Method of inputting chinese characters and keyboard for use with same4920492Abstract An improved method for inputting Chinese characters into computers and the keyboard arrangement therefor wherein the Chinese characters, of which the numbers are enormous and the structures are complicated, are reduced to obtain only a few rules for inputting Chinese characters and the 244 radicals are allocated on a standard keyboard. The present inputting method is based on "stroke orders". The manner in which the characters are input conforms with general writing habits such that the method is easy and convenient for an operator to learn fast. Claims I claim: Description The present invention relates to an improved method for inputting Chinese characters into computers and the keyboard arrangement therefor wherein the Chinese characters, of which the numbers are enormous and the structures are complicated, are reduced to obtain only a few rules for inputting Chinese characters and the 244 radicals are allocated on a standard keyboard.
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(3) In case a character, or a part thereof, is divided into symmetrical right and left sides, the strokes in the middle portion are written first, then the strokes in the sides, thus " " in " " in " " in With this rule, however, there are four exceptions, i.e., characters with " ", " ", " " or " " in the sides are written from left to right as usual. Examples are: , , , etc.; (4) In case a single radical of a character encloses the remaining strokes, the character shall be written in the following manner: a. The radical which encloses on four sides is written first, such as: ; b. The radical which encloses on three sides with an opening facing down, left or right is written first, such as: , ; if opening facing up, said radical is written after the enclosed strokes such as: ; c. The radical which encloses on two side and is located on the upper left or upper right corner is written first, such as: , ; and when the radical is located on the lower left or lower right corner, the enclosed strokes are written first, then the radical, such as: , ; and d. In other shapes, when the stroke (or strokes) which encloses other strokes is not a radical, the character is written from left to right and from up to down, that is, in the usual manner, such as: , , , and . (5) Radicals of , , , , and are defined as follows: a. When radicals of " " and " " are crossed with other strokes before the last stroke of the radicals is completed, they are indexed directly as " " or " ", such as " " and " "; otherwise, they are indexed as " ", such as " " and " "; b. For the radical of " " crossed with other strokes, it is indexed as " " instead of being indexed as " ". For example, in character " ", " " not " " is used for indexing; and c. For characters with the radical of " ", the portion of " " with the strokes contained therein is indexed only as " " without regard to the other strokes whatever being included in the configuration of the radical. With the present Chinese inputting method, code indexing of the enormous number of complicated Chinese characters is simplified by using only five input indexing rules which are well-defined and consistent. Also, each rule conforms with the others. For example, in Rule 2, "In case the discontinued strokes of a character constitute a radical, said character should be indexed by using said radical crossed with the other strokes when fewer number of codes for the character can be obtained, thus is indexed by taking is indexed by taking which are in exact conformation with of Rule 4 which defines radicals enclosing on four or three sides. It is extremely important that the codes are indexed in strict accordance with the indexing rules or code indexing of the characters would become a pure memory job just like the case with the irregular verbs in English. The method adopted by a local software company which has the largest market share has numerous cases of irrgular indexing. For example, according to the aforementioned method, is indexed by using but is indexed by using : With the construction of the Chinese characters being rather erratic, if there is no definite rules to follow, the user will find it even more difficult in indexing the characters. Consider the two aforementioned characters, according to the present Ta Yi inputting method, is indexed by using and is indexed by using . BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a layout of the keyboard arrangement. FIG. 2 is a flow chart of data input of Chinese characters. FIG. 3 is a list of radical combination for the present Chinese inputting method. TABLE 1 is a list of keystrokes for each key. TABLE 2 is a list of statistics for the number of input code. ATTACHMENT 1 is a table for filing of the codes of Chinese characters. ATTACHMENT 2 is a list of the repeated characters. DESCRIPTION OF THE DRAWINGS In Table 1, a list of the combination of the Radicals used in the present Chinese Inputting Method is shown. In the present Chinese inputting method, every radical is definitely established so that there will be no confusion or