KR101418880B1 - Wireless interphone system - Google Patents

Abstract

The present invention relates to a wireless interphone system that enables bidirectional real-time voice communication while conforming to ZigBee wireless communication standard protocol by compressing and transmitting a voice signal to a size suitable for ZigBee wireless transmission.

A first interphone 200 for receiving a compressed voice signal transmitted by the lobby phone 100 and performing routing for retransmitting the voice signal transmitted by the lobby phone 100, And a second interphone 300 for receiving and decompressing the compressed voice signal routed by the first interphone 200 and outputting the decompressed voice signal.

Interphone, ZigBee, standard, compression, voice signal

Description

[0001] WIRELESS INTERPHONE SYSTEM [0002]

The present invention relates to a wireless interphone system, and more particularly, to a wireless interphone system that enables bi-directional real-time voice communication while complying with a ZigBee wireless communication standard protocol by compressing and transmitting a voice signal to a size suitable for ZigBee wireless transmission .

Zigbee communication is one of the technologies for ubiquitous computing as short-distance wireless communication. ZigBee is a technology developed with the goal of low cost, low power, stability, security and high applicability. It is made up of zigzag and zigzag, which is a compound word of bee which is the most efficient communication. This makes it possible to efficiently control many network nodes by installing them simply and inexpensively, and is becoming an economical solution that can last from months to years with a battery alone.

The standardization efforts for this ZigBee continued, and the standardization was established by the ZigBee Alliance in December 2004. The ZigBee Alliance is a combination of companies working together to realize wireless networks that enable low-cost, low-power consumption based on IEEE 802.15.4.

The data transmission rate according to the IEEE 802.15.4 standard standardized by the ZigBee Alliance is 250 Kbps. This speed is high speed, which is not problematic for signal transmission related to general monitoring control, but is insufficient for transmission of multimedia signals such as voice and image.

On the other hand, the conventional Zigbee voice communication method has no problem in use in the case of one-to-one communication, but has a problem in that it can not be used in an environment in which voice is received and retransmission is performed in multicasting of one-to-N environment.

Accordingly, even in accordance with the IEEE 802.15.4 ZigBee standard, a technique capable of transmitting a high capacity multimedia signal is required.

On the other hand, a speed of about 128 Kbps, which is a normal voice signal transmission rate, is suitable for one-to-one voice communication, but it is not suitable for implementing the routing function inherent in ZigBee.

Therefore, there is a need for a technology that enables voice routing while conforming to the IEEE 802.15.4 ZigBee standard.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a method and apparatus for transmitting and receiving a voice signal by compressing and transmitting a voice signal at a high rate, And to provide a wireless intercom system capable of supporting functions.
Another problem to be solved by the present invention is to provide a voice communication system including a lobby phone for compressing and transmitting an input voice signal at a high rate, a first interphone for receiving a compressed voice signal transmitted by a lobby phone, And a second interphone for receiving and decompressing the compressed voice signal routed by the first interphone and outputting the decompressed voice signal.
Another problem to be solved by the present invention is to provide a wireless interphone system in which a second interphone is provided with a decompression unit to decompress a wirelessly received voice signal and output it.

According to an aspect of the present invention, there is provided a mobile communication system including a lobby phone (100) for compressing and transmitting an input voice signal at a high rate, a receiving unit for receiving a compressed voice signal transmitted by the lobby phone And a second interphone (200) for receiving and decompressing the compressed voice signal routed by the first interphone (200) and outputting the decompressed voice signal 300) is provided.

The lobby phone 100 includes an A / D converter 110 for converting the input voice signal into a digital signal and outputting the digital signal, a compression unit for compressing and outputting the output signal of the A / D converter 110 130 and a wireless transmission / reception unit 150 for wirelessly transmitting an output signal of the compression unit 130. [

The compression of the compression unit 130 may be performed by a compression algorithm using a G.729 or G.729a codec.

The transmission of the WTRU 150 may be performed by the Zigbee communication method in the 2.4 GHz band according to the IEEE802.15.4 ZigBee standard communication protocol.

The second interphone 300 includes a wireless transmission / reception unit 350 for receiving a compressed voice signal routed by the first interphone 200, a compression / decompression unit 350 for compressing the voice signal received by the wireless transmission / And a D / A converter 390 for converting the output signal of the decompression unit 330 into an analog signal and outputting the converted analog signal.

The decompression of the decompression unit 130 may be performed by a compression algorithm using the G.729 or G.729a codec.

