KR101662429B1 - Lighting design service system using smart terminal - Google Patents

Abstract

The present invention relates to a lighting design service providing system, and more particularly, to a lighting design service providing system that acquires an image by photographing a target area to which a lighting is to be installed by a smart terminal equipped with an illumination design app (APP) It is possible to superimpose an area corresponding to a wide range when the illumination is turned on to the image of the object zone after arranging various illumination devices at various positions, The present invention relates to a system for providing a lighting design service using a smart terminal that facilitates consulting with a customer and fixing a design cue by enabling visualization while realizing a design cue in real time.

Description

[0001] LIGHTING DESIGN SERVICE SYSTEM USING SMART TERMINAL [0002]

The present invention relates to a lighting design service providing system, and more particularly, to a lighting design service providing system that acquires an image by photographing a target area to which a lighting is to be installed by a smart terminal equipped with an illumination design app (APP) It is possible to superimpose an area corresponding to a wide range when the illumination is turned on to the image of the object zone after arranging various illumination devices at various positions, The present invention relates to a system for providing a lighting design service using a smart terminal that facilitates consulting with a customer and fixing a design cue by enabling visualization while realizing a design cue in real time.

In recent years, as well as performing aesthetic functions that enhance the aesthetics of the whole lighting installation area beyond the function of a simple lighting facility that illuminates the dark surroundings, it is desired to install the lighting in a specific area The use of lighting design services that considers various types of lighting, a mounting location, and the like, as well as various aesthetic aspects that can be implemented by installed lighting, is increasing.

As a result, many companies related to lighting design have provided professional lighting design experts. However, in order to see the area where the lighting design is installed, considering the various lighting design, There was a time-consuming inconvenience of about 3 to 5 weeks.

In addition, it has been difficult for many lighting SMEs to obtain sufficient lighting design experts, and there was a lot of additional work and time-consuming inconvenience to visualize the various lighting designs conceived by the lighting design experts, Thereby increasing the total cost of lighting design.

Accordingly, the interest and use of the illumination design is increased, and it is easy to use as an ordinary salesperson, not as a lighting design expert, but also easily visualizes the case where the lighting is installed in the area where the lighting is to be installed There is also a growing demand for new lighting design services that can be used to display images.

Korean Patent Publication No. 10-2011-0056365 Korean Patent Publication No. 10-2010-0047521 United States Patent No. 6603482 Korean Patent Publication No. 10-2005-0015737

The present invention is directed to a smart terminal equipped with an illumination design app (APP) to capture an image of a target area to which a light is to be installed, to darken the image of the target area to a night environment, It is possible to superimpose the area corresponding to the wider range when the illumination is turned on to the image of the object zone, thereby realizing the visualization of the illumination design to be implemented in the object zone in real time And an object of the present invention is to provide a lighting design service providing system using a smart terminal that facilitates consultation with a customer and determination of a design cue thereby.

According to an aspect of the present invention, there is provided a system for providing a lighting design service using a smart terminal,

A smart terminal for converting an image of a target area in which a lighting device is to be installed into a dark environment and generating a cue of the lighting design by superimposing and displaying the image of the converted target area on the image of the selected lighting device; And a lighting library which is a database in which a specification of at least one kind of lighting apparatuses and a distribution range in which light is emitted when the lamp is lit up are provided and the smart terminal to be connected on the wireless communication network And an illumination library server for transmitting the wide-range information.

At this time,

The size of the unit grid for matching the target area to which the lighting apparatus is to be installed is set and a grid pattern in which the unit grid is extended in the longitudinal direction and the height direction according to the actual size and distance of the target area is generated, A grid setting unit for displaying the grid; A lighting arrangement for selecting a lighting device to be installed in a target area and arranging the lighting device on the grid pattern in consideration of the installation position in the target area; Activating an object zone image obtained by photographing the object zone and superimposing the image on the display means together with the grid pattern; A grid adjusting unit for adjusting a grid pattern according to an area to be illuminated on the object zone image and arranging a lighting apparatus disposed on the grid pattern in an object zone image; And a control unit that converts the object zone image into a dark night environment, superimposes and expands the luminous flux of the illuminating unit adjusted with the grid pattern by the grid adjusting unit in the converted nighttime environment, And a lighting effect implementing unit for visualizing the visualized image and displaying it on the display means.

