KR101552690B1 - Data transceiving method using visible light communication and apparatus thereof - Google Patents

Abstract

Embodiments of the present invention relate to a method and apparatus for transmitting and receiving data using visible light communication, and a data transmitting apparatus using visible light communication according to an embodiment of the present invention includes at least A light emitting portion including one light emitting diode (LED); An output level controller for adjusting an output level of digital data to be output through the light emitting unit based on a distance from the other data transmitting apparatus; And a control unit for determining the output wavelength of the digital data and controlling the light emitting unit so that the digital data with the output level adjusted can be output at the determined output wavelength. According to embodiments of the present invention, it is possible to prevent interference between LEDs by determining the output level of visible light in consideration of the distance between LEDs during data transfer using a plurality of LEDs.

Description

TECHNICAL FIELD [0001] The present invention relates to a data transmission / reception method and apparatus using visible light communication,

Embodiments of the present invention relate to a method and apparatus for transmitting and receiving data using visible light communication.

2. Description of the Related Art As the use of light emitting diodes (LEDs) as light sources has been increasing, Visible Light Communication (VLC), which can communicate with LED lighting devices, has been introduced.

Visible light communication is a communication technology in which data is transmitted to light in a visible light wavelength band that can be perceived by human eyes and is transmitted wirelessly. Recently, due to the depletion of radio frequency (RF) frequency band, possibility of confusion between various wireless communication technologies, and increased demands for security of communication, researches on visible light communication technology are actively proceeding.

In addition, since visible light communication has a wide use band, it can be freely used without being restricted, and it has an advantage that the reception range of information can be accurately known because the place where the light reaches or the direction in which the light reaches can be seen. Therefore, visible light communication can be applied to hospitals and airplanes where RF use is limited, and additional information service using a display board can also be provided.

However, when visible light communication is performed using a plurality of LEDs in a limited place, information is not properly transmitted due to inter-LED interference. This causes problems such as frequency confusion in RF communication.

Thus, embodiments of the present invention provide a way to enable data transfer without interference in visible light communication.

To this end, a data transmitting apparatus using visible light communication according to an embodiment of the present invention includes: a light emitting unit including at least one light emitting diode (LED) that emits visible light of different wavelengths; An output level controller for adjusting an output level of digital data to be output through the light emitting unit based on a distance from the other data transmitting apparatus; And a control unit for determining the output wavelength of the digital data and controlling the light emitting unit so that the digital data with the output level adjusted can be output at the determined output wavelength.

In one embodiment, the output level control unit may decrease the output level as the distance from the other data transmission apparatuses decreases, and increase the output level as the distance from the other data transmission apparatuses increases. In one embodiment, the adjustment of the output level of the digital data may be performed by a pulse width modulation method. In one embodiment, when the digital data is audio data, the output wavelength of the digital data may be determined based on a language type of the audio data. In one embodiment, the data transmitting apparatus further includes a light receiving section that receives a data packet of a visible light type output from the user device, and the control section receives, from the received data packet, an identifier of the corresponding user apparatus and data transmission request information Packetizing the digital data corresponding to the extracted data transmission request information and the identifier of the corresponding user equipment and outputting the packetized data to the same wavelength as the reception wavelength of the data packet, Can be controlled.

Meanwhile, a method of transmitting data in a data transmitting apparatus using visible light communication according to an embodiment of the present invention includes transmitting at least one light emitting diode that emits visible light of different wavelengths based on a distance from another data transmitting apparatus Adjusting an output level of the digital data to be output through a light emitting unit including the light emitting unit; Determining an output wavelength of the digital data; And controlling the light emitting unit so that the digital data whose output level is adjusted is output to the determined output wavelength.

In one embodiment, the step of adjusting the output level may include decreasing the output level as the distance from the other data transmitting apparatus is shorter, or increasing the output level as the distance from the other data transmitting apparatus increases Step < / RTI > In one embodiment, the output level adjustment may be performed using a pulse width modulation (PWM) method. In one embodiment, when the digital data is voice data, the output wavelength of the digital data may be determined based on the type of the voice data. In one embodiment, the method includes receiving a data packet in the form of visible light output from a user equipment; Extracting an identifier of the user equipment and data transmission request information from the received data packet; Packetizing the digital data corresponding to the extracted data transmission request information and the identifier of the corresponding user equipment; And controlling the light emitting unit so that the packetized data can be output at the same wavelength as the reception wavelength of the data packet.

