KR100758133B1 - Device and Method of Multimedia Regeneration Considering Properties and Location Information of User - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling an audio signal, which includes a plurality of band pass filter sections for filtering only acoustic signals of a predetermined frequency band from an acoustic signal input from an image reproducer, a broadcast receiver or an audio reproducer, an equalizer section, A speaker unit for converting the amplified signal into sound, a main microcomputer for controlling the respective units, and a main microcomputer for inputting a control signal of a user through a main microcomputer A display unit for displaying a function controlled by the main microcomputer, and a power supply unit for supplying power to each of the units, the multimedia player comprising: a sound source for storing an example sound for determining a genre of the input sound signal; A storage unit for storing a predetermined frequency band, A standard sound signal level storage unit for storing a standard sound signal level which is a signal level of sound and a genre-specific equalizing data storage unit for storing the genre-specific equalizing data set by the user in consideration of their hearing and taste according to the genre of the example sound The main microcomputer controls the band pass filter unit to detect an acoustic signal level of a predetermined frequency band of the inputted acoustic signal, compares the detected acoustic signal level with the standard acoustic signal level, And performs equalization on the input sound signal using the genre-specific equalizing data stored in the genre-specific equalizing data storage unit corresponding to the determined genre.

The multimedia player and the playback method considering the characteristic information and the position information of the user according to the present invention can be implemented by using the built-in example sound, which is standard, and by using the equalizing data and the position information set according to the user's preference in each genre of the sound signal, It is possible to consider both the characteristics and the taste of the user and the local characteristics that the user is currently located in, unlike the conventional art, in reproducing the sound signal by reproducing the sound signal inputted using the equalizing data and the volume data set by the user.

Sample sound, position recognition, equalization, multimedia player

Description

TECHNICAL FIELD [0001] The present invention relates to a multimedia player and a playback method considering user characteristic information and location information.

1 is a block diagram of a multimedia player capable of equalizing and adjusting sound according to an exemplary sound and position recognition according to the present invention;

FIG. 2 is a flowchart illustrating an equalizing method by example acoustic and position recognition according to the present invention,

Description of the Related Art [0002]

100: main microcomputer 110: display device

120: Key input unit 140: Equalizer

150: Electronic volume 160: Amplification unit

180: Bandpass filter 200: GPS receiver

210: Equalization data and sound volume data storage unit by position information

