CN1696879A - Matrix layout of handset keypad, and unit doublet input method for strokes of Chinese character - Google Patents
Matrix layout of handset keypad, and unit doublet input method for strokes of Chinese character Download PDFInfo
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- CN1696879A CN1696879A CN 200510018651 CN200510018651A CN1696879A CN 1696879 A CN1696879 A CN 1696879A CN 200510018651 CN200510018651 CN 200510018651 CN 200510018651 A CN200510018651 A CN 200510018651A CN 1696879 A CN1696879 A CN 1696879A
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Abstract
A double element input method of Chinese character on mobilephone matrix keyboard includes forming said keyboard by 10 digit keys, 26 letter keys, 6 symbol keys and 10 function keys, dividing Chinese character into two units of ' front element ' and ' back element ', defining 6 keys as ' front element ' input keys and another 6 key as ' back element 'input keys, fixing basic six strokes on both six keys for ' front element 'and ' back element ', then applying code rule to input Chinese character by inputting ' front element stroke plus back element stroke '.
Description
Technical field
The electronic product of mobile phone, telephone set, palm PC and other Word message disposal systems.
Background technology:
52 type mobile phone matrix keyboards are a kind of emerging products, and it has set up the independent keys status of 26 letters.The enter key of traditional keyboard layout of mobile phone has only 10 numerical keys such as 0-9, generally be that the packet mode of 26 letters with 3-4 is assigned on 10 numerical keys, this golygram causes in literal (Chinese and English) information process with the layout type of key position, the corresponding many group alphabetic codings (phonetic, word) of set of number coding, cause repeated code and conflict between the coding, need coding separated and select, complex operation, more and more the incompatibility people are to growing long text information service editor's needs fast.
The birth of 52 type mobile phone matrix keyboards, there is not coding repeated code phenomenon in an only corresponding spelling sound or the word of a group coding, for the quick editor of text provides operating environment.
Traditional input method that is applied to mobile phone has phonetic sign indicating number, stroke code, and the defective of phonetic sign indicating number is that repeated code word (phonetically similar word) is many, needs to select Chinese character, and speed is slow, though the repeated code word of stroke code is few, coding is long, and speed is also slow.
Unit doublet input method for strokes is a kind of input method technology of innovation, and unit and the first two parts in back before it resolves into Chinese character utilize " the preceding first stroke+first stroke in back " that Chinese character is carried out the double base retrieval, and it is short to have played coding, retrieves fast effect.
Summary of the invention:
The present invention seeks to carry out a kind of new cell-phone keyboard layout, make it to become a kind of new standard or trend; Release a kind of new-type input method, make it to become a kind of advanced person's practicality Chinese character information processing general utility tool.
The content that the present invention comprises is a kind of 52 type novel mobile phone matrix keyboard layouts and supporting phonetic transcriptions of Chinese characters unit doublet input method for strokes thereof.
