KR100933200B1 - Wireless Sound Transceiver System Using Ultra-Wideband Communication and Its Operation Method - Google Patents

Abstract

The present invention relates to a wireless sound transceiving system and an operation method thereof for transmitting and receiving sound data in real time using an ultra-wideband impulse wireless communication technology, and a method of operating the same, which converts sound source data selected for reproduction into an ultra-wideband impulse and transmits the same. Sound source transmitter; And a sound source receiver for reconverting the impulse data received from the sound source transmitter to restore the sound source data, reproducing the restored sound source data, and outputting the restored sound source to the outside, and wirelessly using ultra-wideband impulse wireless communication. By transmitting / receiving sound source data, high-quality sound source can be reproduced in real time even in multi-user environment without wasting channel, contributing to early commercialization of ultra-wideband impulse wireless communication technology, thereby enhancing international competitiveness and preoccupying the market.

In addition, by using a power control algorithm to minimize the power consumption can be used for a long time, and by optimizing the structure of the sound source receiver can not only reduce the size of the sound source receiver, but also significantly reduce the manufacturing price. .

Ultra wideband, impulse, sound source, wireless, transmit and receive, playback

Description

Wireless audio transmission and reception system using ultra wideband communication and its operation method {Wireless Audio Transmission System Using Ultra Wideband Communication and the method}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless sound source transmission and reception system using ultra wideband communication, and a method of operating the same. In particular, high-quality sound source data is reproduced without interference even in a multi-user environment by transmitting predetermined sound data wirelessly using an ultra wideband impulse communication technology. The present invention relates to a wireless sound source transmission and reception system using ultra-wideband communication and a method of operating the same.

Short-range wireless sound transmission system is gradually replacing the existing wired market. The sound source transmission system through the wire ensures high sound quality and excellent reliability, but there are many disadvantages due to space limitation and mobility limitation. Therefore, the construction of a wireless sound source transmission system that replaces the wired sound source transmission system is becoming common.

In order to transmit the sound quality of the sound source without damaging the wireless sound source transmission system, a certain data transmission rate is required. Recently, various communication technologies are applied according to the transmission rate. A representative example is a Bluetooth wireless headset used in a mobile phone.

However, products using Bluetooth communication have high power consumption due to complicated protocols and transceiver structures, making it difficult to implement low-power low-cost systems and real-time transmission. In particular, if you use an electronic device with Bluetooth technology to listen to music wirelessly, the music must be transmitted and received in real time. There is no problem. In addition, in a multi-user environment in which several users listen to music wirelessly using Bluetooth technology in an adjacent space, a problem arises in that the real-time data rate of data is drastically reduced due to interference of a transmission / reception signal, thereby reducing convenience of a wireless device.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to use a low power, low complexity ultra wideband impulse wireless communication technology to transmit and receive a sound source data in real time and a wireless sound source transmission and reception system and its operation method To provide.

In addition, another object of the present invention is to implement a one-way communication from the sound source transmitter to the sound source receiver, the implementation of the sound source receiver can be made simple and compact, the wireless sound source transceiver system that can improve the portability and convenience of the user To provide.

It is still another object of the present invention to provide a wireless sound source transmission / reception system and a method of operating the same, by adjusting the degree of conversion of sound source data to be transmitted according to a wireless channel environment so that real-time music playback can be continued even in a poor channel environment. have.

It is still another object of the present invention to provide a wireless sound source transmission / reception system and a method of operating the same to enable high-quality music to be reproduced in real time even in a multi-user environment by transmitting and receiving data using ultra-wideband impulse technology, which hardly causes data interference. To provide.

Wireless sound source transmission and reception system according to a first aspect of the present invention for achieving the object of the present invention as described above includes a sound source transmission device for converting the sound source data selected for reproduction to the ultra-wideband impulse; And a sound source receiver for reconverting the impulse data received from the sound source transmitter to restore the sound source data, and regenerating and restoring the restored sound source data to the outside.

A wireless sound source transmission / reception system according to a second aspect of the present invention adjusts a sampling rate by determining a wireless channel environment, converts sound source data according to the adjusted sampling rate, and transmits an ultra-wideband impulse. Device; And a sound source receiver for reconverting the impulse data received from the sound source transmitter to restore the sound source data, and regenerating and restoring the restored sound source data to the outside.

