CN111580684A - Method and storage medium for realizing multidisciplinary intelligent keyboard based on Web technology - Google Patents

Abstract

The invention provides a method and a storage medium for realizing a multidisciplinary intelligent keyboard based on a Web technology, wherein the method comprises the following steps: acquiring expected input transmitted by a user; according to the subject selected by the user, carrying out full analysis on the expected input to obtain keyboard data matched with the expected input and a type field corresponding to the keyboard data; when the input box is activated, rendering a corresponding keyboard through a web front end according to the keyboard data, the type field, the discipline and the user-selected discipline. The invention can combine the disciplinary, subject and expected input to intelligently generate the virtual input keyboard meeting the scene requirements, thereby greatly improving the input efficiency of the user and optimizing the input experience; but also can improve the efficiency of education and teaching.

Description

Method and storage medium for realizing multidisciplinary intelligent keyboard based on Web technology

Technical Field

The invention relates to the field of simulated keyboards, in particular to a method and a storage medium for realizing a multidisciplinary intelligent keyboard based on a Web technology.

Background

In the web-end application in the field of K12 education (preschool education to high school education), the input content expected for the answer to the topic is very different in different disciplines. The virtual keyboards on the market are mainly conventional keyboards, numeric keyboards and universal symbol keyboards corresponding to different language input methods. The keyboards cannot meet daily content input in the K12 education field, and cannot intelligently identify input content which should be contained in the keyboards in different subject scenes, so that more convenient operation is improved for users, and user experience is optimized.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the method and the storage medium for realizing the multidisciplinary intelligent keyboard based on the Web technology can intelligently generate a virtual keyboard meeting the requirements corresponding to the study section, the discipline and the expected input, improve the operation convenience of a user and optimize the user experience.

In order to solve the technical problems, the invention adopts the technical scheme that:

a method for realizing a multidisciplinary intelligent keyboard based on a Web technology comprises the following steps:

acquiring expected input transmitted by a user;

according to the subject selected by the user, carrying out full analysis on the expected input to obtain keyboard data matched with the expected input and a type field corresponding to the keyboard data;

when the input box is activated, rendering a corresponding keyboard through a web front end according to the keyboard data, the type field, the discipline and the user-selected discipline.

The invention provides another technical scheme as follows:

a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, is adapted to carry out the steps of the above-mentioned method for implementing a multidisciplinary smart keyboard based on Web technology.

The invention has the beneficial effects that: the invention can acquire all input data which are possibly needed in the input scene according to the specific discipline section, discipline type and expected input of a user, and render the input data into the virtual keyboard through the web front end. By intelligently generating the keyboard data matched with the scene in a targeted manner for operation, the input efficiency can be greatly improved, the user experience is optimized, and the education career is better served.

Drawings

FIG. 1 is a schematic flow chart of a method for implementing a multidisciplinary intelligent keyboard based on a Web technology according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a method for implementing a multidisciplinary intelligent keyboard based on a Web technology according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a functional module composition of a multidisciplinary intelligent keyboard implemented based on a Web technology in an embodiment of the present invention;

fig. 4 shows the content executed by each functional module according to embodiment 3.

Description of reference numerals:

m1, an analysis module; m2, input box module; m3, keyboard module.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The most key concept of the invention is as follows: all input data which may be needed in the input scene can be acquired according to the specific discipline, discipline type and expected input of a user, and the input data is rendered into a virtual keyboard through the web front end.

The technical terms related to the invention are explained as follows:

referring to fig. 1, the present invention provides a method for implementing a multidisciplinary intelligent keyboard based on a Web technology, including:

acquiring expected input transmitted by a user;

according to the subject selected by the user, carrying out full analysis on the expected input to obtain keyboard data matched with the expected input and a type field corresponding to the keyboard data;

when the input box is activated, rendering a corresponding keyboard through a web front end according to the keyboard data, the type field, the discipline and the user-selected discipline.