The feature of 52 type matrix layout of handset keypad is: the key face of keyboard is by 10 numerical keys, 26 letter keys, 6 symbolic keys and 10 function keys ranks matrix layout formed of totally 52 keys, divide two big zones: function selecting operation keypad (A district) and character input operation keypad (B district), wherein:
Function selecting operation keypad (A district) is positioned at above the character input operation keypad (B district), is two row, five column matrix layouts, totally 10 keys, wherein:
First row, 5 keys: from left to right layout is A11, A12, A13, A14, A15;
Second row, 5 keys: from left to right layout is A21, A22, A23, A24, A25;
The functional definition of each key of A district specifically describes as follows:
Key position key-position symbol functional definition function declaration
A12 ← cursor is moved to the left or locatees to LeftArrow
A13 ↑ upwards directionkeys moves up cursor or locatees
A14 → directionkeys moves right cursor or locatees to the right
B22 * star key definition individual operation function
B23 ↓ downward-direction key moves down cursor or locate
B24 # number sign key definition individual operation function
Character input operation keypad (B district) is positioned at below the function selecting operation keypad (A district), is seven row, six column matrix layouts, totally 42 keys, wherein:
First row, 6 keys: from left to right layout is B11, B12, B13, B14, B15, B16;
Second row, 6 keys: from left to right layout is B21, B22, B23, B24, B25, B26;
The third line 6 keys: from left to right layout is B31, B32, B33, B34, B35, B36;
Fourth line 6 keys: from left to right layout is B41, B42, B43, B44, B45, B46;
Fifth line 6 keys: from left to right layout is B51, B52, B53, B54, B55, B56;
The 6th row 6 keys: from left to right layout is B61, B62, B63, B64, B65, B66;
The 7th row 6 keys: from left to right layout is B71, B72, B73, B74, B75, B76;
B has located in the district 10 numerical keys, 26 letter keys and 6 symbolic keys:
10 numerals are: 1,2,3,4,5,6,7,8,9,0;
26 letters are: A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z;
6 symbols are: exclamation (! ), pause mark (), comma (), fullstop (.), period (.), question mark (?);
6 symbols be positioned at matrix first row first, second, third and fourth, five, six row;
10 numerals are divided odd number 1,3,5,7,9 and even numbers 2,4,6,8,0, odd number be positioned at the matrix secondary series third and fourth, five, six, seven row, even numbers be positioned at matrix the 5th row third and fourth, five, six, seven go;
26 letters divide initial consonant and simple or compound vowel of a Chinese syllable:
Simple or compound vowel of a Chinese syllable A, O, E, I, U, V be positioned at matrix second row first, second, third and fourth, five, six row;
Initial consonant divides five groups by Chinese phonetic alphabet form, wherein:
B, P, M, F are positioned at first and third, four, six row of matrix the third line;
D, T, N, L are positioned at first and third, four, six row of matrix fourth line;
W, G, K, H are positioned at first and third, four, six row of matrix fifth line;
Y, J, Q, X are positioned at first and third, four, six row of matrix the 6th row;
R, Z, C, S are positioned at first and third, four, six row of matrix the 7th row;
The location of each key of B district specifically describes as follows:
Key position B11 B12 B13 B14 B15 B16
A symbol! ,.. ?
Key position B21 B22 B23 B24 B25 B26
Symbol A O E I U V
Key position B31 B32 B33 B34 B35 B36
Symbol B 1 P M 2 F
Key position B41 B42 B43 B44 B45 B46
Symbol D 3 T N 4 L
Key position B51 B52 B53 B54 B55 B56
Symbol W 5 G K 6 H
Key position B61 B62 B63 B64 B65 B66
Symbol Y 7 J Q 8 X
Key position B71 B72 B73 B74 B75 B76
Symbol R 9 Z C 0 S
The feature that is applied to the unit doublet input method for strokes of Chinese character of 52 type matrix layout of handset keypad is: the structure type according to Chinese character is decomposed into preceding unit and back unit with Chinese character, and utilization " the preceding first stroke+first stroke in back " is encoded and imported Chinese character.
This method resolves into two unit with Chinese character, that is: according to last mo(u)ld bottom half, left right model, the interior external form architectural feature of Chinese character
Last mo(u)ld bottom half structure Chinese character resolves into " last unit " and reaches " lower unit ", that is: Chinese character=last unit+lower unit;
Left right model structure Chinese character resolves into " left unit " and reaches " right unit ", that is: Chinese character=left unit+right unit;
Interior appearance structure Chinese character resolves into " outer unit " and reaches " interior unit ", that is: Chinese character=outer unit+interior unit;
This method will be formed the last unit of Hanzi structure, left unit, outer unit and be called Hanzi structure forward unit (unit before being called for short), and lower unit, right unit, the interior unit of forming Hanzi structure is called Hanzi structure trailing unit (being called for short back unit); Also be that Chinese character is made up of preceding unit and back unit, be formulated as: Chinese character=preceding unit+back unit.
