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Method for inputting Chinese characters by utilizing etymon stroke codes

A technology of stroke codes and radicals, which is applied in the field of inputting Chinese characters by using radical stroke codes, which can solve the problems of inability to mix codes of words, unintuitive, high selection rate of repeated codes, etc.

Inactive Publication Date: 2010-05-12
杨春华
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

If an input method cannot be digitally coded, how can it adapt to such a trend?
[0005] Existing stroke class input method can use digital coding and input, but there are still many serious defects: 1. the selection rate of repeated code word keys is high, the speed is slow, and the efficiency is low
②The encoding capacity is low, and it is impossible to input large-capacity phrases or mixed encoding of words
③It is not easy to use
④In the one-key input of double strokes on the large keyboard, there is the trouble of "taking strokes across components", which is not intuitive and awkward
Using the alphabet-coded input method on it requires "finding letters" among the letters arranged in disorder, which makes people feel troublesome and easily fatigued
The conditioned reflex of the Wubi font is "radical → finger keyboard movement", so it must first imagine the key map of the radical, convert the radical into a letter, and then find the letter, so that there is "converting the radical into a letter" and The two steps of "finding letters" have greatly affected efficiency, greatly increased the burden of thinking, and made fatigue easier

Method used

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  • Method for inputting Chinese characters by utilizing etymon stroke codes
  • Method for inputting Chinese characters by utilizing etymon stroke codes
  • Method for inputting Chinese characters by utilizing etymon stroke codes

Examples

Experimental program
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Effect test

Embodiment 1

[0136] This embodiment is mainly applied to numeric keyboards, and its keyboard design is as follows: Figure 11 As shown, it uses figure 1 The radical system shown does not perform any optimization and adjustment on the key position of the radical. It includes 30,000 commonly used phrases, 1980 single-word repeated code words, and a static repeated code rate of 29.28%.

[0137] Shortcode settings. 84.3% of the characters (5704 characters) in the 6763 character library have set brevity codes, and there are 10749 brevity codes in all. Among them, there are 6 short codes for one key: "1-2 is 3, 4 is not 5, and 6 is yes", and there are 30 short codes for two keys: "11 is now 12, 13 is 14, 15 or 21, 22, 23, 24 is 25 Middle 31 and 32 he 33 very 34 people 35 use 41 this 42 asked 43 with 44 it 45 said 51 had 52 out 53 that 54 pairs of 55 child 61 and 62 old 63 I 64 is 65 ", three-key brevity code 169: "111 Ring 112 Reason 113 No 114 Violation 115 Cloud...654 Buy 655 Water 656 Sen...

Embodiment 2

[0145] This embodiment is a further optimization of Embodiment 1, that is, adopting such Figure 32 Shown " large radical scheme ", other situations are all the same as embodiment 1. The number of single-word repeated codes is 1992, and the static repeated code rate is 29.45%. Compared with Embodiment 1, the repeated codes increase very little, and basically have no influence on performance. Because it adopts the "big radical scheme", it is easy to split characters, and the response to split characters is fast. It is easier to type, and the actual efficiency is higher.

Embodiment 3

[0147] This embodiment is mainly applied to large keyboards, and its keyboard design is as follows: Figure 18 As shown, it uses figure 1 The root system shown. single stroke radical Input with the same key of 11, 22, 31, 42, 51 radical groups respectively, simultaneously in 11 radical groups and The "two" and "three" with poor compatibility are transferred to the V key and the S key respectively.

[0148] The optimization and adjustment of this embodiment adopts the pure "internal adjustment" method, according to the statistical data of the compatibility characteristics of the radicals and their dynamic frequencies, the partial high-repetition code radicals and the second-highest repetition code radicals are adjusted to the appropriate key position, that is, the dynamic frequency The higher the key, the easier it is to hit, so that the layout of the keyboard radicals can achieve a better unity of low repetition code and comfortable coordination:

[0149] 1. Adjustment o...

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Abstract

The invention discloses a brand new Chinese character inputting method, namely the Chinese characters are input according to the etymon stroke codes of the Chinese characters. The method comprises the following steps: (1) splitting the etymon of a Chinese character needs to be input; (2) taking no more than four etymons in the split etymons as selected etymons; (3) determining the etymon stroke code of each selected etymon, wherein, the etymon stroke code refers to the first two strokes of the double stroke etymon and the strokes of single stroke etymon; and (4) inputting each etymon stroke code of each selected etymon. The method of the invention can input Chinese characters on keyboards of a computer and a mobile phone and the like, not only has the advantage of simple and easy learnability of the stroke inputting method, but also has the advantages of typewriting smoothness, low repeated code, fastness and efficiency of a five-stroke method, perfectly integrates learnability and high efficiency, and can be called as a fool five stroke input method.

Description

technical field [0001] The invention relates to a method for inputting Chinese characters by using radical stroke codes. Background technique [0002] The history of Chinese character encoding has been more than 30 years, and excellent font codes such as Wubi fonts have solved the "efficiency" problem of computer input. But there are still many difficult problems unsolved, especially the contradiction between "low repetition code degree" and "easiness of memory" is still outstanding, and the input efficiency is still very low on the small keyboard (the repetition code rate is too high, and the phrase input is difficult). Although the Wubi font is difficult to learn and memorize, it has been "leading the way" for 20 years. This not only proves its intuitive and natural code retrieval method such as "tomorrow → sun + moon" and scientific aspects such as low repetition code and high speed, but also Reflected the stagnation of Chinese character font coding technology. [0003]...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F3/023H04M1/23
Inventor 杨春华
Owner 杨春华
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