KR102009340B1 - Visible light communication method using dmx-512 newtork and apparatus for the same - Google Patents

Abstract

Disclosed are a visible light wireless communication method and apparatus using a DMX-512 network. A visible light wireless communication method according to the present invention comprises the steps of: generating visible light communication data packets each including a DMX header, segmentation information and a data fragment; And transmitting the visible light communication data packets to the LED lighting devices connected through the DMX-512 network for visible light communication.

Description

Visible light wireless communication method using DMX-512 network and device therefor {VISIBLE LIGHT COMMUNICATION METHOD USING DMX-512 NEWTORK AND APPARATUS FOR THE SAME}

The present invention relates to a visible light wireless communication technology, and more particularly to a technology for transmitting visible light communication data to be transmitted through a visible light wireless communication using a light source such as an LED using a DMX-512 network.

As the use of a lighting device using a light-emitting diode (LED) as a light source, which is a semiconductor device capable of transmitting information using visible light, has been expanded, a service for transmitting information through the lighting device has gained much attention. Visible Light Communication (VLC) systems using LED lighting require a light control network capable of transmitting visible light communication data from the data provider to the lighting device.

Currently, the DMX-512, which is used as a lighting control network technology, is used to convey lighting level data. Basically, DMX-512 technology can transmit lighting level information of 1 byte per channel using 512 channels. When the visible light communication data is allocated to the DMX-512 channel by using the features of the DMX-512, it can be used not only for the lighting stage data but also for the purpose of transmitting the communication data to be used in the visible light communication.

Conventionally, 1 byte of communication data is allocated to each channel of the DMX-512 as it is, and communication data of up to 512 bytes defined in the DMX-512 standard is delivered. However, in the visible light communication, data transmission of more than 512 bytes is rarely required depending on the environment and purpose of use. Therefore, the conventional technology having a limit of 512 bytes cannot satisfy various requirements required for visible light communication. .

Related prior arts include Korean Patent Application Publication No. 2011-0061069 for an LED lighting device that controls transmission of DMX-512 data according to the DMX-512 protocol.

An object of the present invention is to effectively transmit visible light communication data to be transmitted to a light source through a visible light wireless communication using a DMX-512 lighting control network.

It is also an object of the present invention to transmit visible light communication data to LED lighting devices connected through a DMX-512 lighting control network even when visible light communication data to be transmitted via visible light wireless communication exceeds 512 bytes.

In addition, an object of the present invention is to properly segment the visible light communication data for transmission through the DMX-512 lighting control network, and to insert the appropriate segmentation information for each segmented data so that the receiver can accurately and effectively recover the segmented data. It is.

In accordance with an aspect of the present invention, there is provided a visible light wireless communication method using a DMX-512 network, the method comprising: generating visible light communication data packets each including a DMX header, partition information, and a data fragment; And transmitting the visible light communication data packets to the LED lighting devices connected through the DMX-512 network for visible light communication.

In this case, the data fragment is generated by dividing the visible light communication frame to be transmitted, and the fragmentation information is information used by the receiver to reassemble data fragments corresponding to the visible light communication data packets to generate the visible light communication frame. Can be.

In this case, the visible light wireless communication method may not transmit other data until all data fragments generated by dividing the visible light communication frame are transmitted.

In this case, the split information may include residual information indicating the number of data pieces remaining after the data pieces among data pieces corresponding to the visible light communication frame.

In this case, the remaining information may be set to a number obtained by subtracting 1 from the number of data pieces for the first data piece of the data pieces, and may be set to sequentially decrease to 0 for the remaining data pieces.

In this case, the partition information may include a start flag that is set only for the first data piece of the data pieces.

In this case, the split information may include number information corresponding to serial numbers of the data pieces.

At this time, the DMX header includes Break & MAB information and a start code, and the start code may be set to a value different from a value used for a packet for lighting control.

In addition, the visible light wireless communication apparatus according to an embodiment of the present invention, DMX signal generation unit for generating visible light communication data packets each including a DMX header, partition information and data fragments; And a DMX signal transmitter for transmitting the visible light communication data packets to the LED lighting devices connected through the DMX-512 network for visible light wireless communication.

