KR20160037012A - Method for controlling a lighting device and apparatus thereof - Google Patents

Abstract

The present invention relates to a method and an apparatus for automatically controlling a lighting device. The method includes the following steps: determining a lighting mode based on lighting information including at least one from time information and data information; and adjusting lighting of a first lighting device according to the lighting mode. According to one embodiment of the present invention, the lighting can be automatically adjusted to be suitable for an external situation.

Description

[0001] METHOD FOR CONTROLLING A LIGHTING DEVICE AND APPARATUS THEREOF [0002]

One embodiment of the present invention relates to a control device, a control method, and a control method for automatically controlling a lighting device based on illumination information on a surrounding situation, even if the user does not directly control the lighting device, And a computer-readable recording medium storing a computer program for performing the control method.

The user can feel comfortable with the lighting control in the situation when adjusting the lighting in the building. However, it is inconvenient for the user to directly control the lighting by manually controlling the lighting to suit the changing time, season, and external environment.

It is an object of the present invention to provide a lighting apparatus control method and apparatus for automatically controlling lighting of a lighting apparatus by controlling lighting of the lighting apparatus based on the lighting information.

More particularly, the present invention relates to a lighting apparatus control method and apparatus for controlling a lighting apparatus automatically and appropriately by determining an appropriate lighting mode based on illumination information in adjusting lighting conditions .

According to an aspect of the present invention, there is provided a method for controlling a lighting device, the method comprising: determining an illumination mode based on illumination information including at least one of time information and date information; And adjusting the illumination of the apparatus.

In a method of controlling a lighting apparatus according to an embodiment of the present invention, the step of adjusting the illumination of the first lighting apparatus includes the step of controlling at least one of the illuminance and the color temperature of the first illuminator in accordance with the illumination mode can do.

In a lighting device control method according to an embodiment of the present invention, the lighting information may include temperature information.

In the lighting device control method according to an embodiment of the present invention, the lighting information includes at least one of operating information of a cooling device and a heating device, and the operating information is received from an external device.

In a lighting device control method according to an embodiment of the present invention, the lighting information includes reproduction information for a program being reproduced on the display device, and information about the program is received from an external device.

The lighting device control method according to an embodiment of the present invention is characterized in that the information on the program is genre information on EPG (Electronic Program Guide) information.

According to an embodiment of the present invention, there is provided a method of controlling a lighting apparatus, the method comprising: receiving illumination information from a display device; receiving first state information on a power state of the display device; receiving first state information from an external device; And the light distribution method of the lighting apparatus is controlled.

In the lighting device control method according to an embodiment of the present invention, the lighting information may include second state information indicating a power state of the second lighting device.

In a method of controlling a lighting device according to an embodiment of the present invention, the step of determining an illumination mode comprises the steps of: detecting illumination information including detection information of an object received from at least one sensor; And determining a lighting mode of the first lighting device.

A lighting apparatus control apparatus according to an embodiment of the present invention determines a lighting mode based on illumination information including at least one of time information and date information, and generates a signal for adjusting illumination of the first illuminator in accordance with the illumination mode And a communication unit for transmitting a signal for adjusting the illumination of the first illuminator.

The lighting apparatus control apparatus according to an embodiment of the present invention may include a control unit for controlling at least one of the illuminance and the color temperature of the first illuminator in accordance with the illumination mode.

In the luminaire control apparatus according to an embodiment of the present invention, the illumination information may include temperature information.

The illuminator control apparatus according to an embodiment of the present invention may include a control unit that includes at least one of the information on the operation of the cooling apparatus and the heating apparatus and the control unit controls the operation information to be received from the external apparatus, And a communication unit for receiving the data.

In the luminaire control apparatus according to an embodiment of the present invention, the illumination information may include information on a program being displayed on the display device, and may include a communication section for receiving information on the program from an external device, And a control unit for controlling the communication unit to receive the information about the program and controlling the light distribution method of the first illuminator based on the information about the program.

The information on the program in the luminaire control apparatus according to an embodiment of the present invention may be genre information on the EPG information.

The illuminator control apparatus according to an embodiment of the present invention may include the illuminating information may include first state information indicating a power state of the display apparatus and a communication unit receiving first state information from an external apparatus, And a control unit for controlling the communication unit to receive the first status information and controlling the light distribution mode of the lighting device based on the first status information.

In the luminaire control apparatus according to an embodiment of the present invention, the illumination information may include second state information indicating a power state of the second illuminator, and may include a communication section for receiving second state information from an external apparatus And a control unit for controlling to receive the second status information.

In a luminaire control apparatus according to an embodiment of the present invention, the illumination information may include detection information of an object received from at least one sensor, and a control unit that determines the illumination mode based on the second state information and the detection information .

According to another aspect of an embodiment of the present invention, there is provided a computer-readable recording medium storing a program for performing a method of controlling a lighting apparatus.

According to an embodiment of the present invention, the user can automatically control the illumination with an appropriate illumination for an external situation even if the user does not directly control the illumination.

