WO2001057634A1 - Method for encoding character information, method for imparting encoding element of character information to key element, and information apparatus - Google Patents

Abstract

A method for encoding character information is characterized in that character information is identified by using an encoding element or a combination of encoding elements of the character information extracted from the order of strokes of the character information, and the whole encoding elements are appropriately imparted to ten or less key elements.

Description

Specification

 TECHNICAL FIELD The present invention relates to a method of encoding character information, a method of assigning a character information encoding element to a key element, and an information field.

 The present invention provides a pseudonym encoding that can be used to easily input a pseudonym, which is used for concealing information of a portable «! ¾ machine, a PDA, etc., and assigns a phoneme component element code to 10 keys. A method and an information device having the ten keys.

 The present invention relates to a method of encoding consonants or vowels of Hangul characters, which can be used to input Hangul characters easily, and a method of assigning codes to nine keys, which are used for information images such as a portable handheld device and a PDA. , And information β having at least 9 keys.

 This effort relates to the encoding of kanji using a combination of 10 keys for inputting kanji to information devices with a limited number of keys.

 The present invention relates to a method of encoding Latin characters using 10 key strings for inputting Latin characters into information β having a limited number of keys.

 Ryoaki Motomoto relates to a method of encoding Arabic characters using 10 key pairs ^: for inputting Arabic characters into information β having a limited number of keys.

 The present invention provides a code for easily inputting a pseudonym, which is used for information thighs of a portable «I tongue machine, a PDA, etc. , And the information β having the 10 keys.

 The present invention relates to a Kasumi tongue machine that simultaneously kills voice information and characters and figures. · The present invention relates to encoding of character information that can be efficiently encoded with characters in any language; ^, a method of assigning a single element of character information to a key element, and information β.

 Conventional technology

For handheld information devices such as PD Α and handheld portable devices, the size of the operation panel is small, so a copy for confirmation Keys to be placed are limited. For example, as shown in Fig. 1, the operation panel of a portable windowpane has 10 keys consisting of "1" to "9" and "0" (generally called "numeric keypad").お よ Sound · «Sound key strength S is provided.

 In this kind of information rise, the kana that belongs to the same row in the kana table is assigned to the same key, and the kana to be entered can be selected by the number of times the key is pressed.

 For example, the key "1" has an "a" line, the key "2" has a "power" line, the key "3" has a "sa" line, and so on. What's Later "A pseudonym has been assigned.

 Fig. 2 shows an example of key operation when inputting "ka", "ki" and "ku". More specifically, for example, in order to display the kanji sentence ^^ of "patent" on the display of a mobile phone or the like, the "original content" such as "totsukiyo", the hiragana "corrected content", and the kana character string After displaying the message, you need to operate the specified »conversion key.

 The following operations are required to display characters such as “Totsukiyo” on the display.

 (1) For "G", press key "4" ("T" line key) five times in succession. That is, "ta" (first time) → "j" (second time) → "tsu" (third time) → "te" (fourth time) → "to J (fifth time)".

 (2) Shift the input position to the right by one character because the next character "J" is the "TA" line key. (3) For "T", press key "4" ("TA" line key) continuously. Press twice. In other words, “ta” (1st) — “j” (2nd) → “tsu” (3rd) → “te” (4th) — “to” (5th) → “tsu” (6th).

 (4) For key "K", press key "2" ("Power" line key) twice in succession. That is, "power" (first time) → "ki" (second time).

(5) For “「 ”, press key“ 8 ”(“ ャ ”line key) six times in succession. Ie , “A” (1st time) → “U” (2nd time) → “O” (3rd time) → “Ya” (4th time) → “U”

(5th) → “Yo” (6th).

 "Original contents" of "Totsukiyo" Hiragana "Contents after" The input of kana sentence ^^ requires a total of 20 key operations. For this reason, creating an e-mail document using a portable tongue machine requires an enormous number of key operations.

 Conventionally, there has been known a technique for expressing a handal character in information β such as a PDA or a portable device in which the number of keys is limited. In this kind of technology, Hangul characters have many consonants and vinegar, so it took a lot of operations (key presses) to identify consonants and vinegar, that is, to input Hangul characters. .

 Conventionally, for information in which the number of available keys is limited, a kanji encoding method based on how to read is used.

 The power of the present invention S The image to be solved has a limited number of keys: ^, regardless of how to read the kanji, and how much the number of key presses must be suppressed to the maximum, efficiently and directly Is to enter.

 Conventionally, in the case of information in which the number of available keys is limited, several Latin characters are assigned to the same key and divided by the number of key presses (Figs. 23 and 24).

 Conventionally, in information difficulties where the number of available keys is limited, Arabic characters are input in Latin characters depending on how they are read.

 For portable information β such as P D Α and portable Kasumi tongue machine, the number of keys to be arranged is limited due to the small size of the operation panel. For example, as shown in Fig. 40, the operation panel of a portable handheld device has 10 keys consisting of “1” to “9” and “0” (generally called “numeric keypad”). , And sound keys are provided.

In this type of information, the kana that belongs to the same row in the kana table is assigned to the same key, and the kana to be entered can be selected by the number of times the key is pressed. For example, the key "1" has an "a" line, the key "2" has a "ka" line, the key "3" has a "sa" line, and so on. What's Later "A pseudonym has been assigned.

 Fig. 41 shows an example of key operation when inputting "ka", "ki" and "ku". More specifically, for example, in order to display the word “patent” on the display of a portable loudspeaker, etc., the “original content” such as “Totsukiyo” Hiragana “corrected content” Kana After displaying the sentence first, it is necessary to operate the predetermined ^ conversion key.

 The following operations are required to display characters such as “Tokikiyo” on the display.

 (1) For "G", press key "4" ("T" line key) five times in succession. That is, "ta" (1st) → "j" (2nd) → "tsu" (3rd) → "te" (4th) → "to" (5th).

 (2) Since the next character "tsu" is the "ta" line key, shift the input position one character to the right.

(3) For "tsu", press key "4" ("ta" row key) six times in succession. That is, “TA” (first time) — “J (second time) →“ T ”(third time) →“ T ”(fourth time) →“ G ”

(5th) → "tsu" (6th).

 (4) For key "J", press key "2" ("KA" row key) twice in succession. In other words, "power" (first time) → "ki" (second time).

 (5) For “「 ”, press key“ 8 ”(“ ャ ”line key) six times in succession. In other words, "ya" (first) → "yu J (second)" → "yo" (third) → "ya" (fourth) → "yu"

(5th) → “Yo” (6th).

 "Original contents" of "Totsukiyo" Hiragana "Contents after" The input of kana sentence ^^ requires a total of 20 key operations. For this reason, an enormous number of key operations are required to send and receive e-mails using a mobile phone.

The following problems remain with conventional telephones. The first problem is hearing loss and pronunciation Inability to use human resources. The second problem is that it is difficult to use in kana places. The third issue is that it cannot be used in public places or workplaces where there is a risk of disturbing others. The fourth problem is that it is difficult to convey accurate information such as names and numerical values. The fifth problem is that it is difficult to perform ft report 3¾ on a wall such as grapes. The sixth problem is that it is difficult to protect humility. The seventh problem is that it is not possible to get the correct '| f # due to the fact that the voice of the person who was away from home ^^ was too small, and there is a good possibility. Although the above problems could be solved to some extent by e-mail, it caused a new problem of lack of immediacy.

 The first factor that the present invention seeks to determine is that it can be used by persons with anxiety disorder or pronunciation ^ *. The second is how easy it is to use in other places. The third is how you can use it without affecting others. The fourth is to convey not only voice but also accurate information such as names and numerical values. Fifth, information can be exchanged regardless of the wall such as ¾ ^. Sixth step is how to prevent sound leakage. The seventh issue is how to leave accurate information while absent.

 The present invention provides a method of encoding a kana that can easily input a kana ^^, a method of assigning a phoneme component element code to 10 keys, and information «having the 10 keys. Aim.

 The key to solving the problem is to enter Korean characters efficiently and efficiently with as few key presses as possible in ^ where the number of keys is limited.

 The present invention relates to a coding method that allows easy input of Hangul characters, a method of assigning codes to a small number of keys (specifically, 9 or 10), and information having the small number of keys. The purpose is to «.

 In order to achieve the above-mentioned goal, the present invention provides a code for each of the visual features of a dict and a brush with 10 codes, and then a structure code and a brush code in pairs. Assign to 0 keys to encode all dictionaries.

The present invention seeks to solve the problem by setting the number of key presses to ^^ where the number of keys is limited. How to reduce it and increase the input efficiency of Latin characters.

 The present invention seeks to solve the problem! ^ Is to reduce the number of key presses with the limited number of keys, and to improve the input efficiency of Arabic characters.

 It is an object of the present invention to provide a coding method for easily inputting a pseudonym, a code addition to 10 keys, and a fiber information having the 10 keys. . Disclosure of the invention

 According to the kana coding method of the present invention, the kana is represented by any one of the following first phoneme component group Α, second phoneme component group Β, third phoneme component group C, or a combination thereof: In the above, the pseudonym is defined by a combination of a code of a tfflB component group or a code of a ttnss component group.

First return component group A _:

 "A" stage ("A" in single-letter notation) element; η-do A 1

 "ィ J-stage (" I "in single-letter notation)) element;

 "ゥ" Dan vowel ("U" in the word syllabary) Element; Code A 3

 "E" stage ("E" in single-letter notation) element;

 "O" Dan vowel ("0" in single-letter notation) element; Π--de A 5

 Resonant "ya" ("YA" in Roman notation) element;

 Resonant "u" ("YU" in Roman alphabet) Element; Code A 7

 Resonant "yo J (" YO "in Roman alphabet notation) element;

 Second phoneme component group B:

 "Power" line consonant ("K" in Roman alphabet) element; code B 1

 “Sa” consonant (“S” in Roman alphabet) element; code B 2

 "Ta" consonant ("T" in Roman alphabet) element; code Β 3

 “Na” consonant (“Ν” in Roman alphabet) element; code コ ー ド 4

"C" line consonant ("Η" in Roman alphabet) element; code Β 5 "Ma" consonant ("M" in Roman notation) element; code B6

 "La" consonant ("R" in Roman alphabet) element; code B7

 "ヮ" consonant ("W" in Roman alphabet) element; code B8

 Third phoneme component group:

 "Dark sound" ,, "," N "," One "element; code C 1

 "Semi-voiced sound". ", Prompting sound" tsu ", blank" J "element; code C2

 Figures 3, 4, and 5 show component group A, second phoneme component group B, and third phoneme component group. Indicates the correspondence between keys and codes.