Further, the lighting effect implementing unit may include:

A night environment implementer for converting the activated subject area image into a night environment by darkening the entire image; And a lighting effect superimposing unit for brightly exposing an area corresponding to each luminous range to a form in which light corresponding to a lighting effect is reflected by applying a luminous intensity for each luminous apparatus on a grid pattern matched with a target area image converted into a night environment; And a control unit.

The illumination library server may further include:

A light fixture registration unit for storing detailed information such as the appearance and specifications of the lighting fixtures that can be installed in the subject area in a database to provide an integrated library for the lighting fixtures; And registering the lighting effect realized when the lighting devices registered in the lighting device registration section are lit up as a wide range for each lighting device and storing the registered lighting effect in a database.

In this case, the luminous range registration unit may be configured to graphically display the luminous fluxes to which the brightness variation is applied differentially according to the increasing distance with reference to the position of the luminous source in each lighting apparatus, do.

Further, the illumination library server further includes a company-specific library building unit for categorizing the images of the specifications of the lighting apparatuses and images of the wide range into a database for each manufacturer or type, and building the library for each company or each type .

The present invention can visualize and provide real time visualization of the design of the lighting to be implemented in the target area to which the lighting is to be installed, thereby making it easy for ordinary salespeople to consult with the customer and to fix the design cue accordingly It is effective.

1 is a block diagram of a lighting design service providing system using a smart terminal according to the present invention;
2 is a block diagram illustrating the implementation of a lighting design service using a smart terminal in accordance with the present invention;
3 is an exemplary view showing an image and specifications of a lighting apparatus;
Fig. 4 is an exemplary diagram showing simulation data and an exhaust spectrum of a lighting apparatus. Fig.
Figure 5 is an illustration of a smart terminal illustrating setting a unit grid in accordance with the present invention.
Figure 6 is an example smart terminal illustrating setting a grid pattern for matching a subject area in accordance with the present invention.
Fig. 7 is an illustration of a smart terminal showing selection of a lighting fixture to be installed on a grid pattern; Fig.
8 is an exemplary view of a smart terminal showing that a lighting fixture is installed on a grid pattern;
9 is an illustration of a smart terminal showing activation of an image of a subject area to which a lighting fixture is to be installed in accordance with the present invention;
10 is an illustration of a smart terminal showing that an image of a subject area and a grid pattern are superimposed.
Figs. 11 and 12 are exemplary views of a smart terminal showing adjustment of a grid pattern to an image of a subject area. Fig.
Figure 13 is an illustration of a smart terminal that transforms an image of a subject area into a night environment and then displays the visualized lighting design by superimposing the glow of the adjusted lighting device with the adjusted grid pattern according to the present invention.
Figure 14 is an illustration of a smart terminal showing modification of a lighting fixture in accordance with the present invention;

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

FIG. 1 is a block diagram of a system for providing a lighting design service using a smart terminal according to the present invention, and FIG. 2 is a diagram illustrating the implementation of a lighting design service using a smart terminal according to the present invention.

Referring to FIGS. 1 and 2, a system for providing a lighting design service using a smart terminal according to the present invention includes: a light source for converting light into an image of a target area to be installed, A smart terminal 100 for generating a cue of an illumination design by superimposing and exposing a luminous flux of a selected luminous source in a library, a specification for at least one luminous source, and a luminous intensity distribution range And a lighting library server 200 having a lighting library as a database and transmitting specifications and distribution information of a lighting device selected by a user to the smart terminal connected on a wireless communication network.

At this time, the smart terminal 100 is easy to carry so that it can acquire an actual image of a subject area by photographing a subject area while carrying a general sales person as well as an illumination design expert, And communication means is provided so as to receive detailed information and distribution information on the lighting devices. A lighting device is disposed on an actual image of the subject area, And a portable terminal such as a smart phone or a tablet PC equipped with a data processing means for superimposing and displaying the image of the object zone on the image of the object zone so as to easily visualize and display the light design clan for the object zone.

