KR102069230B1 - Led lighting apparatus by storing and analyzing of atsc3.0 mmt protocol signal and lighting system including it - Google Patents

Abstract

The present invention relates to a lighting system including an LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, and controls the output color of the lighting according to the scale included in the score information, and included in the score information In the lighting control pattern for controlling the light output time for the sound included in the score information by comparing the flashing control of the sound is synchronized to the time when the sound is reproduced, and compares the total playback time of the sheet music information and the reproduction request time of the score information Lighting output pattern control unit for controlling the output of the light according to; And a lighting unit synchronized with music for the music score information and outputting lights, and outputting lights in a form in which lighting output color, lighting flashing and lighting output time are controlled by the lighting control pattern of the lighting output pattern control unit. Include. Therefore, by automatically analyzing the stored or newly input music and controlling the light output pattern according to the music and outputting the light, it is synchronized with the music being played at the same time as the music playing effect in the space where the lighting device is installed. Has the effect of outputting

Description

LED LIGHTING APPARATUS BY STORING AND ANALYZING OF ATSC3.0 MMT PROTOCOL SIGNAL AND LIGHTING SYSTEM INCLUDING IT}

The present invention relates to an LED lighting device and a lighting system including the same by storing and analyzing signals of the ATSC3.0 MMT protocol.

The lighting apparatus may be implemented in a way of continuously outputting light of one color, or in the form of periodically changing the light of several colors, and may be implemented to control the output pattern according to the installation place and time zone.

In one example, a music fountain is disclosed in which the fountain pattern and the lighting are adjusted according to the music being played. However, there is a limit to the direct setting to control the output of the fountain pattern and the lighting in a specific playback section of the music. It is necessary to develop a device capable of controlling a lighting device by generating a light output pattern according to the music.

Republic of Korea Patent Publication No. 10-1998-083350 (Emotion Lighting Audio System)

The technical problem to be achieved by the present invention is to provide a structure in which the light output pattern of the lighting device is adjusted according to the newly input music form, to improve the aesthetic effect of the space in which the lighting device is installed, and to improve the output of the lighting device It is to reduce the time and cost of controlling.

LED lighting apparatus through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention controls the music score information and the lighting on or off from the outside through the MPEG media transport (MMT) protocol An illumination control pattern receiver configured to receive an illumination control pattern; Controls the output color of the illumination according to the scale included in the sheet music information, synchronizes the timing of playing the sound included in the sheet music information with the flashing control, and requests the reproduction of the score information and the total reproduction time of the sheet music information. Comparing the time to generate an illumination control pattern according to the score information to control the light output time for the sound included in the score information to control the output of the lights, the lighting control pattern receiver is turned on or off An illumination output pattern control unit controlling an output of illumination according to an illumination control pattern controlling off; In addition, the music is synchronized with the music for the sheet music information and outputs the light, and the light output color, the light flickering and the light output time are controlled by the lighting control pattern according to the sheet music information of the lighting output pattern controller, or the lighting unit is turned on or off It characterized in that it comprises a; lighting unit for outputting illumination in accordance with the lighting control pattern for controlling the.

The lighting control pattern receiver may include: a device driver configured to receive a packet of an MMT protocol through direct memory access (DMA) and store the packet in a memory of a system; A packet receiving engine that analyzes the packet and transmits the arrival and error of the packet to a higher software analysis layer and stores the packet in a memory designated by an operating system; A dynamic linking library (DLL) for transmitting a location of a memory in which the packet of the MMT protocol is stored to the upper software analysis layer and a packet transmission engine and interfacing input / output control; An upper software analysis layer that analyzes the packet to produce a report; And a packet transmission engine that receives a packet from the upper software analysis layer, stores the packet in a memory designated by the terminal, and transmits the packet to the lighting output pattern control unit through a DMA as a transmission packet.

A musical note extracting unit for extracting musical note information, musical scale information, a syllable, and a time signature with respect to the notes included in the sheet music information; Applying the tone to the scale information extracted by the note extractor to calculate frequencies for the scales of the notes included in the score information, and averaging the frequencies calculated for the scale information in all nodes included in the score information. A frequency band calculator for calculating a frequency band; An illumination output color selection unit that selects an illumination color to be output from the illumination unit according to the frequency band for each node calculated by the frequency band calculation unit; According to the time signature extracted by the note extracting unit, illumination is output for the set time for the note information, and a value obtained by dividing a reproduction request time of the score information input from the outside by the total time for the score information is set. A lighting output time calculation unit that multiplies the time and calculates the lighting output time as the actual lighting output time for each note of the sheet music information; It characterized in that it further comprises a generator.

The lighting output color selection unit divides the frequency range of the scale to 0 ~ 8000Hz into a plurality of sections, selecting the illumination color to be output from the lighting unit according to the setting to classify to output a specific color in the frequency band of each section. LED lighting device by storing and analyzing signals of ATSC3.0 MMT protocol.

The sheet music information is received from the outside, or is characterized in that the sheet music information formed in a separate storage space.

And a lighting control signal selection unit configured to generate a selection signal for controlling the output of the lighting unit by selecting one of the plurality of lighting control patterns when the lighting output pattern control unit receives the plurality of lighting control patterns. It is characterized by.

The lighting control signal selector is configured to control the output of the lighting unit by using the lighting control pattern received earlier in the quickest order of time when the plurality of lighting control patterns are received.

The lighting control signal selecting unit stores at least one sheet music information for a weather or a season as a selection curve, and when there is a sheet music information included in the selection score among a plurality of sheet music information to which the lighting control pattern is applied, the sheet music It characterized in that to control the output of the lighting unit using the lighting control pattern for the information.

