KR100790181B1 - Illumination light communication system and method thereof - Google Patents

Abstract

In the illumination light communication system, a visible light transmission device converting information provided by a power line communication method through a power line into a predetermined format and outputting the visible light communication method, and receiving visible light of a visible light communication method emitted from another light source. A light receiving device and a receiving device for demodulating the received signal included in the received visible light, a plurality of lighting LEDs for converting the information into a predetermined format according to the received information to transmit the power line communication method through the power line (Light Emitting Diode); A visible light transmitting device, a visible light receiving device, and a signal processing device for signal modulation and demodulation are provided, and a portable terminal for performing visible light communication with the plurality of illumination LEDs is provided.

Illumination light, visible light, communication, portable terminal, LED

Description

Illumination communication system and its method {ILLUMINATION LIGHT COMMUNICATION SYSTEM AND METHOD THEREOF}

1 is an overall configuration diagram of an illumination light communication system according to an embodiment of the present invention

2 is a flowchart illustrating a communication between mobile communication terminals in an illumination light communication system according to an embodiment of the present invention.

3 is a procedure for communication between mobile communication terminals in an illumination light communication system according to another embodiment of the present invention.

4 is an internal circuit diagram of an LED for illumination in an illumination light communication system according to an embodiment of the present invention.

5 is an internal circuit diagram of an LED for illumination in an illumination light communication system according to another embodiment of the present invention.

The present invention relates to an illumination light communication system and method for performing visible light communication using illumination light.

In recent years, with the rapid spread of portable terminals, a problem of depletion of frequency bands in communication systems using radio waves has emerged. Accordingly, the development of communication technology using infrared rays, such as shorter wavelengths, is being actively performed. However, with the problem of exhaustion of the frequency band, the influence on medical devices and various precision devices has been confirmed, and the influence on the human body is also highlighted on infrared rays. Accordingly, attention has been paid to communication technology using visible light that can communicate relatively safely.

The communication technology using visible light has recently been in the spotlight using a white light emitting diode (LED), and the white LED has a significantly lower power consumption compared to conventional incandescent lamps and fluorescent lamps, and has a small and long lifespan. Accordingly, research on an illumination light communication system that performs signal transmission by controlling the blinking or light quantity of a white LED used for illumination has been conducted.

On the other hand, as one of the communication systems, the power line communication system is installed in houses and buildings and transmits information by using the power line supplying power as it is as a signal transmission medium. Power lines are very popular infrastructures and basically allow communication between appliances connected by power lines.

It is very useful to develop such a power line communication system by fusion with an illumination light communication system using the white LED as described above, and technology for this has been developed. An example of such a technique is disclosed in Korean Patent Application No. 2005-7007071 (name: Illumination optical communication device: Applicant: Nakagawa Genkyu Sho, filing date: April 23, 2005).

In such a system, communication using visible light enables safe communication without affecting the human body, and by using power line communication technology, its applicability and utility are very high. Such a system is expected to be a better application technology.

Accordingly, it is an object of the present invention to provide a visible light communication system and method which are more useful.

Another object of the present invention is to provide a visible light communication system and a method for smoothly performing communication between mobile communication terminals through optical communication.

In order to achieve the above object, an aspect of the present invention provides an illumination light communication system, comprising: a visible light transmission device for converting information provided by a power line communication method through a power line into a predetermined format and outputting the visible light communication method; A light receiving device for receiving visible light of the emitted visible light communication method and a receiving device for demodulating a received signal included in the received visible light, converting the information into a preset format according to the received information, and converting the power line into a communication power line communication. A plurality of light emitting diodes (LED) for transmitting in a manner; A visible light transmitting device, a visible light receiving device, and a signal processing device for signal modulation and demodulation are provided, and the portable terminal performs visible light communication with the plurality of LEDs for illumination.

