KR20130025511A - Intelligent lighting control system based on space information and method thereof - Google Patents

Abstract

PURPOSE: A spatial information based intelligent lighting control system and a controlling method thereof are provided to easily control a lighting device by using BIM(Building Information Modeling) information. CONSTITUTION: A space DB(120) stores 2D or 3D spatial information. The 2D or 3D spatial information corresponds to a building and an object included in the building. A visualization module(130) visualizes the spatial information stored in the space DB. A lighting object corresponds to at least one lighting device located in the visualized space. A control module(110) controls at least one lighting device corresponding to the lighting object. [Reference numerals] (110) Control module; (120) Space DB; (130) Visualization module; (140) Modeling module; (200) Middleware; (300) Control device

Description

Intelligent lighting control system based on space information and method

The present invention relates to an intelligent lighting control system and method thereof based on spatial information, and more particularly, to a system and method for modeling buildings and lighting devices based on spatial information and efficiently controlling lighting based on software. It is about.

With the development of information technology, technologies that can dataize and realistically represent buildings or specific spaces are well known. For example, it is possible to represent a building or various facilities or objects included in the building by using BIM (Buliding Information Modeling) information.

On the other hand, many approaches for reducing energy and intelligent energy management have been attempted. For example, through efficient building management such as BEMS (Building Energy Management System), Attempts are being studied. This BEMS is made using various research results based on BMS (Building Management System) and BIM (Building Information Modeling).

As described above, many attempts have been made to control the use of energy in a specific space or building, and lighting devices used in the specific space or building have not been efficiently managed and controlled yet.

In addition, LED (Light Emitting Diode) lighting, which is widely used as a lighting device, has been widely used as a dimming or color control lighting device. Providing a system and a method for controlling the lighting device may be an important factor not only for energy management but also for emotional lighting through a human machine interface (HMI).

Accordingly, a technical problem of the present invention is to provide a system and method for enabling remote lighting control in software in a specific space (eg, a building) using spatial information (eg, BIM information).

In addition, the present invention provides a system and method capable of selecting and controlling a real lighting device by performing selection and control of a lighting object modeled based on spatial information.

In addition, as the lighting object is modeled on the visualized spatial information, it is to provide a system and method that can solve the problem that the selection of the lighting object is difficult or low visibility.

In addition, the present invention provides a system and method that enables efficient and simple lighting control by grouping a plurality of lighting devices according to a predetermined rule and automatically controlling the plurality of lighting devices according to a predetermined scenario.

An intelligent lighting control system based on spatial information for achieving the technical problem is a spatial DB for storing 2D or 3D spatial information corresponding to a building and an object included in the building, and a visualization module for visualizing spatial information stored in the spatial DB. And a control module for selecting a lighting object corresponding to at least one lighting device located on a space visualized by the visualization module and controlling the at least one lighting device corresponding to the selected lighting object.

The control module outputs a control signal for the lighting object to a predetermined control device, and the control device performs a control operation corresponding to the control signal to the at least one lighting device in response to the output control signal. Can be.

The spatial information based intelligent lighting control system may further include a modeling module for modeling 2D or 3D spatial information corresponding to the building and the object included in the building as BIM (Building Information Modeling) information.

The control module selects the lighting object when receiving a selection signal for selecting the lighting object in the visualized space from the user terminal, or when receiving a region selection signal for selecting a specific area in the space from the user terminal. The lighting object located in the specific area corresponding to the area selection signal may be selected.

The modeling module may select the lighting component corresponding to the at least one lighting device, and generate the lighting object by placing the selected lighting component on the visualized space.

The control module displays a control UI according to the property of the lighting apparatus corresponding to the lighting object on the user terminal based on the selected attribute information of the lighting object, and receives a setting signal input based on the displayed control UI. A control signal corresponding to the received setting signal may be generated.

The visualization module changes display properties of the lighting object or other objects except the lighting object to increase at least one of the attention or visibility of the lighting object located in the visualized space. can do.

The control module may group a plurality of lighting objects included in the spatial DB based on an input of a user terminal, and set scenario information including control conditions and control policies for the grouped plurality of lighting objects. You can do

The scenario information may be information for controlling at least one of on / off setting, DIM setting, or color setting of the lighting apparatus included in at least one subspace of the building according to the control condition.