The illumination control signal by receiving a signal for selecting one of score information or music information for the illumination control pattern output to the music control information or music information for a plurality of the illumination control pattern; The apparatus may further include an input unit for transmitting to the selection unit.

And a speaker configured to output music for the sheet music information, and further comprising, when receiving the sheet music information from the outside, receiving a music file for the sheet music information together or accessing a music file for the received sheet music information over the Internet. It is characterized by downloading from a file and playing it back.

An illumination system including an LED lighting device through storing and analyzing a signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention controls the output color of the illumination according to the scale included in the sheet music information, Lighting control for controlling the light output time for the sound included in the music score information by controlling the flashing of the lighting is synchronized to the time when the included sound is reproduced, and comparing the total playback time of the music score information and the request time of the music score information An illumination control pattern generator for generating a pattern or an illumination control pattern for controlling an on or off of the illumination and an illumination control for transmitting the illumination control pattern to the outside through an MPEG media transport (MMT) protocol. Lighting control device including a pattern sending unit; And an illumination control pattern receiver for receiving the illumination control pattern transmitted from the illumination control pattern transmitter of the illumination control apparatus through an MPEG media transmission protocol, and an illumination output pattern for controlling the output of illumination in accordance with the illumination control pattern. A control unit and an illumination unit for outputting light in synchronization with music for the music score information, and outputting light in a form in which light output color, light blinking and light output time are controlled by the light control pattern of the light output pattern control unit. Characterized by including; LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol comprising a.

The lighting control device receives the sheet music information from the outside and transmits the lighting control signal input unit to the lighting control pattern generation unit, and stores the sheet music information and transmits the stored sheet music information to the lighting control pattern generation unit according to an input signal. It is characterized in that it further comprises a sheet music storage for generating a lighting control pattern.

The lighting control pattern sending unit and the lighting control pattern receiving unit transmit and receive the lighting control pattern through wireless communication, and the lighting control device is a mobile terminal device.

The illumination output pattern control unit receives an illumination control pattern generated according to the music information newly received from the outside in addition to the illumination control pattern received by the illumination control pattern receiver from the illumination control pattern transmitter to control the output of the illumination. Characterized in that.

The LED lighting apparatus through storing and analyzing the signal of the ATSC3.0 MMT protocol is generated according to the illumination control pattern received from the illumination control pattern transmitter from the illumination control pattern receiver and the newly received sheet music information. And an illumination control signal selector for generating a selection signal for outputting the illumination by selecting one of the illumination control patterns.

The lighting control pattern receiver may include: a device driver configured to receive a packet of an MMT protocol through direct memory access (DMA) and store the packet in a memory of a system; A packet receiving engine that analyzes the packet and transmits the arrival and error of the packet to a higher software analysis layer and stores the packet in a memory designated by an operating system; A dynamic linking library (DLL) for transmitting a location of a memory in which the packet of the MMT protocol is stored to the upper software analysis layer and a packet transmission engine and interfacing input / output control; An upper software analysis layer that analyzes the packet to produce a report; And a packet transmission engine that receives a packet from the upper software analysis layer, stores the packet in a memory designated by the terminal, and transmits the packet to the lighting output pattern control unit through a DMA as a transmission packet.

According to this feature, the LED lighting device and the lighting system including the same by storing and analyzing the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention automatically analyzes the stored or newly input music to music Since the light is output by controlling the light output pattern accordingly, there is an effect of simultaneously outputting music in the space where the lighting device is installed and simultaneously outputting the light in synchronization with the music being played.

And, as the output pattern of the lighting is automatically generated by the music, it is synchronized with the beat of the music has the effect of reducing the cost of controlling the output time of the lighting.

In addition, since it has a structure for transmitting and receiving the control pattern of the illumination or information for controlling the illumination through the MMT protocol, the transmission and reception reliability of the data is improved.

1 is a block diagram showing a schematic structure of a lighting system including an LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention.
Figure 2 is a lighting control pattern generator in the lighting system including the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention for generating a lighting control pattern using the score information A block diagram schematically showing the structure.
3 is a view for explaining an embodiment of the lighting control pattern generator of the LED lighting device to generate the light output pattern by storing and analyzing the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention.
FIG. 4 is a block diagram schematically illustrating a structure of a lighting control pattern receiver for receiving a packet through an MMT protocol in an LED lighting apparatus through storing and analyzing a signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

1 is a block diagram showing a schematic structure of a lighting system including an LED lighting device by storing and analyzing a signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention, Figure 2 is an embodiment of the present invention In the lighting system including the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to the example, a block diagram schematically showing a structure for generating a lighting control pattern using the score information FIG. 3 illustrates an embodiment in which an illumination control pattern generator generates an illumination output pattern in an illumination system including an LED lighting device through storing and analyzing a signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention. 4 is a packet through the MMT protocol in the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention Figure is a block diagram schematically showing the structure of the lighting control pattern receiving unit for receiving.

In the present embodiment, the lighting system (S) including the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, LED lighting control device 100 through the storage and analysis of the signal of the ATSC3.0 MMT protocol (Hereinafter, referred to as 'light control device') and an LED lighting device through storing and analyzing signals of the ATSC3.0 MMT protocol whose light output is controlled according to the light control pattern generated by the light control device 100 ( 200) (hereinafter referred to as 'lighting device' interchangeably).

The lighting control device 100 is connected to the lighting device 200 by wireless communication or wired communication, and transmits the generated lighting control pattern to the lighting device 200.

