KR101620790B1 - Double sound source playing apparatus and method for 3-stage vocal language learning - Google Patents

Abstract

A double sound source reproducing apparatus and method for three-stage speech language learning are disclosed. A sound source database for storing sound language sound sources and background sound sources, respectively; A voice language reproducing module for reproducing a voice language sound source stored in the sound source database; A background sound source reproduction module for reproducing a background sound source stored in the sound source database as a background sound for a sound source of a sound to be reproduced in the sound source language reproduction module; Wherein the audio language reproducing module controls the audio language sound source and the background sound source reproducing module to simultaneously reproduce the background sound source, and the audio language sound source reproduced in the audio language reproducing module and the background sound source reproduced in the background sound source reproducing module Real time analyzing and controlling the volume of each of the audio language reproducing module and the background sound reproducing module according to the analysis result and performing an equalizing function so that the sound dissociation phenomenon and the interference phenomenon generated between the audio sound source and the background sound source And a feedback / interference control module for feedback control to remove the control signal. According to the above-described double sound source reproducing apparatus and method for learning the three-phonetic language, each text of the sound source is analyzed semantically in the spoken language learning, It is possible to improve the ability to easily listen and understand by reproducing the divided portions with a little time interval.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double sound source reproducing apparatus and method for learning three-

The present invention relates to a double sound source reproducing apparatus and method, and more particularly, to a double sound source reproducing apparatus and method for three-stage audio language learning.

A sound source player for playing sound source files such as MP3 is widely used for language learning as well as music reproduction.

Open Patent Publication Nos. 10-2010-0137658 and 10-2007-0099921 show such representative sound source players.

However, the conventional sound source player usually consists of a closed player that reproduces only one sound source, changes the sound source to a form different from that provided by the supplier, or is impossible to reproduce after combining sound sources.

Conventionally, there is a double sound source player, but a sound source player outputs a sound source through a right earphone and another sound source player outputs a sound source through a left earphone and outputs them individually. It is configured so that the two sound sources can not be combined and output.

However, in the case where two sound source players are configured to output through one output terminal at the same time, one sound source of two sound sources is cut off or interferes with each other, resulting in a problem of generating a lot of noises. In addition, there is a problem that it is not possible to perform the volume adjustment or the equalization for each sound source player, respectively, so that it is impossible to solve the interference or the sound reduction.

On the other hand, the existing language learning method is mainly divided into words such as subject, predicate, object, and adverb. However, in spoken language, especially in English, intonation is formed mainly in the part that conveys its important meaning, and the adjective that extends mainly to a subject or meaning such as I or You is a tendency to speak with a low intonation . In such a case, it is effective to concentrate on the obligatory part of the spoken language used in everyday life and to listen to it.

However, the existing language learning method is not limited to the spoken language, and it is not structured so that it can learn the spoken language more efficiently and improve the listening ability.

On the other hand, the conventional sound source player reproduces only one sound source, so that only the sound source reproduction for the language learning is repeated, so that the language learning is quite tedious and easily tired.

10-2010-0137658 10-2007-0099921

An object of the present invention is to provide a double sound source reproducing apparatus for learning a three-stage speech language.

Another object of the present invention is to provide a method of reproducing a double sound source for a three-stage speech language learning.

The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings, in which: FIG. A voice language reproducing module for reproducing a voice language sound source stored in the sound source database; A background sound source reproduction module for reproducing a background sound source stored in the sound source database as a background sound for a sound source of a sound to be reproduced in the sound source language reproduction module; Wherein the audio language reproducing module controls the audio language sound source and the background sound source reproducing module to simultaneously reproduce the background sound source, and the audio language sound source reproduced in the audio language reproducing module and the background sound source reproduced in the background sound source reproducing module And controlling volume of each of the audio language playback module and the background sound source playback module according to the analysis result and performing an equalizing function to adjust the volume of each sound source and the background sound source, And a playback / interference control module for feedback control to eliminate the phenomenon in real time.

Here, the speech language semantic analysis control module synchronizes the voice language sound source stored in the sound source database with the voice language sound source reproduced in the voice language reproduction module, displays the same on a display in text in real time, The semantic analysis is performed in real time on the text displayed in real time and each sentence of the text is divided into an introduction part, a semantic part and an extension part according to the result of the execution, And controlling the entire sentence to be repeated a predetermined number of times with a predetermined time interval therebetween.