The control module determines whether the control condition is satisfied, and controls the plurality of lighting objects to correspond to the scenario information according to the determination result, and the visualization module is configured to include the plurality of lighting objects or the at least one subspace. Information about can be displayed on the user terminal. The 2D or 3D spatial information may be implemented as BIM modeling information.

The spatial information-based intelligent lighting control method for solving the technical problem is a spatial information-based intelligent lighting control system storing the 2D or 3D spatial information corresponding to the building and the objects included in the building in the spatial DB, the spatial information Visualizing stored spatial information, selecting a lighting object corresponding to at least one lighting device positioned in the visualized space based on an input signal input from a user terminal, and Controlling the corresponding at least one lighting device.

Selecting a lighting object corresponding to at least one lighting device located on the visualized space based on the input signal input from the user terminal, the selection signal for selecting the lighting object in the visualized space from the user terminal At least one of selecting the illumination object when received or selecting a lighting object located in the specific area corresponding to the area selection signal when the user terminal receives an area selection signal for selecting a specific area in the space from the user terminal; It includes the steps of.

The spatial information based intelligent lighting control method may further include selecting a lighting component corresponding to the at least one lighting device, and generating the lighting object by placing the selected lighting component on the visualized space. have.

The controlling of the at least one lighting apparatus corresponding to the selected lighting object may include displaying a control UI based on the attribute of the lighting apparatus corresponding to the lighting object on the user terminal based on the selected attribute information of the lighting object. And receiving a setting signal input based on the displayed control UI and generating a control signal corresponding to the received setting signal.

The spatial information-based intelligent lighting control method includes grouping a plurality of lighting objects included in the spatial DB based on an input of the user terminal, a scenario including a control condition and a control policy for the plurality of grouped lighting objects. The method may further include setting information. The spatial information based intelligent lighting control method may be stored in a computer readable recording medium recording a program.

The intelligent lighting control system and method based on spatial information according to the present invention can model the space and the lighting located in the space according to the software in software, and select and control the lighting in software in the modeled space. There is an effect that can easily control the lights included in the space from a remote location (eg, management room). In addition, since the lighting can be controlled from a remote location, the user does not have to go directly to a button for controlling an actual lighting device, thereby saving energy (for example, an elevator or a light on a path) required to move for lighting control. .

In addition, when the lighting devices are represented in the visualized space, it is possible to solve the difficulty of selecting a lighting device that may occur or low attention or visibility, thereby providing an intuitive and efficient interfacing technique to the user.

In addition, since a plurality of lighting devices can be grouped according to the needs of an administrator and the grouped lighting devices can be controlled at one time, it is more effective than in the case of the conventional physical control, and when the grouping of lighting devices needs to be changed, the conventional wiring is performed. While the construction of the facility is required, the present invention has the effect of changing the grouping of the desired lighting devices through simple software operation.

In addition, by setting a scenario for the lighting device, and if the specific conditions are satisfied, the lighting device can be controlled according to the scenario, it is easy to control the lighting device adaptively according to the situation, according to the energy consumption or the situation-sensitive emotion It is easy to control.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.
1 is a view for explaining a schematic configuration of a spatial information-based intelligent lighting control system according to an embodiment of the present invention.
2 is a view for explaining a selection and control method of a lighting device using a lighting object in a spatial information-based intelligent lighting control method according to an embodiment of the present invention.
3 is a diagram for describing a method of locating a lighting object in a space according to an intelligent lighting control method based on spatial information according to an exemplary embodiment of the present invention.
4 is a diagram for describing a method of controlling various attributes of a lighting apparatus according to a spatial information-based intelligent lighting control method according to an embodiment of the present invention.
5 is a view for explaining a method for enabling intuitive control by increasing the attention or visibility of a lighting object in a modeled space according to a spatial information-based intelligent lighting control method according to an embodiment of the present invention.
FIG. 6 is a diagram for describing a method of controlling a plurality of lighting apparatuses according to scenario information according to a spatial information-based intelligent lighting control method according to an exemplary embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Also, in this specification, when any one element 'transmits' data to another element, the element may transmit the data directly to the other element, or may be transmitted through at least one other element And may transmit the data to the other component.

Conversely, when one element 'directly transmits' data to another element, it means that the data is transmitted to the other element without passing through another element in the element.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

1 is a view for explaining a schematic configuration of a spatial information-based intelligent lighting control system according to an embodiment of the present invention.