1 is a block diagram relating to a luminaire controlling apparatus for controlling illumination of a first luminaire based on illumination information.
Figure 2 is a flow chart of a method by which the luminaire control device determines the illumination mode based on the illumination information and adjusts the illumination of the first luminaire.
Fig. 3 shows a method of controlling at least one of the illuminance and the color temperature of the illumination of the first illuminator according to the illuminator control device determining the illumination mode based on the illumination information including at least one of the time information and the date information FIG.
4 is a flow chart of a method by which a luminaire control device receives at least one of operating information of a cooling or heating device as lighting information and determines an illumination mode based on operating information.
Fig. 5 illustrates a method in which the luminaire control device receives at least one of operating information of a cooling or heating device as lighting information and determines an illumination mode based on operating information.
6 is a flowchart illustrating a method of controlling the illumination of the first illuminator according to the determined light distribution scheme by receiving the first status information indicating the power status of the display apparatus as illumination information, FIG.
7 is a view illustrating a method in which a lighting apparatus control apparatus receives first state information indicating power state of a display apparatus as illumination information, determines a light distribution scheme based on the received first state information, and controls the first lighting apparatus according to the determined light distribution scheme .
Fig. 8 is a flowchart of a method for the luminaire control device to receive the reproduction information for the program being reproduced in the display device as illumination information and determine the illumination mode based on the reproduction information to adjust the illumination of the first luminaire.
Fig. 9 is a view showing a method in which the luminaire control device receives the reproduction information for the program being reproduced in the display device as illumination information, and determines the illumination mode based on the reproduction information to adjust the illumination of the first illumination device.
10 is a block diagram of a relationship between a luminaire control device and a luminaire for receiving illumination information including information from another luminaire and adjusting the illumination of the first luminaire.
FIG. 11 is a diagram showing a state in which the illuminator control device receives second state information indicating the power state of the second illuminator as illumination information, determines an illumination mode based on the second state information, And a method for controlling the illumination of the display device.
Figure 12 is a flow chart of a method for a luminaire control device to receive second state information and detection information of an object as illumination information and to determine the illumination mode on the basis thereof and adjust the illumination of the first illumination device according to the determined illumination mode .
Figure 13 illustrates how the luminaire control device receives second state information and detection information of an object as illumination information and determines an illumination mode based thereon and adjusts the illumination of the first illumination device according to the determined illumination mode .
14 is a block diagram of the configuration of a lighting device control apparatus according to an embodiment of the present invention.
15 is a block diagram of a lighting apparatus control apparatus for receiving illumination information.

Brief Description of the Drawings The advantages and features of the present invention, and how to accomplish them, will become apparent with reference to the embodiments described hereinafter 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.

The terms used in this specification will be briefly described and the present invention will be described in detail.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. Also, in certain cases, there may be a term selected arbitrarily by the applicant, in which case the meaning thereof will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term, not on the name of a simple term, but on the entire contents of the present invention.

When an element is referred to as "including" an element throughout the specification, it is to be understood that the element may include other elements as well, without departing from the spirit or scope of the present invention. Also, as used herein, the term "part " refers to a hardware component such as software, FPGA or ASIC, and" part " However, "part" is not meant to be limited to software or hardware. "Part" may be configured to reside on an addressable storage medium and may be configured to play back one or more processors. Thus, by way of example, and not limitation, "part (s) " refers to components such as software components, object oriented software components, class components and task components, and processes, Subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays and variables. The functions provided in the components and "parts " may be combined into a smaller number of components and" parts " or further separated into additional components and "parts ".

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In order to clearly explain the present invention in the drawings, parts not related to the description will be omitted.

1 is a block diagram of a luminaire control apparatus in which a luminaire control apparatus 110 controls an illumination 132 of a first luminaire 130 based on illumination information, according to an embodiment of the present invention. The luminaire control device 110 may control the illumination 132 of the first illuminator 130 based on the illumination information. The lighting information may mean information about the situation around the lighting as a condition for controlling the lighting. Examples of the lighting information include time information, season information, date information, temperature information, operation information of a peripheral device (for example, a cooling device or a heating device), reproduction information on a program being reproduced, EPG information, Power state information, power state information of other lights, object detection information, and the like. The lighting device control device 110 may be included in the first lighting device 130 together with the lighting 132 of the first lighting device 130 and may be separate from the first lighting device 130 Configuration.

The lighting apparatus control apparatus 110 controls the operation of the first lighting apparatus 130 based on time information, date information, temperature information, program information being reproduced in the display apparatus, information on the power supply state of the display apparatus, The illumination 132 can be adjusted. Such illumination information may be received from external devices, such as TV 120, sensor 124, thermometer 126, cooling device 128, heating device 129, and the like. More specifically, for example, the luminaire control device 110 may receive illumination information from a real time clock (RTC) 122, which is an external device, to utilize time information or date information as illumination information, The time information or the date information may be used by using the RTC 122 included in the controller 110, but the present invention is not limited thereto. A detailed description will be given below by way of examples.

2 is a flowchart of a method by which the illuminator control device 110 determines an illumination mode based on illumination information including at least one of time information and date information to adjust the illumination of the first illumination device.