According to another aspect of the present invention, in an illumination light communication method in an illumination LED in an illumination light communication system, when receiving a preset message through visible light communication from a portable terminal in an illumination range, the type of the message and the reception of the portable terminal Confirming the information, transmitting the received message to another lighting LED through power line communication according to the type of the message received from the portable terminal and the result of checking the information of the receiving portable terminal; If there is a message transmitted through power line communication, checking the type of the message and the LED for the destination lighting, and the received message according to the type of the message received from the other lighting LED and the checking result of the LED for the destination lighting. And broadcasting the message through visible light communication. The.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, specific details such as specific components are shown, which are provided to help a more general understanding of the present invention, and it is understood that these specific details may be changed or changed within the scope of the present invention. It is self-evident to those of ordinary knowledge in Esau.

1 is an overall configuration diagram of an illumination light communication system according to an embodiment of the present invention. Referring to FIG. 1, the illumination light communication system according to the present invention includes a server 10, a plurality of illumination LEDs 12a, 12b, and 12c, and a plurality of portable terminals 14a, 14b, and 14c.

The server 10 may be configured as a computer as a source of information. The information provided by the server 10 may be a variety of information such as video, music, voice, image, text data, and may be not only information used in a general home, but also all information related to the commercial activity in a commercial building. . The server 10 may be composed of one to a plurality. The server 10 is connected to the plurality of lighting LEDs 12a, 12b, 12c through a power line, and can perform bidirectional communication with the lighting LEDs 12a, 12b, 12c through a power line communication method. At this time, the server 10 is provided with a power line modulator (not shown) for modulating the corresponding information to be superimposed on the power waveform and sent to the lighting LEDs 12a, 12b, 12c through the power line.

Power lines provide this power transport function. In addition, at this time, by using the electric field flowing in the power line as a carrier (carrier), the communication role between the server 10 and the illumination LED (12a, 12b, 12c) and the illumination LED (12a, 12b, 12c) according to the characteristics of the present invention. Do it. Such power lines may utilize existing power lines installed indoors / outdoors.

The portable terminals 14a, 14b, and 14c include an optical transmission device light receiving device for enabling visible light communication with the illumination LEDs 12a, 12b, and 12c, and a signal processing device for signal modulation and demodulation. The portable terminals 14a, 14b, and 14c may have a configuration of a conventional mobile communication terminal, and may have a configuration that enables direct communication between the portable terminals 14a, 14b, and 14c using conventional optical communication technologies. have. Recently, a mobile communication terminal capable of such visible light communication between terminals has been developed and spread. In particular, a technique for performing visible light communication using a flash device in a mobile communication terminal equipped with a camera module has also been proposed. For example, the technology disclosed in Korean Patent Application No. 2004-56593 (name: wireless terminal for performing visible light short-range communication using a camera device, Applicant: Samsung Electronics Co., Ltd., filed on July 20, 2004) Can be.

The lighting LEDs 12a, 12b, and 12c refer to LEDs installed at appropriate positions indoors or outdoors (for example, ceilings indoors) to satisfy the luminance for illumination of the corresponding area and to be equipped with an illumination light communication function. The lighting LEDs 12a, 12b, and 12c may be composed of several LEDs in one lighting fixture. At this time, each of the LEDs may all operate the same, or may be configured to operate differently. These lighting LEDs 12a, 12b, 12c serve as traditional illuminators indoors and outdoors. At this time, it may serve as a street lamp outdoors. The lighting LEDs 12a, 12b, and 12c are supplied with power through a power line, and portable terminals 14a, 14b, and 14c to which corresponding visible light communication functions are added based on information provided from the server 10 through the power line. It has a transmission device that can communicate with it.