At this time, the introduction unit may be composed of a subject, a phoneme, and a word indicating affirmative or negative, or at least two or more combinations, and the semantic unit may be a descriptor or object, or a combination of a descriptor and an object.

According to another aspect of the present invention, there is provided a double sound source reproducing method for learning a three-phonetic sound language, comprising: a sound / language reproduction module for reproducing a sound / voice source stored in advance in a sound / Module simultaneously reproduces a background sound source stored in advance in the sound source database as a background sound for the sound source of the sound source, and the sound source language semantic analysis control module reproduces a sound source of the sound source previously stored in the sound source database, Displaying in real time on the display in synchronized with the sound source; Analyzing in real time whether the sound reproduction or interference phenomenon occurs in the sound source and the background sound source played back in the sound source language reproduction module; The playback / interference control module controls volume of each of the audio language playback module and the background sound source playback module according to the analysis result and performs an equalizing function to generate a sound between the sound source and the background sound source Feedback control of the sound source language reproduction module and the background sound source reproduction module so as to eliminate a conspicuous sound phenomenon and an interference phenomenon in real time; The audio language playback module and the background sound source playback module perform volume control and equalizing functions of the audio language playback module and the background sound source playback module according to the feedback control of the playback / interference control module, And removing the interference phenomenon and reproducing it.

At this time, the speech language reproduction module reproduces the speech-language sound source stored in advance in the sound source database under the control of the reproduction / interference control module, and the background sound source reproduction module reproduces the background sound source stored in advance in the sound source database as the background sound for the sound source And the voice language semantic analysis control module synchronizes the voice language sound source previously stored in the sound source database with the voice language sound source reproduced in the voice language reproduction module and displays the text in real time on a display Language semantic analysis control module performs a semantic analysis on the text displayed in real time on the display and divides each sentence of the text into an introduction part, a semantic part and an extension part according to the result of the semantic analysis, Speech language semantics According to the control of the analysis control module, the speech language reproduction module may repeat the entire sentence a predetermined number of times with a predetermined time interval between the separated introduction part, the semantic part and the extension part.

Here, the introduction unit may be composed of a subject, a phoneme, and a word indicating affirmation or negation, or at least two or more combinations, and the semantic unit may be a descriptor or object, or a combination of a descriptor and an object, and the expanding unit may be composed of an adverb.

According to the double sound source reproducing apparatus and method for the three-stage spoken language learning described above, in the spoken language learning, each text of the sound source is analyzed semantically to convey important meaning It is possible to improve the ability to easily listen and understand by separating the non-existent portion and the non-existent portion and reproducing the separated portions with a little time interval. In addition, there is an effect of enhancing the language expressive power and the utilization ability by combining the expressions in the pool of semantically analyzed expressions to produce various sentence expressions.

In addition, since the background sound sources that are useful for language learning are simultaneously reproduced and output together with the sound-language sound source, the language learning that is easily tired, disgusted, and abandoned is not tedious.

Here, it is possible to analyze in real time the dissociation phenomenon of the sound source player of one sound source or the interference phenomenon of the sound sources of the two sound sources, which can be generated by the simultaneous combination reproduction of the double sound source player, so that the volume and the equalizer of each sound source player There is an effect of solving the problem of interference and sound dissociation which occur during sound source reproduction.

On the other hand, in the language learning, it can contribute to the creation of the own space and the language learning by the background music rather than the quiet environment.

FIG. 1 is a block diagram of a double sound source reproduction apparatus for three-stage speech language learning according to an embodiment of the present invention.
FIG. 2 is a flowchart of a double sound source reproduction method for learning a three-stage speech language according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail to the concrete inventive concept. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

The terms first, second, A, B, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. And / or < / RTI > includes any combination of a plurality of related listed items or any of a plurality of related listed items.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

FIG. 1 is a block diagram of a double sound source reproduction apparatus for three-stage speech language learning according to an embodiment of the present invention.

Referring to FIG. 1, a double sound source reproduction apparatus (hereinafter referred to as a 'double sound source reproduction apparatus') 100 for three-stage speech language learning according to an embodiment of the present invention includes a sound source database 110, A sound source language reproduction module 130, a reproduction / interference control module 140, and a speech language semantic analysis control module 150. The sound source language reproduction module 130 may include a sound language reproduction module 120, a background sound source reproduction module 130,

The double sound source reproducing apparatus 100 is configured such that the sound source reproducing module 120 and the background sound source reproducing module 130 are respectively provided and the respective sound sources are combined and outputted. The voice language sound source is constituted so as to be able to solve the tiredness and boredness which are often felt in the language learning by being reproduced together with the background sound source.

