JP2012129692A - Portable terminal, audio data reproduction system, audio data reproduction method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an audio reproduction system capable of easily constructing an audio reproduction environment having frequency characteristics of desired sound output intensity.SOLUTION: An audio data decoding unit 1042 decodes white noise data stored in a storage unit 103. An equalization unit 1043 uses equalization pattern data stored in the storage unit 103 to adjust the frequency characteristics of decoded data, and transmits it to an audio reproduction device 20 from a data transmission unit 1051. The audio reproduction device 20 reproduces the received data and outputs it from a speaker 207. A microphone 109 of a portable terminal 10 picks up outputted sound signals, the frequency analysis of the sound signals is executed in a sound processing unit 108, and an obtained frequency distribution and the equalization pattern data used in equalization processing are collated to correct the equalization pattern data.

Description

  The present invention relates to a portable terminal that transmits audio data, an audio data reproduction system, an audio data reproduction method, and a program.

When audio data is reproduced in a portable terminal having an audio data reproduction function, sound is output from an attached headset or a built-in speaker.
Therefore, such a portable terminal often has an equalizing function based on the assumption that sound is output by an attached headset or a built-in speaker.

On the other hand, a configuration is also known in which audio data is transmitted from a portable terminal to an in-vehicle audio reproduction device by wireless communication or the like and the audio data is reproduced by this audio reproduction device (Patent Document 1).
In this configuration, the equalizing function of the mobile terminal and the equalizing function of the in-vehicle audio playback device are used. However, the equalization setting may differ depending on the combination of the mobile terminal and the in-vehicle audio playback device. is there.
The audio system described in Patent Document 1 stores equalization setting information when a mobile terminal is connected to a vehicle-mounted audio playback device over a network, and the setting is performed when the mobile terminal is reconnected to the audio playback device according to the setting information. It has a configuration for reading information and performing equalization settings.

Japanese Patent No. 4298522

However, when connecting a mobile terminal to a new audio playback device, it is necessary to adjust the equalizing function until the frequency characteristics of the desired audio output intensity are satisfied, and to save the equalization setting information. It takes.
Further, the frequency characteristic of the sound output intensity in the vehicle interior space varies depending not only on the type of the audio playback device and the portable terminal but also on the position of the speaker in the vehicle and the interior space structure. For this reason, when the speaker position or the like is changed or the audio reproduction device is moved to a vehicle of a different vehicle type, there is a possibility that a desired frequency characteristic cannot be obtained even if equalization processing is performed based on the stored setting information. .
In addition, in order to omit readjustment, if all the setting information including information such as the speaker position and the vehicle type is stored in the audio reproduction device or the portable terminal, the management of the setting information may be complicated.

  The present invention has been made in view of the above circumstances, and an audio reproduction system or the like that can easily construct an audio reproduction environment having a frequency characteristic of desired audio output intensity and that allows a user to listen to good audio. The purpose is to provide.

In order to achieve the above object, a mobile terminal according to the first aspect of the present invention provides:
Data transmission means for transmitting audio reproduction data including reference data and audio data whose frequency distribution of output intensity is known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data out of the audio reproduction data and outputs an audio signal, audio pickup means for picking up the output audio signal;
Frequency analysis means for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained by the frequency analysis means and a predetermined frequency characteristic. And frequency pattern data generation means for generating frequency pattern data composed of the adjustment values,
The data transmission means increases or decreases the output intensity at each frequency of the audio data by using the frequency pattern data generated by the frequency pattern data generation means when transmitting audio data of the audio reproduction data. Adjust and send,
It is characterized by that.

An audio data reproduction system according to the second aspect of the present invention is
A portable terminal according to the first aspect of the present invention;
An audio reproduction device that receives the audio reproduction data transmitted from the portable terminal, reproduces the audio reproduction data, and outputs an audio signal;
Have

An audio data reproduction method according to the third aspect of the present invention is as follows.
A reference data transmission step of transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup step of picking up the output sound signal;
A frequency analysis step for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis step and a predetermined frequency characteristic. A frequency pattern data generation step for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation step, an audio data transmission step of transmitting data in which the output intensity at each frequency of the audio data is increased or decreased, and
An audio data reproduction step in which the audio reproduction device receives and reproduces the data transmitted in the audio data transmission step;
It is characterized by having.