This method calls " solely unit " Chinese character to the Chinese character of unit before can not being decomposed into and back unit, and only first Chinese character can be considered thereafter that unit is zero, is formulated as: " Chinese character=preceding unit+zero back unit ";
Use the multiple key localization method of stroke, 6 keys of this method definition cell phone keyboard are as Chinese character " preceding first stroke enter key ", other 6 keys of definition cell phone keyboard are as Chinese character " the first stroke enter key in back ", six basic strokes of Chinese character " one, Shu, Pie, Dian, ㄑ, zero " are positioned at simultaneously on 6 " the preceding first key " and 6 " the first key in back " two line unit positions of cell phone keyboard, utilize preceding first stroke of Chinese character to encode and import Chinese character with the first stroke in back;
This method with 6 stroke horizontal strokes () of Chinese character, perpendicular (Shu), cast aside (Pie), point (Dian), folding (ㄑ), zero (zero) navigate to 52 type mobile phone matrix keyboards, first row 6 symbolic keys "! ,..? " on, these keys are called the preceding first stroke enter key of Chinese character (first key before being called for short), also claim on " anteposition key " or " symbolic key ";
This method navigates to 6 stroke horizontal strokes () of Chinese character, perpendicular (Shu), left-falling stroke (Pie), point (Dian), folding (ㄑ), zero (zero) on 6 letter keys " A E O I U V " of 52 type mobile phone matrix keyboards, second row, these keys are called first stroke enter key behind the Chinese character (being called for short the first key in back), also claim " position, back key " or " letter key ";
Under the multiple key localization method of stroke, 6 strokes with 6 before behind first key and 6 correspondence mappings of first key concern as follows:
A preceding first key! ,.. ?
The first key A O E I U V in back
Stroke one Shu Pie Dian ㄑ zero
The rule of encoding Chinese characters of the present invention is:
The single character code rule: with the preceding four stroke codes of unit before the anteposition key input Chinese character, with the preceding four stroke codes of unit behind position, the back key input Chinese character, first less than four strokes of preceding unit or back are with stroke code zero cover, that is:
Encode Chinese characters for computer=preceding unit first 4 strokes in 4 stroke+backs;
Phrase coding rule: adopt the stroke code of back position key (letter key) input odd number Chinese character, adopt the stroke code of anteposition key (symbolic key) input even number Chinese character:
Two words groups: import the preceding four stroke codes of first word with back position key, import the preceding four stroke codes of second word with the anteposition key, that is:
Preceding 4 strokes of first word+preceding 4 strokes of second word
Three words groups: import the preceding four stroke codes of first word with back position key, import the first two stroke code of second word with the anteposition key; Import the first two stroke code of the 3rd word with back position key, that is:
Preceding 4 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word
Four words groups: import the first two stroke code of first word with back position key, import the first two stroke code of second word with the anteposition key; Import the first two stroke code of the 3rd word with back position key, import the first two stroke code of the 4th word with the anteposition key, that is:
Preceding 2 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word+preceding 2 strokes of the 4th word
Description of drawings:
Fig. 1: cell phone keyboard matrix layout figure
Fig. 2: cell phone keyboard function and character locating figure.
Specific embodiment:
One, the pure alphabetical input keyboard of Chinese and English is used:
(1), input in Chinese
1, phonetic corresponding keys c, h, a, n, g are directly pressed in individual character input long (chang), press numerical key and select Chinese character.
2, phrase input
Two words groups: in century (shi ji), directly press key c, h, i, j, the i of phrase phonetic correspondence.
Three words groups: computing machine (ji suan ji), both can be directly by the phonetic corresponding keys input of each word, also can import with the initial consonant of second and third word by the phonetic of first word of phrase, promptly press j, i, s, j.
Four words groups: have no way out (wu ke nai he), both can be directly by the phonetic corresponding keys input of each word, also can promptly press w, k, n, h by the initial consonant input of first, second, third and fourth word of phrase.
(2), English input
As: teacher, key t, the e, a, c, h, e, the r that directly press the word correspondence import.
By above-mentioned example as can be seen, adopt this keyboard layout, copy editor's speed and method of operating are accompanied than the efficient of conventional keyboard is high.
Two, unit doublet input method for strokes of Chinese character is used
1, the input of individual character
Coding method: preceding unit first 4 strokes in 4 stroke+backs, during the input single character code, preceding first stroke is imported with preceding first key, the first key input in back of the first stroke in back.
