CN109671308B - Generation method of pronunciation mouth shape correction system - Google Patents

Abstract

The invention relates to a generation method of a pronunciation mouth shape correction system. The method is characterized in that through the coordination action steps of each functional module in the system, pronunciation based on standard vowel letter pronunciation is sent out, the pronunciation can easily find the place where the correct pronunciation of any phrase is spelled and read, through the place, the correct word matching with consonant letters can be realized, and in the process, learners can easily and pleasantly enjoy learning by spelling and reading pronunciation first and then memorizing. The mouth shape correcting unit in the system is established according to the structures of three mouth shape pronunciation modules, a correcting pronunciation module, a module with five vowel letters and a nine identifier address module, when the pronunciations of three basic mouth shapes are limited by pictographic symbols of the correcting pronunciation module, the pronunciations of the vowel letters can be easily read according to the pronunciation rules of the nine identifiers, and then the pronunciations of the consonant letters are assisted to complete the spelling of complete words, so that learners remember the rules of the read words once and for all.

Description

Generation method of pronunciation mouth shape correction system

Technical Field

The invention relates to a method for generating a language learning system, in particular to a method for generating a pronunciation mouth shape correction system.

Background

When speaking the teaching mode of foreign language learning, the common consensus is that the mouth shape, pronunciation, reading aloud and dialogue training are well mastered, otherwise, the user can not speak a fluent spoken language.

Chinese patent document CN107798927A discloses an oral english practice training system, which includes: english tense card group; the English tense card group is composed of a common current time sub-card, a common past time sub-card, a current progress time sub-card, a past progress time sub-card, a current completion time sub-card, a past completion time sub-card, a common future time sub-card and a past future time sub-card; the sub cards of the English tense card group are provided with basic sentence pattern structure titles with set tenses and subject languages, and the bottom ends of the basic sentence pattern structure titles are sequentially provided with a sentence pattern forming module and a spoken language practice module; the click-to-read pen is connected with the English tense card group in a click mode. The oral English training system designed by the invention not only can conveniently train and learn oral English, but also can correct the mouth shape and pronunciation.

Chinese patent document CN107689173A discloses a pickup device for efficiently improving english listening and speaking teaching, which comprises a pickup and an input keyboard, wherein the pickup is connected to a mobile terminal through a headset converter, the output end of the input keyboard is electrically connected to the input end of a central processing unit, the output end of the central processing unit is electrically connected to the input end of a loudspeaker, the pickup can record the pronunciation of words of students, so that the pronunciation of students can be corrected more accurately, the loudspeaker can play the pronunciation of correct standard words, the cloud data storage can store the audio of english short texts and the audio of american foreign language texts, so that the learning materials of students are more accurate, the data transmitter can input the learning materials into a cloud platform, the mobile terminal can record the voices and videos of students, and a teacher can guide the students about the pronunciation and pronunciation mouth shapes, the teacher can conveniently supervise the students, and the students can be encouraged to actively practice to master the language sense of the genuine beautiful language.

Chinese patent document CN106448287A discloses an information data processing method and system. The method is characterized in that: the system obtains user instructions, wherein the user instructions comprise a learning instruction, a testing instruction, a review instruction, a dictionary query instruction, an English reading instruction and a phonetic English instruction; skipping to a corresponding display interface according to a user instruction to obtain a corresponding English word, wherein the display interface comprises a learning interface, a testing interface, a review interface, a dictionary query interface, a reading interface and a phonetic notation interface; and on a display interface, performing phonetic notation on the English words according to a preset rule to obtain the phonetic notation English. The technical scheme is that the initial pronunciation of an English word is restored based on the pronunciation record of an international phonetic symbol, the English is annotated according to preset rules, the English pronunciation is standardized and unified, and the learning, testing, reviewing, dictionary inquiring, reading and annotating functions of a global English learner on the English are realized. This document gives people a new idea of learning and mastering english.

The above examples can prove that a large expansion space still exists in the technical field, especially in the process of foreign language learning.