 In the coding method of the present invention, when the code C1 or C2 is input before or after the code A1, A2, A3, A4, A5, A6, A7, A8. , The input can be determined to be "a", "j", "", "e", "o", "ya", "u", "yo".

 Also, after the code ci, when the code C1 is input, the key input is determined to be "n", and when the code C2 is input, the key input is determined to be "" (space),

 After the code C2, the key input can be set to "1" when the code C1 is input, and the key input can be set to "1" when the code C2 is input.

 Figure 6 shows an example of the correspondence between kana characters and code combinations. In FIG. 6, when the code C1 or C2 is input before the codes Al, A2, A3, A4, A5, A6, A7, A8, the input is “a”, “i”, “ゥ”, "E", "o J," "ja J," "u", "yo" are determined.

The combination of the eight elements of the first phoneme component group A and the eight elements of the second phoneme component group B is arbitrary as shown in the seventh garden. In the present invention, Ail 'Bjl, Ai2Bj2, Ai3Bj3,... Are assigned to the ten keys (Key0, Key1, Key2,..., KeylO). · ·, A i 8 'B j 8, C 1 and C 2 are allocated. In Fig. 7, Ai l, Ai 2, ···, and A i 8 have any of Al, Α2, · ' , B j 1, B j 2, · · ·, and B j 8 are allocated so that any of B 1, B 2, · · ·, B 8 does not fi »Is shown. Fig. 9 shows how each key in the general key layout (see Fig. 8) is given a code by the coding method shown in Fig. 6.

 The method for assigning phoneme component codes to 10 keys according to the present invention includes the following: a first phoneme component group Α, a second phoneme component group し た, and a third phoneme component group, each of which has a pseudonym. Defined in any of the above or combinations thereof, the pseudonym is defined by the code of the component group, or the combination of the code of the component group,

 Eight keys of the first phoneme component group Α and eight elements of the second phoneme component group B are assigned to the first to eighth eight keys, one each, and the remaining The two keys of the third phoneme component group are assigned to the two keys 9 and 10.

 In the phoneme component code assigning male of the present invention, when the code C1 or C2 is input before the codes A1, A2, A3, A4, A5, A6, A7, A8, Alternatively, when input is made later, the input can be determined to be "a", "i", "ゥ", "e", "o J," "a", "u", "yo".

 In addition, after code C1, when code C1 is input, key input is determined to be "n", and when code C2 is input, key input is determined to "" (space),

 After the code C2, when the code C1 is input, the key input is set to "1", and when the code C2 is input, the key input is set to "tsu".

 According to the present invention, the difficulty in information including 10 keys is that the phoneme component code is assigned by the phoneme component code assigning method described above.

According to the present invention, first, consonants and vowels of Hangul characters are first coded by nine codes, and then nine codes representing ^ ¹ and nine codes representing 赌 are obtained. Is assigned to 9 keys in pairs one by one. In addition, another key can be used to encode space and all Hangul. That is, in the first embodiment of the Hank ^ sound coding method of the present invention, six keys are given codes A1 to A6 representing the six consonants of Table 1 so as not to overlap, The key is to assign chords A7 to A9 representing 13 consonants in [Table 2] by combining them with chords selected from A1 to A6.

 〔table 1〕

 People

 (Table 2)

 From

 7X IE

 In addition, in the method of encoding a Hangul consonant according to the first aspect, a consonant is represented by a code shown in [Table 3].

 (Table 3)

 -1 A1 Αλ Α7 Α4

 -π A7A1 Α5

 A8A1 A 6

 Α2 ^ A7A6

 (Α7Α2 ^ A9 A6

 s Α8Α2 ^ A9A1

 Mouth Α8 Α5 A9A2

 ^ A3 in A8 A6

 Α7 A3 A9A5

 Enter A4

 The coding method of Hank ^ # ^ of the first fiber is as follows: * Codes 5 to 5 representing the five vowels in [Table 4]: B5 are added to the five keys so that they do not overlap.

4 keys, combined with each other, or B1 ~; with code selected from B5 The codes B6 to B9, which represent the 16 vinegars in [Table 5] when combined, are assigned.

 (Table 4)

 H t JJL

 (Table 5)

 • 1 • II 4 i Η Η 丄 1

 Ding ■ A τ-ΙΙ -rl ΤΓ 1 1 1 1

 Is represented by the '3-word' shown in [Table 6].

 (Table 6)

 1- Β 1 丄 H Β 8Β 2 1 Β6Β6

 Η Β2 丄 1 Β8Β 6

 Β3 ji. Β6

 H Β4 Β Β 7 Β 7

 ■ 1 Β9Β 1 -A Β 7Β 1

 -II Β9Β 2 τ-ΙΙ Β 7Β 2

 Β8Β3 τ \ Β 7Β 6

 i \ Β9Β4 ΊΤ Β 9Β 5

 丄 Β8Β8 Β 9Β 6

 Upper Β8Β 1 1 1 Β 6Β 9

 In the chord assignment method of the first aspect, a Hangul consonant code is defined by the above-described consonant code Α1 to A9, and a Hang code is defined by the above-described vinegar code,

 Assign nine consonant codes A 1 to お よ び 9 and nine vowel codes Β 1 to Β 9 to the first to ninth nine keys, respectively.

That thing is the floor. Further, in the code assignment method of the first aspect, it is assumed that a “” (space) code is defined in the tenth key.

 The information leak of the present invention is characterized in that it includes 9 or 10 keys to which a code is assigned by the above-described code assigning method.

 In the second aspect of the Hangul consonant coding method of the present invention described below, in the eight keys, codes A1 to Α8 representing the eight consonants of (Table 7) are assigned so as not to overlap, It is assumed that one key is given a code A9 representing 11 consonants in Table 8 by being combined with a code selected from A1 to A8.

 (Table 7)

 -1 person

 (Table 8)

 Ί1 blld Λλ

 = 1

 In the Hangul chordy method of the second embodiment, a consonant is represented by a code shown in [Table 9].

 (Table 9)

 A1 A6 A6

 -11 A 1 A 1 <=> A 7

 A2 A8

 c A3 ^ A8 A8

 α: A3 A3 sky A8 A9

 s A4 = i Al A9

 α Α2Α9 A3A9

 s Α5 ^ A4 A9

UB A 5 A 5 A7A9 Person A6 «λ A5A6

 Ίλ Al Α6

 A 2 A 8

 v§ A2A7

 ei A4A1

 CT A 4 A 2

 ¾ A4 A5

 A4A6

 SE A4 A 3

 A4A4

 A4A7

 The Hangul vowel coding method of the second embodiment is such that codes 8 to B8 representing 8 vowels in (Table 10) are assigned to eight keys so as not to be duplicated,

 A special key is to assign a code B9, which represents the 13 vowels in [Table 11], to one key by being combined with each other or with a code selected from B1 to B8. And a floor.

 (Table 10)

 ·! || 4 4 "r I

 (Table 11)

 n H 丄 Jl 丄 I Ding!

 τ-ΙΙ D I * τ ― — |

 A Hank coding method based on the fact that ^ is represented by the code shown in [Table 12].

 (Table 12)

BI xH B 6B 3 I B8 HB 1 B8 丄 I B6B8

 I: B2 -u- B 5B 9

 ϋ B 2B8 -r B 7

 ·] B 3C ■! B 7B 3

 B 5 -rl B 7B8

 41 B5B8 Γ B2B 9

 丄 B 6-B8B 9

 Port B6B 1 I B8B8

 In the chord assignment method of the second aspect, the Hangul consonant code is defined by the above-described consonant codes A1 to A9, the Hangno code is defined by the above-described KB1 to B9, Eight consonant codes A1 to A8 and eight vowel codes B1 to B8 are assigned to the eight keys of 8, one each.

 Assign consonant code A9 and vowel code B9 to the ninth key,

That is the tree.

 In the code assignment method according to the second aspect, a “” (space) code is defined in the tenth key.

 The information nada of the second aspect is characterized by including nine or ten keys to which codes are assigned by the above-described code assignment method.

 To achieve the above goal, the present invention first classifies Latin characters into brushes.

Next, the brush is divided into eight sets, codes are defined for each set, and assigned to the eight keys. So

And one key for the space, and the other key for switching to the special characters Axent and Trema.

In order to achieve the above goal, the present invention first classifies Arabic characters into brushes. Next, the brush is divided into eight sets, codes are defined for each set, and assigned to the eight keys. At the same time, other sign Is defined by another code. Other Give one key to space and another key to switch. The first encoding method is:

 First code group A:

"A" stage ("Α" in the quotation mark) element; de A 1

“I” Dan 赌 (“I J” element in the one-letter mark); η

“U” Step (Mouth: “UJ η

 ) Element;

 "E" Step-hoof (mouth-"E" in syllabary notation) element; de A 4

"O" Dan vowel (Mouth-"O" in the vote) element; de A 5

Diphthong "Ya" ( "YA" in Rome Hyoki) element; de A 6 contracted sound "yu" ( "YU" number in Roman title ¹ - "do A 7

 ) Element;

 MUNE "Yo" ("YO" in Romanized notation) Element; 1 A 8 Second Code Group B:

"K" line consonant ("K" in the one-letter mark) element;

"Sa" line consonant ("s" in the syllabary title) element; z-KB 2

“Ta” consonant (“T” in the word “T”); element B 3

"N" Gyukoon ("N" in the word "K") KB 4

"Ha" Gyokoon ("H" in the word "H")

"Ma" line consonant (Mouth: "M" in ma n 1 B 6

“La” consonant (“R” in the word “K”) KB 7

"Wa" Yoko consonant ("WJ n-1 KB 8 Third code group C:

 "Dark sound", "N J," One "" element; One-C1

The pseudonym in the element of “semi-voiced sound“ ° ”, prompting sound“ tsu ”, blank“ ””; Code group, or a combination of the codes in the above code group,

The following meanings are given to the IfrlB codes A1 to A8 as glue mats.

