KR20090056338A - Mobile phone and method for optimizing wireless headset - Google Patents

Abstract

A portable terminal for optimizing a cordless headset and a method therefor are provided to prevent the deterioration of the quality of sound which is changed according to the change of shape or characteristics of the cordless headset. An audio processor(130) processes an audio signal. A memory(160) stores an echo parameter value. The echo parameter values are classified according to the maker and model of each cordless headset(200). A wireless communications module(110) performs the short-distance wireless communication with the cordless headset for the audio signal and control signal. Whenever connecting with the cordless headset, a controller(180) searches the echo parameter value stored in the memory, and performs the control by using an echo parameter value for the confirmed cordless headset.

Description

MOBILE PHONE AND METHOD FOR OPTIMIZING WIRELESS HEADSET}

The present invention relates to a portable terminal and a method for optimizing a wireless headset so as to prevent a deterioration of sound quality that varies according to the shape or product characteristics of the wireless headset.

As the use of mobile devices has become more common, the market for mobile devices has expanded, and as a result, the development of mobile devices with more functions has been rapidly developed, and microphones and speakers can be used without using handsets to provide a more convenient calling environment. Evolving into a wireless headset using.

The wireless headset of the portable terminal transmits and receives a voice signal to a terminal having a communication function such as a cellular phone, a PDA, a laptop, etc. in a short range wireless communication method, so that the user can perform a telephone call even when the user is separated from the portable terminal. As a short range wireless communication method of the wireless headset, the Bluetooth method is widely used, and the use of a miniaturized Bluetooth wireless headset is increasing for convenience of portability and use.

As described above, in the case of a miniaturized Bluetooth wireless headset, the speaker and the microphone are located in close proximity to each other, so that an echo phenomenon occurs severely.

Here, echo refers to a phenomenon in which sound waves emitted from a sound source are reflected on an object surface and are heard again. These echoes are easy to find in everyday life, and there is an echo as a simple one-time reflection. There is a direct sound as opposed to echo. The direct sound refers to a sound that is directly heard without being reflected from an object plane. Hence, echo is sensorically reflected sound that arrives at least about 0.05 seconds later than the direct sound, which sounds indistinguishable from the direct sound. On the other hand, in the interior of a structure with a reflective surface, such as indoors or caves, the reflection is repeated several times, and the directions of the reflected waves are each so complex that it rings. This is an example of multiple echoes, also called reverberation.

In general, in the natural voice communication between a person and a machine, the communication means consisting of the speaker and the microphone should take into account the voice or sound output from the speaker as the microphone. In other words, you need to consider the echo component to make a smooth call. Because, in a full duplex voice call system, if the echo component is not properly removed, the far-end-user speaks with the voice signal of the near-end-user. You will hear it again after a certain time. That is, you may feel like an echo during a call. Due to this phenomenon, people who make a voice call feel heterogeneity in the call and cause inconvenience to the call.

This echo occurs because the far-end talker signal output through the speaker is input to the microphone along with the noise through the reverberation path and transmitted to the far-end talker. As a result, the far-end talker receives unwanted echo signals along with the near-end talker signal. This phenomenon is also called howling phenomenon in communication engineering. In addition, the influence of the echo signal increases in proportion to the magnitude and delay time of the echo signal.

Accordingly, the conventional portable terminal controls the wireless headset with the echo parameter value set at the time of manufacture, estimates the path of the echo signal between the speaker and the microphone, and removes the effect of the noise and the echo signal from the expected signal. Canceller) function.

On the other hand, the echo phenomenon shows a completely different characteristics depending on the position of the microphone and the speaker and the separation distance between each other, it can be variously changed according to the shape or product characteristics of the wireless headset.

Accordingly, the conventional portable terminal removes echo according to a value set at the time of manufacture even when the portable terminal changes in accordance with the shape or product characteristics of the wireless headset, and thus cannot provide high quality call sound quality.