Referring to FIG. 1, the spatial information based intelligent lighting control system 100 according to an embodiment of the present invention includes a control module 110, a spatial DB 120, and a visualization module 130. The spatial information based intelligent lighting control system 100 may further include a modeling module 140.

The spatial information based intelligent lighting control system 100 may transmit and receive predetermined information with the middleware 200 and / or the control device 300. In addition, the spatial information-based intelligent lighting control system 100 may receive an input signal from a predetermined user terminal (400). The spatial information based intelligent lighting control system 100 may control at least one lighting device installed in a predetermined building based on an input signal from the user terminal 400.

The middleware 200 may perform a function of interfacing the control device 300 and the intelligent information control system 100 based on the spatial information. The control device 300 may receive a control signal output from the spatial information based intelligent lighting control system 100 through the middleware 200, and perform a control operation corresponding to the received control signal. The middleware 200 may transmit and receive data to and from the spatial information-based intelligent lighting control system 100 using a standard protocol set by a predetermined standard, and the control device 300 may conform to building or facility-specific standards. Can transmit and receive. That is, the spatial information based intelligent lighting control system 100 may output a control signal corresponding to a standard protocol to the middleware 200. Then, the middleware 200 may convert the control signal to match the lighting device that is the actual control target and output the control signal to the control device 300.

Then, the control device 300 may perform a function of controlling the actual lighting device to correspond to the control signal or the converted control signal. The control device 300 may be a control device that can collectively manage a plurality of lighting devices located in a predetermined space included in the building, or may be a control device that can control individual lighting devices.

The middleware 200 and the control device 300 may transmit the control signal through a predetermined communication (eg, Zigbee communication, etc.). According to an embodiment, the middleware 200 is installed on the control device 300 side, and the spatial information-based intelligent lighting control system 100 and the middleware through the predetermined communication (eg, Zigbee communication, etc.) The control signal can be transmitted. Accordingly, the user terminal 400 may control a lighting device installed remotely at a predetermined place (eg, a management room or a control room) of the building.

Herein, a module may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the module may refer to a logical unit of a predetermined code and a hardware resource for executing the predetermined code, and does not necessarily mean a physically connected code or a kind of hardware. Can be easily deduced to the average expert in the field of the present invention. Thus, the module refers to a combination of hardware and software that performs the functions defined herein, and does not imply any particular physical configuration.

In addition, the intelligent lighting control system 100 based on spatial information may refer to a logical configuration having hardware resources and / or software necessary for implementing the technical idea of the present invention, and is necessarily one physical It does not mean a component or a device. That is, the spatial information-based intelligent lighting control system 100 may mean a logical combination of hardware and / or software provided to implement the technical idea of the present invention, and if necessary, are installed in devices spaced apart from each other. It may be implemented as a set of logical configurations for implementing the technical features of the present invention by performing each function. In addition, the spatial information-based intelligent lighting control system 100 may refer to a set of components that are separately implemented for each function or role for implementing the technical idea of the present invention.

For example, each of the control module 110, the spatial DB 120, the visualization module 130, and / or the modeling module 140 may be located on different physical devices or on the same physical device. It may be. In addition, in some embodiments, a combination of software and / or hardware configuring each of the control module 110, the spatial DB 120, the visualization module 130, and / or the modeling module 140 may also be combined with each other. Configurations located in different physical devices and components located in different physical devices may be organically combined with each other to implement each of the modules. For example, at least some of the control module 110, the spatial DB 120, the visualization module 130, and / or the modeling module 140 may be included in one physical system and installed. Some may be installed in a physical system that is implemented separately from the physical system.

The control module 110 includes other components included in the spatial information-based intelligent lighting control system 100 (eg, the spatial DB 120, the visualization module 130, and / or the modeling module 140, etc.). ) And / or resources.

The spatial DB 120 may store spatial information. The spatial information may include modeling information about a predetermined building and modeling information about an object included in the building. The spatial information may be implemented as BIM information. For example, the spatial information may be implemented in an IFC format which is an open BIM.

The object may be used to include all objects such as facilities and furniture included in the building. In particular, the object may include information about the lighting object. The lighting object may correspond to a lighting device installed in the building.

The spatial information is a predetermined as disclosed in the Korean Patent Registration (Application No. 10-900530, "Spatial Map authoring method and its tools, an automated system using the spatial map", the 'patent patent') filed by the present applicant The BIM information corresponding to the spatial information may be generated using the modeling apparatus disclosed in the registered patent, but is not limited thereto. The technical spirit and description of the specification disclosed in the registered patent are considered to be included in the present specification and may be included as a reference of the present invention.

