KR101958455B1 - Apparatus for network audio transmitter - Google Patents

Abstract

According to an embodiment of the present invention, a network audio transmitting apparatus comprises: an audio transmitter for receiving an audio input through a microphone to perform network transmission on the audio to an audio receiver having a preset audio receiving IP address through a LAN port; the audio receiver for receiving the audio from the audio transmitter through a network to output the audio through a speaker; and a network for individually transferring the audio transmitted through the audio transmitter to the audio receiver having the set audio receiving IP address through the network.

Description

Apparatus for network audio transmitter

The present invention relates to a network audio transmission apparatus, and more particularly, to a network audio transmission apparatus for transmitting audio in real time via a network.

Generally, there are broadcasting equipment such as a tuner, a CD player, an audio player, an audio component, and a microphone, which can reproduce and output sound. In addition, each component of the broadcasting equipment functions as an individual reproduction device.

Speakers are connected to such broadcasting equipment so that sound output is performed in real time.

To this end, as shown in FIG. 1, a floor speaker is connected in series with a broadcast equipment.

However, as shown in Fig. 1, since the layered speakers must be connected in series, there is a problem that cables and installation costs are excessively increased.

In addition, there is a problem that cable construction cost increases due to interlayer interconnection at the time of adding or changing a speaker.

Also, there is a problem that the cost of construction increases in a high-rise or large-scale complex building.

Korean Patent Publication No. 10-2006-0059147

An object of the present invention is to provide a network audio transmitting means for transmitting analog audio in real time through a network while making maximum use of existing broadcasting equipment.

An audio transmitter for receiving audio input through a microphone and transmitting the audio through a LAN port to an audio receiver having a preset audio receiving IP address; An audio receiver for receiving audio from the audio transmitter through a network and outputting the audio through a speaker; And a network for transmitting audio transmitted through the audio transmitter to an audio receiver having a set audio IP address through a network.

The audio transmitter includes at least one audio input channel through which audio input through a microphone is input; A LAN port into which a network terminal connected to the network is inserted; An audio receiving IP address database in which one or more audio receiving IP addresses are registered; And an audio transmission processing unit for sampling the audio inputted through the audio input channel and transmitting the sampled audio data to an audio receiver having an audio receiving IP address registered in the audio receiving IP address database through the LAN port; . ≪ / RTI >

The audio transmission processing unit samples the first sampling data sampled as the first sampling period as a second sampling period larger than the first sampling period and samples the second sampling data as a second sampling data having a data size larger than that of the first sampling data Can be characterized.

The audio transmitter periodically monitors a network communication speed with a registered audio receiving IP address and transmits the first sampling data to an audio receiver having an audio receiving IP address whose communication speed is lower than the reference speed , And the second sampling data may be transmitted to an audio receiver having an audio receiving IP address whose communication speed is higher than or equal to the reference speed.

And a user terminal connected to the audio transmitter by wire or wireless communication and configured to transmit the audio IP address to the audio transmitter after being set by the user.

The user terminal sets volume information for each audio IP address received from the user and transmits the volume information to the audio transmitter. The audio transmitter transmits volume information set for each audio IP address to each audio IP address And each of the audio receivers can control to output through the speaker as a volume magnitude matched to the received volume information.

The audio receiver may measure the noise level of the surroundings of the audio receiver and may increase or decrease the volume level corresponding to the volume level information received from the audio leveler according to the noise level.

According to the embodiment of the present invention, audio is received through a network from a broadcasting device provided for each layer and provided in another layer, and outputted through a speaker, so that a cable installation ratio for layer speaker connection is not consumed. In addition, interlayer interlocking is unnecessary, and it is possible to add and change the speaker easily.

1 is a configuration diagram of a conventional audio transmission apparatus.
2 is a configuration diagram of a network audio transmission apparatus according to an embodiment of the present invention;
3 is a front view of an audio transmitter according to an embodiment of the present invention.
4 is a block diagram of a configuration of an audio transmitter according to an embodiment of the present invention;
5 is a front view of an audio receiver according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating an audio receiver provided for each layer according to an embodiment of the present invention. FIG.
7 is a view illustrating an IP address setting screen of a user terminal according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

FIG. 3 is a front view of an audio transmitter according to an embodiment of the present invention. FIG. 4 is a block diagram of a configuration of an audio transmitter according to an embodiment of the present invention. FIG. 5 is a front view of an audio receiver according to an embodiment of the present invention. FIG. 6 is a diagram illustrating an audio receiver provided in each layer according to an embodiment of the present invention. FIG. 4 is a diagram illustrating an IP address setting screen of a user terminal according to an embodiment of the present invention.

The network audio transmission apparatus of the present invention is an apparatus for network transmission of analog audio in real time while utilizing existing equipment as much as possible and is composed of audio transmission means Tx and audio reception means Rx and can be remotely controlled.

To this end, the network audio transmission apparatus of the present invention may include a network 10, an audio transmitter 100, and an audio receiver 200 as shown in FIG.

The network 10 is a communication network that transmits audio transmitted through the audio transmitter 100 to an audio receiver 200 having a set audio IP address through a network. Therefore, the network 10 can perform data communication according to an Internet protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol).

