CN110716651A - Artificial intelligence computer keyboard - Google Patents

Abstract

The invention discloses an artificial intelligent computer keyboard, which is a double-Latin letter key position distribution computer keyboard, and is formed by combining a numeric small key region, a functional key region, a basic key region and an editing key region on the basis of a common keyboard, wherein the total number of the numeric small key region, the functional key region, the basic key region and the editing key region is 92 keys. The Chinese character tone is automatically input in the process of inputting initial consonant by one key and inputting final sound by one key by utilizing the difference of the upper and lower case state combinations of Latin letter key positions. The keyboard can be used as an artificial intelligent keyboard or a common keyboard, and the desktop keyboard and the notebook computer keyboard have the same appearance.

Description

Artificial intelligence computer keyboard

The invention discloses an artificial intelligence computer keyboard, belonging to the field of artificial intelligence application of electronic information industry.

The fifth and sixty years of the twentieth century have artificial intelligence concepts, and the sensor (perceptron) has an input layer, an output layer and an implied layer. The input feature vectors reach an output layer through hidden layer transformation, and classification results are obtained at the output layer. Since the perceptron has only three levels, the typical exclusive or logic cannot be solved. The invention discloses a multilayer perceptron in the eighties of the twentieth century, a theoretical model is perfect, and the practical problem cannot be solved. The convolutional neural network model at the beginning of this century solves the contradiction between the artificial intelligence theory and the application, and the artificial intelligence has the situation that the artificial intelligence is prosperous today by the maturity of the algorithm, the improvement of the data acquisition capability of the network and the improvement of the computer computing capability. The invention relates to an artificial intelligent computer keyboard, which aims to: starting from the input layer, the key position vector is changed, so that when the computer is used for Chinese phonetic input, it can automatically identify the Yin-Ping, Yang-Ping, upbeat and deputtering of Chinese characters, and can identify the soft tone by means of the keystroke information of specific key positions.

The object of the invention is thus achieved. Firstly, changing key position vectors of shift keys to ensure that the shift keys do not have the shift functions of letter large-letter and small-letter switching and the like; secondly, double letter key position distribution is carried out, namely, vectors of non-letter key positions are changed around 26 Latin letter key positions to enable the Latin letter key positions to become letter key positions, the double letter key positions enable Chinese pinyin initials to have large and small writing states and finals to have large and small writing states, and the combination of the initials and the finals has four states, so that the basis of automatically identifying the Yin Ping, the Yang Ping, the rising and the falling is achieved; thirdly, changing the key position vector of the right Alt key to input soft sound when the key is clicked; fourthly, changing key position vectors of some common symbols to map the common symbols onto the function area key positions F1 to F12, wherein the original functions of the function keys F1 to F12 are changed under the state of an artificial intelligence computer keyboard; fifthly, arranging 10 Arabic numerals and +, -, +, -/symbol keys of the numeric keypad on the functional keypad; finally, the combination of the Ctrl key and the Esc key is used for switching between the ordinary keyboard and the artificial intelligent keyboard, and the original functions of the combination are assumed by the Windows logo keys. Patent number ZL200610093367.8 of Chinese standard keyboard and thousand-character input method has similar idea to the present invention, but the change of key position vector is different, the former does not take the digital key area into consideration of key position distribution.

Through the measures, the physical problems of yin-Pinyin, yang-Pinyin, top-Pinyin, bottom-Pinyin and light-tone identification are solved at the input layer, the logic problem is solved for artificial intelligence, the layers are added at the hidden layer, the tone is automatically input in the process of inputting the initial consonant by one key and inputting the final by one key, and the hardware foundation is laid. The following examples are given in detail.

Although the automatic input principle of the Chinese phonetic tones is described in patent number ZL200610093367.8 of "Standard keyboard and Chi-character replacement input method", it is necessary to describe again here. The artificial intelligent keyboard is used for distributing double letters, and each initial consonant and each vowel have two states of capital letters and lowercase letters. The initial consonants and the vowels are input by one key by using an integral substitution type input method. The consonants have two states, the vowels have two states, and the multiplication of two by two results in four states, which correspond to yin-yang-yin, upward-going and downward-going sounds, and the light sounds can be input only in other modes.

Description of the drawings:

FIG. 1, an artificial intelligence computer keyboard

The key position vector coordinates are expressed by (rows and columns), and the key cap has no change and writes 'no' and the key cap has change and writes 'increasing' according to the sequence from top to bottom and from left to right.