300: image reproducer 400: broadcast receiver

500: sound reproducer 600: mobile communication terminal

500: acoustic player 700: sample acoustic receiver

710: Reference voice signal level storage unit for each acoustic frequency band

720: An example of an equalized data storage unit

[0001] The present invention relates to a multimedia player and a playback method considering characteristics information and position information of a user, and more particularly, to a multimedia player and a playback method considering user's characteristic information and / The present invention relates to a multimedia player and a playback method considering user characteristic information and location information that can provide an optimal playback effect using a multimedia player.
That is, according to the present invention, a sound signal reproduced when reproducing multimedia is judged to judge the genre (e.g., news, sports relay, advertisement, music, etc.) of the sound signal, And more particularly, to a multimedia player and a playback method capable of equalizing the sound signals according to a set equalizing condition.
Further, a multimedia player capable of recognizing the user's position information by GPS and equalizing and / or adjusting the volume of the sound signal according to the equalizing condition and / or volume condition preset by the user in correspondence with the recognized position information, Reproducing method.
Generally speaking, sound is a phenomenon caused by physical vibrations that is transmitted to a person's hearing through a certain medium. In other words, as the vocal cords of a person are vibrated and transmitted as sound waves in the air, the sound vibrates the air by vibrating the eardrum and moving it through the ear. To sound, not only the pressure to the eardrum but also the speed at which the eardrum vibrates is also a problem. A person can usually hear sounds from 20Hz to 20,000Hz. More than that, it is called ultrasonic wave (that is, 20kHz or more) and is used in a tactile sense of an animal or the like or a tuner of a television channel.
Sound tells the whole story of how to deliver this sound. Equalizing, which is a method of adjusting the sound, refers to amplifying or attenuating each region of the sound such as high, mid, and bass. Performing the equalizing operation is called an equalizer, and it is a device that amplifies or attenuates a specific frequency of a sound. Among all the functions of the console, this equalizer can be likened to a flower. When an analog voice signal is transmitted over a long distance, a high frequency is attenuated. At this time, the attenuated portion can be restored to the original sound by applying a specific filter. That is, when the sound 1 of the natural sound is converted into the sound signal through the microphone having the frequency characteristic of the quadrangle, the shape of the sound 1 becomes the shape of 2, not the rectangular frame. The process of equalizing this deformed shape in order to make it equal to the sound signal 3 in the shape of sound 1 is the process.
An example of such equalizing of sound equipments is disclosed in Korean Patent Registration No. 10-0149410 (Automatic equalizing method for each genre of audio equipment and its apparatus).
The technique disclosed in the above publication includes a tuner for tuning a broadcast signal in order to analyze a music genre of a received broadcast signal and an audio signal reproduced from the recording medium and automatically perform an equalizing function according to the music genre, A plurality of bandpass filters for filtering only acoustic signals of a predetermined frequency band among the acoustic signals applied from the tuner and the reproducing system, and a plurality of bandpass filters for storing a reference acoustic signal level of a predetermined frequency band An equalizer for performing an equalizing function, and a microcomputer for controlling each of the components described above, wherein the acoustic signal level detecting unit detects a sound signal level for each frequency band from the plurality of band pass filters; Detecting a reference acoustic signal level stored in the memory; Comparing the detected sound signal levels to analyze a music genre of the sound signals; The acoustic signal level of the predetermined frequency band filtered by the plurality of band pass filters is detected, the reference acoustic signal level stored in the memory is detected, A method of automatically equalizing music genres according to music genres for comparing musical genres of sound signals applied from the tuner and a reproducing system by comparing the detected sound signal levels, and an apparatus therefor.
An example of equalizing car audio is disclosed in Korean Patent Laid-Open Publication No. 2005-0026269 (sound processing apparatus of car audio).
The technology disclosed in the above publication relates to a sound processing apparatus for a car audio that can easily and quickly perform tuning by processing a volume / sound quality manipulation by a single DSP in a software manner, and can integrally and easily manage characteristics for each vehicle type, A DSP for performing volume / sound quality manipulation processing on acoustic signals provided from various sound sources constituting car audio by substituting volume / sound quality characteristic value data into a sound quality manipulation processing program; A power IC for power-amplifying the sound signal processed by the DSP in volume / sound quality; A speaker for converting an acoustic signal output from the power IC into a sound wave; A key input unit for generating a plurality of volume / sound quality manipulation commands included in the car audio; Wherein the volume / sound quality characteristic value data stored in the EEPROM is transmitted to the DSP when the power of the EEPROM and the car audio storing the volume / sound quality characteristic value data is stored regardless of whether the power is turned on or off, And a main microcomputer for transmitting a volume / sound quality manipulation command to the DSP.

However, as described above, in the conventional equalizing apparatus and method disclosed in the above-mentioned publications 10-0149410 and 2005-0026269, a method of equalizing based on broadcasting or a commercial sound source supplied from the outside, Therefore, the user's characteristics such as the user's hearing or taste can not be taken into account and only the condition of the supplied sound source is equalized. Accordingly, there is a problem that the user can not provide the sound signal if he or she wants to listen to the sound signal according to the genre of the sound signal.
Further, in a region where noise of a specific frequency band is frequently generated, the sound of the frequency band should be adjusted according to the user's need. In the prior art, since the equalization is performed under the same condition regardless of the current position of the user, There is a problem that it can not be reflected.
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for reproducing a standard example sound by a genre built in a multimedia player to perform desired equalization, And to equalize the sound signal by using the equalizing data stored in correspondence with the determined genre by judging the genre of the sound signal to be reproduced at the time of reproducing the audio signal.
It is a further object of the present invention to provide an apparatus and a method for storing and storing equalizing data and / or sound volume data according to a region characteristic specified by a user in setting and storing equalizing data according to the user characteristics, The present invention is to provide a multimedia player and a playback method that can equalize and / or adjust the volume by considering not only the user characteristics according to the genre of the user but also the user location information recognized by the GPS.

