KR102538414B1 - Movable lighting module and wireless-based rendering lighting system and method for tracking location of lighting using the same - Google Patents

Abstract

The present invention relates to a mobile lighting module and a wireless-based directing lighting system and method for self-locating using the same. A plurality of movable lighting modules receiving and transmitting, position estimation that is connected to the plurality of movable lighting modules through wireless communication and measures each position of the plurality of movable lighting modules by the strength of the wireless signal transmitted from the plurality of movable lighting modules. It is implemented by including a server and a lighting directing server that is connected to a plurality of mobile lighting modules through wireless communication and controls lighting directing based on the location measured by the location estimation server.

Description

Mobile lighting module and wireless-based directing lighting system and method for self-locating using the same

The present invention relates to a lighting system, and a mobile lighting capable of wirelessly connecting a plurality of lighting modules and a control server, tracking positions between a plurality of lighting modules, and transmitting graphic images or storytelling-based images based on the positions of the lighting modules. It relates to a module and a wireless-based directing lighting system and method for self-locating using the same.

Night culture refers to various programs and contents that local residents and tourists can see and enjoy at night in tourist attractions or tourist facilities that can be operated at night.

Recently, by using LED lighting for night culture, colorful and beautiful night cultural contents are applied to outdoor spaces in various forms. For example, it is applied to tourist attractions, piers, trails, etc.

Real-time control technology for multiple lights is essential to implement a system that uses LED lights. Real-time control technology requires electrical connection to supply power to multiple lights and network connection to control lighting data. need.

In other words, in order to install multiple lights, it is necessary to connect not only wires to supply power to each light, but also wires to connect the network. However, the wiring cost is expensive, the installation site is small, or the communication connection is difficult. It has a difficult downside.

In addition, in order to utilize a plurality of lights installed in a wide space as one huge video screen, a mapping technology between each light position and video or graphic data for directing is required.

In addition, from a design point of view, the design of the object that covers the light itself along with the light itself is an important part of the lighting direction.

In addition, from the design point of view, along with the light generated from the lighting, the external design of the lighting itself has become an important part of the lighting production.

Republic of Korea Patent Publication No. 10-2017-0092415 (published on August 11, 2017)

The present invention is to solve the above problems, and a plurality of movable lighting modules and a control server are connected by wireless communication, and by tracking the location of a plurality of movable lighting modules, a graphic image or story based on the location of the lighting module Its purpose is to provide a wireless-based directing lighting system and method for finding a location by itself capable of transmitting a telling-based image.

In addition, the present invention embeds a battery in a plurality of lighting modules to wirelessize an existing wired electrical connection, and implements a method controlled by a wired communication method into a wireless communication method, thereby simplifying the installation of lighting as well as simplifying installation. It is difficult to provide a movable lighting module that can be easily installed in a space where the position of the light is not fixed.

In addition, an object of the present invention is to provide a lighting system capable of user interaction by providing a graphic image desired by a user to be expressed in a lighting module through a user terminal.

In particular, the present invention is to detect a user approaching the lighting module by incorporating various sensors such as a vibration sensor and a beacon scanner in a lighting module to produce lighting in response to a user's action.

To this end, the wireless-based directing lighting system for self-locating according to an embodiment of the present invention is equipped with a position sensor emitting a wireless signal therein and receives and transmits a wireless signal emitted from an adjacent lighting module. module; a position estimation server that is connected to the plurality of mobile lighting modules through wireless communication and measures each position of the plurality of mobile lighting modules by the intensity of a wireless signal transmitted from the plurality of mobile lighting modules; and a lighting directing server connected to the plurality of mobile lighting modules through wireless communication and controlling lighting directing based on the location measured by the location estimation server.

At this time, the plurality of movable lighting modules are characterized in that a battery for supplying power for turning on and off the lamp is built-in, so that wiring connection is unnecessary and movable and portable.

The plurality of mobile lighting modules are equipped with access points (APs) that emit Wi-Fi signals, and the location estimation server collects the Wi-Fi signals received from the plurality of mobile lighting modules and collects the Wi-Fi signals. It is characterized in that each position of the plurality of mobile lighting modules is measured by estimating the distance between devices according to the strength of the signal.

