WO2021095896A1

WO2021095896A1 - Audio transmission device, wireless audio system, and wireless audio retransmission method

Info

Publication number: WO2021095896A1
Application number: PCT/KR2019/015290
Authority: WO
Inventors: 박창용
Original assignee: 엘지전자 주식회사
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2021-05-20

Abstract

An embodiment of the present invention relates to a wireless audio system and a wireless audio retransmission method, in which: audio data within an audio packet, which is requested to be retransmitted, is rearranged according to a new sequence, and the audio data is divided into a plurality of packets so as to be retransmitted wirelessly; and the retransmitted audio data, which has been divided into the plurality of packets, is received and is recombined into an original position, and the original audio data is reproduced and output. Accordingly, the present invention can reduce a wireless transmission load via reducing a size of transmission data and increase a data transmission success rate.

Description

Audio transmission apparatus, wireless audio system, and wireless audio retransmission method

The present invention relates to an audio transmission apparatus, a wireless audio system, and a method of retransmitting wireless audio, and more particularly, to an audio transmission apparatus for retransmitting an audio signal in a wireless network environment, a wireless audio system, and a method of retransmitting wireless audio. About.

With the rapid development of multimedia technology, even a general home can use various multimedia resources such as HDTV, DVD, mobile phone, personal digital assistant (PDA), personal computer (PC, Personal Computer), etc. Through this, it becomes possible to view video, and to listen to audio with a magnificent and rich audio source from a speaker.

A home theater system is a system for providing such high-definition video and multi-channel audio. Among digital audio signal formats, AC-3 (Audio Compression 3), PCM (Pulse Code Modulation), MPEG (Moving Picture Experts Group) Most of the sound is produced in a multichannel audio format.

In a multi-channel audio system, when data transmission fails due to a poor wireless environment, retransmission is generally not performed. However, there is a problem in that audio service quality deteriorates when data transmission fails.

In order to solve this problem, a technique for retransmitting an audio packet that has failed to be transmitted has been proposed, but if the wireless environment is not good, the retransmission packet has a high probability of also failing, so simply retransmitting the same packet repeatedly fails in packet delivery. high portential.

An object to be solved by the present invention is to provide an audio transmission device, a wireless audio system, and a wireless audio retransmission method for increasing a transmission success rate by dividing and rearranging an audio packet to be retransmitted and transmitting it as a plurality of packets.

In addition, the problem to be solved by the present invention is that by appropriately selecting a retransmission method for audio packets according to a wireless communication environment, the transmission success rate can be increased in a poor wireless communication environment, and an audio transmission capable of reducing the processing load in a good wireless communication environment. An apparatus, a wireless audio system, and a wireless audio retransmission method are provided.

In order to solve the above-described problems, an audio transmission apparatus, a wireless audio system, and a wireless audio retransmission method according to an embodiment of the present invention rearrange the order of audio data in an audio packet requested for retransmission and divide it into a plurality of packets. Retransmit wirelessly.

In addition, the audio receiving apparatus receives audio data divided into a plurality of packets retransmitted by the audio transmitting apparatus, recombines them to their original positions, and reproduces and outputs the original audio data.

An audio transmission apparatus, a wireless audio system, and a wireless audio retransmission method according to an embodiment of the present invention correspond to a first retransmission method for retransmitting a packet corresponding to a retransmission request as it is according to the communication quality of the wireless transmission unit and the retransmission request. The retransmission method is determined as one of the second retransmission methods in which the order of audio data in the packet to be transmitted is rearranged, divided into a plurality of packets, and transmitted.

In addition, the audio transmission apparatus according to an embodiment of the present invention determines the number of divisions of packets to be retransmitted in response to the retransmission request according to the communication quality of the wireless transmission unit.

In the wireless audio system and wireless audio retransmission method according to an embodiment of the present invention, when reception of at least one of a plurality of packets retransmitted by an audio transmission apparatus fails in response to a retransmission request, audio data of the received packet is transmitted. The audio data is reproduced by recombining in the original order and interpolating the lost audio data.