As a result, the spatial information-based intelligent lighting control system 100 may model the building and the objects included in the building by using the spatial information, and the spatial information corresponding to the building and the objects included in the building is Each space included in a building and the phase (position and state) of the space and an object, an attribute, and the correlation between the subspace and another subspace may be modeled.

The space and the objects included in the space may be modeled by the modeling module 140, and the modeling module 140 may be a space map authoring tool disclosed in a registered patent, but is not limited thereto. Objects included in the building may include all types of solutions that can be defined and modeled to represent the actual topological properties and properties.

The visualization module 130 may visualize the spatial information stored in the spatial DB 120 according to a rule defined in the spatial information, that is, the user terminal 400. For example, the visualization module 130 may render the modeling information stored in the spatial DB 120 to display the shapes of the building and the object in accordance with the phase relationship and properties.

For example, the visualization module 130 may visualize some spaces 2 to 7 of the building and objects included in the spaces (eg, 10, 11, 12, etc.) as shown in FIGS. 2 to 7. The display may be displayed on the user terminal 400.

Then, when a predetermined space included in the building is visualized by the visualization module 130, the user outputs a predetermined input signal to the spatial information based intelligent lighting control system 100 through the user terminal 400. can do. Then, the control module 110 may perform a control corresponding to the input signal.

For example, based on an input of the user terminal 400, the control module 110 may select a predetermined lighting object. The at least one lighting device corresponding to the selected lighting object may be controlled. This will be described with reference to FIG. 2.

2 is a view for explaining a selection and control method of a lighting device using a lighting object in a spatial information-based intelligent lighting control method according to an embodiment of the present invention.

2, a predetermined space 2 included in a building and objects included in the space by the visualization module 130 of the spatial information-based intelligent lighting control system 100 according to an embodiment of the present invention ( For example, 10 to 12, a chair, a desk, etc.) may be displayed on the user terminal 400. The objects may also be modeled as BIM information having position information, and thus, the objects may not be simply displayed as images, but may be information in which positions and attributes of each of the objects and / or topological relationships in space are defined. .

As shown in FIG. 2, a plurality of lighting objects (eg, 10 to 12) may exist in the space 2. In addition, the spatial information-based intelligent lighting control system 100 is a state (eg, on / off state, dimming degree, color, etc.) of each of the lighting objects (eg, 10-12) through a predetermined communication / network Information may be received from the control device 300. Then, the visualization module 130 may visualize the lighting object (eg, 10-12) to correspond to the state of each lighting object (eg, 10-12). For example, in FIG. 2, the lighting object 10 may be in an off state, and the lighting object 11 and the lighting object 12 may be in an on state. Therefore, the visualization module 130 may visualize (display) the lighting objects 10 to 12 corresponding to each state as shown in FIG. 2.

Then, based on the input signal of the user terminal 400, the control module 110 can select at least one of the illumination objects (for example, 10 to 12) included in the space. For example, as shown in FIG. 2, when a user selects (eg, clicks) a location where a specific lighting object (eg, 11) is being displayed through the user terminal 400, the lighting object (eg, 11). Can be selected.

Alternatively, the user may output an input signal for selecting a specific region (eg, 13) on the space 2 to the spatial information based intelligent lighting control system 100. For example, the user can select a specific region (eg, 13) on the space 2 by clicking and dragging the mouse. Then, the control module 110 may select a lighting object located in the selected area. According to an embodiment, the location information (eg, coordinates, etc.) in the real space corresponding to the selected area may be determined, the lighting apparatus located in the real space may be extracted, and the lighting object corresponding to the extracted lighting apparatus may be selected. have.

For example, when a specific region (eg, 13) is selected in FIG. 2, the control module 110 selects at least one lighting object (eg, 10, 11, 12) included in the specific region (eg, 13). It may be.

Meanwhile, since the spatial information may be implemented as 3D modeling information, the visualization module 130 may change the viewing angle of the space 2 based on an input signal of the user terminal 400. Therefore, it is possible to select a plurality of lighting objects at a time while changing the angle in the space (2) displayed in three dimensions. In addition, a plurality of selected lighting objects may be controlled at one time. Controlling a lighting object may mean controlling an actual lighting device corresponding to the lighting object, and may control not only an on / off state but also various properties of the lighting device such as dimming and color. Of course, depending on the type of lighting device, there may be lighting having only on / off properties, and in this case, only on / off properties may be controlled. Information on what attributes each lighting device has may be included in a lighting object corresponding to the lighting device in advance.