To this end, the smart terminal 100 is provided with an illumination design app that is programmed to visualize and display an illumination design cistern that can be implemented in an actual image of the object area acquired using a photographing means such as a camera .

As shown in FIG. 1, the smart terminal 100 having the lighting design app installed therein sets the size of the unit grid for matching the target area to which the lighting device is to be installed, A grid setting unit 110 for generating a grid pattern in which the unit grid is extended in the longitudinal direction and the height direction according to the selected grid pattern, And an image activating unit 130 for superimposing and displaying the image on the display unit together with the grid pattern by activating the object zone image obtained by photographing the object zone and taking the illuminating device on the grid pattern into account, ), Adjusting the grid pattern to match the area to be illuminated on the subject area image, A grid adjustment unit 140 for arranging the illumination devices disposed on the pattern on the object zone image, a grid adjustment unit 140 for converting the object zone image into a dark night environment, And a lighting effect implementing unit (150) for visualizing the lighting design cue in a state where a lighting device is installed in the subject area and displaying the visualized lighting cue on the display means.

At this time, the smart terminal 100 on which the lighting design app is installed is not limited to simply displaying a lighting device that is lit up regardless of the size and the perspective of a target area to which the lighting device is to be installed, It is possible to visualize a lighting design cue as if it shows a demonstration form after the lighting apparatus has been installed, by showing a lighting apparatus lighting example of a form adjusted together according to the size or perspective of the object zone on the image.

Accordingly, in the present invention, as a means for matching the environment of the subject area so that the lighting device and each lighting device can be displayed in a state in which the light distribution in the lighting state is adjusted in accordance with the size or perspective of the subject area image A unit grid and a grid pattern are adopted and a grid setting unit 110 and a grid adjusting unit 140 are adopted to match the unit grid and the grid pattern to the object zone image.

After the illumination design app installed in the smart terminal is activated, the grid setting unit 110 sets the shape and size of the unit grid on the screen displayed on the display unit as shown in FIG. 5, As shown in FIG. 6, the unit grid is extended in the longitudinal direction and the height direction on the screen displayed on the display means to generate a grid pattern.

In this case, although the unit grid is set to a square of 1 m in the longitudinal direction and the height direction in FIG. 5, the size and shape of the target area or the target area or the size of the lighting equipment to be installed Accordingly, it is needless to say that the size and shape of the unit grid can be set differently.

In FIG. 6, it is shown that the environment of the subject area or the target area is an outer wall having a length of 32 m and a height of 3 m, and a plurality of unit grids are repeated in the longitudinal direction and the height direction to form a grid pattern. However, It goes without saying that the size in the longitudinal direction and the height direction can be changed depending on the environment.

In this manner, the grid setting unit 110 can generate a basic grid pattern to be matched with the target area or the target site by inputting the basic environment of the target area or the target site.

In addition, the lighting arrangement unit 120 selects a desired lighting apparatus while observing the outline and detailed specifications of the lighting apparatuses to be installed in the target area, and selects a desired lighting apparatus based on the size of the selected lighting apparatus, Respectively.

Accordingly, as shown in FIG. 7, the appearance and specifications of the lighting apparatus that can be installed in the target area or the target area by simply selecting and operating the smart terminal by a professional designer of illumination or a general salesperson operating the smart terminal So that it can be selected. FIG. 7 shows that a 36 W LED lamp of a bar type is displayed, and it is needless to say that it is possible to search the appearance and specifications of other lighting devices by operating arrows or the like displayed on the display means of the smart terminal.

8, after selecting the lighting device to be installed in the target area or the target area while observing the external shape and the specification of the lighting device in the lighting arrangement part 120, the position and the interval for setting the lighting device are set .

In FIG. 8, a lighting device having a size of 1 m on a subject area of 32 m in the longitudinal direction and 3 m in the height direction is shown to be installed every 2 m, and the lighting device installed in this manner is displayed on the display means of the smart terminal in yellow It is desirable to make it possible to express it visually and easily.

In this way, in the illumination arrangement unit 120, the illumination device is arranged on the grid pattern shown in a single plane, without arranging the illumination device directly on the 2D image of the object zone or the object, The grid adjustment unit 140 adjusts the grid pattern so that the light distribution of the illuminator spheres can be easily transformed into a 2D image to which a perspective is given.

