JP3680042B2 - Hands-free unit and mobile radio terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To accurately originate a call by a voice dial function in mobile radio terminal equipment even when using a hands-free unit. <P>SOLUTION: When connecting a hands-free unit 200a to an external interface 120a, a control part 160a controls switching of a changeover switch 110 to input a voice from a user via a microphone 201. Further, when registering voice data of the voice dial function or originating the call by the function, the control part 160a controls switching of a changeover switch 206 , inputs the voice inputted from the microphone 201 to an A/D converter 111 via a band pass filter 205 to which filter characteristics are set so that the output becomes the same characteristics as a voice outputted from a band pass filter 109, and uses resultant voice data for the function. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hands-free unit capable of making a call by an expanded call without having a terminal device body such as a mobile phone.
[0002]
[Prior art]
As is well known, a hands-free unit is used so that a user can make a call without holding a mobile radio terminal device of a mobile communication system such as a mobile phone system, for example, while driving a car. .
[0003]
This hands-free unit is provided with a speaker and a microphone, and is connected to a mobile radio terminal device to input a transmission voice through the microphone and to output a voice of the other party through the speaker.
[0004]
Recently, mobile wireless terminal devices such as mobile phones have a voice dial function that automatically makes a call to a desired party by inputting the name of the other party who wants to make a call when making a call. There is something to prepare.
[0005]
FIG. 7 shows a circuit block diagram of a conventional hands-free unit and mobile radio terminal apparatus.
In this figure, reference numeral 200 denotes a hands-free unit, and the remaining part is a mobile radio terminal apparatus. The hands-free unit includes a loudspeaker speaker, but is omitted here for the sake of simplicity.
[0006]
The mobile radio terminal apparatus includes an antenna 101, a receiving unit (RX) 102, an audio processing unit 103, a D / A converter (D / A) 104, an amplifier 105, a speaker 106, a microphone 107, an amplifier 108, a band pass filter 109, a switching A switch 110, an A / D converter (A / D) 111, a transmission unit (TX) 112, an external interface 120, an incoming call notification unit 130, a user interface unit 140, a storage unit 150, and a control unit 160 are provided.
[0007]
The base station apparatus BS is accommodated in a mobile communication network of a mobile communication system, and connects the mobile radio terminal apparatus and the mobile communication network.
The antenna 101 receives a radio signal transmitted from the base station apparatus BS and outputs it to the receiving unit 102.
[0008]
The receiving unit 102 down-converts the received radio signal, demodulates it, and outputs the demodulated signal obtained thereby to the audio processing unit 103.
The audio processing unit 103 performs predetermined decoding processing on the demodulated signal and extracts audio data transmitted from the communication partner.
[0009]
The D / A converter 104 converts the audio data into an analog audio signal and outputs the analog audio signal to the amplifier 105.
The amplifier 105 amplifies the analog audio signal and outputs the amplified sound from the speaker 106.
[0010]
The microphone 107 inputs a user's transmitted voice. The transmission voice signal input from this is amplified by the amplifier 108 and then input to the band pass filter 109.
[0011]
The band-pass filter 109 has a filter characteristic that takes into account the characteristics of the microphone 107 and the like. The band-pass filter 109 performs a predetermined band limitation on the transmission voice signal input through the microphone 107 and the first input of the changeover switch 110. Output to the terminal.
[0012]
As described above, the changeover switch 110 has a first input terminal that receives a transmission voice signal via the band-pass filter 109, and has a second input terminal. A transmission voice signal is input from a hands-free unit described later.
[0013]
The changeover switch 110 is controlled to be changed by a control unit 160 described later, and connects one of the first input terminal and the second input terminal to the input terminal of the A / D converter 111.
[0014]
The A / D converter 111 receives a transmission voice signal via the changeover switch 110, converts this signal into digital transmission voice data, and outputs it to the voice processing unit 103.
[0015]
The voice processing unit 103 performs a predetermined encoding process on the transmission voice data, and outputs transmission data obtained by this process to the transmission unit 112. Depending on a request from the control unit 160a, the transmission data is output to the control unit 160a as encoded audio data.
[0016]
The transmission unit 112 modulates the carrier wave using the transmission data input from the audio processing unit 103, up-converts it to a predetermined radio frequency, amplifies the high frequency, and transmits the amplified signal to the base station apparatus BS through the antenna 101. To do.
[0017]
The external interface 120 is an external interface that connects the hands-free unit 200. Here, in order to simplify the description, the configuration for outputting the analog audio signal output from the D / A converter 104 to the hands-free unit 200 is omitted.
[0018]
The external interface 120 includes a detector 121 that detects that the handsfree unit 200 is connected. The detector 121 notifies the control unit 160 that the hands-free unit 200 is connected / disconnected.
[0019]
The incoming call notification unit 130 operates under the control of the control unit 160 when an incoming call is received for the terminal device, and notifies the user of the incoming call. The sounding body 131 generates an audible sound for notification. The light emitting body 132 that performs notification by light emission and the vibration body 133 that performs notification by generating vibration by an eccentric motor or the like, for example.