Meanwhile, the spatial information included in the spatial DB 120 may be modeled by the modeling module 140. In particular, the present invention provides a technical idea that can easily model the lighting device installed in the building. This will be described with reference to FIG. 3.

3 is a diagram for describing a method of locating a lighting object in a space according to an intelligent lighting control method based on spatial information according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the modeling module 140 may easily model a lighting object by providing a predetermined lighting component as shown in FIG. 3 when initially modeling the building and the lighting located in the building. Make sure In addition, even when a new lighting device is installed in the building or the phase or property of an existing lighting device is changed, the user can easily model the lighting devices included in the building through an intuitive UI as shown in FIG. 3. have.

For example, the visualization module 130 may visualize the predetermined space 3 as shown in FIG. 3. If the spatial information is 2D modeling information, the visualization module 130 may display only in 2D as shown in FIG. 3, but in the case of 3D modeling information, selectively display the space 3 in 3D or 2D. can do.

When a new lighting device 14 is installed in the actual space corresponding to the space 3, the user may place the lighting device 14 at a position on the space 3 corresponding to the actual position where the lighting device 14 is installed. By including a lighting component corresponding to), it is possible to simply install a lighting object on the space (3).

To this end, the modeling module 140 may list up a plurality of predetermined lighting component lists as shown in FIG. 3. The user terminal 400 can then select the lighting component 15 corresponding to the lighting device 14 actually installed. In addition, by positioning the selected lighting component 15 at a point on the space 3 corresponding to the actual position, the modeling of the new lighting device can be easily performed. Even if you want to model another lighting device 17, the lighting device 17 is selected by selecting the lighting component 18 corresponding to the lighting device 17 and positioning the selected lighting component 18 at a predetermined point. Modeling information of may be easily generated. When the lighting component 15 or 18 is positioned on the space 3, the modeling module 140 may generate modeling information corresponding to the lighting components 15 and 18, that is, lighting objects. . The generated modeling information may include the location of the lighting object in the space 3 and the attributes of the lighting object. Properties of the lighting object may be predefined for each lighting component.

As such, the intelligent lighting control system 100 based on spatial information according to an embodiment of the present invention can easily install lighting devices in a space, and thereby easily generate modeling information of the lighting device located in space and space. It works.

4 is a diagram for describing a method of controlling various attributes of a lighting apparatus according to a spatial information-based intelligent lighting control method according to an embodiment of the present invention.

Referring to FIG. 4, the visualization module 130 may display a predetermined space 4 as shown in FIG. 4. Then, the control module 110 may select the lighting object 19 included in the space (4). Then, the control module 110 may check the attribute information of the selected lighting object 19. In addition, the control UI 20 may be provided to the user terminal 400 to control the attribute information based on the identified attribute information. For example, the lighting object 19 may be an object corresponding to a lighting device capable of dimming control and / or color control as well as an on / off state such as an LED light. In this case, the control module 110 may provide the user terminal 400 with a predetermined control UI 20 for dimming control and / or color control as shown in FIG. 4.

Then, the user may perform a predetermined control action by using the provided control UI 20, and the control module 110 may generate a control signal corresponding to the control action. The generated control signal may be transmitted to the control device 300, and the control device 300 may control the lighting device corresponding to the lighting object 19 to correspond to the transmitted control signal. Of course, as described above, the control signal generated by the control module 110 may be converted into a standard or format recognizable by the control device 300 through the middleware 200 and transmitted.

Meanwhile, according to the spirit of the present invention, the lighting object may be visualized like the predetermined space and other objects included in the building and displayed on the user terminal 400. Therefore, there may be a case in which the space has a complicated structure or it is difficult to locate the lighting object because it is covered by another object (for example, furniture or a facility). In this case, since it may be difficult for a user to control the lighting object, the spatial information-based intelligent lighting control system 100 according to an embodiment of the present invention also provides a technical idea to solve this problem. This example will be described with reference to FIG. 5.

5 is a view for explaining a method for enabling intuitive control by increasing the attention or visibility of a lighting object in a modeled space according to a spatial information-based intelligent lighting control method according to an embodiment of the present invention.