As described above, the audio transmission apparatus, the wireless audio system, and the wireless audio retransmission method according to the present invention can reduce a wireless transmission load and increase a transmission success rate by reducing the size of transmission data.

In addition, the audio transmission apparatus, the wireless audio system, and the wireless audio retransmission method according to the present invention are not continuous because the positions of audio samples lost due to reception failure in the audio receiving apparatus are not continuous, so that it is difficult for the listener to recognize them even when playing them as they are. The effect of loss on audio quality can be minimized.

In addition, the audio transmission apparatus, the wireless audio system, and the wireless audio retransmission method according to the present invention can reduce the load of data processing while increasing the data transmission success rate by determining the retransmission method according to the wireless communication environment.

1 schematically illustrates a wireless audio system according to an embodiment of the present invention.

2 is a control block diagram of an audio transmission apparatus according to an embodiment of the present invention.

3 schematically illustrates an audio data packet transmitted by an audio transmission apparatus according to an embodiment of the present invention.

4 is a control block diagram of an audio receiving apparatus according to an embodiment of the present invention.

5 schematically illustrates an audio data packet received and recombined in an audio receiving apparatus according to an embodiment of the present invention.

6 is a flowchart of a wireless audio retransmission method according to an embodiment of the present invention.

7 is a flowchart of a wireless audio retransmission method according to an embodiment of the present invention.

8 to 11 schematically illustrate audio data retransmitted by an audio transmitting apparatus and audio data recombined by an audio receiving apparatus according to an embodiment of the present invention.

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

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

The wireless audio system 1, the audio transmitting apparatus 10, and the audio receiving apparatus 20 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

1 schematically shows a wireless audio system 1 according to an embodiment of the present invention. The wireless audio system 1 of FIG. 1 is a multi-channel wireless audio system, which receives a channel audio signal from an audio transmission device 10 (eg, an audio source) that transmits a multi-channel audio signal and an audio transmission device 10 And a plurality of output audio receiving devices 20a to 20n (eg, an audio reproducing device). The audio transmission device 10 means a master, and the audio reception devices 20a to 20n mean a slave.

The audio transmitting device 10 and the plurality of audio receiving devices 20a to 20n are provided with audio data through any one of a variety of wireless communication methods such as Wi-Fi, Bluetooth, Ethernet, and short-range wireless communication (NFC). Transmits and receives wirelessly. The user can configure a wireless multi-channel audio system by using a home theater setting menu, etc., and through this setting process, the audio transmitting device 10 and the plurality of audio receiving devices 20 are paired by a wireless communication method to provide a multi-channel audio system. Configure a channel audio system.

Referring to FIG. 1, when transmission of some of the plurality of audio receiving devices 20a to 20n (slave) among the audio data transmitted by the audio transmitting device 10 (master) is failed, the audio receiving device 20 that has failed to receive the audio data Request retransmission of. When the retransmission request is received, the audio transmission device 10 rearranges the audio data of the packet requested for retransmission, divides it into a plurality of packets, and transmits the retransmission request wirelessly. The audio receiving apparatuses 20a to 20n receive the audio data of a plurality of retransmitted packets, reassemble them to their original positions, and reproduce them.

If the data transmission fails, the wireless communication environment is not good. Therefore, there is a high probability of the same failure when retransmitting the audio data as it is. According to the present invention, transmission failure can be minimized by rearranging audio data in one audio packet that has failed to be transmitted, dividing it into a plurality of audio packets, and transmitting them.

The audio transmission device 10 will be described in detail with reference to FIGS. 2 and 3. 2 is a control block diagram of the audio transmission apparatus 10 according to an embodiment of the present invention, and FIG. 3 schematically shows an audio data packet transmitted from the audio transmission apparatus 10.

Referring to FIG. 2, the audio transmission apparatus 10 includes an audio input unit 11, an audio processing unit 13, a transmission processing unit 15, a wireless transmission unit 17, and an audio splitting unit 19. The audio transmission device 10 may be implemented by a speaker such as a sound bar.