The present invention provides a portable terminal and a method for optimizing a wireless headset so as to prevent a deterioration of sound quality that varies according to the shape or product characteristics of the wireless headset.

According to an aspect of the present invention, there is provided a portable terminal for optimizing a wireless headset, comprising: an audio processor configured to process an audio signal generated by performing a voice call function or an audio file playing function in the portable terminal; The memory unit stores the pre-measured echo parameter values classified into product groups according to each manufacturer and model of the headset, a wireless communication module unit for short-range wireless communication with an audio signal and a control signal with the wireless headset, and the wireless communication module unit And a control unit for retrieving echo parameter values stored in the memory so as to be optimized each time it is connected to the wireless headset having different characteristics, and controlling the echo parameter values for the identified corresponding wireless headset among the echo parameter values. .

In addition, the present invention is a method for optimizing a wireless headset in a mobile terminal, the standby state with the wireless headset, the process of connecting to short-range wireless communication, and measured in advance according to the manufacturer and model of the wireless headset Searching for the echo parameter values stored in the memory unit; checking the echo parameter value for the corresponding wireless headset among the found echo parameter values; and if the echo parameter value for the wireless headset is confirmed, the echo parameter value is used as the echo parameter value. And controlling the wireless headset to be optimized.

According to the present invention made as described above, by controlling the echo parameter value of the corresponding wireless headset among the echo parameter values previously measured according to each manufacturer and model of the wireless headset so as to optimize each time the connection with the wireless headset of different characteristics, By performing echo cancellation to match the audio signal path of the headset, sound quality problems such as echo and howling can be improved.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view illustrating a portable terminal and a wireless headset for optimizing the wireless headset according to an exemplary embodiment of the present invention.

The mobile terminal 100 may use a voice call, a short message service (SMS), a multimedia message service (MMS), and the like by using a mobile communication system. Depending on the subject, you can either shoot a built-in MP3 player or play music based on your needs.

For a personal area network (PAN) between the mobile terminal 100 and the wireless headset 200, the wireless communication module may use a communication method such as Bluetooth, Infrared, Zigbee, or the like. In addition, it is possible to apply a variety of wireless communication modules that can transmit and receive signals by forming a communication channel in other short-range.

In particular, the Bluetooth communication method performs communication using an Industrial Scientific Medical (ISM) band of the 2.4G Hz band. The ISM band has a feature that can be used freely without a license. In addition, the Bluetooth communication method has a guard band of 2M㎐ band below the ISM band and 3.5M㎐ band above the ISM band to prevent interference with other devices. The Bluetooth communication method basically uses a frequency hopping method.

When the echo component of the wireless headset 200 is removed, the mobile terminal 100 may generate a mute of a signal in a call, and thus echo within a range in which a mute of a signal in a call is not generated. It should be set to an appropriate echo parameter that can remove, and by controlling the echo parameter value as described above, it is possible to cope with the echo problem caused by the environment.

To this end, the portable terminal 100 stores the echo parameter values as shown in FIG. 4 so that the portable terminal 100 can control the echo parameters related to the echo of the wireless headset 200.

The wireless headset 200 may remotely control various functions of the portable terminal 100 and may include one or more key input units 210 for setting a mode of wireless communication.

2 is a block diagram illustrating a portable terminal and a wireless headset for optimizing a wireless headset according to an exemplary embodiment of the present invention, and FIG. 3 is a measurement of echo parameter values of the wireless headset according to an exemplary embodiment of the present invention. Illustrated illustration.

As shown in FIG. 2, the wireless headset 200 according to the present invention includes a first wireless communication module 220 and a first wireless communication module 220 for short-range wireless communication with the mobile terminal 100. The received audio signal OUT is output to the speaker SPK 240, and the audio signal IN input through the microphone MIC 250 is transferred to the mobile terminal 100 through the first wireless communication module 220. The first audio processing unit 230 to be transmitted.