Meanwhile, a user equipment using visible light communication according to an embodiment of the present invention includes a light emitting unit including at least one light emitting diode (LED); A light receiving unit that receives a data packet of a visible light type output from the data transmitting apparatus; A demodulator for demodulating the received visible light; And packetizing data transmission request information based on an identifier of the user equipment and user input and controlling the light emitting unit to output the packetized data, And a controller for transmitting the data packet to the demodulator.

In one embodiment, the light emitting unit includes at least one light emitting diode that emits visible light of different wavelengths, and the control unit may emit visible light of a specific wavelength based on characteristics of digital data requested by the user input The packetized data can be output through the light emitting diode. In one embodiment, the light receiving unit includes at least one photodiode that receives visible light of different wavelengths, and the control unit includes a photodiode that receives visible light having the same wavelength as the visible light of the specific wavelength To the demodulation unit, a data packet corresponding to the identifier of the received data packet.

Meanwhile, a method for receiving data in a user equipment using visible light communication according to an embodiment of the present invention includes: packetizing data transmission request information based on an identifier of the user equipment and a user input; Controlling a light emitting unit including at least one light emitting diode (LED) so that the packetized data can be output; Receiving a data packet in the form of a visible light outputted from the data transmitting apparatus; And demodulating the data packet corresponding to the identifier of the received data packet.

In one embodiment, the step of controlling the light emitting unit may include controlling the light emitting unit to emit visible light of a specific wavelength based on characteristics of digital data requested by the user input, And controlling the unit. In one embodiment, the step of demodulating the data packet may include the step of demodulating the data packet corresponding to the identifier of the data packet received in the visible light having the same wavelength as the visible light of the specific wavelength.

According to embodiments of the present invention, it is possible to prevent interference between LEDs by determining the output level of visible light in consideration of the distance between LEDs during data transfer using a plurality of LEDs. Thus, according to embodiments of the present invention, accurate data transfer can be achieved.

1 is a diagram for explaining a data transmission / reception method using visible light communication according to an embodiment of the present invention.
2 is an exemplary diagram for explaining output level control according to an embodiment of the present invention;
3 is a flowchart illustrating a data transmission method according to an embodiment of the present invention.
4 is an exemplary diagram illustrating a mapping table for output level adjustment according to an embodiment of the present invention.
5 is an exemplary diagram illustrating a mapping table for determining an output wavelength according to an embodiment of the present invention;
6 is an exemplary diagram for explaining a data transmission method according to another embodiment of the present invention;
FIG. 7 is a flowchart illustrating a data transmission method according to another embodiment of the present invention. FIG.
8 is a block diagram for explaining a data transmitting apparatus to which embodiments of the present invention are applied;
9 is a block diagram illustrating a user equipment to which embodiments of the present invention are applied.

In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

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

FIG. 1 is a diagram for explaining a data transmission / reception method using visible light communication according to an embodiment of the present invention.

Referring to FIG. 1, a data transmitting apparatus 200 having a light emitting unit 220 disposed around a work can output information about the work using visible light communication. The light emitting unit 220 may serve as a communication device for transmitting a role of a lighting device to the work and information about the work. The light emitting unit 220 may include at least one LED, and each LED may emit visible light of different wavelengths.

The user equipment 100 includes a light receiving unit 130 and can be carried by a user. When the user having the user device 100 moves to the vicinity of the work, the user device 100 can receive the visible light output from the data transmission device 200. [ Then, the user device 100 can restore the information on the work from the received visible light and provide it to the user.

2 is an exemplary diagram for explaining output level control according to an embodiment of the present invention.

2 (a), when a plurality of works are displayed and a data transmitting apparatus 200 used to transmit information about the works is located around each work, Interference may occur between visible light to transmit information about the work. For example, the visible light received by any one of the user devices 100 may be output from a plurality of works, and in such a case, may not be able to transmit proper information to the user. That is, the visible light 301 including information on the adjacent works may be received by the user device 100, and information may not be properly transmitted.

