KR101862077B1 - Lighting control system based on cloud - Google Patents

Abstract

The present invention is a cloud server-based lighting control system including a cloud server and a plurality of clients, wherein the client includes a lighting device installed in an independent space, a controller for sensing spatial information at predetermined time intervals, and controlling the lighting device do. In addition, the cloud server receives spatial information from the controller, generates an illumination operation policy for controlling the illumination apparatus based on the spatial information, and transmits the generated illumination operation policy to the client.

Description

[0001] LIGHTING CONTROL SYSTEM BASED ON CLOUD [0002]

The present invention relates to a cloud-based lighting control system, and more particularly, to a cloud-based lighting control system that includes a cloud server that controls a lighting of an independent space of a building through cloud computing so that a management cost can be minimized, System

An illumination device is a device that supplies light to an independent space, and converts electricity into light by a power source supplied from the outside.

In recent years, energy consumption of lighting devices is increasing in high - rise buildings, and a method of reducing energy consumption of buildings is needed.

In particular, although the franchise industry has exploded in recent years, it is difficult to provide optimal lighting scenarios at the head office, and lighting control is performed through a local-based lighting control system based on the subjective judgment of the store operator, There is a disadvantage in that it can not provide a lighting operation scenario for the store operation.

Korean Patent Publication No. 1020150104552 (published on Sep. 15, 2015)

The object of the present invention is to provide a lighting control system capable of providing a lighting operation policy for energy optimum operation as compared with a local lighting control system in order to solve the above problems

It is also an object of the present invention to provide a lighting control system that provides a lighting operating policy that controls lighting to produce a desired optimal event.

The cloud server-based lighting control system according to an embodiment of the present invention may include a cloud server and a plurality of clients.

The client may include a lighting device installed in an independent space, and a controller for sensing spatial information for each predetermined time unit and controlling the lighting device.

The cloud server receives spatial information from the controller, generates an illumination operation policy for controlling the illumination apparatus based on the spatial information, and transmits the generated illumination operation policy to the client

The client may further include a gateway for receiving the spatial information from the controller and transferring the received spatial information to the cloud server, and receiving the lighting operation policy from the cloud server and transmitting the received lighting operation policy to the controller.

The controller may include a sensing unit for measuring at least one of spatial information of illuminance of the space in which the illumination device is installed, illumination color, illumination operation time, absence signal, and spatial position for each predetermined time unit, And a control unit for receiving the lighting operation policy from the communication unit and controlling the lighting device by receiving the lighting operation policy from the gateway,

When the illuminance of the space received from the controller is greater than or equal to a predetermined range, the absence signal of the space is received, or the lighting operation time is out of a predetermined range, the cloud server may turn off the illumination device or dimming dimming lighting operation policy can be generated and transmitted to the controller.

Alternatively, the cloud-based lighting control system may include an event input unit to which at least one event information of the number of crimes, the number of incidents, and the amount of power consumed by the lighting apparatus is input for each time unit, An external information input unit to which external information of at least one of a day, whether the specific day is closed, the external weather of the predetermined time unit of the specific day, and traffic volume is input.

The cloud server may further include a first data storage unit for storing at least one of external information received from the external information input unit, spatial information received from the controller, and event information received from the event input unit, A data analysis unit for analyzing correlation between at least one of the spatial information and the event information to generate analysis data, and a second data storage unit for receiving and storing analysis data from the data analysis unit.

Also, the cloud server may be connected to at least one of the first data storage unit and the data analysis unit, and based on at least one of the information received from the first data storage unit and the analysis data transmitted from the data analysis unit And an illumination operation policy generating unit for generating the illumination operation policy for controlling the illumination apparatus and transmitting the illumination operation policy to the controller

The data analyzing unit may receive at least one of whether the specific day of the illuminating device is in operation or not, the outside weather and the traffic volume of the predetermined time unit of the specific day from the first data storage unit, The lighting operation policy generating unit analyzes the sales amount at the predetermined time unit of the specific day based on at least one of the illuminance of the space, the illumination color, the lighting operation time, the absence signal, and the position of the space measured in units of time, Wherein the analysis data is received from the second data storage unit when the sales amount received from the first data storage unit is less than or equal to a predetermined range and based on the analysis data, A lighting operating policy may be generated that controls at least one of the lighting uptime.