In this case, the data fragment is generated by dividing the visible light communication frame to be transmitted, and the fragmentation information is information used by the receiver to reassemble data fragments corresponding to the visible light communication data packets to generate the visible light communication frame. Can be.

In this case, the visible light wireless communication device may not transmit other data until all pieces of data generated by dividing the visible light communication frame are transmitted.

In addition, the visible light wireless communication lighting apparatus according to an embodiment of the present invention, DMX signal receiving unit for receiving the visible light communication data packets each including a DMX header, partition information and data fragments (data fragment); And a visible light communication data processor configured to recombine pieces of data corresponding to the visible light communication data packets using the split information to generate a visible light communication frame.

According to the present invention, the visible light communication data to be transmitted through the visible light wireless communication can be effectively transmitted to the light source using the DMX-512 lighting control network.

In addition, the present invention can transmit visible light communication data to LED lighting devices connected through the DMX-512 lighting control network even when the visible light communication data to be transmitted via visible light wireless communication exceeds 512 bytes.

In addition, the present invention can properly partition the visible light communication data for transmission through the DMX-512 lighting control network, and insert the appropriate partition information for each partitioned data to accurately and effectively recover the partitioned data at the receiving side.

1 is a diagram illustrating a system to which a visible light wireless communication method using a DMX-512 network according to an embodiment of the present invention is applied.
2 is a view showing a process of making a visible light communication data packet from a visible light communication frame (communication data).
3 is a flowchart illustrating a visible light wireless communication method according to an embodiment of the present invention.
4 is a block diagram illustrating a visible light communication device according to an exemplary embodiment of the present invention.
5 is a block diagram showing a visible light wireless communication lighting apparatus according to an embodiment of the present invention.
6 is an operation flowchart illustrating a process of processing a visible light communication frame by the visible light wireless communication device illustrated in FIG. 4.
FIG. 7 is a flowchart illustrating an operation process when the visible light wireless communication lighting apparatus shown in FIG. 5 receives a DMX-512 packet.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Here, the repeated description, well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention, and detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more completely describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

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

1 is a diagram illustrating a system to which a visible light wireless communication method using a DMX-512 network according to an embodiment of the present invention is applied.

Referring to FIG. 1, a visible light wireless communication system using a DMX-512 network includes a lighting control device 101 and one or more DMX-VLC lighting devices 102.

The lighting control device 101 may transmit and receive communication data (visible light communication frame) 112 to be connected to a data communication network such as the Internet and used for visible light communication.

The DMX-VLC lighting device 102 can receive data from the lighting control device 101 using the DMX-512 communication technology and, if necessary, has a function of transmitting information in visible light using a visible light communication function. It is a lighting device. The lighting control device 101 and the DMX-VLC lighting device 102 are connected by a DMX line 103. Illumination step data (dimming data) 110 used for general lighting control and visible light communication data 111 for visible light communication may be transmitted together through the DMX line. At this time, both the illumination step data 110 and visible light communication data 111 may be in the form of a packet. The lighting control device 101 transmits visible light communication data between the lighting stage data by increasing the lighting stage data transmission interval within the limit conforming to the DMX-512 standard. The visible light communication data may be generated based on the communication data 112. At this time, the visible light communication data and the communication data may have the same value, but the protocols on the transmission technology may be different.

2 is a view showing a process of making a visible light communication data packet from a visible light communication frame (communication data).

Referring to FIG. 2, communication data of more than 512 bytes (visible light communication frame) 201 may not be transmitted at one time through a DMX-512 network due to the limitation of the DMX-512 standard, and is decomposed into multiple data pieces. It can be seen that. That is, according to the present invention, the visible light communication frame 201 is fragmented into pieces of 512 bytes or less, and each piece is separately packetized and transmitted.

The visible light communication data packets 210, 211, 212 shown in FIG. 2 are DMX-512 packets passing through the DMX-512 network.

At the beginning of every DMX-512 packet is a DMX header 203, which is commonly composed of a Break & MAB (Mark After Break) and a Start Code (SC).

