KR20140017419A - Light control system using statement of personal computer which is applied to a building for energy saving and method thereof - Google Patents

Abstract

The present invention relates to a duty state adaptive light control system and a method thereof and more particularly, to a light control system using a PC state applied to a building for saving energy and a method thereof, capable of improving an energy saving effect and providing the optimum lighting environment for a duty environment by varying a lighting environment according to a PC operating state. The present invention improves the energy saving effect and optimizes the lighting environment at the same time by adaptively controlling illumination by easily checking the temporary empty state and the absence and presence of a worker through the PC operating state. [Reference numerals] (100) Light control server

Description

Light control system using statement of Personal Computer which is applied to a building for energy saving and method approximately}

The present invention relates to a lighting control system using a PC state applied to a building for the purpose of energy saving, and a method thereof, and more particularly, to provide a lighting environment optimized for a work environment by varying the lighting environment according to the PC operating state. At the same time, the present invention relates to a lighting control system and a method using a PC state applied to a building for the purpose of energy saving to achieve energy saving effect.

At present, the assembly building is equipped with fluorescent lights, incandescent lamps, and LED lights in various places, and a system for effectively managing a plurality of lights is being settled in conjunction with recent energy saving policies. Accordingly, a method of connecting a plurality of lights with a few light control servers through a communication line and inputting a control command to the light control server instead of directly controlling individual lights has been used.

Recently, the integrated management system of such lighting is not limited to a simple dimming control function for energy saving, but in conjunction with various systems to control lighting based on events to provide a more efficient intelligent lighting control system. The development is being done.

For example, an intelligent lighting control system applied to an office environment may turn on a lighting lamp corresponding to a worker's seat according to whether the worker is going to work, and turn off the unused lighting lamp among all the lighting lamps in the office, thereby reducing unnecessary energy consumption. It operates so that it does not occur.

However, there are many cases in which workers leave their seats temporarily due to meetings, business trips, meals, etc., as well as simple commute, and thus, unnecessary energy consumption occurs when the lighting is kept in such a state.

In addition, when the lights corresponding to the seats of the vacant workers are turned off, the ambient light is lowered even if the lights corresponding to the seats of other employees are currently working, and as the number of vacant workers is around, the ambient light is sharply lowered. Discomfort may occur in the environment.

Therefore, there is a need to provide a lighting control system that can adaptively respond to the working state of the worker to optimize the lighting environment and efficiently operate energy.

Korean Utility Model Publication No. 2001-0002179

In order to solve the above problems, it is easy to determine whether the worker is temporarily away from work as well as commute, and adjust the illumination of the light adaptively to improve the energy saving effect and at the same time depending on the working condition of the worker The goal is to provide a system that can be optimized.

In addition, an object of the present invention is to solve the problem of the existing system in which the peripheral illuminance is reduced according to the vacancy of the other workers adjacent to the worker, so that the working environment is always maintained in an optimized illuminance.

In addition, an object of the present invention is to differentially control the illuminance of the lighting according to the PC operating state of the worker to reduce the heat generated by the lighting and to improve the energy saving efficiency.

Lighting control system using a PC state applied to the building for the purpose of energy saving including a lighting control server connected via a plurality of PCs and a communication network according to an embodiment of the present invention for achieving the above object, the respective PCs And an application unit for monitoring the operation state of the PC which is installed in the operating system and is changed to the predetermined state, and transmits the corresponding information through the communication network as operation state information for lighting control. A dimming control unit for remote dimming control of a plurality of lights assigned to the plurality of lights, a communication unit connected to a plurality of personal computers through a communication network to receive unique identification information and the operation state information from each PC, and uniqueness of the PC. A mapping table in which one or more lighting ID information is grouped with respect to the identification information, and configured to correspond to the mapping table; While controlling the lighting corresponding to the PC identified by the unique identification information through the bride, dimming the lighting ID information group corresponding to the unique identification information by the dimming control unit based on the operation state information using the mapping table It may include a lighting control unit for controlling.