The lighting control apparatus 100 includes an illumination control signal input unit 110, a first illumination control pattern generator 120, an illumination control pattern transmitter 130, and a score storage unit 140 for generating an illumination control pattern. The lighting control device 100 may be a terminal device such as a smartphone or a tablet PC capable of performing wireless communication, or may be a terminal device such as a computer connected to the lighting device 200 through wired communication.

The lighting control signal input unit 110 is a portion that receives a control signal for controlling the lighting output of the lighting device 200, may be an input device formed in the terminal device. The input device may include at least one of a mouse, a keyboard, a touch input unit, and a microphone, but is not limited thereto.

In one example, the lighting control signal input unit 110 may receive a signal for controlling the lighting device 200 to output the light or to control the lighting device 200 to stop the lighting output as the lighting driving control signal.

The lighting control signal input unit 110 may receive the lighting output time of the lighting apparatus 200, the lighting output color, and the reproduction order of music to be synchronized with the output of the lighting apparatus 200 as the lighting output control signal.

The lighting control signal input unit 110 transmits the input lighting driving control signal or the lighting output control signal to the first lighting control pattern generator 120.

Alternatively, the lighting control signal input unit 110 may receive information for generating the lighting control pattern to be applied to the lighting device 200 from the outside. In this case, the received information may be sheet music information for generating a lighting control pattern to be applied to the lighting apparatus 200.

The lighting control signal input unit 110 may receive a sheet music information as a form of receiving a signal for downloading sheet music information from a web page or a signal for selecting at least one of sheet music stored in an external storage device.

The lighting control signal input unit 110 stores the score information from the outside in the score control unit 140 for generating the lighting control pattern or transmits the score information to the first lighting control pattern generation unit 120. In addition, the illumination control signal input unit 110 may receive a signal for searching and selecting score information stored in the score control unit 140 for generating the illumination control pattern.

In one example, the lighting control device 100 may further include an output unit for outputting an interface screen changed according to the signal content and the input signal input from the lighting control signal input unit 110.

In this case, the output unit may be a display device such as a monitor.

As described above, the first illumination control pattern generator 120 receives an illumination driving control signal or an illumination output control signal for controlling the illumination output of the illumination device 200 from the illumination control signal input unit 110 and uses the same. The lighting control pattern is generated, and the generated lighting control pattern is transferred to the lighting control pattern transmitter 130.

The first lighting control pattern generator 120 controls the lighting output of the lighting unit 240 of the lighting apparatus 200 according to the lighting driving control signal or the lighting output control signal received from the lighting control signal input unit 110. Can be included in the pattern.

In addition, the first lighting control pattern generator 120 may be configured in the score control unit 140 for generating the lighting control pattern according to the sheet music information input from the lighting control signal input unit 110 or an input signal of the lighting control signal input unit 110. The lighting control pattern is generated according to the selected sheet music information. The first lighting control pattern generator 120 generates a musical note extractor 121, a frequency band calculator 122, and an output light for generating the lighting control pattern from the sheet music information. And a color selecting unit 123 and an illumination output time calculating unit 124.

The note extractor 121 extracts the notes 10 and 21 of the information included in the score information M, and extracts the time signature and the scale of each note. In one example, the note extractor 121 extracts that the first note 11 included in the score information M is a quarter note, the scale is a sole, and the seventh note 21 is a half note and the scale It extracts what is (E4).

The note extractor 121 extracts note information and scale information for all the notes included in the score information M. FIG.

The musical note extracting unit 121 may include a musical score information analyzing algorithm for extracting musical note information and musical scale information from the musical score information M, and the musical score information analyzing algorithm includes a known program or a same program for analyzing musical score information. It may be implemented using a device that does not, it will not be described in detail in the present invention.

The note extracting unit 121 extracts the score information and the time signature information of the sheet music from the sheet music information M. FIG.

The frequency band calculator 122 calculates frequencies from the scale information extracted by the note extractor 121, and averages the frequencies calculated from the scale information for all nodes included in the score information M, and measures each node. It calculates as a frequency band.

At this time, the frequency band calculator 122 calculates the frequency in the form of applying the tone to the frequency calculated from the scale information extracted by the note extraction unit 121 by using the tone information of the score extracted by the note extraction unit 121. .

In one example, the first note (11) and the second note (12) contained in the first measure (1) included in the major note information (M) without the tone information are the sole (G4) scale, and the third When the note 13 and the fourth note 14 are the Ra (A4) scales, the frequency band calculator 122 calculates a frequency of 392 Hz for the first note 11 and the second note 12, respectively. For each of the third and fourth notes 13 and 14, the frequency of 440 Hz is calculated, and the frequency band for each node for the first node 1 is calculated as 416 Hz.

In this case, the frequency band calculator 122 calculates the frequency of the corresponding note by applying the tune information to the notes included in each measure according to the tune information included in the score information M. FIG.

In an example, the frequency band calculator 122 may average the frequency calculated from the scale information of all the notes included in the score information M, and calculate the average of the frequencies as the frequency band for the score information M. FIG.

The frequency band calculator 122 calculates frequencies from the musical scale information of the notes included in the score information M, and calculates an average frequency for each node included in the score information M as the frequency band for each node. In the above, the octave scale and the frequency value when the tone is applied to the scale are applied using the octave and scale standard frequency values shown in Table 1 below.