[0020]
The user interface unit 140 includes a display unit 141 and a key input unit 142. The display unit 141 includes, for example, an LCD (Liquid Crystal Display), an EL (Electro Luminescence), etc., and the user's own state (outgoing / incoming, remaining battery level, received intensity) and dial data read from the storage unit 150 It is for showing visually.
[0021]
The key input unit 142 is a key for performing a normal call function related to outgoing / incoming calls, such as a numeric keypad for inputting a dial number, and switching of an incoming call notification method (audible sound / light emission / vibrator / no notification). It is equipped with keys for using various settings and various functions.
[0022]
The storage unit 150 uses, for example, a semiconductor memory such as a ROM or a RAM as a storage medium. In addition to the phone book data in which names and telephone numbers are associated with each other, the storage unit 150 stores voice for the voice dial function. Voice dial data in which data and a telephone number are associated with each other is stored, and the information is read and written by the control unit 160.
[0023]
The control unit 160 includes a CPU, a ROM, a RAM, and the like, and the CPU controls each unit of the mobile wireless terminal device according to a control program and control data stored in the ROM. In order to realize the voice dialing function, a control function for registering voice data for voice dialing, collating the data with the input voice, and performing automatic transmission associated therewith is provided.
[0024]
Next, the configuration of the hands-free unit 200 will be described.
The microphone 201 is used to input a user's transmitted voice. The transmission voice signal input from this is amplified by the amplifier 202 and then input to the band pass filter 203.
[0025]
The band-pass filter 203 has a filter characteristic that takes into account the characteristics of the microphone 201 and the like. The band-pass filter 203 performs a predetermined band limitation on the transmitted voice signal input through the microphone 201 and outputs the signal to the hands-free circuit 204.
[0026]
The hands-free circuit 204 is an echo canceller that removes echo components caused by loud sound from a speaker (not shown) of the hands-free unit 200. The hands-free circuit 204 removes echo components from the output of the bandpass filter 203 and Output to the second input terminal.
[0027]
With the above configuration, the mobile radio terminal device controls the changeover switch 110 to connect the band pass filter 109 and the A / D converter 111 when the handsfree unit 200 is not connected to the external interface 120. Thus, voice input from the user is performed through the microphone 107.
[0028]
On the other hand, when the hands-free unit 200 is connected to the external interface 120, the change-over switch 110 is controlled to connect the hands-free circuit 204 and the A / D converter 111, and the voice input from the user is received by the microphone. This is done through 201.
[0029]
Here, when registering voice data for the voice dial function, the mobile radio terminal device accepts a voice data registration request for voice dial function from the user through the key input unit 142, and a control unit corresponding to the request. Under the control of 160, the voice of the user input from the microphone 107 (or the microphone 201 when the hands-free unit 200 is connected) is encoded by the voice processing unit 103.
[0030]
Then, the control unit 160 associates the encoded voice data obtained by this processing with the dial number input by the user from the key input unit 142, and records these in the storage unit 150 as voice dial data.
[0031]
Thereafter, when making a call using the voice dial function, the mobile radio terminal device accepts a call request by the voice dial function from the user via the key input unit 142, and the microphone is controlled by the control unit 160 according to the request. The voice of the user input from 107 (the microphone 201 when the hands-free unit 200 is connected) is encoded by the voice processing unit 103.
[0032]
The control unit 160 compares the encoded voice data obtained by this processing with the encoded voice data of the voice dial data stored in the storage unit 150, detects a match, and detects the detected encoding. Transmission is started using the dial number associated with the voice data.
[0033]
With the above configuration, when the handsfree unit 200 is not connected, the mobile radio terminal device registers the voice input through the microphone 107 as encoded voice data for the voice dial function, and the voice dial function. When making a call, voice dial data is called based on the voice input through the microphone 107.
[0034]
On the other hand, when the hands-free unit 200 is connected, the voice input through the microphone 201 of the hands-free unit 200 is registered as encoded voice data for the voice dial function. The voice dial data is called based on the voice input through 201.
[0035]
However, the band-pass filter 109 has a substantially flat characteristic as shown in FIG. 2 in order to remove noise components in the low and high frequencies and reduce the influence on the voice band. The band-pass filter 203 assumes that the hands-free unit 200 is used in a noisy environment due to high-speed driving in an automobile or the like, and in order to reduce such driving noise, a low-pass filter as shown in FIG. It is a characteristic that attenuates the frequency of the region.
[0036]
Due to the difference in the filter characteristics, even if the hands-free unit 200 is connected or not, even if the voices have the same contents, the characteristics of the encoded voice data are different.
[0037]
For this reason, when the encoded voice data for the voice dial function is registered through the microphone 107 and the transmission by the voice dial function is performed using the microphone 201 of the hands-free unit 200, the desired voice dial data is not called out. Arise.
[0038]
The problem that the voice recognition rate decreases in this way is the same when the encoded voice data for the voice dial function is registered through the microphone 201 of the hands-free unit 200 and the voice dial function is used to make a call using the microphone 107. To occur.