In step S210, the lighting apparatus control apparatus 110 can determine the lighting mode based on the illumination information. The lighting information may include information such as the circumstance of the lighting device 130, for example, temperature, brightness, season, time, whether the user is rewired, whether the TV is powered on, whether the vacuum cleaner is in operation, Whether or not the set temperature of the heating / cooling apparatus is a certain temperature, and the like. The illumination mode may refer to a method of illuminating the illumination 132, such as illuminance, color temperature, power on / off, and a light distribution scheme, using the first illumination device 130.

In step S220, the lighting apparatus control apparatus 110 may adjust the lighting 132 of the first lighting apparatus 130 according to the lighting mode determined in step S210. As a result of adjusting the illumination 132 of the first illumination device 130 according to the illumination mode, it is possible to maintain an appropriate illumination state in consideration of the circumstance of the first illumination device 130. [ Specific details thereof will be described below with reference to examples of the present invention.

3 is a flowchart of a method for controlling at least one of the illuminance and the color temperature of the first illuminator by the illuminator control device 110 by determining the illumination mode based on the illumination information including at least one of the time information and the date information to be.

In step S310, the lighting apparatus control apparatus 110 may determine the lighting mode based on the lighting information including at least one of the time information and the date information. As one embodiment of the present invention, the illumination information such as time information or date information may be received from the RTC, which is an external device, or may be obtained by using time information and date information by using elements included in the illuminator control device 110, But the present invention is not limited thereto. Referring to this illumination information, the luminaire control apparatus 110 can determine an illumination mode for adjusting the illumination 132 of the first illumination device 130. [

In step S320, the luminaire controller 110 may adjust the lighting 132 of the first lighting device 130 according to the determined lighting mode, specifically, control at least one of the illuminance and the color temperature of the lighting 132 .

In one embodiment of the present invention, when the illumination information is time information, the lighting apparatus control apparatus 110 adjusts the illumination 132 of the first illumination device 130 based on the time information to adjust the illumination of the illumination 132 Can be controlled. Since the illuminance of the present room is changed according to the time, the illuminance control device 110 can maintain the proper illuminance of the room even if there is a difference in the light entering the room with time. For example, the luminaire controller 110 may determine a lighting mode in which the illuminance of the illumination 132 of the first illuminator 130 is the maximum illuminance of the illumination 132 before 10 pm, The illuminance of the illumination 132 of the first illumination device 130 can be controlled from 10:00 pm to 12:00 am and 80% of the maximum illumination of the illumination 132 can be controlled The illuminance of the illumination 132 of the first illuminator 130 can be controlled by adjusting the illumination of the illumination 132 of the first illuminator 130 after 12:00 am, The illuminance of the illumination 132 of the first illuminating device 130 can be controlled by determining the illumination mode that is 50% of the maximum illuminance of the first illuminating device 130. As another embodiment of the present invention, in consideration of the fact that it is necessary to prevent glare in the case of occurring during the morning time zone, for example, from 0 am to 6 am, ) And the color temperature is 3000K, the illuminance and the color temperature of the illumination 132 of the first illumination device 130 can be controlled. However, the numerical value of the illuminance corresponds to one embodiment and is not construed to be limited thereto. It is also possible to determine whether the preset time corresponds to a predetermined time through the time information of the RTC, but the present invention is not limited thereto.

In one embodiment of the present invention, the lighting device control apparatus 110 controls the lighting 132 of the first lighting device 130 based on the date information, when the lighting information is date information, The color temperature can be controlled. The lighting apparatus control apparatus 110 determines the lighting mode at a color temperature that gives a cool feeling for a hot season and a color temperature that gives a warm feeling for a cold season because the sensation temperature sensed by a person changes according to the seasons, The illumination 132 of the light source 130 can be controlled. For example, the lighting apparatus control apparatus 110 may have a color temperature ranging from 4000K to 4500K in the spring (March to May) or autumn (September to November) and a color temperature ranging from 5000K to 5500K , And in winter (December to February), the lighting mode is determined so that the color temperature can be 3000K to 3500K, and the lighting 132 of the first lighting device 130 can be controlled accordingly. However, the numerical value of the color temperature corresponds to one embodiment and is not construed to be limited thereto. It is also possible to determine the season by determining whether it is a predetermined date through the date information of the RTC, but it is not limited thereto.

In a case where the illumination information corresponds to the time information and the date information, the lighting apparatus control apparatus 110 may control the lighting 132 of the first lighting apparatus 130 based on the time information and the date information, The illumination and color temperature of the illumination 132 can be controlled. For example, color temperature ranges from 4000K to 4500K in spring (March to May) or autumn (September to November), color temperature ranges from 5000K to 5500K in summer (June to August) The color temperature can be from 3000K to 3500K on December to February and the illumination of the illumination 132 of the first illumination device 130 is adjusted to the maximum illumination of the illumination 132 before 10:00 pm based on the time information, The illuminance of the illumination 132 of the first illuminator 130 is 80% of the maximum illuminance of the illumination 132 of the first illuminator 130 from 12:00 pm to 12:00 pm, The illuminance of the illumination 132 of the first illuminating device 130 can be adjusted by determining the illumination mode which is 50% of the maximum illuminance of the first illuminating device 132.