In addition, the illumination LED (12a, 12b, 12c) can receive the light emitted from other light sources, including visible light for information transmission generated in the portable terminal (14a, 14b, 14c) according to the characteristics of the present invention. A light receiving device and a receiving device for demodulating the received signal according to the received light. According to this configuration, the lighting LEDs 12a, 12b, and 12c each receive information transmitted from the corresponding portable terminal in a visible light communication method and transmit the information to other lighting LEDs, and the corresponding portable terminal based on the information transmitted from the other lighting LED. It transmits by visible light communication method. According to this configuration, the specific lighting LEDs perform the operation of relaying the communication using the visible light communication method between the portable terminals in the lighting range of each other according to the characteristics of the present invention. At this time, even one lighting LED itself performs a communication relay operation using a visible light communication method between portable terminals in its own lighting range. To this end, each of the lighting LEDs 12a, 12b, and 12c has a unique ID and may have unique location information. Hereinafter, the configuration and operation of the lighting LEDs 12a, 12b, and 12c according to the features of the present invention will be described in detail with reference to the accompanying drawings.

4 is an internal circuit diagram of a lighting LED having a communication protocol function embedded in an illumination light communication system according to an embodiment of the present invention. Referring to FIG. 4, the configuration of the lighting LED according to an embodiment of the present invention is described. For example, the lighting LED includes an AC / DC converter 410, a band pass filter 412, an overlap 414, an LED group 416, a modem 420, a protocol stack 422, and a light receiver 424. It is provided. The AC / DC converter 410 converts the AC power supplied through the power line into DC to obtain DC power for driving the LED group 416 and the band pass filter 412. The band pass filter 412 passes only a corresponding communication frequency band to extract a signal of information superimposed on the supplied power. The superimposition unit 414 superimposes the signal of the information extracted by the band pass filter 412 on the power waveform converted into direct current by the AC / DC converter 410 and provides it to the modem 420. The modem 420 performs the demodulation function of the transmitted and received signals, demodulates the received signal provided by the overlapping unit 414 and provides it to the protocol stack 422, modulates the transmitted signal provided by the protocol stack 422 to power line. Send through. The protocol stack 422 processes a signal received from another lighting LED through the modem 420 to generate a message necessary for communication with a portable terminal located in its lighting range, thereby driving a driving voltage to the LED group 416. In addition, by processing the message provided from the portable terminal through the light receiving unit 424 generates a signal for transmission to another LED or server for providing to the modem 420. Thereby, the voltage provided to the LED group 416 can be changed by information, and the light quantity or blinking of the LED group 416 can be controlled. The LED group 416 is basically an LED light source for illuminating, for example, may be implemented as a plurality of white LED consisting of red, green, blue LED elements. At this time, since the LED has excellent response characteristics, even if the amount of light is changed or glowed according to the information to be transmitted, it is not perceived by the human eye, so it can be used as it is as lighting. The light receiver 424 is configured of a photodiode or the like and converts an optical signal input into visible light from a portable terminal in a corresponding illumination range into an electrical signal and provides it to the protocol stack 422.

The communication function in the LED for lighting according to an embodiment of the present invention as shown in Figure 4, the modem 420 and the protocol stack 422 or the like simply by appropriately processing signals provided from other lighting LED to their lighting range It broadcasts to a portable terminal, and also processes the messages provided from the portable terminal in its own lighting range to broadcast to other lighting LED or servo. At this time, the illumination LED may broadcast a message provided from the portable terminal through its own LED group 416 as well as other illumination LED.

FIG. 5 is a diagram illustrating an internal circuit of an LED for lighting in an illumination light communication system according to another embodiment of the present invention. Referring to FIG. 5, the configuration of the LED for lighting according to another embodiment of the present invention will be described with reference to AC / DC. In addition to the converter 510, the band pass filter 512, the overlap 514, the LED group 516, and the light receiver 528, a signal processor 520 and a power line modulator 522 are provided.

The AC / DC converter 510 is configured to drive internal functional units including the LED group 516, the band pass filter 512, and the signal processor 520 similar to the exemplary embodiment of the present invention illustrated in FIG. 4. In order to obtain DC power, the AC power supplied through the power line is converted into DC. The band pass filter 412 passes only a corresponding communication frequency band to extract a signal of information superimposed on the supplied power. The light receiver 526 is configured of a photodiode or the like to convert an optical signal input into visible light into an electrical signal and provide it to the signal processor 520.