The segmentation information 204 located behind the DMX header 203 indicates how many more data fragments remain after the current data fragment 205 to complete the visible light communication frame 201 (communication data). For example, in the split information of the visible light communication data 210, the remaining information may be set to 2, meaning that two pieces of data remain. In the split information of the visible light communication data 211, the remaining information may be set to 1, meaning that one piece of data remains. The remaining information may be set to 0 in the split information of the visible light communication data 212, which means that there are no remaining pieces of data.

As such, when the segmentation information is inserted into the DMX-512 packet, the DMX-VLC illuminator receiving the packet does not know how many more pieces of data thereafter to recover the original visible light communication frame 201 (communication data). Can be recognized and processed. If the size of the visible light communication frame itself does not exceed 512 bytes, it can be transmitted at once with the remaining information set to 0 in the split information.

At this time, the remaining information is set to subtract 1 from the total number of data fragments corresponding to one visible light communication frame for the first one of the data fragments, and set to decrease sequentially to 0 for the remaining data fragments. Can be.

Furthermore, the segmentation information may include a start flag that is set only for the first data fragment of the data fragments corresponding to one visible light communication frame. Furthermore, the partition information may include number information corresponding to serial numbers of the pieces of data.

3 is a flowchart illustrating a visible light wireless communication method according to an embodiment of the present invention.

Referring to FIG. 3, in the visible light wireless communication method according to an embodiment of the present invention, first, visible light communication data packets each including a DMX header, segmentation information, and a data fragment are generated (S310).

In this case, the data fragment is generated by dividing the visible light communication frame to be transmitted, and the fragmentation information is information used by the receiver to reassemble data fragments corresponding to the visible light communication data packets to generate the visible light communication frame. Can be.

In this case, the split information may include residual information indicating the number of data pieces remaining after the data pieces among data pieces corresponding to the visible light communication frame.

In this case, the remaining information is set to the number of subtracting 1 from the total number of the data pieces corresponding to the visible light communication frame for the first data piece of the data pieces, and sequentially decreasing to 0 for the remaining data pieces. Can be set.

In this case, the partition information may include a start flag that is set only for the first data piece of the data pieces. Thus, a receiver performing visible light communication can use the start flag to identify the first piece of data that makes up the visible light communication frame.

In this case, the split information may include number information corresponding to serial numbers of the data pieces. At this time, the sum of the remaining information and the number information of each of the pieces of data constituting one visible light communication frame may be the same value.

At this time, the DMX header includes Break & MAB information and a start code, and the start code may be set to a value different from a value used for a packet for lighting control.

4 is a block diagram illustrating a visible light communication device according to an exemplary embodiment of the present invention.

4, a visible light wireless communication device according to an embodiment of the present invention includes a user interface 401, an automatic control information generation unit 411, a memory 402, a fragmentation unit 403, and a communication data extraction unit ( 404, a communication data receiver 405, a DMX signal generator 420, a scheduling unit 410, and a DMX signal transmitter 408.

In particular, the visible light wireless communication device shown in FIG. 4 may correspond to the lighting control device shown in FIG. 1.

The basic operation of the visible light wireless communication device is generated by receiving a lighting operator's input from the user interface 401 or stores the lighting step information generated by the automatic control information generator 411 in the memory 302. .

The DMX signal generator 420 generates the information stored in the memory as a DMX-512 packet and transmits the information to the scheduling unit 410.

In particular, the DMX signal generator 420 inserts 0 into the start code of the DMX header when the generated DMX-512 packet is related to the lighting stage information.

When data for visible light wireless communication is received from the communication data receiving unit 405 through a line 306 connected to an external communication network, the communication data extracting unit 404 generates communication data (visible light communication frame). The generated communication data is divided by the fragmentation unit 403 into a size of 512 bytes or less and recorded in the memory 402 together with the segmentation information.

The DMX signal generator 420 reads the pieces of data stored in the memory in order, attaches headers and partition information that can pass through the DMX line, generates a DMX-512 packet, and transmits the packet to the scheduling unit 410. At this time, the DMX signal generator 420 sets the start code of the DMX header to a value other than 0 when the generated DMX-512 packet is for visible light communication.