The data analyzing unit may receive at least one of whether the specific day of the illuminating device is in operation or not, the outside weather and the traffic volume of the predetermined time unit of the specific day from the first data storage unit, Analyzing the number of accidents occurring at a predetermined time unit of the specific day based on at least one of the illumination of the space, the illumination color, the illumination operation time, the absence signal, and the position of the space measured in units of time, When the number of the accidents generated from the first data storage unit is equal to or greater than a predetermined range, the analysis data is received from the second data storage unit, and based on the analysis data, To generate a lighting operating policy that controls at least one of the illumination of the space, the lighting color, Have

The data analyzing unit may receive at least one of whether the specific day of the illuminating device is in operation or not, the outside weather and the traffic volume of the predetermined time unit of the specific day from the first data storage unit, Analyzing a number of crime incidents occurring at a predetermined time unit of the specific day based on at least one of the illuminance of the space, the illumination color, the illumination operation time, the absence signal, and the position of the space measured in units of time, Wherein the analysis data is received from the second data storage unit when the number of crimes generated from the first data storage unit is equal to or larger than a predetermined range, To generate a lighting operating policy that controls at least one of the illumination of the space, the lighting color, Have

The present invention is advantageous in that it can provide an illumination operation policy for optimal energy operation through comparison of various conditions of data collected at various places in comparison with a local-based illumination control system.

In addition, the present invention provides an illumination operation policy in which an optimal event can be generated, and has an advantage that an event effect desired by a user occurs.

1 is a configuration diagram of a cloud-based lighting control system according to an embodiment of the present invention.
2 is a block diagram of a client according to an embodiment of the present invention
3 is a configuration diagram of a cloud server according to an embodiment of the present invention.

1 is a configuration diagram of a cloud-based lighting control system according to an embodiment of the present invention. The lighting control system of the present invention may include a client 100, a cloud network 300, and a cloud server 200.

The lighting control system of the present invention may include a plurality of clients 100. [ Herein, each client 100 transmits environment information (hereinafter referred to as spatial information) of the space where the lighting apparatus 110 is installed to the cloud server 200 through the cloud network 300, and the cloud server 200 It is possible to transmit the optimal lighting operation policy to the client 100 based on the transmitted information.

The cloud network 300 of the present invention can transmit information collected by each client 100 to the central cloud server 200 and can transmit the lighting operation policy generated by the cloud server 200 to the client 100 Network.

For example, the cloud server 200 is installed in the head office, and the client 100 can be installed in a plurality of merchants, department stores, marts, and the like. The client 100 of each merchant transmits spatial information to the cloud server 200 of the head office through the cloud network 300. The cloud server 200 generates the most optimal lighting operation policy necessary for each merchant based on the spatial information transmitted from the plurality of clients 100 and transmits the operation policy to the client 100 through the cloud network 300 . The client 100 having received the lighting operation policy can control the lighting apparatus 110 more efficiently than the conventional local lighting control system by controlling the lighting apparatus 110 according to the policy.

Referring to FIG. 2, the client 100 of the present invention may include a lighting device 110, a controller 120, and a gateway 130.

The lighting device 110 of the present invention may be an LED that is installed in a separate space and is turned on or off or illuminated or color-changed according to preset conditions or a lighting operation policy set by the cloud server 200, -SMPS monolithic lighting device.

2, the controller 120 of the present invention may include a sensing unit 121, a communication unit 123, and a control unit 122.

The sensing unit 121 of the present invention is a device for recognizing a change in the environment of a space in which the lighting device 110 is installed and is provided with at least one spatial information of the illuminance of the space, the illumination color, the lighting operation time, It is possible to measure every preset time unit. Here, the sensing unit 121 may include a plurality of sensors for sensing each of the spatial information, or may be a complex sensor for sensing two or more spatial information.

The illuminance of the space can be measured through the illumination sensor, the illumination color can be measured through the color sensor, and the operation time of the illumination can be measured through the timer. In addition, the spatial position can be measured using GPS. The space in which the lighting is installed is a major factor in lighting control, and different lighting control policies for different spaces must be executed to produce the desired energy reduction effect and event generation effect. Here, the absence signal means a signal generated when no person is present in the space, and may be generated through an illumination sensor or an infrared sensor. The sensing information sensed by the sensing unit 121 may be transmitted to the communication unit 123 through wireless communication.