The signal processor 520 analyzes the information extracted by the band pass filter 512 and provides it to the overlapping unit 414 when the corresponding signal is a signal transmitted using broadcast information or its own lighting LED as a destination. In addition, the signal processing unit 520 demodulates the information signal received from the light receiving unit 526 and generates the information as a message of an appropriate format when the received information is information for broadcasting or information to be transmitted to another lighting LED side, and generates a power line modulator ( 522). The power line modulator 522 modulates a message for transmission provided from the signal processing unit 520 and superimposes the power message in a power waveform to be transmitted to the power line. In this case, a separate header part is added to the message constituting the corresponding information transmitted / received to / from the illumination LED to include information indicating whether the message is broadcast or information indicating a destination. The overlapping unit 514 overlaps the signal provided by the signal processing unit 520 with the power waveform converted into direct current by the AC / DC converter 510 and provides the LED group 516 with the amount of light of the LED group 516. Or control flashing.

According to the configuration of the lighting LED according to the characteristics of the present invention as described above, in particular, it is possible to perform the operation of relaying the communication using the visible light communication method between the portable terminal in the lighting range of each other.

Conventionally, a communication method through wireless optical communication between portable terminals has been disclosed. At this time, the direct communication between the portable terminals through the wireless optical communication mainly used infrared light. Infrared optical communication is actually a wireless communication method used in the range of 1 ~ 2m. Wireless optical communication such as infrared optical communication is impossible due to the nature of the communication medium when there is an obstacle between the communication subject terminal and the target terminal during communication. Therefore, LOS (Line Of Sight) must be guaranteed until communication starts and ends. Since the portable terminal is characterized by its portability, it is very inconvenient to perform the communication while guaranteeing the LOS. In other words, especially in the case of transmitting a large amount of data, it is necessary to create a stable communication condition and to continuously monitor and restrain the interference from being interrupted until the end of the communication. In the present invention to solve this inconvenience, wireless optical communication using the illumination light in the room to enable communication even if an obstacle occurs between the mobile situation of the portable terminal and the portable terminals. Hereinafter, an operation according to the features of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating a mobile communication terminal period communication in an illumination light communication system according to an embodiment of the present invention. In FIG. 2, M_Tx represents a transmitting portable terminal, and M_Rx represents a receiving portable terminal. LED_S and LED_D respectively represent a source illumination LED having a transmitting portable terminal in its illumination range and a destination illumination LED having a receiving portable terminal in its illumination range. At this time, M_Tx and M_Rx may communicate with the same lighting LED, in which case, LED_S and LED_D may be the same lighting LED. In the example of FIG. 2, for example, LED_S and LED_D are different devices installed at different positions.

Referring to FIG. 2, first of all, two portable terminals which are subject to communication execute an initial stage for communication. In this case, conditions must be artificially created so that two portable terminals can communicate directly. However, the time required at this stage is very short, so measures to ensure a stable communication environment are not difficult. In a very short time, as a pre-communication step, the two parties exchange information that is closely needed. And the visible light communication using the LED for lighting in accordance with the features of the present invention in order to transmit and receive the actual data.

First, in step 201, the transmitting portable terminal M_Tx transmits a communication request message [Comm_Request] in an optical communication method when the target portable terminal M_Rx senses a need for communication, and receives the terminal ( That is, the receiving portable terminal responds to this. Thereafter, in step 202, information for confirming ID and communication of each other is exchanged through an appropriate message [Exchange_ID]. At this time, information on basic transmission data can also be exchanged. For example, information about data size, flow control, and the like may be exchanged. Thereafter, in step 203, the transmitting portable terminal M_Tx notifies the corresponding source lighting LED LED_S of a direct communication attempt with the portable terminal M_Rx indoors as a message [Mobile_To_Mobile] of an appropriate format.