On the other hand, the double sound source reproducing apparatus 100 analyzes semantics of a sound source in real time, divides each text into three or three parts, separates important parts for conveying meaning, It is composed of supporting to practice.

On the other hand, the double sound source reproducing apparatus 100 analyzes real-time sound effects of one sound source or an interference phenomenon between mutual sound sources at the time of simultaneous combination reproduction of a sound source of a sound source and a background sound source, And the background sound source reproduction module 130 are controlled and equalized to prevent sounding in real time and to eliminate interference.

Hereinafter, the detailed configuration will be described.

The sound source database 110 may be configured to store a sound source and a background sound source, respectively.

The speech language sound source may be a sound source of a foreign language such as English or German, and may be composed of a spoken language sound source composed mainly of a spoken language.

The background sound source may be composed of a sound source suitable for being used as a background sound such as a classical music or a piano music. Alternatively, the background sound source may be a sound source that induces brain waves that are helpful in language learning.

The audio language reproduction module 120 may be configured to reproduce a voice language sound source stored in the sound source database 110. [

The background sound source reproduction module 130 may be configured to reproduce a background sound source stored in the sound source database 110 as a background sound for a sound source of a sound to be reproduced in the sound source language reproduction module 120.

The audio language reproducing module 120 and the background sound reproducing module 130 are separate sound source players, and the sound source and the background sound source reproduced through the respective players are combined into a single speaker 10 Can be output.

The playback / interference control module 140 may be configured to control the audio language source playback of the audio language playback module 120 and the background sound source playback of the background sound source playback module 130.

The playback / interference control module 140 may be configured to analyze in real time the audio-language sound source played by the audio language playback module 120 and the background sound source played back by the background sound source playback module 130. Here, an object to be analyzed in real time is an output sound output by reproduction.

The playback / interference control module 140 feedback controls the volumes of the audio language playback module 120 and the background sound playback module 130 according to the analysis result and feedback controls the equalizing function Lt; / RTI >

The combined sound output at the same time causes a phenomenon that one of the sound sources affects the other sound sources so that the sound source of one of the sound sources is cut off or the sound sources interfere with each other. The sound source language reproduction module 120 and the background sound source reproduction module 130 may be feedback-controlled so that the sound isolation phenomenon and the interference phenomenon generated between the sound source and the background sound source can be removed in real time.

As a result, it is possible to eliminate a sound phenomenon and an interference phenomenon that occur in real time in real time, and to output a clear sound.

The speech language semantic analysis control module 150 synchronizes the voice language sound source stored in the sound source database 110 with the voice language sound source reproduced in the voice language reproduction module 120 and displays text on the display 20, In real time.

The speech language sound source is outputted as text on the display 20 in synchronization with the output through the speaker 10. [

The speech language semantic analysis control module 150 may be configured to perform semantic analysis on text displayed in real time on the display 20 in real time. Semantic analysis enables us to recognize the meaning of subject, predicate, object, adjective, etc. of each text.

The speech language semantic analysis control module 150 may be configured to divide each sentence of the text into an introduction part, a semantic part, and an extension part according to the result of the execution.

Here, the lead-in portion may be composed of a subject, a verb and a word indicating affirmation or negation. Or the lead-in portion may be composed of at least two of a subject, a verb and a word indicating affirmation or negation. In the case of English, the verb 'Be', which has no practical meaning, can also be included.

On the other hand, the semantic part can be composed of a predicate or an object. Or semantic part may consist of a combination of a predicate and an object. The semantic part represents the key semantic part of a practical sentence.

And the extension part can be composed of an adjective. Extension is the part that extends or supplements the semantics.

Here, in the spoken language, the meaning is particularly important. Since predicates and objects are the most important parts of communication by spoken language, it is important to hear and understand the meaning correctly in a spoken dialogue.

The speech language semantic analysis control module 150 can find the semantic meaning of this spoken dialogue through semantic analysis. In spoken-word practice, it can be divided into the introduction part, the semantic part, and the extension part without dividing them into subject, predicate, object, and adverb, as in the written language, and separate them to control listening exercises.