In addition, the wireless sound source transmission and reception system according to a third aspect of the present invention includes a sound source transmission apparatus for converting the sound source data selected for reproduction into a packet including a predetermined control header, and transmits the converted packet in the form of ultra-wideband impulse; And a sound source receiver for analyzing the received control header in the form of the received ultra-wideband impulse and restoring the sound source data from the received impulse data and outputting the sound source data to the outside.

In a wireless sound source transmission / reception system according to a fourth aspect of the present invention, a sound source receiving apparatus is configured to read an ultra-wideband impulse present in a channel, classify a packet having the same flow ID, and restore sound source data from the classified packet. A data receiving unit; And a reproducing module for reproducing the restored sound source data and outputting it to the outside.

In addition, in the wireless sound source transmission and reception system according to the fifth aspect of the present invention, the sound source transmitter receives the ultra-wideband impulse present in the channel to determine the state of the channel and to adjust the sampling rate according to the second data. Receiving unit; And a data transmitter converting the sound source data according to the adjusted sampling rate to emit the ultra wide band impulse.

According to a sixth aspect of the present invention, there is provided a method of operating a wireless sound source transmission / reception system, comprising: converting selected sound source data and transmitting the selected sound source data in an ultra-wideband impulse form; Restoring the received ultra wideband impulse to the sound source data; And outputting the restored sound source data to the outside.

As described above, the wireless sound source transmission / reception system and its operation method according to the present invention can transmit and receive sound source data wirelessly using ultra-wideband impulse wireless communication so that high-quality sound sources can be reproduced in real time even in a multi-user environment efficiently without wasting channels. It contributes to the early commercialization of ultra-wideband impulse wireless communication technology, which has the effect of enhancing international competitiveness and preoccupying the market.

In addition, by applying a power control algorithm to minimize the power consumption can be used for a long time without a separate charging process can improve the convenience and portability of the user.

In addition, by optimizing the structure of the sound source receiving apparatus by applying one-way communication, the size of the sound source receiving apparatus can be reduced and the manufacturing cost can be greatly reduced.

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

First, the wireless sound source transmission and reception system according to the present invention transmits and receives the sound source data by applying the ultra-wideband impulse communication technology.

Ultra Wide Band Impulse Communication is a technology that uses extremely short pulses of sub-nanoseconds, which is more than 25% of the center frequency or over 500MHz. The UWB technology features wireless communication without the use of radio frequency (RF) carriers. It uses energy-modulated pulses with a duration of less than 1 ns. Since UWB technology receives and detects energy distributed over a wide band, it is very resistant to interference caused by narrowband communication signals, and has a very narrow pulse width and a small duty cycle of less than 1%. Spreading of signals and overlapping of signals can be avoided. In addition, since the pulse signal is emitted unmodulated, no carrier oscillator is required, and since the intermediate frequency stage (IF) is not used, the configuration is simple, and broadband service for multiple users is possible using time division multiple access. In addition, since the signal is distributed over a wide band, the present invention has an advantage suitable for short-range communication. Accordingly, the present invention wirelessly transmits and reproduces sound source data using ultra-wideband communication having the above-described advantages.

1 is a block diagram schematically showing the configuration of a wireless sound source transmission and reception system according to an embodiment of the present invention.

As shown in Figure 1, the wireless sound source transmission and reception system according to a preferred embodiment of the present invention from the sound source transmission device 10 for emitting sound source data in the form of ultra-wideband impulse, and from the sound source transmission device 10 And a sound source receiver 20 for restoring the emitted impulse signal to sound source data and reproducing it.

The sound source transmitter 10 includes a data transmitter 100 and a second data receiver 300, and the sound source receiver 20 includes a first data receiver 200. In the wireless sound source transmission / reception system according to the present invention, since the sound source data is transmitted in one direction from the sound source transmitter 10 to the sound source receiver 20 rather than bidirectional data communication, the sound source receiver 20 is separate. In the real-time sound source transmission system, a small distortion of the sound source does not have a great influence on the user, and since the retransmission impairs real-time, it is not necessary to include a data transmitter. It is possible to reduce the manufacturing cost by simplifying the configuration of 20).

In this case, the second data receiver 300 of the sound source transmitter 10 is for collecting environmental information of a wireless channel, and has a different function from that of the first data receiver 200.