The audio input unit 11 is for receiving audio data from various external devices, and may be connected to an external device through a wired or wireless connector or a wireless network. The external device may include various electronic devices such as a TV, a DVD, a smart phone, a personal computer (PC), and a tablet PC. The audio input unit 11 may include a High Definition Multimedia Interface (HDMI) connector, a D-sub connector, or the like for receiving audio data from a PC, a set-top box, or a multimedia device. In addition, the audio input unit 11 is provided with an Ethernet terminal for connection to a wired network, or WLAN (Wireless LAN) (Wi-Fi), Wibro (Wireless broadband), for connection to a wireless network. Wimax (World Interoperability for Microwave Access) and HSDPA (High Speed Downlink Packet Access) communication standards can be used.

The audio processing unit 13 processes audio data input through the audio input unit 11 and outputs the processed audio data to the transmission processing unit 15. Audio data input through the audio input unit may be AC-3 (Audio Compression 3), PCM (Pulse Code Modulation), MPEG (Moving Picture Experts Group), etc., for example, stereo 2-channel or 5.1-channel multi-channel audio It can be a format. The audio processing unit 13 may include a codec or processor for decoding or encoding the received audio data, a memory storing an algorithm for processing audio data, and the like. The audio processing unit 13 may decode the multi-channel audio data to be transmitted, separate, extract, and compress the audio data for each channel and output the decoded audio data.

The transmission processing unit 15 receives the audio data separated for each channel from the audio processing unit 13, divides the audio data into a plurality of segments suitable for a wireless transmission protocol, and performs packet conversion processing so that they can be sequentially transmitted. The transmission processing unit 15 assigns a sequence number to the audio data in the packet. The transmission processing unit 15 may be implemented including a signal processing algorithm and a memory. Meanwhile, when a request for retransmission of an audio packet is received through the wireless transmission unit 17, the transmission processing unit 15 processes the retransmission of the audio data.

The wireless transmission unit 17 converts the wireless packet of the transmission processing unit 15 into an analog signal and modulates it to generate an RF signal, and transmits the generated RF signal. The wireless transmitter 17 may include an RF signal generation module (not shown) for generating an RF signal and an antenna unit (not shown) for wirelessly outputting an RF signal.

The audio dividing unit 19 is for processing rearrangement and division of audio data requested for retransmission under the control of the transmission processing unit 15, and may be implemented by a signal processing algorithm and a processor. The audio data rearranged and divided by the audio dividing unit 19 is divided into a plurality of packets by the transmission processing unit 15 and then retransmitted. The audio dividing unit 19 extracts the audio data in the audio packet according to a preset rule, rearranges the order, and divides the audio data into a plurality of groups. Various algorithms can be applied to the method of rearranging the order of audio data, for example, by arranging columns of audio data in a certain block unit by block interleaving, and then dividing them based on columns or rows, or rearranging audio data in a random manner. Can be divided. In this case, the number of divisions may be variously set. The order of the audio dividing unit 19 rearranging and dividing the audio data in the packet may be reversed. Even if the audio data is rearranged and then divided, or after divided, the same is applied, and the rearrangement and division may be performed at the same time.

The transmission processing unit 15 allows the audio splitter 19 to rearrange and divide the order of the audio data in the retransmission request packet when at least some of the plurality of retransmitted packets fail to transmit and a retransmission request is received again. It is generated as a packet of and retransmitted. The retransmission of such a packet may be repeated several times as a request is received from the audio receiving apparatus 20.

Meanwhile, the audio transmission apparatus 10 may include a speaker, and separately extract and process channel audio data for internal output from the received audio signal and output through the speaker.

The division and rearrangement of audio packets of the audio transmission apparatus 10 according to an embodiment of the present invention will be described with reference to FIG. 3.

3(a) is data to be transmitted for the first time, and is denoted as audio data 1. As an example, audio data 1 constitutes one packet and includes 16 audio samples. When a retransmission request for audio data 1 is received, the transmission processing unit 15 controls the audio dividing unit 19 to divide and process the audio data 1 to be retransmitted.