A program according to the fourth aspect of the present invention is:
On the computer,
Reference data transmission procedure for transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio playback device,
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup procedure for picking up the output sound signal;
A frequency analysis procedure for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis procedure and a predetermined frequency characteristic. , A frequency pattern data generation procedure for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation procedure, an audio data transmission procedure for transmitting data that has been adjusted to increase or decrease the output intensity at each frequency of the audio data to the audio playback device;
Is executed.

  ADVANTAGE OF THE INVENTION According to this invention, the audio reproduction environment which has the frequency characteristic of desired audio | voice output intensity | strength can be constructed | assembled easily, and a user can listen to a favorable audio | voice.

It is a block diagram which shows the internal structure of the portable terminal which concerns on embodiment of this invention. It is a block diagram which shows the internal structure of the audio reproduction apparatus which concerns on embodiment of this invention. It is a functional block diagram for demonstrating operation | movement of an audio reproduction system. It is a flowchart which shows an equalization pattern optimization process. It is a figure for demonstrating an equalization pattern optimization process.

  Hereinafter, Embodiment 1 of the present invention will be described in detail with reference to the drawings.

  The mobile terminal 10 according to the first embodiment receives audio data stored in a built-in storage unit, a function of reproducing audio data recorded on various recording media, and information data including audio data with other communication devices. An information processing terminal having a communication function for transmitting and receiving. The terminal may be a dedicated audio playback terminal, or may be a mobile phone or PC (Personal Computer) having an audio function.

  As shown in FIG. 1, the portable terminal 10 includes a control unit 101, a memory 102, a storage unit 103, an audio data processing unit 104, a communication unit 105, a display unit 106, an operation unit 107, an audio processing unit 108, and a microphone 109. .

  The control unit 101 includes a CPU (Central Processing Unit), a main storage device, and the like. The control unit 101 controls each unit of the mobile terminal 10 and executes various programs stored in the storage unit 103, thereby performing an audio playback function, Functions of the mobile terminal 10 such as an audio data transmission function and an automatic equalization setting function are realized.

  The memory 102 is an internal memory having a work area, and is composed of a DRAM (Direct Random Access Memory), an SDRAM (Synchronous DRAM), and the like. In order to read and process data stored in the storage unit 103, Those data are temporarily stored.

The storage unit 103 is composed of, for example, a readable / writable nonvolatile semiconductor memory such as a flash memory, and stores audio data, white noise data, and equalization pattern data. These stored data can be rewritten by a user operation or control by the control unit 101.
The storage unit 103 also stores an application program that realizes the functions of the mobile terminal 10 such as an audio playback function, an audio data transmission function, and an automatic equalization setting function.

  The audio data processing unit 104 is composed of a logic circuit or an arithmetic unit that performs various operations, and performs data processing such as decoding and equalization of audio data read from the storage unit 103 in accordance with a control signal from the control unit 101 to obtain the data. The received data is output to the communication unit 105. Note that the audio data processing unit 104 may be incorporated as a part of the control unit 101.

  The communication unit 105 transmits / receives data to / from a radio base station, another communication terminal device, an information processing device, an audio playback device, and the like using a predetermined communication method. The communication unit 105 performs communication according to various communication methods such as Bluetooth (registered trademark), wireless LAN, wired LAN, and USB. You may make it the structure in which communication of a some communication system is possible. In addition, when the mobile terminal 10 is a mobile phone or the like having an audio function, a communication unit that transmits and receives a call signal, e-mail data, network data, and the like with the base station is also provided.