Example 1: defeated car (preceding unit) and Yu (the back unit) of being decomposed into
Preceding unit: car stroke: unit behind a ㄑ one Shu: Yu's stroke: Pie Dian one Shu
Earlier by preceding first key
Preceding 4 strokes of unit's " car " before the input are again by the first key in back
Preceding 4 strokes of input back unit " Yu "
Coding a: ㄑ one Shu Pie Dian one Shu
The key position:! , E I A O
Example 2: heavy " weight " is " solely unit " Chinese character, and preceding unit is " weight ", and back unit is zero.
Preceding unit: unit behind heavy stroke: the Pie one Shu ㄑ: zero stroke zero
Coding: Pie one Shu ㄑ zero
The key position:,! . V
2, the input of phrase:
During input phrase coding, adopt the stroke code of back position key (letter key) input odd number Chinese character, adopt the stroke code of anteposition key (symbolic key) input even number Chinese character:
Two words groups: preceding 4 strokes of first word+preceding 4 strokes of second word
Example 1: we
Coding: Pie one ㄑ one Pie Shu Dian Shu
The key position: E A U A,.、
Three words groups: preceding 4 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word
Example 2: computing machine
Coding: Dian ㄑ one Shu Pie is Shu one by one
The key position: I U A O,! A O
Four words and multiword phrase: preceding 2 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word+preceding 2 strokes of the 4th word
Example 3: have no way out
Coding: Shu one a Pie Pie Shu one by one
A key position: A A! , A E,,
The novelty, creativeness and the practicality that exist of the present invention as can be seen through technical comparison.
One, new, old keyboard layout contrast
By using example as can be seen, under keyboard of the present invention, can not do letter selectively directly by the letter key input word or the Chinese phonetic alphabet, directly the input phrase is encoded under Chinese state, even can carry out the input of continuous statement coding, this is the thing that conventional keyboard is not accomplished absolutely.
Two, the technology contrast of unit doublet input method for strokes and traditional stroke input
Traditional stroke input method is a kind of method by Chinese-character stroke sequential write input stroke code, should be called " order of strokes observed in calligraphy input method " exactly.Unit doublet input method for strokes is a kind of Chinese character to be decomposed into former and later two unit, different unit is adopted the method for different stroke key position input stroke codes.
What traditional stroke input method adopted is stroke singly-bound location, and universal method is that five basic strokes of Chinese character ", Shu, Pie, Dian, ㄑ " are positioned on 1,2,3,4,5 five singly-bound of cell phone keyboard.What unit doublet input method for strokes adopted is the two keys of stroke location, and it is positioned on the double key position of cell phone keyboard each two key in stroke location with six basic strokes of Chinese character ", Shu, Pie, Dian, ㄑ, zero ".
Both " likeness in form and refreshing non-", when forward unit (preceding unit) stroke of Chinese character (being less than 4 draws) more after a little while, both import the effect basically identical, (draw greater than 4) more for a long time when forward unit (preceding unit) stroke of Chinese character, and it is obvious that both import the effect difference.The advance of unit doublet input method is mainly reflected in:
1, order of strokes observed in calligraphy input method needs the anterior stroke of the input Chinese character of continuous whole just can retrieve Chinese character, and the preceding 3-4 of preceding unit draws and the preceding 3-4 picture of back unit can retrieve Chinese character and unit doublet input method for strokes only need be got.
For example: a very short time, radical " rain " has 8 to draw, use order of strokes observed in calligraphy input method, input 8 is drawn and can only be retrieved with " rain " is the Chinese character of radicals by which characters are arranged in traditional Chinese dictionaries, differ and accurately retrieve " a very short time " surely rapidly, and use unit doublet input method, only need the preceding 3-4 of input " rain " to draw and the preceding 3-4 of " concubine " draws and just can accurately retrieve " a very short time ".