From the above description, the beneficial effects of the present invention are: compared with the virtual input keyboard on the market, the method and the device can intelligently generate the proper keyboard required by the user input according to different disciplines, disciplines and expected input, improve the input experience of the K12 user and improve the teaching efficiency.

Further, the method also comprises the following steps:

and binding the keyboard and the keyboard input function.

Further, the keyboard input function includes: the keys of the keyboard are used for inputting characters, deleting and moving the cursor position left and right.

According to the description, the keyboard and the keyboard input function are bound, the keyboard functions such as key input, key input deletion, key input insertion and the like are given, and the key functions of the application are enriched and have higher practicability.

Further, the method also comprises the following steps:

and when the key information triggered by the operation of the keyboard by the user is monitored, converting the key information into input content and rendering the input content in an input frame.

As can be seen from the above description, a fast display of the contents of the selected key can be achieved.

Further, the full-scale analysis is performed on the expected input according to the subject selected by the user, and the keyboard data matched with the expected input and the type field corresponding to the keyboard data are obtained, specifically:

and according to the subject selected by the user, carrying out full-scale analysis on the character strings and characters contained in the expected input to obtain the keyboard data matched with the expected input and the type fields corresponding to the keyboard data.

As can be seen from the above description, the subject is combined to perform full-scale analysis on the input of the subject, so that the acquired type field is more accurate and comprehensive.

Furthermore, the type field comprises one or more than two of a numeric keyboard, an alphabetic keyboard, a quality unit keyboard, an initial consonant keyboard, a vowel keyboard and an initial tone keyboard.

As can be seen from the above description, in the present application, the plurality of type fields obtained by full parsing can completely cover all input possibilities corresponding to the expected input, thereby ensuring that accurate and comprehensive keyboard data is provided for the user.

The invention provides another technical scheme as follows:

a computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, is adapted to carry out the steps of the above-mentioned method for implementing a multidisciplinary smart keyboard based on Web technology.

From the above description, the beneficial effects of the present invention are: it can be understood by those skilled in the art that all or part of the processes in the above technical solutions can be implemented by instructing relevant hardware through a computer program, where the program can be stored in a computer readable storage medium, and when the program is executed, the program can include the processes of the above methods, so as to achieve that all input data that may be needed in the input scenario can be acquired according to a specific disciplinary segment, a disciplinary type, and a user expected input, and rendered into a virtual keyboard through a web front end. By intelligently generating the keyboard data matched with the scene in a targeted manner for operation, the input efficiency can be greatly improved, the user experience is optimized, and the education career is better served.

Example one

Referring to fig. 2, the present embodiment provides a method for implementing a multidisciplinary intelligent keyboard based on a Web technology, which can obtain all input data required in the input scene according to a disciplinary segment, a disciplinary type and an expected input of a user, and generate a virtual input keyboard through Web front-end rendering, thereby greatly improving input efficiency and user experience.

The method of the embodiment may include:

s1: acquiring expected input transmitted by a user; such as 1kg, 4ml, etc.;

s2: acquiring a subject selected by a user; such as chemical;

s3: according to the subject selected by the user, carrying out full analysis on the expected input to obtain keyboard data matched with the expected input and a type field corresponding to the keyboard data;

specifically, according to the subject selected by the user, under the current subject condition, the character strings and characters contained in the expected input are analyzed in full, all possible input data matched with the expected input are obtained through analysis, then a plurality of types are obtained through conversion (or matching) according to the analysis, a type field is formed, and finally the corresponding input box is informed to store the type field. The type field comprises one or more than two of a numeric keyboard, an alphabetic keyboard, a quality unit keyboard, an initial keyboard, a vowel keyboard and an tone keyboard

Preferably, different sub-analysis modules are configured in advance to realize full-scale analysis corresponding to different disciplines.

For example, in the linguistic discipline, when the expected input is pinyin, the analysis module obtains the expected input transmitted by the user, and then transmits the expected input to the sub-analysis module in charge of the linguistic discipline, the sub-analysis module obtains whether the input contains initials, finals or tones through global matching of text symbols in the input, and transmits the matching result to the input frame processing module in the form of fields (at least one type is contained in the type field) of the type (if the matching result is contained simultaneously, the corresponding type is an initial keyboard, a final keyboard, a tone keyboard and the like) for subsequent processing.