Accordingly, the source illumination LED (LED_S) transmits a response message (Acknowledgement) to the corresponding transmitting portable terminal (M_Tx) in step 204 upon receiving the Mobile_To_Mobile, and subsequently the subsequent message from the transmitting portable terminal (M_Tx) of the received message. It is confirmed that the data transmitted to the server is transmitted directly to the indoor space, not to the server, and all the data received in the data transmission step is reflected back to the space and sent. Of course, all the lighting LEDs in the space are the objects to be returned. This is first transmitted from the transmitting portable terminal M_Tx to the corresponding LED for illumination of the destination through the [Send_Data] message in step 205. Thereafter, in step 206, the corresponding illumination LED for transmitting source (LED_S) converts the transmitted message into a message [Transit Data] and transmits it to all lighting LEDs, and all the receiving LEDs receive the corresponding message in an appropriate optical communication format. [Deliver Data] will broadcast to the portable terminal of the lighting range. At this time, the message includes the ID of the receiving portable terminal M_Rx. In FIG. 2, the destination lighting LED (LED_D) broadcasts the message in step 207, and the response message [Send_Ack] sent from the receiving mobile terminal M_Rx receiving the message is received in step 208. It is shown to be sent to the transmitting portable terminal (M_Tx) via the corresponding lighting LED (LED_D, LED_S).

Through this process, data is transmitted from the transmitting portable terminal M_Tx to the receiving portable terminal M_Rx via the lighting LEDs LED_D and LED_S. At this time, the lighting LED can transmit data by zone by dividing indoors into zones if necessary. That is, all zones divided into zones may be targeted for transmission, and only some zones may be targeted for communication. When divided into zones and partially able to communicate, additional movement procedures are performed between zones as portable terminals move.

As described above, when data transmission is terminated in the state where data transmission is made from the transmitting portable terminal M_Tx to the receiving portable terminal M_Rx via the lighting LEDs LED_D and LED_S, the transmitting portable terminal first at step 209. (M_Tx) transmits the communication end message [Finish Send], which is transmitted from the source illumination LED (LED_S) to the destination illumination LED (LED_D) in Transit Data message in step 210, and then the destination illumination LED in step 211. In (LED_D) it is delivered as a Deliver Data message to the receiving portable terminal (M_Rx). Thereafter, a response message [Finish_Ack] sent from the receiving portable terminal M_Rx receiving the received message is sent to the transmitting portable terminal M_Tx via the corresponding lighting LEDs LED_D and LED_S in step 212.

3 is a procedure for communication between mobile communication terminals in an illumination light communication system according to another embodiment of the present invention, wherein the procedure shown in FIG. 2 is performed when the transmitting portable terminal does not know the ID of the receiving portable terminal. 3 is a flowchart illustrating operations performed when the transmitting portable terminal knows the ID of the receiving portable terminal.

In this case, since the ID of the receiving portable terminal is known, communication can be performed through the LED for lighting from the beginning. However, the message flow for communication requires an additional verification procedure for accepting communication from the receiving portable terminal by the transmitting portable terminal, compared to the case where the ID of the receiving terminal is not known.

Referring to FIG. 3, first, in step 301, the transmitting portable terminal M_Tx sends a communication request message [Comm_Request] to the receiving portable terminal M_Rx in an optical communication manner, and receives the source LED light (LED_S). In step 302, it converts it into a message [Transit Data] in an appropriate format and transmits it to all lighting LEDs, and all the lighting LEDs that receive this broadcast the message in a suitable optical communication format (Deliver Data). In FIG. 3, the destination lighting LED (LED_D) broadcasts the corresponding message in step 303, and a response message [Send_Ack] sent from the receiving portable terminal M_Rx receiving the message is received in step 304. Provided as the corresponding destination illumination LED (LED_D). This response message includes the ID of the receiving portable terminal M_Rx. This response message is then sent to the transmitting portable terminal (M_Tx) through the destination lighting LED (LED_D) and the source lighting LED (LED_S) in step 305 [CommReq_Ack] in the appropriate format including the ID of the corresponding receiving mobile terminal (M_Rx). Are sent out. In this case, the corresponding response message may include the ID of the destination lighting LED (LED_D). Thereafter, in step 306, the transmitting portable terminal M_Tx informs the corresponding source lighting LED LED_S of an attempt to communicate with the receiving portable terminal M_Rx indoors as a message [Mobile_To_Mobile] of an appropriate format. Accordingly, the source illumination LED (LED_S) transmits a response message (Acknowledgement) to the corresponding transmitting portable terminal (M_Tx) in step 307 when receiving the Mobile_To_Mobile, and then in step 308 the transmitting portable terminal (M_Tx) transmits the data to be transmitted. It transmits to the source LED (LED_S) through the [Send_Data] message.