[0039]
Conventionally, the desired voice dial data is called by performing registration through the microphone 107 and registration through the microphone 201 of the hands-free unit 200 with respect to such a problem. However, with such a technique, a new problem has occurred in that the storage capacity of the limited storage unit 150 is compressed.
[0040]
[Problems to be solved by the invention]
Conventionally, when using a voice dial function for making a call by voice input of a mobile radio terminal device, there is a problem that a call cannot be made accurately when a hands-free unit is used.
[0041]
The present invention has been made to solve the above-described problems, and provides a hands-free unit and a mobile radio terminal device capable of accurately making a call using a voice dial function even when a hands-free unit is used. Objective.
[0042]
[Means for Solving the Problems]
In order to achieve the above object, the present invention according to claim 1 is connected to a mobile radio terminal device that performs radio communication with a base station connectable to a communication network, and moves a voice signal of a user of the mobile radio terminal device. In the hands-free unit that can be input to the wireless terminal device, the first filtering unit that has substantially the same characteristics as the filtering unit that filters the output of the microphone provided in the mobile wireless terminal device and filters the audio signal, When the mobile radio terminal device makes an outgoing call by voice input based on a request from the mobile radio terminal device due to characteristics different from those of the first filtering unit, the first filtering unit Output filtered voice signal to mobile radio terminal When performing voice communication was to be configured by including a selection means for outputting the audio signal filtered by the second filtering means to the mobile radio terminal device.
[0043]
In the hands-free unit configured as described above, when the mobile radio terminal apparatus makes a call by voice input in response to a request from the mobile radio terminal apparatus, the audio signal filtered by the first filtering means is sent to the mobile radio terminal apparatus. On the other hand, when voice communication is performed, the voice signal filtered by the second filtering means is output to the mobile radio terminal apparatus.
[0044]
Therefore, according to the hands-free unit configured as described above, when the mobile radio terminal apparatus makes a call by voice input, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. Even with voice input through the free unit, voice data equivalent to the voice input through the microphone of the mobile radio terminal device can be input, and transmission by the voice dial function can be performed accurately.
[0045]
In order to achieve the above object, the present invention according to claim 2 is connected to a mobile radio terminal apparatus that performs radio communication with a base station connectable to a communication network, and a voice signal of a user of the mobile radio terminal apparatus is received. In a hands-free unit that can be input to a mobile radio terminal device, a first filtering unit that has substantially the same characteristics as a filtering unit that filters an output of a microphone provided in the mobile radio terminal device, and filters an audio signal; Based on characteristics different from the first filtering means, the second filtering means for filtering the voice signal, and registration of voice data used when the mobile radio terminal apparatus makes a call by voice input based on a request from the mobile radio terminal apparatus. If so, the voice filtered by the first filtering means When the voice signal is output to the mobile radio terminal apparatus, on the other hand, the voice signal filtered by the second filtering means is output to the mobile radio terminal apparatus when performing voice communication. .
[0046]
In the hands-free unit configured as described above, in response to a request from the mobile radio terminal device, when the mobile radio terminal device registers voice data used when making a call by voice input, it is filtered by the first filtering means. On the other hand, when performing voice communication, the voice signal filtered by the second filtering means is output to the mobile radio terminal apparatus.
[0047]
Therefore, according to the hands-free unit configured as described above, when the mobile radio terminal apparatus registers voice data used for voice input transmission, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. Therefore, even if the voice is input through the hands-free unit, the voice data equivalent to the voice input through the microphone of the mobile radio terminal device can be registered. For this reason, it is possible to accurately make a call using the voice dialing function later, whether it is a voice input call through the hands-free unit or a voice input call through the microphone of the mobile radio terminal device.
[0048]
In order to achieve the above object, the present invention according to claim 4 collects a user's voice and outputs it as a voice signal in a mobile radio terminal apparatus that performs radio communication with a base station connectable to a communication network. A microphone, a filtering means for filtering an audio signal output from the microphone, a first filtering means for filtering the audio signal with substantially the same characteristics as the filtering means, and an audio signal having characteristics different from those of the first filtering means. A connection is made with a hands-free unit comprising a second filtering means for filtering, a connection means for acquiring a voice signal filtered by the hands-free unit, a storage means for storing voice data, and a transmission by voice input. In some cases, the hands-free unit is connected through a connection means. Switching control means for controlling the hands-free unit to perform filtering using the second filtering means through the connection means when performing voice communication using the first filtering means. Conversion means for converting a voice signal input through the connection means into voice data, detection means for detecting voice data matching the voice data obtained by the conversion means from the storage means, and detection by the detection means Based on the voice data, a transmission control means for performing transmission to the communication partner is provided.
[0049]
In the mobile radio terminal apparatus configured as described above, when making a call by voice input, the hands-free unit is controlled to perform filtering using the first filtering means through the connection means, while when performing voice communication. The hands-free unit is controlled to perform filtering using the second filtering means through the connecting means.
[0050]
Therefore, according to the mobile radio terminal apparatus having the above configuration, when making a call by voice input, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. The voice data equivalent to the voice inputted through the microphone of the mobile radio terminal device can be inputted even with the voice, and the outgoing call can be accurately made by the voice dial function.