That is, the DMX signal generator 420 generates the information stored in the memory as a DMX-512 packet at regular intervals according to the instructions of the scheduler 410 and transmits the information to the DMX signal transmitter 408. In this case, the scheduling unit 410 may schedule the visible light communication data to be transmitted between the lighting stage data by increasing the transmission interval of the lighting stage data within the limit that conforms to the DMX-512 standard.

The DMX signal transmitter 408 transmits the DMX-512 packet to the DMX-VLC lighting apparatuses using the DMX-512 line 407.

According to an embodiment, the DMX signal generator 420 may transmit the DMX-512 packet directly to the DMX signal transmitter 408 without passing through the scheduling unit 410. In this case, the scheduling unit 410 may appropriately schedule generation of the DMX-512 packet by using the lighting step data or the visible light communication data in the DMX signal generator 420.

5 is a block diagram showing a visible light wireless communication lighting apparatus according to an embodiment of the present invention.

Referring to FIG. 5, the visible light wireless communication lighting apparatus according to the embodiment of the present invention includes a DMX signal receiver 502, a DMX signal discriminator 503, a DMX signal transmitter 504, an illumination stage data processor 506, The visible light communication data processor 507, a memory 508, a drive signal processor 509, and an LED driver 510 are included.

In particular, the visible light wireless communication lighting apparatus illustrated in FIG. 5 may correspond to the DMX-VLC lighting apparatus illustrated in FIG. 1.

The DMX signal receiver 502 transmits the DMX-512 packet input through the DMX line 501 to the DMX signal discriminator 503. The DMX signal discriminating unit 503 first transmits the received DMX-512 packet to the DMX line 505 through the DMX signal transmitting unit 504 for other DMX-VLC lighting devices on the network.

When the start code of the received DMX-512 packet is 0, the DMX signal determination unit 503 transmits control information to the DMX illumination stage data processing unit 506 to illuminate the light through the driving signal processing unit 509 and the LED driver 510. Lights up.

If the start code of the DMX control information is a value set for visible light communication other than 0, the data of the received DMX-512 packet is sent to the visible light communication data processing unit 507 to perform visible light communication. The visible light communication data processing unit 507 accumulates data in the memory 508 until the data having the partition information of the received DMX-512 packet is 0 is received. When the visible light communication data processor 407 receives the DMX-512 packet having the partition information of 0, the data is loaded from the memory to generate a completed visible light communication frame, and the visible light passes through the driving signal processor 509 and the LED driver 510. The visible light communication frame data generated through the communication is transmitted.

6 is an operation flowchart illustrating a process of processing a visible light communication frame by the visible light wireless communication device illustrated in FIG. 4.

Referring to FIG. 6, the communication data receiver receives communication data to be used for visible light wireless communication (S601).

Thereafter, the fragmentation unit determines the length of the received communication data (S602), and if it is less than 512 bytes, adds the partition information 0 to the communication data (S605) and records it in the memory (S606).

If the length of the communication data is 512 bytes or more as a result of the determination in step S602, the communication data is divided into pieces of less than 512 bytes (S603).

Split information is inserted into the divided pieces (S604). In this case, the split information may include remaining information indicating the number of remaining pieces of data. For example, the divided fragments may be appended with partitioning information in the order of 0, 1, 2, ... from the last slice to the first slice.

The pieces of data to which the partition information is attached may be written to the memory in order from the remaining pieces of the large pieces of information included in the partition information (S606). At this time, DMX-512 packets may be generated and transmitted in the order recorded in the memory.

FIG. 7 is a flowchart illustrating an operation process when the visible light wireless communication lighting apparatus shown in FIG. 5 receives a DMX-512 packet.

Referring to FIG. 7, the DMX-VLC illuminator (visible light wireless communication illuminator) receives a DMX-512 packet (S701).

Thereafter, the DMX-VLC lighting apparatus determines whether the start code of the received DMX-512 packet is 0 (S702).

As a result of the determination in step S702, when the start code is determined to be 0, the DMX-VLC lighting apparatus turns on the lighting through the processing procedure S704 of the general DMX-512 packet (S708).