For example, the spatial information transmitted from the sensing unit 121 to the communication unit 123 is measured every 30 minutes, the illuminance of the store located at A from 10:00 to 10:30 is 2000 lux, and the RGB of the illumination is 100, 20, 10).

The communication unit 123 of the present invention is connected to the sensing unit 121 and the gateway 130. The communication unit 123 receives spatial information from the sensing unit 121 via Zigbee or RF and transmits the spatial information to the gateway 130 and transmits the spatial information from the gateway 130 to the cloud server 200 via Ethernet, The lighting operation policy of

The gateway 130 of the present invention is connected to the communication unit 123 and the cloud server 200. As described above, the gateway 130 receives spatial information from the sensing unit 121 via Zigbee or RF, and transmits the received information to the cloud server 200. [ In addition, the gateway 130 may receive the lighting operation policy from the cloud server 200 and may transmit the lighting operation policy to the communication unit 123.

The control unit 122 of the present invention is connected to the communication unit 123 and receives the lighting operation policy from the communication unit 123. The control unit 122 may control the lighting device 110 according to the received lighting operation policy.

Referring to FIG. The cloud server 200 of the present invention receives spatial information from the client 100 for optimal operation of the lighting device 110 of the client 100. [ The cloud server 200 may collect and analyze the delivered spatial information to create an optimal operational policy for the lighting device 110, distribute and manage it.

For example, when the illuminance of the illumination device 110 transmitted from the client 100 is equal to or greater than a predetermined range, the operation time is out of a predetermined range, or the absence signal is transmitted, 110 may be generated and dimmed to provide the client 100 with an illumination operational policy.

The cloud-based lighting control system of the present invention may further include an event input unit 500 and an external information input unit 400 for transmitting information other than the spatial information transmitted from the client 100 to the cloud server 200 have.

The event input unit 500 of the present invention is a device in which at least one event information among the number of crimes in the space, the number of accidents, and the amount of power consumed by the lighting apparatus 110 is input every predetermined time unit. For example, the time unit for inputting event information is 30 minutes. From 10:00 am to 10:30 am, the number of crimes in the underground parking lot is 0, and the number of accidents can be inputted in 3 cases. Here, the number of accidents may include a contact accident occurring between vehicles in a space such as a parking lot, a human accident caused when a vehicle collides with a person, and the like.

The external information input unit 400 of the present invention may include at least one external information among the specific day when the lighting apparatus 110 is activated, whether the specific day is closed, the outside weather of the building measured in units of a predetermined time of the specific day, Can be input. For example, the time unit in which the external information is inputted is 30 minutes, the day when the lighting apparatus 110 is activated is September 10, the day is a holiday, and it is rained from 10:00 am to 10:30 pm, The degree of traffic congestion can be entered in numerical form (for example, 3, 2, and 1).

Here, the time units in the sensing unit 121, the event input unit 500, and the external information input unit 400 are all the same. That is, the starting point and the ending point of the spatial information sensing start point and the ending point are the same as the sensing starting point and ending point, respectively, and the starting point and ending point of the time when the external information is inputted are the same. For example, all of them can be measured in units of 30 minutes starting at 10 am.

The cloud server 200 of the present invention may include a first data storage unit 210, a data analysis unit 220, a second data storage unit 230, and an illumination operation policy generation unit 240.

The first data storage 210 according to an embodiment of the present invention includes space information transmitted from the sensing unit 121 of the controller 120, event information transmitted from the event input unit 500, And external information transmitted from the external device.

The data analysis unit 220 receives at least one of external information and spatial information from the first data storage unit 210 and receives at least one of external information and spatial information and event information And the analysis data can be generated.

Preferably, the information stored in the first data storage unit 210 can be provided from the lighting device 110 installed in various areas, and is a large data in which a plurality of data are stored. The data analysis unit 220 analyzes the big data And analyze the correlation between the external information and the spatial information and the event information to generate analysis data.

For example, the information transmitted to the first data storage unit 210 may be as follows.

First outside information: Today is a closed day on October 9, and it rains at 10 to 10:30 am

First spatial information: The illuminance of the store located at A at 10:00 am to 10:30 am is 2000 Lux, and RGB of illumination is (100, 20, 10)

Event # 1: Store sales in A at 10 am to 10:30 am

Second outside information: Today is closed on October 16, and it rains at 10 to 10:30 am

Second spatial information: The illuminance of the store located at A at 10:00 am to 10:30 am is 3000 Lux, and the RGB of illumination is (100, 20, 10)

Second Event Information: Store sales in A city at 10 ~ 10:30 am is 2 million won

For convenience, only the information of two specific days is given as an example, but the greater the number of such information, the better.