The first row, 14 keys, varies from the numeric keypad of a conventional keyboard. From left to right are: (1, 1)/(1, 2) (1, 3)1(1, 4)2(1, 5)3(1, 6)4(1, 7)5(1, 8)6(1, 9)7(1, 10)8(1, 11)9(1, 12) 0(1, 13) - (1, 14) +;

the second row, 14 keys, varies from the functional keypad of a conventional keyboard. From left to right are: (2, 1) Esc is not increased by (2, 2) F1 "" (2, 3) F2 is increased by "(2, 4) F3 is increased by" (2, 5) F4 is increased by () (2, 6) F5 is increased by- (2, 7) F6 is increased by @ (2, 8) F7 is increased: (2, 9) increase in F8! (2, 10) F9 increased? (2, 11) F10 increase; (2, 12) F11 increased, (2, 13) F12 increased, (2, 14) Delete none;

the third row, 14 keys, is mainly changed by the number of the basic key area of the common keyboard. From left to right are: (3, 1) -Z (3, 2) 1Q (3, 3) 2W (3, 4) 3E (3, 5) 4R (3, 6) 5T (3, 7) 6Y (3, 8) 7U (3, 9) 8I (3, 10) 9O (3, 11) 0P (3, 12) _ A (3, 13) + S (3, 14) Backspace No;

the fourth row, 14 keys, sequentially from left to right: (4, 1) Tab increased X (4, 2) Q no (4, 3) W no (4, 4) E no (4, 5) R no (4, 6) T no (4, 7) Y no (4, 8) U no (4, 9) I no (4, 10) O no (4, 11) P no (4, 12) { increased D (4, 13) } increased F (4, 14) | increased G;

the fifth row, 13 keys, sequentially from left to right: (5, 1) Caplock increased C (5, 2) A none (5, 3) S none (5, 4) D none (5, 5) F none (5, 6) G none (5, 7) H none (5, 8) J none (5, 9) K none (5, 10) L none (5, 11): h (5, 12) plus J (5, 13) plus Enter;

the sixth row, 13 keys, sequentially from left to right: (6, 1) Shift V (6, 2) Z none (6, 3) X none (6, 4) C none (6, 5) V none (6, 6) B none (6, 7) N none (6, 8) M none (6, 9) < increase B (6, 10) > increase N (6, 11)? Increasing M (6, 12) × without increasing K (6, 13) Shift;

the seventh row, 10 keys, from left to right, is: (7, 1) Ctrl does not have (7, 2) Fn plus L (7, 3) (Windows logo key) does not have (7, 4) Alt does not have (7, 5) (space key) does not have (7, 6) Alt plus' (7, 7) (pull-down menu key) does not have (7, 8) ← does not have (7, 9) ↓ ] does not have (7, 10) → does not.

The invention has 92 keys on the keyboard of the artificial intelligence computer, and the artificial intelligence characteristic is obtained by changing the key position vector. Although the key distribution of a part of keys and the printing of a part of keycaps are changed, the wiring system of the circuit board is not changed, and the wiring nodes can be changed on the basis of the common keyboard circuit board for production. Since (7, 2) Fn, (7, 6) Alt becomes a hot key, in order to prevent (7, 3) (Windows logo key) and (7, 7) (pull-down menu key) from being touched by mistake, the functions of the two keys in the ordinary keyboard are realized by the combined keys of (7, 1) Ctrl + (7, 3) (Windows logo key) and (7, 1) Ctrl + (7, 7) (pull-down menu key); to prevent the reduction of the number of function implementation combination keys due to the cancellation of the shift key function, the (7, 1) Ctrl + (1, n), i.e., the combination of the left Ctrl key + the first row key, may be enabled. And writing keyboard drivers.

The implementation of artificial intelligence requires changing the hidden layer, a matter of software engineers! In order to facilitate understanding of the method for using the artificial intelligence computer keyboard of the present invention, a brief description will now be given. Artificial intelligence, so-called neural networks, are merely an image metaphor, the essence of which is a complex mapping relationship. This mapping is more complex than a functional relationship, because the functional relationship is a correspondence between non-null sets, and the mapping goes beyond this category. For example, the keys on the keyboard of the computer are not sets of numbers, the corresponding audio files or video files are not sets of numbers, and the extension of the mapping is much larger than that of the functions.