S4: when the input box is activated, rendering a corresponding keyboard through a web front end according to the keyboard data, the type field, the discipline and the user-selected discipline.

The activation of the input box refers to that the input box obtains a focus, namely a phenomenon that a user clicks the text input box by a mouse or a flashing cursor appears in the text input box by a keyboard key, and the user can input the text input box.

When the input box is activated, the current type field is informed to the corresponding keyboard for processing. The specific keyboard processing process comprises the following steps: and rendering the required keyboard through the web front end according to at least one type field, the selected subject, the selected lesson and all input data contained in the keyboard under the expected input.

For example, when the input box is activated, if the obtained current type field is both the initial keyboard and the final keyboard; determining the content (ensuring no super-class) to be displayed by the initial consonant keyboard and the final consonant keyboard at the moment under the condition of a certain school stage (such as six grades of primary school) of the Chinese subject; the required keyboard is then rendered by the web front end.

S5: and binding the keyboard and the keyboard input function.

Specifically, the keyboard input function includes: the keyboard has the input functions of inputting characters by keys, deleting, moving cursor position left and right and the like.

By this step, the enablement and operability of the generated virtual keyboard is achieved.

S6: and when the key information triggered by the operation of the keyboard by the user is monitored, converting the key information into input content and rendering the input content in an input frame.

Namely, when a user uses a keyboard to perform key input, the input content and the input type are transmitted to the input box processing module, and finally the key input is correctly displayed in the input box of the web end page.

Through this embodiment, can respond to user's input intelligently at whole process, great improvement student efficiency of answering, optimized answer experience.

Example two

Referring to fig. 3 and 4, in the first embodiment, a multi-disciplinary intelligent keyboard implemented based on a Web technology is provided, and the execution of the specific steps is implemented by a function module.

The intelligent keyboard of the embodiment comprises three modules:

the parsing module M1: the keyboard is mainly responsible for intelligently analyzing input data required by the keyboard according to subject and expected input;

keyboard processing module M3: rendering the obtained keyboard data into a virtual keyboard and binding an input function according to the learning section;

the input box processing module M2: mainly responsible for calling out the corresponding keyboard.

More specifically, the parsing module M1 is divided into different sub-parsing modules corresponding to different disciplines, so as to specifically process the expected input data parsing work under different disciplines. Each sub-analysis module can carry out correct full-quantity analysis according to the character string and the symbol of the expected input under the current subject condition to obtain all possible input data matched with the expected input, convert the input data into a plurality of type fields and transmit the type fields to the input frame processing module.

The input box processing module M2 comprises an input box for informing the keyboard processing module of at least one type field sent from the parsing module when the input box obtains focus.

The keyboard processing module M3 combines the type field sent from the input frame processing module with the corresponding paragraph to obtain the paragraph, subject and input data contained in the keyboard under the expected input, renders the required keyboard through the web front end, and binds the corresponding input functions of keyboard key input characters, deletion, left and right key cursor position movement, etc. And when the keyboard carries out key input, the input content and the input type are notified to the input box processing module, and finally the key input is correctly displayed in the web page input box.

EXAMPLE III

This embodiment corresponds to the first and second embodiments, and provides a specific application scenario:

in the web-end application of the K12 education, a teacher edits a completion theme containing numbers and weight units for elementary school stage mathematics. For example, the expected student input is 1kg, when the completion of the blank filling question making, the student opens the question making page, the input box of the question analyzes the expected input edited by the teacher, and under the condition of the mathematical discipline, the keyboard required for analyzing the current question is a common numeric keyboard and a quality unit keyboard.

When a student clicks the question input box with a mouse to prepare for answering, the input box module transmits the type identification containing the numeric keyboard and the quality unit keyboard to the keyboard module; the keyboard module starts a simple numeric keyboard and a basic quality unit keyboard which appear in primary school according to the limit condition of the primary school section. At this point, the student can begin answering.