Disclosure of Invention

The invention aims to provide a generation method of a pronunciation mouth shape correction system. Through the coordination action of each functional module in the system, pronunciation based on the vowel letter pronunciation standard is sent out, the place where the correct pronunciation of any phrase is spelled and read can be easily found through the pronunciation, the place can be accurately matched with consonant letters, and in the process, a way of spelling and reading pronunciation first and then memorizing is adopted, so that a learner can easily and pleasantly enjoy learning.

Therefore, the technical scheme for solving the problems is as follows: a method for generating a pronunciation mouth shape correction system, the method comprising the steps of operating the mouth shape correction system;

s1, the operated system is as follows: establishing a system consisting of functional modules, namely an uplink management platform, a language database, a data distribution unit and a mouth shape correction unit, wherein the language database comprises all English dictionaries, and the basic 26 letters of all words in the dictionaries are respectively covered by different numbers, the data distribution unit comprises a distribution unit for screening data distribution pointer modules, and the mouth shape correction unit consists of three mouth shape pronunciation modules, a correction pronunciation module, a module with five vowel letters and nine identifier address modules;

s2, when one or more word spelling requests occur, an uplink management platform of the system sends out a permission instruction;

s3, providing consonant letters with numbers and providing pictographic symbol number codes for nine identifier address modules by the language database to the data distribution unit according to the instruction;

s4, selecting corresponding pictographic symbol vowel letters from the address module in which the five vowel letters are recorded by a pointer module in the data distribution unit in a pointer selection mode;

s5, simultaneously, providing pictographic symbols corresponding to the vowels by three mouth shape pronunciation modules in the mouth shape correction unit;

s6, matching the mouth shape represented by the selected mouth shape code address with the identifier through the identifier data path by the selected pictographic symbol to finish pronunciation;

s7, the correct pronunciation is judged by the correction interpretation unit, and the judgment result is uploaded to a system uplink management platform through a data distribution unit to send a verification request;

and S8 the system ascending management platform verifies the qualified reply data distribution unit to finish the spelling of a complete word.

Preferably, in the system operated in step s1, the association relationship among the functional modules in the system is as follows: the database is connected with the nine identifier address modules, the three mouth shape pronunciation modules are connected with the pointer module, and the correction pronunciation module is connected with the data distribution unit; the nine identifier address modules are respectively provided with a data path, each data path is connected with the address module on which five vowels are recorded, and all the data paths are connected in parallel relative to the mouth shape correcting unit.

Furthermore, the three mouth shape pronunciation modules in the mouth shape correction unit are respectively inscribed with pictographic symbols of flat, flat and round mouth shapes.

Further, each pictographic symbol may be labeled above or below a vowel letter, and the consonant letters preceded by a numeral include prefix combined words, suffix combined words, and double letter combined words.

Furthermore, five vowels in the address module with five vowels recorded are each provided with a fixed number code.

Further, nine identifiers in the recognition unit are identified, each pictographic symbol in the identifiers can be respectively matched with five vowel letters, and pronunciation mouth shape correction of one word is completed at one time.

Further, the pictograms of the nine identifiers in the nine identifier address modules are: the pictographic symbols comprise a vertical bar shape, a left opening triangle shape, a left opening semi-arc shape, a bottom opening triangle shape, a bottom opening semi-arc shape, a right turning ninety-degree Z shape, a solid circle shape, a hollow circle shape and a constant bar shape, and each pictographic symbol can correspond to one digital code.

Further, the pictographic symbols of the nine identifiers are configured in the shape:

。

furthermore, the pictographic symbols of the flat mouth shape, the flat mouth shape and the circle in the three mouth shape pronunciation modules correspond to nine identifiers in the nine identifier address modules, wherein the flat mouth shape corresponds to a vertical bar shape, a left opening triangle shape and a left opening semi-arc shape respectively; the flat opening type is respectively corresponding to a bottom opening triangle and a bottom opening semi-arc; the round mouth shape is respectively corresponding to a solid round shape and a hollow round shape.