The first wireless communication module 220 may use a communication method such as Bluetooth, Infrared, Zigbee, etc., and various wireless radios capable of transmitting and receiving signals by forming a communication channel at a short distance. Communication module can be applied.

The portable terminal 100 for optimizing the wireless headset 200 includes a wireless transceiver 110 for wirelessly transmitting and receiving voice and data signals through a mobile communication network, and a voice call function or audio file reproduction through the wireless transceiver 110. A second audio processor 130 for processing an output audio signal OUT and an input audio signal IN generated by performing a function, etc., and echo parameters previously measured according to each manufacturer and model of the wireless headset 200. Wireless memory having different characteristics through a memory 160 for storing values, a second wireless communication module 170 for short-range wireless communication with the wireless headset 200, and a second wireless communication module 170. In order to optimize the wireless headset 200 whenever it is connected to the headset 200, among the pre-measured echo parameter values according to the make and model of the wireless headset 200, the echo parameter value of the corresponding wireless headset 200 is used. It includes a control unit 180 to control.

The wireless transceiver 110 performs a wireless transceiver function of the mobile terminal. The wireless transceiver 110 includes an RF transmitter for up-converting and amplifying a frequency of a transmitted signal, an RF receiver for low noise amplifying a received signal, and down-converting a frequency of a received signal.

The data processor 120 includes a transmitter for encoding and modulating a signal transmitted from the wireless transceiver 110 and a receiver for demodulating and decoding a received signal. That is, the data processor 220 may be configured of a modem and a codec CODDEC. The codec may include a data codec for processing packet data and an audio codec for processing an audio signal such as voice. Codecs may be separately provided or included in the controller 180.

The second audio processor 130 converts the digital audio signal into an analog audio signal through the audio codec of the data processor 120 and outputs the analog audio signal or converts the analog audio signal generated from the microphone into a digital audio signal through the audio codec. Performs a function of transmitting to the data processor 120.

In this case, the codec may include an amplifier for setting the output gain GAIN of the audio signal. In addition, the codec may be provided separately or included in the controller 180.

The key input unit 140 includes function keys for setting various functions of the portable terminal 100, and also includes a plurality of keys selected and inputted by a user for inputting information, and a key input pressed by the user. Is converted into a predetermined voltage signal and provided to the controller 180.

The display unit 150 displays the current state, each processing and operation state according to the key input from the key input unit 140, and outputs various display data generated in the portable terminal 100.

Here, the display unit 150 may be formed of a liquid crystal display (LCD) or the like. In this case, when the LCD is implemented using a touch screen method, the display unit 150 may operate as an input unit and the controller 180. ) Can be connected.

The memory 160 may include program memory and data memories. The program memory may store programs for controlling a general operation of the portable terminal 100 and programs for controlling the echo canceller 190 according to a preferred embodiment of the present invention. In addition, the data memory temporarily stores data generated while executing programs.

Figure 4 is a graph measuring the echo parameter value according to the make and model of the wireless headset according to an embodiment of the present invention.

As shown in FIG. 3, the memory 160 has wireless characteristics different from those of the mobile terminal 100 due to a measurement configuration for inputting a communication port setting with the wireless headset 200, a measurement start and a measurement end. By connecting the headset 200 and measuring the echo parameter (loss) value according to each manufacturer and model of the wireless headset 200, the wireless headset 200 of FIG. 4 (a) to FIG. 4 (c) is measured. It stores echo parameter values classified into product groups according to each manufacturer and model.

The second wireless communication module unit 170 may use a communication method such as Bluetooth, Infrared, Zigbee, etc., like the first wireless communication module 220, and other communication channels at a short range. It is possible to apply a variety of wireless communication module that can transmit and receive a signal by forming a, a series of operations for short-range wireless communication of the control signal and audio signal through the first wireless communication module 220 of the wireless headset 200 Do this.

The controller 180 controls the overall operation of the mobile terminal 100, and controls the second audio processor 130 to convert the voice data received through the wireless transceiver 110 into an analog output audio signal. The voice call function is controlled by processing the input audio signal IN and transmitting the same through the wireless transceiver 110.