In addition, the image activating unit 130 may arrange the illumination device in the grid pattern for matching the object zone or the target object in the illumination arrangement unit 120, and then, as shown in FIGS. 9 and 10, An actual image is retrieved and activated so as to be superimposed on the display means of the smart terminal together with the grid pattern.

In this case, the object zone image activated by the image activating unit 130 may be an image photographed directly by a photographing unit such as a camera provided in the smart terminal, Or an image stored in the terminal.

In addition, the grid adjusting unit 140 adjusts the grid pattern generated by the grid setting unit according to the image of the object zone displayed in the image activating unit, thereby changing the grid pattern generated in the single plane by the grid setting unit 110 To a 2D form reflecting the perspective of the object in accordance with the image of the object zone.

11 and 12, the grid adjusting unit 140 adjusts both corner portions of the grid pattern to the region of the target region image, and adjusts the grid pattern of the region where the lighting effect is implemented, The region images are matched to each other.

As the grid pattern is converted into a 2D image having a perspective view corresponding to the image of the object zone, the illumination device disposed on the grid pattern in the illumination arrangement unit 120 can be smoothly converted into a shape reflecting the perspective of the object .

Thus, after shooting the subject area image, the shape that can be seen in perspective when the light is installed in the subject area can be easily derived without depending on the capacity of the designer or sales person.

In addition, the lighting effect implementing unit 150 may convert an object area image into a dark night environment, superimpose and display the light-emitting range of the lighting apparatus on the converted night environment, And is displayed on the display means.

For this, the illumination effect implementation unit 150 includes a night environment implementation unit 151 that darkens the entire activated object zone image and converts it into a night environment, a grid And a lighting effect superimposing unit 152 which brightly exposes an area corresponding to each luminous range to a form in which light corresponding to the lighting effect is reflected by applying luminous spots to each luminous device on the pattern.

At this time, since the luminous intensity of each lighting apparatus displayed in the illumination area of the illumination effect superimposing unit 152 is automatically reflected by matching the grid pattern to the target area image in the grid adjusting unit 140, It is possible to easily visualize and present a realistic lighting design cue as shown in Fig.

The grid pattern is for reflecting the placement position of the lighting device and the perspective of the object zone image on the lighting device. After the match in the grid adjustment unit 140 is completed, as shown in FIG. 13, So that it is not displayed on the display screen.

14, after changing the type of the lighting device, it is necessary to change the type of the lighting device such that the lighting range of the various lighting devices is applied to the target area, The cyan can be visually confirmed easily.

The lighting library server 200 not only provides the lighting design app, but also installs the information on the various lighting devices and the distribution area in a target area so as to be provided to each smart terminal through a wireless communication network while continuously updating and registering A lighting device registration unit 210 for storing detailed information such as the appearance and specifications of the lighting devices that can be stored in the database and providing an integrated library for the lighting devices, And a storage area storing unit 220 for storing the images of the specifications of the lighting apparatuses and images of the wide range in a database according to the manufacturer or type, And a company-specific library construction unit 230.

At this time, as shown in FIG. 3, the lighting device registration unit 210 registers detailed information that can confirm the type and shape of each lighting device, the size of the lighting device, and the required power It is preferable that the search can be performed using the smart terminal by storing it in a database.

Accordingly, the information of the lighting apparatus stored in the database is displayed on the smart terminal as shown in FIG. 7, and the lighting apparatus to be installed in the target area can be selected.

In addition, as shown in FIG. 4, the light-scattering area registration unit 220 graphically displays the spread spectrum of the light generated when the light is turned on, and stores the scattered light in a database, thereby realizing a lighting effect And a lighting effect can be implemented on the subject area image using the luminous range registered in the luminous range registration unit in the lighting unit 150.

4 (b) and 4 (c), the brightness of the radiated light is differentiated according to the distance from the light source position with reference to the position of the light source as shown in FIG. 4 (a) It is possible to generate a wider range that can obtain the illumination effect as shown in Fig.