Referring to FIG. 5, the visualization module 130 may change display properties (eg, color, brightness, or saturation, etc.) of a lighting object included in a predetermined space 5, or may change the space (except for the lighting object). 5) By changing the display properties of other objects (e.g., objects corresponding to furniture or a part of a building) located on the image, it is possible to increase the attention or visibility of the lighting object. That is, the visualization module 130 may be located in the space 5 so that the position of the lighting object located on the space 5 can be easily understood by the user. You can change the display technique of the component. For example, as shown in FIG. 5, when a specific space 5 exists, the visualization module 130 may display display properties of lighting objects included in the specific space 5 and / or components other than the lighting object. And / or change the technique to provide the changed space (eg, 5-1, 5-2, 5-3) to the user terminal 400.

It will be readily apparent to the average expert in the art that the display properties or techniques can be varied in ways other than those shown in FIG. 5 to increase the attention or visibility of the lighting object.

In addition, through the differentiated visualization of the lighting object or space, the user can intuitively recognize the position, purpose, on / off state of the lighting object, and ease of control when controlling a plurality of lighting objects at once. There is an effect that can provide.

Meanwhile, the intelligent lighting control system 100 based on spatial information according to an embodiment of the present invention may receive an input signal through the user terminal 400 whenever the lighting device is to be controlled as described above, but may be predetermined in advance. When the scenario information is satisfied using specific scenarios or criteria, a technical idea of automatically controlling lighting included in the building according to a predetermined setting is provided.

To this end, the control module 110 may group a plurality of lighting objects included in the building based on an input signal from the user terminal 400. For example, the control module 110 may group lighting objects existing in the same layer or group lighting objects existing in the same column. In addition, a plurality of lighting objects may be grouped by defining a subspace included in the building (eg, a room with a window in the south, a machine room, a corridor, etc.). Alternatively, a plurality of lighting objects may be grouped by defining an attribute of the lighting object itself. Grouping of the plurality of lighting objects may be performed by the user's selection in the visualized space, or when a specific subspace included in the building is selected, the lighting objects located in the subspace may be automatically grouped. For example, when a user selects at least one layer as a subspace, lighting objects included in the selected subspace may be grouped.

Then, the control module 110 may set the control conditions of the plurality of lighting objects grouped. The control condition may be a condition defining a time zone or a situation in which a specific event occurs. The control policy of the plurality of lighting objects for each control condition may be set in advance.

Then, the control module 110 monitors whether the control condition is satisfied, and when the control condition is satisfied, may generate a control signal corresponding to the control policy according to the control condition. One such example is shown in FIG. 6.

FIG. 6 is a diagram for describing a method of controlling a plurality of lighting apparatuses according to scenario information according to a spatial information-based intelligent lighting control method according to an exemplary embodiment of the present invention.

Referring to FIG. 6, the control module 110 may pre-group a plurality of lighting objects to be controlled for each control condition while using a time (working time, leaving time, off time) as a control condition. Although not shown in FIG. 6, a plurality of lighting objects that are turned off at the off time and the unlit time, the dimming is changed, or the color is changed may be grouped in advance.

The control module 110 may preset control policies (eg, on / off, dimming degree, color degree, etc.) of a plurality of grouped lighting objects for each time zone.

Then, the control module 110 monitors whether a specific control condition is satisfied, and if the specific control condition (eg, leaving time or extinction time, etc.) is satisfied, the control module 110 is grouped according to a control policy corresponding to the control condition. A plurality of lighting objects can be controlled.

In addition, as shown in FIG. 6, the visualization module 130 may display a plurality of lighting objects controlled by the scenario information or information on partial spaces corresponding to the plurality of lighting objects so that a user can check them. have.

That is, the visualization module 130 generates and confirms various scenario information by allowing the modeling information of the partial space and / or the plurality of lighting objects to be simulated when lighting devices are controlled according to the scenario information. It has the effect of enabling it.

As such, the spatial information-based intelligent lighting control system 100 according to an embodiment of the present invention can not only predefine lighting control scenarios for each major time zone, but also a lighting scenario when a work situation or a specific event occurs or Emotion lighting is defined in advance, and control is automatically performed as defined.