As a result of the determination in step S702, if it is determined that the start code is a value set for visible light communication other than 0, the DMX-VLC lighting apparatus determines whether the remaining information of the split information is 0 (S703).

As a result of the determination in step S703, if the remaining information of the partition information is not 0, the data pieces are accumulated in the memory (S707) and the process ends. In step S703, if the remaining information of the divided information is 0 DMX-512 packet, the data recorded in the memory is read (S705), the data of the received packet is added, the memory is initialized (S706), and the visible light communication data The lighting is turned on by using the visible light communication technology for (S708).

At this time, the memory initialization in step S706 is for preventing an error due to visible light wireless communication data received later.

As described above, the visible light communication method and apparatus using the DMX-512 network according to the present invention are not limited to the configuration and method of the embodiments described as described above, the above embodiments may be variously modified. All or part of each of the embodiments may be configured to be selectively combined so that.

101: light control device
102: DMX-VLC lighting device
103: DMX line
110: lighting stage data
111: visible light communication data

Claims (20)

Generating visible light communication data packets each comprising a DMX header, partition information and a data fragment; And
Transmitting the visible light communication data packets to the connected LED lighting devices via a DMX-512 network for visible light communication.
Including,
The data fragment is generated by dividing a visible light communication frame to be transmitted, wherein the fragmentation information is information used by a receiver to recombine data fragments corresponding to the visible light communication data packets to generate the visible light communication frame. A visible light wireless communication method. delete The method according to claim 1,
The visible light wireless communication method
And not transmitting other data until all pieces of data generated by dividing the visible light communication frame are transmitted. The method according to claim 3,
The split information is
And remainder information indicating the number of remaining data fragments after the data fragment among data fragments corresponding to the visible light communication frame. The method according to claim 4,
The rest of the information above
And the first data piece of the data pieces is set to the number of data pieces minus one, and is set to decrease sequentially to zero for the remaining data pieces. The method according to claim 5,
The split information is
And a start flag that is set only for the first data piece of the data pieces. The method according to claim 6,
The split information is
And number information corresponding to serial numbers of the pieces of data. The method according to claim 6,
The DMX header includes Break & MAB information and a start code, and the start code is set to a value different from a value used for a packet for lighting control. A DMX signal generation unit for generating visible light communication data packets each including a DMX header, partition information, and a data fragment; And
DMX signal transmitter for transmitting the visible light communication data packets to the LED lighting devices connected through the DMX-512 network for visible light wireless communication
Including,
The data fragment is generated by dividing a visible light communication frame to be transmitted, wherein the fragmentation information is information used by a receiver to recombine data fragments corresponding to the visible light communication data packets to generate the visible light communication frame. A visible light wireless communication device. delete The method according to claim 9,
The visible light wireless communication device
And no other data is transmitted until all pieces of data generated by dividing the visible light communication frame are transmitted. The method according to claim 11,
The split information is
And remainder information indicating the number of remaining data fragments after the data fragment among the data fragments corresponding to the visible light communication frame. The method according to claim 12,
The rest of the information above
And the first data piece of the data pieces is set to the number of data pieces minus one, and is set to decrease sequentially to zero for the remaining data pieces. The method according to claim 13,
The split information is
And a start flag set only for the first data piece of the data pieces. The method according to claim 14,
The split information is
And number information corresponding to serial numbers of the pieces of data. The method according to claim 14,
The DMX header includes Break & MAB information and a start code, wherein the start code is set to a value different from a value used for a packet for lighting control. A DMX signal receiver configured to receive visible light communication data packets each including a DMX header, segmentation information, and a data fragment; And
Visible communication data processing unit for generating a visible light communication frame by recombining the pieces of data corresponding to the visible light communication data packets using the split information.
Including,
The split information is
And remainder information representing the number of remaining data fragments after the data fragment among the data fragments corresponding to the visible light communication frame. delete The method according to claim 17,
The rest of the information above
And the first data piece of the data pieces is set to the number of data pieces minus one, and is set to decrease sequentially to zero for the remaining data pieces. The method according to claim 19,
The split information is
And a start flag set only for the first data piece of said data pieces.

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