In this case, the lighting controller regards the IP (Internet protocol) information or the MAC (Media Access Control) information of each PC as unique identification information, and determines whether the operation of each PC depends on whether the information is confirmed. Can be.

The lighting controller may group a plurality of adjacent PCs according to a setting, group a plurality of lighting IDs corresponding to the grouped PC groups, and set a corresponding relationship for each group in the mapping table, based on the mapping table. The lighting of the corresponding lighting ID group may be turned off only when all the PCs belonging to the PC group are not operating.

In addition, the lighting controller may control a lighting matched to the PC in the non-operation state based on the mapping table even when one or more other PCs grouped as adjacent to the specific PC in operation are in operation state. It may be characterized in that for increasing the peripheral illumination.

In addition, the application unit provides the continuous use information as the operation state information to the lighting control server when the activation mode state of the PC continues or the input is continuously generated, the lighting control unit receives the corresponding continuous use information through the communication unit By reducing the dimming by forcing the dimming level of the illumination it may be characterized in that the heat.

In addition, the application unit may determine whether there is a user having a corresponding communication unit through a communication unit configured in the PC and include it in the operation state information to provide to the lighting control server.

In this case, the communication unit configured in the PC may include one of a module or a dongle supporting a short range wireless communication method including Wi-Fi, Bluetooth, Zigbee, and visible light communication or a serial communication method.

In addition, the application unit authenticates a user having a corresponding communication unit determined from the communication unit configured in the PC, and transmits the operation state information only to the authenticated user to control the lighting of the lighting control unit, the user authentication information is The application unit or the lighting control unit having received the operation state information may be managed by the operation state information of the authentication user.

In addition, the lighting control unit may detect a human body in association with a sensor installed corresponding to the illumination, and may further use the human body detection information as information for determining dimming control through the PC state.

Building for the purpose of energy saving including lighting control server connected to a plurality of PCs and a communication network according to an embodiment of the present invention for performing the above object and performs dimming control for a plurality of lights Lighting control method using a PC state to be applied to, when the application unit installed in each PC monitors the operating state of the PC that is variable by the operating system is a predetermined state, the corresponding information as the operating state information for lighting control the lighting A first step of transmitting to the control server, a second step of receiving the unique identification information and the operation state information of the PC by the lighting control server, and the unique identification received through the second step of the lighting control server Check the information to control the lighting corresponding to the PC identified by the unique identification information, Using the at least one information set is one trillion people ID mapping table corresponding grouping the lighting according to the illumination ID corresponding to the ID information may include a third step of dimming control on the basis of the operation state information.

In addition, the unique identification information may include IP or MAC information, and the third step may be characterized in that the lighting control server turns on or off the grouped lights according to whether the IP or MAC information is confirmed.

In addition, in the third step, the lighting control server groups a plurality of adjacent PCs according to a setting, groups a plurality of lighting IDs corresponding to the grouped PC groups, and sets the corresponding relationship for each group in the mapping table. The lighting of the corresponding illumination ID group may be turned off only when all the PCs belonging to the PC group are not operating based on the mapping table.

In addition, in the third step, even when one or more other PCs grouped as being adjacent to a specific PC on which the lighting control server is operating are in an inoperative state, dimming the light matching the PC in the inactive state based on the mapping table. It may be characterized by increasing the peripheral illuminance for a particular PC operating by controlling.

In addition, in the first step, when the activation mode state of the PC continues or the input is continuously generated, the application unit provides the continuous use information as the operation state information to the lighting control server, and the third step is the lighting control server. Receiving the continuous use information may be characterized by reducing the heat generated by forcibly adjusting the dimming level of the illumination.

According to the present invention, it is possible to easily determine a worker's temporary absence from work as well as commute through the operating state of the PC, thereby improving the energy saving effect and optimizing the lighting environment by adaptively adjusting the illumination of the lighting. .

In addition, the present invention, even if the ambient illuminance decreases according to the vacancy of the other workers adjacent to the worker, when the worker is located in the group through the setting of the grouping of the PC and the lighting to maintain the illumination of the grouped light as it is always optimized lighting environment It is effective to provide.