The controller 180 controls the second wireless communication module 170 to maintain a standby state with the first wireless communication module 220 of the wireless headset 200 spaced a predetermined distance apart.

The controller 180 makes each manufacturer and model of the wireless headset 200 in order to optimize the wireless headset 200 each time the second wireless communication module unit 170 connects with the wireless headset 200 having different characteristics. As a result, the echo parameter values stored in the memory 160 are searched for, and the echo parameter values stored in the memory 160 are controlled by the echo parameter values of the corresponding wireless headset 200.

Meanwhile, when the echo parameter value for the corresponding wireless headset 200 is not confirmed, the controller 180 reflects the echo parameter value for the wireless headset 200 downloaded from a web server or another mobile terminal through an Internet connection for optimization. To control.

Herein, the controller 180 selects the echo parameter value for the corresponding wireless headset 200 stored in the memory 160 as needed, or the corresponding wireless headset 200 from a web server or another mobile terminal through an Internet connection. It is provided with a menu of optimization function according to each manufacturer and model of the wireless headset 200 to download the echo parameter value for.

Therefore, when the echo optimization function is in the on state, the user may directly respond to the echo problem caused by the environment by executing the selected echo parameter value through the above-described process, or in the off state, the echo parameter value may not be executed. It is possible to use the echo parameter value selected by default.

Thereafter, the controller 180 generates a predetermined control signal according to the echo parameter value for the corresponding wireless headset 200 and outputs the predetermined control signal to the speakers SPK 240 of the wireless headset 200 through the second wireless communication module 170. Then, after receiving the control signal input to the microphone (MIC, 250) of the wireless headset 200, and compares the first control signal and the input control signal to calculate the audio path of the corresponding wireless headset 200, the calculated audio path Performs echo canceller function based on.

5 is a block diagram illustrating an echo cancellation function of a mobile terminal for optimizing a wireless headset according to an exemplary embodiment of the present invention.

As shown in FIG. 5, the echo canceller 190 uses an adaptive filter 192 that satisfies the linear phase characteristic in the pass band and has a finite reception of an impulse response. The adaptive filter 192 may be used for correcting the distorted audio signal, and implemented in software to adjust filter coefficients for correcting the audio signal.

The adaptive filter 192 continuously estimates the impulse response of the echo generation path using the far-end speaker signal x (k) and the error signal e (k) input from the second audio processor 130 as a reference signal. Here k denotes a time index and the unit is determined according to the number of filtering taps. In addition, the echo generation path means a path from the speaker (SPK) 240 of the wireless headset 200 to the microphone (MIC, 250). In this case, as an adaptive algorithm used for estimation, a least mean square (LMS), a normalized least square mean (NLMS), or the like is used.

The adaptive filter 192 generates an estimated echo signal y '(k) using the estimated impulse response and transmits it to the subtractor 194. Subtractor 194 then subtracts the estimated echo signal y '(k) from the electrical signal d (k) containing echo from microphone MIC 250 to generate error signal e (k) from which echo is removed. .

According to this configuration, the portable terminal 100 according to the present invention includes an adaptive filter 192 having predetermined filtering taps, and the control signal of the wireless headset 200 is changed through a control signal whenever the wireless headset 200 is changed. By calculating the audio path and adjusting the filter coefficients, an optimum echo cancellation function corresponding to the audio path of the wireless headset 200 may be provided whenever the wireless headset 200 having different characteristics is connected.

6 is a flowchart illustrating a control method for optimizing a wireless headset in a mobile terminal according to an exemplary embodiment of the present invention.

As illustrated in FIG. 6, the portable terminal 100 for optimizing the wireless headset 200 may include a first wireless communication module unit of the wireless headset 200 spaced a predetermined distance from the second wireless communication module unit 170. 220) and maintains the standby state (S600).

