KR20010025723A - 24 charactery Hanja input and output method - Google Patents

Abstract

PURPOSE: A Chinese character I/O processing method is provided to classify basic shapes of strokes into 24 patterns, and input or output the Chinese characters based on the classified 24 patterns so that it enables a user to process the Chinese characters although the user does not know a sound or a reference stroke. CONSTITUTION: The method comprises steps of a user selecting the number of the characters, a system displaying the classification input windows corresponding to the number, the user inputting a code corresponding to the first stroke of each character, the system displaying the corresponding characters, inputting a code corresponding to the second stroke in the case that the system does not search for the character corresponding to the first stroke, repeating the code input step with respect to the next stroke, and the user selecting the number among selection number windows in the case that a corresponding character is found.

Description

24 charactery Hanja input and output method

The present invention categorizes and arranges kanji and kanji words on the basis of 24 basic strokes, 24 digits, so that Chinese characters are easily embedded in a microprocessor system equipped with 24 or more keyboards or handwriting recognition input / output stages for each digit. It's about configuring input and output.

The conventional Chinese input / output method includes a method of inputting the kanji reading and inputting the corresponding kanji, finding the number of kanji, inputting kanji, and placing over 100 copies on the keyboard. If they didn't know the sound of the sound or the number of copies, they couldn't input / output the Chinese characters natively. Also, they solved the difficulty of memorizing about 100 copies of the keyboard. In addition, the existing input method has a definite limitation in directly processing Chinese characters through a small number of interface screens or keyboards in a miniaturized portable information terminal. And In the case of classification based on the five criteria of, it is too simple to divide and divide complex Chinese characters strokes, and the classification criteria are obscure. Also Clockwise Stroke Counterclockwise Stroke Right Turn Stroke If it is divided into 8 types, such as left turn stroke, it is difficult for the user to disassemble Chinese characters one by one because each Chinese character must be inputted separately.

An object of the present invention is to classify and arrange kanji and kanji words on the basis of the binary kanji input / output processing method in a system incorporating a microprocessor, and input the kanji and kanji words by 24 or more in this manner. By using the handwriting recognition input and output stage, it is possible to input and output Chinese characters easily and quickly.

1 is a layout of a 24 binary classification criteria for the basic stroke order of Chinese characters and its English code layout.

Figure 2 is an example of the corresponding Chinese character input window according to the stroke order input of the 24 Chinese characters

Figure 3 is an example of classification of 24-character code of each Chinese character stroke

Figure 4 illustrates an example of binary code classification for copies and remaining remnants

5 is an exemplary view of the Chinese character input window according to the input of the rest after inputting the number of copies in the 24-character kanji number input method;

Figure 6a is an example of the Chinese character word input window according to the 24 character Chinese input

Figure 6b is an example of a 24 character kanji input window for a small number of Chinese characters among the example of the kanji word input window according to the 24 kanji input

In order to achieve the above object, Chinese characters are classified based on the basic binary order of the binary number of FIG. 1 and its binary code. However, because of the characteristics of the characters, the number of characters can be made infinitely, and even Chinese words can be made continuously. Therefore, the number of Chinese characters and the number of words needed by the system is 1,800, 4,600, 15,000, 30,000 in advance. The number of users and kanji words such as 60,000, 100,000, etc. should be limited and classified.

The classified Chinese character's 24 digit code is sorted so that it can be searched by a minimum number of typing strokes or handwriting input of the handwriting recognition stage. In this way, the input and output of each Chinese character can be input and output only by inputting the initial few strokes of the binary code without inputting all the codes corresponding to the total stroke order. Also, as shown in the example of FIG. 2, when the input kanji search by 24 binary strokes is placed in the priority of the selection number window so as to process input / output of kanji with a high frequency of use, the kanji used in real life can be processed more quickly. It becomes possible.