Thereafter, in step 309, the corresponding source lighting LED (LED_S) converts the transmitted message into a message [Transit Data] in an appropriate format and transmits it to all lighting LEDs, but the corresponding message may include the destination lighting LED (LED_D). Therefore, only the source illumination LED (LED_S) among all the illumination LEDs that have received this broadcasts the message (Deliver Data) of the appropriate optical communication format in step 310. Thereafter, in step 311, a response message [Send_Ack] sent from the receiving mobile terminal M_Rx receiving the corresponding message is sent to the transmitting mobile terminal M_Tx via the corresponding LEDs LED_D and LED_S.

As such, when data transmission is terminated in a state where data transmission is made from the transmitting portable terminal M_Tx to the receiving portable terminal M_Rx via the lighting LEDs LED_D and LED_S, as shown in FIG. 2. Data transmission is terminated to the transmitting portable terminal M_Tx and the receiving portable terminal M_Rx through steps 312, 313, 314, and 315, which are the same processes as the same steps 209, 210, 211, and 212, respectively.

As described above, the configuration and operation process of the illumination light communication system according to an embodiment of the present invention can be performed. Meanwhile, in the above description of the present invention, specific embodiments have been described. Can be implemented without departing. Therefore, the scope of the present invention should not be defined by the described embodiments, but by the claims and equivalents of the claims.

As described above, the illumination light communication method according to the present invention is more effective than the conventional method, and in particular, when the communication between the portable terminal through the wireless optical communication to support the mobility of the terminal compared to the conventional method, easy and smooth communication can be performed You can do that.

Claims (9)