The lighting directing server may map lighting data to be directed with position data of the plurality of movable lighting modules measured by the location estimating server, and wirelessly transmit lighting data mapped thereto to each movable lighting module.

In addition, the lighting directing server may extract lighting data to be directed from data stored in a database, or may extract lighting data for storytelling-based directing in connection with an external content server.

In addition, the wireless-based directing lighting system for finding a location by itself according to an embodiment of the present invention further includes a user terminal for selecting and inputting lighting data to be directed for the plurality of mobile lighting modules by user manipulation, , The lighting directing server, when selection of lighting data is input from the user terminal, maps the selected lighting data with the location data of the mobile lighting module measured by the location estimation server, and the lighting data mapped thereto to each mobile lighting module. can be transmitted wirelessly in real time.

In addition, the user terminal may select a desired movable lighting module from among the plurality of movable lighting modules or manipulate lighting data with respect to an adjacent movable lighting module, and accordingly, the lighting directing system may select the user terminal from the location estimation server. It is possible to receive the location of the mobile lighting module selected by and wirelessly transmit lighting data manipulated by the user terminal to the corresponding lighting module in real time.

On the other hand, a mobile lighting module according to an embodiment of the present invention is a lighting module having a lamp and a driver for driving the lamp, and is a lighting module for controlling on/off of the lamp through wireless communication from an external lighting directing server. A wireless communication module unit for receiving data; A position sensor for emitting a radio signal and receiving a radio signal emitted from an adjacent lighting module at the same time; a battery capable of being charged by solar energy and supplying power to turn on and off the lamp; and a control unit for transmitting the lighting data received from the wireless communication module unit to the driver to control lighting direction of the lamp and to transmit the wireless signal received from the position sensor to the location estimation server through the wireless communication module unit. includes;

The mobile lighting module includes a frame in which the wireless communication module unit, the position sensor, the battery, and the control unit are mechanically fixedly installed; An object fastened to the frame and covering the outer periphery of the frame; wherein the frame is made of a material that is constant temperature, constant humidity and waterproof, and the object is detachably fastened from the frame, and the material according to the lighting direction , may be provided in a different shape.

On the other hand, in the wireless-based directing lighting method for finding a position by itself according to an embodiment of the present invention, a plurality of movable lighting modules equipped with position sensors emitting wireless signals therein are wireless signals emitted from lighting modules adjacent to each other. receiving; Wherein a location estimation server connected to the plurality of mobile lighting modules through wireless communication receives wireless signals from the plurality of mobile lighting modules and measures each position of the plurality of mobile lighting modules by the intensity of the received wireless signals ; and transmitting, by a lighting directing server connected to the plurality of mobile lighting modules through wireless communication, lighting data based on the location measured by the location estimation server to a corresponding lighting module to control lighting directing.

According to the present invention, even if a plurality of movable lighting modules are moved, there is an effect of transmitting a graphic image or a storytelling-based image based on the location of a plurality of movable lighting modules by tracking the location of the plurality of movable lighting modules. For example, even if the position of an individual lighting module is changed, there is a remarkable effect of preventing graphics displayed on the lighting modules from being distorted by identifying the changed position in real time.

In particular, the present invention can achieve a directing effect by installing it in a space where lighting is difficult to install, such as a lake or a performance hall, and the position of the lighting is not fixed, compared to a directing lighting system that has been fixedly installed and operated in a fixed space. .

In addition, according to the present invention, the wired electrical connection is made wireless in the form of a built-in battery, and the method controlled by wired communication is implemented to be controlled by wireless communication, thereby eliminating the wiring installation work for power connection and communication connection. It simplifies installation and reduces costs.

Further, according to the present invention, it is possible to provide a lighting system capable of interacting with a user response by providing a graphic image desired by a user to be expressed in a lighting module through a user terminal. As a result, there is an effect of maximizing immersive lighting production by inducing interest to the user and adding an emotional experience.