In order to achieve the above object, a multimedia player considering user characteristic information and position information according to the present invention filters only a sound signal of a predetermined frequency band from an acoustic signal input from an image reproducer, a broadcast receiver or an audio player, A volume adjusting unit for adjusting a volume level of an equalized signal from the equalizer, an amplifying unit amplifying the sound inputted from the volume adjusting unit, a speaker unit converting the amplified signal into sound, A main microcomputer for controlling each of the units, a key input unit for inputting a control signal of a user through a main microcomputer, a display unit for displaying functions controlled by the main microcomputer, and a power supply unit for supplying power to the units, , The genre of the input acoustic signal A standard sound signal level storage unit for storing a standard sound signal level, which is a signal level of the example sound for the predetermined frequency band, and a normal sound signal level storage unit for storing the standard sound signal level for the predetermined frequency band, And a genre-specific equalizing data storage unit for storing the equalizing data for each genre set in consideration of the taste. The main microcomputer controls the band-pass filter unit to detect the acoustic signal level of the predetermined frequency band of the inputted acoustic signal, Comparing the detected sound signal level with the standard sound signal level to determine the genre of the inputted sound signal and comparing the detected sound signal level with the standard sound signal level to determine the genre of the inputted sound signal, And performing equalization for All.
The multimedia player may further include a GPS receiver for detecting position information of a current user and an equalizing data and a volume data storing unit for each user according to the position information, The main microcomputer uses the equalizing data for each positional information and the equalizing data and sound volume data for each positional information stored in the volume data storing unit corresponding to the current position information of the user recognized by the GPS receiving unit, And further performs equalizing and volume adjustment.
According to another aspect of the present invention, there is provided an audio signal processing apparatus including a plurality of bandpass filter units for filtering only acoustic signals of a predetermined frequency band from an acoustic signal input from an image reproducer, a broadcast receiver or an audio player, A speaker unit for converting the amplified signal into sound, a main microcomputer for controlling the respective units, a main microcomputer for controlling the user through the main microcomputer, A display unit for displaying a function controlled by the main microcomputer, and a power supply unit for supplying power to each of the units, the method comprising the steps of: Corresponding to the genre determined in the first step, Sound signals input by using the equalized data to be set in consideration of the hearing god taste and is characterized in that a second step of equalizing.
The first step may include detecting and storing a standard sound signal level, which is a sound signal level for a predetermined frequency band of an example sound stored in advance according to the genre of the sound signal, detecting the sound signal level of the inputted sound signal And comparing a sound signal level of the input sound signal with a standard sound signal level to determine a genre of the inputted sound signal.
The second step may include receiving and storing the equalizing data for each of the genres of the sample sound from the user, equalizing the inputted sound signals using the equalizing data for each of the genres determined in the first step, And a control unit.
The method may further include receiving and storing equalization data and volume data for volume adjustment according to the set position information in consideration of the noise state at a specific position from the user, recognizing the current position of the user, And equalizing and adjusting the volume of the input acoustic signal using the equalizing data and the volume data according to the position information corresponding to the position information.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that the present invention may be easily understood by those skilled in the art. .
1 is a block diagram of a multimedia player in consideration of user characteristic information and location information according to the present invention.
The multimedia player shown in FIG. 1 includes an image player 300 (e.g., DVD) for reproducing images and sounds, a sky wave broadcast receiver 400 including a tuner for receiving air waves, an audio player 500 for reproducing sound A main microcomputer (for example, a CD player, a cassette tape player or MP3) for controlling the video reproducer 300, the broadcast receiver 400 or the audio reproducer 500 and processing the video and / 100). In this case, the video signal and the acoustic signal are generally digital signals, but when they are analog signals, they are converted into digital signals using a conventional A / D converter (not shown) and then transmitted to the main microcomputer 100.
The main microcomputer 100 further includes a display 110 for displaying an image indicated by the control signal of the main microcomputer 100, a key input unit 120 for inputting an input signal for controlling the operation of the main microcomputer 100, And a GPS receiving unit 200 for receiving the GPS signal and transmitting the GPS signal to the main microcomputer 100.