The intelligent lighting control method based on spatial information according to an embodiment of the present invention may be implemented as computer readable codes on a computer readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, hard disk, floppy disk, optical data storage, and the like, and also in the form of carrier waves (e.g., transmission over the Internet). It also includes implementations. In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that computer readable codes can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers skilled in the art to which the present invention pertains.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (17)

A spatial DB for storing 2D or 3D spatial information corresponding to a building and an object included in the building;
A visualization module for visualizing spatial information stored in the spatial DB;
Spatial information based intelligent including a control module for selecting a lighting object corresponding to at least one lighting device located on the space visualized by the visualization module, and controlling the at least one lighting device corresponding to the selected lighting object. Lighting control system.
The method of claim 1, wherein the control module,
Outputs a control signal for the lighting object to a predetermined control device;
And the control device performs a control operation corresponding to the control signal to the at least one lighting device in response to the output control signal.
According to claim 1, The spatial information based intelligent lighting control system,
And a modeling module for modeling 2D or 3D spatial information corresponding to the building and the object included in the building as BIM (Building Information Modeling) information.
The method of claim 1, wherein the control module,
Selecting the lighting object when receiving a selection signal for selecting the lighting object from the user terminal in the visualized space;
And an illumination object located in the specific area corresponding to the area selection signal when receiving an area selection signal for selecting a specific area from the user terminal.
The method of claim 3, wherein the modeling module,
And selecting the lighting component corresponding to the at least one lighting device and placing the selected lighting component on the visualized space to generate the lighting object.
The method of claim 1, wherein the control module,
Based on the selected attribute information of the lighting object, displaying a control UI according to the attribute of the lighting apparatus corresponding to the lighting object on the user terminal,
A spatial information based intelligent lighting control system that receives a setting signal input based on the displayed control UI and generates a control signal corresponding to the received setting signal.
The method of claim 1, wherein the visualization module,
Spatial information base, characterized in that for changing at least one of the attention or visibility of the lighting object located in the visualized space, change the display properties of the lighting object or other objects except the lighting object in the space Intelligent lighting control system.
The method of claim 1, wherein the control module,
Spatial information comprising grouping a plurality of lighting objects included in the spatial DB based on an input of a user terminal, and setting scenario information including control conditions and control policies for the plurality of grouping lighting objects Based intelligent lighting control system.
The method of claim 8, wherein the scenario information,
And information for controlling at least one of on / off setting, DIM setting, or color setting of the lighting apparatus included in at least one subspace of the building according to the control condition.
The method of claim 9, wherein the control module,
Determining whether the control condition is satisfied, and controlling the plurality of lighting objects to correspond to the scenario information according to the determination result,
The visualization module is.
The spatial information based intelligent lighting control system for displaying the information on the plurality of lighting objects or the at least one subspace on the user terminal.
The method of claim 1, wherein the 2D or 3D spatial information,
Spatial information based intelligent lighting control system, characterized in that implemented by BIM modeling information.
Storing, by a spatial information-based intelligent lighting control system, a 2D or 3D spatial information corresponding to a building and an object included in the building in a spatial DB;
Visualizing stored spatial information by the spatial information based intelligent lighting control system;
Selecting a lighting object corresponding to at least one lighting device located on the visualized space based on an input signal input from the user terminal; And
And controlling the at least one lighting device corresponding to the selected lighting object.
The method of claim 12, wherein the selecting of the lighting object corresponding to the at least one lighting apparatus located on the visualized space based on the input signal input from the user terminal comprises:
Selecting the lighting object upon receiving a selection signal for selecting the lighting object from the user terminal in the visualized space; or
At least one of selecting an illumination object located in the specific area corresponding to the area selection signal when receiving a region selection signal for selecting a specific area from the user terminal; Control method.
The method of claim 12, wherein the spatial information based intelligent lighting control method,
Selecting a lighting component corresponding to the at least one lighting device;
And placing the selected lighting component on the visualized space to generate the lighting object.
The method of claim 12, wherein the controlling of the at least one lighting device corresponding to the selected lighting object comprises:
Displaying, on the user terminal, a control UI according to an attribute of a lighting apparatus corresponding to the illumination object, based on the selected attribute information of the illumination object; And
And receiving a setting signal input based on the displayed control UI to generate a control signal corresponding to the received setting signal.
The method of claim 12, wherein the spatial information based intelligent lighting control method,
Grouping a plurality of lighting objects included in the spatial DB based on an input of the user terminal;
And setting scenario information including control conditions and a control policy for the plurality of grouped lighting objects.
A computer-readable recording medium having recorded thereon a program for performing the method according to any one of claims 12 to 16.

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