 "A" Stepping element code A1:

 Full-width uppercase \ 1

 Full-width lowercase name "A",

 Full-width katakana "a J,

 Full-width lowercase katakana "a",

 One-byte uppercase katakana "a",

 One-byte lowercase katakana "a",

 "A" Dan

 "I" Stage II element code A 2:

 Full-width capital letter ¾K name “i”,

 Full-width lowercase letters (Anonymous "i",

 Full-width katakana "i",

 Full-width lowercase katakana "i",

 One-byte uppercase katakana "i",

 One-byte lowercase katakana "i",

 "Le," Dan

 "U" Dan ¾ ^ Element code A 3:

 Full-width capitalized hiragana "U",

 Full-width lowercase letters

 Full-width katakana "ゥ J,

 Full-width lowercase katakana "ゥ",

 One-byte uppercase katakana "ゥ",

One-byte lowercase katakana "ゥ", "U" Dan

"E" column Element code A 4: Full-width uppercase letter "E" Full-width lowercase letter f Reverse name "E" Full-width uppercase katakana "e" Full-width lowercase katakana "e" Half-width uppercase katakana "e J, half-width" Lowercase katakana "e" and "e"

"O" column «Element code A 5: Full-width uppercase hiragana" O "Full-width lowercase hiragana" O "Full-width uppercase katakana" o "Full-width lowercase katakana" O "Half-width uppercase katakana" o ", half-width lowercase Katakana "O", "O" Dan

"Ya" Danji element code A 6: Full-width uppercase (Nana "Ya" Full-width lowercase Kana "Ya" Full-width uppercase katakana "Ya" Full-width lowercase katakana "Ya" Half-width uppercase katakana "Ya", half-width Lowercase katakana "ya", "ya" stage "Yu" Step II element code A 7:

 Full-width capital letter name “Y”,

 Full-width lowercase letters ί

 Full-width katakana "u",

 Full-width lowercase katakana "u",

 One-byte uppercase katakana "u",

 One-byte lowercase katakana "u",

 "Yu" Dan

 "Yo" Dan vowel element code A8:

 Full-width capital letters

 Full-width lowercase letters ί

 Full-width katakana "yo",

 Full-width lowercase katakana "ョ",

 One-byte uppercase katakana “ョ”,

 One-byte lowercase katakana "ョ",

 "Yo" Dan

 Further, the first coding is characterized in that the codes Cl and C2 have the following meanings.

 "Dakuon" ,,, "," n "," one "" Code C1:

 Full-width capitalized hiragana and full-width capital letter katakana belonging to the “ka” line, “sa” line, “ta” line, and “ha” line, or even full-width large letter ^ pf Muddy sound function,

 Half-width lowercase letters "Ί,

 Full-width long "one" and half-width long Η

“Sound“ ° ”, prompting sound“ tsu ”, blank“ ”” Code C2: The full-width uppercase letter f that belongs to the line “ha” and the half-width katakana sound of the full-width katakana and the full-width katakana sound “tsu”, the full-width katakana sound “tsu”, the half-width katakana sound “tsu,”

 Full-width space "" and half-width space "J

 In [Table 13], [Table 14], and [Table 15], the codes A1 to A8, B1 to B8, C1 and Kana to kana are shown. Shows the assignment of 2. Table 16 shows the codes for kana. In [Table 16], the kana characters are indicated by "Katakana" for convenience, but the codes in Table 4 are not limited to character types.

 (Table 13)

Code Meaning

 B1 row ©

 B2 Sa line ⑥

 B3 行

 B4 row ®

 B5 is line ⑧

 B6 line

 B7 Ra line ®

B8 Wa row ®

(Table 14)

Code Meaning

 C1 (Dark sound), N, N, One (long) N

C2 '(semi-voiced sound)

SPJ

(Table 15)

(Table 16) Kana coat-

In the first code assignment method, the pseudonyms are written as tir! E codes A1 to A8 of the first code group A, codes B1 to B8 of the second code group B, and code C of the IB third code group C. 1, C2, or a combination of these, and the eight keys of the first to eighth keys are assigned to the eight elements of the first code group A and the eight elements of the second code group B. Elements are assigned one by one, and the remaining two keys of the ninth and tenth keys are assigned two elements of the third code group C. Codes A1 to A8 are described above. Giving meaning is a tree.

 Further, the first coding method is characterized in that the tiflS codes CI and C2 are given the above-described meaning.

Fig. 42 shows the assignment of codes A1 to A8, B1 to B8, CI and C2 to the ten keys. In Fig. 42, the numbers in "Key l" to "Key9" and "KeyO" The letter does not necessarily mean the number displayed on the key. Also, codes A1 to A8 are appropriately assigned to Aix (x = l to 8) so as not to be put together. Codes B1 to B8 are suitable for B i X (X = 1 to 8) so as not to break! Can be assigned. In addition, codes CI and C2 are appropriately assigned to C i X (x = l, 2) so as not to fiber. The second coded male uses the pseudonym,

 First code group A:

"A" Dan vowel ("Α" in the title of the word 一); -de A1

 Tea needed;

 "I" Dan vowel ("I" in mouth-to-mouth voting): Code A2

 Element;

 “U” Step (Mouth — “U” in Maji title; m-do A 3

 Element;

 "E" Dan vowel (in the mouth-voting form): -de A 4

^One element;

 "O" Dan vowel ("0" in the one-letter mark): Code A 5

 'Element;

 Resonant "Ya" ("YA" in Romanized notation: -de A 6

 Element;

 Resonant "Yu" ("YU" in Roman text: Code A7

 Element;

 Retsune "yo" ("YO" in Roman writing:> element; code-A8 second code group E:

“K” Gy 子 on (“K” in the word “K”): Ko-E 1

"Sa" line consonant ("s" in the one-letter mark)

“Ta” Gy 子 on (“TJ: n-de Έ3

“Ha” Gy 子 on (Mouth— “H” in Maji title: ド 4

 Third code group F:

“N” Gy 子 on (“N” in voting and voting): Code, F1

"Ma" Gyukoon ("M" in the title of the word "K"): Ko -KF2

"La j row consonant (Mouth:" R "in voter:: = ∑ -KF 3

"ぱ" line consonant ("P" in the one-letter mark: -de, F4

Fourth code group G: "Wa" consonant ("WJ" element in Roman alphabet notation; code G1)

 Fifth code group H:

 "N" ("NN" or "N" in Roman alphabet notation) element; chord HI long element; chord H2

 Sounding element; code H3

 Sixth code group K:

 "First function and cloud point" element; code K1

 "Second function and blank" element; code K2

In the second coding method, the pseudonym in which the pseudonym is expressed by any one of the above or combinations thereof is defined by a combination of the codes of the code group or the codes of the ffiSB code group. The following meanings can be given to the codes H2 and H3. Long tone element code H2:

 Full-width long "one" and half-width long ""

 G3 sound element code H3:

Full-width ⁵ ^ name-prompting tone “tsu”, full-width katakana-prompting tone “tsu”, half-size katakana-prompting tone “tsu” Also, in the second coding method, the following meanings can be given to the codes Kl and K2.

 "First function and cloud point" Element code K1:

 The “ka” line, the “sa” line, the “ta” line, and the “ha” line belong to the full-width large-size sentence {Kana and full-width large-letter kana, or even full-width large-size sentence ^ f. ”

 Half-width lowercase letters ",

"Second function and blank" Element code K2 Blank ""

 Further, in the second coding method, a coding method is characterized in that all or a part of the following input modes are defined by codes L1 to L8 by a character type switching function.

 Kana drunk input mode; code L 1

 ¥ ίAnonymous input mode;

 Katakana full-width input mode; code L 3

 Katakana half-width input mode; code L 4

 Uppercase letter input mode; code L 5

 Lowercase letter input mode; code L 6

 Number input mode; code L 7

 Symbol input mode; code L 8

 In this case, K1Al, KlA2, K1A3, KlA4, K1A5, KlA6, K1A7, and K1A8 are defined so that the codes L1 to L8 are not set.

 [Table 17] shows the assignment of codes E1 to E4, F1 to F4, Gl, H1 to H3, Kl, and K2 to kana and functions. Table 18 shows the codes for kana. In [Table 17], the kana is indicated by "Kana" for convenience, but the codes in Table 4 are not limited to character types.

(Table 17)

, One sound breath n tree W1 * ke

 Pi or

 Co Sa line

 Row

 Is line

 FI line

 Line

 Ml et row

Γ4

Bank

 U I

 Π I

 H2

 H3 © One, two, three

 i 〇 Voice sound, lowercase letters, character type switching function

K2 base, confirmation function

(Table 18)

ίAnonymous 3 de Kana = Γ ~ T "Kana: ^" T 'Kana code

 Ύ A1K2 group Ε1Α3Κ1

 A2 2 Ε1Α4Κ1

 ゥ A3K2 Go Ε1Α5Κ1

 X A4 2 gear Ε1Α6ΚΊ

 A6K2 Ε1Α7

 Ύ A1K1 Guyo E1A8 1

 A2K1 Ε2Α1

 A3 1 M M Ε2Α2

 X A K1 Ε2Α3

 O AB 1 X- Ε2Α4

 Force E1A1, NO J Ε2Α5

 E1A2 Ύ Ε2Α6

 H E1A3 Ε2Α7

 C E1A4 Ε2ΑΘ

 E1A5 Ε2Α1 1

 Key E1A6 Ε2Α2Κ1

 Kiko E1A7 people Ε2Α3Κ1

 Kiyo E1AB 1Ζ Ε2Α4Κ1

 Moth E1A1 1 / Ε2Α5Κ1

 Giant E1A2 1 Ja Ε2Α6Κ1

 Pseudonym pseudonym

 View E4A7K1 Ma F2A1

 Byo E4A8K1 F2A2

 F4A1 F2A3

 F4A2 M F2A4

 F4A3 MO F2A5

 F4A4 S F2A6

 Po F4A5 New F2A7

 F4A6 G F2A8

 View F4A7 key Α6 2

Byo F4AB Α7Κ2

Furthermore, [Table 19] shows the assignment of codes L1 to L8 to the character type switching control information (input mode), and [Table 20] the first code group corresponding to codes L1 to L8. The following shows the combination of the code in Α and the code in the sixth code group K. In [Table 20], a set of a code of the first code group A and a code of the sixth code group K is appropriately assigned to L ix (x = l to 8) so as not to overlap.

[Table 19] Character type switching; ^ control information _ _ 1 double, T> TDRD?

 LiiTFT D LJI or il character input mode 1

 Hiragana human power mote 2 © 1 1

 Katakana full-width input mode 3 © Katakana 丰 square input mode 4 ® Chuo University X child input mode 5

 Central small god child sword mote 6

 Numerical input mode is changed to 7 ® Symbol input mode is changed to 8 ®

(Table 20)

L coat Equivalent A & K coat し 1 Κ1 Α1

 Li2 K1 A2

 Li3 K1 A3

 Li4 K1 A4

 Li5 K1 AO

 Lib K1 A6

 Li7 K1 A7

 Li8 K1 A8

The second code assignment method is as follows: kana, tiflB code of first code group A Α 1 to Α8, ΙίίΙΒsecond code group コ ー ド code E 1 to E 4, ffflB third code group F code F 1 to F 4, the code KG1 of the fourth code group G, the code H1 to H3 of the fifth code group H, the code Kl or Κ2 of the t & | B sixth code K, or any of these Defined in combination,

 8 keys from 1st to 8th,

 Each of the eight elements of the first code group Α is assigned one by one,

 To these eight keys, four elements of the second code group E and four elements of the third code group F are assigned, one each.