The reception of the WTRU 350 may be performed by the Zigbee communication method in the 2.4 GHz band conforming to the IEEE802.15.4 ZigBee standard communication protocol.

According to the wireless interphone system of the present invention, voice signals can be compressed and transmitted at a high rate, thereby enabling bidirectional voice transmission while supporting the routing function while obeying the Zigbee wireless communication standard protocol.
According to another aspect of the present invention, there is provided a mobile communication terminal including a lobby phone for compressing and transmitting an input voice signal at a high rate, a first interphone for performing a routing for receiving a compressed voice signal transmitted by the lobby phone and retransmitting the compressed voice signal, And a second interphone for receiving and decompressing the compressed voice signal routed by the second interphone and outputting the decompressed voice signal.
Further, in the present invention, the second interphone includes a decompression unit, and decompresses the voice signal received wirelessly and outputs the decompressed voice signal.

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

1 is a configuration diagram showing a schematic configuration of a wireless interphone system according to an embodiment of the present invention.

As shown in FIG. 1, the wireless interphone system of the present invention includes a lobby phone 100, a first interphone 200, and a second interphone 300.

The lobby phone 100 is an interphone installed in the entrance lobby of a multi-family house and functions as a coordinator. The voice signal input to the lobby phone 100 may be compressed and then transmitted to the first interphone 200 and the second interphone 300. [ Conversely, a voice signal input to the first interphone 200 or the second interphone 300 may be transmitted to the lobby phone 100 and output.

The first interphone 200 is an interphone located in the route of voice transmission when the voice signal inputted to the lobby phone 100 is finally transmitted to the second interphone 300 and functions as a router. The first interphone 200 can also output voice signals transmitted from the lobby phone 100 or the second interphone 300 through a speaker or the like.

The second interphone 300 is an interphone through which a voice signal input to the lobby phone 100 is finally transmitted. The voice signal compressed and transmitted by the lobby phone 100 may be decompressed and output by the second interphone 300. [

Meanwhile, in the wireless interphone system of the present invention, the first interphone 200 may function as both an interphone and a router, but may further include a dedicated router 400 performing only a function of a router.

2A and 2B are block diagrams showing internal configurations of a lobby phone 100 and a second interphone 300 in the wireless interphone system of FIG.

2A, the lobby phone 100 includes an A / D conversion unit 110, a compression unit 130, a wireless transmission / reception unit 150, a CPU (Central Processing Unit) 170, and a D / Unit 190, as shown in FIG.

The A / D conversion unit 110 converts the analog voice signal input through the microphone into a digital signal, and outputs the converted voice signal to the compression unit 130.

The compression unit 130 compresses the digital voice signal using a predetermined compression algorithm. As the compression algorithm, a G.729a codec can be used. The G.729a codec is a modification of the G.729 codec to improve the performance of the G.729 codec and is based on a CS-ACELP (Conjugate-Structure Algebraic-Code-Excited Linear-Prediction) -Excited Linear-Prediction) Based on the model, it generates 80 voice frames every 10ms with a sampling rate of 8000 per second. Since the compression algorithm using the G.729 and G.729a codecs is a known technology, a detailed description thereof will be omitted.

The wireless transceiver unit 150 receives a voice signal compressed by the compression unit 130 or a voice signal that has been compressed by the compression unit 130 and then subjected to predetermined data processing by the CPU 170 and wirelessly transmits the voice signal. Wireless transmission can be performed by the Zigbee communication method in the 2.4 GHz band conforming to the IEEE802.15.4 ZigBee standard communication protocol. The voice signal transmitted by the wireless transceiver unit 150 may be received by the first interphone 200, the second interphone 300, or the dedicated router 400.

Meanwhile, the wireless transceiver unit 150 may receive a voice signal from the first interphone 200 or the second interphone 300. In this case, the compression unit 130 can decompress the speech signal transmitted by the wireless transmission / reception unit 150, and the decompressed speech signal is converted into an analog signal by the D / A conversion unit 190, And the like. The decompression may also be performed using a G.729 or G.729a codec based on the CS-ACELP scheme.

2B, the second interphone 300 includes an A / D conversion unit 310, a decompression unit 330, a wireless transmission / reception unit 350, a CPU 370, and a D / Unit 390, as shown in FIG.