Further, the luminaire control device 110 may adjust the illuminance of the illumination 130 of the first illuminator 130 based on the time information and the date information. For example, the lighting mode may be determined so that the illuminance of each day of the day differs from season to season, or the lighting mode may be determined to be different from the time period of changing the illuminance of each season. If it is determined that the season is summer based on the date information, the illuminance of the illumination 132 of the first illumination device 130 is adjusted by the illumination 132 Of the maximum illumination of the illumination 132 of the first illumination device 130 and the maximum illumination of the illumination 132 of the first illumination device 130 after 6:00 am from 10:00 pm to 6:00 am May determine the illumination mode in which the illuminance of the first illuminator 130 is 50% of the maximum illuminance of the illumination 132 to adjust the illumination 132 of the first illuminator 130. [

Alternatively, if it is determined that the season is winter based on the date information, the illuminance of the light 132 of the first lighting device 130 is the maximum illuminance of the light 132, The illuminance of the illumination 132 of the first illuminating device 130 is changed to the illuminance of 70% of the maximum illuminance of the illumination 132 of the first illuminating device 130 from 9:00 am to 8:00 am, The illumination mode of the first illumination device 130 may be determined by determining an illumination mode that is 40% of the maximum illumination of the first illumination device 130. [

Further, the lighting apparatus control apparatus 110 can control the color temperature of the illumination 132 based on the temperature information corresponding to the illumination information, in order to adjust the illumination 132 of the first lighting apparatus 130. In addition to controlling the color temperature of the illumination 132 of the first illuminator 130 by determining the season based on the date information and using the color temperature suitable for the determined season, the color temperature may be controlled based on the substantially measured temperature. For example, if the temperature information is 20 degrees Celsius or more, the color temperature is 4500K, and if the temperature information is less than 20 degrees Celsius, the color temperature is 3500K, and the color temperature of the illumination 132 of the first lighting device 130 is controlled . The temperature information may be received from an external device such as the thermometer 126 or may be temperature information obtained using the temperature sensor included in the illuminator control device 110. However, the present invention is not limited thereto.

4 is a flowchart of a method by which the lighting device control apparatus 110 receives at least one of the operating information of the cooling device or the heating device as the lighting information and determines the lighting mode based on the operating information.

In step S410, the lighting apparatus control apparatus 110 can receive at least one of the operating information of the cooling apparatus or the heating apparatus as the illumination information. It is possible to determine the illumination mode by referencing at least one of the illumination information of the time information and the date information as the illumination information other than the operation information. The operation information may be information indicating whether the cooling device 128 or the heating device 129 is operating or not, or set temperature information set for cooling or heating, but the present invention is not limited thereto.

In step S420, the lighting apparatus control device 110 can determine the lighting mode based on the operation information received in step S410. For example, when the cooling device 128 is operating, the lighting device control device 110 can determine the lighting mode so that the color temperature of the lighting 132 of the first lighting device 130 is 5000K, The lighting mode can be determined so that the color temperature of the illumination 132 of the first lighting device 130 is 3000K. Further, in the case of a device capable of cooling and heating together, if the set temperature information is less than 18 degrees Celsius as operation information, the lighting mode can be determined so that the color temperature of the lighting 132 of the first lighting device 130 becomes 5000K, The lighting mode can be determined so that the color temperature of the illumination 132 of the first lighting device 130 is 3000 K when the temperature information is 18 degrees Celsius or more. However, specific set temperature information or color temperature values are not limited to this.

5 illustrates how the luminaire control device 110 receives at least one of the operating information of the cooling device 520 and the heating device 530 as lighting information and determines the lighting mode based on the operating information. The luminaire control device 510 may correspond to the luminaire controller 110 of Fig. 1, the first luminaire 530 may correspond to the first luminaire 130 of Fig. 1, Illumination 532 may correspond to illumination 132 of FIG. 5, the first lighting device 530 includes a lighting device control device 510. However, as described with reference to FIG. 1, the lighting device control device 510 includes the first lighting device 530, Or may be a separate device separately configured. The lighting device control device 510 can receive operating information from at least one of the cooling device 520, the heating device 530 or the heating / cooling device 540, 530 of the illumination system.

6 is a flowchart of a method of controlling the light distribution method of the first lighting device 130 based on the first state information indicating the power state of the display device as the lighting information.

In step S610, the lighting apparatus control apparatus 110 receives first state information on the power state of the display apparatus as illumination information.

In step S620, the lighting device control apparatus 110 may determine the light distribution mode of the first lighting device 130 based on the first state information received in step S610. Specifically, when it is determined that the power of the display device is turned on based on the first state information indicating the power state of the display device, the light distribution method of the first lighting device 130 can be determined based on the determination. In determining the light distribution mode, at least one of the time information and the date information may be referred to in addition to the first state information. The light distribution method can mean the manner in which light enters into the surroundings. Such a light distribution method may include a method of directly distributing the existing illumination by a direct light distribution method or an indirect light distribution method, and further, a light distribution method may be controlled by using an LED lighting device capable of controlling the light distribution. However, the type of the light distribution method is not limited thereto. The first status information may be information on whether the display device is turned on.