2, order of strokes observed in calligraphy input method is a kind of descriptor index method of single form, it is the anterior stroke code of Chinese character retrieval, what show is the Chinese character that meets anterior stroke code, unit doublet input method is a kind of descriptor index method of complex form, it is the anterior stroke of Chinese character retrieval not only, the rear portion stroke of Chinese character retrieval also, demonstration be the Chinese character that meets both stroke codes.
3, dwindled the range of search of number of words.Unit doublet input method can be got rid of " solely unit " Chinese character that can not be decomposed into forward and backward unit in a large number outside retrieval." solely unit " Chinese character of unmatched unit (or back unit) can be got rid of all " double base " Chinese characters outside retrieval again.
4, unit doublet input method for strokes can be imported phrase, adopts the stroke code of back position key (letter key) input odd number Chinese character, adopts the stroke code of anteposition key (symbolic key) input even number Chinese character, and this is that traditional stroke input method can't be accomplished.
Claims (2)
1, a kind of 52 type matrix layout of handset keypad, it is characterized in that: the key face of keyboard is by 10 numerical keys, 26 letter keys, 6 symbolic keys and 10 function keys ranks matrix layout formed of totally 52 keys, divide two big zones: function selecting operation keypad (A district) and character input operation keypad (B district), wherein:
Function selecting operation keypad (A district) is positioned at above the character input operation keypad (B district), is two row, five column matrix layouts, totally 10 keys, wherein:
First row, 5 keys: from left to right layout is A11, A12, A13, A14, A15;
Second row, 5 keys: from left to right layout is A21, A22, A23, A24, A25;
The functional definition of each key of A district specifically describes as follows:
Key position key-position symbol functional definition function declaration
A12 ← cursor is moved to the left or locatees to LeftArrow
A13 ↑ upwards directionkeys moves up cursor or locatees
A14 → directionkeys moves right cursor or locatees to the right
A15
Current operation is cancelled, withdrawed from or delete to cancel key
B21
The grapple keyed jointing is answered a call
B22 * star key definition individual operation function
B23 ↓ downward-direction key moves down cursor or locate
B24 # number sign key definition individual operation function
Character input operation keypad (B district) is positioned at below the function selecting operation keypad (A district), is seven row, six column matrix layouts, totally 42 keys, wherein:
First row, 6 keys: from left to right layout is B11, B12, B13, B14, B15, B16;
Second row, 6 keys: from left to right layout is B21, B22, B23, B24, B25, B26;
The third line 6 keys: from left to right layout is B31, B32, B33, B34, B35, B36;
Fourth line 6 keys: from left to right layout is B41, B42, B43, B44, B45, B46;
Fifth line 6 keys: from left to right layout is B51, B52, B53, B54, B55, B56;
The 6th row 6 keys: from left to right layout is B61, B62, B63, B64, B65, B66;
The 7th row 6 keys: from left to right layout is B71, B72, B73, B74, B75, B76;
B has located in the district 10 numerical keys, 26 letter keys and 6 symbolic keys:
10 numerals are: 1,2,3,4,5,6,7,8,9,0;
26 letters are: A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z;
6 symbols are: exclamation (! ), pause mark (), comma (), fullstop (.), period (.), question mark (?);
6 symbols be positioned at matrix first row first, second, third and fourth, five, six row;
10 numerals are divided odd number 1,3,5,7,9 and even numbers 2,4,6,8,0, odd number be positioned at the matrix secondary series third and fourth, five, six, seven row, even numbers be positioned at matrix the 5th row third and fourth, five, six, seven go;
26 letters divide initial consonant and simple or compound vowel of a Chinese syllable:
Simple or compound vowel of a Chinese syllable A, O, E, I, U, V be positioned at matrix second row first, second, third and fourth, five, six row;
Initial consonant divides five groups by Chinese phonetic alphabet form, wherein:
B, P, M, F are positioned at first and third, four, six row of matrix the third line;
D, T, N, L are positioned at first and third, four, six row of matrix fourth line;
W, G, K, H are positioned at first and third, four, six row of matrix fifth line;
Y, J, Q, X are positioned at first and third, four, six row of matrix the 6th row;
R, Z, C, S are positioned at first and third, four, six row of matrix the 7th row;
The location of each key of B district specifically describes as follows:
Key position B11 B12 B13 B14 B15 B16
A symbol! ,.. ?