The transmitted audio data may be temporarily stored in a buffer of the transmission processing unit 15 or in a separate memory for a predetermined time. When the transmission is successful or a certain period of time elapses, the buffered data is deleted.

When the retransmission request is received, the transmission processing unit 15 checks the information (eg, sequence number) of the audio packet corresponding to the retransmission request, and the audio splitter 19 extracts and recombines the audio data stored in the corresponding buffer or memory. And control to process the division.

FIG. 3B shows that in response to a request for retransmission of audio data 1, the audio data 1 is divided into 2 and the audio data in the packet is rearranged to separate and generate the audio data 1 into 2 packets. Audio data 1 contains audio samples 1 to 16, and retransmission data is divided into two packets (audio data 1-1, audio data 1-2) by dividing the first audio data 1 into an odd-numbered sample group and an even-numbered sample group. ) Is divided into two packets by the transmission processing unit 15 and retransmitted respectively.

If the transmission of audio data 1-2 fails and a retransmission request is received, the audio transmission device 10 divides the 8 audio samples included in the audio data 1-2 into an odd-numbered sample group and an even-numbered sample group. It is divided into two packets (audio data 1-2-1, audio data 1-2-2), and is generated into two packets and retransmitted respectively.

On the other hand, when the transmission of audio data 1-2-1 fails and a retransmission request is received, the audio transmission device 10 converts the four audio samples included in the audio data 1-2-1 into an odd-numbered sample group and an even-numbered sample. It is divided into groups, divided into two packets (audio data 1-2-1-1, audio data 1-2-1-2), and is generated into two packets and retransmitted respectively.

In the above-described embodiment, it has been described that the retransmission request packet is divided into two, but of course, the number of divisions of the packet may be variously set.

The audio receiving apparatus 20 will be described in detail with reference to FIGS. 4 and 5. 4 is a control block diagram of the audio receiving apparatus 20 according to an embodiment of the present invention, and FIG. 5 schematically shows an audio data packet received and reassembled by the audio receiving apparatus 20.

The audio receiving apparatus 20 is for processing received channel audio data and outputting an audio signal, and may be implemented by a wireless speaker or the like. In the wireless multi-channel audio system 1, the number of audio receiving devices 20 may be different depending on the number of channels. Hereinafter, one audio receiving device 20 will be described.

Referring to FIG. 4, the audio receiving apparatus 20 includes a wireless receiving unit 21, a receiving processing unit 23, an audio reproducing unit 25, and an audio recombining unit 27.

The wireless receiver 21 receives the RF signal transmitted from the audio transmission device 10 and converts it into a digital signal. The wireless receiver 21 demodulates the received RF signal and undergoes a recovery process to generate digital audio packet data.

The reception processing unit 23 unpacks the data packets sequentially output through the wireless reception unit 21, and determines whether or not the packet is successfully received by checking the sequence number included in the header. If the reception of the audio data of a specific packet fails, the reception processing unit 23 requests the audio transmission device 10 to retransmit through the wireless reception unit 21. In addition, the reception processing unit 23 unpacks the plurality of divided packets received in response to the retransmission request, and controls the audio recombination unit 27 to process data of the retransmission packet. The reception processing unit 23 may include an algorithm and a memory for signal processing.

Meanwhile, when the packet reception fails, the reception processing unit 23 determines whether to request retransmission in consideration of, for example, audio reproduction time information and audio decoding time information. When the audio reproduction time is imminent or the signal processing time is insufficient, the reception processing unit 23 may not request retransmission. In addition, if some of the plurality of packets received in response to the retransmission request fail to receive, the reception processing unit 23 determines whether to request retransmission for some packets that have failed to be received based on decoding time information or playback time information of the corresponding packet. Judge whether or not. The number of retransmission requests from the reception processing unit 23 may be set in advance to one of 1 to 5 times, or may be adaptively changed according to reproduction time information or decoding time information of audio data of a corresponding packet.

The audio reproduction unit 25 processes and reproduces the channel audio data received through the reception processing unit 23. The audio reproducing unit 25 may include a decoder or processor for decoding audio data, and a speaker for converting the decoded audio data into sound signals and outputting them.