The equalizing data and the volume data set by the user corresponding to the position information received by the GPS receiving unit 200 and the sound data inputted from the volume data storage unit 210 and the external devices 300, An example acoustic storage 700 in which an example sound is stored for each genre, and a standard sound signal level storage in an example acoustic frequency band storing a standard sound signal level for each frequency band of the example sound stored in the example sound storage 700 Unit 710, and an equalizing data storage unit 720 for an example sound in which equalizing information set by the user for the example sound is stored.
An equalizer 140 for equalizing the sound signal transmitted from the main microcomputer 100 by using the equalizing data and / or the volume data transmitted from the main microcomputer 100, an equalizer 140 for equalizing the sound data transmitted from the main microcomputer 100, An amplification unit 160 for amplifying and outputting the sound transmitted from the electronic volume 150, an amplification unit 160 for converting the amplified signal to sound, A plurality of band pass filters 180 for filtering only acoustic signals of a specific frequency band, and a power supply unit 130 for supplying power to the respective units.
When the user first applies power to the power supply unit 130 of the multimedia player shown in FIG. 1, the main microcomputer 100 reads the basic operation logic of the multimedia player from the memory storing the basic operation logic of the multimedia player, And performs a process of operating a multimedia player such as a PDP for reading and executing a program. Thereafter, a logo screen or the like preset to be displayed by the manufacturer is displayed on the display device 110, or a video image or the like set by the user to be changed and set to be displayed upon turning on the power is displayed, Normal operation '. The system initialization process according to the power-on is known in the art, and the function of selecting the function in the display device 110 in accordance with the operation logic of the multimedia player is the same as the technique commonly used and known in the art A detailed description thereof will be omitted.
The multimedia player according to the present embodiment is transmitted to the main microcomputer 100 in order for the user to be automatically adjusted to the equalization set for each genre.
The main microcomputer 100 shown in FIG. 1 is basically equipped with a volume / sound quality processing program capable of manipulating the volume / sound quality such as volume change, equalizer processing, and other loud, bass, mid, treble, . In particular, when the power source unit 130 is powered on, the multimedia player displays functions such as mode selection and function setting, mode selection window, playback status, and input image through the operation of the key input unit 120 And the convenience of the operation is displayed. The display device 110 is a device known in the art including an LCD or the like.
The main microcomputer 100 passes the acoustic signal through a plurality of band pass filters 180 to detect sound signal levels for ten different frequency bands to determine the genre of the transmitted acoustic signal. The plurality of band-pass filters 180 used herein determine the sound levels of the predetermined frequency bands to determine the genre of the sound signals input to the main microcomputer 100. The plurality of band- Each frequency band is the same as the frequency band stored in the reference acoustic signal level 710 for each of the example acoustic frequency bands to be equalized for the standard example sound selected by the user. In this embodiment, for example, the 20 kHz band at 20 Hz is limited to 10 equal parts in the audio frequency band. However, in actual equalizers, the frequency band is narrowed in the low frequency band and narrow in the intermediate frequency band Depending on the equalizer designer, the band may be selected differently and the equalization changed.
An example of a criterion for determining the genre of an acoustic signal input in the present invention is that the acoustic signal level of each frequency band obtained by dividing the audible frequency band by 10 in any genre of the standard example sound exceeds the standard acoustic signal level 710 ) And the sound level values of the respective frequency bands that have passed through the plurality of band-pass filters 180 are matched or approximate to each other, and the genre of the sound to be input is grasped. It is known from Publication No. 10-149410.
Hereinafter, a multimedia playback method considering user characteristic information and location information according to an embodiment of the present invention will be described with reference to FIG.
FIG. 2 is a flowchart for explaining a multimedia reproducing method considering user characteristic information and position information according to the present invention, focusing on a process of equalizing an acoustic signal after power-on.
As shown in FIG. 2, in the process of selecting the function of the player, if the user selects an equalizing mode to equalize the sound signals reproduced by the user to their own characteristics (S100), the main microcomputer 100 And activates the preset example sound storage unit 700 (S200). Next, a standard example sound list is displayed on the display device 110 so that the user can select a standard sound list stored in the example sound storage unit 700 (S300), and a standard example sound selected by the user is displayed on the display device 110 And stores a standard sound signal level 710 for each frequency band.
In this embodiment, the 20 kHz band is limited to 10 kHz in the audio frequency band of 20 Hz. However, as described above, this is for the sake of easy explanation. In actual equalizers, in consideration of human auditory characteristics, Narrowing the band, and selecting the band differently according to the equalizer designer and changing the equalization.