In step S630, the illuminator control device 110 displays the image on the display device in accordance with the illuminance of the illuminator 132 of the first illuminator 130, the incident angle of the light, The light distribution pattern of the illumination 132 of the first lighting device 130 can be controlled in view of the fact that the reflected glare of the device is so severe that the use of the display device is hindered. For example, the indirect light distribution method may be changed from the direct light distribution method to the indirect light distribution method, or the light distribution method may be adjusted by using an LED lighting device capable of adjusting the light distribution. However, the method of changing the light distribution method is not limited thereto.

7 is a flowchart illustrating a method of controlling the first illuminating device according to the first embodiment of the present invention. The illuminating device control device 710 receives first state information indicating the power state of the display device 720 as illumination information, Is an urbanization method. The luminaire control device 710 may correspond to the luminaire controller 110 of Fig. 1, the first luminaire 750 may correspond to the first luminaire 130 of Fig. 1, The illumination 752 of the first illumination device 750 may correspond to the illumination 132 of the first illumination device 130 of FIG.

According to an embodiment of the present invention, the lighting apparatus control apparatus 710 receives the first state information indicating the power state of the display apparatus 720 and determines the light distribution pattern of the first lighting apparatus 750 based thereon Thereby controlling the light distribution mode of the first lighting device 750. [ The light distribution schemes that can be controlled include direct light distribution 730 and indirect light distribution 740. The control of the light distribution method can be performed by directly controlling the light distribution 730 and the indirect light distribution 740 by using the illumination that can adjust the light distribution of the first lighting device 750, but the present invention is not limited thereto.

Fig. 8 is a view showing a state in which the luminaire control device 110 receives the reproduction information for the program reproduced on the display device as the illumination information, determines the illumination mode of the first illumination device based on the reproduction information, Fig. 2 is a flow chart of a method of controlling lighting of an apparatus. Fig.

In step S810, the lighting apparatus control apparatus 110 can receive the reproduction information for the program being reproduced on the display device as the illumination information. The display device may refer to a device capable of displaying arbitrary images and images on a display such as a TV or a mobile phone. The reproduction information may mean genre information of the program being reproduced. In particular, the reproduction information can be extracted from the EPG information in the case of digital broadcasting, but is not limited thereto. Such playback information may be received from a set-top box or the like that is separate from the display device, and may be received directly from the display device using a set-top box built in the display device. However, The present invention is not limited thereto.

In step S820, the lighting apparatus control apparatus 110 can determine the lighting mode based on the reproduction information received in step S810. In determining the illumination mode, at least one of the time information and the date information may be referred to in addition to the first state information.

In step S830, the lighting device control apparatus 110 may adjust the lighting 132 of the first lighting device 130 according to the lighting mode determined in step S820. In one embodiment of the present invention, the luminaire control apparatus 110 may be configured to control the illumination of the illumination 132 of the first illuminator 130 in accordance with the illumination mode determined based on the illumination information including at least one of the time information and the date information. During the control of at least one of the illuminance and the color temperature, the display device can receive the reproduction information for the program being reproduced. In this case, the lighting apparatus control device 110 can analyze the reproduction information to determine the genre of the program being reproduced, and can adjust the lighting 132 of the first lighting device 130 with appropriate illumination and color temperature for each genre . For example, when watching a movie, the lighting 132 of the first lighting device 130 can be adjusted to an illuminance of 100 lx and a color temperature of 3000 K. In the case of watching a sports scene, the illuminance is 300 lx and the color temperature is 5000K, The illumination 132 of the instrument 130 can be adjusted. However, the present invention is not limited to the above-described genre information, illuminance or color temperature as an embodiment.

9 is a diagram showing an example in which the luminaire control device 910 receives the reproduction information for the program being reproduced in the display device 922 as the illumination information and determines the illumination mode based on the reproduction information, (932). ≪ / RTI > The luminaire control device 910 may correspond to the luminaire controller 110 of Fig. 1, the first luminaire 930 may correspond to the first luminaire 130 of Fig. 1, The illumination 932 of the first illuminator 930 may correspond to the illumination 132 of the first illuminator 130 of FIG.

In one embodiment of the present invention, the luminaire control device 910 can receive playback information for the program being played back on the display device 922. [ The lighting mode may be determined based on the received reproduction information. However, in determining the lighting mode, at least one of the time information and the date information may be referred to in addition to the reproduction information. The playback information may be received from the set-top box 924 associated with the display device as an external device and received from the display device 922 if the display device 922 includes the set-top box 924, But is not limited thereto.