The audio recombination unit 27 is for recombining audio data included in a plurality of retransmitted packets into an original position based on a sequence number or the like, and may be implemented by a signal processing algorithm and a processor.

Recombination of audio packets of the audio receiving apparatus 20 according to an embodiment of the present invention will be described with reference to FIG. 5.

5A shows the first transmitted data, and is denoted as audio data 1. As an example, audio data 1 constitutes one packet and includes 16 audio samples. When the reception of the audio data 1 fails, the audio reception device 20 requests the audio transmission device 10 to retransmit the audio data 1. Samples colored in gray in FIG. 5 refer to samples in which reception has failed.

FIG. 5B shows audio data received from the audio transmission apparatus 10 in response to a request for retransmission of audio data 1, and is divided into two packets and received. Referring to (b) of FIG. 3, the audio transmission apparatus 10 re-transmits the audio data 1 corresponding to the retransmission request by rearranging and dividing it into odd-numbered groups and even-numbered groups. The received audio data 1-1, which is the first packet, includes the first audio data 1, and the odd-numbered sample group, and the audio data 1-2, which is the second packet, includes the even-numbered sample group.

The reception processing unit 23 unpacks a plurality of packets, and the audio recombination unit 27 reassembles the audio data in the original order based on the sequence number. FIG. 5C shows the data recombined by the audio recombination unit 27, and it can be seen that the original data, which is audio data 1, have been restored.

6 is a flowchart of a wireless audio retransmission method according to an embodiment of the present invention. Referring to FIG. 6, the audio transmission apparatus 10 decodes multi-channel audio data, separates and extracts audio data for each channel, compresses it, converts it into a wireless packet, and sequentially transmits it (S10). The audio receiving device 20 receives and processes corresponding channel audio data and reproduces it as sound.

The audio receiving apparatus 20 unpacks the sequentially received audio packets and checks the sequence number included in the header. If, as a result of the confirmation, a specific packet is not received and is omitted or audio data of the packet is lost, it is detected that the reception has failed (S11). The audio receiver 20 requests retransmission to the audio transmitter 10 for a packet in which reception has failed (S12).

When the request for retransmission of the packet is received, the audio transmission apparatus 10 rearranges and divides the order of audio data in the audio packet requested for retransmission (S13). Then, the divided audio data is generated as a plurality of packets and retransmitted wirelessly (S14).

The audio receiving apparatus 20 receives and unpacks a plurality of retransmitted packets, and reassembles the audio data of a plurality of packets that have been rearranged and divided based on a sequence number or the like to their original positions (S15). The audio receiving apparatus 20 processes and reproduces the reconstructed and reconstructed audio data (S16).

A wireless audio retransmission method according to an embodiment of the present invention will be described with reference to FIGS. 7 to 11. 7 is a flowchart of a wireless audio retransmission method according to an embodiment of the present invention, and FIGS. 8 to 11 illustrate audio data retransmitted by the audio transmitting apparatus 10 and audio data recombined by the audio receiving apparatus 20. It is schematically illustrated.

The wireless audio retransmission method according to the present embodiment relates to a retransmission method in the case that reception of a specific packet is failed after a request for retransmission is first performed due to a failure in reception of a specific packet. In FIG. 7, since S10 to S14 are the same as those of FIG. 6, a description thereof will be replaced with the description of FIG. 6.

Referring to (a) of FIG. 8, in response to the first retransmission request, the audio transmission device 10 rearranges and divides the audio data in the corresponding packet to form a plurality of packets, for example, two packets (audio data 1-1, audio data). It is created as data 1-2) and retransmitted. When it is detected that reception of at least some packets of a plurality of packets transmitted by the audio transmission device 10, for example, audio data 1-2, has failed again (S20), the audio reception device 20 transmits to the audio transmission device 10. Retransmission of the packet is requested (S21).

When a request for retransmission of a packet that has failed to be received is received, the audio transmission apparatus 10 rearranges and divides the order of the audio data in the retransmission-requested audio packet, for example, audio data 1-2 (S22). Then, the divided audio data is generated as a plurality of packets and retransmitted wirelessly (S23).