2 is a block diagram showing the internal configuration of a wireless sound source transmission and reception system according to an embodiment of the present invention.

As shown in FIG. 2, in the wireless sound source transmission / reception system according to an exemplary embodiment of the present invention, the data transmitter 100 of the sound source transmitter 10 may include a data converter 120, a transmission interface 130, and It is configured to include an impulse transmission module 140.

The data converter 120 converts sound source data transmitted from at least one sound source data selected for reproduction according to wireless transmission, and converts the sound source data into a packet according to a set sampling rate to the transmission interface 130.

The transmission interface 130 transmits the converted data to the impulse transmission module according to the ultra-wideband impulse interface.

The impulse transmission module 140 converts the data received from the transmission interface 130 into an impulse signal and transmits it to the outside.

In addition, it may include a sound source storage unit 110 for storing at least one sound source data, the sound source storage unit 110 is stored in a separate memory from the data transmitter 100 is stored in the sound source transmission apparatus 10 May be included. In addition, when a predetermined sound source playback device such as an mp3 player, a mobile communication terminal having a mp3 player function, a desktop, a laptop, a CD player, a cassette tape, and the sound source transmitter 10 are connected, the sound source included in the connected sound source playback device is stored. It can also represent wealth.

The first data receiving unit 200 of the sound source receiving apparatus 20 restores the original sound source data by performing the operation of the data transmitting unit 100 in reverse, and the impulse receiving module 240 and the receiving interface 230. , And a data recovery unit 220. And a reproducing module 210 for reproducing the sound source data reconstructed from the data reconstructing unit 220 and outputting them to the outside. The sound source receiving apparatus 20 may be integrally connected with a general sound source output device such as a speaker, earphone, headphone, etc., but is not limited thereto and may be connected to the sound source output device through a separately provided connection terminal to output corresponding sound source data. .

On the other hand, the data conversion unit 120 of the sound source transmitter 10 to convert the selected sound source data into a packet to help the UWB impulse received by the sound source receiver 20 is restored to the original sound source data normally A control header storing related information of the selected sound source data is attached to the packet and transmitted together.

3 is a structural diagram showing the structure of a control header in a wireless sound source transmission and reception system according to an embodiment of the present invention.

The sound source data packet according to an exemplary embodiment of the present invention reads and restores a data field F4 in which sound source data converted according to a set sampling rate is stored, and a received packet attached to a front end of the data field F4. It consists of a control header that provides relevant information.

As shown in FIG. 3, the control header is unique information indicating sound source data, and includes a first field F1 in which a Flow ID is stored and a second field F2 in which sampling rate information of sound source data indicated by the emitted data is stored. ), And a third field F3, which stores a sequence number for matching the reproduction timing at the time of restoration to the sound source data.

The flow ID is information indicating that the packetized sound source data constitutes one song, and is used as information representing a packet of sound source data of one song, and may have a different flow ID for each song, and several songs may be sequentially If transmitted, the order may be indicated. In some cases, the sound source transmitter may emit the sound source data.

The sampling rate information is sampling rate information obtained by converting the sound source data, and the sequence number is for adjusting timing to enable normal restoration and reproduction before and after the lost portion, especially when a part of the sound source data is lost.

4 is a block diagram showing the configuration of a sound source transmitting apparatus in a wireless sound source transmitting and receiving system according to a preferred embodiment of the present invention.

As shown in FIG. 4, in the wireless sound source transmission / reception system according to the preferred embodiment of the present invention, the sound source transmitter 10 includes a data transmitter 100 and a second data receiver 300. Since the data transmitter 100 is the same as described above with reference to FIG. 2, a detailed description thereof will be omitted.

The second data receiver 300 may include the same configuration as that of the first data receiver 200 of the sound source receiver 20 described above with reference to FIG. 2, but is not limited thereto. Since 300 is for determining a wireless channel environment, it may be simply configured to include an impulse receiving module 320 and a receiving interface 310 as shown in FIG.

In this case, the sound source transmitter 10 may be configured to include a sound source transmission control unit 50 for adjusting the sampling rate of the data converter 120 according to the channel information collected from the second data receiver 300. .