When the wireless terminal 200 and the short range wireless communication are connected through the second wireless communication module unit 170 (S610), the mobile terminal 100 sets a communication port with the wireless headset 200, a measurement condition, a measurement start, and By the measurement configuration that can input the end of the measurement, as shown in Figure 4 according to each manufacturer and model of the wireless headset 200 is classified into a product group and retrieves the echo parameter values stored in the memory 160 (S620), after Among the retrieved echo parameter values, the echo parameter value for the corresponding wireless headset 200 is checked (S630).

When the echo parameter value for the corresponding wireless headset 200 is confirmed, the portable terminal 100 controls the second wireless communication module 170 so that the wireless headset 200 is optimized with the confirmed echo parameter value ( S640).

Meanwhile, the portable terminal 100 generates a control signal according to the echo parameter value confirmed for the corresponding wireless headset 200 and transmits the control signal to the wireless headset 200 through the second wireless communication module 170 (S650). .

Accordingly, the wireless headset 200 outputs a control signal received by the first wireless communication module 220 to the speaker SPK 240, and accordingly outputs a control signal detected by the microphone MIC 250. The wireless communication module 220 transmits the data to the mobile terminal 100.

The mobile terminal 100 receives and stores a control signal detected from the microphone (MIC) 250 of the wireless headset 200 through the second wireless communication module unit 170 (S660).

The mobile terminal 100 calculates an audio signal path by comparing the control signal transmitted to the wireless headset 200 with the control signal detected from the microphone (MIC) 250 (S670). Herein, the mobile terminal 100 applies a single input single output (LMS) algorithm to a control signal transmitted to the wireless headset 200 and a control signal detected from a microphone (MIC) 250. To calculate the audio path.

The mobile terminal 100 removes echoes of the audio signals inputted and outputted to the speaker SPK 240 and the microphone MIC 250 of the wireless headset 200 by the filter coefficients according to the calculated audio signal path (S680).

When the echo parameter value for the wireless headset 200 is not confirmed, the mobile terminal 100 downloads the echo parameter value for the wireless headset 200 from a web server or another mobile terminal through an Internet connection, and stores the memory ( 160).

Thereafter, the wireless headset 200 is controlled through the second wireless communication module 170 so as to optimize the echo parameter value stored in the memory 160 (S690).

In addition, the mobile terminal 100 generates a control signal according to the echo parameter value stored in the memory 160 and transmits the control signal to the wireless headset 200 through the second wireless communication module unit 170, and accordingly the wireless headset 200 The audio signal path is calculated by receiving the control signal detected from the microphone (MIC) 250, and the echo generated at the input / output of the audio signal is removed based on the calculated audio signal path.

Meanwhile, the mobile terminal 100 controls the echo parameter value for the corresponding wireless headset 200 stored in the memory 160 through a menu of an optimization function according to each manufacturer and model of the wireless headset 200 or the Internet. By controlling the optimal echo parameter value for the wireless headset 200 downloaded from the web server or other portable terminal through the connection, the user can directly respond to various noise and echo problems caused by the surrounding environment.

Thereafter, the mobile terminal 100 performs short-range wireless communication with the wireless headset 200 so that the output audio signal OUT is transmitted to the speaker SPK 240 of the wireless headset 200, while the microphone of the wireless headset 200 is provided. Speaker (SPK) provided to the MIC (250) to receive the input audio signal (IN) to the second wireless communication module unit 170 to transmit to the communication network through the wireless transceiver 110 or provided in the mobile terminal 100 Send through.

The echo terminal for the wireless headset 200 among the pre-measured echo parameter values according to each manufacturer and model of the wireless headset 200 is optimized so that the mobile terminal 100 optimizes each time it connects with the wireless headset 200 having different characteristics. By controlling to a value, it is possible to perform the echo cancellation function corresponding to the audio path of the wireless headset 200 to improve the sound quality problems, such as echo or howling. In addition, this series of processes can be implemented in software without adding additional hardware.