In addition, the present invention determines the working time irrespective of the influence of the lighting environment according to the degree of use of the PC of the worker to differentially control the illumination of the light, thereby reducing the heat generated by the lighting, and further improves the energy saving efficiency. There is.

In addition, the present invention can be easily determined even if the user is working in addition to the work through the PC by adding a configuration for the user detection, there is an effect of maintaining the illumination optimized for the working environment.

1 is a conceptual diagram of a lighting control system using a PC state applied to the building for the purpose of energy saving according to an embodiment of the present invention.
2 is a conceptual view of the operation of the lighting control system using a PC state applied to the building for the purpose of energy saving according to an embodiment of the present invention.
Figure 3 is a detailed configuration of the lighting control system using a PC state applied to the building for the purpose of energy saving according to an embodiment of the present invention.
4 is a control conceptual diagram according to the PC group to lighting group setting of the lighting control system using the PC state applied to the building for the purpose of energy saving according to an embodiment of the present invention.
5 is a conceptual diagram of lighting control according to user identification of a lighting control system using a PC state applied to a building for the purpose of energy saving according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described an embodiment of a lighting control system using a PC state applied to the building for the purpose of energy saving according to the present invention.

1 is a conceptual diagram of a lighting control system using a PC state applied to a building for the purpose of energy saving according to an embodiment of the present invention, a plurality of personal computers (PC) 10 as shown in the illumination (20) It is connected to a wired or wireless network through the lighting control server 100 for controlling the communication network (LAN network, intra network, building network, Internet, etc.), a plurality of lights 20 installed to correspond to each PC is the lighting control server ( 100) and control lines and power lines.

At this time, the lighting control server 100 performs dimming control on the plurality of lights 20, and determines the operation state of each PC 10 through a communication network, the lighting corresponding to each PC ( 20) can be controlled dimming. In this case, each of the PC 10 and each of the lights 20 may correspond to 1: 1, but in this case, since the illumination around the user may be lowered due to non-use, it is preferable that a plurality of lights correspond to a single PC as a group.

For example, as shown in FIG. 2, when power is applied to the PC 10 to activate the network connection with the lighting control server, the lighting control server 100 of the PC 10 turned on through a communication network. Since it is possible to obtain IP (Internet protocol) information, MAC (Media Access Control) information, or other unique identifiers, it is possible to determine whether the PC is operated for each PC 10.

Accordingly, the lighting control server 100 lights or illuminates the illumination 20 when the PC is activated in response to the operating state of the PC 10 as shown in FIG. As shown in FIG. 2 (b), unnecessary lighting 20 is generated when the user is absent or temporarily exits and the PC is turned off or in a power saving mode in which network connection is cut off. You can save energy by turning it off or by reducing the illuminance.

Meanwhile, the PC includes a smartphone, a tablet PC, an office OA device, and the like.

In addition, the lighting 20 may include a fluorescent lamp, an incandescent lamp, an LED lamp, a halogen lamp, and the like. In the case of simple lighting control, regardless of the type of lamp, a dimming control type of lamp is possible when the dimming control is performed. It is preferable to use. In this embodiment, a case of performing dimming control using an LED lamp will be described as an example.

Based on the above description, an embodiment of a detailed configuration of a lighting control system using a PC state applied to a building for the purpose of energy saving according to the present invention will be described with reference to FIG. 3.

As shown, the lighting control server 100 for controlling the lighting is connected to the PC 10 via a communication network and a communication unit 110 for receiving data, and processing the data received through the communication unit 110 The control unit 130 and the control signal of the control unit 130 to control the associated lighting in comparison with the information stored in the DB unit 150 based on the information provided from the data processing unit 120, the data processing unit 120 In accordance with the above may include a power providing unit 140 for providing power received from the outside. Here, the DB unit 150 may be included in the lighting control server 100, the power providing unit 140 may be separated into a separate configuration, or may be configured for each light. In addition, the data processing unit 120 may be integrated with the communication unit 110.

Meanwhile, the controller 130 corresponds to the corresponding PC according to the dimming control part for performing remote dimming control internally and the state of the PC 10 confirmed through the communication unit 110 and the data processing unit 120. The control unit may be divided into control parts for selecting lights to be controlled through the dimming control part.