TABLE 1

(Unit: Hz)

In one example, the frequency band calculator 122 stores the octave and scale standard frequency values shown in Table 1 above in a separate storage space of the first lighting control pattern generator 120, and the score information is input. As a result, the frequency of the sheet music information input with reference to the storage space may be calculated. As another example, the frequency band calculator 122 may be based on 440 Hz, which is the frequency of the four-octave scale A4. The frequency for each scale may be calculated using a known equation for calculating the frequency for each scale, but is not limited thereto.

The illumination output color selection unit 123 selects an illumination color to be output from the illumination unit 240 of the illumination device 200 according to the frequency band for each node calculated by the frequency band calculator 122. In one example, the illumination output color selection unit 123 divides the frequency of 0 ~ 8000Hz into six bands, and sets to output the illumination of different colors for the divided six bands.

In this case, the illumination output color selection unit 123 may set the illumination output color for each frequency band based on Table 2 below.

Frequency band (Hz) Light output color Greater than 0 and less than 1333 Red 1333 and above 2666 and below Orange 2666 or more and 3999 or less yellow More than 3999 5332 or less green More than 5332 6665 or less blue More than 6665 8000 or less Purple

When the illumination output color selection unit 123 selects an illumination color to be output for the frequency band for each piece of score information calculated by the frequency band calculation unit 122 using Table 2 above, it is output to a specific frequency band. Even within the color that is divided so as to be, it can be distinguished to output the subdivided color according to the actual value of the frequency band. For example, when the averaged frequency of a piece of music information is included in a frequency band of more than 1333 and less than 2666, and the actual value of the frequency band is close to 1333 Hz, the illumination output color selecting unit 123 outputs the corresponding node. When an average of frequencies for a particular node is close to 2666 Hz, the lighting output color selector 123 outputs an orange color close to yellow as an illumination color to be output for the node. To output

In the lighting output color selection unit 123 to distinguish the predetermined output color for the frequency band for each node, the light output color set for the frequency band for each node is set in the reverse order as shown in Table 2 to the curse file When the lighting unit 240 of the lighting device 200 may be set to output a violet light, may be set to output a specific lighting color in a specific frequency band, but is not limited thereto.

In this case, the illumination output color classification table referenced by the illumination output color selection unit 123 may be stored in a separate storage space of the first illumination control pattern generation unit 120 and received from the illumination control signal input unit 110. It can be changed by the input signal.

The illumination output time calculating unit 124 illuminates each note extracted from the note extracting unit 121 with respect to the score information M for a predetermined time based on the time according to the time signature extracted from the score information M. The lighting output time is calculated so that the total output time for the music score information M and the reproduction request time for the music score information M can be compared to modify the preset time for each note to the actual lighting output time. have.

In one example, when the lighting output time calculation unit 124 has a total time of the music score information M, which is the object for generating the lighting control pattern, is 3 minutes, and the reproduction request time of the music score information M is equal to 3 minutes, the light output is performed. The time calculator 124 calculates an illumination output time such that each note included in the score information M outputs illumination for a preset time.

At this time, the lighting output time calculation unit 124 sets the lighting output time to output a light for 0.5 seconds to the note that is a quarter note, each note in the form of setting the lighting output time to output a light for 1 second note The lighting output time is set in advance, and when the reproduction request time of the sheet music information M is different from the total time of the sheet music information M, the reproduction request time of the sheet music information M is set to the whole of the sheet music information M. By dividing by time, the divided value is multiplied by the preset lighting output time for each note of the score information M to calculate the actual lighting output time.

In one example, when the total time of the score information M is 3 minutes and the reproduction request time of the score information M is 6 minutes, the illumination output time calculation unit 124 calculates 6 ÷ 3 (unit is minutes). 2 is calculated, and the actual lighting output time for each note is calculated by multiplying the lighting output time for each note by 2, respectively.

Accordingly, since the light output time for each note included in the score information M is synchronized with the actual playback time of the score information M, even if the music is synchronized and played at the time provided to output the lighting for the specific music, There is an effect that can eliminate the asynchronous phenomenon between the music and the light output that can occur when the light outputs only for the sheet music information (M) with a predetermined light output time.

At this time, the actual reproduction time of the sheet music information M is a reproduction request time of the sheet music information M, and the reproduction request time of the sheet music information M is included in the illumination output control signal received from the illumination control signal input unit 110. It may be, but not limited to.

The first lighting control pattern generator 120 generates the lighting control pattern such that the lighting unit 240 of the lighting apparatus 200 blinks whenever a specific note included in the score information M is reproduced.

The light control pattern transmitter 130 receives the light control pattern generated by the first light control pattern generator 120 and transmits the light control pattern to the light control pattern receiver 210 of the lighting apparatus 200.

The lighting control pattern transmitting unit 130 transmits the lighting control pattern to the lighting control pattern receiving unit 210 through wireless communication or wired communication. In this case, the lighting control pattern transmitting unit 130 applies music score information to which the lighting control pattern is applied. The unique identification number of the match can be transmitted. Alternatively, the lighting control pattern transmitter 130 may match and transmit the lighting control pattern with the score information M to which the lighting control pattern is to be applied.

In addition, the illumination control pattern transmitter 130 may transmit the illumination control pattern for the score information and the reproduction request time of the score information to the illumination control pattern receiver 210.

In one example, the lighting control pattern transmitter 130 may be provided with a wireless communication module of a wireless communication standard capable of transmitting and receiving information even at a distance of at least 1 m or more to perform communication with the lighting control pattern receiver 210, and lighting The control pattern receiver 210 is formed to include a communication module having the same standard as the illumination control pattern receiver 210 so as to communicate with the illumination control pattern transmitter 130.