1 is a schematic diagram showing a directing lighting system according to an embodiment of the present invention.
Figure 2 is a configuration diagram showing a mobile lighting module of the system according to an embodiment of the present invention.
3 is an external perspective view of a movable lighting module according to an embodiment of the present invention.
4 is a diagram showing various embodiments of a movable lighting module according to an embodiment of the present invention.
5 is a configuration diagram showing a server of a system according to an embodiment of the present invention.
6 is a diagram illustrating an operation of detecting positions between a plurality of movable lighting modules according to an embodiment of the present invention.
7 is a diagram showing a configuration for tracking the positions of a plurality of movable lighting modules according to an embodiment of the present invention.
8 is a diagram illustrating an operation of performing an interaction function in association with a user terminal in a system according to an embodiment of the present invention.

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

1 is a schematic diagram showing a directing lighting system according to an embodiment of the present invention.

A directing lighting system according to an embodiment of the present invention may be implemented by including at least a directing lighting management server 100 and a plurality of mobile lighting modules 200 .

The user terminal 300 is an additional component, and is linked to the production lighting management server 100 so that the user's manipulation may be involved in lighting production. Here, the user terminal 300 includes a smart phone, a tablet, a laptop, a computer, a smart watch, etc. capable of connecting to the Internet.

The plurality of movable lighting modules 200 may be fixedly installed in a fixed space like conventional lighting, but may be installed in a space where the lighting is not easy to install and the position of the lighting is not fixed, such as a lake or a performance hall. The plurality of movable lighting modules 200 may be moved by a manager as well as by a user to maximize interaction between users. Alternatively, in a place such as a lake, the movable lighting module 200 may be naturally moved by running water.

Therefore, the position of the lighting can be changed by the mobile lighting module 200 according to the embodiment of the present invention due to its portability and portability. The changed position of the module 200 is grasped and controlled.

To this end, the directing lighting management server 100 is connected to a plurality of movable lighting modules 200 by wireless communication, receives location information from a plurality of movable lighting modules 200, and positions of each movable lighting module 200. to track And, based on the location of the lighting module, a graphic image or a storytelling based image (hereinafter referred to as lighting data) is transmitted.

Specifically, as configurations for implementing the system according to an embodiment of the present invention, the mobile lighting module 200 and the directing lighting management server 100 will be described in detail.

Mobile lighting module

Figure 2 is a configuration diagram showing a mobile lighting module of the system according to an embodiment of the present invention.

First, looking based on the functional configuration as shown in FIG. 2, the mobile lighting module 200 according to an embodiment of the present invention includes a battery 210, a wireless communication module unit 220, a control unit 230, and an LED driver. 240, an LED 250, and a position sensor 260.

In addition, the mobile lighting module 200 according to an embodiment of the present invention may further include a beacon scanner 270 and a vibration sensor 280 to implement a user interaction function.

The battery 210 supplies power required for operation of each component as well as power for lighting the LED 250 . The battery 210 can be charged by solar energy. Due to this configuration, the mobile lighting module 200 can use a battery semi-permanently, and does not require an electrical wired connection for power application.

The wireless communication module unit 220 receives lighting data for controlling on/off of the LED 250 through wireless communication from an external directing lighting management server.

Here, the wireless communication is a wired telephone network, a wireless LAN (WLAN), an internet network using Wi-Fi, a local area network such as Bluetooth or Zigbee, RFID (Radio Frequency IDentification) or NFC (Near Field) Communication), etc., or a local area communication network can be used.

The LED driver 240 outputs a control signal for driving the LED 250 to the LED 250, and the LED (Light Emitting Diode; 250) is an example of a lamp, but is not limited thereto, such as an incandescent bulb or a three-wavelength bulb. can be applied

The position sensor 260 emits a radio signal and simultaneously receives a radio signal emitted from an adjacent lighting module. Here, when the wireless signal is a WiFi signal, the location sensor 260 may include an Access Point (AP) capable of emitting and receiving a WiFi signal.

The control unit 230 transfers the lighting data received from the wireless communication module unit 220 to the LED driver 240 to control the lighting direction of the LED 250, which is a lamp, and transmits the wireless signal received from the position sensor 260. Through the wireless communication module unit 220, it is controlled to be transmitted to an external directing lighting management server.

Therefore, the mobile lighting module 200 according to an embodiment of the present invention makes the electrical connection wireless by the built-in battery 210 and is wirelessly connected to the server through the wireless communication module unit 220, so a wire connection is unnecessary. . In addition, by receiving wireless signals from the movable lighting modules 200 adjacent to each other through the position sensor 260, it is used for position tracking.