This interference occurs more largely as the distance between the works (the same as the distance between the data transmission apparatuses, the same is true hereafter) d is closer to each other, and therefore the output level of the visible light You need to adjust. 2B, by adjusting the output level of the visible light in consideration of the distance between the works, the visible light 302 output from the data transmitting apparatus for providing information on other works is transmitted to the user apparatus 100). ≪ / RTI >

3 is a flowchart illustrating a data transmission method according to an embodiment of the present invention.

In step 301, the data transmitting apparatus adjusts the output level of the digital data. For example, the digital data may be information on a specific work as described above with reference to Figs. 1 and 2. The digital data may be data received in real time from an external device, for example, a server, or data stored in a data transmission device. The digital data may be audio or video data. If the received data or stored data is analog data, the analog data may be converted into digital data before adjusting the output level.

The adjustment of the output level may be based on the distance from the other data transmission device. For example, the data transmission apparatus can reduce the output level of digital data as the distance from the other data transmission apparatuses decreases, and increase the output level of digital data as the distance from the other data transmission apparatuses increases. In one embodiment, the distance from the other data transmission device may be received from a server or entered by a user. As shown in Fig. 4, the data transmitting apparatus can store a table in which the distance to another digital data transmitting apparatus and the output level of the digital data are mapped. The data transmission apparatus can adjust the distance between the data transmission apparatus and the input or received data transmission apparatus and the output level of the digital data based on the mapping table.

For adjustment of the output level, a pulse width modulation (PWM) method may be used. For example, the data transmitting apparatus can adjust the output level of the digital data by adjusting the duty cycle of the pulse width of the digital data. For example, the data transmitting apparatus can reduce the output level of the digital data, that is, the brightness of visible light, to 1/2 by reducing the duty cycle of the pulse width of the digital data to 1/2.

In step 303, the data transmitting apparatus determines the output wavelength of the digital data. The output wavelength of the digital data can be determined based on the characteristics of the digital data. In one embodiment, the characteristics of the digital data may be a kind of language. For example, as shown in FIG. 5A, when the digital data to be transmitted is a Korean language, the data transmitting apparatus determines the wavelength corresponding to the white visible light as the wavelength of the digital data to be transmitted, The wavelength corresponding to the yellow visible light can be determined as the wavelength of the digital data to be transmitted. In one embodiment, the characteristics of the digital data may be the length of the digital data to be transmitted. For example, as shown in FIG. 5B, when the digital data to be transmitted is a detailed description, the data transmitting apparatus determines the wavelength corresponding to the white visible light as the wavelength of the digital data to be transmitted, In the case of a simple description, the wavelength corresponding to the yellow visible light can be determined as the wavelength of the digital data to be transmitted.

In step 305, the data transmitting apparatus outputs the digital data at the determined output wavelength. That is, the data transmitting apparatus controls the LED that emits visible light corresponding to the determined output wavelength to transmit the digital data.

FIG. 6 is an exemplary diagram for explaining a data transmission method according to another embodiment of the present invention.

The user equipment 100 includes a light emitting unit 120, a light receiving unit 130, and an input unit 140.

The user device 100 can receive a desired data characteristic from the user through the input unit 140. [ The user equipment 100 may generate data transmission request information based on the input data characteristics. For example, when the input data characteristic is a language of a language, the data transmission apparatus can generate data transmission request information requesting transmission of data in the Korean language. The user equipment 100 may generate a data packet by combining the generated data transmission request information and its own identifier and output the generated data packet through the light emitting unit 120. [

The data transmitting apparatus 200 includes a light emitting unit 220 and a light receiving unit 230.

The data transmitting apparatus 200 can receive the data packet of the visible light type output from the user equipment 100 through the light receiving unit 230 and analyze the received data packet to retrieve the data requested by the corresponding user apparatus . The data transmission apparatus 200 may packetize the retrieved data and the identifier of the corresponding user apparatus and output the packetized data through the light emitting unit 220. The output packetized data can be received and restored by the user equipment 100 and provided to the user.

In one embodiment, at least one of the data transmitting apparatus 200 and the user equipment 100 may include one LED or a plurality of LEDs emitting visible light of different wavelengths.

In the embodiment where the data transmitting apparatus 200 and the user apparatus 100 are provided with a plurality of LEDs that emit visible light of mutually different wavelengths, the data transmitting apparatus 200 transmits the wavelength of the visible light received from the user apparatus 100 As the output wavelength of the packetized data. That is, the data transmitting apparatus 200 can determine the reception wavelength of the data packet as the output wavelength of the packetized data.