The sound source transmission control unit 50 stores the corresponding sound source according to the channel information received from the impulse receiving module 320 with reference to a lookup table stored in the sound source transmitter 10 and corresponding sampling rate values are stored, respectively. The rate value may be selected, and the sampling rate may be selected or coded with a high compression rate by determining the time share in the time-domain of the impulse signal transmitted to the outside through the impulse transmission module 140.

On the other hand, in the wireless sound source transmission and reception system according to an embodiment of the present invention, the transmission and reception interface (130, 230) controls the operation of the impulse transmission and reception module (140, 240) to further lower the power consumption.

5 is a connection diagram illustrating a connection of a transmission / reception interface and an impulse transmission / reception module in a wireless sound source transmission / reception system according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the transmission interface 130 according to an exemplary embodiment of the present invention transmits the converted data packet transmitted from the data converter 120 through the impulse transmission module 140 in the form of an ultra-wideband impulse signal. To be released. At this time, when the control signal of the transmission interface 130 is input to the power control terminal of the impulse transmission module 140 to transfer the data converted from the transmission interface 130 to the impulse transmission module 140, POWER_EN of the transmission interface 130 When a signal is input to the power control terminal of the impulse transmission module 140, power is applied to the impulse transmission module 140 to transmit data in the form of an impulse, and when the data transmission is completed, supply power to the impulse transmission module 140. Stop operation by blocking.

The above-described operation is similarly operated by the reception interface 230 and 310 and the impulse reception module 240 and 320 included in the first and second data receivers 200 and 300 to read the same from the reception interface 230. When the reception period of the packet of the Flow ID is calculated, the reception interface 230 transmits a POWER_EN signal to the impulse reception module 240 according to the calculated period so that the power is supplied to the impulse reception module 240 and accordingly the corresponding packet. This impulse receiving module 240 is to be received.

On the other hand, in the wireless sound source transmission and reception system according to a preferred embodiment of the present invention as described above, the system converts the sound source data selected by the sound source transmission apparatus 10 and emits it to the outside in the form of ultra-wideband impulse, sound source receiving apparatus 20 receives and reads the ultra-wideband impulse emitted to the outside and restores the selected sound source data.

Next, the restored sound source data is reproduced and output to the outside in order so that the music selected by the user is reproduced in real time.

At this time, the operation of the sound source transmitter in the wireless sound source transmission and reception system according to the present invention will be described.

6 is a flowchart illustrating a method of operating a sound source transmitting apparatus in a wireless sound source transmitting and receiving system according to a preferred embodiment of the present invention.

If the sound source to be played back is selected through the user's input in step S10, the selected sound source data is transferred to the data converter in step S20.

Next, in step S30, the data converter selects a sampling rate according to the channel information under the control of the sound source transmission control unit.

Next, in step S40, it is determined whether the value of the selected sampling rate and the value of the preset sampling rate are equal to each other. If not, the setting of the sampling rate is updated to the sampling rate value selected in step S50.

Next, in step S60, when the selected sound source data is converted according to the set or updated sampling rate value, in step S70, the transmission interface and the impulse transmission module sequentially convert the converted data into an ultra-wideband impulse signal and transmit it to the outside.

On the other hand, when the impulse transmitted from the sound source transmitter 10 is received by the sound source receiver 20, the sound source receiver 20 reads the received impulse and restores the sound source data. In this case, the sound source receiving apparatus 20 may control the power of the impulse receiving module 240 by connecting the receiving interface 230 and the impulse receiving module 240 as described above with reference to FIG. It may be used to determine whether there is a sound source other than the sound source data previously received and reproduced on the screen and to play one of the corresponding sound sources.

7 is a flowchart illustrating a power control algorithm of a sound source receiving apparatus in a wireless sound source transmitting and receiving system according to a preferred embodiment of the present invention.

In step S100, when a scan command of a packet present in a channel is input to the sound source receiving apparatus according to a user input, the receiving interface applies a POWER_EN signal so that the power mode of the impulse receiving module is always on.

In step S110, when a packet of a new Flow ID is received by the impulse receiving module, the flow ID of the received packet is temporarily stored.

Next, in step S120, if a packet having the same ID as the temporarily stored Flow ID is continuously received, in step S130, it is determined whether the packet is periodically received, and if it is periodically received, the period is calculated. Next, in step S140, the receiving interface applies the POWER_EN signal so that the impulse receiving module is turned on at the calculated period.