Meanwhile, the vibration sensor 280 is a sensor that detects a user's touch and is intended to control lighting according to whether or not the user touches it.

The beacon scanner 270 scans and receives a beacon signal emitted from a user terminal moving around the mobile lighting module 200 . This is to detect the user's approach and control lighting in response to the user's action.

Accordingly, the control unit 230 controls lighting of the mobile lighting module when a user's touch is detected through the vibration sensor 280, and when a beacon signal is received through the beacon scanner 270, the received beacon signal is wirelessly communicated. Transmits to the user terminal through the module unit 220, receives lighting data operated by the user terminal from the production lighting management server, and controls lighting production.

The beacon signal includes beacon identification information, and in particular, may include identification information capable of identifying the mobile lighting module 200 . Any one of a Wi-Fi beacon signal, a Bluetooth beacon signal, or a ZigBee beacon signal may be applied as the beacon signal.

3 is an external perspective view of a movable lighting module according to an embodiment of the present invention, and FIG. 4 is a view showing various embodiments of a movable lighting module according to an embodiment of the present invention.

Referring to FIG. 3, the mobile lighting module according to an embodiment of the present invention includes a PCB 21a including a wireless communication module unit (220 in FIG. 2), a position sensor (260 in FIG. 2), and a control unit (230 in FIG. 2). , LED (21b), battery (21c) consists of a frame 21 mechanically fixedly installed, and an object 22 fastened to the frame 21 to cover the outer periphery of the frame 21.

That is, the movable lighting module may be provided in an assembly type in which the frame 21 and the object 22 are assembled.

The frame 21 is made of a material that is constant temperature, constant grade and waterproof. Therefore, when the movable lighting module is installed outdoors, corrosion caused by the external environment and damage to circuits are minimized.

The objet 22 is detachably fastened from the frame 21, and may be prepared in different materials and shapes according to lighting direction. For example, it may be provided with a material such as traditional Korean paper or cloth, and may be provided with a character pattern such as a flower pattern or an animal. Alternatively, it may be provided in a pattern such as a basic triangle, square, circle, etc. to form a specific shape or character by mutual arrangement between lighting modules.

Also, as shown in FIG. 4, the frame 21 and the object 22 may be provided in various types. That is, as shown in (b), the frame is in the form of a rod that is provided high in a vertical plane in a stand type, and accordingly, an object may also be provided long. (a) is a general modular structure that is not higher than the stand type of (b) and spreads in a horizontal plane. (c) is a structure in which the frame is installed on the ceiling in a hanging type.

As such, the movable lighting module according to an embodiment of the present invention is provided in various types depending on the place where it is installed and the purpose of directing, and objects of various materials and shapes can be applied. As a result, it is possible to conveniently produce lighting only by replacing objects during field installation.

Directing lighting management server

5 is a configuration diagram showing a server of a system according to an embodiment of the present invention.

The directing lighting management server 100 according to an embodiment of the present invention includes a location estimation server 110, a lighting directing server 120, and a database 130.

The position estimating server 110 is connected to a plurality of mobile lighting modules through wireless communication, and measures each position of the plurality of mobile lighting modules by the strength of the wireless signal transmitted from the plurality of mobile lighting modules.

For example, when the wireless signal is a WiFi signal, an access point (AP) emitting a WiFi signal is embedded in a plurality of mobile lighting modules. Then, as shown in FIG. 6, the plurality of mobile lighting modules receive Wi-Fi signals (Received Signal Strength Indicator (RSSI) and MAC information of the access point) from neighboring lighting modules within a certain range. Mobile lighting module #1 receives Wi-Fi signals and MAC information from ambient lighting modules #2, #3, and #4 located within the range of R1, and mobile lighting module #3 receives ambient lighting module #2, Wi-Fi signals and MAC information are received from #5 and #6.

Then, the location estimating server 110 collects the Wi-Fi signal transmitted from each mobile lighting module, estimates the distance between devices according to the strength of the collected Wi-Fi signal, and measures each location of the plurality of mobile lighting modules.

7 shows a series of processes of measuring a location in the location estimation server 110 .

