting device 20. [

When the controller is further connected, the lighting control system includes the wireless communication module, as described above, for controlling the operation of the switch 15, the terminal 10, the illuminance sensor 60, Is connected to the controller (40) in a wireless or wired communication manner, and is controlled by the controller (40). At this time, the wireless lighting device 20 is operated by a command from the controller, and when the switch is operated, its operation state is changed according to the switch operation.

The occupant detection sensor 30 detects whether a occupant is present in a specific area and transmits the detection result to the wireless lighting apparatus 20 or to the controller 40. [ At this time, it is possible to determine whether to transmit to the wireless lighting device or to the controller according to the installation method or communication method of the occupant detection sensor, and to transmit sensed data to both the wireless lighting device and the controller.

The controller 40 controls the wireless lighting device 20 located within a predetermined distance based on the sensing data to operate in response to sensing data of the occupant sensing sensor 30. [

The illuminance sensor 60 transmits the measured data to the controller 40, and the controller 40 controls the brightness of the wireless illuminator 20 in accordance with the illuminance data. At this time, the controller 40 can set the brightness to a low level for the wireless lighting device 20 located at the window where natural light enters, and the brightness of the wireless lighting device 20 at a position far from the window can be set high.

The watt hour meter 80 measures the amount of power consumed. At this time, when the watt hour meter is connected to a specific device, the amount of power consumption of the device can be measured. When a plurality of watt-hour meters are provided, the amount of power consumption by illumination and the amount of power consumption by household appliances can be measured, respectively. The watt hour meter 80 transmits the measured power data to the controller 40.

The controller 40 can control the wireless lighting device 20 in accordance with the amount of power consumption input from the watt hour meter 80. [ For example, some of the plurality of wireless lighting apparatuses 20 may be turned on and some of them may be turned off, and the on-off time may be set.

The terminal 10 not only controls the wireless lighting device 20 through the provided communication module but also calculates information on the current position and transmits the information to the controller 40. [ In addition, the terminal 10 is provided with a plurality of sensors, measures the indoor illuminance, recognizes the surrounding voice or operation, and can transmit the data to the controller 40.

The controller 40 also controls the wireless illumination device 20 at a specific position based on the positional information or the indoor illumination data received from the terminal 10 in addition to the data of the occupant detection sensor 30 or the illumination sensor 60 can do. For example, the controller 40 can control on / off the at least one wireless lighting device 20 installed within a predetermined distance based on the current position of the terminal 10 and control the brightness thereof.

The terminal 10 may mount an illumination control application and communicate with the controller 40 as the illumination control application is executed and receive and display data on the operation state of the wireless illumination apparatus 20. [

The terminal 10 not only receives the illumination control data through the controller 40 but also receives the data of the watt hour meter 80 and the illuminance sensor 60 to confirm the current illuminance and the consumption Displays the amount of power. In addition, the presence or absence of occupants of each room can be confirmed through the data of the occupant detection sensor (30).

The controller 40 not only controls the wireless lighting apparatus 20 to be turned on and off but also controls the wireless lighting apparatus 20 in accordance with data input from the terminal 10 in cooperation with the terminal 10. Further, when the wireless lighting apparatus 20 is turned on, the controller controls its brightness in accordance with the indoor illuminance input from the illuminance sensor 60.

In addition, the controller 40 stores the ON / OFF control history for the wireless lighting device 20, and analyzes the illumination control pattern to generate the pattern data. The controller 40 analyzes the pattern of the wireless illumination device 20 on the basis of the on-off history of the wireless lighting device in units of day, week, month, and year (S340).

The controller 40 accumulates and stores the pattern data, and compares the pattern data with the previously stored pattern data to update the pattern data. The controller 40 sets a control schedule for the wireless lighting device 20 based on the generated pattern data, controls the wireless lighting device 20 in response to input by a switch (not shown), and modifies the pattern data do.

Figure 3 is a diagram illustrating yet another embodiment of a lighting control system in accordance with the present invention. Referring to Fig. 3, the lighting control system further includes a server 50. Fig. And further includes an external server 90 as the case may be.

At this time, the external server 90 provides predetermined contents to the server 50. [

For example, the external server 90 provides the weather information to the weather server, In addition, the external server 90 can provide the power server with information on the total power consumption to the server 50. [

The server 50 receives and accumulates pattern data from the controller 40, compares the previously stored pattern data with new pattern data, and updates and stores the pattern data. The server 50 transmits the updated pattern data to the controller 40 so that the controller controls the wireless lighting apparatus according to the new pattern data.