At this time, in step S130, if it is determined that the packet is not received periodically, it searches for whether a packet having a different Flow ID exists on the channel and repeats the operation of step S110.

As described above, the wireless sound source transmission and reception system using the ultra-wideband impulse communication according to the present invention has been described with reference to the illustrated drawings. However, the present invention is not limited to the embodiments and drawings disclosed herein, and the sampling rate according to the channel environment. The technical idea of the present invention to configure a low-power, low-cost, small wireless sound transmission and reception system by transmitting the converted data as an ultra-wideband impulse signal can be easily applied by those skilled in the art within the scope of the claims. It is self-evident.

1 is a block diagram schematically showing the configuration of a wireless sound source transmission and reception system according to an embodiment of the present invention;

2 is a block diagram showing the internal configuration of a wireless sound source transmission and reception system according to an embodiment of the present invention;

3 is a structural diagram showing the structure of a control header in a wireless sound source transmission and reception system according to an embodiment of the present invention;

4 is a block diagram showing the configuration of a sound source transmitting apparatus in a wireless sound source transmitting and receiving system according to an exemplary embodiment of the present invention;

5 is a diagram illustrating a connection of a transmission / reception interface and an impulse transmission / reception module in a wireless sound source transmission / reception system according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a method of operating a sound source transmitting apparatus in a wireless sound source transmitting and receiving system according to an exemplary embodiment of the present invention.

7 is a flowchart illustrating a power control algorithm of a sound source receiving apparatus in a wireless sound source transmitting and receiving system according to a preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: sound source transmitter 20: sound source receiver

100: data transmitter 200: first data receiver

120: data conversion unit 130: transmission interface

220: data recovery unit 230: receiving interface

Claims (15)

delete delete A sound source transmitter for converting the sound source data selected for reproduction into a packet including a predetermined control header and transmitting the converted packet in the form of an ultra-wideband impulse; And Sound source receiver for analyzing the received control header in the form of the received ultra-wideband impulse to restore the sound source data from the received impulse data in turn And a flow ID indicating unique information of the sound source transmitter in the control header. The method of claim 3, wherein The control header may include a first field in which the Flow ID is stored; A second field in which sampling rate information of sound source data indicated by the emitted data is stored; And Third field in which a sequence number for reproducing timing is stored when restoring to sound source data Wireless sound source transmission and reception system comprising a. A first data receiver for classifying packets having the same Flow ID by reading the ultra-wideband impulses present in the channel, and restoring sound source data from the classified packets; And A reproducing module which reproduces the restored sound source data and outputs it to the outside Including, The first data receiving unit, A receiving interface that reads the received ultra-wideband impulse and classifies packets having the same Flow ID; And Data restoration unit for converting the classified packets in sequence to restore the sound source data Sound source receiver comprising a. delete The method of claim 5, wherein And the reception interface calculates a reception period of packets having the same Flow ID and controls the power of the impulse reception module according to the calculated reception period. delete delete delete Converting the selected sound source data to transmit in the form of an ultra-wideband impulse; Restoring the received ultra wideband impulse to the sound source data; And Playing the restored sound source data and outputting it to the outside; Wherein the reading of the received impulse includes: Receiving a packet having a new Flow ID; Determining whether a packet having the same Flow ID as the received Flow ID is received periodically and calculating a received period; And Updating the power setting of the impulse receiving module according to the calculated period Operation method of a wireless sound source transmission and reception system, characterized in that made by. The method of claim 11, wherein the converting the sound source data Receiving an ultra-wideband impulse to determine the state of the wireless channel and to select a transmittable sampling rate accordingly; Determining whether the selected sampling rate is equal to a preset sampling rate; If it is determined that the values are different, updating the setting to the selected sampling rate value; And Converting the sound source data according to a set sampling rate value Operation method of a wireless sound source transmission and reception system, characterized in that comprises a. The method of claim 12, The selecting of the sampling rate may include calculating a SNR value from the received ultra-wideband impulse signal, and selecting a sampling rate corresponding to the SNR value calculated from a lookup table in which sampling rate values according to the SNR value are classified. Operation method of the transmission and reception system. The method of claim 12, The selecting of the sampling rate may include selecting a sampling rate according to a value calculated by calculating a time share in a time domain with respect to the received ultra-wideband impulse signal. How to operate. delete

Images