The speech language semantic analysis control module 150 may be configured such that the speech language reproducing module 120 repeatedly reproduces the entire sentence a predetermined number of times with a predetermined time interval between the leading part, the semantic part and the extending part separated from each other.

Basically, the speech language semantic analysis control module 150 separates each sentence itself first from the speech language sound source through semantic analysis, and separates the introduction part, the semantic part, and the extension part.

The speech language semantic analysis control module 150 may be configured to control the speech language reproduction module 120 so that each sentence is repeatedly reproduced a predetermined number of times according to a user setting. Listening practice of language is important for iterative practice, so it is helpful for iterative learning.

The speech language semantic analysis control module 150 is configured to control the speech language reproduction module 120 so that each sentence is divided into an introduction part, a semantic part, and an extension part according to their importance and significance, . Each sentence can help you practice listening by placing importance on each of the three levels of composition.

For example, in the sentence 'She will be able to swim soon', the introduction part will be 'She will be able to', the meaning part will be 'swim', and the extension part will be 'soon'.

As another example, in the case of 'I did not want to believe it', the introductory part could be 'I did not want to' and the meaning part could be 'believe it'.

As another example, in 'I need a new bag', the beginning part can be 'Do not', the semantic part can be 'go', and the extension part can be 'there'.

Another example would be 'What does she do all day long?'

Here, the speech language semantic analysis control module 150 not only controls the repetition of the sentences, but also reproduces 'What does she', 'do', and 'all day long' Can be semantically divided into three chunks to practice listening and improve listening comprehension.

Meanwhile, the speech language semantic analysis control module 150 controls the speech language reproduction module 120 to separate each of the sentences into an introduction part, a semantic part and an extension part according to their importance and meaning, It can be configured to learn infinite language expressions by selecting expressions from a semantic pool and an extension pool.

For example, if you learn the introductory phrase 'I'm going to' in the introductory pool, you can add various semantic representations such as 'see a movie' or 'buy a ticket' m going to see a movie 'or' I'm going to buy a ticket '. Thus, the user can listen to and learn a sentence using various expressions of the introduction part "I'm going to to".

As another example, if you want to learn the semantic expression of 'accept my apology' in the semantic annotation, you can combine the expression 'Please' of the introductory pool and output the sentence 'Please accept my apology'. The user can learn through sentences using the meaning of 'accept my apology'.

As another example, if there is an extension of 'at noon' in the extension pool, 'We eat lunch' and 'eat lunch' are combined in each pool to select 'We eat lunch at noon 'sentence.

FIG. 2 is a flowchart of a double sound source reproduction method for learning a three-stage speech language according to an embodiment of the present invention.

Referring to FIG. 2, according to the control of the reproduction / interference control module, the voice language reproducing module reproduces a voice-language sound source stored in advance in the sound source database, and the background sound source reproducing module records the background sound source, And the voice language semantic analysis control module synchronizes the voice language sound source stored in advance in the sound source database with the voice language sound source reproduced in the voice language reproduction module and displays the text in real time on the display in step S101 ).

Here, the speech language semantic analysis control module performs a semantic analysis on the text displayed in real time on the display, divides each sentence of the text into an introduction part, a semantic part and an extension part according to the result, According to the control of the analysis control module, the speech language reproducing module may be configured to repeatedly reproduce the entire sentence a predetermined number of times with a predetermined time interval between the separated introduction part, meaning part and extension part.

Here, the lead-in portion may be composed of a subject, a verb and a word indicating affirmation or negation. Or the lead-in portion may be composed of at least two of a subject, a verb and a word indicating affirmation or negation. In the case of English, the verb 'Be', which has no practical meaning, can also be included.

On the other hand, the semantic part can be composed of a predicate or an object. Or semantic part may consist of a combination of a predicate and an object. The semantic part represents the key semantic part of a practical sentence.

And the extension part can be composed of an adjective. Extension is the part that extends or supplements the semantics.

Next, in step S102, the playback / interference control module analyzes in real time whether a sound or sound source is reproduced in the audio language playback module and a background sound source is played back in the background sound source playback module.

Next, the playback / interference control module controls the volume of each of the audio language playback module and the background sound source playback module according to the analysis result and performs an equalizing function so that the sound / And feedback control is performed on the speech language playback module and the background sound source playback module so as to eliminate the interference phenomenon in real time (S103).