The audio transmitter 100 receives the audio inputted through the microphone and transmits the audio to the audio receiver 200 having the predetermined audio receiving IP address through the LAN port 120. [

The main features of the audio transmitter 100 will be summarized as follows.

Transmits -1ch, 2ch analog audio signals to the network in real time

-16bit / 32kHz, 32bit / 64kHz sampling to process CD sound quality

- Signal to noise ratio 92dB

Easy IP configuration using Web

-1: 1 or 1: N transmission / reception method

Remote control via TCP / IP protocol

- 1: N multicast in LAN environment

3 and 4, the audio transmitter 100 includes an audio input channel 110, a LAN port 120, an audio reception IP address database 130, and an audio transmission processing unit 140 .

The audio input channel 110 is at least one provided input channel to which audio input through a microphone is input. For example, a first input channel to which the left audio is input, and a second input channel to which the right audio is input.

The LAN port 120 is a port into which a network terminal connected to the network 10 is inserted. A network terminal capable of processing TCP / IP protocol communication can be inserted into the LAN port 120 and connected to the network 10. [

The audio receiving IP address database 130 is a database (DB) in which one or more audio receiving IP addresses are registered. For example, if the first audio receiver 200 has an IP address of 192.124.100.1, the second audio receiver 200 has an IP address of 192.124.100.2, and the third audio receiver 200 has an IP address of 192.124.100.1. 100.3, the fourth audio receiver 200 has an IP address of 192.124.100.4, the fifth audio receiver 200 has an IP address of 192.124.100.5, and the sixth audio receiver 200 Is intended to transmit audio only to the second audio receiver 200 and the fifth audio receiver 200 when the second audio receiver 200 has an IP address of 192.124.100.6, Address and the 192.124.100.5 IP address of the fifth audio receiver are registered and stored in the audio receiving IP address database 130.

For reference, the storage body in which the audio reception IP address database 130 is stored includes a flash memory, a CF card, an SD card (Secure Digital Card), an SM card (Smart Media Card), an MMC A module capable of inputting and outputting information such as a card (Multi-Media Card) or a memory stick, or the like, or may be provided in a separate apparatus.

The audio transmission processing unit 140 samples the audio inputted through the audio input channel 110 and outputs the sampled audio data to an audio receiver having an audio receiving IP address registered in the audio receiving IP address database 130 200 via the LAN port 120. [ In sampling audio, various sampling processes such as 16 bit / 32 kHz, 32 bit / 64 kHz can be performed.

The audio receiver 200 delivers the audio transmitted through the audio transmitter 100 to the audio receiver 200 having the set audio IP address through the network. Accordingly, the audio receiver 200 includes a LAN port 120 for receiving audio through a network as shown in FIG. 5, and an audio output channel connected to the speaker.

As a result, the network audio transmission apparatus of the present invention is provided for each layer as shown in FIG. 6, receives audio through a network from a broadcasting apparatus provided in another layer, and outputs the audio through the speaker, It is not consumed. In addition, interlayer interlocking is unnecessary, and it is possible to add and change the speaker easily. Higher buildings or large complex buildings do not increase the construction cost.

On the other hand, in order to transmit an audio signal sampled at a high frequency in real time, an audio signal transmitted through the Internet or a wireless network requires a larger amount of data per unit time as the sampling frequency is higher. Is required to be high.

However, as the transmission speed of the required network is higher, data loss due to overload of the network or frequent occurrence of electromagnetic noise (noise) frequently occurs. Therefore, if such audio data is transmitted in real time through the Internet, Therefore, there is a phenomenon in which audio is intermittently cut off during audio reproduction.

Therefore, it is necessary to transmit the audio data amount considering the network speed at the time of audio transmission.

To this end, the audio transmission processing unit 140 samples the first sampling data sampled as the first sampling period, the second sampling period which is larger than the first sampling period, and outputs the second sampling period as the second sampling period, And samples it as sampling data.

Therefore, the audio transmitter 100 periodically monitors the network communication speed with the registered audio receiving IP address, and notifies the audio receiver 200 of the audio receiving IP address having the network communication speed lower than the reference speed, 1 sampling data, and transmits the second sampling data to the audio receiver 200 having the audio receiving IP address whose communication speed is higher than or equal to the reference speed.

For example, after sampling the audio inputted through the microphone in the form of first sampling data sampled at 32 bits and second sampling data sampled at 64 bits, the first sampling data having a communication speed lower than the reference speed The audio of the 32-bit sampling data is transmitted to the audio receiver 200, and the audio of the 64-bit sampling data is transmitted to the second audio receiver 200 having the communication speed equal to or greater than the reference speed, It is possible to prevent the disconnection phenomenon.

Meanwhile, one or more audio receiving IP addresses for receiving audio are registered and stored in the audio receiving IP address database 130, and such audio receiving IP addresses can be configured to be set through a user terminal. That is, the user terminal sets the audio receiving IP address from the user and transmits the audio receiving IP address to the audio transmitter 100. 7A is a diagram illustrating a screen of a user terminal receiving an audio IP address for receiving audio from the audio transmitter 100. FIG. FIG. 2 is a diagram illustrating an example of a screen of a user terminal that sets up a user terminal.