As described above, the music storage pattern generation unit 140 stores the music information received from the outside by the illumination control signal input unit 110 from the illumination control signal input unit 110 and stores the sheet music information, or is input from the outside. After storing the information, the stored music information is provided at the request of the illumination control signal input unit 110.

The lighting apparatus 200 includes an illumination control pattern receiver 210, a second illumination control pattern generator 220, an illumination output pattern controller 230, an illumination unit 240, and an illumination control signal selector 250. , The lighting device 200 may be a configuration installed in the park.

The lighting control pattern receiving unit 210 receives the lighting control pattern through wireless or wired communication with the lighting control pattern transmitting unit 130 of the lighting control apparatus 100. At this time, the lighting control pattern receiving unit 210 is formed to include a communication module of the same communication standard as the lighting control pattern transmitting unit 130.

The lighting control pattern receiving unit 210 may receive a lighting control pattern and a unique identification number or score information of the sheet music information from the lighting control pattern transmitting unit 130 together with the lighting control pattern, and outputs the lighting control pattern to the lighting output pattern controller 230. To pass.

In one example, the lighting control pattern receiving unit 210 may receive the lighting control pattern and sheet music information, etc. from the lighting control pattern sending unit 130 through the mpeg media transport (MMT) protocol, the lighting control pattern sending unit 130 is configured to transmit the lighting control pattern and sheet music information through the MMT protocol. The lighting control pattern transmitter 130 may include a data transmission structure for packet transmission through the MMT protocol.

The MMT protocol is a protocol adopted by ATSC3.0, a next-generation broadcasting method that supports HTML5, simplifies the packetization process, and synchronizes with an IP (internet protocol) based delivery system. ).

Referring to FIG. 4, the lighting control pattern receiving unit 210 receives a packet of the MMT protocol from the lighting control pattern transmitting unit 130. The lighting control pattern receiving unit 210 includes a device driver 211 and a packet. It comprises a receiving engine 212, a dynamic link library 213, a software analysis layer 214, and a packet transmission engine 215.

The device driver 211 receives the packet of the MMT protocol transmitted by the lighting control pattern transmitter 130 through direct memory access (DMA) and stores the received packet in a memory of the system of the lighting apparatus 200.

The packet reception engine 212 analyzes the packet of the MMT protocol received by the device driver 211, transmits the arrival and error of the packet to the software analysis layer 214, and stores the packet in a memory designated by the operating system. .

A dynamic linking library (DLL) (DLL) transmits the location of the memory in which the MMT protocol packet is stored to the software analysis layer 214 and the packet transmission engine 215, and inputs and outputs an interface for input / output control. controller).

The software analysis layer 214 may be linked to a graphical user interface (GUI) as a part of analyzing a packet and generating a report.

The packet transmission engine 215 receives the packet from the software analysis layer 214, stores the packet in the memory designated by the lighting apparatus 200, and transmits the packet to the lighting output pattern controller 230 through the DMA as a transmission packet. .

As described with reference to FIG. 4, the lighting control pattern receiving unit 210 receives the packet transmitted by the lighting control pattern transmitting unit 130 through the MMT protocol, and transmits and analyzes the received packet at high speed in the device. As the structure is configured to perform the operation, the lighting control pattern receiving unit 210 may quickly receive, store and analyze the packet transmitted by the lighting control pattern transmitting unit 130, and may determine the reliability of data reception according to the characteristics of the MMT protocol. The effect of improvement can be expected.

In one example of the lighting device 200 having a structure in which the lighting control pattern receiving unit 210 receives data from the lighting control pattern transmitting unit 130 through the MMT protocol, the lighting control device 100 and the lighting device 200 May be a terminal device such as a broadcast communication device.

The second lighting control pattern generation unit 220 generates a lighting control pattern for the newly received sheet music information as the lighting device 200 newly receives the sheet music information from the outside, and generates the first lighting control pattern. The unit 120 is configured in the same way as to generate the lighting control pattern for the music score information.

In one example, the score information newly received from the outside that the second illumination control pattern generation unit 220 is a target for generating the illumination control pattern may be the score information applied from the input device provided in the lighting device 200, The score information may be downloaded by connecting to the Internet according to an input signal applied from the device.

The second lighting control pattern generator 220 may newly receive sheet music information and an input signal from a remote manager terminal.

At this time, when the second lighting control pattern generator 220 generates the lighting control pattern for the music score information in the same process as the first lighting control pattern generator 120, the score information is obtained from the lighting control apparatus 100. The lighting control pattern is generated for notation score information not newly received but notation score information newly received from the outside.

The second lighting control pattern generator 220 transmits the lighting control pattern generated with respect to the newly input sheet music information to the lighting output pattern controller 230.

Alternatively, the second illumination control pattern generator 220 generates an illumination control pattern from score information stored in a separate storage space formed in the illumination device 200 according to an input signal applied from the outside, and outputs the illumination control pattern. It may be transferred to the control unit 230.

The lighting output pattern control unit 230 controls the lighting output of the lighting unit 240 according to the lighting control pattern received from the lighting control pattern receiver 210 or the second lighting control pattern generator 220.

In one example, the lighting output pattern control unit 230 controls the on or off of the lighting unit 240 according to the lighting control pattern, the control to blink the light every time the note included in the music information to be reproduced, the corresponding note It controls the output of lighting for the actual lighting output time for, and the lighting output color of each piece of sheet music information being played.

The lighting unit 240 outputs lights of a specific color, or turns on or off according to the control of the lighting output pattern controller 230.