[0051]
In order to achieve the above object, the present invention according to claim 6 collects a user's voice and outputs it as a voice signal in a mobile radio terminal apparatus that performs radio communication with a base station connectable to a communication network. A microphone for filtering, a filtering means for filtering the sound signal output from the microphone, a first filtering means for filtering the sound signal with substantially the same characteristics as the filtering means, and a sound signal with characteristics different from those of the first filtering means. Connecting to a hands-free unit comprising a second filtering means for filtering the voice signal, connecting means for obtaining a voice signal filtered by the hands-free unit, storage means for storing voice data, and registration of voice data If doing so, connect the hands-free unit through the connection means. Switching control means for controlling the hands-free unit to perform filtering using the second filtering means through the connection means when performing voice communication using the first filtering means. An identification information input means for inputting identification information of a communication partner, a conversion means for converting an audio signal input through the connection means into audio data, and a recording control for recording the audio data obtained by the conversion means in the storage means Means.
[0052]
In the mobile radio terminal device having the above configuration, when registering voice data to be used when making a call by voice input, control is performed so that the hands-free unit performs filtering using the first filtering means through the connecting means, On the other hand, when performing voice communication, control is performed so that the hands-free unit performs filtering using the second filtering means through the connecting means.
Therefore, according to the mobile radio terminal apparatus configured as described above, when registering voice data used for voice input transmission, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. Even for voice input through the free unit, voice data equivalent to the voice input through the microphone of the mobile radio terminal device can be registered. For this reason, it is possible to accurately make a call using the voice dialing function later, whether it is a voice input call through the hands-free unit or a voice input call through the microphone of the mobile radio terminal device.
[0053]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows a circuit block diagram of a hands-free unit and a mobile radio terminal device.
In this figure, reference numeral 200a denotes a hands-free unit, and the remaining part is a mobile radio terminal device. The hands-free unit includes a loudspeaker speaker, but is omitted here for the sake of simplicity.
[0054]
The mobile radio terminal apparatus includes an antenna 101, a receiving unit (RX) 102, an audio processing unit 103, a D / A converter (D / A) 104, an amplifier 105, a speaker 106, a microphone 107, an amplifier 108, a band pass filter 109, a switching A switch 110, an A / D converter (A / D) 111, a transmission unit (TX) 112, an external interface 120a, an incoming call notification unit 130, a user interface unit 140, a storage unit 150, and a control unit 160a are provided.
[0055]
The base station apparatus BS is accommodated in a mobile communication network of a mobile communication system, and connects the mobile radio terminal apparatus and the mobile communication network.
The antenna 101 receives a radio signal transmitted from the base station apparatus BS and outputs it to the receiving unit 102.
[0056]
The receiving unit 102 down-converts the received radio signal, demodulates it, and outputs the demodulated signal obtained thereby to the audio processing unit 103.
The audio processing unit 103 performs predetermined decoding processing on the demodulated signal and extracts audio data transmitted from the communication partner.
[0057]
The D / A converter 104 converts the audio data into an analog audio signal and outputs the analog audio signal to the amplifier 105.
The amplifier 105 amplifies the analog audio signal and outputs the amplified sound from the speaker 106.
[0058]
The microphone 107 inputs a user's transmitted voice. The transmission voice signal input from this is amplified by the amplifier 108 and then input to the band pass filter 109.
[0059]
The band-pass filter 109 has a filter characteristic that takes into account the characteristics of the microphone 107 and the like. The band-pass filter 109 performs a predetermined band limitation on the transmission voice signal input through the microphone 107 and the first input of the changeover switch 110. Output to the terminal.
[0060]
Note that the filter characteristics of the bandpass filter 109 are substantially flat as shown in FIG. 2 in order to remove low-frequency and high-frequency noise components and reduce the influence on the voice band.
[0061]
As described above, the changeover switch 110 has a first input terminal that receives a transmission voice signal via the band-pass filter 109, and has a second input terminal, which is provided via an external interface 120a. A transmission voice signal is input from a hands-free unit described later.
[0062]
The changeover switch 110 is controlled to be changed by a control unit 160 a described later, and connects either the first input terminal or the second input terminal to the input terminal of the A / D converter 111.
[0063]
The A / D converter 111 receives a transmission voice signal via the changeover switch 110, converts this signal into digital transmission voice data, and outputs it to the voice processing unit 103.
[0064]
The voice processing unit 103 performs a predetermined encoding process on the transmission voice data, and outputs transmission data obtained by this process to the transmission unit 112. Depending on a request from the control unit 160a, the transmission data is output to the control unit 160a as encoded audio data.
[0065]
The transmission unit 112 modulates the carrier wave using the transmission data input from the audio processing unit 103, up-converts it to a predetermined radio frequency, amplifies the high frequency, and transmits the amplified signal to the base station apparatus BS through the antenna 101. To do.
[0066]
The external interface 120a is an external interface for connecting the hands-free unit 200a, and newly includes wiring for transmitting a control signal from the control unit 160a to the hands-free unit 200a.