The data analysis unit 220 may analyze the correlation between the external information and / or the spatial information and the event information based on the information transmitted from the first data storage unit 210 to generate analysis data. For example, in the above case, the data analysis unit 220 can analyze the correlation between the illuminance of the store and the sales amount.

The second data storage unit 230 may receive the data analyzed by the data analysis unit 220 and store the received data.

The illumination operation policy generating unit 240 may be connected to the first data storage unit 210 and / or the second data storage unit 230 to receive information and / or analysis data stored in the respective data storage units . In addition, based on the information received from the first data storage unit 210 and / or the analysis data transmitted from the second data storage unit 230, an illumination operation policy for controlling the illumination device 110 is generated, The lighting operation policy may be transmitted to the controller 120 or the client 100. [

For example, in the above case, the lighting operation policy generating unit 240 receives sales information of a specific time unit of a specific day from the first data storage unit 210 and receives the sales information of the store from the second data storage unit 230 And a lighting operation policy for controlling the lighting apparatus 110 so as to have such a roughness is transmitted to the client 100 .

In addition, according to the first embodiment of the present invention, the data analyzing unit 220 may determine whether the specific day of the lighting device 110 is operated from the first data storage unit, the external weather of the predetermined time unit of the specific day, And the amount of traffic is calculated based on at least one of the illuminance of the space, the illumination color, the illumination operation time, the absence signal, and the position of the space measured in the predetermined time unit of the specific day The lighting operation policy generating unit 240 receives analysis data from the second data storage unit 230 when the sales amount received from the first data storage unit 210 is less than a predetermined range, Based on the analysis data, an illumination operating policy that controls at least one of illuminance, illumination color, and illumination operation time of the space such that the sales amount is in a desired range.

In addition, according to the second embodiment of the present invention, the data analysis unit 220 may determine whether the specific day of the lighting device 110 is operated from the first data storage unit, the external weather of the predetermined time unit of the specific day, At least one of the traffic volume, the traffic volume, the traffic volume, the traffic volume, the traffic volume, the traffic volume, the traffic volume, and the traffic volume measured at the predetermined time unit of the specific day And the lighting operation policy generating unit 240 analyzes the number of accidents from the second data storage unit 230 when the number of accidents generated from the first data storage unit 210 is equal to or greater than a predetermined range, And a lighting control unit for controlling at least one of illuminance, illumination color, and illumination operation time of the space so that the number of occurrences of the accident is less than a predetermined range based on the analysis data, It can cause a zero policy.

In addition, according to the third embodiment of the present invention, the data analysis unit 220 may be configured to determine whether the specific day of the lighting device 110 is operated from the first data storage unit 210, Of the specific day based on at least one of the illuminance of the space, the illumination color, the lighting operation time, the absence signal, and the position of the space, which is received at least one of the outside weather and the traffic volume of the specific day The lighting operation policy generating unit 240 receives the analysis data from the second data storage unit 230 when the number of the crime incidents exceeds a predetermined range, Based on the analysis data, an illumination operating policy may be generated that controls at least one of the illuminance, illumination color, and illumination up time of the space such that the number of crime incidents is within a desired range.

For example, the client 100 according to the second embodiment and the third embodiment can be installed in an underground parking lot of a building, and the cloud server 200 can generate an accident The number of incidents and / or the number of crimes is analyzed to generate an illumination operation policy for controlling the number of accidents and / or the number of crimes to be less than a certain range while consuming less power, and then transmitted to the controller 120, (110).