The display unit 106 includes, for example, a display device such as an LCD (Liquid Crystal Display) or an organic EL (Electro-Luminescence) display, and performs information display output of images, figures, characters, symbols, and the like.
The display unit 106 displays operation screens for various functions such as an audio data download function, an audio playback function, and an audio data transmission function, and displays information related to the audio data being played back.

  The operation unit 107 includes various key buttons such as a direction key / decision key, a numeric keypad, and a function key, a dial, and the like. . The operation unit 107 receives, for example, an input operation for power ON / OFF operation of the mobile terminal 10, audio data selection, reproduction, transmission, and the like from the user.

  The audio processing unit 108 processes and analyzes the audio signal picked up by the microphone 109. In the present embodiment, the output sound of the audio playback device 20 described later is picked up by the microphone 109, and the sound signal is frequency-analyzed.

  The audio playback device 20 according to the first embodiment is an audio device that has at least an audio playback function and a communication function and is mounted in an automobile or the like. The audio reproduction device 20 receives and reproduces audio data stored in a built-in storage unit, a function of reproducing and outputting audio data recorded on various recording media, and audio data transmitted from other communication devices. It has a function.

  As shown in FIG. 2, the audio playback device 20 includes a control unit 201, a memory 202, a communication unit 203, a display unit 204, an operation unit 205, an audio playback unit 206, and a speaker 207.

  The control unit 201 includes a CPU (Central Processing Unit), a main storage device, and the like. The control unit 201 controls each unit of the audio playback device 20, and executes various programs stored in the memory 202, thereby receiving an audio data reception function. The audio playback function and other functions of the audio playback device 20 are realized.

  A memory 202 is an internal memory having a work area, and is composed of DRAM (Direct Random Access Memory), SDRAM (Synchronous DRAM), etc., and temporarily stores audio data received via the communication unit 203 for reproduction. .

  The communication unit 203 receives audio data transmitted from the mobile terminal 10 by a predetermined communication method. The communication unit 203 performs communication according to various communication methods such as Bluetooth, wireless LAN, wired LAN, and USB. You may make it the structure in which communication of a some communication system is possible.

The display unit 204 includes a display device such as an LCD (Liquid Crystal Display) or an organic EL (Electro-Luminescence) display, and outputs information such as images, figures, characters, and symbols.
The display unit 204 displays information related to the audio data being reproduced.

  The operation unit 205 includes various key buttons such as a direction key / decision key, a numeric keypad, and a function key, a dial, and the like. . The operation unit 205 receives, for example, a power ON / OFF operation of the audio playback device 20, selection of audio data, input operation for playback, and the like from the user.

  The audio playback unit 206 converts the audio data signal into an analog signal, amplifies it, and outputs it to the speaker 207.

  The speaker 207 may be installed at an arbitrary location in the vehicle and configured by a plurality of speakers when the audio playback device is mounted in the vehicle.

Next, the operation of the automatic equalization setting function by the audio playback system 1 including the mobile terminal 10 and the audio playback device 20 configured as described above will be described with reference to FIGS.
FIG. 3 is a functional block diagram in which only functional units that realize the automatic equalization setting function are extracted from the functions realized by the respective components of the mobile terminal 10 and the audio playback device 20. FIG. 4 is a flowchart showing equalization pattern optimization processing executed by the control unit 101 of the mobile terminal 10.

  As illustrated in FIG. 3, the audio data processing unit 104 of the mobile terminal 10 includes functional units of an audio data reading unit 1041, an audio data decoding unit 1042, and an equalizing unit 1043.

  The audio data reading unit 1041 reads audio data, white noise data, and the like stored in the storage unit 103 for reproduction processing and temporarily stores them in the memory 102. The audio data decoding unit 1042 decodes data temporarily stored in the memory 102. The equalizing unit 1043 reads the equalized pattern data stored in the storage unit 103 and uses the pattern data to equalize the audio data decoded by the audio data decoding unit 1042.

  The equalize pattern data is frequency pattern data indicating frequency characteristics of a multiplier that multiplies the output intensity of the audio signal. The audio data that has been equalized using the frequency pattern data is represented by an output intensity obtained by multiplying the output intensity at each frequency of the audio signal based on the original audio data by the multiplier at the frequency of the equalize pattern data. It will have frequency characteristics.