In case of ambiguity in the classification of consecutive 24-decimal strokes, use a special input key to distinguish consecutive strokes. That is, it is classified as crossed strokes (Ctrl + 24 binary codes), separated strokes (Alt + 24 binary codes), and relatively long or large strokes (Shift + 24 binary codes).

As such, there are three ways to classify Chinese characters into 24 binary codes and process input and output. First, the 24-character kanji direct input method as shown in FIG. And thirdly, the 24 kanji word input method as shown in Figs. 6A and 6B. Each of these will be described in detail as follows.

The 24-character kanji direct input method is a method of directly inputting the kanji to be inputted and outputted as shown in FIG. In this case, the input of 24 kanji characters in the 24 digit classification input window is inputted by the input keyboard button of the corresponding 24 digit code, or in the case of a system capable of processing handwriting input, the basic stroke order of the 24 kanji characters is written directly in the handwriting recognition input window. do. According to the input of its 24-binary code, the system shows at least one to ten Chinese characters corresponding to the code through the Chinese character display window of FIG. At this time, the hun and sound according to the user's program option is configured to show like the hun and sound display window of FIG. And if you find the Chinese characters, you can input and output the Chinese characters by selecting the number in the selection number window of Fig. 2, and if necessary, each number is additionally placed on the most convenient button of the keyboard to input and output the Chinese characters. Make it easy.

The 24-character kanji input method is a method of inputting and outputting Chinese characters by first finding the number of kanji characters to be input / output as shown in FIG. The number of copies is classified in the basic binary order of FIG. 1 based on 214 copies of jade. The method of finding and inputting the number of copies is the same as that of the 24 kanji direct input method. As shown in FIG. 5, the number of copies is displayed in the binary classification input window and the remaining amount is continuously input in the binary classification input window. The method of inputting the remaining residue and finding and entering the corresponding Chinese character is the same as the above-described direct input method of the 24 binary Chinese characters.

The 24-character kanji word input method finds and inputs a kanji word, and when the number of kanji words to input / output is selected two, three, four, etc., the number of words is illustrated as illustrated in FIGS. 6a and 6b. The corresponding binary classification input window is displayed, and enter the binary code corresponding to the first stroke of each Chinese character of the word. In this case, the input of 24 kanji characters in the 24 digit classification input window is inputted by the input keyboard button of the corresponding 24 digit code, or in the case of a system capable of processing handwriting input, the basic stroke order of the 24 kanji characters is written directly in the handwriting recognition input window. do. The word display window displays the word. If the Chinese character word is not found in the first stroke, enter the 24-digit code corresponding to the second stroke of each Chinese character. If not, enter the next stroke. If there is a difference in stroke order for each Chinese character, it is left blank after inputting the next stroke as shown in the example of FIG. 6B. If you find a Chinese word, you can input / output Chinese words by selecting the number in the corresponding number window and place each number in addition to the easiest and most convenient button of the keyboard to facilitate input / output of Chinese characters. Do it.

As is apparent from the foregoing description, the kanji input / output processing method of the present invention can process kanji very intuitively and easily because 24 digits, which are classification criteria, are defined in the kanji information processing. In addition, since 24 types of basic Chinese characters are defined and processed based on the Chinese characters, they can be used in the Chinese character culture of Korea, China, Japan, Taiwan, and Vietnam. In addition, small and small information communication portable terminals and PCs can process complex Chinese characters quickly and easily through a small number of user interface buttons or input windows.

Claims (3)

Classification and Arrangement System of Input and Output of Chinese Characters and Chinese Character Words based on Basic Binary Order of Binary Codes The input / output method according to claim 1, wherein the direct input method by 24-bin Chinese character order, the input of binary binary Chinese character, and the input method of binary binary Chinese word are input. The method of inputting / outputting Chinese characters through direct handwriting input of the binary kanji according to the method of direct input by 24 kanji pill order, digit kanji incidental input method and digit kanji word input method of claim 2