 One element of the fourth code group G is assigned to any one of the four keys to which the four elements of the third code group F are assigned,

The three keys assigned to the three elements A6, A7, and A8 of the first code group A Add 3 elements of 5 code group H,

 It is characterized in that two elements of the sixth code group K are assigned to the ninth and tenth two keys.

 Further, the second code assigning method is characterized in that the codes H2 and H3 have the above-mentioned meaning.

 Further, the present invention is characterized in that the ΙϋΙΒ code Kl, Κ 2 is given the above-mentioned meaning.

 Be careful not to change the 8 keys with 8 g¾ of the first code group Α

, All or a part of the above codes L1 to L8 are given,

 With the 1 & 15 character type switching function, the above input mode is defined as codes L1 to L8.

 In the tfrlE codes L1 to L8, combinations of the codes, K1Al, K1A2, K1A3, K1A4, K1A5, K1A6, K1A7, and K1A8 can be defined so as not to cause S¾.

 [Table 21] shows the assignment of code sets to the ten keys.

(Table 21)

Thousand awarded code

 0 K2

 1 A1, E1, L1

 2 A2, E2, L2

 3 A3, E3, L3

 4 A 4, U I, L4

 5 AD, E4, then 5

6 A6, F4, H3, L6

 7 A7, F2, H1, L7

 8 K1

 9 A8, F3, G1, H2, L8

In Fig. 42, the numbers in "Keyl" to "Key9" and "KeyO" are not necessarily the numbers displayed on the keys.

 The information device according to the present invention includes 10 keys to which the code is assigned by the first or second code assigning method described above.

 In the first code assignment method, in addition to the first to tenth keys, an eleventh key or further a first and second key can be included. Specifically, the numbers 0 to 9 are marked on the 1st to 10th keys, the character power S of `` * '' is marked on the 11th key, and the `` # '' is marked on the 12th key. Character can be marked.

In addition, each β function can be defined over multiple layers. Top level menu The function can be assigned to the first key. Also, the function of selecting a lower hierarchy can be assigned to at least one of the first to tenth keys, for example. Also, menu selections can be assigned to the first and second keys, and the first and second keys can have a cancel function.

 For example, when the menu function is activated by pressing the 1st key, the menu selection screen is displayed on the specified display, and defined by the 2nd key, the 4th key, the 6th key, and the 8th key in the hierarchy. It is also possible to select the selected β function (“Return to the previous state” function, 乍 function, character input mode selection function, etc.).

 With ^^, the 1st key (for example, the key marked with “*”) has the “OK” function, and with the menu selected,

 The second key is given the function for selecting the previous item in the same hierarchy, the eighth key is given the function for selecting the next item in the same hierarchy, and the fourth key Gives the function of shifting to a shallower hierarchy,

 Giving the sixth key the ability to move one level deeper,

be able to.

 Also, the first and second keys (for example, the key marked with the “#” key S) can have a “cancel” function.

 According to the present invention, it is possible to mix text information and graphic information input during a call with voice information and fibrillate it, and to separate text information and graphic information from received voice information.

 As shown in FIG. 45, the information sending function part of the present invention is logically defined. In other words, usually speaking, within a range similar to the tongue, text and graphic information are mixed with audio information. At the same time, input text and graphic information can be recorded and displayed.

As shown in FIG. 46, the information receiving capability of the present invention is logically defined. That is, character and graphic information can be separated and displayed from the received or reproduced mixed signal. In the present invention, the communication can be performed in parallel. Speech to be spoken, characters and figures created, and 亍 to do. It can be performed in parallel with the received voice and ^ and the display of characters and graphics ^.

 In the present invention, it is also natural that there is a method in which both the killing and killing are performed via the communication network, and: ^: which directly transmits and receives without using the communication network.

BRIEF DESCRIPTION OF THE FIGURES

 FIG. 1 is a diagram showing a key layout according to a conventional kana coding method.

 FIG. 2 is a diagram showing a conventional kana coding method.

 FIG. 3 is a diagram showing the correspondence between keys and codes in the first phoneme component group Α.

 FIG. 4 is a diagram showing the correspondence between keys and codes in the second phoneme component group B.

 FIG. 5 is a diagram showing the correspondence between keys and codes in the third phoneme component group.

 FIG. 6 is a diagram showing an example of correspondence between kana characters and combinations of codes.

 FIG. 7 is a diagram showing combinations of eight elements of the first phoneme component group A and eight elements of the second phoneme component group B.

 FIG. 8 is a diagram showing a key layout used in the embodiment of the present invention.

 FIG. 9 is a diagram showing a case where the code assignment by the encoding method shown in FIG. 6 is applied to each key of the key layout of FIG.

 FIG. 10 is an explanatory diagram of the first embodiment, and shows codes used for coding consonants. FIG. 11 is an explanatory diagram of the first embodiment, and shows codes used for coding vowels. FIG. 12 is an explanatory diagram of the first embodiment, and is a diagram showing allocation of consonants arranged on keys and "S ^".

 FIG. 13 is an explanatory diagram of the first embodiment, and is a diagram showing assignment of keys to consonant codes and vowel codes.

FIG. 14 is an explanatory diagram of the second embodiment, showing codes used for coding consonants. FIG. 15 is an explanatory diagram of the second embodiment, showing codes used for coding vowels. FIG. 16 is an explanatory diagram of the second embodiment, and is a diagram showing allocation of consonants and keys arranged on keys.

 FIG. 17 is an explanatory diagram of the second embodiment, and is a diagram showing assignment of consonant codes and vowel codes to keys.

 Figure 18 is a list of the structure codes of drunk.

 Fig. 19 is a list of brush codes and brush pairs.

 FIG. 20 shows the key of the code.

 FIG. 21 is a key distribution diagram of the embodiment.

 FIG. 22 is a key code diagram of the Wei form.

 FIG. 23 is a key distribution diagram according to the conventional Latin character encoding method.

 FIG. 24 illustrates a conventional Latin character encoding method.

 Figure 25 shows a list of brushes for Latin characters.

 Fig. 26 is an illustration of the brush composition of Latin characters.

 Fig. 27 is an illustration of a brush thread 1¾ ぴ space / accent switching code.

 Figure 28 is a list of Latin character codes.

 FIG. 29 is a key distribution diagram of the code.

 FIG. 30 is a diagram of a one-minute rooster of the embodiment.

 FIG. 31 is a key code diagram of the embodiment.

 Fig. 32 shows a list of brushes for Arabic characters.

 FIG. 33 is a drawing showing a brush configuration of Arabic characters.

 FIG. 34 is an illustration of a brushed code and a space / switching code.

 Fig. 35 is a list of Arabian character codes.

 FIG. 36 shows codes of a short vowel code, a double # ^ sign, and a "code.

 FIG. 37 is a key distribution diagram of the code.

FIG. 38 is a key distribution diagram of the embodiment. FIG. 39 is a diagram of a key code in a 麵 form.

 FIG. 40 is a diagram showing a key layout according to a conventional kana coding method. FIG. 41 is a diagram showing a conventional kana coding method.

 FIG. 42 is a diagram showing assignment of codes A 1 to A 8, B 1 to B 8, 01 and 2 to 10 keys.

 FIG. 43 is a diagram showing ^^ in which the first code assignment by the first encoding method is applied to 10 keys.

 FIG. 44 is a diagram showing a case where the second code assignment by the second encoding method is applied to 10 keys.

 FIG. 45 is a diagram showing an information sending function part of the present invention.

 FIG. 46 is a diagram showing an information receiving function part of the present invention.

 FIG. 47 is a diagram showing one embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

 An embodiment of the present invention will be described below. In this male configuration, the phoneme component codes shown in Fig. 9 are assigned to the 10 keys in the key layout of the belt-type mit machine shown in Fig. 8.

 In FIG. 9, the following operation is performed in order to display the pseudonym “^^” on the display.

 (1) For “G”, key “3” (first time) — key “5” (second time).

 (2) For key "T", key "0" (first time) → key "0" (second time).

 (3) For “Kyo”, key “1” (first time) → “9” (second time).

 In other words, a total of six key operations can represent the kana character string of “Totsukiyo”, which greatly dislikes the number of key operations compared to the 20 key operations performed by the general scholar.

 [1st Wei form]

Hereinafter, an embodiment of the first aspect of the present invention will be described. As for the consonants, as shown in FIG. 10, codes A1 to A9 used for coding of 9 keys are defined. Based on that, the code of is defined by [Table 14] described above.

 As shown in FIG. 11, codes B1 to B9 used for the coding of の ^ are defined for nine keys as shown in FIG. Based on this, the code power of ¾ ^

 Then, as shown in Fig. 13, one of the ten keys shown in Fig. 12 is assigned to each of the first to ninth nine keys, regardless of the order of A1 to A9 and B1 to B9. Granted in pairs. Assign SP (space) to the remaining tenth key.

 As shown in [Table 26], the encoding of Hangul characters is defined as the encoding of space, occupation characters, Chinese vinegar characters and other Korean characters.

 (Table 26)

 Space S P + S P

 Axis consonant consonant + SP + SP

 赌 赌 letter S P + vowel + S P

 General Hangul consonant + vinegar + consonant

 Consonant + SP + consonant

 [2nd Wei form]

 Hereinafter, an embodiment of the present invention will be described.

 As for the consonants, as shown in FIG. 14, codes A1 to A9 to be used for the coding of ^ are defined for nine keys. Based on this, the consonant chord is Jhi ^ according to [Table 20] described above.

As for vowels, codes B1 to B9 used for coding vowels are defined in nine keys as shown in FIG. Based on that, the code of is defined by [Table 25] described above. Then, as shown in FIG. 17, A1 to A8 and B1 to B8 are assigned one by one to the eight keys of the first to eighth of the ten keys shown in FIG. Granted in pairs, the ninth key is given with A9 and B9. Assign SP (space) to the remaining tenth key.

 As shown in [Table 27], for the encoding of Hangul characters, the input encoding method for spaces, Yoniko consonant characters, Hinomushi vowel characters and other Korean characters is defined.

 [Table 27]

 SP SP

 Craft consonant consonant + SP

 《《^ Letter i +-general Hangul letter consonant + 赌 + consonant

 Consonant + 1 + 储 + consonant

 Consonant + consonant

 Here, "" means the input of A9 or B9 code.