[0067]
Note that, in order to simplify the explanation, the configuration for outputting the analog audio signal output from the D / A converter 104 to the hands-free unit 200a is omitted.
[0068]
The external interface 120a includes a detector 121 that detects that the hands-free unit 200a is connected. The detector 121 notifies the control unit 160a that the hands-free unit 200a is connected / disconnected.
[0069]
The incoming call notification unit 130 operates under the control of the control unit 160a when an incoming call is received for the terminal device, and notifies the user of the incoming call. The light emitting body 132 that performs notification by light emission and the vibration body 133 that performs notification by generating vibration by an eccentric motor or the like, for example.
[0070]
The user interface unit 140 includes a display unit 141 and a key input unit 142. The display unit 141 includes, for example, an LCD (Liquid Crystal Display), an EL (Electro Luminescence), etc., and the user's own state (outgoing / incoming, remaining battery level, received intensity) and dial data read from the storage unit 150 It is for showing visually.
[0071]
The key input unit 142 is a key for performing a normal call function related to outgoing / incoming calls, such as a numeric keypad for inputting a dial number, and switching of an incoming call notification method (audible sound / light emission / vibrator / no notification). It is equipped with keys for using various settings and various functions.
[0072]
The storage unit 150 uses, for example, a semiconductor memory such as a ROM or a RAM as a storage medium. In addition to the phone book data in which names and telephone numbers are associated with each other, the storage unit 150 stores voice for the voice dial function. Voice dial data in which data is associated with a telephone number is stored, and these pieces of information are read and written by the control unit 160a.
[0073]
The control unit 160a includes a CPU, a ROM, a RAM, and the like, and the CPU controls each unit of the mobile radio terminal device according to a control program and control data stored in the ROM. In order to realize the voice dialing function, the voice dialing voice data is registered, the data is collated with the input voice, the automatic transmission accompanying this is performed, and the switching control of the changeover switches 110 and 206. It has a function.
[0074]
Next, the configuration of the hands-free unit 200a will be described.
The microphone 201 is used to input a user's transmitted voice. The transmission voice signal input from this is amplified by the amplifier 202 and then input to the band pass filter 203 and the band pass filter 205.
[0075]
The band-pass filter 203 has a filter characteristic that takes into account the characteristics of the microphone 201 and the like. The band-pass filter 203 performs a predetermined band limitation on the transmitted voice signal input through the microphone 201 and outputs the signal to the hands-free circuit 204.
[0076]
Note that the filter characteristics of the bandpass filter 203 assume that the hands-free unit 200a is used in a noisy environment due to high-speed driving in an automobile or the like, and in order to reduce such driving noise, FIG. It has the characteristic of attenuating the low frequency as shown in FIG.
[0077]
The hands-free circuit 204 is an echo canceller that removes echo components caused by loud sound from a speaker (not shown) of the hands-free unit 200a. The hands-free circuit 204 removes echo components from the output of the bandpass filter 203 and Output to the first input terminal.
[0078]
The band-pass filter 205 performs a predetermined band limitation on the transmission voice signal input through the microphone 201 and outputs it to the second input terminal of the changeover switch 206.
[0079]
Note that the filter characteristics of the bandpass filter 205 are different from those of the bandpass filter 203, and the analog audio signal obtained from the bandpass filter 109 and the bandpass filter when the same sound is input to the microphone 107 and the microphone 201, respectively. For example, it is set as shown in FIG. 4 so that the analog audio signal obtained from the filter 205 has substantially the same characteristics.
[0080]
The changeover switch 206 selectively selects one of the analog audio signals input to the first input terminal and the second input terminal based on a control signal transmitted from the control unit 160a through the external interface 120a. Output to the second input terminal of the changeover switch 110 through the external interface 120a.
[0081]
Next, an operation when using the voice dial function of the mobile radio terminal apparatus having the above configuration will be described.
FIG. 5 is a flowchart for explaining the operation when registering voice dial data used for outgoing calls using the voice dial function. The processing shown in this flowchart is performed by the control unit 160a and is started when a predetermined request is made from the user through the key input unit 142.
[0082]
First, in step 5a, the control unit 160a determines whether or not the hands-free unit 200a is connected based on the detection result of the detector 121.
Here, when the hands-free unit 200a is connected, the process proceeds to step 5b. On the other hand, when the hands-free unit 200a is not connected, the process proceeds to step 5c.
[0083]
In step 5b, the control unit 160a controls the changeover switch 110 to the hands-free unit 200a side, and controls the changeover switch 206 through the external interface 120a, and the output of the bandpass filter 205 passes through the external interface 120a. And the process proceeds to step 5c.
[0084]
Thus, when the hands-free unit 200a is connected, the user's voice input from the microphone 201 is the amplifier 202, the bandpass filter 205, the changeover switch 206, the external interface 120a, the changeover switch 110, and the A / A. The audio signal is input to the audio processing unit 103 through the path formed by the D converter 111.
[0085]
In step 5c, the control unit 160a performs display control of the display unit 141, performs display for prompting the utterance of the name to be registered, such as “Please say the name to be registered”, and the like from the voice processing unit 103. The encoded audio data is captured, and the process proceeds to step 5d.