7 is a flowchart illustrating a data transmission method according to another embodiment of the present invention.

In step 701, the user equipment transmits a data packet including its own identifier and data transmission request information to the data transmission apparatus.

In step 703, the data transmission device extracts the user equipment identifier and the data transmission request information from the received data packet.

In step 705, the data transmitting apparatus retrieves the digital data corresponding to the data transmission request information, and packetizes the retrieved digital data and the user equipment identifier.

In step 707, the data transmission device adjusts the output level of the packetized data based on the distance from the other data transmission device. The adjustment of the output level is as described above with reference to FIGS.

In step 709, the data transmission apparatus determines the output wavelength of the packetized data. In one embodiment, the data transmission apparatus can determine the reception wavelength of the data packet received from the user equipment as the output wavelength of the packetized data.

In step 711, the data transmitting apparatus outputs the packetized data to the determined output wavelength.

8 is a block diagram for explaining a data transmitting apparatus to which embodiments of the present invention are applied.

The data transmitting apparatus to which the embodiments of the present invention are applied includes a control unit 210, a light emitting unit 220, a light receiving unit 230, an output level adjusting unit 240, a communication unit 250, a modulating unit 260, (Not shown). At least one of the above-described components may be omitted.

The control unit 210 determines the output wavelength of the digital data to be transmitted and controls the light emitting unit 220 so that the digital data whose output level is adjusted by the output level adjusting unit 240 can be output at the determined output wavelength .

The light emitting unit 220 may include at least one LED that emits visible light of different wavelengths.

Receiving unit 230, and packet data received from the user equipment at the time of packet communication between the data transmitting apparatus and the user apparatus. The light receiving unit 230 may include at least one photodiode that receives visible light of different wavelengths. The light receiving portion 230 may include a light shielding means for preventing visible light from being received from the light emitting portion 220.

The output level adjuster 240 may adjust the output level of the digital data to be output through the light emitting unit 220 based on the distance from the other data transmitting apparatus. For adjustment of the output level, a mapping table as shown in FIG. 4 may be used. The output level adjusting unit 240 may decrease the output level of the digital data as the distance from the other data transmitting apparatus decreases and increase the output level as the distance from the other data transmitting apparatus increases. A pulse width modulation scheme may be used to adjust the output level.

The communication unit 250 can be used to receive digital data or analog data from an external device, for example, a server. The received data may be stored in the database 270.

When the data to be transmitted is analog data, the modulating unit 260 can modulate the data into digital data.

The database 270 may store digital data or analog data. The stored data may be retrieved, extracted and modulated by the control unit 210 and transmitted to the user equipment.

9 is a block diagram illustrating a user equipment to which embodiments of the present invention are applied.

The user equipment to which the embodiments of the present invention are applied includes a control unit 110, a light emitting unit 120, a light receiving unit 130, an input unit 140, an output unit 150, a demodulation unit 160, . At least one of the above-described components may be omitted.

The control unit 110 generates data transmission request information based on user input through the input unit 140 and packetizes the generated data transmission request information and its own identifier. The control unit 110 may control the light emitting unit 120 to output the packetized data. When the light emitting unit 120 includes a plurality of LEDs that emit visible light of different wavelengths, the controller 110 may include an LED that emits visible light of a specific wavelength based on characteristics of digital data requested by the user The light emitting unit 120 may be controlled to output the packetized data. To this end, the user equipment may store a mapping table as shown in Fig.

The control unit 110 may search for a data packet received through the light receiving unit 130 and may transmit a data packet corresponding to its identifier to the demodulation unit 160. If the light receiving unit 130 includes at least one photodiode that receives visible light of different wavelengths, the controller 110 may determine whether the data packet received through the photodiode that receives the visible light of the specific wavelength And may transmit the corresponding data packet to the demodulation unit 160.

The light emitting unit 120 may include at least one LED. When a plurality of LEDs are included, each LED may be an LED that emits visible light of different wavelengths.

The light receiving unit 130 can receive a data packet in the form of visible light output from the data transmitting apparatus. The light receiving unit 130 may include at least one photodiode that receives visible light of different wavelengths. The light receiving unit 130 may include a light shielding unit that prevents visible light from being received from the light emitting unit 120.