FIG. 8B shows a plurality of packets transmitted by the audio transmission device 10 divided and rearranged in response to a request for retransmission of audio data 1-2. The audio transmission device 10 includes 2, 4, and Audio data 1-2-1 in which the 2nd, 6th, 10th, and 14th samples are sequentially arranged by mixing and rearranging 8 samples, which are the 6th, 8th, 10th, 12th, 14th, and 16th samples, and 4, 8, 12 , Audio data 1-2-2 in which the 16th sample is sequentially arranged is transmitted.

The audio receiving apparatus 20 receives and unpacks a plurality of retransmitted packets (audio data 1-2-1, audio data 1-2-2), and rearranges and divides audio data of a plurality of packets based on a sequence number, etc. Is recombined to its original position (S24). The audio receiving apparatus 20 processes and reproduces the reconstructed and reconstructed audio data (S25).

Meanwhile, referring to FIG. 9, when at least some of a plurality of packets secondly retransmitted by the audio transmission apparatus 10 fail to receive, for example, when the reception of audio data 1-2-1 fails, the audio receiver 20 Can be reproduced by recombining the order of the audio data only with the received data without requesting retransmission.

In (b) of FIG. 9, when 1-2-1 in which the 2nd, 6th, 10th, and 14th samples are sequentially arranged fails to receive, the audio receiving device 20 recombines only the audio data that has been successfully received based on the sequence number or the like. To generate the original audio data. 9C shows audio data recombined by the audio receiving apparatus 20, and it can be seen that 2, 6, 10, and 14 samples are lost from the original packet. In the present invention, since audio data is rearranged and divided and transmitted during retransmission, it is difficult to recognize data loss when a user listens because audio sample sections lost during restoration are not continuous but intermittently arranged even if some packets fail. Therefore, even if some of the audio data is lost, it is difficult for the user to recognize it, so there is an advantage in that the audio quality is not affected.

Meanwhile, according to another embodiment of the present invention, when at least some of a plurality of packets secondly retransmitted by the audio transmission apparatus 10 fail to receive, the audio data that has failed to be received may be divided and rearranged and transmitted again. Referring to FIG. 10, when reception of audio data 1-2-1 secondly retransmitted by the audio transmission apparatus 10 fails, the audio reception apparatus 20 requests retransmission.

When a request for retransmission of a packet that has failed to be received is received, the audio transmission device 10 rearranges and divides the order of the audio data requested for retransmission, e.g., audio data 1-2-1, to generate a plurality of packets and wirelessly Retransmit. FIG. 10C shows a plurality of packets divided and rearranged by the audio transmission device 10 and retransmitted for the third time in response to a request for retransmission of audio data 1-2-1, and the audio transmission device 10 Audio data 1-2-1-1 including the 2nd and 10th samples and audio data 1-2- including the 6th and 14th samples by mixing and rearranging 4 samples, which are the 2nd, 6th, 10th, and 14th samples. Transfer 1-2.

The audio receiving apparatus 20 receives and unpacks a plurality of retransmitted packets (audio data 1-2-1-1, audio data 1-2-2-1), and rearranges and divides a plurality of The audio data of the packet is recombined to the original position to generate and reproduce the original audio data as shown in Fig. 10C.

Meanwhile, referring to FIG. 11, when at least some of the plurality of packets that the audio transmission device 10 has thirdly retransmitted have failed to receive, for example, when the reception of audio data 1-2-1-2 has failed, the audio receiving device (20) can reproduce the sequence of audio data by recombining only the received data without requesting retransmission.

In (c) of FIG. 11, when the reception of 1-2-1-2 in which the 6th and 14th samples are sequentially arranged is unsuccessful, the audio receiving apparatus 20 recombines only the currently successfully received audio data Generate original audio data. 11D shows audio data recombined by the audio receiving apparatus 20, and it can be seen that 6 and 14 samples of the original audio data have been lost. In the present invention, since audio data is rearranged and divided and transmitted during retransmission, even if some packets fail, the lost audio sample section is not continuous and intermittent, so even if some audio data is lost, audio quality is not significantly affected.