Referring to the detailed process of the lighting control server 100 operating in conjunction with the PC based on the configuration, the data processing unit 120 processes the data transmitted from the PC 10 to the unique identification information of the PC control unit 130 ) Can be provided. In addition, the controller 130 may identify the activated PC 10 when receiving the unique identification information of the PC, information stored in the DB unit 150 using the unique identification information (MAC, IP, etc.). Can be compared with Of course, other identifiers besides MAC information may be used.

At this time, the DB unit 150, as shown, the lighting storage unit 152 storing the lighting ID and location information for each lighting ID, and the PC identification information such as the IP or MAC information, or separate unique identification information is stored PC storage unit 153 may be included.

In addition, the DB unit 150 corresponds to the lighting storage unit 152 and the PC storage unit 153 to correspond to each other identification information of each PC 10 and one or more lighting ID information (position information for each lighting ID, if necessary) May be stored as the mapping table 151. Accordingly, the controller 130 may extract the illumination ID corresponding to the identification information of the PC 10 using the mapping table 151. In this case, a plurality of illumination IDs corresponding to the identification information of the PC 10 may be set. Accordingly, a plurality of illumination IDs may be extracted for one PC 10. That is, a plurality of lighting IDs may be grouped into a group to correspond to one PC 10, and may be divided into main lights and adjacent lights to be dimmed differently as necessary.

Subsequently, the controller 130 may control the power provider 140 to provide power to the illumination corresponding to the extracted illumination ID, whereby the illumination corresponding to the activated PC 10 is turned on. Alternatively, the brightness can be adjusted by dimming.

Meanwhile, the plurality of PCs 14, 15, and 16 adjacent to the DB unit 150 are grouped as shown in FIG. 4, and the plurality of lights 21, 22, and 23 corresponding to the grouped PC group A are shown. ) May be grouped (actually grouping a plurality of lighting IDs) to be set in the mapping table 151 so that the PC and the lighting correspond to groups (A) versus groups (B).

Accordingly, when the unique identification information is received from at least one of the PCs belonging to the PC group A, the controller 130 extracts a plurality of lighting IDs included in the corresponding lighting group B, and applies the corresponding lighting ID to the corresponding lighting ID. The corresponding lights 21, 22, and 23 may be controlled to be turned on or brightened through dimming control.

In other words, in the PC group A grouped into three PCs, when two PCs 14 and 16 are in an inactive state in which the power is turned off and one 15 is powered and activated, the power is activated. When the unique identification information of the received PC 15 is received and confirmed as the PC 15 belonging to the PC group A, the plurality of lights 21, 22, and 23 belonging to the corresponding lighting group B are turned on. Or dimming control to brighten the brightness. At this time, it is preferable that the PCs 14, 15, and 16 belonging to the generated PC group A are configured to be adjacent to each other.

In other words, the lighting of the lighting group B corresponding to the PC group A only when the operation of the PCs of all users belonging to the PC group A is stopped (power off, network blocking according to the standby mode, etc.). By turning off the lights or dimming to darker preset brightness, it means that the lighting is maintained until the last person is away even though the number of PC users decreases.

In addition, referring to FIG. 3 again, a location for each lighting ID may be set in the mapping table 151, and the controller 130 may include a PC (received unique identification information based on the mapping table 151). When the adjacent light is turned off by determining the position of the light 20 and the adjacent light corresponding to 10), the ambient light may be turned on to increase the ambient illuminance of the operating PC to create a pleasant working environment.

More intelligently, if the user is few, the dimming control is reduced so that the brightness is reduced from the far distance from the PC in use according to the proximity of the lights in the lighting group. Can reduce power consumption. The same can be applied to lighting groups. When only a few people use a PC in an office where a plurality of lighting groups and PC groups exist, the lighting close to the PC user is brightly adjusted and the lighting is not in the PC. The farther the distance from the PC user, the darker the lighting can be adjusted. It means you can do it.)