The communication unit 105 of the mobile terminal 10 includes a data transmission unit 1051.
The data transmission unit 1051 transmits the data obtained by equalizing the audio data by the equalization unit 1043. The communication method related to this data transmission is an arbitrary communication method suitable for the data receiving unit of the audio playback device 20, and Bluetooth or the like is selected.

The audio processing unit 108 of the mobile terminal 10 includes an equalize pattern correction unit 1081.
The equalization pattern correction unit 1081 performs frequency analysis on the audio signal picked up by the microphone 109 from the audio output from the audio playback device 20. Based on the result, the equalize pattern data stored in the storage unit 103 is corrected.

The communication unit 203 of the audio playback device 20 includes a data receiving unit 2031.
The data reception unit 2031 receives data transmitted from the data transmission unit 1051 of the mobile terminal 10. The communication method related to this data reception is an arbitrary communication method suitable for the data transmission unit 1051 of the mobile terminal 10, and Bluetooth or the like is selected.

  Next, details of the operation of equalization pattern optimization processing will be described with reference to the flowchart of FIG.

  First, the mobile terminal 10 is installed in the vehicle. Since the frequency characteristic of the audio signal obtained by the audio processing unit 108 of the mobile terminal 10 depends on the position of the microphone 109, that is, the installation position of the mobile terminal 10, the installation position is determined in advance and the processing of this embodiment is performed. The installation position may be any place determined by the user, but is preferably a position where a main listener who listens to the audio signal sits. For example, the vicinity of the headrest of the driver's seat or the passenger seat can be mentioned.

  Based on the control signal output from the control unit 101, each functional unit of the audio data processing unit 104 performs each process on the audio data. First, the audio data reading unit 1041 reads white noise data stored in the storage unit 103 and outputs the white noise data to the audio data decoding unit. The audio data decoding unit 1042 decodes the input white noise data, The data is output to the equalizing unit 1043 (S102). Here, the white noise data is data having a substantially constant output intensity at a frequency within a certain frequency band.

Next, the equalizing unit 1043 reads the equalized pattern data stored in the storage unit 103, and performs equalization processing on the input white noise decoded data using the equalized pattern data. (S103).
It is assumed that the initial value of the pattern data before starting the equalization pattern data correction process is a constant multiplier having no frequency dependency. That is, the first equalization process does not change the frequency characteristics of the decoded data, and can be said to be almost no process.

For example, the equalizing process is as follows.
First, the white noise decoded data is fast Fourier transformed to be converted into data indicating the frequency distribution of the output intensity. This data is multiplied by a multiplier for each frequency indicated in the equalize pattern data.
Here, white noise data having a substantially constant output intensity at a frequency within a certain frequency band has a frequency distribution corresponding to the frequency dependence of the multiplier indicated in the equalize pattern data.
The obtained data indicating the frequency distribution of the output intensity is subjected to fast inverse Fourier transform to calculate time-series data.

Data subjected to such equalization processing is output to the data transmission unit 1051.
Data input to the data transmission unit 1051 is transmitted according to a communication method such as Bluetooth (S104).

The data reception unit 2031 of the audio playback device 20 receives the data signal output from the data transmission unit 1051 of the mobile terminal 10 and outputs it to the audio playback unit 206.
In the audio reproduction unit 206, the input data is D / A converted, amplified, and output to the speaker 207. Here, when the audio data signal is a stereo signal or a surround signal, processing such as amplification is performed for each channel signal.

The speaker 207 outputs the input analog signal. When the audio data is a stereo signal or a surround signal, the audio data is output from each speaker corresponding to each channel.
The microphone 109 of the mobile terminal 10 picks up the audio signal output from the speaker 207 of the audio playback device 20 and outputs it to the audio processing unit 108.