In the location estimation server 110, first, RSSI data is collected, a map is created by estimating the distance according to the strength of the RSSI, and deep learning using CNN (Convolutional Neural Networks) or MLP (Multi-Layer Perceptron) algorithm is performed. Through learning), a series of processes are performed to estimate the location of each mobile lighting module by reducing the error rate and classifying location information more accurately.

As a method of estimating the location of a mobile lighting module, a technology using a Wi-Fi signal has been described as an example, but the present invention is not limited thereto. It will be possible to use location recognition technology using based short-range wireless communication.

The lighting directing server 120 is connected to a plurality of mobile lighting modules through wireless communication and controls lighting directing based on the location measured by the location estimation server 110 .

In particular, the lighting directing server 120 maps lighting data to be directed with location data of the lighting module measured by the location estimation server 110 and wirelessly transmits lighting data mapped to each lighting module.

For example, it is assumed that the lighting modules #1, #2, #3, and #4 are configured to produce red, yellow, green, and blue colors, respectively, based on location. However, when the lighting module #1 is moved and the position is changed in the order of #2, #3, #4, and #1, the lighting directing server 120 wirelessly transmits the lighting data changed to illuminate red to the lighting module #2, Lighting data for lighting yellow can be wirelessly transmitted to lighting module #3, and lighting data for lighting green and blue can be wirelessly transmitted to lighting modules #4 and #1, respectively. In this way, the lighting directing server 120 transmits corresponding lighting data according to the location of the movable lighting module so that the graphic image displayed through the lighting module is not distorted or distorted by tracking the location in real time even if the location of the movable lighting module is changed. control is possible

Lighting data basically includes RGB data representing the color of lighting. Also, the lighting data may further include time data. That is, it may include time-related data for how long the RGB data will be displayed. Also, lighting data may include location-based data.

The database 130 stores lighting data related to graphic images or storytelling-based images to be directed.

Accordingly, the lighting directing server 120 may extract lighting data to be directed from data stored in the database, or may extract desired lighting data in association with an external content server through a wireless communication network. In the case of the latter, various images can be applied because even images that have not been uploaded to the database can be obtained through an external content server.

Meanwhile, the lighting directing server 120 may manage and control lighting data manipulated by a user in response to a user's response in association with a user terminal.

8 is a diagram illustrating an operation of performing an interaction function in association with a user terminal in a system according to an embodiment of the present invention.

First, the user terminal 300 may select and input lighting data to be produced for a plurality of mobile lighting modules by a user's manipulation (1). Selected input data may be transmitted to the lighting directing server 120 through a wireless communication network to request lighting control (2).

Thereafter, the lighting directing server 120 requests location information of the current mobile lighting module 200 from the location estimation server 110, and in response to the request, the location estimation server 110 determines the location of each mobile lighting module 200. Receive location information (3, 4).

Thereafter, the lighting directing server 120 refers to the location information received from the location estimation server 110 and wirelessly transmits lighting data mapped thereto to each mobile lighting module 200 to control lighting directing in real time (5).

In this case, the user terminal 300 may install an application for controlling lighting directing and perform the lighting through the installed application.

In addition, the user terminal 300 can be interactive without applying an application, and in this case, the user terminal 300 can control lighting for a specific mobile lighting module by a beacon signal between the mobile lighting modules 200. there is.

On the other hand, in the method of directing lighting in a directing lighting system according to an embodiment of the present invention, a plurality of movable lighting modules equipped with position sensors emitting wireless signals therein detect wireless signals emitted from lighting modules adjacent to each other. Receiving step, a position estimation server connected to a plurality of mobile lighting modules through wireless communication receives wireless signals from a plurality of mobile lighting modules and measures each position of the plurality of mobile lighting modules by the strength of the received wireless signals Step, a lighting directing server connected to a plurality of mobile lighting modules through wireless communication transmits lighting data to a corresponding lighting module based on the location measured by the location estimation server to control lighting directing.

The above description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. Therefore, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed by the claims below, and various equivalents and modifications that can replace them at the time of this application should be construed as being included in the scope of the present invention.