Here, the user terminal will be described as an example of a smart phone, but may be a smart phone, a desktop PC, a tablet PC, a slate PC, a notebook computer, a digital A broadcast terminal, a PDA (Personal Digital Assistants), a PMP (Portable Multimedia Player), a navigation, and the like. Of course, it is needless to say that the terminal to which the present invention is applicable is not limited to the above-described type, but may include both terminals capable of communicating with external devices.

In addition, the user terminal is connected to the audio transmitter 100 through wired or wireless communication, and includes an Ethernet, a universal serial bus, an IEEE 1394, a serial communication and a parallel communication, A wireless communication method such as Infrared Radiation, Bluetooth, Home Radio Frequency (RF), and Wireless LAN may be used.

6, an audio receiver 200 connected to each layer via a network LAN is provided. The audio receiver 200 of each layer controls the volume of a speaker connected to the audio receiver 200, have.

To this end, the user terminal sets volume information for each audio IP address and transmits the volume information to the audio transmitter 100.

The audio transmitter 100 transmits the volume information set for each audio IP address to the audio receiver 200 of each audio IP address at the time of audio transmission. Each audio receiver 200 receives the volume information As a volume magnitude matched to the speaker.

Accordingly, the first audio receiver arranged on the first floor controls to output the first audio through a speaker provided on the first floor, and the audio second receiver provided on the second floor controls the third And the third audio receiver arranged on the third floor can be controlled to output the first and third volumes through a speaker provided on the third floor at a second volume which is an intermediate volume between the first volume and the third volume.

Accordingly, the user can control the magnitude of the volume of the audio received through the network from the remote audio transmitter 100 through the user's own smartphone by varying the volume for each layer and by controlling the desired magnitude.

Further, the audio receiver 200 measures the noise level of the surroundings of the installed audio receiver 200, and increases or decreases the volume level matched to the volume level information received from the audio transmitter 100 according to the noise level Can be implemented.

For example, when the first layer is very noisy as a food store and the second layer is quiet as a bookstore, the first layer noise level is measured through a decibel meter installed on the first layer, and a decibel meter Layer speaker is controlled by the first-layer audio receiver to output the second-level sound level in the speaker provided in the first layer with a large noise, and the speaker provided in the second layer, which is relatively low in noise, And the second audio receiver controls the two-layer audio output so as to output the first audio volume smaller than the second volume.

Therefore, the audio receiver 200 provided in each layer automatically adjusts the broadcasting volume magnitude according to the noise of the corresponding layer at that time, and outputs the adjusted broadcasting volume magnitude, so that it is possible to easily create an environment in which the people in each floor can listen to the broadcasting .

The embodiments of the present invention described above are selected and presented in order to facilitate the understanding of those skilled in the art from a variety of possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

100: Audio transmitter
110: Audio input channel
120: LAN port
130: Audio receiving IP address database
140: Audio transmission processing unit
200: Audio receiver

Claims (7)

An audio transmitter for receiving audio input through a microphone and transmitting the audio signal through a LAN port to an audio receiver having a preset audio receiving IP address;
An audio receiver for receiving audio from the audio transmitter through a network and outputting the audio through a speaker; And
And a network for delivering audio transmitted through the audio transmitter to an audio receiver having a set audio IP address through a network,
The audio transmitter includes:
At least one audio input channel through which audio inputted through a microphone is input;
A LAN port into which a network terminal connected to the network is inserted;
An audio receiving IP address database in which one or more audio receiving IP addresses are registered; And
And an audio transmission processing unit for sampling the audio inputted through the audio input channel and transmitting the sampled audio data to an audio receiver having an audio receiving IP address registered in the audio receiving IP address database through the LAN port However,
The audio transmission processing unit
The first sampling data obtained by sampling audio as a first sampling period and the second sampling period greater than the first sampling period are sampled to generate second sampling data having a data size larger than that of the first sampling data Characterized by
Network audio transmission device.
delete delete The audio transmitter of claim 1,
The network communication speed with the registered audio receiving IP address is periodically monitored,
Transmitting the first sampling data to an audio receiver of an audio receiving IP address having a network communication speed lower than a reference speed,
And transmits the second sampling data to an audio receiver having an audio receiving IP address whose communication speed is higher than or equal to a reference speed.
The method according to claim 1,
A user terminal connected to the audio transmitter through a wired or wireless communication, the user terminal configured to receive the audio IP address from the user and transmit the audio IP address to the audio transmitter;
And a network audio transmission device.
The method of claim 5,
Wherein the user terminal sets volume information for each audio IP address received from the user and transmits the volume information to the audio transmitter,
The audio transmitter transmits the volume information set for each audio IP address to the audio receiver of each audio IP address at the time of audio transmission,
And each of the audio receivers controls to output through the speaker as a volume magnitude matched to the received volume information.
The method of claim 6,
Wherein the audio receiver measures the noise level of the surroundings of the audio receiver and increases or decreases the volume level matched to the volume level information received from the audio level transmitter according to the noise level.

Images