  Based on the control signal output from the control unit 101, the equalization pattern correction unit 1081 of the audio processing unit 108 performs frequency analysis of the audio signal picked up by the microphone 109 (S105). Here, the timing of the frequency analysis is performed in accordance with the timing at which the audio reproduction device 20 outputs the audio signal based on the white data.

The frequency distribution of the output intensity obtained as a result of the frequency analysis is compared with the frequency characteristic of the target output intensity. Equalize pattern data is corrected based on these differences. Here, the frequency characteristic of the target output intensity is a characteristic indicating the target value or the range of the target value of the output intensity at each frequency in a certain frequency band.
For example, the target is to have a substantially constant output intensity within a certain frequency band, that is, the difference (pp value) between the maximum value and the minimum value of the output intensity at each frequency is smaller than a predetermined threshold value P _th. Consider the case. When p-p value is greater than P _th is (S106: No), increase the multiplier equalization pattern data output intensity decreases the multiplier equalization pattern data frequency greater projecting, smaller frequency output intensity projects For example, the equalization pattern data is corrected (S107).

On the other hand, when p-p value P _th smaller (S106: Yes), since the output intensity is considered substantially constant within a certain frequency band, and ends the equalization pattern optimization process.

The equalized pattern data corrected in this way is recorded in the storage unit 103, and the equalized pattern data is updated.
As described above, since the initial value of the equalize pattern data is data indicating a constant multiplier having no frequency dependency, the first process of the equalize pattern correction unit 1081 can be said to be a process of generating equalize pattern data.

The series of processes (S101 to S107) described above are repeatedly executed until the frequency distribution of the output intensity obtained by the frequency analysis of the equalize pattern correction unit 1081 reaches the target frequency characteristic.
When the target is to have the above-described substantially constant output intensity, a series of processing is repeatedly executed until the pp value within the frequency band converges to _Pth or less.

In the flowchart of FIG. 4, n is a natural number and indicates the number of corrections of the equalize pattern data. Each time correction processing is performed, n is incremented by 1 and repeated until the upper limit value n ₀ (S108, S109). By setting the upper limit value n ₀ , it is possible to avoid infinite processing.

  An example of the procedure for correcting the equalize pattern data described above will be specifically described with reference to the frequency characteristics of the output data of each unit shown in FIG.

  In step S102, the white noise data read by the audio data reading unit 1041 is decoded (decoded) by the audio data decoding unit 1042. In this decoded data, the frequency distribution of output intensity is substantially constant in a predetermined frequency band as shown in FIG.

  Assume that the pattern data read from the storage unit 103 by the equalizing unit 1043 in step S103 has a multiplier at each frequency as shown in FIG. As described above, since the initial value of the equalize pattern data is a constant value in a predetermined frequency band, the equalize pattern data shown in FIG. 5B is pattern data that has already been corrected once or more.

In step S103, equalization processing is performed using the equalize pattern data shown in FIG. The frequency distribution of the output intensity of the signal subjected to equalization processing is as shown in FIG.
That is, since the white noise data whose output intensity frequency distribution is substantially constant is multiplied by the multiplier of the pattern data shown in FIG. 5B, the frequency distribution of the output intensity of the equalizing unit 1043 is substantially the same as that of the equalized pattern data. It will have frequency characteristics.

  The output of the equalizing unit having the frequency characteristics shown in FIG. 5C is output from the data transmitting unit 1051 (S104). Based on the data that has received the output signal, the audio reproduction device 20 reproduces and outputs the audio signal. The audio signal output from the audio playback device 20 is picked up by the microphone 109 of the mobile terminal 10, and the audio signal is subjected to frequency analysis by the equalize pattern correction unit 1081 (S105).

  Assume that the frequency distribution of the audio signal obtained here is as shown in FIG. This frequency distribution is a frequency characteristic affected by the input / output characteristics of the audio reproduction unit of the audio reproduction apparatus 20 and the acoustic space in the automobile in which the audio reproduction apparatus 20 is installed.