In the illumination light communication system, The visible light transmission device converts information provided by the power line communication method through a power line into a predetermined format and outputs the visible light communication method, a light receiving device receiving visible light of the visible light communication method emitted from another light source, and the received visible light. A plurality of light emitting diodes (LEDs) for demodulating a received signal, converting the corresponding information into a predetermined format according to the received information, and transmitting the information by a power line communication method through the power line; And a portable terminal including a visible light transmitting device, a visible light receiving device, and a signal processing device for signal modulation and demodulation, for performing visible light communication with the plurality of LEDs for illumination. The portable terminal transmits a message for communication with the other portable terminal to the corresponding lighting LED within the visible light communication range, and the lighting LED is connected to another portable terminal not within its visible light communication range from the portable terminal within the visible light communication range. When receiving a communication message of the illumination light communication system, characterized in that for transmitting to another LED for lighting through the power line communication method. The method of claim 1, And a server connected to the plurality of lighting LEDs through the power line and performing bidirectional communication with the lighting LEDs through a power line communication method. The method of claim 1 or 2, wherein the plurality of lighting LEDs An AC / DC converter for converting AC power supplied through the power line into DC to obtain DC power for driving internal functional units; A band pass filter for passing only a corresponding communication frequency band to extract a signal of information superimposed on the power; A light receiving device composed of a photodiode and converting an optical signal input into visible light into an electrical signal; The information extracted through the band pass filter is analyzed and the signal is provided to the superimposed unit when the signal is a broadcast information or a signal transmitted by using its own lighting LED as a destination, and the received information is demodulated by demodulating the information signal received by the light receiving device. A signal processor for converting the information into a message of a preset format when the information is broadcast information or information to be transmitted to another lighting LED, and providing the information to a power line modulator; A power line modulator for modulating a message for transmission provided from the signal processor and superimposing the power message on the power waveform to be transmitted to the power line; An overlapping part for superimposing the signal provided by the signal processing part on the power waveform converted from the AC / DC conversion part to DC to provide the LED group to control the amount of light or blinking of the LED group; Illumination communication system comprising a LED group consisting of a plurality of LEDs for performing LED lighting. The method of claim 1 or 2, wherein the plurality of lighting LEDs An AC / DC converter for converting AC power supplied through the power line into DC to obtain DC power for driving internal functional units; A band pass filter for passing only a corresponding communication frequency band to extract a signal of information superimposed on the power; A light receiving device composed of a photodiode and converting an optical signal input into visible light into an electrical signal; An overlapping unit for superimposing and outputting the signal provided by the signal processing unit on the power waveform converted from the AC / DC conversion unit to DC; LED group which consists of many LED to perform LED lighting,  Modem 420 performs a demodulation function of the transmitted and received signals, A modem demodulating the signal provided from the overlapping unit and providing the signal to the protocol stack, modulating the signal provided from the protocol stack and transmitting the signal through a power line; Processes the signal provided through the modem to generate a message required for communication with the portable terminal located in its own lighting range and to provide a driving voltage to the LED group, and the light receiving device to process the provided message to other lighting LED or And a protocol stack for generating a transmission signal to a server and providing the signal to the modem. In the illumination light communication method in an illumination LED (Light Emitting Diode) of the illumination light communication system, When receiving a preset message for communication between the portable terminals through visible light communication from the portable terminal within the lighting range, checking the type of the message and information of the receiving portable terminal; Transmitting the received message to another LED for lighting through power line communication according to a type of a message received from the portable terminal and a result of confirming information of the received portable terminal; When there is a message for communication between the portable terminals transmitted through the power line communication from another lighting LED, checking the type of the message and the destination lighting LED; And broadcasting the received message through visible light communication according to a type of a message received from the other lighting LED and a result of confirming a destination lighting LED. The method according to claim 5, wherein when the message is transmitted to another lighting LED through the power line communication, the ID of the source lighting LED can be identified by the other lighting LED by adding its ID to the transmission message and transmitting the message. Illumination communication method. In the illumination light communication method in the lighting LED that communicates with the portable terminal in the lighting range by visible light communication method, and communicates with other lighting LED (Light Emitting Diode) by power line communication method, Transmitting a response message from the transmitting portable terminal to the corresponding transmitting portable terminal upon receiving a message for attempting direct communication with the receiving portable terminal; Subsequently broadcasting from the transmitting portable terminal a message for data transmission with the receiving portable terminal to all other lighting LEDs upon reception; And broadcasting the message to a portable terminal within its own illumination range upon receipt of a message broadcast for data transmission from the other lighting LED to the receiving portable terminal. The method of claim 7, wherein Transmitting a response message to the source illumination LED of the corresponding broadcast data upon reception of a response message from the corresponding reception portable terminal according to the broadcast to the portable terminal within the self-illumination range; Transmitting the received data to a portable terminal within its own lighting range when the destination is its own when receiving a message for data transmission with the destination from the source illumination LED; And transmitting a message for data transmission using a destination lighting LED for transmitting a response message when the message for data transmission is broadcast. The method according to claim 7 or 8, Upon receipt of a communication request message from a transmitting portable terminal to a receiving portable terminal, broadcasting the message to the other lighting LED; Broadcasting the message to a portable terminal within its own illumination range upon receipt of the broadcasted communication request message from the other illumination LED; When receiving a response message including the ID of the corresponding receiving portable terminal from the corresponding receiving portable terminal according to the broadcast of the communication request message to the portable terminal within the self-illuminating range, the receiving portable LED is used as the source illumination LED of the corresponding communication request message. Transmitting a response message including the ID of the terminal; And transmitting the response message including the ID of the receiving portable terminal to the transmitting portable terminal from the other lighting LED.

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