Furthermore, when the three mouth-shaped pictographic symbols of flat, flat and round are in corresponding relation with nine identifiers, the word for correcting pronunciation is a single syllable word, and relative to the consonant letters in the word, the word is pronounced, and the empty letters are silent; relative to the vowel letters in the word, the vowel letters are pronounced when they are marked with the identifier symbol, and they are not pronounced when they are not marked with the identifier symbol.

Furthermore, when the three mouth-shaped pictographic symbols of flat, flat and round are in corresponding relation with nine identifiers, the word for correcting pronunciation is a double-syllable word, if any one of the nine identifiers is positioned above the vowel letter of the word, accent is given when the pronunciation is corrected, otherwise, any one of the nine identifiers is positioned below the vowel letter of the word, and accent is given when the pronunciation is corrected.

Compared with the prior art, the pronunciation mouth shape correcting unit is established according to the structures of the three mouth shape pronunciation modules, the correcting pronunciation module and the address module with five vowel letters and nine identifiers, when the pronunciations of the three basic mouth shapes are limited by the pictographic symbols of the correcting pronunciation module, the pronunciations of the vowel letters can be easily read according to the pronunciation rules of the nine identifiers, and then the pronunciations of the consonant letters are assisted to complete the spelling of the complete words, so that a learner can remember the spelling of the words once and for all.

Drawings

FIG. 1 is a flow chart of a method for generating a pronunciation mouth shape correction system;

fig. 2 is a schematic configuration diagram of the pronunciation mouth shape correction system of fig. 1.

Detailed Description

Referring to fig. 1, the present embodiment describes a method for generating an orthodontic system, the method comprising the steps of operating the orthodontic system;

s1, checking the system servicing status: the system is based on the integration of all functional modules into a system generation platform, wherein the system generation platform comprises an uplink management platform, a language database, a data distribution unit and a mouth shape correction unit; the language database comprises all English dictionaries, the basic 26 letters of all words in the dictionaries are respectively covered by different numbers, the data distribution unit comprises a screening data distribution pointer module, and the mouth shape correction unit comprises three mouth shape pronunciation modules, a correction pronunciation module, a module with five vowel letters and nine identifier address modules;

s2, when one or more word spelling requests occur, an uplink management platform of the system sends out a permission instruction;

s3, providing consonant letters with numbers and providing pictographic symbol number codes for nine identifier address modules by the language database to the data distribution unit according to the instruction;

s4, selecting corresponding pictographic symbol vowel letters from the address module in which the five vowel letters are recorded by a pointer module in the data distribution unit in a pointer selection mode;

s5, simultaneously, providing pictographic symbols corresponding to the vowels by three mouth shape pronunciation modules in the mouth shape correction unit;

s6, matching the mouth shape represented by the selected mouth shape code address with the identifier through the identifier data path by the selected pictographic symbol to finish pronunciation;

s7, the correct pronunciation is judged by the correction interpretation unit, and the judgment result is uploaded to a system uplink management platform through a data distribution unit to send a verification request;

and S8 the system ascending management platform verifies the qualified reply data distribution unit to finish the spelling of a complete word.