doubt in indexing any character and the radical, in turn, is classified according to shape of the strokes and attributes. The radicals are grouped into families and very neatly arranged so that they are not only consistent with the tradition of the Chinese characters but also convenient for the user to remember. Further, the radicals are established taking into account the different ways in which the Chinese characters are recognized and written between individual users. For example: " " is written as " " by some users; " " is usually written as " "; and " " is usually written as " ". When this happens, the indexing code will be identical according to the Ta Yi method no matter which way the character is written. In FIG. 1, a layout of the keyboard arrangement is shown. The keyboard arrangement for the present Chinese Data Inputting Method is constructed according to the general systems and a standard keyboard is used so that the method can be applied in connection with conventional system programs and keyboard. Thus, the Chinese language system can be operated by using the present Chinese data inputting method without difficulty so long as the system software or program packages are provided with a structure capable of functioning as shown in the flow chart of FIG. 2. Therefore, a substantial saving of costs can be obtained by not replacing the system and the keyboard. In the present inputting method, all the 244 radicals are allocated on the 41 keys by a statistical approach in which the frequency of usage of each of the radicals is carefully calculated so that the radicals are allocated on the proper keys according to their respective frequencies of usage. For example, the radicals in the less frequently used group are allocated on the keys operated by the less dexterous little fingers or the figure keys in the uppermost row. The speed of inputting can also be increased accordingly, as is shown in detail in Table 2. In addition, the 41 groups of the radicals are so arranged that in each group, the chances of the distribution on the first and the last codes are approximately the same so as to minimize the chances of repeated codes. In Attachment 1, the code file of the present Glossary of Chinese Characters is shown. Efforts have been made by the Applicant to calculate and analyze the keystrokes required for all the indexed input codes of some 13,804 Chinese characters included in the glossary for the present inputting method and found the following results: (1) The number of codes per character averaged 3.61, as is shown in detail in Table 3, for the characters use in the present inputting method and 3.35 for those commonly used in local newspapers. (2) In the approximately 13,804 characters included in the Attachment, there are a total of 1,280 repeated characters giving a repetition percentage of 9.28; most of the repetition involve only two characters. When it is programmed that "in case if characters repeated, the commonly used one will be the first to be read automatically", the repetition cases are thus lowered to an insignificant 4.5% (see Attachment II: A List of Repeated Characters for the present Chinese Inputting Method). (3) Using the present inputting method, 61% of the characters may each be completed with no more than four codes while a maximum of 85% of the characters with less than 13 strokes (average number of strokes per character for all Chinese characters is about 13.3) may be written in the same manner. Of the some 13,804 characters, 88 may be written with one stroke; 805, with two strokes; 3,498, with three strokes and; 9,413, with four strokes. In the above total, there are included variants and characters which may be written in two or more ways. In FIG. 2, the flow chart of data input of Chinese characters is shown. The most difficult part lies in the treatment of preventing repetition. However, the problem of repeated input code groups is inevitable when Chinese characters are input by using the radical method, such as and ; and ; and ; etc., unless another code is added for discriminating one character from another of similar shape and configuration. This, however, will increase the number of codes and, hence, must result in greatly reduced speed at which the characters are input. Therefore, the treatment of the repeated characters is extremely important. Of the some 13,804 characters included in the glossary of the present Chinese Inputting Method", there are 1,280 characters which are similar one with another in some way and referred to as "repeated characters". The rate of repetition is about 9.28% and most cases of repetition involve two characters. If the system is enabled to automatically read the first of the similar characters which are indexed with the same repeated codes (that is to say, the most commonly used one of the similar characters is arranged to be the first in order), the rate of repetition will be lowered to about 4.5%. Then, the system is provided with a correction function by using the backspace key for the case where a non-commonly used character is input. The method is that an entire group of the similar characters with the