100: Client
200: Cloud server
210: first data storage unit
220: Data analysis section
230: second data storage unit
240: lighting operation policy generating unit
300: Cloud Network
400: external information input unit
500: Event input unit

Claims (9)

In a cloud-based lighting control system,
The lighting control system
Cloud server;
An illumination device installed in an independent space,
A plurality of clients including a controller for controlling the lighting device;
An event input unit for inputting event information including the number of crimes in the space, the number of accidents, the amount of sales, and the amount of electric power consumed by the lighting apparatus for each time unit; And
An external information input unit to which at least one external information among a specific day when the lighting apparatus is activated, whether the specific day is closed, and a traffic volume of the predetermined time unit of the specific day is input,
The cloud server
Receiving external information from the external information input unit, receiving spatial information from the client, receiving event information from the event input unit,
Generating analysis data by analyzing a correlation between the external information and the spatial information and the event information,
Based on the analysis data, generates a lighting operation policy for controlling the lighting apparatus such that the amount of power consumed by the lighting apparatus is equal to or less than the first range, the number of crimes, the number of incidents and the sales amount fall within a predetermined range, Based on the received illumination information. delete The method of claim 1, wherein the cloud server
An illumination operation policy for turning off or dimming the illumination device when the illuminance of the space received from the controller is equal to or greater than a predetermined range, the absence signal of the space is received, or the illumination operation time is out of a predetermined range And transmits the generated control signal to the controller. The method of claim 3,
The cloud-based lighting control system
An event input unit for inputting at least one event information among the number of crimes in the space, the number of accidents, and the amount of power consumed by the lighting apparatus for each time unit; And
Further comprising an external information input unit to which external information of at least one of a specific day when the lighting apparatus is activated, whether the specific day is off, the external weather of the predetermined time unit of the specific day, and traffic volume is input. Based lighting control system. 5. The method of claim 4, wherein the cloud server
A first data storage unit for storing at least one of external information received from the external information input unit, spatial information transmitted from the controller, and event information received from the event input unit;
A data analyzer for analyzing a correlation between at least one of the external information and the spatial information and the event information to generate analysis data; And
And a second data storage unit for receiving and storing analysis data from the data analysis unit. 6. The method of claim 5, wherein the cloud server
And controls the illumination device based on at least one of the information transmitted from the first data storage unit and the analysis data transmitted from the data analysis unit, the at least one of the first data storage unit and the data analysis unit And a lighting operation policy generating unit for generating a lighting operation policy and transmitting the generated lighting operation policy to the controller. 7. The apparatus of claim 6, wherein the data analysis unit
The method of claim 1, further comprising: receiving at least one of a holiday of the specific day when the lighting device is operated from the first data storage unit, an outside weather of the predetermined time unit of the specific day, Analyzing a sales amount at a predetermined time unit of the specific day based on at least one of the illuminance of the space, the illumination color, the lighting operation time, the absence signal,
Wherein the lighting operation policy generating unit generates the lighting operation policy when the sales amount received from the first data storage unit is less than a predetermined range,
Illuminance color, illumination amount, and illumination amount of the space so that the amount of power consumed by the illumination device is less than the first range and the sales amount is in a desired range, based on the analysis data, Wherein the at least one of the at least one of the at least one of the at least one of the at least one of the at least one of the at least two of the plurality of the plurality of at least one of the at least two of the at least one of the plurality of users. 7. The apparatus of claim 6, wherein the data analysis unit
The method of claim 1, further comprising: receiving at least one of a holiday of the specific day when the lighting device is operated from the first data storage unit, an outside weather of the predetermined time unit of the specific day, Analyzing the number of accidents occurring at a predetermined time unit of the specific day based on at least one of the illuminance of the space, the illumination color, the lighting operation time, the absence signal, and the position of the space,
Wherein the lighting operation policy generating unit generates the lighting operation policy when the number of the accidents received from the first data storage unit is less than a predetermined range,
And a control unit for receiving the analysis data from the second data storage unit and based on the analysis data such that the amount of power consumed by the lighting apparatus is less than the first range and the number of accidents is less than a predetermined range, Color, and lighting uptime of the at least one of the plurality of light sources. 7. The apparatus of claim 6, wherein the data analysis unit
The method of claim 1, further comprising: receiving at least one of a holiday of the specific day when the lighting device is operated from the first data storage unit, an outside weather of the predetermined time unit of the specific day, Analyzing the number of crime incidents occurring at a predetermined time unit of the specific day based on at least one of the illuminance of the space, the illumination color, the lighting operation time, the absence signal,
Wherein the lighting operation policy generating unit generates the lighting operation policy when the number of crimes generated from the first data storage unit is less than a predetermined range,
And a control unit for receiving the analysis data from the second data storage unit and based on the analysis data so that the amount of power consumed by the lighting apparatus is less than a first range and the number of crime incidents is less than a predetermined range, Color, and lighting uptime of the at least one of the plurality of light sources.

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