[0086]
For this reason, for example, when the hands-free unit 200a is connected, when the user speaks to the microphone 201, for example, “Yamada”, the sound is input to the sound processing unit 103 through the above-described route. It is converted into encoded audio data and is taken into the control unit 160a.
[0087]
On the other hand, when the hands-free unit 200a is not connected, when the user utters “Yamada” in the same manner toward the microphone 107, the sound is amplified by the amplifier 108, the bandpass filter 109, the changeover switch 110, and the A / D converter. 111 is input to the audio processing unit 103, where it is converted into encoded audio data, and taken into the control unit 160a.
[0088]
In step 5d, the control unit 160a performs display control of the display unit 141 and performs a display requesting input of a telephone number, for example, “Please input a telephone number to be registered”.
[0089]
Accordingly, the user inputs the telephone number corresponding to the “Yamada” through the key input unit 142, the control unit 160a accepts the telephone number, and the process proceeds to step 5e.
[0090]
In step 5e, the control unit 160a associates the encoded voice data fetched in step 5c with the telephone number accepted in step 5d, records it as voice dial data in the storage unit 150, and ends the process.
[0091]
Next, the operation when making a call using the voice dial function will be described. FIG. 6 is a flowchart for explaining the above operation, and the processing shown in this figure is performed by the control unit 160a and is started when a predetermined request is made from the user through the key input unit 142.
[0092]
First, in step 6a, the control unit 160a determines whether or not the hands-free unit 200a is connected based on the detection result of the detector 121.
Here, if the hands-free unit 200a is connected, the process proceeds to step 6b. On the other hand, if the hands-free unit 200a is not connected, the process proceeds to step 6c.
[0093]
In step 6b, the control unit 160a controls the changeover switch 110 to the hands-free unit 200a side, and controls the changeover switch 206 through the external interface 120a, and the output of the bandpass filter 205 passes through the external interface 120a. And the process proceeds to step 6c.
[0094]
Thus, when the hands-free unit 200a is connected, the user's voice input from the microphone 201 is the amplifier 202, the bandpass filter 205, the changeover switch 206, the external interface 120a, the changeover switch 110, and the A / A. The audio signal is input to the audio processing unit 103 through the path formed by the D converter 111.
[0095]
In step 6c, the control unit 160a performs display control of the display unit 141, performs display for prompting the utterance of the name to be registered, for example, “speak the name to be registered”, and the like from the voice processing unit 103. The encoded audio data is captured, and the process proceeds to step 6d.
[0096]
For this reason, for example, when the hands-free unit 200a is connected, when the user speaks to the microphone 201, for example, “Yamada”, the sound is input to the sound processing unit 103 through the above-described route. It is converted into encoded audio data and is taken into the control unit 160a.
[0097]
On the other hand, when the hands-free unit 200a is not connected, when the user utters “Yamada” in the same manner toward the microphone 107, the sound is amplified by the amplifier 108, the bandpass filter 109, the changeover switch 110, and the A / D converter. 111 is input to the audio processing unit 103, where it is converted into encoded audio data, and taken into the control unit 160a.
[0098]
In step 6d, the control unit 160a refers to the voice dial data recorded in the storage unit 150, and searches for voice data that matches the encoded voice data captured in step 6c.
[0099]
If audio data that matches the encoded audio data captured in step 6c is detected, the process proceeds to step 6e. On the other hand, if audio data that matches the audio data cannot be detected, the process proceeds to step 6f. .
[0100]
In step 6e, the control unit 160a reads the telephone number corresponding to the voice data detected in step 6d from the storage unit 150, makes a call to this telephone number, and ends the process.
[0101]
On the other hand, in step 6f, the control unit 160a controls the display of the display unit 141, and voice data that matches the voice input in step 6c is registered, such as “No corresponding data”. A message indicating that there is no message is displayed, and the process is terminated.
[0102]
When the hands-free unit 200a is connected to the external interface 120a and performs normal voice communication, the control unit 160a controls the change-over switch 110 to the hands-free unit 200a side and switches the change-over switch through the external interface 120a. The switching control is performed so that the output of the hands-free circuit 204 is input to the change-over switch 110 through the external interface 120a.
[0103]
As described above, in the mobile radio terminal apparatus having the above-described configuration, when the hands-free unit 200a is connected to the external interface 120a, the change-over switch 110 is switched and the hands-free circuit 204, the A / D converter 111, Are connected, and voice input from the user is performed through the microphone 201.
[0104]
When the hands-free unit 200a is connected as described above, when the voice data for the voice dial function is registered or when the voice dial function is used to make a call, the voice input from the microphone 201 is used. Is encoded by the A / D converter 111 and the audio processing unit 103 through the band-pass filter 205, and the audio data obtained thereby is used for the above function.
The filter characteristics of the bandpass filter 205 are set so that the output thereof is the same as the sound output from the bandpass filter 109.