10 is a block diagram of a lighting apparatus control apparatus 1010 that receives illumination information including information from other lighting apparatuses and adjusts the illumination 1021 of the first lighting apparatus 1020, . The luminaire control apparatus 1010 may correspond to the luminaire controller 110 of Fig. 1, the first luminaire 1020 may correspond to the first luminaire 130 of Fig. 1, The illumination 1021 of the first illumination device 1020 may correspond to the illumination 132 of the first illumination device 130 of FIG. The luminaire control apparatus 1010 may be included in the first illuminator 1020 together with the illuminator 1021 of the first illuminator 1020 and may be included in the first illuminator 1020, Configuration. The lighting device control apparatus 1010 includes time information, date information, temperature information, program information being reproduced on the display device, information on the power state of the display device, information on the power state of the display device, It is possible to adjust the illumination 1021 of the first illuminator 1020 based on information received from the mechanism 1022 or the like. Such illumination information may be received from external devices, such as a TV 1030, a sensor 1034, a thermometer 1036, a cooling device 1038, a heating device 1039, and the like. The detailed description is the same as that described above with reference to Figs. 1 to 9. However, the contents of determining the illumination mode based on the information received from the second illuminating device 1022 will be described by the following embodiments.

Fig. 11 is a diagram showing a state in which the lighting apparatus control apparatus 1010 receives the second state information indicating the power state of the second lighting apparatus 1022 as the illumination information, determines the illumination mode based on the second state information, In accordance with an embodiment of the present invention. The second state information may mean information about whether the illumination 1023 of the second illumination device 1022 is on.

In step S1110, the lighting apparatus control apparatus 1010 can receive second state information indicating the power state of the second lighting apparatus 1022 as illumination information. The second state information corresponding to the second lighting device 1022 may be received from a separate device associated with the second lighting device 1022 and may be received directly from the second lighting device 1022 .

In step S1120, the lighting apparatus control apparatus 1010 can determine the lighting mode based on the second state information. However, in determining the lighting mode, the lighting apparatus control apparatus 1010 may refer not only to the second status information, but also to at least one of the time information and the date information. The illuminator control device 1010 can determine the illumination mode for the first illuminator 1020 based on the second status information when the illumination 1023 of the second illuminator 1022 is turned on. In one embodiment of the present invention, the illuminator control apparatus 1010 includes a first illuminator 1020 for controlling at least one of illuminance and color temperature based on illumination information including at least one of time information and date information And further determine the illumination mode by further receiving the second status information for the illumination 1023 of the second illuminator 1022. [ In this case, when the second state information includes information as to whether or not the illumination 1023 of the second illumination device 1022 is turned on, the illumination device control apparatus 1010 generates the time information and the date The illumination mode may be determined to be different from the illumination mode determined based only on the illumination information including at least one of the information. For example, when the lighting apparatus control apparatus 1010 is based on the lighting information including the time information and the date information, the date information indicates the color temperature in the spring (March to May) or autumn (September to November) The color temperature is controlled so that the color temperature is from 5000K to 5500K in summer (June to August) and the color temperature is from 3000K to 3500K in winter (December to February) The maximum illuminance of the illumination 1022 of the lighting apparatus 1020 and 80% of the maximum illuminance of the illumination 1022 of the first illuminator 1020 from 10:00 pm to 12:00 am, It is possible to determine the illumination mode to control the illuminance so as to be 50% of the maximum illuminance of the illumination 1022 of the light source 1020. In this case, the luminaire controller 1010 may further receive the second state information, and if based on this, the illumination 1023 of the second luminaire 1022 is off, It is possible to determine the illumination mode for adjusting the illumination and color temperature of the illumination 1021 of the first illumination device 1020 to the illumination and color temperature appropriate for the current time and date based only on the illumination information, If the illumination 1023 is turned on, the illumination mode for the appropriate illumination and color temperature in accordance with the situation, taking into account the relationship between the illumination 1021 of the first illumination device 1020 and the illumination 1023 of the second illumination device 1022, Can be determined.

12 is a block diagram of a lighting device control system 1010 in which the lighting device control apparatus 1010 receives second state information and detection information of an object as illumination information and determines an illumination mode based thereon, 1021) in the second embodiment.

In step S1210, the lighting apparatus control apparatus 1010 may receive second state information indicating the power state of the second lighting apparatus 1022 as illumination information. The second state information corresponding to the second lighting device 1022 may be received from a separate device associated with the second lighting device 1022 and may be received directly from the second lighting device 1022 .

In step S1220, the luminaire control apparatus 1010 may receive detection information of the object from at least one sensor as illumination information. The detection information of the object may mean information about whether the object is detected by each sensor. According to one embodiment of the present invention, the lumi- nator control device 1010 is configured to receive the illumination 1021 of the first illuminator 1020 by being positioned around the illuminator 1021 of the first illuminator 1020 from at least one sensor, Which can be referred to in determining whether or not there is an object using the object.

In step S1230, the lighting apparatus control apparatus 1010 can determine the lighting mode based on the second state information and the detection information received as the illumination information. In one embodiment of the present invention, the illuminator control apparatus 1010 includes a first illuminator 1020 for controlling at least one of illuminance and color temperature based on illumination information including at least one of time information and date information And further determine the illumination mode by further receiving second state information and object detection information for the illumination 1023 of the second illumination device 1022. [ In this case, if the second state information includes information about whether the illumination 1023 of the second illumination device 1022 is on, and the detection information includes information about whether the object is in the vicinity of the sensor, The illumination mode determining unit 1010 may determine an illumination mode different from the illumination mode determined based only on the illumination information including at least one of the time information and the date information based on the second state information.