The frequency distribution obtained by frequency analysis of the audio signal input to the equalize pattern correction unit 1081 is targeted to be substantially constant. Therefore, the multiplier is corrected to equalize pattern data in which the multiplier of the high frequency region A in FIG. 5D is decreased and the multiplier of the low frequency region B is increased. FIG. 5E shows the equalize pattern data corrected in this way.
Then, the obtained equalization pattern data is stored in the storage unit 103.

  In this way, it is possible to optimize the equalization pattern data by repeating the equalization pattern correction procedure so that the frequency distribution obtained by the audio processing unit 108 becomes a target frequency characteristic.

  The optimized equalize pattern data is stored in the storage unit 103. When audio data is reproduced, the equalization pattern data stored in the storage unit 103 is used to equalize the audio data to be reproduced and transmitted to the audio reproduction device 20, and the audio reproduction device 20 performs audio processing. Reproduce. By doing so, it is possible to listen to a sound having a target frequency characteristic in the acoustic environment in the automobile.

  As described above, in the present embodiment, white noise data is transmitted from the mobile terminal 10 to the audio reproduction device 20, and the white noise data received by the audio reproduction device 20 is reproduced and output to the frequency distribution of the audio signal. Based on this, it was decided to optimize with the equalized pattern data. Thereby, an audio reproduction environment having a frequency characteristic of desired audio output intensity can be easily constructed according to the model of the audio reproduction apparatus, the speaker installation position, and the acoustic space structure.

  As described above, according to the present invention, white noise data is transmitted from the mobile terminal to the audio reproduction device, and the audio reproduction device reproduces the received white noise data and optimizes the equalize pattern data based on the frequency distribution of the output audio signal. The audio data is reproduced using the optimized equalization pattern data. This makes it possible to easily construct an optimal audio reproduction environment regardless of the speaker position, acoustic space structure, and audio reproduction device function. Further, in this audio reproduction environment construction, frequency characteristics can be adjusted without requiring a dedicated measuring instrument such as an analyzer, and the adjustment can be easily performed without know-how and skills for adjusting the frequency characteristics. In addition, since the frequency characteristic is adjusted by the mobile terminal, the adjustment can be performed regardless of the function of the in-vehicle audio playback device. For this reason, the audio reproduction environment can be easily optimized.

  In addition, this invention is not limited to the said embodiment, Of course, the various change in the range which does not deviate from the summary of this invention is possible.

For example, the equalization pattern data is corrected so that the frequency distribution of the output intensity of the audio signal obtained by the equalization pattern correction unit 1081 is substantially constant. For example, according to the user's preference such as increasing the volume of a low frequency. Pattern correction that aims at an arbitrary frequency characteristic may be performed.
In this case, a difference between the frequency distribution obtained by the equalization pattern correction unit 1081 and a desired frequency characteristic is calculated, and a pattern that compensates for the difference between the frequency characteristic and the equalization pattern data stored in the storage unit 103 is obtained. Correct it. Here, in order to suppress an excessive change in the frequency distribution due to the pattern correction, the pattern may be corrected to compensate for the difference from the frequency characteristic at an arbitrary ratio.
By performing such pattern correction, it is possible to easily construct an acoustic environment suitable for the user's preference and the like.

Further, in order to correct the equalization pattern data, the audio signal based on the white noise data is transmitted from the portable terminal 10 to the audio playback device 20, but the data for private use is not limited to the white noise data, and the frequency is set in advance. Arbitrary data whose characteristics are clearly grasped can be used as reference data.
In this case, the reference data is decoded and equalized, transmitted to the audio playback device 20, and the result of frequency analysis of the audio signal output from the audio playback device 20 has the same frequency characteristics as the reference data. , Equalize pattern data is corrected. Also in this case, pattern correction may be performed with the goal of having a frequency characteristic having a certain tendency with respect to the reference data according to the user's preference.