The artificial intelligence keyboard of the invention establishes a mapping relation between letter key positions and initials and finals of Chinese pinyin, establishes a mapping relation between the arrangement combination of the two key positions and Chinese characters containing sound, rhymes and tones, and establishes a mapping relation between the Chinese characters and audio files of various tones, so that a required classification result can be obtained at an output layer of artificial intelligence. Such as pinyin text, hanzi audio, and so forth. By remembering these codes, one can understand the individual nodes within the neural network, just like a monument on a real-world highway. The hidden layer is formed by stacking and linking a series of mapping relations formed by codes corresponding to actual meanings, and the hidden layer of the modern artificial intelligence is not a layer originally created but reaches seven layers and eighty layers.

The following shows how to input Chinese character tones through key position state changes by using a Chinese character coding method and an artificial intelligence computer keyboard, and a mapping relation is established in an implicit layer. In order to make typesetting beautiful, the capital letters of the front body are used for representing the lowercase letters, and the italic capital letters are used for representing the uppercase letters.

Tone of sound	Yinping medicine for curing yin disease	Yangping-medicine for curing male infertility	Sound coming up	De-noising	Whistling sound
						Phonetic alphabet	mā	má	mǎ	mà	ma
Example character	Mother	Hemp (flax)	Horse	Cursing	Does one
						Encoding	MA	MA	MA	MA	M’A
Key position	Lower case	Lower case and upper case	Capitalization	Upper and lower case	Lower case
						Audio frequency	Character pronunciation	Character pronunciation	Character pronunciation	Character pronunciation	Character pronunciation

By means of the matrix, the mapping relation between the key positions of the artificial intelligent computer keyboard and the tones of Chinese characters is established, two lower case letters correspond to the negative tone, one upper case letter and one lower case letter correspond to the positive tone, two upper case letters correspond to the upper tone, one upper case letter and one lower case letter correspond to the lower tone, and one lower case letter with the left letter and the lower letter correspond to the light tone. The lower case letters and the upper case letters correspond to the initials and the finals on different key positions, and the combination of the initials and the finals corresponds to the homophone set. By using the mapping relation of the hidden layer, the correct output result can be obtained at the output layer: a certain tone of Chinese characters, phonetic text or character sound audio. Certainly, to obtain a text of a certain Chinese character, a more complex mapping relationship needs to be established, a layer of mapping relationship capable of homophone differentiation is provided, and a Chinese character coding system for realizing the mapping relationship is provided.

The problem of XOR logic can be solved through fault-tolerant design, and the mapping relation of elements among fuzzy sets is established by utilizing the deep learning function of a computer, so that an ideal result can be achieved. Although the invention only relates to the physical level of artificial intelligence, the design is beneficial to the cooperation of the mapping relation established in the hidden layer and the physical level and the cooperation with the keystroke action and thinking mode of a user. The artificial intelligent computer keyboard, the desktop keyboard and the notebook computer keyboard have the same external structure.

Claims (3)

1. The invention relates to an artificial intelligent computer keyboard, which is characterized in that: the number of Latin letter keys is 52, 26 Latin letter keys are added on the basis of original 26 Latin letter keys of a common computer keyboard, the added 26 Latin letter keys are all obtained by changing vectors of non-letter keys, the newly added 26 Latin letter keys are all in an uppercase state, marks are printed on key caps by using upper-case italic Latin letters, and the corresponding vector coordinates of the marks are A (3, 12) B (6, 9) C (5, 1) D (4, 12) E (3, 4) F (4, 13) G (4, 14) H (5, 11) I (3, 9) J (5, 12) K (6, 13) L (7, 2) M (6, 11) N (6, 10) O (3, 10) P (3, 11) Q (3, 2) R (3, 5) S (3, 13) T (3, 6) U (3, 8) V (6, 1) W (3, 4) X (3, 4), 1) y (3, 7) Z (3, 1).

2. The artificial intelligence computer keyboard of claim 1, wherein: the 14 key positions of the numeric keypad are distributed on the functional keypad of the common keyboard, and the corresponding vector coordinates are/(1, 1) × (1, 2)1(1, 3)2(1, 4)3(1, 5)4(1, 6)5(1, 7)6(1, 8)7(1, 9)8(1, 10)9(1, 11)0(1, 12) - (1, 13) + (1, 14).

3. The artificial intelligence computer keyboard of claim 1, wherein: the 4 direction keys are combined with the basic keypad into one, and the vector coordinates of the two are ↓ (6, 12) ← (7, 8) ↓ (7, 9) → (7, 10).

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