In an embodiment of the present invention, the lighting device control apparatus 1010 may be configured such that when the lighting information is based on lighting information including time information and date information, the date information is displayed in the spring (March to May) or autumn (September to November ) Has a color temperature ranging from 4000K to 4500K, a color temperature ranging from 5000K to 5500K during summer (June to August) and a color temperature ranging from 3000K to 3500K during winter (December to February) The maximum illuminance of the illumination 1022 of the first illuminator 1020 and 80% of the maximum illuminance of the illumination 1022 of the first illuminator 1020 from 10:00 pm to 12:00 am, It is possible to determine the illumination mode for controlling the illuminance to be 50% of the maximum illuminance of the illumination 1022 of the first illuminator 1020. In this case, the luminaire controller 1010 may further receive the second state information, and if based on this, the illumination 1023 of the second luminaire 1022 is off, It is possible to determine the illumination mode for adjusting the illumination and color temperature of the illumination 1021 of the first illumination device 1020 to the illumination and color temperature appropriate for the current time and date based only on the illumination information, If the illumination 1023 is turned on, the illumination mode for the appropriate illumination and color temperature in accordance with the situation, taking into account the relationship between the illumination 1021 of the first illumination device 1020 and the illumination 1023 of the second illumination device 1022, Can be determined.

However, when the illumination 1023 of the second illuminator 1022 is turned on based on the second status information, a different illumination mode may be determined depending on whether or not there is an object around the sensor based on the detection information . For example, at least one sensor may be located near the illumination 1021 of the first illumination device 1020 to detect the presence or absence of objects in the vicinity of the illumination 1021 of the first illumination device 1020 Can be received by the lighting device control device (1010). In this case, when there is no object in the vicinity of the illumination 1021 of the first illuminator 1020 based on the detection information from the at least one sensor, the illumination 1021 of the first illuminator 1020 The illumination mode can be determined to have a specific illumination and color temperature, unlike when the illumination mode is determined based only on illumination information including time information and date information. Specifically, for example, when the lighting 1021 of the first lighting device 1020 is living room lighting and the lighting 1023 of the second lighting device 1022 is kitchen lighting, when the kitchen lighting is turned on, Illumination and color temperature can be adjusted depending on whether there are people in the living room. If there is no person in the living room, the lighting apparatus control apparatus 1010 can adjust the living room lighting according to the overall illuminance and color temperature of the restaurant, for example, 60 to 150 lx and the color temperature of 3000 to 3500K. If there is a person in the living room, the luminaire control device 1010 can adjust the living room lighting to an appropriate illuminance and color temperature for the daytime and season, based on the time information and the date information, separately from whether the kitchen light is on.

13 is a flowchart illustrating a method for controlling the lighting device 1320 of the first lighting device 1320 according to the determined lighting mode by receiving the second state information and the detection information of the object as lighting information, Quot;) < / RTI > The luminaire control device 1310 may correspond to the luminaire control device 1010 of Fig. 10 and the first luminaire 1320 may correspond to the first luminaire 1020 of Fig. 10, The illumination 1322 of the first illumination device 1320 may correspond to the illumination 1021 of the first illumination device 1020 of FIG. The second illumination device 1330 may correspond to the second illumination device 1022 of Figure 10 and the illumination 1332 of the second illumination device 1330 may correspond to the illumination of the second illumination device 1022 of Figure 10 (1023). The illuminator control device 1310 may be included in the first illuminator 1320 together with the illuminant 1322 of the first illuminator 1320 and may be included in the first illuminator 1320 differently from the first illuminator 1320, Configuration.

In one embodiment of the present invention, the illuminator control device 1310 may receive second state information from the second illumination device 1330 as illumination information and may detect object detection information from at least one sensor 1340 . The specific contents for receiving the second status information may correspond to the step S1210 in Fig. 12, and the specific contents for receiving the detection information may correspond to the step S1220 in Fig. 12, and therefore will be omitted. The luminaire control device 1310 can determine the illumination mode based on the received second state information and detection information and can adjust the illumination 1322 of the first illumination device 1320 according to the determined illumination mode, The detailed contents of step S1230 to step S1240 of FIG. 12 can be corresponded to the contents of step S1230.

14 is a block diagram of a configuration of a lighting device control apparatus 1400 according to an embodiment of the present invention. The lighting device control device 1400 may correspond to the lighting device control device 110 of Fig. The lighting apparatus control apparatus 1400 may include a controller 1410. The controller 1410 may determine a lighting mode based on the lighting information and may control the lighting of the first lighting apparatus in accordance with the determined lighting mode The communication unit 1420 can be controlled. According to an embodiment of the present invention, the communication unit 1420 includes a communication unit 1420 and a communication unit 1420. The communication unit 1420 may be a Wi-Fi, a Bluetooth, a World Interoperability for Microwave Access (Wimax), a High Speed Downlink Packet Access (HSDPA), a Radio Frequency Identification Infrared Data Association), ZigBee, and the like. The details of the feature that the lighting apparatus control apparatus 1400 can receive the lighting information through the communication unit 1420, determine the lighting mode based on the lighting information, and control the lighting of the first lighting apparatus according to the determined lighting mode Are omitted because they can correspond to the contents described in Figs. 1 to 13.