As described above, a portable terminal and a method for optimizing a wireless headset according to the preferred embodiment of the present invention can be made. Meanwhile, the description of the present invention has been described with reference to specific embodiments, but various modifications of the present invention can be made. There may be various embodiments without departing from the gist.

1 is a perspective view showing a mobile terminal and a wireless headset for optimizing the wireless headset according to an exemplary embodiment of the present invention.

2 is a block diagram illustrating a portable terminal and a wireless headset for optimizing the wireless headset according to an exemplary embodiment of the present invention.

3 is an exemplary diagram illustrating measurement of an echo parameter value of a wireless headset according to an exemplary embodiment of the present invention.

Figure 4 is a graph measuring the echo parameter value according to the make and model of the wireless headset according to an embodiment of the present invention

5 is a block diagram illustrating an echo cancellation function of a mobile terminal for optimizing a wireless headset according to an exemplary embodiment of the present invention.

6 is a flowchart illustrating a control method for optimizing a wireless headset in a mobile terminal according to an exemplary embodiment of the present invention.

Claims (7)

In a mobile terminal for optimizing a wireless headset, An audio processor for processing an audio signal generated by performing a voice call function or an audio file playing function in the portable terminal; A memory unit configured to store a pre-measured echo parameter value classified into product groups according to each manufacturer and model of the wireless headset; A wireless communication module unit for short-range wireless communication with the wireless headset and an audio signal and a control signal; And a control unit for retrieving echo parameter values stored in the memory so as to be optimized each time a connection with the wireless headset having different characteristics is performed through the wireless communication module unit, and controlling the echo parameter values for the identified wireless headset among the echo parameter values. A mobile terminal for optimizing a wireless headset, characterized in that. The mobile terminal of claim 1, wherein the controller controls the echo parameter value for the wireless headset downloaded from a web server or another mobile terminal through an Internet connection. The method according to claim 1 or 2, wherein, when the echo parameter value for the wireless headset is confirmed, the controller generates a control signal according to the echo parameter value and transmits the control signal to the wireless headset through the wireless communication module. Calculating the audio signal path of the wireless headset by receiving the control signal according to the present invention, and optimizing the wireless headset characterized in that the echo cancellation function of the speaker and the microphone input / output of the wireless headset is performed based on the calculated audio signal path. For mobile terminals. The apparatus of claim 1, wherein the controller selects echo parameter values for the wireless headset stored in the memory unit as needed, or sets echo parameter values for the wireless headset from a web server or other mobile terminal through an Internet connection. A portable terminal for optimizing a wireless headset, comprising: a menu of optimization functions according to each manufacturer and model of the wireless headset for downloading. A method for optimizing a wireless headset in a mobile terminal, Maintaining a standby state with the wireless headset, and connecting to short-range wireless communication; Retrieving echo parameter values previously measured according to a make and model of the wireless headset and stored in a memory unit; Checking an echo parameter value for the corresponding wireless headset among the found echo parameter values; And If the echo parameter value for the wireless headset is confirmed, controlling the wireless headset to be optimized with the echo parameter value. 6. The wireless headset of claim 5, wherein the control process optimizes the wireless headset with echo parameter values for the wireless headset downloaded from a web server or other mobile terminal when the echo parameter value for the wireless headset is not confirmed. A method for optimizing a wireless headset in a portable terminal, characterized by further comprising the step of controlling to: The method of claim 5 or 6, wherein the controlling step comprises: generating a control signal for speaker output of the wireless headset according to the echo parameter value and transmitting the generated control signal to the wireless headset; Receiving the micro-sensed control signal from the wireless headset when outputting the control signal through the speaker; Calculating a path of an audio signal introduced into a microphone from a speaker of the wireless headset based on a control signal transmitted to the wireless headset and a control signal received from the wireless headset; And removing echoes from the speaker of the wireless headset and the audio signal input / output into the microphone according to the audio signal path.

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