In the system described in this example, the association relationship between the functional modules inside the system is: the database is connected with the nine identifier address modules, the three mouth shape pronunciation modules are connected with the pointer module, and the correction pronunciation module is connected with the data distribution unit; the nine identifier address modules are respectively provided with a data path, each data path is connected with the address module on which five vowels are recorded, and all the data paths are connected in parallel relative to the mouth shape correcting unit. In practice, the association relationship between the functional modules can be highly integrated on a similar kylin 980 chip and can be embedded in any carrier of a teaching network. Particularly an APP application product, which is presented to the user at any time. In order to realize the purpose of accurate pronunciation, the pictographic symbols of three mouth shapes, namely flat, flat and round, are respectively recorded in the three mouth shape pronunciation modules in the mouth shape correction unit in the embodiment, so that a user can accurately grasp the pronunciation and shape relationship of words and pronunciation according to the characteristics of the pictographic symbols. Accordingly, the system can provide in an indexed manner: each pictographic symbol may be labeled above or below a vowel, and the condition that consonants preceded by numbers include prefix combined words, suffix combined words, and double-letter combined words regularly completes the spelling of a word. In addition, when the system is generated, because five vowels in the address module in which the five vowels are recorded are provided with fixed number codes, a user can search the corresponding relation between the vowel and the mouth shape according to the codes. For example, nine identifiers in the recognition unit are identified, wherein each pictogram can be respectively matched with five vowel letters, and the pronunciation mouth shape correction of one word is completed at one time. For another example, the pictograms of the nine identifiers in the nine identifier address module are: the three mouth-shaped pictographic symbols of the flat, flat and round correspond to nine identifiers, the corresponding words for correcting pronunciation are provided, if the words are single syllable words, the words are consonant letters in the words, letters are seen to pronounce, and the empty letters are not pronounced; relative to the vowel letters in the word, the vowel letters are pronounced when they are marked with the identifier symbol, and they are not pronounced when they are not marked with the identifier symbol. When three mouth-shaped pictographic symbols of flat, flat and round are in corresponding relation with nine identifiers, the word for correcting pronunciation is a double-syllable word, if any one of the nine identifiers is positioned above the vowel letter of the word, accent is given when the pronunciation is corrected, otherwise, any one of the nine identifiers is positioned below the vowel letter of the word, and light sound is given when the pronunciation is corrected.

The present example is intended to emphasize that during the system generation, the action of the mouth shape correction must be associated with the nine identifiers of the invention, which in turn depend on the pictographic symbols matching the three mouth shapes, which are structured in their shape:

in practice, the pictographic symbols of three mouth shapes of flat, flat and round in the three mouth shape pronunciation modules and nine identifiers in the nine identifier address modules have corresponding relations that the flat mouth shapes respectively correspond to a vertical bar shape, a left opening triangle shape and a left opening semi-arc shape; the flat opening type is respectively corresponding to a bottom opening triangle and a bottom opening semi-arc; the round mouth shape is respectively corresponding to a solid round shape and a hollow round shape.

Fig. 2 is a schematic diagram of the system. As described in the previous example, the structural design of the system is that for correcting the mouth shape pronunciation, according to the above model structure, a pronunciation correction system based on flat, flat and round mouth shapes can be completely constructed. Since these three types of mouth shapes are defined by being digitized, the data in the datapath of each identifier will be compared to the five vowel letters while comparing the learner's pronunciation, and because the nine identifiers in the nine identifier address modules each have a selectable pictographic symbol that is assigned to: the mouth shape pronunciation correcting device comprises a vertical bar, a left opening triangle, a left opening semi-arc, a bottom opening triangle, a bottom opening semi-arc, a right turning ninety-degree Z shape, a solid circle, a hollow circle and a constant bar, wherein each pictographic symbol can correspond to one digital code, and any sound larger than mouth shape pronunciation data is considered as noise and is eliminated by a pronunciation correcting module when the pictographic symbol or the digital code is matched with a digitalized mouth shape, so that correct pronunciation is realized when the mouth shape and the pronunciation are matched. Given the teaching of this example, the system can be used in practice of learners and instructors who can perform handshaking in APP or man-machine conversation, network teaching, etc.

In summary, the above embodiments highlight the substantial contribution of the mouth correction unit in the system. That is, the mouth shape correcting unit is built according to the structures of three mouth shape pronunciation modules, a correcting pronunciation module, a module with five vowel letters and a nine identifier address module, when the pronunciations of three basic mouth shapes are limited by pictographic symbols of the correcting pronunciation module, the pronunciation of the vowel letters can be easily read according to the pronunciation rules of the nine identifiers, and then the spelling of the consonant letters is assisted, so that the complete word spelling can be completed, and learners can remember the spelling of the vocabulary once and for all.