In this case, the lighting output pattern controller 230 may control the lighting output of the lighting unit 240 according to the selection signal of the lighting control signal selecting unit 250.

The lighting device 200 may further include a speaker device for reproducing music according to the score information received from the lighting control device 100 or the score information newly received by the lighting device 200 from the outside. In this case, the speaker device may download and play a music file corresponding to the score information from the Internet, or may receive and play a music file from the outside.

In one example, the lighting device 200 may further include a structure for connecting to the Internet for downloading music files, or may further include a storage unit for storing the music files, and a playback format for playing the downloaded music files. It may further include a processing unit including.

The lighting unit 240 may be configured with a plurality of lights, and may be configured with lights for outputting a light of a specific color.

In addition, the light control signal selector 250 receives a plurality of light control patterns from the light control pattern receiving unit 210 from the light control device 100 or receives a light control pattern from the outside rather than the light control device 100. In this case, the control unit generates a signal for selecting one lighting control pattern among the lighting control patterns.

The lighting control signal selector 250 receives a selection signal from among the plurality of lighting control patterns from the outside, or determines the priority given to the lighting control pattern, and selects a lighting control pattern having a high priority. A selection signal can be generated.

The lighting control signal selector 250 monitors an input signal for selecting one of the lighting control patterns using a separate input device, or further outputs an output device for outputting a plurality of lighting control patterns received by the lighting device 200. It may include.

In an example in which the illumination control signal selector 250 generates a selection signal for selecting one illumination control pattern among the plurality of illumination control patterns, the illumination control signal selector 250 is an illumination control pattern receiver 210. Account generated the lighting control pattern received from the lighting control pattern transmitting unit 130, for example, the lighting control device 100 determines whether the control authority of the lighting device 200, if there is a control authority Allow the lighting unit 240 to be controlled by the lighting control pattern, and, on the other hand, when the lighting control apparatus 100 that has generated the lighting control pattern does not have the control right, does not allow the lighting unit 240 to be controlled by the lighting control pattern. Do not.

In addition, the lighting control signal selector 250 determines the priority of the control authority of the lighting control device 100 and selects one lighting control pattern generated by the lighting control device 100 having a higher priority to illuminate 240. Allow to control.

In one example, the lighting control signal selector 250 is a criterion for determining the priority of the control authority of the lighting control apparatus 100, and is assigned to an account that accesses the lighting control apparatus 100 and generates an lighting control pattern. Ratings can be used to determine priorities. In another example, the lighting control signal selector 250 may control the lighting unit 240 in the lighting control pattern in the order in which the time received from the lighting control device 100 receives the lighting control pattern.

At this time, even if the illumination control signal selection unit 250 allows the illumination unit 240 to control the input illumination control pattern, the signal selected to allow the illumination control pattern to control the illumination unit 240 is the illumination control signal selection unit Only when it is input from the 250 to control the lighting unit 240 in the lighting control pattern.

The lighting control signal selector 250 controls to delete other lighting control patterns in addition to the lighting control pattern selected to control the lighting unit 240, or waits for the other lighting control patterns, and then illuminates the lighting unit 240 with the selected lighting control pattern. After the control is completed, the lighting unit 240 may be controlled, but is not limited thereto.

When the lighting control signal selection unit 250 determines the control authority of the lighting control pattern generated by the lighting control apparatus 100, the lighting control apparatus 100 may be formed to receive and store a unique identification number. In addition, a unique identification number may be assigned to the lighting control pattern transmitted to the lighting control pattern receiver 210, and the lighting control pattern may be transmitted to the lighting apparatus 200 together with the lighting control pattern.

In addition, the lighting control signal selection unit 250 is formed to further include a database for storing at least one sheet music information as a music selection for a specific season or a specific weather, so that the music information or music file input with the lighting control pattern is selected If present in the table can be processed to control the lighting unit 240 in the corresponding lighting control pattern.

As the lighting control signal selection unit 250 is formed in this way, the lighting control pattern received by the lighting apparatus 200 from the lighting control apparatus 100 or the lighting control pattern newly generated by the lighting apparatus 200 received from the outside is generated. The lighting unit 240 may be controlled to control the lighting unit 240 and the output of the lighting unit 240 is controlled only when a signal for controlling the lighting unit 240 is input in the lighting control pattern in which the control of the lighting unit 240 is permitted. The output lighting of the 240 can be efficiently controlled, and the security and reliability of the output control of the lighting unit 240 are improved.

ATSC3.0 based on the structure of the lighting system (S) including the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol according to an embodiment of the present invention described with reference to FIGS. Referring to the operation of the lighting system (S) including the LED lighting device through the storage and analysis of the signal of the MMT protocol, first, the holder of the lighting control device 100 that is a smart phone controls the lighting of the lighting control device 100 When the score information stored in the score control unit 140 for generating the lighting control pattern is selected through the signal input unit 110, the first lighting control pattern generator 120 generates the lighting control pattern for the selected score information. do.

At this time, the first lighting control pattern generation unit 120 uses the reproduction request time input to the lighting control signal input unit 110 and the sheet music information selected from the sheet music storage unit 140 for generating the lighting control pattern, and applies the corresponding sheet music information to the sheet music information. It generates a lighting control pattern for the note, the note extractor 121 extracts each note information, note, and time signature from the score information, and the frequency band calculator 122 applies the note to the note and then for each note The frequency band for each node is calculated by calculating the frequency.