In the above-described configuration, the presence or absence of a user is determined based only on the activation of the PC's own network. Therefore, a waiting time for actual lighting control is required, or more intelligent lighting control is not easy. Therefore, for more intelligent lighting control, an additional configuration may be added to the PC so as to grasp the state of the user or the state of the PC.

That is, the PC 10 may be provided with an application unit 11 for generating information on the operating state of the PC 10, the application unit 11 monitors the state of the PC is a preset state In this case, the generated information may be transmitted to the lighting control server 100 as operation state information for lighting control.

The application unit 11 may monitor the operation state of the PC to determine which mode among the one or more modes for power saving supported by the activation mode and the operating system, how long the delay time is after the mode change, and the like, and the determined state May be transmitted to the lighting control server as the operation state information.

In this case, the power saving mode supported by the operating system may include a standby mode, a power saving mode, a hibernation mode, a hybrid power saving mode, and the like, which are classified in stages. That is, when the standby mode state is maintained for a predetermined time even when the network connection is activated through the application unit 11 and the network connection is activated, it is transmitted to the lighting control server as operation state information, thereby requiring lighting control. Time for judging cases can be reduced.

Meanwhile, the data processing unit 120 of the lighting control server 100 may provide data including the operation state information and identification information to the controller 130 through the communication unit 110, and the controller 130. ) May be controlled by transmitting a dimming control signal through a control line to control lighting corresponding to the identification information of the PC at different dimming levels according to each mode of the operating system included in the operation state information.

To this end, the dimming level corresponding to each mode may be preset in the controller 130 or the mapping table 151. In addition, the dimming level may be set differently for each PC, and accordingly, a dimming level may be set for each user to provide an optimized working environment for the individual.

As described above, when the user temporarily leaves the room such as a meeting, a business trip, or a meal while the PC is turned on, the application unit 11 easily determines the corresponding situation and relates to the lighting control server 100. In response, the lighting control server 100 may control the illuminance of the lighting 20 to prevent unnecessary energy consumption and significantly reduce heat generation of the lighting lamp.

In other words, when the operating system increases the standby mode for power saving by stepping the power supply to the hardware step by step as the standby time for power saving increases, the application unit 11 is divided into each mode ( Or by subdividing it by time in one mode) and providing it to the lighting control server 100 as operation state information, and the lighting control server gradually reduces the illuminance of the lighting in response to the mode change of the operating system. Efficient energy management and heat regulation can be achieved.

In addition, the application unit 11 may determine a case in which a continuous input (input through a user interface, such as a keyboard input or a mouse input) occurs on the PC 10, which is in a state where the user concentrates on using the PC. In this case, information about the continuous input generation may be provided to the lighting control server 100 as the operation state information. In this case, the information about the continuous input generation may be generated when the value of the external input generated by the application unit 11 for a predetermined time is greater than or equal to a predetermined value.

Accordingly, the controller 130 that receives the operation state information regarding the continuous input generation through the communication unit 110 and the data processing unit 120 may reduce the illuminance of the associated lighting to a predetermined level. This is insensitive to the illuminance of the light when the user is in a concentrated state, so that the brightness of the lamp is controlled to not be 100% by changing the brightness without changing the illuminance level significantly, or slowly lowering to a predetermined low level before the original brightness It can reduce the heat generation of the lamp by adjusting to return to the lamp, thereby reducing the power consumption and greatly increasing the life of the lamp.

Meanwhile, as illustrated in FIGS. 3 and 5, the application unit 11 includes a wireless module 30 connected to an interface 13 supported by the PC or a wireless module or a function unit (Wifi, Bluetooth) provided therein. , Zigbee, visible light communication, etc.), the wireless module 30 may include an AP (Access Point), a Bluetooth dongle, a Zigbee dongle, a visible light communication device, etc. User information received from a wireless device 41 such as a communication device (passport, employee ID, etc.) can be transmitted to the application unit 11.

Accordingly, the application unit 11 receives the presence or absence of the user and the authentication information about the user by using a predetermined wireless communication and includes the information in the operation state information and provides it to the lighting control server 100. Accordingly, the lighting control server 100 may maintain the corresponding lighting at the dimming level corresponding to the lighting or the PC activation mode even when the current mode of the PC is in the standby mode.