In addition, the company-specific library building unit 230 is configured to classify the images of the specification and the magnification of a plurality of lighting apparatuses registered in the database by manufacturers, thereby constructing a library organized in an enterprise unit. The lighting design can be configured to improve the convenience of a company to provide the lighting design using the lighting system, and it is also possible to classify the lighting apparatuses by the similar types so that the products of the various manufacturers can be compared, And may be configured to expand the width of the selection of the user.

As described above, the detailed information of various lighting apparatuses and the lighting effects, which are implemented when the lighting apparatuses are turned on, are stored in the database in the above-described lighting library server, and then provided to designers or general salespeople It is possible to improve the convenience of designers and salespeople who want to visualize and provide illumination designs.

In this way, it is possible to easily acquire the image of the object zone using the smart terminal, and also to arrange the illuminator first on a single plane using the unit grid and the grid pattern, and then to adjust the grid pattern to the 2D image of the object zone , The image of the widespread area that can be implemented by the lighting device to be installed in the object area is changed to the 2D image reflecting the perspective of the object and overlapped with the object area image so that the visualization of the lighting design can be visualized more easily and quickly .

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100 - smart terminal 110 - grid setting section
120 - Lighting arrangement unit 130 - Image activation unit
140 - Grid adjustment unit 150 - Lighting effect implementation unit
151 - night environment implementation unit 152 - lighting effect overlap unit
200 - Lighting Library Server 210 - Lighting Fixture Register
220 - Extensive Width Register 230 - Enterprise Library Builder

Claims (6)

delete A smart terminal for converting an image of a target area in which a lighting device is to be installed into a dark environment and generating a cyan of an illumination design by superimposing and displaying an image of the converted target area on an image of the selected lighting device; And
A lighting library which is a database in which specifications of at least one type of lighting apparatuses and a distribution range in which light is emitted when the lamp is lit up are provided and the specifications of the lighting apparatus selected by the user And an illumination library server for transmitting the spread spectrum information,
The smart terminal comprises:
The size of the unit grid for matching the target area to which the lighting apparatus is to be installed is set and a grid pattern in which the unit grid is extended in the longitudinal direction and the height direction according to the actual size and distance of the target area is generated, A grid setting unit for displaying the grid;
A lighting arrangement for selecting a lighting device to be installed in a target area and arranging the lighting device on the grid pattern in consideration of the installation position in the target area;
Activating an object zone image obtained by photographing the object zone and superimposing the image on the display means together with the grid pattern;
A grid adjusting unit for adjusting a grid pattern according to an area to be illuminated on the object zone image and arranging a lighting apparatus disposed on the grid pattern in an object zone image; And
The target area image is converted into a dark night environment and the grid area of the illuminated equipment is superimposed on the transformed night environment with the grid pattern adjusted by the grid adjusting unit so that a lighting design scheme And displaying the visualized image on the display means. The system for providing a lighting design service using the smart terminal according to claim 1, 3. The method of claim 2,
The lighting effect implementing unit may include:
A night environment implementer for converting the activated subject area image into a night environment by darkening the entire image; And
A lighting effect superimposing unit that brightly exposes an area corresponding to each luminous range in a form in which light is reflected as much as a lighting effect by applying a luminous intensity for each lighting device on the grid pattern matched to the object area image converted into the night environment And providing the lighting design service using the smart terminal. The method according to claim 2 or 3,
The illumination library server comprises:
A light fixture registration unit for storing detailed information such as the appearance and specifications of the lighting fixtures that can be installed in the subject area in a database to provide an integrated library for the lighting fixtures; And
And registering the lighting effect realized when the lighting devices registered in the lighting device registration section are lit up as a wide range for each lighting device and storing the registered lighting effects in a database. Delivery system. 5. The method of claim 4,
Wherein the glaring range registration unit is configured to graphically display the glaring range in which brightness variations are differentially applied according to an increasing distance with reference to the position of the light source when the glaring unit is turned on for each lighting apparatus, A system for providing lighting design services using terminals. 5. The method of claim 4,
The illumination library server further includes a company-specific library building unit for classifying images of the specifications and the wide range of the lighting apparatuses into a database for each manufacturer or type, and building a library for each company or type, A system for providing lighting design services using smart terminals.

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