The wireless transceiver unit 350 receives the voice signal transmitted from the lobby phone 100 or the first interphone 200. Data communication by the wireless transceiver unit 350 can be performed by the Zigbee communication system of the 2.4 GHz band conforming to the IEEE802.15.4 ZigBee standard communication protocol. The voice signal received by the wireless transceiver unit 350 may be transmitted to the CPU 370 and subjected to predetermined data processing before being sent to the decompression unit 330 or directly to the decompression unit 330.

The decompression unit 330 decompresses the compressed speech signal transmitted from the lobby phone 100 or the first interphone 200. The decompression may be performed using a predetermined compression algorithm, and G.729 or G.729a may be used as the compression algorithm. The voice signal decompressed by the decompression unit 330 is input to the D / A conversion unit 390.

The D / A converter 390 converts the decompressed digital voice signal to an analog signal, and the converted voice signal can be output through means such as a speaker.

The voice signal input from the microphone or the like of the second interphone 300 may be transmitted to the lobby phone 100 or the first interphone 200. In this case, The compressed voice signal may be transmitted to the lobby phone 100 or the first interphone 200 through the wireless transmission /

Meanwhile, the first interphone 200 functions as a router in Zigbee wireless communication between the lobby phone 100 and the second interphone 300, and the internal structure that performs the main functions as a router is the Zigbee communication The configuration of the router is substantially the same as that of the router, and a detailed description thereof will be omitted. However, the first interphone 200 may also include a microphone, a speaker, a decompression unit, and the like in the same manner as the second interphone 300, and may receive voice signals from the lobby phone 100, (300) or the like.

The wireless interphone system according to the present invention compresses a voice signal to a size suitable for ZigBee wireless transmission and transmits the voice signal to a bidirectional real time voice communication while obeying the ZigBee wireless communication standard protocol.

Further, since the first interphone functions as a routing, a separate router is not required.

Although the present invention has been described in connection with the specific embodiments of the present invention, it is to be understood that the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. In addition, each of the components described herein can be readily selected and substituted for various components known to those skilled in the art. Those skilled in the art will also appreciate that some of the components described herein can be omitted without degrading performance or adding components to improve performance. Therefore, the scope of the present invention should be determined by the appended claims and equivalents thereof, not by the embodiments described.

1 is a configuration diagram showing a schematic configuration of a wireless interphone system according to an embodiment of the present invention.

FIG. 2A is a configuration diagram illustrating an internal configuration of a lobby phone in the wireless interphone system of FIG. 1;

2B is a configuration diagram showing an internal configuration of a second interphone in the wireless interphone system of FIG.

Description of the Related Art

100: lobby phone 200: first intercom

300: second interphone 110, 310: A / D converter

130 compression section 330 compression section

150, 350: wireless transmitting / receiving unit 170, 370: CPU

190, 390: D / A conversion section

Claims (7)

A lobby phone 100 for compressing and transmitting an input voice signal at a high rate; A first interphone 200 for receiving a compressed voice signal transmitted by the lobby phone 100 and performing routing for retransmitting the compressed voice signal; And And a second interphone (300) for receiving and decompressing the compressed voice signal routed by the first interphone (200) and outputting the decompressed voice signal, The second interphone 300, A wireless transceiver (350) for receiving a compressed voice signal routed by the first interphone (200); A decompression unit 330 for decompressing and outputting the voice signal received by the wireless transceiver unit 350; And And a D / A conversion unit (390) for converting the output signal of the decompression unit (330) into an analog signal and outputting the analog signal. The mobile communication terminal of claim 1, wherein the lobby phone (100) An A / D converter 110 for converting the input audio signal into a digital signal and outputting the digital signal; A compression unit 130 for compressing and outputting the output signal of the A / D conversion unit 110; And And a wireless transmission / reception unit (150) for wirelessly transmitting an output signal of the compression unit (130). 3. The method of claim 2, The compression of the compression unit (130) is performed by a compression algorithm using a G.729 or G.729a codec. 3. The method of claim 2, Wherein the transmission of the wireless transceiver (150) of the lobby phone (100) is performed by a Zigbee communication method in the 2.4 GHz band conforming to the IEEE802.15.4 ZigBee standard communication protocol. delete The method according to claim 1, The decompression of the decompression unit 130 is performed by a compression algorithm using a G.729 or G.729a codec. The method according to claim 1, Wherein the reception of the wireless transceiver unit (350) is performed by a Zigbee communication method in the 2.4 GHz band conforming to IEEE802.15.4 Zigbee standard communication protocol.

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