[0105]
Therefore, according to the mobile radio terminal apparatus having the above configuration, the sound output from the bandpass filter 109 and the sound output from the bandpass filter 205 have the same characteristics. Even when the data is registered, it is possible to make a call by the voice dial function through the microphone 201. Conversely, even when the voice data registered in advance through the microphone 201 is registered, the call by the voice dial function is made through the microphone 107. It can be performed, and a high speech recognition rate can be exhibited regardless of whether or not the hands-free unit 200a is used.
[0106]
When the voice dial function is used, the voice input from the microphone 201 does not pass through the hands-free circuit 204, so that it can be made closer to the voice input from the microphone 107.
[0107]
The present invention is not limited to the above embodiment.
For example, in the above-described embodiment, two band pass filters 203 and 205 are provided in the hands-free unit 200a, and the controller 160a of the mobile radio terminal apparatus determines whether one of them uses the voice dial function. It was made to choose.
[0108]
Instead, for example, using one band-pass filter capable of realizing two filter characteristics, the control unit 160a of the mobile radio terminal apparatus varies the above characteristics depending on whether or not the voice dial function is used. It may be.
[0109]
Further, unlike the conventional case, it is not necessary for the user to intentionally register the same destination through the microphone 107 and the registration through the microphone 201 of the hands-free unit 200a. Absent.
[0110]
1 shows that the hands-free unit 200a includes the microphone 201, the microphone 201 may be configured to be detachable using a jack and a plug.
[0111]
Further, in the hands-free unit 200a, either one of the output of the hands-free circuit 204 and the output of the band-pass filter 205 is output to the mobile radio terminal apparatus by the changeover switch 206 in accordance with an instruction from the control unit 160a. I tried to do it.
[0112]
Instead, for example, in response to an instruction from the control unit 160a, the output of the amplifier 202 is input to either the hands-free circuit 204 or the band-pass filter 205, and the hands-free circuit 204 Both output ends of the bandpass filter 205 may be connected to the mobile radio terminal apparatus.
[0113]
Furthermore, in step 6d, a search is made for a match of the audio data, but it is not always necessary to search for a match that exactly matches. If the characteristic portions of the audio signal are similar, a match is found. You may make it treat as what to do.
In addition, it goes without saying that the present invention can be similarly implemented even if various modifications are made without departing from the gist of the present invention.
[0114]
【The invention's effect】
As described above, in the hands-free unit according to the present invention, in response to a request from the mobile radio terminal device, when the mobile radio terminal device makes a call by voice input, the voice filtered by the first filtering means When a signal is output to the mobile radio terminal device and voice communication is performed, the audio signal filtered by the second filtering means is output to the mobile radio terminal device.
[0115]
Therefore, according to the present invention, when the mobile radio terminal apparatus makes a call by voice input, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. Therefore, a hands-free unit can be provided which can input voice data equivalent to the voice inputted through the microphone of the mobile radio terminal device and can accurately make a call using the voice dial function.
[0116]
Further, in the hands-free unit according to the present invention, the first filtering means is used when registering voice data used when the mobile radio terminal device makes a call by voice input in response to a request from the mobile radio terminal device. In the case of performing voice communication, the voice signal filtered by the second filtering means is output to the mobile radio terminal apparatus.
[0117]
Therefore, according to the present invention, when the mobile radio terminal apparatus registers voice data used for voice input transmission, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. Even for voice input through the free unit, voice data equivalent to the voice input through the microphone of the mobile radio terminal device can be registered. For this reason, it is possible to provide a hands-free unit capable of accurately making a call using a voice dialing function later, whether it is voice input transmission through the hands-free unit or voice input transmission through a microphone of the mobile radio terminal device.
[0118]
Further, in the mobile radio terminal apparatus according to the present invention, when making a call by voice input, the hands-free unit is controlled to perform filtering using the first filtering means through the connecting means, while performing voice communication. In this case, the hands-free unit is controlled to perform filtering using the second filtering means through the connecting means.
[0119]
Therefore, according to the present invention, when making a call by voice input, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal device is used. It is possible to provide a mobile radio terminal apparatus that can input voice data equivalent to the voice input through the microphone of the radio terminal apparatus and can accurately make a call using the voice dial function.
[0120]
In addition, in the mobile radio terminal apparatus according to the present invention, when registering voice data to be used when making a call by voice input, the hands-free unit performs filtering using the first filtering means through the connecting means. On the other hand, when performing voice communication, the hands-free unit is controlled to perform filtering using the second filtering means through the connecting means.
[0121]
Therefore, according to the present invention, when registering voice data to be used for voice input and transmission, the first filtering means having substantially the same characteristics as the filtering means of the mobile radio terminal apparatus is used. As for voice, voice data equivalent to the voice inputted through the microphone of the mobile radio terminal device can be registered. For this reason, it is possible to provide a mobile radio terminal device capable of accurately making a call using the voice dialing function later, either by voice input transmission through the hands-free unit or by voice input transmission through the microphone of the mobile radio terminal device.
[Brief description of the drawings]
FIG. 1 is a circuit block diagram showing a configuration of an embodiment of a hands-free unit and a mobile radio terminal device according to the present invention.
FIG. 2 is a diagram showing filter characteristics of the bandpass filter 109 shown in FIG.