When the audio receiving apparatus 20 fails to re-receive the same packet, the number of times to request retransmission may be set in advance, or may be adaptively determined according to reproduction time information of the packet. In addition, when the audio receiving apparatus 20 fails to receive some packets and recombines only the successfully received packets to generate original audio data, the lost audio data may be interpolated and processed. In this case, the audio receiving apparatus 20 may further include a data interpolation unit implemented as an algorithm for interpolating lost data from the audio data recombined by the audio recombination unit 27.

The audio transmission apparatus 10 according to another embodiment of the present invention includes a first retransmission method for retransmitting a packet corresponding to the retransmission request as it is, according to the communication quality of the wireless transmitter 17, when a retransmission request is received, and retransmission. The retransmission method may be determined as one of the second retransmission methods in which the order of audio data in the packet corresponding to the request is rearranged, divided into a plurality of packets, and transmitted. In the first retransmission method of retransmitting the packet as it is, the entire data must be retransmitted even when some data in the packet is lost, not the entire data, so if the wireless environment is not good, the probability of finally retransmitting again is high.

Therefore, the transmission processing unit 15 of the audio transmission apparatus 10 according to the present invention periodically checks the signal strength of a wireless communication environment, such as a wireless network, or calculates an audio data transmission failure rate, so that the quality of the wireless communication is determined by a certain standard. If the value is better than the value, the first retransmission method may be selected as it is, and if the wireless communication quality is less than a predetermined reference value, the second retransmission method may be selected by dividing and rearranging the audio data.

The wireless transmitter 17 measures a signal strength of a wireless network, for example, a received signal strength indication (RSSI), and the transmission processor 15 may select a retransmission method by checking the RSSI or calculating a transmission failure rate.

Furthermore, the transmission processing unit 15 of the audio transmission device 10 periodically checks the signal strength of a wireless communication environment, such as a wireless network, or calculates an audio data transmission failure rate, and responds to a retransmission request according to the wireless communication quality. It is possible to determine the number of divisions of retransmitted packets.

For example, when the wireless communication quality is higher than the first reference value, the transmission processing unit 15 of the audio transmission device 10 divides it into two packets, and when the wireless communication quality is a second reference value to a first reference value, the transmission processing unit 15 is divided into three packets. When the wireless communication quality is the third reference value to the second reference value, it may be divided into four packets (here, the first reference value> the second reference value> the third reference value).

As described above, the audio transmission apparatus 10, the wireless audio system 1, and the wireless audio retransmission method according to the present invention are transmitted by rearranging and dividing the data and transmitting it as a plurality of packets when data transmission fails and retransmits. It is possible to reduce the wireless transmission load by reducing the size of data and increase the data transmission success rate.

On the other hand, the method of operating the audio transmitting apparatus 10 and the audio receiving apparatus 20 of the present invention is read by the processor on a recording medium that can be read by the processor provided in the audio transmitting apparatus 10 and the audio receiving apparatus 20. It is possible to implement it as possible code. The processor-readable recording medium includes all types of recording devices that store data that can be read by the processor. Examples of recording media that can be read by the processor include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc., and also include those implemented in the form of carrier waves such as transmission through the Internet. . In addition, the recording medium readable by the processor may be distributed over a computer system connected through a network, so that code readable by the processor may be stored and executed in a distributed manner.

In addition, although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. In addition, various modifications are possible by those of ordinary skill in the art, and these modifications should not be understood individually from the technical spirit or prospect of the present invention.