Key position B21 B22 B23 B24 B25 B26
Symbol A O E I U V
Key position B31 B32 B33 B34 B35 B36
Symbol B 1 P M 2 F
Key position B41 B42 B43 B44 B45 B46
Symbol D 3 T N 4 L
Key position B51 B52 B53 B54 B55 B56
Symbol W 5 G K 6 H
Key position B61 B62 B63 B64 B65 B66
Symbol Y 7 J Q 8 X
Key position B71 B72 B73 B74 B75 B76
Symbol R 9 Z C O S.
2, a kind of unit doublet input method for strokes of Chinese character that is applied to 52 type matrix layout of handset keypad is characterized in that: last mo(u)ld bottom half, left right model, interior external form architectural feature according to Chinese character, resolve into former and later two unit with Chinese character: " preceding unit " and " back unit "; Use the multiple key localization method of stroke, 6 keys of definition cell phone keyboard are as Chinese character " preceding first stroke enter key ", other 6 keys of definition cell phone keyboard are as Chinese character " the first stroke enter key in back ", six basic strokes of Chinese character " one, Shu, Pie, Dian, ㄑ, zero " are positioned at simultaneously on 6 " the preceding first key " and 6 " the first key in back " two line unit positions of cell phone keyboard, utilize preceding first stroke of Chinese character to encode and import Chinese character with the first stroke in back;
This method with 6 stroke horizontal strokes () of Chinese character, perpendicular (Shu), cast aside (Pie), point (Dian), folding (ㄑ), zero (zero) navigate to 52 type mobile phone matrix keyboards, first row 6 symbolic keys "! ,..? " on, these keys are called the preceding first stroke enter key of Chinese character (first key before being called for short), also claim on " anteposition key " or " symbolic key ";
This method navigates to 6 stroke horizontal strokes () of Chinese character, perpendicular (Shu), left-falling stroke (Pie), point (Dian), folding (ㄑ), zero (zero) on 6 letter keys " AEOIUV " of 52 type mobile phone matrix keyboards, second row, these keys are called first stroke enter key behind the Chinese character (being called for short the first key in back), also claim " position, back key " or " letter key ";
Under the multiple key localization method of stroke, 6 strokes with 6 before behind first key and 6 correspondence mappings of first key concern as follows:
A preceding first key! ,.. ?
The first key A O E I U V in back
Stroke one Shu Pie Dian ㄑ zero
The rule of this method encoding Chinese characters is:
The single character code rule: with the preceding four stroke codes of unit before preceding first key input Chinese character, with the preceding four stroke codes of unit behind the first key input in the back Chinese character, first less than four strokes of preceding unit or back are with stroke code zero cover, that is:
Encode Chinese characters for computer=preceding unit first 4 strokes in 4 stroke+backs;
Phrase coding rule: adopt the stroke code of back position key (letter key) input odd number Chinese character, adopt the stroke code of anteposition key (symbolic key) input even number Chinese character:
Two words groups: import the preceding four stroke codes of first word with back position key, import the preceding four stroke codes of second word with the anteposition key, that is:
Preceding 4 strokes of first word+preceding 4 strokes of second word
Three words groups: import the preceding four stroke codes of first word with back position key, import the first two stroke code of second word with the anteposition key; Import the first two stroke code of the 3rd word with back position key, that is:
Preceding 4 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word
Four words groups: import the first two stroke code of first word with back position key, import the first two stroke code of second word with the anteposition key; Import the first two stroke code of the 3rd word with back position key, import the first two stroke code of the 4th word with the anteposition key, that is:
Preceding 2 strokes of first word+preceding 2 strokes of second word+preceding 2 strokes of the 3rd word+preceding 2 strokes of the 4th word.
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CN105843416A (en) * | 2016-01-26 | 2016-08-10 | 任文 | Stroke input method capable of assisting initial consonant input |
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CN105843416A (en) * | 2016-01-26 | 2016-08-10 | 任文 | Stroke input method capable of assisting initial consonant input |
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