In some cases, when the controller 40 can not analyze the pattern, the server 50 may generate the pattern data by analyzing the illumination control pattern based on the data received from the controller 40. At this time, the server 50 analyzes the pattern from the data on the control history of the wireless lighting device and generates and stores the pattern data for each period.

In addition, the server 50 applies the content data received from the external server 90 to the pattern data, and transmits the same to the controller 50.

For example, when receiving weather information, the length of daylight and the amount of sunshine increase in summer, the length of daylight in winter decreases, and the amount of sunshine also decreases, so that the brightness of illumination can be changed according to weather information. In addition, even in summer, the amount of sunshine decreases significantly in the rainy season, so that information on the rainy season can be reflected.

Although the controller 40 can be connected to the watt hour meter 80 to receive information on the amount of power consumption, the amount of power consumption can not be confirmed as a whole. 40 so that the controller 40 controls the wireless lighting device 20 accordingly. In addition, the server 50 accumulates positional information of the terminal 10, judges the circulation line of the user appearing repeatedly, and transmits it to the controller 40 so that the illumination can be controlled according to the user's copper line. For example, in case of leaving the place after 7 pm, the server 50 may transmit such data to the controller so that the controller can control the wireless lighting device in the position after 7 pm to be inoperative. However, when a command by a switch operation is inputted, the wireless lighting apparatus is controlled according to the operation of the switch.

4 is a flowchart showing a lighting control method according to the present invention.

Referring to FIG. 4, the occupant detection sensor 30 detects whether the user exists in a specific area (S310). As described above, in the case of an office, a desk and a chair can be specified as the position of the occupant, and the occupant detection for the corresponding position can be performed.

When the occupant detection sensor 30 is not provided, the occupant can be detected through communication with the terminal 10 possessed by the occupant. The terminal 10 and the wireless lighting device 20 can communicate with each other to determine that the wireless lighting device 20 is located within a predetermined distance of the terminal 10 and judge that the wireless lighting device 20 exists. However, an exception may be applied since there is a case where the terminal 10 moves and the occupant moves.

The wireless lighting device 20 operates to illuminate a predetermined area when it is detected that the occupant is present at a specific position, and turns off the light when the occupant does not exist (S320).

In some cases, when the occupant detection sensor 30 is connected to the controller 40, the wireless lighting device 20 can be controlled by the controller.

The wireless lighting device 20 transmits the on-off control history of the illumination to the controller 40. [

The controller 40 cumulatively stores data for each of the wireless lighting apparatuses 20 and analyzes the patterns according to the on / off history of the wireless lighting apparatuses in units of days, weeks, months, and years (S340).

The controller 40 generates and stores pattern data for the control of the wireless lighting device that repeats over a predetermined period of time (S350). At this time, the controller 40 may transmit the pattern data to the server 50 to store the pattern data.

The controller 40 sets a schedule for the wireless lighting device 20 in accordance with the pattern data. For example, if the wireless lighting device 20 is repeatedly turned on at 9 am and off at 7 pm, the controller 40 may set a schedule for 9 o'clock on and 7 o'clock off.

The controller 40 may transmit a lighting command to the wireless lighting device 20 at 9:00 AM and a light OFF command at 7:00 PM according to the schedule. Accordingly, the wireless lighting device 20 turns on and off according to a command of the controller to be received (S370).

When the occupant is detected in the state where the schedule is set (S380), for example, when the occupant is detected at a specific position at 8:30 am, the wireless illuminator 20 operates according to occupant detection (S390) . That is, even if the schedule is not set at 8:30, the lighting is turned on as the occupant is detected.

On the other hand, when a user command based on the operation of the switch 15 is inputted (S400), the wireless lighting apparatus 20 operates with priority on the switch operation (S410).

For example, when the switch is turned on at 8:30, the wireless lighting device 20 is turned on. When the switch 15 is turned off at 12 o'clock in the lighting state at 9 o'clock in accordance with the lighting instruction of the controller 40, the wireless lighting device 20 is turned off according to the switch operation.

The controller 40 controls the wireless lighting device 20 according to a predetermined schedule when the user is not detected or the switch is not operated, that is, when the user is detected within the schedule setting or when the switch is operated. For example, when a user is detected in a state that the wireless lighting device is lit, the wireless lighting device is already operating, and thus the current state is maintained.