 In FIG. 18, the structure codes AO to A9 used for expressing the structural difficulty of ^^ are defined. Other than AO: ^, Drunk can be structurally divided into two parts. Kanji structure The division results are marked with & 1 to & 9 and 1 to 139, respectively.

 In FIG. 19, brush codes CO to C9 used for expressing the brush characteristics of are defined. The selected brush-brush combinations are divided into 10 pairs, and one brush code is awarded for each pair. The selected combination of brush and brush is brush kanji and ^ Τ.

 The Kanji figure fiber code is a U code that replaces the brush code with the structure code, starting with the brush code. The brush kanji figure code is the assigned brush code. The kanji figure 赚 code divided into a i and b i is defined as b i 's brush code, followed by a i's one-figure code, and finally b i's figure code.

The kanji input code is defined as the child order of the figure {ko} code. In FIG. 20, A0 to A9 and C0 to C9 are assigned to 10 keys in pairs, one by one, without any relation in order.

 FIG. 21 and FIG. 22 show one embodiment of the present invention.

 In Figure 25, the Latin brushstroke is defined.

 In Fig. 26, the brush composition for each Latin character is defined.

 In FIG. 27, the brush composition for each set and the codes B1 to B8 are defined. In addition, a space code KB 0 and a character code switch KB 9 for the unique character 'Trema' are also defined.

 In Fig. 28, the brush code for each Latin character is defined.

 In FIG. 29, B0 to B9 are distributed to 10 keys without any relation in order.

 FIG. 30 and FIG. 31 show one embodiment of the present invention. In Figure 32, Arabic brushstrokes are defined.

 In FIG. 33, the brush composition of the Arabic sentence ^ with the final brush is defined.

 In FIG. 34, the brush composition for each set and the codes B1 to B8 are defined. In addition, a space code B 0 and a switching code B 9 are also defined.

 In Fig. 35, the brush code for each Arabic character is defined.

 In FIG. 36, codes of short 赔 code, double vowel code and consonant code are defined. In FIG. 37, B1 to B8 and C1 to C5 are distributed to eight keys in pairs without any relation in order. The remaining two keys are distributed to spaces and switches.

 FIG. 38 and FIG. 39 show one embodiment of the present invention.

 A, B, C code

 An embodiment of the second coding method, the second code assignment method, and the information β to which these methods are applied will be described below. In this difficult mode, as shown in FIG. 43, codes are assigned to the ten keys in the mobile phone keypad.

In Fig. 43, in order to display the kana character string of "Toza 3 Performs the following operations.

 (1) For “G”, key “3” → key “5”.

 (2) For “tsu”, key “0” → key “0”.

 (3) For “F”, key “1” → key “9”.

 (4) About

 (5), f '.' Switch from “Half-width katakana input mode” to “Numerical” input mode.

-_ —— “―-'

Replace. One

 (6) For "3", the key is "3".

 (7) Switch from “Γ” one to “number” input mode to “Hiragana input mode”.

 (9) For “Kyo”, key “1” → key “9”.

 (10) For “K”, key “1” → key “3”.

New invention "12" with "*" and "#" (2nd coding method, modification of 2nd coding method) 3rd coding: Last, 3rd coding method and information to which these apply An embodiment of β will be described below. In this Wei form, as shown in Fig. 45, codes are assigned to 12 keys in the key of the mobile phone. In FIG. 45, the “*” key functions as a function key, and the “#” functions as a cancel key.

 In this embodiment, the following menu can be selected by pressing the * J key.

 Menu: "Return to previous state"

 :"documents"

 : "Character input mode"

 When you select the "Document" menu,

 "Document I New Creation"

 r Document I

能 «function becomes selectable.

 When you select the “Character input mode” menu,

 "Character input mode-Kanji input mode"

 "Character input mode, Hiragana input mode J

 "Character input mode Full-width katakana input mode"

 "Character input mode, half-width katakana input mode"

 "Character input mode Numeric input mode"

 "Character input mode, English uppercase input mode"

 "Character input mode-English lowercase input mode"

 "Character input mode Symbol input mode"

Force selection becomes possible.

With the menu selected, use the key "2" for the "return to previous item" function, the key "4" for the "return to the upper hierarchy (item)" function, and the key "8" for the "return to the next item". Function can be assigned to key "6" and "return to lower hierarchy (item)" function, and key "*" can be assigned to accuracy. In Fig. 45, the sentence ^^ of "Top 3" is displayed. To display in Perform the following operations. Here, it is assumed that the default character input mode is “Hiragana input mode”.

 (1) Press the key “8” to display the menu selection screen, and operate the keys “4” and “8” to switch from “Hiragana input mode” to “Half-width katakana input mode”.

 (2) For “G”, key “3” → key “5”.

 (3) For "T", key "6" — key "8".

 (4) For “F”, key “6” → key “3”.

 () 门

 (5) Press the key “*” to renew the “return to the previous state” function, and operate the keys “2” and “8” to switch from “half-width katakana input mode” to “number” input mode.

 (6) For “3”, key “3”.

 (7) Press the key to select the "Return to previous state" function, select "Half-width katakana input mode J", and press the key "*" to confirm the input mode to "Half-width katakana input mode J". I do.

 (8) Press key “2” or key “8” to switch from “Half-width katakana input mode” to “Hiragana input mode”.

 (9) For “Kyo”, key “1” → key “9”.

 (10) For “K”, key “1” → key “3”.

 FIG. 34 shows one embodiment of the present invention.

 “Textual information” means insect characters or terms, or words (words) or documents that are not limited to a particular Wlf. For example, "A", "input", "today", "Fune ti on F (X): Integer; Begin R esu 1 t: = X * X + 3; End", " "Thank you for your letter.", Etc. all correspond to "text information".

“Encoding of character information” means character information that is transmitted to the information image ^ Iistj means the components of the communication means applicable to the container or a combination of the components.

 For example, if pressing "key 1" in a battle corresponds to transmission of the letter "a", adjusting the letter "a" with "key 1" is the encoding of the letter "a".

 In order to transmit textual information to information », other than the components of the transmission means applicable to information« and the combination of the components, it is also possible to directly use the textual information. ”.

 “Coded element of character information” is an element that forms the U code of character information. For example, the U code of character information "element" is "20, 23, 15", but this "2 2", "2 3", and "1 5" are all coded Element.

 "Key element" is a component of the means of transmitting character information that can be applied to information fluctuation. For example, a key on a keyboard, a combination of a shift key on a keyboard and other keys, a button on a remote control, and a button on a screen correspond to key elements.

 “Procedure for character information” is a general flow for expressing the character information in ^^, and for making the surface of the face with the components of the character information. For example, the handwriting procedure for the kanji character "essential" is "west" first and "woman" next. The procedure for “Overview” is “Overview J” first. The procedure for “west” is “first”, “mouth” next, and “child” last.

 As described above, the encoding method of the character '! * #' Of the present invention is based on the character information extracted from the handwriting procedure of the character 'It g', or by translating the character information by a combination of the encoding elements. It makes it difficult to IJ and to be able to reasonably assign the entire coded element to 10 or less than 10 key elements. For example, “west” and “female” are the coding elements of kanji character information, and “west” and “female” are combined, and “necessary” is f¾ (J kanji character information coding method.

The information rise of the present invention is based on the character information extracted from the character information procedure. That it has a function of identifying the character information by the coding element or the combination of the coding elements, and that the entire coding element is appropriately assigned to 10 or less than 10 key elements. , For example, a public leaker that has “West” and “Woman” as coded elements of kanji character information and has a statement to msu “Necessary” in combination with “West” and “Woman” This is the information trend of the present invention.

 “How to read character information” is a general flow for expressing the character information in speech, and for making the table result ^! For example, the day ^^ "Japan" is read as "ni", followed by a prompt "tsu", followed by "ぽ", and finally "n".

 The encoding method of character information according to the present invention includes a method of encoding character information using a character information encoding element extracted from the reading of character information, or a combination of the encoding elements, and a method of encoding the entire encoding element. It is characterized in that it can be appropriately assigned to 10 or less than 10 key elements. For example, “ni”, “tsu”, “ぽ”, and “n” are coded elements of day: Φ ^ character information, and “ni”, “tsu”, “ぽ”,ん ι〗 in combination with “n J” is equivalent to a method of encoding character information.

 The information image of the present invention has a function of ft ^ character information by coding elements of the character ff extracted from the character's arbitrary reading method or a combination of the coding elements. It is characterized in that it is appropriately assigned to 10 or less than 10 key elements. For example, “ni”, “tsu”, “ぽ”, and “n” are coded elements of day: character information, and a combination of “ni”, “tsu”, “bo”, and “n” Thus, the TV set “fj” of “Japan” and the remote controller serving as the information input means correspond to the information β of the present invention.

 The “figure of character information” is an expression of ^^ that recognizes the character 'ttis as a simple figure regardless of the handwriting procedure of character information and how to read the character information. For example, “Rectangle without left side” is one of the representation results of the graphic structure of “U”.

The encoding method of character information according to the present invention is characterized in that character information is identified by a coding element of character information extracted from a figure of character information, a coding element thereof, or a combination of the coding elements. And that the entire coded element is valid for 10 or less than 10 key elements.

'It is difficult to give to For example, “tree” and “mouth” are two coded elements extracted from Zuto Zou of drunk character information, and “Kanji” is the kanji character information that is translated by a combination of “tree” and “mouth”. The encoding method corresponds to the character information encoding method of the present invention.

 The information module according to the present invention has a function of inputting character information by using a coded element of the character information extracted from the graphic information of the character information, the coded element or a combination of the coded elements. And the whole of the coded element is appropriately assigned to 10 or less than 10 key elements. For example, “tree” and “mouth” are two coded elements extracted from the kanji character 'if #'.

 Pre-processing that has the function of rewriting “Approval” with a combination of “tree” and “mouth”

 The information is information β of the present invention.

 "A code, figure, or image associated with the reading of character information" is a phonetic expression of the character information, which is a characteristic that is easily associated when the code, figure, or image is viewed. For example, when an ordinary Japanese person looks at a picture of a textile, it is easily associated with how to read the name "chick".

 In the character information coding method according to the present invention, a code, a graphic, or an image associated with a method of reading character information is used as a coding element, and the character information is combined with the coding element or a combination of the coding elements. And that the entire coded element can be reasonably assigned to 10 or less than 10 key elements.

 For example, a coding method that uses “chick image”, “pumpkin shape”, and “apple picture” as coding elements and combines them to generate “light”.

The information of the present invention has a function of performing character information by using a code, a graphic, or an image used for reading character information as a coding element, and by using the coding element or a combination of the coding elements, and the coding element. Is appropriately assigned to 10 or less than 10 key elements. For example, "chick image" and "kabachi" A toy that has the function of identifying “light” by combining the “Yano figure” and “apple photograph” as coding elements is the information β of this book.