  In addition, although the initial value of the pattern data before the start of the equalization pattern data correction process is assumed to have a constant frequency characteristic, the user may be allowed to set an arbitrary frequency characteristic in advance. With this configuration, when the tendency of the frequency characteristics of the optimal pattern data is known to some extent, the optimal equalization pattern can be obtained more quickly and reliably by setting the frequency characteristics along the tendency as the initial value. Data can be obtained.

  In the above embodiment, the audio playback device 20 includes a memory that temporarily stores audio data. However, the audio playback device 20 may have a separate storage unit. In that case, the received audio data can be stored in the storage unit, and the data stored at the time of reproduction can be read out and reproduced, and the audio data can be reproduced or repeatedly reproduced at any timing desired by the user. . Further, a program executed by the control unit 201 may be stored in the storage unit of the audio playback device 20.

Further, the audio playback unit 206 may have a unique equalizing function having unique equalizing pattern data or equalizing pattern data set by the user.
In this case, the equalization pattern data optimization process in the mobile terminal 10 described in the above embodiment can be optimized including the influence of the equalization process of the audio playback unit 206.

  In addition, by installing the program executed by the mobile terminal 10 of the above-described embodiment in a computer that controls an existing mobile audio player or mobile phone, the mobile audio player or the like can function as the mobile terminal according to the present invention. Is possible.

  Such a program distribution method is arbitrary, for example, a computer-readable recording medium such as a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), an MO (Magneto Optical Disk), or a memory card. It may be stored and distributed in the network, or distributed via a communication network such as a mobile phone network or the Internet.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
Data transmission means for transmitting audio reproduction data including reference data and audio data whose frequency distribution of output intensity is known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data out of the audio reproduction data and outputs an audio signal, audio pickup means for picking up the output audio signal;
Frequency analysis means for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained by the frequency analysis means and a predetermined frequency characteristic. And frequency pattern data generation means for generating frequency pattern data composed of the adjustment values,
The data transmission means increases or decreases the output intensity at each frequency of the audio data by using the frequency pattern data generated by the frequency pattern data generation means when transmitting audio data of the audio reproduction data. Adjust and send,
A portable terminal characterized by that.

(Appendix 2)
The mobile terminal according to Supplementary Note 1, wherein the frequency distribution of the output intensity of the reference data and the predetermined frequency characteristic substantially match.

(Appendix 3)
The mobile terminal according to appendix 1 or 2, wherein the reference data is white noise data.

(Appendix 4)
The data transmission means uses the frequency pattern data generated by the frequency pattern data generation means to transmit adjustment data obtained by increasing / decreasing the output intensity at each frequency of the reference data to the audio reproduction device,
The voice pickup means picks up a voice signal that the audio playback device plays back and outputs the adjustment data,
The frequency analysis means performs frequency analysis on the picked-up audio signal,
The frequency pattern data generation means reduces the output intensity at each frequency of the reference data so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained by the frequency analysis means and a predetermined frequency characteristic. Correct the frequency pattern data representing the adjustment value to be increased or decreased,
The portable terminal according to any one of appendices 1 to 3, characterized in that:

(Appendix 5)
The mobile terminal according to appendix 4, wherein the frequency pattern data generation unit repeats the correction of the frequency pattern data a finite number of times.

(Appendix 6)
A mobile terminal according to any one of appendices 1 to 5,
An audio reproduction device that receives the audio reproduction data transmitted from the portable terminal, reproduces the audio reproduction data, and outputs an audio signal;
An audio data reproduction system.

(Appendix 7)
A reference data transmission step of transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup step of picking up the output sound signal;
A frequency analysis step for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis step and a predetermined frequency characteristic. A frequency pattern data generation step for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation step, an audio data transmission step of transmitting data in which the output intensity at each frequency of the audio data is increased or decreased, and
An audio data reproduction step in which the audio reproduction device receives and reproduces the data transmitted in the audio data transmission step;
An audio data reproducing method comprising:

(Appendix 8)
On the computer,
Reference data transmission procedure for transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio playback device,
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup procedure for picking up the output sound signal;
A frequency analysis procedure for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis procedure and a predetermined frequency characteristic. , A frequency pattern data generation procedure for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation procedure, an audio data transmission procedure for transmitting data that has been adjusted to increase or decrease the output intensity at each frequency of the audio data to the audio playback device;
A program for running