When the step S300 is completed, the main microcomputer 100 amplifies the selected standard sound through the equalizer 140 and the electronic volume 150, all of which are set to default values at the time of leaving the player, (S400). The user repeatedly hears the standard sound in consideration of hearing and taste of the user's ears, performs equalization for each standard sound, selects a reproduction condition such as left / right balancing of the speaker 170, (S410). When the step S410 is completed, the main microcomputer 100 stores the equalizing data in the equalizing data storing unit 720 for the sample sound (S500).
The user repeats the steps from S300 to S500 while repeatedly selecting the standard sound list, and stores the equalized condition suitable for the user for each standard sound. The storage device used for the equalizing condition related to the standard sample sound used here is a semiconductor memory device which can be improved by a user input such as an EEPROM and a cancellation signal.
After the equalizing data is stored in the equalizing data storing unit 720 for the sample sound in step S500, the main microcomputer 100 displays the corresponding function so that the user can set the equalizing and volume magnitudes reflecting the position information, (S600). At this time, the main microcomputer 100 displays a position information input window for inputting the user's position information on the display device 110, receives the position information from the user through the key input unit 120, Which is the current position information, and displays it on the display window (S700).
An example sound storing unit 700 may be provided to allow the user to equalize the respective sound reproduced in consideration of the noise state of the corresponding position when the position information is input to the position information input window or the user position information is recognized by the GPS, (S800), and sets the size of the volume to be stored in the equalizing and volume data storing unit 210 according to the position information (S900).
Hereinafter, a process of reproducing a sound selected by the user in the multimedia player after the equalization of the example sound is completed will be described.
First, when a sound signal selected by a user through a function selection is input from one of the image reproducer 300, the broadcast receiver 400, and the sound reproducer 500, the main microcomputer 100 transmits the sound signal to the equalizer 140 And the equalizer 140 equalizes the sound signal and outputs the equalized signal to a signal processing system (not shown).
At this time, the main microcomputer 100 determines whether the automatic equalizing function is selected (S2000). If the automatic equalizing function is not selected, the main microcomputer 100 maintains the equalizing data set at the factory regardless of the genre of the sound signal And reproduces the sound signal by applying (S2010, S2020). At this time, the equalizer 140 may be bypassed if necessary.
If the automatic equalizing function is selected in step S2000, the main microcomputer 100 passes the inputted sound signal to the plurality of band pass filters 180 to detect the sound signal level for each frequency band (S2100) A standard sound signal level for each frequency band according to each genre stored in the standard sound signal level storage unit 710 for each frequency band is detected (S2200), and the detected sound signal level and the standard sound signal level are compared with each other S2300).
Thereafter, the main microcomputer 100 determines whether there is a match with the detected sound signal level among the standard sound signal levels which are compared with each other or within a set range (S2400). If it is determined in S2400 that the same thing does not exist, the main microcomputer 100 determines the current position of the user from the GPS receiver 200 (S2500), searches the equalizing data and the volume data storage 210 according to the position information, It is determined whether there is data set corresponding to the position information (S2600). If there is data set in step S2600, the main microcomputer 100 performs equalization according to the set data, controls the electronic volume 150 to adjust the volume according to the set data corresponding to the position information, An audio signal is reproduced (S2700).
However, if there is no signal input from the GPS in step S2500, or if there is no data set in step S2600, the multimedia player performs playback according to the equalizing setting at the time of shipment without equalizing and adjusting the volume (S2800).
If it is determined in step S2400 that there is a match, the main microcomputer 100 determines the genre of the input sound signal (S2900). In step S2900, the main microcomputer 100 stores the equalized data stored in step S500 in the equalizing data storage unit And performs equalization using the searched equalization data (S3000). The main microcomputer 100 recognizes the current position of the user from the GPS receiver 200 in step S3000, and if the current position is detected, the main microcomputer 100 stores the equalization data and the volume data storage unit 210 And determines whether there is data set corresponding to the current position information (S3200). If there is data set in step S3200, the main microcomputer 100 performs equalization again according to the set data, controls the electronic volume 150 to adjust the volume according to the set data corresponding to the position information The input sound signal is reproduced (S3300).
However, if there is no signal input from the GPS in step S3100, or if there is no data set in step S3200, sound signal reproduction is performed in step S3400 without equalizing and adjusting the volume or in step S3000.