That is, even when the user 40 is busy in front of the PC without leaving the seat, the lighting 20 should not be turned off or the illuminance should be reduced. It can be controlled to maintain.

On the other hand, if the user 40 leaves the seat and out of the communication range of the wireless module 30, the application unit 11 generates the operation state information according to the mode change of the operating system to the lighting control server 100 Can provide.

In addition to the user detection method through the wireless module 30, if the user's smart phone or a separate communication device connected by a serial communication method such as a method of connecting a PC and a cable to be in the state of charging or data exchange, Through the application unit 11 may recognize the user's smartphone or a separate communication device.

As such, the application unit 11 may determine whether the user exists according to whether the user's smartphone or the separate communication device and the PC are connected through a serial connection method, and in conjunction with the wireless module 30. Like the user detection method through) the lighting control operation can be made.

In addition, the application unit 11 authenticates the user 40 based on the user information received from the wireless device 41 through a wireless communication method or a serial communication method using the wireless module 30 connected to the PC. In addition, only the authenticated user 40 may transmit the operation state information to the lighting control server 100.

In addition, the application unit 11 or the lighting control server 100 receiving the operation state may record the operation state information and use it as work state information including a commute record of the user, the work state information It may be stored in the DB unit 150, or may be delivered to a separate external server.

In addition to using the wireless module 30, when the sensor unit 50 such as a Doppler sensor, an optical sensor, or a human body sensor is installed corresponding to the lighting 20, the controller 130 of the lighting control server 100 is installed. ) Receives the sensing information through a control line for dimming control, and the application unit 11 when the user is sensed through the sensing information even under a condition corresponding to a light off or a dimming level change according to the operation state information. Reliability can be improved by further using as additional information for dimming control determination, such as controlling to maintain a dimming level corresponding to a lighting state or an activation mode in preference to the operation state information received from the controller. In other words, it is information for further judgment and may play a role of turning on a light before the PC is turned on.

If the location of the PC is changed frequently or if a mobile PC such as a notebook is used, the corresponding relationship between the PC and the lighting may be changed frequently, and thus may be configured or added to the PC instead of the sensor unit 500 of the lighting. By adding a wireless communication unit corresponding to a wireless communication unit (Bluetooth, Zigbee, wifi, visible light communication, etc.) to the lighting, it is possible to variably set the corresponding relationship between the PC and the lighting.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: PC 11: Application Unit
12: LAN module unit 13: external interface
20: lighting 30: wireless module
40: user 41: wireless device
50: sensor unit 100: lighting control server
110: communication unit 120: data processing unit
130: control unit 140: power providing unit
150: DB unit 151: mapping table
152: lighting storage unit 153: PC storage unit

Claims (14)