DESCRIPTION OF SYMBOLS 1 Audio reproduction system 10 Portable terminal 20 Audio reproduction apparatus 101 Control part 102 Memory 103 Storage part 104 Audio data processing part 105 Communication part 106 Display part 107 Operation part 108 Audio | voice processing part 109 Microphone 201 Control part 202 Memory 203 Communication part 204 Display part 205 Operation Unit 206 Audio Playback Unit 207 Speaker 1041 Audio Data Calling Unit 1042 Audio Data Decoding Unit 1043 Equalizing Unit 1051 Data Transmitting Unit 1081 Equalizing Pattern Correcting Unit 2031 Data Receiving Unit

Claims (8)

Data transmission means for transmitting audio reproduction data including reference data and audio data whose frequency distribution of output intensity is known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data out of the audio reproduction data and outputs an audio signal, audio pickup means for picking up the output audio signal;
Frequency analysis means for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained by the frequency analysis means and a predetermined frequency characteristic. And frequency pattern data generation means for generating frequency pattern data composed of the adjustment values,
The data transmission means increases or decreases the output intensity at each frequency of the audio data by using the frequency pattern data generated by the frequency pattern data generation means when transmitting audio data of the audio reproduction data. Adjust and send,
A portable terminal characterized by that.   The mobile terminal according to claim 1, wherein the frequency distribution of the output intensity of the reference data substantially matches the predetermined frequency characteristic.   The portable terminal according to claim 1, wherein the reference data is white noise data. The data transmission means uses the frequency pattern data generated by the frequency pattern data generation means to transmit adjustment data obtained by increasing / decreasing the output intensity at each frequency of the reference data to the audio reproduction device,
The voice pickup means picks up a voice signal that the audio playback device plays back and outputs the adjustment data,
The frequency analysis means performs frequency analysis on the picked-up audio signal,
The frequency pattern data generation means reduces the output intensity at each frequency of the reference data so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained by the frequency analysis means and a predetermined frequency characteristic. Correct the frequency pattern data representing the adjustment value to be increased or decreased,
The mobile terminal according to claim 1, wherein the mobile terminal is a mobile terminal.   The mobile terminal according to claim 4, wherein the frequency pattern data generation unit repeats the correction of the frequency pattern data a finite number of times. A mobile terminal according to any one of claims 1 to 5;
An audio reproduction device that receives the audio reproduction data transmitted from the portable terminal, reproduces the audio reproduction data, and outputs an audio signal;
An audio data reproduction system. A reference data transmission step of transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio reproduction device;
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup step of picking up the output sound signal;
A frequency analysis step for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis step and a predetermined frequency characteristic. A frequency pattern data generation step for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation step, an audio data transmission step of transmitting data in which the output intensity at each frequency of the audio data is increased or decreased, and
An audio data reproduction step in which the audio reproduction device receives and reproduces the data transmitted in the audio data transmission step;
An audio data reproducing method comprising: On the computer,
Reference data transmission procedure for transmitting reference data whose frequency characteristics of output intensity are known in advance to an external audio playback device,
When the audio reproduction device reproduces the reference data and outputs a sound signal, a sound pickup procedure for picking up the output sound signal;
A frequency analysis procedure for frequency analysis of the picked-up audio signal;
An adjustment value for increasing / decreasing the output intensity at each frequency of the reference data is calculated so as to reduce the difference between the frequency distribution of the output intensity of the audio signal obtained in the frequency analysis procedure and a predetermined frequency characteristic. , A frequency pattern data generation procedure for generating frequency pattern data composed of the adjustment values;
Using the frequency pattern data generated in the frequency pattern data generation procedure, an audio data transmission procedure for transmitting data that has been adjusted to increase or decrease the output intensity at each frequency of the audio data to the audio playback device;
A program for running

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