The illumination output color selecting unit 123 selects an illumination output color according to the frequency band for each node calculated by the frequency band calculating unit 122, and the illumination output time calculating unit 124 determines the reproduction request time and the score information. Comparing the total time to calculate the light output time for each note, to calculate the light output color and the light output time for the selected sheet music, respectively, the first illumination control pattern generator 120 is included in each sheet music information The lighting control pattern receiver of the lighting apparatus 200 is input through the lighting control pattern transmitter 130 as a lighting control pattern by inputting a signal for controlling the lighting to blink, a signal for controlling the lighting on / off, etc. each time the note is reproduced. Transmit to 210.

Alternatively, when the lighting control pattern sending unit 130 of the lighting control apparatus 100 is configured as a broadcasting communication device, the lighting control pattern sending unit 130 may illuminate the lighting control pattern in the form of a packet through the MMT protocol. And the lighting control pattern receiver 210 of the lighting apparatus 200 receives the packet through the MMT protocol.

At this time, the device driver 211 receives the packet via DMA, the packet reception engine 212 generates the packet analysis result, and the dynamic link library 213 sends the location where the packet is stored to the software analysis layer 214. In other words, the software analysis layer 214 analyzes the packet to extract the lighting control pattern. The packet transmission engine 215 transfers the illumination control pattern extracted from the packet in the software analysis layer 214 to the illumination output pattern controller 230 through the device driver 211.

Accordingly, the lighting output pattern control unit 230 of the lighting device 200 controls the lighting output of the lighting unit 240 according to the lighting control pattern.

At this time, when the lighting device 200 receives the sheet music information from the outside, the second lighting control pattern generator 220, the first lighting control pattern generator 120 is the lighting output color and lighting output time for the sheet music information By performing the same process of generating the lighting control pattern to control the, by generating the lighting control pattern, the lighting output pattern control unit 230 controls the lighting output of the lighting unit 240 by using the generated lighting control pattern.

However, at this time, the light output pattern control unit 230 is a light control signal selection unit 250 of the light control pattern received from the light control device 100 and the light control pattern generated by the second light control pattern generator 220. The output of the lighting unit 240 is controlled by using the lighting control pattern selected by), and the lighting control signal selecting unit 250 alternatively processes the lighting control pattern by using the set lighting control pattern selection algorithm.

Alternatively, an administrator having control of the lighting device 200 monitors the contents of the lighting control pattern through an output unit formed in the lighting device 200, and inputs a signal for selecting one of the lighting control patterns to the lighting device 200. As a result, the output of the lighting unit 240 may be controlled through the lighting output pattern control unit 230.

Accordingly, the lighting unit 240 outputs the light in a form in which the light output color and the light output time are controlled by the light output pattern control unit 230, and the music output to the speaker separately provided in the lighting device 200; Whenever the sound is reproduced in the music is synchronized to the flashing and outputs the light of the color set according to the band of the sound, the light output effect of the lighting device 200 is improved.

In addition, the general person having the lighting control device 100 can control the output form of the lighting device 200 installed in the park to be synchronized with a specific music, so that the utilization of the lighting device 200 can be expected to be increased. have.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

S: Lighting system including LED lighting device through storing and analyzing signal of ATSC3.0 MMT protocol
M: Sheet music information 100: Lighting control device
110: lighting control signal input unit 120: first lighting control pattern generation unit
121: note extraction unit 122: frequency band calculator
123: light output color selection unit 124: light output time calculation unit
130: lighting control pattern sending unit 140: music control pattern generation sheet storage
200: lighting device 210: lighting control pattern receiving unit
220: second lighting control pattern generation unit
230: light output pattern control unit 240: lighting unit
250: lighting control signal selection unit

Claims (16)