As described above, the multimedia player and the reproducing method considering the characteristic information and the positional information of the user according to the present invention use the built-in example sound, which is a standard, so that the equalizing data set according to the user's preference, Unlike the conventional art, it is possible to consider both the characteristics and the taste of the user and the local characteristics that the user is presently located, by reproducing the inputted sound signal by using the equalizing data and the volume data set by the user using the information .
As a result, it is not necessary for the user to operate the equalizer every time the sound signal is reproduced, and it is possible to provide the sound optimized for the user according to the genre and local characteristics of the sound signal.

Claims (11)

A plurality of band pass filter units for filtering only acoustic signals of a predetermined frequency band from an acoustic signal input from any one of an image reproducer, a broadcast receiver, and an acoustic reproducer, an equalizer unit, a volume level A speaker unit for converting the amplified signal into a sound, a main microcomputer for controlling the respective units, a key input unit for inputting a user's control signal through the main microcomputer, A display unit for displaying functions controlled by the main microcomputer, and a power supply unit for supplying power to the respective units, An example acoustic storage unit for storing an example sound for determining the genre of the input sound signal; A standard sound signal level storage unit for storing a standard sound signal level which is a signal level of the example sound for the predetermined frequency band; And And a genre-specific equalizing data storage unit for storing genre-specific equalizing data set by the user in consideration of the hearing and taste of the user according to the genre of the example sound, The main microcomputer controls the band pass filter unit to detect an acoustic signal level of a predetermined frequency band of the inputted acoustic signal and compares the detected acoustic signal level with the standard acoustic signal level to determine the genre of the inputted acoustic signal And performs equalization on the input acoustic signal using the genre-specific equalizing data stored in the genre-specific equalizing data storage unit corresponding to the determined genre. delete delete delete delete delete The multimedia player according to claim 1, A GPS receiver for detecting location information of a current user; Further comprising: an equalizing data and a volume data storing unit for each position information set by the user in consideration of the noise state at the corresponding position in response to the position information, The main microcomputer equalizes the input sound signal by using the equalizing data for each positional information and the equalizing data and sound volume data for each positional information stored in the sound volume data storing unit corresponding to the current positional information of the user recognized by the GPS receiving unit, And a volume control unit for controlling the operation of the multimedia player. A plurality of band pass filter units for filtering only acoustic signals of a predetermined frequency band from an acoustic signal input from any one of an image reproducer, a broadcast receiver, and an acoustic reproducer, an equalizer unit, a volume level A speaker unit for converting the amplified signal into a sound, a main microcomputer for controlling the respective units, a key input unit for inputting a user's control signal through the main microcomputer, A display unit for displaying functions controlled by the main microcomputer, and a power supply unit for supplying power to the respective units, the method comprising: A first step of determining a genre of the input acoustic signal; And a second step of equalizing the inputted sound signal using the equalizing data set by the user in consideration of the hearing ability and the taste of the user corresponding to the genre determined in the first step. 9. The method of claim 8, The first step may include detecting and storing a standard sound signal level, which is a sound signal level for a predetermined frequency band of an example sound stored in advance according to the genre of the sound signal, detecting the sound signal level of the inputted sound signal, And comparing the sound signal level of the input sound signal with the standard sound signal level to determine the genre of the inputted sound signal. 10. The method of claim 9, The second step includes inputting and storing the equalizing data for each genre of the sample sound from the user, and equalizing the inputted sound signals using the equalizing data for each genre corresponding to the genre determined in the first step The multimedia reproduction method comprising the steps of: 10. The method of claim 9, A step of receiving and storing the equalization data and the volume data for adjusting the volume according to the set position information in consideration of the noise state at a specific position from the user and recognizing the current position of the user and corresponding to the recognized current position of the user Further comprising equalizing and adjusting the volume of the input acoustic signal using the equalizing data and the volume data according to the position information.

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