Next, the audio language playback module and the background sound source playback module perform volume control and equalizing functions of the audio language playback module and the background sound source playback module according to the feedback control of the playback / interference control module, (S104).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims. There will be.

110: sound source database
120: Audio language reproduction module
130: background sound source reproduction module
140: playback / interference control module
150: speech language semantic analysis control module

Claims (4)

A sound source database for storing sound language sound sources and background sound sources, respectively;
A voice language reproducing module for reproducing a voice language sound source stored in the sound source database;
A background sound source reproduction module for reproducing a background sound source stored in the sound source database as a background sound for a sound source of a sound to be reproduced in the sound source language reproduction module;
Wherein the audio language reproducing module controls the audio language sound source and the background sound source reproducing module to simultaneously reproduce the background sound source, and the audio language sound source reproduced in the audio language reproducing module and the background sound source reproduced in the background sound source reproducing module And controlling volume of each of the audio language playback module and the background sound source playback module according to the analysis result and performing an equalizing function to adjust the volume of each sound source and the background sound source, A playback / interference control module for feedback control to eliminate the phenomenon in real time;
A voice language sound source stored in the sound source database is synchronized with a voice language sound source reproduced in the voice language reproduction module and is displayed in real time in text on a display and a semantic analysis The speech language reproducing module divides each sentence of the text into a lead-in part, a semantic part and an extension part according to a result of the execution, And a speech language semantic analysis control module for controlling the speech language semantic analysis control module to repeat reproduction a predetermined number of times,
Wherein the speech language semantic analysis control module comprises:
A speech language reproducing module for selectively combining the separated meaning part with an introduction part and an extension part of a preformed introduction pool and an expansion part pool and arranging an introduction part and an expansion part selectively coupled with the semantic part and the semantic part, Controls to reproduce a portion,
The lead-in portion may be a subject, a verb and a word indicating affirmation or negation, or a combination of at least two combinations,
The semantic part is a descriptive word or an object, or a combination of a descriptive word and an object,
Wherein the expansion unit comprises an adverb, and the extension unit comprises an adverb. delete According to the control of the reproduction / interference control module, the voice language reproducing module reproduces the voice-language sound source stored in advance in the sound source database, and the background sound source reproducing module simultaneously reproduces the background sound source previously stored in the sound source database as the background sound for the voice- A voice language semantic analysis control module synchronizing a voice language sound source stored in advance in the sound source database with a voice language sound source reproduced in the voice language reproduction module and displaying the text in real time on a display;
Analyzing in real time whether the sound reproduction or interference phenomenon occurs in the sound source and the background sound source played back in the sound source language reproduction module;
The playback / interference control module controls volume of each of the audio language playback module and the background sound source playback module according to the analysis result and performs an equalizing function to generate a sound between the sound source and the background sound source Feedback control of the sound source language reproduction module and the background sound source reproduction module so as to eliminate a conspicuous sound phenomenon and an interference phenomenon in real time;
The audio language playback module and the background sound source playback module perform volume control and equalizing functions of the audio language playback module and the background sound source playback module according to the feedback control of the playback / interference control module, And removing the interference phenomenon,
And a sound source language reproduction module that reproduces a sound source language source previously stored in the sound source database according to the control of the reproduction / interference control module, and a background sound source reproduction module reproduces the background sound source stored in advance in the sound source database as a background sound for the sound source Wherein the voice language semantic analysis control module synchronizes the voice language sound source previously stored in the sound source database with a voice language sound source reproduced in the voice language playback module and displays the text in real time on a display,
The speech language semantic analysis control module performs a semantic analysis on the text displayed in real time on the display and divides each sentence of the text into an introduction part, a semantic part and an extension part according to the result of the semantic analysis, Wherein the speech language reproduction module repeatedly reproduces the entire sentence a predetermined number of times with a predetermined time interval between the separated introduction part, the semantic part and the extension part according to the control of the analysis control module, Wherein the analysis control module selectively combines the distinguished semantic part with an introductory part and an extension part of an introductory part pool and an extension part pool which are provided in advance and that the speech language reproducing module selectively combines the semantic part and the semantic part Regenerates the lead-in portion and the extension portion,
The lead-in portion may be a subject, a verb and a word indicating affirmation or negation, or a combination of at least two combinations,
The semantic part is a descriptive word or an object, or a combination of a descriptive word and an object,
Wherein the expansion unit comprises an adverb, and the expansion unit comprises an adverb. delete

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