The controller 40 stores the control history for the case where the wireless lighting apparatus 20 is turned on or off according to occupant detection or switch operation in operation S420 and analyzes the pattern of the newly stored control history data, Data is generated and stored.

The controller 40 accumulates data on the control history of the wireless lighting apparatus 20 to generate and update pattern data, sets a new schedule for the wireless lighting apparatus 20 according to the updated pattern data, And controls the wireless lighting device 20. At this time, the controller can generate and update pattern data in units of days, weeks, months, and years.

In addition, the controller 40 can transmit the pattern data of the wireless lighting device 20 to the server 50, and accumulate and store the pattern data.

5 is a flow chart illustrating a method for controlling the brightness of illumination in accordance with the present invention.

The watt hour meter 80 measures the amount of power consumed (S450). In particular, the watt-hour meter 80 can measure the amount of power consumed by the wireless lighting device 20. [ The watt hour meter 80 transmits the amount of power consumption to the controller 40.

The illuminance sensor 60 measures the ambient brightness, that is, the illuminance at the respective installed positions (S460). The illuminance sensor 60 transmits the illuminance data to the controller 40. The illuminance sensor 60 may transmit illuminance data to the radio illuminator 20. In this case, the illuminance data 60 may be transmitted to the radio illuminator 20 positioned within a predetermined distance based on the position where the illuminance sensor 60 is installed. Can be transmitted. The light intensity sensor 60 is connected to the wireless lighting device 20 or the controller 40 by wire or wirelessly to transmit data.

The controller 40 analyzes the pattern according to the illumination control based on the received illumination data or the amount of power. In addition, the controller 40 analyzes the pattern of on / off control of the wireless lighting device 20 as described above.

 For example, based on the amount of power, the wireless lighting device can distinguish between when the power consumption increases and when the power consumption decreases, and the change in brightness over time can be analyzed. In particular, the controller 40 matches the illuminance data input from the plurality of illuminance sensors 60 to the position of the illuminance sensor, and analyzes the pattern of the brightness change according to the position.

The controller 40 generates and stores pattern data according to the position of the wireless lighting controller 20 according to the analysis result (S480). At this time, the controller 40 sets a schedule according to the pattern data. The brightness of each wireless lighting apparatus 20 is set to be controlled in accordance with the illuminance detected at the periphery of the window 9 and the illuminance at a predetermined distance from the window 9 as well as the on / off control of the wireless lighting apparatus .

If the wireless lighting device 20 is turned off and there is no operation of a separate switch, the controller 40 controls the wireless lighting device 20 according to the schedule. At this time, the controller determines whether or not the illumination lighting time is reached (S500) and transmits a control command to the at least one wireless lighting apparatus 20 to control the lighting.

On the other hand, when the switch is operated while the wireless illumination device 20 is turned off, the wireless illumination device 20 operates according to the switch input and is turned on.

At this time, the controller 40 sets the illuminance of the wireless illumination device in accordance with the pattern data, and the wireless illumination device 20 is turned on at a predetermined brightness according to the control command of the controller (S500).

If a user command for brightness adjustment is input in the state that the wireless lighting device 20 is turned on (S520), the controller 40 determines whether the change is within an adjustable range (S530).

The controller 40 sets the brightness of the wireless lighting device 20 according to a user command (S540). In step S550, a warning is output for a user command that is out of the limit range, which is not adjustable, and the initial set value is maintained (S560).

For example, if the power consumption is limited, the brightness of the wireless lighting device may be reduced, but a warning may be output for the setting to increase the brightness. In addition, the controller may output a warning when a user command for increasing the brightness is input while the room luminance is higher than a predetermined value and the room luminance measured by the luminance sensor is bright.

The controller 40 stores the changed setting in the existing pattern data, and analyzes the pattern based on the accumulated data at a predetermined time (S570). At this time, since the pattern can not be analyzed with respect to a user command such as a single switch, it is preferable to analyze the pattern based on the information about the set value accumulated for a predetermined time.

For example, when control is repeatedly performed on the wireless lighting device different from the pattern data by the user command through the switch operation in the lighting state, the pattern is analyzed including the contents of the control by the user command.

Pattern data is generated and stored according to the analysis result (S580).

The controller 40 updates the setting with the new pattern data and controls the wireless lighting device 20. [

Therefore, the present invention analyzes a pattern based on an existing control history in controlling a wireless lighting device, and controls the wireless lighting device according to a predetermined pattern, so that a user can conveniently control the lighting, The power consumption can be minimized.