 The “code, figure or image associated with the form of character information” is the shape of the corresponding character “dragon” that is easily associated when viewing the code, figure or image. For example, when looking at the bill of ΟΚ, the character information power of “S” is easily associated.

 According to the character information coding method of the present invention, a code, a figure, or an image associated with the form of character information is used as a coding element, and the character '»is converted into a code element or a combination of the code elements. And that the entire coded element can be appropriately assigned to 10 or less than 10 key elements. For example, a coding method of translating the character it¾ of “οκ” as a coding element of character information in a 図 形 handprint figure corresponds to the character information coding method of the present invention.

 The information device of the present invention has a function of identifying character information by a coding element or a combination of the coding elements using a code, a graphic, or an image associated with the form of character information as a coding element. And the entirety of the coded element is appropriately assigned to 10 or less than 10 key elements. For example, a measuring instrument having the function of translating the character “οκ” as a character element for encoding character information in the form of a “OK” bill corresponds to the information profession of the present invention.

 The character information encoding method according to the present invention includes the following five types of encoding elements, the ^^ of which or the combination of the following, and the total of the encoding elements is 10 or more. Let 赚 be that it can be appropriately given to less than 10 key elements.

 Coding element of the first view: Coding element extracted from letter-like procedure. Second type of coded element: A coded element extracted from how to read character information.

 Coded element of the third view: Coded element extracted from Zou Fujizo of character information.

4th β coding element: code or figure or picture associated with reading character information image.

 The coding element of the fifth view: a code or figure or picture associated with the shape of the letter '赚 For example, the coding element from the pictorial structure of the Hangul consonant character

 (Table 22)

 ,

To extract consonants,

 [Table 23] is a mystery, and from the reading of Hangul characters,

 (Table 24)

 Bird

, And in that combination, Korean characters,

 The Hangul character encoding method characterized by substituting [Table 25] corresponds to the character information encoding method of the present invention.

 The information device of the present invention has a function of performing l¾ (J) on character information by using one of the following five types of coding elements or a combination thereof, and it is assumed that the entirety of the coding elements is 10 or 1 It is characterized by being appropriately given to less than 0 key elements.

 Coded element of the first view: Coded character extracted from the procedure of the character '[f¾ Coded element of the second view: Coded element extracted from how to read character information.

 Third coding element: A coding element extracted from the graphic structure of character information.

Fourth coded element: code or figure or picture used to read textual information The coding element of the fifth view: a sign or figure or picture associated with the form of the letter '

 [Table 26] and extract consonants,

 [Table 27] has the function of enigmatic, and from how to read Hangul characters,

letter,

 (Table 28)

 h

, And in that combination, Korean characters,

 (Table 29)

 Ά

A facility that has the function of monitoring

 The character information encoding method according to the present invention includes an array of encoding elements that result in old character information based on a coding element extracted from a procedure for character information and a handwriting procedure for character information. The letter “if” is given in a part of the coded element array! And that the entire coded element can be appropriately assigned to 10 or less than 10 key elements.

 For example, from the Arabic script,

 (Table 30)

ft J (J Extract the Arabic characters,

 (Table 31)

Can be ^^ into the following array of coded elements based on the handwriting procedure of

 (Table 3 2)

The method of encoding Arabic characters, wherein f stj を the Arabic character is performed by combining the first coded element and the last coded element of the array, is a method of encoding character information according to the present invention. Hit the way.

 The information difficulty of the present invention is based on the coding element extracted from the character information handwriting procedure and the character element array or the code of the coding element resulting from ^^ based on the character information handwriting procedure based on the character information handwriting procedure. It has the function to ls the character 'tt # in a part of the encoded element array, and the entire encoded element is appropriately assigned to 10 or less than 10 key elements. And For example, from the Arabic script,

(Table 33) ''

Extract the arabic letters

(Table 34) Based on the handwriting procedure described above, it is possible to return to the next array of coding elements.

 (Table 35)

JJJ The combination of the first and last coded elements in the above array, a portable TO with a multi-translation function that uses the above-mentioned Arabic characters as the basis, provides information on the present invention. It corresponds to β.

 According to the method of assigning a coding element to a key element according to the present invention, one key element is provided with a large number of code elements at the same time, and the key element is assigned with a key to be switched. In combination with the element, it is determined that one coded element is determined, and that the entire coded element can be appropriately assigned to 10 or less than 10 key elements.

 According to the information β of the present invention, one code element is provided with a large number of coded elements at the same time. Having the function of determining the coding element, and the entire coding element

It is characterized by being appropriately given to 10 or less than 10 key elements.

The method of assigning a code element to a key element according to the present invention is to provide a key element with one ^ D coding element or a large number of coding elements at the same time and to assign the key element or the key element to each other. Identify one coded element that is assigned to a key element or one coded element that is not assigned to any key element by combining It is assumed that it can be appropriately given to less than 10 key elements. According to the information difficulty of the present invention, one coded element or a large number of coded elements are simultaneously assigned to one key element, and the key element or a combination of the key elements is assigned to a certain key element. It has the function of determining one coded element, which is assigned to one coded element or any key element, and 10 or 10 coded elements as a whole It is assumed that a value that is appropriately given to the key elements less than the size is smaller than the size of the key element.

 "The whole coded element can be reasonably assigned to 10 or less than 10 keys" means the number of coded elements assigned to one key element for each generally recognized character view. And the combination strength of key elements generated by the method of assigning them and the method of combining coding elements. Follow the method, and that the key has less than 10 or less than 10 elements,

Is to mean.

 A generally recognized type of character is a set of characters, such as a whole drunk or a whole infamous or a whole Arabic numeral.

Industrial applicability

 Kana can be input with fewer key operations than in the past.

 According to the present invention, it is possible to input Hangul characters with only 5.1 key presses on average.

 According to the present invention, kanji can be input without fail even if the kanji cannot be read simply by pressing the key approximately 6.5 times on average.

 In the present invention, Latin characters can be input simply by pressing the key approximately 1.9 times on average.

 According to the present invention, Arabic characters can be input by simply pressing a key about 1.9 times on average.

A kana can be input with a smaller number of key operations than in the past. The main effects of the present invention are as follows. The first is that it can be used by people with hearing or pronunciation difficulties. The second effect is that it can be used in other places. The third effect is that it can be used without shadowing other people. The fourth effect is that it conveys not only audio but also accurate information such as names and numerical values. The fifth effect is that information can be exchanged between different tlf that cannot be heard. The sixth effect is to prevent voice leakage. The seventh effect is that accurate information can be reliably left by absence. The eighth effect is that it is possible to communicate with the conventional HIS as in the past: ^:

Claims

The scope of the claims

 1. Define the structure code.

 2. How to define brush code.

 3. How to define figure difficulty code.

4. How to encode Kanji using figure m code.

 5. How to assign structure code and brush code to 10 keys.

 6. Combination of Latin letters of brushes.

 7. How to combine brushes.

 8. Coding of brush writing and space switching.

9. How to encode Latin characters.

 1 0. How the code is assigned to the 10 keys.

 1 1. Arabic alphabet table by brush combination ¾ ^ method.

 1 2. How to combine brushes.

 1 3 · How to encode brush and code.

 1 4. How to encode the Arabic characters.

 1 5, How to assign code to 10 keys.

 1 6. Change the pseudonym

 First code group A:

 "A" Danshu ("A" in Roman notation) element de A l "I" Danshu ("I" in Roman ^^) element de A2

"U" stage ("U" in Roman alphabet) element de A 3 "E" stage vowel ("E" in Roman alphabet) element de A 4 "O" stage ("0" in Roman alphabet) element de A 5 Resonant "Ya"("YAJ" element in Roman writing) de A 6 Reonon "Y"("YU" in Roman writing) Element: Code A 7 Retsune "yo"("YO" in Roman text) element; code Α 8

 Second code group Β ：

 "Ka" consonant ("Κ" in Roman voting) element; code B 1

 "Sa" consonant ("S" in Roman text) element; code B 2

 "Ta" consonant ("T" in Roman alphabet notation) element; code Β 3

 "N" line consonant ("Ν" in Roman alphabet notation) element; code Β 4

 "Ha" consonant ("Η" in Roman ^^) element; code Β 5

 "Ma" consonant ("Μ" in Roman alphabet notation) element; code Β 6

 "Ra" consonant ("R" in Roman vote) element; code B7

 “Wa” consonant (“W” in Rome ¾ vote) element; code B 8

 Third code group C:

 "Dark sound" ,, "," N "," One "element; code C 1

 “Semi-voiced sound“ ° ”, prompting sound“ tsu ”, blank“ ”” element; code C 2

Or a combination of these, wherein the pseudonym is defined by a code of the code group or a combination of codes of the code group,

 A coding method characterized by giving the following meanings to the codes A1 to A8.

 "A" Stage element code A1:

 Full-width capital letter name "A",

 Full-width lowercase letter f

 Full-width katakana "a",

 Full-width lowercase katakana "a",

 One-byte uppercase katakana "a",

 One-byte lowercase katakana "a J,

"A" Dan "I" column «Element code A 2: Full-width uppercase kaname" I "Full-width lowercase katakana" i "Full-width lowercase katakana" i "Full-width lowercase katakana" 「J Half-width uppercase katakana" i ", Half-width lowercase Katakana "I", "I" Dan

“U” Dan vowel element code A 3: Full-width large letter ^ ¾ name “U” Full-width lowercase katakana “U” Full-width uppercase katakana “ゥ” Full-width lowercase katakana “ゥ” Half-width uppercase katakana “ゥ”, One-byte lowercase katakana "ゥ",

"U" Dan

"E" Danjaku element code A 4: Full-width uppercase hiragana "E" Full-width lowercase hiragana "E" Full-width uppercase katakana "e" Full-width lowercase katakana "e J Half-width uppercase katakana" e ", half-width lowercase katakana "E", "E" Dan

"O" column # ^ Element code A 5: Full-width uppercase ⁵ Pi reverse name "O" Full-width lowercase name "O" Full-width uppercase katakana "O" Full-width lowercase katakana "O" Half-width uppercase katakana "OJ, half-width lowercase letter ί""O" stage

“Ya” Dantai element code A 6 ： Double-byte large sentence ^ ^ Antona “Ya” Full-width lowercase \ f Name “Ya” Full-width uppercase katakana “ya” Full-width lowercase katakana “ya” Half-width uppercase katakana “ J, half-width lowercase katakana "'ya", "ya" stage