When the student mouse clicks the numbers and the mass unit buttons on the keyboard, the input box responds to the student input in real time, the student answering results are displayed in the input box, and the student is supported to carry out shortcut key input by using the numbers of the actual keyboard.

When the student wants to modify the answer, the student is supported to click different texts in the input box by using a mouse, the cursor is placed at the position selected by the student, and meanwhile, the movement of the cursor position is realized by the left and right arrow keys of the actual keyboard. When the student wants to delete the input, the student clicks a delete button on the keyboard or deletes the backspace key on the actual keyboard, so that the normal question making requirement of the student is supported.

Similarly, when the teacher finishes editing the mathematics plus unit subject in a high grade (such as high school), when the student clicks the input box to start the keyboard, the keyboard which is responsible for the mathematical input and the unit input is opened, so that the requirements of students in different school segments are better met.

The questions edited by teachers in different disciplines can be opened correspondingly when students click the question input boxes, so that the intelligent answer flow of the questions at the web end meets the requirements of different disciplines and subject section scenes, the answer efficiency of the students is greatly improved, the answer experience is optimized, and the K12 education cause service can be better served.

Example four

Corresponding to the first to third embodiments, this embodiment provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, can implement the steps included in the method for implementing a multidisciplinary smart keyboard based on Web technology according to any one of the third to fourth embodiments. The details of the steps are not repeated here, and please refer to the descriptions of the first to third embodiments for details.

It should be understood by those skilled in the art that all or part of the processes in the above technical solutions may be implemented by instructing the related hardware through a computer program, where the program may be stored in a computer-readable storage medium, and when executed, the program may include the processes of the above methods.

The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

In summary, the method and the storage medium for realizing the multidisciplinary intelligent keyboard based on the Web technology provided by the invention can intelligently generate the virtual input keyboard meeting the scene requirements by combining the disciplinary, the discipline and the expected input, thereby greatly improving the input efficiency of the user and optimizing the input experience; but also can improve the efficiency of education and teaching.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (7)

1. A method for realizing a multidisciplinary intelligent keyboard based on a Web technology is characterized by comprising the following steps:

acquiring expected input transmitted by a user;

according to the subject selected by the user, carrying out full analysis on the expected input to obtain keyboard data matched with the expected input and a type field corresponding to the keyboard data;

when the input box is activated, rendering a corresponding keyboard through a web front end according to the keyboard data, the type field, the discipline and the user-selected discipline.

2. The Web-based technology-based method for implementing a multidisciplinary intelligent keyboard as recited in claim 1, further comprising:

and binding the keyboard and the keyboard input function.

3. The Web-based technology-based method for implementing a multidisciplinary intelligent keyboard as claimed in claim 2, wherein the keyboard input function includes: the keys of the keyboard are used for inputting characters, deleting and moving the cursor position left and right.

4. The Web-based technology-based method for implementing a multidisciplinary intelligent keyboard as recited in claim 1, further comprising:

and when the key information triggered by the operation of the keyboard by the user is monitored, converting the key information into input content and rendering the input content in an input frame.

5. The method for implementing a multidisciplinary intelligent keyboard based on Web technology as claimed in claim 1, wherein the full parsing of the expected input is performed according to the discipline selected by the user to obtain the keyboard data and the corresponding type field thereof matching the expected input, specifically:

and according to the subject selected by the user, carrying out full-scale analysis on the character strings and characters contained in the expected input to obtain the keyboard data matched with the expected input and the type fields corresponding to the keyboard data.

6. The Web-based method for implementing a multidisciplinary intelligent keyboard, as claimed in claim 1, wherein said type field includes one or more of a numeric keyboard, an alphabetic keyboard, a quality unit keyboard, an initial keyboard, a vowel keyboard, and an tone keyboard.

7. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, is adapted to carry out the steps of the method for implementing a multidisciplinary smart keyboard based on Web technology as claimed in any one of the preceding claims 1 to 6.

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