same repeated codes are listed and displayed at the twenty-sixth row on the lower portion of the screen for selection, while the most commonly used one of the similar characters is arranged at the first place. When the selected character is the first one, the code of the next character can be kept by depressing the keyboard as an input. In the mean time, said first repeated character has already jumped into the edit area of the screen automatically without the need of the selection key. If the selected character of repetition is the second or the one after that, selection can be performed by depressing the area of the digit keys at the lower right portion. Function of the present inputting method as compared to other methods: The present Chinese Inputting Method incorporates general writing habits into its indexing rules. In operation, one thus does not have to "consider the shape of a character before indexing and, then analyze and disassemble the radical", or "to index like playing jigsaw puzzles", as is necessary for other methods. With the present method, the codes of characters are "indexed" or "written" in a natural manner. Results obtained from many experiments have demonstrated that with the present Chinese Inputting Method", the strokes of a character are "taken out" for indexing in a natural way much like the way in which one would think to "write" the strokes with a pen; each keystroke being equal to writing an average of four strokes. The present inputting method interferes with the thinking of the operator to the least extent and with the present method, in contrast to conventional inputting methods, lengthy operation does not cause loss of accuracy. Following is a comparision, by way of examples, between the present Inputting Method and known conventional inputting methods:
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OTHER PRESENT
CHAR- INPUTTING INPUTTING
ACTER METHODS METHOD
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The present inputting method has the following features: 1. Characters can be input quickly and accurately in a way which keeps up the tradition of the Chinese characters, 2. Fewer keys are used, shift operation is not necessary, each character can be input with an average of 3.61 codes, and rate of repetition is low; the method being thus highly practical; 3. The method is easy to learn, the operation conforms with the mode of thinking (or response) of the Chinese, the method is thus suitable for users of various levels and sectors; for ordinary users inexperienced in processing Chinese and with an educational background at high school level, an average of about one hour of practice is sufficient to enable them to actually work on the computer inputting Chinese. In addition, the present inputting method, by having low rate of repetition and minimizing the number of codes required for indexing each character (as described hereinbefore, Chinese characters, as a whole, averaged 3.61 codes per character), provides optimal conditions for developing Chinese language data processing on computers. In other words, the Chinese language can be treated using not only "characters" but also "phrases" (or "expressions") as the input units. In fact, one of the characteristics of the Chinese language is the high flexibility of combining characters into phrases which correspond to the English words. For example, " " (country, nation) " " (building) " " (structure, building) Accordingly, it is highly advantageous that there are more than 2.8 million different arrangements (414) possible for the 41 radicals used in the present. Chinese Inputting Methods which may well contain tens of thousands of the frequently used and less frequently used phrases and all the characters for everyday use and still maintain a very low rate of repetition. When inputting "phrases, according to the present method, phrases consisting of two characters are indexed by taking the first codes of both characters while phrases consisting of three or more characters are indexed by taking the first code of each of the characters and the last code of the last character so that there will be no more than four codes for any character and the strokes that have been taken for indexing will not be repeated. With the present inputting method, encouraging results that Chinese can be input at a speed of 75 units/min have been obtained. That is to say, when the character is used as the input unit Chinese data can be input at a speed of 75 characters/min; when both characters and phrases are used as the input unit, they can be input at a speed of as high as 110 characters/min.
TABLE 1
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LIST OF KEYSTROKES FOR EACH KEY
KEY KEYSTROKES KEY KEYSTROKES
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, 1684 H 1333
. 1216 I 1378
/ 1275 J 1238
0 257 K 1570
1 1304 L 815
2 692 M 1600
3 718 N 1097
4 469 O 2586
5 762 P 742
6 231 Q 860
7 674 R 1362
8 1567 S 1401
9 809 T 1006
; 1070 U 1852
A 1918 V 1276
B 1589 W 802
C 1458 X 2305
D 1568 Y 650
E 2417 Z 592
F 1956 931
G 884
Total Keyboard = 49844
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