100; Directing lighting management server 200: A plurality of portable lighting modules
300: user terminal 110: location estimation server
120: lighting directing server 130: database
210: battery 220: wireless communication module unit
230: control unit 240: LED driver
250: LED 260: position sensor
270: beacon scanner 280: vibration sensor
21: Frame 22: Object

Claims (12)

A plurality of mobile lighting modules equipped with position sensors for emitting wireless signals therein and receiving and transmitting wireless signals emitted from adjacent lighting modules;
a position estimation server that is connected to the plurality of mobile lighting modules through wireless communication and measures each position of the plurality of mobile lighting modules by the intensity of a wireless signal transmitted from the plurality of mobile lighting modules; and
A lighting directing server connected to the plurality of mobile lighting modules through wireless communication and controlling lighting directing based on the location measured by the location estimation server;
The plurality of mobile lighting modules have an access point (AP) that emits and receives a WiFi signal and is connected to the location estimation server through the access point,
The location estimation server,
While collecting Wi-Fi signals received from the plurality of mobile lighting modules and estimating a distance between devices according to the strength of the collected Wi-Fi signals, each position of the plurality of mobile lighting modules is measured,
A user terminal capable of selecting a desired mobile lighting module from among the plurality of mobile lighting modules, or manipulating lighting data with respect to an adjacent mobile lighting module among the plurality of mobile lighting modules; further comprising,
In this case, the lighting rendering server,
A wireless-based directing lighting system for self-locating, characterized in that receiving the location of the mobile lighting module selected by the user terminal from the location estimation server and wirelessly transmitting lighting data manipulated by the user terminal to the corresponding lighting module in real time. . According to claim 1,
The plurality of movable lighting modules,
A wireless-based directing lighting system that finds its own location, featuring a built-in battery that supplies power to turn the lamp on and off, requiring no wiring and being portable and portable. delete According to claim 1,
The lighting directing server,
A wireless base for self-locating, characterized in that the lighting data to be produced is mapped with the location data of the plurality of movable lighting modules measured by the location estimation server and the lighting data mapped thereto is wirelessly transmitted to each movable lighting module. directing lighting system. According to claim 4,
The lighting directing server,
Lighting data to be directed is extracted from data stored in the database, or lighting data for storytelling-based directing is extracted in connection with an external content server. A wireless-based directing lighting system that finds its own location, characterized in that it includes time-related data on whether it is. According to claim 1,
A user terminal for selecting and inputting lighting data to be produced for the plurality of mobile lighting modules by user manipulation; further comprising,
The lighting directing server,
When selection of lighting data is input from the user terminal, the selected lighting data is mapped with the location data of the mobile lighting module measured by the location estimation server, and the lighting data mapped thereto is wirelessly transmitted in real time to each mobile lighting module. A wireless-based directing lighting system that finds its location by itself. delete delete delete delete Receiving a radio signal emitted from a lighting module in which a plurality of movable lighting modules equipped with position sensors emitting radio signals therein are adjacent to each other;
Wherein a location estimation server connected to the plurality of mobile lighting modules through wireless communication receives wireless signals from the plurality of mobile lighting modules and measures each position of the plurality of mobile lighting modules by the intensity of the received wireless signals ; and
Controlling lighting directing by a lighting directing server connected to the plurality of mobile lighting modules through wireless communication by transmitting lighting data to a corresponding lighting module based on the location measured by the location estimation server,
The step of receiving the wireless signal by the plurality of movable lighting modules,
The plurality of mobile lighting modules have an access point (AP) for emitting and receiving Wi-Fi signals, emit their own radio signals through the access points, and simultaneously receive radio signals from other mobile lighting modules adjacent thereto. and
A user terminal capable of selecting a desired mobile lighting module from among the plurality of mobile lighting modules, or manipulating lighting data for an adjacent mobile lighting module among the plurality of mobile lighting modules;
The lighting directing server receives the position of the mobile lighting module selected by the user terminal from the location estimation server and wirelessly transmits lighting data manipulated by the user terminal to the lighting module in real time;
A wireless-based directing lighting method for finding a location by itself, characterized in that it further comprises. According to claim 11,
The step of controlling the lighting direction,
Wherein the lighting directing server maps the lighting data to be directed with the location data of the plurality of movable lighting modules measured by the location estimation server and wirelessly transmits the lighting data mapped thereto to each movable lighting module. A wireless-based directing lighting method that finds

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