Claims (3)

1. A method of generating an orthodontic system, the method comprising the steps of operating an orthodontic system;

s1, checking the system servicing status: the system comprises a running system, a plurality of functional modules and a plurality of functional modules, wherein the running system is established on the basis that the functional modules are integrated on a system generation platform, and the system generation platform comprises an uplink management platform, a language database, a data distribution unit, a mouth shape correction unit and an identification recognition unit; the language database comprises all English dictionaries, the basic 26 letters of all words in the dictionaries are respectively covered by different numbers, the data distribution unit comprises a screening data distribution pointer module, and the mouth shape correction unit comprises three mouth shape pronunciation modules, a correction pronunciation module, a module with five vowel letters and nine identifier address modules; in the operating system, the incidence relation among the functional modules in the operating system is as follows: the database is connected with the nine identifier address modules, the three mouth shape pronunciation modules are connected with the pointer module, and the correction pronunciation module is connected with the data distribution unit; the nine identifier address modules are respectively provided with a data path, each data path is connected with the address module in which five vowels are recorded, and each address module in which five vowels are recorded is provided with a fixed number code; all data paths are connected in parallel relative to the mouth shape correcting unit; pictographic symbols of three mouth shapes, namely flat, flat and round, are respectively recorded in the three mouth shape pronunciation modules; the corresponding relation between the pictographic symbols of the flat mouth shape, the flat mouth shape and the circle in the three mouth shape pronunciation modules and the nine identifiers in the nine identifier address modules is that the flat mouth shape respectively corresponds to a vertical bar shape, a left opening triangle shape and a left opening semi-arc shape; the flat opening type is respectively corresponding to a bottom opening triangle and a bottom opening semi-arc; the round mouth shape is respectively corresponding to a solid round shape and a hollow round shape; each pictographic symbol can be marked above or below a vowel, and consonants with numbers include prefix combined words, suffix combined words and double-letter combined words; nine identifiers in the identification recognition unit are identified, wherein each pictographic symbol can be respectively matched with five vowels, and the pronunciation mouth shape correction of one word is completed at one time; the pictographic symbols of the nine identifiers in the nine identifier address modules are respectively as follows: the device comprises a vertical bar shape, a left opening triangle shape, a left opening semi-arc shape, a bottom opening triangle shape, a bottom opening semi-arc shape, a right-turning ninety-degree Z shape, a solid circle shape, a hollow circle shape and a constant bar shape;

s2, system operation: when one or more word spelling requests occur, an uplink management platform of the system sends out a permission instruction;

s3, providing consonant letters with numbers and providing pictographic symbol number codes for nine identifier address modules by the language database to the data distribution unit according to the instruction;

s4, selecting corresponding pictographic symbol vowel letters from the address module in which the five vowel letters are recorded by a pointer module in the data distribution unit in a pointer selection mode;

s5, simultaneously, providing pictographic symbols corresponding to the vowels by three mouth shape pronunciation modules in the mouth shape correction unit;

s6, matching the mouth shape represented by the selected mouth shape code address with the identifier through the identifier data path by the selected pictographic symbol to finish pronunciation;

s7, the correct pronunciation is judged by the correction interpretation unit, and the judgment result is uploaded to a system uplink management platform through a data distribution unit to send a verification request;

and S8, the system uplink management platform checks the qualified reply data distribution unit to finish the spelling and reading of a complete word.

2. The method for generating an oral correction system according to claim 1, wherein when three oral pictographic symbols of flat, flat and round are associated with nine identifiers, the corresponding word for which the pronunciation is corrected is a single syllable word, and when a vowel in the word is recognized as an identifier symbol, the word is sounded, and when no identifier symbol is recognized, the word is not sounded.

3. The method for generating an oral correction system according to claim 1, wherein when the pictographic symbols of three types of flat, flat and round are associated with nine identifiers, the corresponding word is a word for correcting pronunciation, and when the word is a bi-syllabic word, any one of the nine identifiers is positioned above the vowel letter of the word and accentuated when the pronunciation is corrected, and when the symbol is positioned below the vowel letter of the word and accentuated when the pronunciation is corrected.

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