Claims

An audio transmission device for re-transmitting an audio packet by wirelessly rearranging the order of audio data in the audio packet requested for retransmission, dividing it into a plurality of packets, when a retransmission request of an audio packet is received; And

If reception of the audio packet transmitted by the audio transmission device fails, requesting retransmission of the audio packet, recombining and reproducing the audio data divided into the plurality of packets retransmitted by the audio transmission device to an original position A wireless audio system comprising at least one audio receiving device.
The method of claim 1,

Wherein the audio transmission apparatus extracts the audio data in the audio packet requested for retransmission according to a preset rule, rearranges the order, divides it into a plurality of groups, and generates a plurality of packets.
The method of claim 1,

Wherein the audio transmission device divides the audio data in the audio packet requested for retransmission into a plurality of groups and rearranges the order of the audio data in the packet according to a preset rule to generate a plurality of packets. .
The method according to claim 2 or 3,

The audio transmission apparatus, when a retransmission request is re-received for at least one of the plurality of retransmitted packets, rearranges the order of the audio data in the retransmission request packet, divides it into a plurality of packets, and retransmits it. Audio system.
The method according to claim 2 or 3,

The audio transmission apparatus rearranges the first retransmission method for retransmitting the packet corresponding to the retransmission request as it is and the order of the audio data in the packet corresponding to the retransmission request according to the communication quality of the wireless transmitter, and divides it into a plurality of packets. A wireless audio system, characterized in that the retransmission method is determined by one of the second retransmission methods to be transmitted.
The method of claim 4,

And the audio transmission apparatus determines the number of divisions of packets to be retransmitted in response to a retransmission request according to the communication quality of the radio transmission unit.
The method according to claim 2 or 3,

In response to a retransmission request, when at least one of a plurality of packets retransmitted by the audio transmission device fails to receive, the audio receiving device recombines the audio data of the received packet in the original order and reproduces only the audio data that has been successfully received. A wireless audio system, characterized in that.
The method according to claim 2 or 3,

When receiving at least one of the plurality of packets retransmitted by the audio transmission device fails in response to a retransmission request, the audio receiving device reassembles the audio data of the received packet in the original order and recovers the lost audio data. A wireless audio system characterized in that the interpolation is reproduced.
An audio processing unit that processes audio data to be transmitted;

An audio dividing unit rearranging and dividing the order of audio data in the packet;

A transmission processing unit that generates the audio data processed by the audio processing unit as packets;

A wireless transmitter that modulates the packet to generate an RF signal and transmits the generated RF signal; And

When a packet retransmission request is received from an audio receiving device, the transmission processing unit controls the audio division unit to divide and rearrange the audio data in the retransmission-requested packet, and the transmission processing unit divides and rearranges the audio data into a plurality of packets. And retransmitting through the wireless transmission unit.
An audio processing unit for signal processing of audio data to be transmitted;

An audio dividing unit rearranging and dividing the order of audio data in the packet;

A transmission processing unit that generates the audio data processed by the audio processing unit as a packet; And

And a wireless transmitter for generating an RF signal by modulating the packet and transmitting the generated RF signal;

The transmission processing unit is a first retransmission method in which the packet corresponding to the retransmission request is retransmitted as it is according to the communication quality of the wireless transmission unit, and the audio division unit rearranges and divides the order of the audio data in the packet corresponding to the retransmission request to a plurality of The audio transmission apparatus, characterized in that the retransmission of the packet is processed by any of the second retransmission methods of retransmitting the packet of
The method of claim 9 or 10,

And the transmission processing unit determines the number of a plurality of packets to be divided and generated in response to a retransmission request based on the communication quality of the wireless transmission unit.
When a packet retransmission request is received from the audio receiving apparatus, dividing and rearranging the audio data of the retransmission request packet;

Generating the divided and rearranged audio data into a plurality of packets; And

And generating an RF signal by modulating the plurality of packets and transmitting the generated RF signal.
Measuring communication quality;

A first retransmission method for retransmitting a packet corresponding to a retransmission request as it is based on the measured communication quality, and a second retransmission method for retransmitting a plurality of packets by rearranging and dividing the order of audio data in a packet corresponding to the retransmission request. Determining a retransmission method by any one of them; And

And processing and retransmitting the packet requested for retransmission based on the determined retransmission method when a packet retransmission request is received from the audio receiving apparatus.
The method of claim 12 or 13,

When the audio receiving apparatus receives a plurality of packets corresponding to a retransmission request, recombining the audio data divided into the plurality of packets to generate original audio data; And

And processing and reproducing the recombined audio data.