delete An illumination control pattern receiver configured to receive music control information and an illumination control pattern for controlling sheet music information and lighting units from outside through an MPEG media transport (MMT) protocol;
Controls the output color of the illumination according to the scale included in the sheet music information, synchronizes the timing of playing the sound included in the sheet music information with the flashing control, and requests the reproduction of the score information and the total reproduction time of the sheet music information. Comparing the time to generate an illumination control pattern according to the score information to control the light output time for the sound included in the score information to control the output of the lights, the lighting control pattern receiver is turned on or off An illumination output pattern control unit controlling an output of illumination according to an illumination control pattern controlling off; And,
The lighting is output in synchronization with the music for the music score information, and the light output color, the light blinking, and the light output time are controlled or the lighting unit is turned on or off by an illumination control pattern according to the music score information of the light output pattern controller. It includes; lighting unit for outputting lighting according to the lighting control pattern to include,
The lighting control pattern receiver,
A device driver for receiving a packet of an MMT protocol through direct memory access (DMA) and storing the packet in a memory of a system;
A packet receiving engine that analyzes the packet and transmits the arrival and error of the packet to a higher software analysis layer and stores the packet in a memory designated by an operating system;
A dynamic linking library (DLL) for transmitting a location of a memory in which the packet of the MMT protocol is stored to the upper software analysis layer and a packet transmission engine and interfacing input / output control;
An upper software analysis layer that analyzes the packet to produce a report; And,
A packet transmission engine that receives a packet from the upper software analysis layer and stores the packet in a memory designated by the terminal, and transmits the packet to the lighting output pattern control unit through a DMA as a packet for transmission; ATSC3.0 MMT LED lighting device through the storage and analysis of protocol signals. The method of claim 2,
A musical note extracting unit for extracting musical note information, musical scale information, a syllable, and a time signature of the musical notes included in the sheet music information;
Applying the tone to the scale information extracted by the note extractor to calculate frequencies for the scales of the notes included in the score information, respectively, and averaging the frequencies calculated for the scale information in all nodes included in the score information. A frequency band calculator for calculating a frequency band;
An illumination output color selection unit that selects an illumination color to be output from the illumination unit according to the frequency band for each node calculated by the frequency band calculation unit; And,
According to the time signature extracted by the note extracting unit, illumination is output for the set time for the note information, and a value obtained by dividing the reproduction request time of the sheet information input from the outside by the total time for the sheet information is divided into the set time. And a lighting output time calculating unit that calculates the actual lighting output time for each note of the sheet music information. The lighting control pattern generating unit generates the lighting control pattern from the sheet music information and transmits the lighting control pattern to the lighting output pattern controller. LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol characterized in that it further comprises. The method of claim 2,
The lighting output color selection unit divides the frequency range of the scale to 0 ~ 8000Hz into a plurality of sections, selecting the illumination color to be output from the lighting unit according to the setting to classify to output a specific color in the frequency band of each section. LED lighting device by storing and analyzing signals of ATSC3.0 MMT protocol. The method of claim 2,
The sheet music information is received from the outside, or the LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, characterized in that the sheet music information formed in a separate storage space. The method of claim 2,
And a lighting control signal selection unit configured to generate a selection signal for controlling the output of the lighting unit by selecting one of the plurality of lighting control patterns when the lighting output pattern control unit receives the plurality of lighting control patterns. LED lighting device through the storage and analysis of the signals of the ATSC3.0 MMT protocol. The method of claim 6,
The lighting control signal selection unit controls the output of the lighting unit by using the lighting control pattern received earlier in the quickest order of the time when the plurality of lighting control patterns are received. LED lighting device through signal storage and analysis. The method of claim 6,
The lighting control signal selecting unit stores at least one sheet music information for a weather or a season as a selection curve, and when there is a sheet music information included in the selection score among a plurality of sheet music information to which the lighting control pattern is applied, the sheet music LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, characterized in that to control the output of the lighting unit using the lighting control pattern for the information. The method of claim 6,
The illumination control signal by receiving a signal for selecting one of score information or music information for the illumination control pattern output to the music control information or music information for a plurality of the illumination control pattern; LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol characterized in that it further comprises an input for transmitting to the selection unit. The method of claim 2,
And a speaker configured to output music for the sheet music information, and further comprising, when receiving the sheet music information from the outside, receiving a music file for the sheet music information together or accessing a music file for the received sheet music information over the Internet. LED lighting device through the storage and analysis of the signals of the ATSC3.0 MMT protocol, characterized in that downloaded from the playback. Controls the output color of the illumination according to the scale included in the score information, synchronizes with the time when the sound included in the score information is reproduced, and controls the blinking of the lighting, and the total reproduction time of the score information and the request time of reproduction of the score information And a lighting control pattern generation unit for generating a lighting control pattern for controlling the lighting output time for the sound included in the sheet music information or for generating a lighting control pattern for controlling the on or off of the lighting, and MPEG media transmission ( A lighting control device including a lighting control pattern transmitting unit configured to transmit the lighting control pattern to the outside through an MMT; And,
An illumination control pattern receiver configured to receive the illumination control pattern transmitted from the illumination control pattern transmitter of the illumination control apparatus through an MPEG media transport protocol; an illumination output pattern controller configured to control an output of illumination in accordance with the illumination control pattern; And an illumination unit configured to output light in synchronization with music for the music score information, and output light in a form in which a light output color, a light blink, and an light output time are controlled by the light control pattern of the light output pattern controller. Includes; LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol;
The lighting control pattern receiver,
A device driver for receiving a packet of an MMT protocol through direct memory access (DMA) and storing the packet in a memory of a system;
A packet receiving engine that analyzes the packet and transmits the arrival and error of the packet to a higher software analysis layer and stores the packet in a memory designated by an operating system;
A dynamic linking library (DLL) for transmitting a location of a memory in which the packet of the MMT protocol is stored to the upper software analysis layer and a packet transmission engine and interfacing input / output control;
An upper software analysis layer that analyzes the packet to produce a report; And,
A packet transmission engine that receives a packet from the upper software analysis layer and stores the packet in a memory designated by the terminal, and transmits the packet to the lighting output pattern control unit through a DMA as a packet for transmission; ATSC3.0 MMT Lighting system including LED lighting device through the storage and analysis of the signal of the protocol. The method of claim 11,
The lighting control device receives the sheet music information from the outside and transmits the lighting control signal input unit to the lighting control pattern generation unit, and stores the sheet music information and transmits the stored sheet music information to the lighting control pattern generation unit according to an input signal. Lighting system including an LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, characterized in that it further comprises a music storage for generating a lighting control pattern. The method of claim 11,
The lighting control pattern transmitting unit and the lighting control pattern receiving unit transmit and receive the lighting control pattern through wireless communication, and the lighting control device stores and analyzes signals of the ATSC3.0 MMT protocol, characterized in that the mobile terminal device. Lighting system including LED lighting device through. The method of claim 11,
The illumination output pattern control unit receives an illumination control pattern generated according to the music information newly received from the outside in addition to the illumination control pattern received by the illumination control pattern receiver from the illumination control pattern transmitter to control the output of the illumination. Lighting system comprising an LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, characterized in that. The method of claim 14,
LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol,
Generating a selection signal to select one of the illumination control pattern received from the illumination control pattern transmitter from the illumination control pattern receiver and an illumination control pattern generated according to the newly input score information to output the illumination; Lighting system comprising an LED lighting device through the storage and analysis of the signal of the ATSC3.0 MMT protocol, characterized in that further comprising a lighting control signal selection unit. delete

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