"Y" Dan vowel element code A 7: Full-width uppercase hiragana "Y" Full-width lowercase ⁵ Pf na "Y" Full-width uppercase katakana "u" Full-width lowercase katakana "u" Half-width uppercase katakana "u", half-width Lowercase Katakana "yu", "yu" Dan

"Yo" Dan element code A8: Full-width capital letter Hiragana "Yo": Full-width lowercase name "yo",

 Full-width katakana "yo J,

 Full-width lowercase katakana "ョ",

 One-byte uppercase katakana "yo J,

 One-byte lowercase katakana "ョ J,

 "Yo" Dan

7. Change the pseudonym

First code group A:

 "A" Dan vowel ("AJ code A 1 in Roman alphabet notation" "I" Dan vowel ("I" code A in Roman alphabet notation "U" Dan 赌 (UJ code A 3 "E" Dan vowel (Roman alphabet "E" code A 4 in the title "O" stage ("0" code A 5 in Roman notation "Yun" (Ya code in Roman alphabet notation 6) "Yun" "Yu" (Roman writing "YU" code A 7 Resonance "Yo" ("YO" code in Roman voting code A 8 Second code group Β:

 "K" line consonant ("KJ Ko B 1

"Sa" consonant ("s" in Romanized notation KB2 "ta" consonant ("T" in Romanized notation FB 3 "na" consonant ("Ν" 3—B4 "ha" line in Roman notation Consonants ("ロ ー マ" in Roman notation Ko-B 5 "Ma" consonants ("Ro" in Korean voting "Μ" Ko B 6 "La" consonants (Roman notation "RJ Co-KB 7" Wa "consonants (in Roman notation "W" Koh B 8 Third code group C:

 “Dark sound“ ,, ”,“ n ”,“-”” element; code C 1

 “Semi-voiced sound“ ° J, prompt sound “tsu J, blank factory” ”element; code C 2

The pseudonym represented by any one of \ or a combination thereof is a coding method defined by a code of the t! IlB code group or a combination of the codes of the code group,

 A coding method characterized by giving the following meanings to t & IB codes C 1 and C 2.

 "Dakuon" ,,, "," n "," one "" Code C1:

 The "ka" line, the "sa" line, the "ta" line, and the "ha" line belong to the full-width large sentence ^ (Kana and full-width large-letter kana, or even full-width large-size anonymous "U" and full-width uppercase katakana "ゥ”

 ”

 Full-width long "one" and half-width long H

 “Semi-voiced sound“ ° ”, prompting sound“ tsu ”, blank“ ”” Code C 2:

 Double-byte uppercase \ ^ name and double-byte uppercase katakana ^^ 能, double-byte \ ^ name prompt sound "tsu", double-byte katakana prompt sound "tsu", half-width katakana sound prompt "tsu", half-size lowercase phonetic symbol "" ,

 Full-width space "" and half-width space ""

 1 8.

 First code group A:

 "A" Dan (3-de A 1

 "I" Dan vowel (-D A 2

 "U" Dan vowel (Ko ^ "-do A 3

 "E" Danjyu ("EJ" element in Roman title); Code A 4

"O" Danjyu (1--de A 5 Resonant "Ya"("YA" in Roman alphabet notation) Element code A 6

 Resonant "Yu" ("YU" in Roman voting) Element code A7

 Retsune "Yo" ("YO" in Roman alphabet notation) Element code, A 8

 Second code group Β ：

 "K" line consonant ("KJ" element in Roman Voting);-KB 1

 "Sa" line consonant

 "Ta" line consonant (in π- -maji title -KB 3

 "N" line consonant ("N" in mouth-maji title) element;-KB 4

 "Ha" line consonant (in Roman character title-KB 5

 "Ma" line consonant ("M" in Roman character notation) element; Koichi-KB 6

 "Ra" Gy 子 on (Mouth-in the title-KB 7

 “Wa” Gy 子 on (one-de in B-

 Third code group C:

 "Dakuon" "", "N", "One" element; Code C 1

 "Half-spaced" ° ", prompting sound" ", blank" "" element; code C2

, Or any combination of these, and the eight keys of the first code group A and the eight elements of the second code group B are assigned to the eight keys from the first to the eighth, respectively. A code assigning method in which two keys of a third code group C are assigned to each of the remaining ninth and tenth keys, one key at a time, and

 A coding method characterized by giving the following meanings to the codes A1 to A8.

 "A" Danshu syrup code A1:

 Full-width capital letter name "A",

 Full-width small sentence ^ W name "A",

 Full-width katakana "a" '

Full-width lowercase katakana "a", One-byte uppercase katakana "a", one-byte lowercase katakana "a", "a"

 "I" Dan vowel element code A 2: Full-width uppercase name "I" Full-width lowercase \ ίReverse name "I" Full-width uppercase katakana "i" Full-width lowercase katakana "i" Half-width uppercase katakana "i", half-width Lowercase katakana "i",

"I" Dan

"U" column Element code A3: Full-width uppercase letter "U" Full-width lowercase kana "U" Full-width uppercase katakana "ゥ" Full-width lowercase katakana "ゥ" Half-width uppercase katakana "ゥ J, half-width katakana Lowercase Katakana "ゥ", "U" Dan

"E" Dan vowel element code A 4: Full-width capital letter name "E" Full-width lowercase kana "E" Full-width uppercase katakana "e" Lowercase katakana "e" Half-width uppercase katakana "e", Half-width lowercase half name "e", "e"

 "O J vowel element code A 5: Full-width large letter ^^ name" O "Full-width lowercase 5 (2 (Anna" O "Full-width uppercase katakana" o "Full-width lowercase katakana" oJ Half-width uppercase katakana "O", half-width lowercase katakana "o J," "o"

 "Ya" Stepping element code A 6: Full-width uppercase name "Ya" Full-width lowercase «name" Ya "Full-width uppercase katakana" Ya "Full-width lowercase katakana" Ya "Half-width uppercase katakana" ", half-width lowercase Katakana "ya", "ya" Dan

"Y" Stepping foot element code A 7: Full-width uppercase ^ H name "Y" Full-width lowercase \ Negative "Y" Full-width uppercase katakana "u" Full-width lowercase katakana "U" Half-width uppercase katakana "yu", One-byte lowercase katakana "u", "Yu" Dan

 "Yo" Stephoe Wei Code A8:

 Full-width uppercase \ f

 Full-width lowercase name "yo",

 Full-width katakana "3",

 Full-width lowercase katakana "ョ",

 One-byte uppercase katakana “ョ”,

 One-byte lowercase katakana "ョ",

 "Yo" Dan

1 9.

 First code group A:

 "A" stepped foot ("A" de A1 in Romanized notation) "I" stepped vowel ("I" code in Romanized notation A2 "U" stepped ("U" de A3 "E" step in Romanized notation « ("E" code in Roman alphabet notation A 4 "O" Dan vowel ("〇" η • de A5 melody "ya" in Roman alphabet notation "(YA" η-de A 6 melody "Yu" (Roman "YU" in voting η-do A 7 Reton "yo" (Roman YOj de A 8 2nd code group B in voting:

 “K” consonant (“K” in Romanized notation; Π—KB 1 “Sa” consonant (“SJ KB 2 in Romanized notation

"Ta" consonant ("τ" in romanization η-one KB 3

"Na" consonant ("Ν" in Roman alphabetic notation-KB 4 "Ha" consonant ("Η" in Roman notation "Ma" consonant ("M" in Roman voting) element; code B 6

 “La” consonant (“R” in Roman) element; code B 7

 "Wa" consonant ("W" in Roman) element; code B 8

 Third code group C:

 "Dark sound", "N", "One" element; code C 1

 “Semi-voiced sound“ ° ”, prompting sound“ tsu ”, blank“ ”” element; code C 2

, Or any combination of these, and the eight keys of the first code group A and the eight elements of the second code group B are assigned to the eight keys from the first to the eighth, respectively. A code assigning method in which two keys of a third code group C are assigned to each of the remaining ninth and tenth keys, one key at a time, and

 tfilE code A coding method that gives C1 and C2 the following meanings.

 "Dark sound", "N", "One" "Code C1:

 The "ka" line, the "sa" line, the "ta" line, and the "ha" line belong to the full-width large-size sentence ^ ί nickname. "ゥ" turbid sound side ability,

 ”

 Full-width long "one" and half-width long "-"

 “Semi-voiced sound“ ° ”, prompting sound“ tsu ”, blank“ ”” Code C 2:

 The full-width capital letters that belong to the “ha” line, the half-size katakana and the full-size katakana “tsu”, the full-size katakana “tsu”, the half-size katakana “tsu”, the half-size katakana “” J,

 Full-width space "" and half-width space ""

2 0.

 First code group A:

"A" Danju ("A" in Roman alphabet) element; code A 1 "I" step ("I" in mouth-ma-vote notation) element _; n-de A2

"U" Danjyu (Mouth-"u" in Ma) element _;

"E" Danjyu (Mouth: Ma "E" in vote) Code A4

⁾ Element ^;

"O" Danki ("O" in vocal quotation) element _; i-de A5 resonate "ya"("YA" in Roman notation) element _; co-de A6 resonate "Y"(" YU ”) element; code A 7 MUYONE“ Yo ”(“ YO ”in mouth-letter code) Code A 8

 ) Element;

Second code group E

"K" line consonant (Mouth — 'consonant ti o 【end.) Element _; -de El

“Sa” Gy 子 on (“s” code in the spelling “口”) Έ2

) Element ^;

 “Ta” Gy 子 on (“TJ-de Έ3

) Element ^;

 “Ha” consonant (“H” in π-ma notation) element; n-d Έ4 third code group F

"N" line consonant ("N" in the one-letter mark) element; code, F 1

“Ma” Gy 子 onon (“M” in the word “K”) Element ',--F2

"La" consonant (Mouth— “RJ code in maji titles, F 3

“ぱ” Gy 子 on (“P” in the word “K”) rz- -KF4 4th code group G

"Wa" Gy 子 onon (Code G1 5th code group H

 "N" ("NN" or "N" in Roman alphabet notation) element; chord HI long element; chord H2

Sounding element; code H 3

6th code group K

"First function and cloud point" Element code K1 "Second function and blank"element; code K2

A coding method, wherein the pseudonym in に お け る ^ or し た ^ expressed by a combination thereof is defined by a combination of ΙΙίΙΒ code group code or ΙίίΙΒ code group code.

21. The coding method according to claim 5, wherein the ItilB code # 2, # 3 is given the following meanings.

 Long tone element code Η 2:

 Full-width long "one" and half-width long "-"

 Sounding element code Η 3:

 «Name prompt" tsu ", full-width katakana prompt" tsu ", half-width katakana prompt" tsu "

2 2. The coded style according to claim 6, wherein the t & lB codes Kl and K2 have the following meanings.