The input unit 140 can be used to receive data characteristics desired by the user.

The output unit 150 can be used to output the demodulated data. The output unit 150 may include at least one of a speaker for audio output and a video output device for video output. The input unit 140 and the output unit 150 may be configured as a touch screen.

The demodulator 160 can demodulate data packets in the form of visible light under the control of the controller 110. [

The memory unit 170 can store the demodulated data and can output the demodulated data to the output unit 150 while acting as a buffer.

The embodiments of the invention described above may be implemented in any of a variety of ways. For example, embodiments of the present invention may be implemented using hardware, software, or a combination thereof. When implemented in software, it may be implemented as software running on one or more processors using various operating systems or platforms. Additionally, such software may be written using any of a number of suitable programming languages, and may also be compiled into machine code or intermediate code executable in a framework or virtual machine.

Also, when embodiments of the present invention are implemented on one or more processors, one or more programs for carrying out the methods of implementing the various embodiments of the invention discussed above may be stored on a processor readable medium (e.g., memory, A floppy disk, a hard disk, a compact disk, an optical disk, a magnetic tape, or the like).

Claims (16)

A data transmitting apparatus for transmitting visible light digital data to a data receiving apparatus that receives visible light data from any one of a plurality of data transmitting apparatuses,
A light emitting unit including at least one light emitting diode (LED) that emits visible light of different wavelengths;
An output level controller for adjusting an output level of digital data to be output through the light emitting unit based on a distance from the other data transmitting apparatus; And
A control unit for determining the output wavelength of the digital data and controlling the light emitting unit so that the digital data whose output level is adjusted can be output at the determined output wavelength,
And a display device for displaying the data.
The apparatus of claim 1, wherein the output level controller comprises:
The output level is decreased as the distance from the other data transmitting apparatus is increased, and the output level is increased as the distance from the other data transmitting apparatus is increased
A data transmitting apparatus using visible light communication.
The apparatus of claim 1, wherein the output level controller comprises:
And adjusting an output level of the digital data using a pulse width modulation (PWM)
A data transmitting apparatus using visible light communication.
The apparatus of claim 1,
When the digital data is audio data, an output wavelength of the digital data is determined based on a language type of the audio data
A data transmitting apparatus using visible light communication.
The method according to claim 1,
Further comprising: a light receiving unit that receives a data packet of a visible light type output from the data receiving apparatus,
Wherein the control unit extracts an identifier of the data receiving apparatus and data transmission request information from the received data packet, packetizes the digital data corresponding to the extracted data transmission request information and the identifier of the data receiving apparatus, And controls the light emitting unit so that the packetized data can be outputted at the same wavelength as the reception wavelength of the data packet
A data transmitting apparatus using visible light communication.
A method for transmitting a visible light type digital data to a data receiving apparatus for receiving visible light data from any one of a plurality of data transmitting apparatuses,
Adjusting an output level of digital data to be output through a light emitting unit including at least one light emitting diode that emits visible light of different wavelengths based on a distance from the other data transmitting apparatus;
Determining an output wavelength of the digital data; And
Controlling the light emitting unit so that the digital data whose output level is adjusted is output to the determined output wavelength
Wherein the data transmission method comprises the steps of:
7. The method of claim 6, wherein adjusting the output level comprises:
Decreasing the output level as the distance from the other data transmitting apparatus is closer or increasing the output level as the distance from the other data transmitting apparatus is greater
Wherein the data transmission method comprises the steps of:
7. The method of claim 6, wherein adjusting the output level comprises:
Adjusting an output level of the digital data using a pulse width modulation (PWM) method;
Wherein the data transmission method comprises the steps of:
7. The method of claim 6, wherein determining the output wavelength comprises:
Determining an output wavelength of the digital data based on a language type of the audio data when the digital data is audio data;
Wherein the data transmission method comprises the steps of:
The method according to claim 6,
Receiving a data packet of a visible light type output from the data receiving apparatus;
Extracting an identifier of the data receiving apparatus and data transmission request information from the received data packet;
Packetizing the digital data corresponding to the extracted data transmission request information and the identifier of the data receiving apparatus; And
Controlling the light emitting unit so that the packetized data can be outputted at the same wavelength as the reception wavelength of the data packet
Wherein the data transmission method further comprises the steps of: delete delete delete delete delete delete

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