15 is a block diagram of a luminaire control apparatus 1500 for receiving illumination information and controlling a first illuminator 1530. As shown in Fig. The lighting device control device 1500 including the control unit 1510 and the communication unit 1520 may correspond to the lighting device control device 1400 of Fig. The control unit 1510 may determine the illumination mode based on the illumination information and the communication unit 1520 may receive the illumination information and control the illumination 1531 of the first illumination device 1530 according to the determined illumination mode Signal can be transmitted. In particular, the lighting apparatus control apparatus 1500 can receive the second status information from the second lighting apparatus 1541 through the communication unit 1520, and the control unit 1510 can determine the lighting mode based on the second status information have. The detailed contents of one embodiment of the present invention related thereto can be corresponded to the contents described in FIG. 10 to FIG. 13, and will be omitted.

Meanwhile, the present invention can be realized by storing computer-readable codes in a computer-readable storage medium. Computer-readable storage media includes any type of storage device in which data that can be read by a computer system is stored. The computer readable code is configured to perform the steps of implementing the method of controlling a luminaire according to the present invention when read and executed by the processor from the computer readable storage medium. Computer readable code can be implemented in a variety of programming languages. And functional programs, codes, and code segments for implementing embodiments of the present invention may be readily programmed by those skilled in the art to which the present invention pertains.

Examples of computer-readable storage media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like. In addition, the computer-readable storage medium may be distributed over a networked computer system so that computer readable code is stored and executed in a distributed fashion.

Claims (19)

Determining an illumination mode based on illumination information including at least one of time information and date information; And
And adjusting the illumination of the first illuminator in accordance with the illumination mode. The method according to claim 1,
Wherein adjusting the illumination of the first illuminator comprises:
And controlling at least one of an illuminance and a color temperature of the first illuminator in accordance with the illumination mode. The method according to claim 1,
Characterized in that the illumination information comprises temperature information. The method according to claim 1,
Wherein the illumination information includes at least one of operation information of a cooling apparatus and a heating apparatus, and the operation information is received from an external apparatus. The method according to claim 1,
The illumination information may include,
Wherein the display device includes reproduction information for a program being reproduced on the display device, and information on the program is received from an external device. 6. The method of claim 5,
Wherein the information on the program is genre information on EPG (Electronic Program Guide) information. The method according to claim 1,
The illumination information may include,
The first state information includes first state information on a power state of the display apparatus, the first state information is received from an external apparatus,
Wherein adjusting the illumination of the first illuminator comprises:
And controls the light distribution method of the first illuminating device based on the first status information. The method according to claim 1,
Wherein the illumination information includes second state information indicating a power state of the second illumination device. 9. The method of claim 8, wherein determining the illumination mode comprises:
Wherein the illumination information includes detection information of an object received from at least one sensor and determining an illumination mode of the first illumination device based on the second state information and the detection information , Lighting device control method. A control unit for determining an illumination mode based on illumination information including at least one of time information and date information, and controlling to transmit a signal for adjusting illumination of the first illuminator in accordance with the illumination mode; And
And a communication section for transmitting a signal for adjusting the lighting of the first lighting apparatus. 11. The method of claim 10,
Wherein,
And controls at least one of the illuminance and the color temperature of the first illuminating device according to the illumination mode. 11. The method of claim 10,
Wherein the illumination information includes temperature information. 11. The apparatus of claim 10, wherein the control unit
Wherein the illumination information includes at least one of operation information of a cooling apparatus or a heating apparatus and controls the operation information to be received from an external apparatus,
And the communication unit receives the operation information. 11. The method of claim 10,
Wherein the illumination information includes information about a program being displayed on the display device,
Wherein the communication unit receives information on the program from an external apparatus,
Wherein the control unit controls the communication unit to receive information on the program and controls the light distribution method of the first illuminator based on the information on the program. 15. The method of claim 14,
Wherein the information on the program is genre information on the EPG information. 11. The method of claim 10,
Wherein the illumination information includes first state information indicating a power state of the display device,
Wherein the communication unit receives the first status information from an external device,
Wherein the control unit controls the communication unit to receive the first state information and controls the light distribution method of the lighting apparatus based on the first state information. 11. The method of claim 10,
Wherein the illumination information includes second state information indicating a power state of the second illumination device,
Wherein the communication unit receives the second status information from an external apparatus,
And the control unit controls to receive the second status information. 18. The method of claim 17,
Wherein the illumination information includes detection information of an object received from at least one sensor,
Wherein the control unit determines the illumination mode based on the second state information and the detection information. A computer-readable recording medium having stored thereon a program for carrying out the method for controlling a lighting device according to any one of claims 1 to 9.

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