FIG. 3 is a view showing filter characteristics of the bandpass filter 203 shown in FIG. 1;
FIG. 4 is a diagram showing filter characteristics of the bandpass filter 205 shown in FIG.
FIG. 5 is a flowchart for explaining an operation when registering voice dial data used for a voice dial function of the mobile radio terminal device shown in FIG. 1;
6 is a flowchart for explaining a call origination operation by a voice dial function of the mobile radio terminal device shown in FIG. 1;
FIG. 7 is a circuit block diagram showing configurations of a conventional hands-free unit and a mobile radio terminal device.
[Explanation of symbols]
101 ... antenna
102. Reception unit (RX)
103 ... Audio processing unit
104 ... D / A converter (D / A)
105 ... Amplifier
106 ... Speaker
107: Microphone
108 ... Amplifier
109: Band pass filter
110 ... changeover switch
111 ... A / D converter
112 ... Transmitter (TX)
120a ... External interface
121 ... Detector
130: Incoming call notification unit
140 ... User interface part
141 ... display section
142 ... Key input section
150: Storage unit
160a ... Control unit
200a ... Hands-free unit
201 ... Microphone
202 ... Amplifier
203 ... Band pass filter
204 ... Hands-free circuit
205: Band pass filter
206 ... changeover switch
BS ... Base station equipment

Claims (6)

In a hands-free unit that is connected to a mobile wireless terminal device that wirelessly communicates with a base station that can be connected to a communication network and can input a voice signal of a user of the mobile wireless terminal device to the mobile wireless terminal device,
A first filtering unit that has substantially the same characteristics as a filtering unit that filters an output of a microphone provided in the mobile radio terminal device, and that filters the audio signal;
A second filtering means for filtering the audio signal according to characteristics different from the first filtering means ;
Based on the request from the mobile radio terminal device, when the mobile radio terminal device makes a call by voice input, the voice signal filtered by the first filtering means is output to the mobile radio terminal device, A hands-free unit comprising: selection means for outputting the voice signal filtered by the second filtering means to the mobile radio terminal device when performing voice communication . In a hands-free unit that is connected to a mobile wireless terminal device that wirelessly communicates with a base station that can be connected to a communication network and can input a voice signal of a user of the mobile wireless terminal device to the mobile wireless terminal device,
A first filtering unit that has substantially the same characteristics as a filtering unit that filters an output of a microphone provided in the mobile radio terminal device, and that filters the audio signal;
A second filtering means for filtering the audio signal according to characteristics different from the first filtering means ;
Based on a request from the mobile radio terminal device, when registering audio data to be used when the mobile radio terminal device makes a call by voice input, the audio signal filtered by the first filtering means is transferred to the mobile radio terminal device. A hands-free device comprising: a selection unit that outputs to the mobile radio terminal device the audio signal filtered by the second filtering unit when outputting to the radio terminal device and performing voice communication. unit. The hands-free unit according to claim 1, wherein the second filtering unit has a function of removing an echo component from the audio signal. In a mobile wireless terminal device that wirelessly communicates with a base station connectable to a communication network,
A microphone that collects the user's voice and outputs it as a voice signal;
Filtering means for filtering an audio signal output from the microphone;
Connected to a hands-free unit comprising first filtering means for filtering an audio signal with substantially the same characteristics as the filtering means, and second filtering means for filtering the audio signal with characteristics different from the first filtering means. Connecting means for obtaining the audio signal filtered by the hands-free unit;
Storage means for storing audio data;
When making a call by voice input, the hands-free unit is controlled to perform filtering using the first filtering means through the connection means. On the other hand, when performing voice communication, the hands-free unit Switching control means for controlling the hands-free unit to perform filtering using the second filtering means ;
Conversion means for converting an audio signal input through the connection means into audio data;
Detecting means for detecting audio data matching the audio data obtained by the converting means from the storage means;
A mobile radio terminal apparatus comprising: a transmission control unit configured to perform transmission toward the communication partner based on the voice data detected by the detection unit. The detection means matches or matches the audio data obtained by the conversion means. The mobile radio terminal apparatus according to claim 4, wherein similar voice data is detected from the storage means. In a mobile wireless terminal device that wirelessly communicates with a base station connectable to a communication network,
A microphone that collects the user's voice and outputs it as a voice signal;
Filtering means for filtering an audio signal output from the microphone;
Connected to a hands-free unit comprising first filtering means for filtering an audio signal with substantially the same characteristics as the filtering means, and second filtering means for filtering the audio signal with characteristics different from the first filtering means. Connecting means for obtaining the audio signal filtered by the hands-free unit;
Storage means for storing audio data;
When registering the voice data, the hands-free unit is controlled to perform filtering using the first filtering means through the connection means, whereas when performing voice communication, the hands-free unit is controlled through the connection means. Switching control means for controlling the hands-free unit to perform filtering using the second filtering means ;
Identification information input means for inputting identification information of a communication partner;
Conversion means for converting an audio signal input through the connection means into audio data;
A mobile radio terminal apparatus comprising recording control means for recording voice data obtained by the conversion means in the storage means.

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