The present invention is not necessarily limited to these embodiments, as all the constituent elements constituting the embodiment of the present invention are described as being combined and operated in one. Within the scope of the present invention, depending on the embodiment, all of the components may operate selectively in combination with one or more.

A computer program having a program module that performs some or all of the functions combined in one or a plurality of hardware by selectively or in combination with a part or all of each of the constituent elements, Lt; / RTI >

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

10: terminal 20: wireless lighting device
30: occupant detection sensor 40: controller
50: server 60: illuminance sensor
80: Watt hour meter

Claims (18)

At least one wireless lighting device provided with a communication module and illuminated with light corresponding to a received control signal;
A controller for analyzing a pattern repeated from the on / off control history of the wireless lighting apparatus and controlling the wireless lighting apparatus according to the pattern;
Wherein the controller sets a schedule corresponding to a control pattern of the wireless lighting device, and controls the wireless lighting device according to the schedule. The method according to claim 1,
Further comprising a switch connected to the wireless lighting device and controlled to be turned off,
Wherein the wireless lighting device automatically operates in response to a control command received from the controller according to the schedule, and the operation is changed corresponding to the operation of the switch. The method according to claim 1,
A occupant detection sensor for detecting a occupant in a predetermined area; Further comprising:
Wherein the wireless lighting device operates in correspondence with the sensed data of the occupant detection sensor, and operates in preference to the schedule. The method according to claim 1,
A terminal for controlling the wireless lighting device through wireless communication; Further comprising:
Wherein the terminal is provided with a lighting control program for controlling the wireless lighting apparatus, and transmits a control signal to the wireless lighting apparatus in accordance with the input data. 5. The method of claim 4,
Wherein the wireless lighting apparatus operates when it receives data from the terminal, judging that there is an occupant. 6. The method of claim 5,
Wherein at least one of the wireless lighting devices located within a predetermined distance based on the position of the terminal is operated. 5. The method of claim 4,
Wherein the terminal communicates with the controller to receive and display the pattern data of the controller and the schedule for the wireless lighting device. The method according to claim 1,
Wherein the controller cumulatively stores on and off control histories of the wireless lighting apparatus and analyzes patterns repeated from the control history at predetermined time intervals to generate pattern data for the wireless lighting apparatus system. 9. The method of claim 8,
Wherein the controller generates the new pattern data by cumulatively storing the operation data when the wireless lighting apparatus operates differently from the schedule by the other control signal and reflecting the accumulated operation data during the next pattern analysis. 9. The method of claim 8,
And a server for accumulating and storing the pattern data generated from the controller and providing weather information or power information to the controller. 11. The method of claim 10,
Wherein the controller controls the wireless lighting device by analyzing a pattern corresponding to the weather information or the power information. The method according to claim 1,
Further comprising an illuminance sensor for sensing brightness,
Wherein the controller controls the plurality of wireless illuminators to emit light of different brightness corresponding to illuminance data input from the illuminance sensor. Operating the wireless lighting device in response to the input control signal;
The controller connected to the wireless lighting device accumulating the on / off control history of the wireless lighting device;
The controller analyzing a pattern repeatedly appearing from the control history to generate pattern data;
Setting a schedule for the controller to control the wireless lighting device in accordance with the pattern data; And
Operating the wireless lighting device according to the schedule; ≪ / RTI > 14. The method of claim 13,
Further comprising the step of operating the wireless lighting device in response to a control signal from an operation of a switch connected to the wireless lighting device or a detection signal from an occupant detection sensor provided, Way. 15. The method of claim 14,
Wherein when the wireless lighting device operates differently from the schedule by the switch or the occupant detection sensor, the control history for the operation of the wireless lighting device is accumulated and controlled by the switch or the occupant detection sensor And generating new pattern data by reflecting the pattern data. 14. The method of claim 13,
The wireless lighting device receiving a signal from the terminal and determining that a wireless receiver is present; And
Further comprising the step of operating at least one said wireless lighting device within a predetermined distance based on the location of said terminal. 14. The method of claim 13,
Receiving a pattern data or schedule data of the wireless lighting apparatus from the controller, the terminal having a program for controlling the wireless lighting apparatus; And
And displaying the pattern data or the schedule data. 14. The method of claim 13,
The controller receiving weather information or power information;
Analyzing a control pattern of the wireless lighting device corresponding to the weather information or the power information; And
And controlling the wireless lighting device in accordance with the weather information or the power information.

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