In the lighting control system comprising a lighting control server connected via a plurality of PC and a communication network,
It includes an application unit installed in each PC to monitor the operation state of the PC which is variable by the operating system and to transmit the corresponding information through the communication network as the operation state information for lighting control when the predetermined state,
The lighting control server
A dimming controller configured to perform remote dimming control on a plurality of lights to which an illumination ID is assigned;
A communication unit connected to a plurality of personal computers through a communication network to receive the unique identification information and the operation state information from each PC;
A mapping table in which one or more lighting ID information is grouped and configured to correspond to the unique identification information of the PC; And
The lighting unit controls the lighting corresponding to the PC from which the unique identification information is confirmed, and uses the mapping table to control the lighting ID information group corresponding to the unique identification information through the dimming control unit based on the operation state information. Dimming lighting controls
Lighting control system using a PC state applied to the building for the purpose of energy saving, including.
The method according to claim 1,
The lighting control unit considers IP (Internet protocol) information or Media Access Control (MAC) information of each PC as unique identification information, and determines whether each PC is operated according to whether the information is confirmed. Lighting control system using PC state applied to building for the purpose.
The method according to claim 1,
The lighting control unit groups a plurality of adjacent PCs according to a setting, sets a corresponding relationship for each group in the mapping table by grouping a plurality of lighting IDs corresponding to the grouped PC groups, and based on the mapping table. Lighting control system using a PC state applied to the building for the purpose of energy saving, characterized in that the lighting of the lighting ID group corresponding to the lighting is turned off only when all the PC belonging to the group is not operating.
The method according to claim 1,
The lighting control unit controls the lighting matched to the PC in the non-operating state based on the mapping table even when one or more other PCs grouped to be adjacent to the specific PC in operation are not operated. Lighting control system using a PC state applied to buildings for the purpose of energy saving, characterized by increasing the ambient illumination.
The method according to claim 1,
The application unit provides the continuous use information as operation state information to the lighting control server when the activation mode state of the PC continues or the input is continuously generated, and the lighting control unit receives the continuous use information through the communication unit A lighting control system using a PC state applied to buildings for the purpose of energy saving, characterized by reducing heat by forcibly adjusting the dimming level of lighting.
The method according to claim 1,
The application unit determines the existence of a user having a corresponding communication unit through a communication unit configured in the PC and includes it in the operation state information to provide to the lighting control server PC applied to the building for the purpose of energy saving Lighting control system using state.
The method of claim 6,
The communication unit configured in the PC Wi-Fi (Wifi), Bluetooth, Zigbee, a building for the purpose of energy saving, characterized in that it comprises one of a module or a dongle supporting a short range wireless communication method including a visible light communication or a serial communication method Lighting control system using PC state applied to.
The method of claim 6,
The application unit authenticates a user having a corresponding communication unit determined from the communication unit configured in the PC, and transmits the operation state information only to the authenticated user to control the lighting of the lighting control unit. Lighting control system using a PC state to be applied to the building for the purpose of energy saving, characterized in that the lighting control unit receiving the operation state information is managed as the working state information of the authentication user.
The method according to claim 1,
The lighting control unit detects a human body in association with a sensor installed corresponding to the lighting, and uses the human body detection information as information for determining dimming control through the PC state. Lighting control system using PC state applied.
In the lighting control method for controlling the lighting, including a lighting control server connected to a plurality of PCs through a communication network and performs dimming control for the plurality of lights,
A first step of monitoring an operation state of a PC which is changed by an operating system by an application unit installed in each PC and transmitting the corresponding information to the light control server as operation state information for lighting control;
A second step of receiving, by the lighting control server, the unique identification information and the operation state information of the PC; And
The lighting control server checks the unique identification information received through the second step to control the lighting corresponding to the PC identified by the unique identification information, one or more lighting ID information is grouped for the unique identification information A third step of dimming and controlling the illumination according to the illumination ID corresponding to the unique identification information based on the operation state information using the corresponding mapping table;
Lighting control method using a PC state applied to the building for the purpose of energy saving, including.
The method of claim 10,
The unique identification information includes IP or MAC information,
The third step is a lighting control method using a PC state applied to the building for the purpose of energy saving, characterized in that the lighting control server turns on or off the grouped lights according to whether the IP or MAC information confirmed.
The method of claim 10,
In the third step, the lighting control server groups a plurality of adjacent PCs according to a setting, groups a plurality of lighting IDs corresponding to the grouped PC groups, and sets a corresponding relationship for each group in the mapping table. Lighting control method using a PC state applied to the building for the purpose of energy saving, characterized in that the lighting of the lighting ID group corresponding to the lighting only when not all PCs belonging to the PC group on the basis of the table.
The method of claim 10,
In the third step, even when one or more other PCs grouped as a specific PC operating the lighting control server are in an inoperative state, dimming control is performed based on the mapping table. Lighting control method using a PC state applied to the building for the purpose of energy saving, characterized by increasing the ambient illumination for a specific PC in operation.
The method of claim 10,
In the first step, when the activation mode state of the PC continues or an input is continuously generated, the application unit provides the continuous use information as the operation state information to the lighting control server.
In the third step, the lighting control server receives the continuous use information and forcibly adjusts the dimming level of the lighting, thereby reducing heat generation. Way.

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