 "First function and point J element code K1:

 Full-width large letters ^ renaming and full-width large letter katakana, or even full-width large letters ^ P kana "u" and full-width capitalized katakana "ゥ" belonging to "ka" line, "sa" line, "ta" line, "ha" line "

 Half-width lowercase letters "Ί,

 Character type switching function

 "Second function option blank" Element code Κ2:

 Blank ""

 2 3. The encoding method according to claim 7, wherein the function defined by the tirlE character type switching function is defined by all or part of the input codes in the following input modes, Ll to L8.

 Kana kanji input mode; code L 1

 {Anonymous input mode; code L 2

Katakana full-width input mode; code L 3 Katakana half-width input mode; code L 4

 Uppercase letter input mode; code L 5

 Lowercase letter input mode; code L 6

 Number input mode; code L 7

 Symbol input mode; code L 8

24. The ttfia code set ^ :, K1A1, Kl A2, K1 A3, Kl A4, K1A5, K1A6, K1A7, K1A8 are defined so as not to be included in the disgusting codes L1 to L8. Coding method according to item 8.

25. Change the pseudonym

 First code group A:

 "A" dan ("A" in the one-letter title; Code A1

 Element;

 "I" Dan ("I" in the word "K"): -de A 2

^One element;

 "U" stage ("U" in single-letter title; code A 3

 "E" Dan vowel ("E" in the word "K"): Code A4

 "O" Dan vowel ("O" in the word "K"): Code A 5

 Retsune "ya" ("ΥΑ" in Roman writing, 'code A 6

 Retsune "Yu" ("YU" in Romanized notation: Co-de A 7

 Retsune "yo" ("YO" in Roman voting: de A 8

 Second code group E:

 "Ka ^ line consonant (" Κ "in the word" Kazuma "):-E 1

 “Sa” Gy 子 on (“S” in the word “K”): de E2

 “Ta” Gy 子 onon (“T” in the word “K”): Ko-E3

 "Ha" line consonant ("Η" in the one-letter mark): Code E4

 Third code group F:

"N" line consonant ("NJ" element in the one-letter mark); "Ma" line consonant ("M" in Roman alphabet notation) element; code F2

 "Ra" line ("R" in Roman alphabet) element; code F 3

 "ぱ" consonant ("P" in Roman alphabet notation) element; code F 4

 Fourth code group G:

 "Wa" consonant ("W" in Roman writing) element; code G 1

 Fifth code group H:

 "N" ("NN" or "N" in Romanized notation) element; code H I

 Long tone element; chord H 2

 Sounding element; code H 3

 Sixth code group K:

 "First function and cloud point" element; code K1

 "Second function and blank" element; code K2

Or a combination of these,

 8 keys from 1st to 8th,

 Each of the eight elements of the first code group Α is assigned one by one,

 To these eight keys, four elements of the second code group E and four elements of the third code group F are assigned, one each.

 One element of the fourth code group G is assigned to any one of the four keys to which the four elements of the third code group F are assigned,

 The three keys assigned to the three elements A6, A7, and A8 of the first code group A

Add 3 elements of 5 code group H,

 A method of assigning codes to 10 keys, characterized by assigning two elements of a sixth code group K to two keys, ninth and tenth.

26. The code assigning method according to claim 10, wherein the IE codes Hl and H2 are given the following meanings. Long tone element code H2:

 Full-width long "one" and half-width long "-"

 G3 sound element code H3:

 Full-width f anti-sounding sound "tsu", full-width katakana sound "tsu", half-width katakana sound "tsu"

27. The method according to claim 6, wherein the tfrlB code Kl, Κ2 has the following meaning.

 "First function and cloud point" Element code K1:

 The "ka" line, "sa" line, "ta" line, and "ha" line belong to the full-width large sentence ^ W name and full-width large letter katakana, or even the full-width large sentence ^ Pi name "U" and full-width capital letter katakana "ゥ ”

 Half-width lowercase letters "Ί,

"Second function and blank" Element code Κ2:

 Blank ""

 2 8. All or some of the codes L1 to L8 are given S to the eight keys to which the eight elements of the first code group Α have been attached,

 8. The code assigning method according to claim 7, wherein it is difficult for the ItrlB character type switching function to define the next input mode with codes L1 to L8.

 Kana drunk input mode; code L 1

 Name input mode; code L 2

 Katakana full-width input mode; code L 3

 Katakana half-width input mode; code L 4

 Uppercase letter input mode; code L 5

 Lowercase letter input mode; code L 6

Number input mode; code L 7 Symbol input mode; code L 8

 29.The tifflB code L1 to L8, the combination of ftflB code, K1A1, K1A2, K1 A3, Kl A4, K1A5, K1A6, Kl A7, K1A8 are defined so as not to The described code assignment method.

 30. An information device including 10 keys to which a tfilB code is assigned by the code assigning method according to claims 10 to 14.

 31. Telegram to send and receive text / graphic information mixed with voice '(f #

 32. Telephone that has the function of transmitting and receiving text and graphic information: ^: communication and voice.

33. The voice information of a mixture of characters and graphic information as it is ^ ¹ to, separated when playing information Yuzurukata

 34. Characters [[f¾, graphic information and voices]!

35. How to represent information such as text information and graphic information as audio information that does not cause significant loss in sound quality,

 36. An information representation method that mixes character information and graphic information with voice information in the table ¾ ^ of claim 5 ¾ :)

 37. encoding the character information with a coded element of the character information extracted from the handwriting procedure of the character information, or a combination of the coded elements, and

 That the entire coded element can reasonably be assigned to ten or fewer key elements,

A character information coding method characterized by the following.

 38. having a function of converting the character information into a coded element of the character information extracted from the handwriting procedure of the character information or a combination of the coded element, and

That the whole of the coded element is reasonably assigned to ten or fewer key elements, Information with a tree.

 3 9. Transferring the character information using the coded elements of the character information extracted from how to read the character information, or a combination of the coded elements, and

 That the entire coded element can reasonably be assigned to 10 or less than 10 key elements;

A method of encoding character information using a glue sheet.

 40. Having a function to extract character information by encoding character information extracted from how to read character information, or a combination of the encoding elements; and

 Information β, characterized in that the whole of the coded element is appropriately assigned to 10 or less than 10 key elements.

 4 1. The character information is extracted from the character information extracted from »t, and the character information is adjusted by a combination of the code information elements, and

 That the entire coded element can reasonably be assigned to 10 or less than 10 key elements;

Character encoding method characterized by the following.

 4 2. It has a function to perform IJ of character information by encoding a character information extracted from Fujitsu Zou, or a combination of the encoding elements, and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Information β that is a tree.

 4 3. A character, a graphic or an image associated with the reading of character information is used as a coding element, and the character information is ^^ by the coding element or a combination of the coding elements.

Coding of character information, characterized in that the whole of the coded element can be reasonably assigned to 10 or less than 10 key elements:

4 4. Having a function to identify character information by using a code, a graphic, or an image associated with how to read character information as a coding element and the coding element or a combination of the coding elements; and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Information «with glue.

 4 5. Using a code, graphic or image heard in the form of character information as a coding element, IJ the character information with the coding element or a combination of the coding elements, and

 That the entire coded element can reasonably be assigned to 10 or less than 10 key elements;

, A character information encoding method.

 4 6. Having a function to enhance character information by using a code, a graphic, or an image in the form of character information as a coding element and the coding element or a combination of the coding elements; and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Information β that is a tree house.

 4 7. Enjoy the textual information with one or a combination of the following five coded elements; and

 That the whole of the code element can be reasonably assigned to 10 or less than 10 key elements,

Encoding method of character information that makes it difficult.

Coding element of the first view: Coding element extracted from letter-like procedure. Second type of coded element: A coded element extracted from how to read character information. Third coding element: A coding element extracted from the graphic structure of character information.

 Fourth coded element: code, figure or picture used to read textual information Coding element of 5th view: code, figure or picture associated with the form of textual information 4 8. 5 5g coding below Having a function of retrieving character information at the element level or a combination thereof; and

 The 'if'e is characterized in that the whole of the coded element is appropriately given to 10 or less than 10 key elements.

 Ι coded element A coded element extracted from the procedure for character information.

 Second type of coded element A coded element extracted from how to read the character 'ff #.

 Third type of coding element The coding element extracted from the character 'If S'.

 Fourth type of coded element Code, figure or picture associated with the way of reading character information Coded element of the fifth view: code, figure or picture associated with the form of character information o

4 9. An array of coded elements or a part of the coded element array that results from invoking the character '! To translate the character information in IJ, and

 That the entire coded element can reasonably be assigned to 10 or less than 10 key elements;

Character encoding method characterized by the following.

 5 0. Based on the coded element extracted from the handwriting procedure for character information and the procedure for character information, an array of coded elements resulting from ^? Character information or a part of the coded element array Having the function of translating textual information, and

That the entire coded element is reasonably assigned to 10 or less than 10 key elements; Information β that uses as a glue sheet.

 5 1. The coded element extracted from the reading of the character information and the array of coded elements resulting from decomposing the character information based on the reading of the character ', or the character information in a part of the array of the coded elements. IJ, and

 That the entire coded element can reasonably be assigned to 10 or less than 10 key elements;

Character encoding method characterized by the following.

 5 2. An array of coded elements that result from ^^ of character information based on the reading of character information and the reading of character's based on the reading of character ', or character information in a part of the array of coding elements Having the function of IJ, and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Is an information device.

 5 3.—A large number of coded elements are assigned to one key element at the same time, and one coded element is determined by a combination of that key element and one key element that is given the meaning of switching. To do, and,

 The entire coding element can be reasonably assigned to 10 or less than 10 key elements,

A method for assigning coding elements to key elements, characterized by the following.

5 4.—A large number of coded elements are assigned to one key element at the same time, and a single coded element is determined by a combination of that key element and one key element given the meaning of switching. Having the gist to do, and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Information touch that uses as a glue sheet.

5 5. One coded element or a large number of coded elements are simultaneously assigned to one ^ 3 key element, and one key assigned to a certain key element is determined by the key elements or a combination of the key elements. Determining a single coded element or one coded element that is not assigned to any key element; and

 That the entire coded element can be reasonably assigned to 10 or less than 10 key elements,

A method for assigning a coded element to a key element.

 5 6. One coded element or many coded elements are assigned to one key element at the same time, and one coded element assigned to a key element by the key elements or a combination of the key elements. Or has the function of determining one coded element that is not assigned to any key element; and

 That the entire coded element is reasonably assigned to 10 or less than 10 key elements;

Information β that uses as a glue sheet.