DE102016100096A1 - input unit - Google Patents

Abstract

Input unit, in particular keyboard, characterized in that with a finger (1) or a pen (2) on a touch screen (10), in an input field (16) and a keypad (21) contained therein, which consonant keys (22) and at most a single vowel key (25), an input is made that the input via means of data processing generates letters, syllables, words, special characters, or performs functions that the keypad (21) has three letter-key rows the upper letter key row (17) has at most the vowel key (25) and the letter keys for the letters Q, W, R, T, Z or Y and P that the middle letter key row (18) has the letter keys for the letters S, D , F, G, H, J, K and L, that the lower letter key row (19) has the letter keys for the letters Y or Z, X, C, V, B, N and M that the keypad (21) the Letter key for the letter Ben Z in either the upper letter key row (17) or the lower letter key row (19) has the keypad (21) having the letter key Y in the character string which does not contain the letter key for the letter Z.

Description

The present invention relates to an input unit, in particular a compact input unit for touch screens which has a high similarity to the known QWERTZ key arrangement, but has fewer and thereby larger keys.

Smartphones are very common and have the functionality of a computer, such. Messaging, email, the internet, and editing documents. One problem is still the input of text. The best known means of entering text is an on-screen keyboard, most notably the QWERTY or QWERTZ keyboard.

Although there have long been proven to be more efficient, easier-to-learn keyboard layouts, the QWERTY keyboard has become the standard ( M. Helander (ed.), Handbook of Human-Computer Interaction, Elsevier (1988), pp. 475-479 ). The users know, usually unconsciously, the approximate position of the letter keys and very few are open to optimized key arrangements. The QWERTY keyboard layout has 27 keys, which is confusing. If you observe children while searching for a key, this becomes clear immediately.

In German-speaking countries QWERTZ keyboards are common. Compared to the QWERTY keyboards, they have keys for umlauts and the position of Y and Z are reversed.

On smartphones, the QWERTY or QWERTY keyboard in the top of three letter keys knows at least ten keys. This means that at least ten buttons must be accommodated on the screen width. As a result, the buttons are forced very narrow. Too narrow and too small for most users who often mistype. To compensate for this, most keyboards are equipped with auto-correction feature. AutoCorrect compares the input with a saved dictionary and calculates the most likely output. Not all users like AutoCorrect because the word that is output does not always match the word you want.

ShapeWriter (by Per Ola Kristensson and Shumin Zhai), SwiftKey and Swype are on-screen keyboards in which the first letter is touched to enter a word, the other letters are traced with the finger and the finger is only lifted off the screen at the last letter. When descending the desired letters most of the time also various letters are touched which should not be output. Basically, the space is entered by lifting the finger from the screen which makes sense because it is most common in texts. By lifting the finger is - similar to the pure auto correction - means of data processing, the or the matching words searched in the dictionary, proposed and / or issued. Compared to typing on a QWERTY on-screen keyboard, these gesture-based QWERTY keyboards have slightly higher efficiencies as well as the pros and cons of author correction and, like the QWERTY on-screen keyboard, have many buttons and are therefore cluttered.

Fig. 1:

Compared to the QWERTZ keyboard (above), in the present invention (below), the keys for individual vowels (aeiou) and for the space are omitted. In the middle row of letter keys, the letter A key will drop on the left edge. The position of the remaining keys in this row remains the same relative to the lower row of letter keys. Only in the upper letter key row it comes to shifts. Apart from the key for the letter P, the position is shifted by at most one key width. The P key is - depending on the embodiment - moved by two or three keys, but still remains on the right edge. This still makes it very easy to find. The keys are still relatively exactly in the same position relative to each other as in the normal QWERTZ on-screen keyboard. The invention comes with 22 instead of 27 letter keys. There is also an embodiment without a vowel key, which works with 21 instead of 27 letter keys ( Example without vocal button). The two embodiments are preferably provided as options between which can be switched back and forth, by 'tap' on a button or by 'stroke' from a button.

Although the keyboard arrangement has been slightly changed in the present invention, the keys are found faster because the keyboard has fewer keys. This arrangement is clearer. Since it has fewer keys, the keys can be displayed 56% larger ( ), which further increases the findability and significantly increases the accuracy of hits and allows reliable text input without auto-correction but does not exclude it.

Smartphones' normal QWERTY on-screen keyboards feature horizontally compressed keys in portrait format and horizontally stretched keys in landscape orientation. For design and ergonomic reasons, as with the right computer keyboards, square keys are an advantage. Since the present invention has only eight keys in width, square keys are possible. This increases the hit probability because the touch surface of a finger is a horizontal oval and the design looks smoother, quieter and more harmonious.

The patent "Method for a high-speed writing system and high speed writing device" (Raphael Bachmann, PCT / CH01 / 00453 ) describes an on-screen keyboard having consonant keys and only a vowel key. Single vowels (aeiou) and the space are written with strokes in one of eight directions ( ). A stroke movement from the vowel key only writes the corresponding vowel or the space. A stroke movement from a consonant key writes the consonant and the vowel associated with the movement or, correspondingly, the space. This invention has no option for auto-correction function and is limited to eight directions.

The present invention may also be practiced in one embodiment with six strokes combined with an autocorrection function and gesture switching (gesture). The limitation to six line directions has the advantage that you hit the desired direction reliable.

In the present invention, the following terms are defined:
Tap: Set down and raise your finger or pencil in the same place.
Stroke: Settling, simple or compound finger or pen movement (without settling) in one of the at least six strokes and lifting the pen.
Gesture: Dropping on the first letter of the desired word, tracing all letters of the word with the finger always in contact with the touchscreen, raising to the last letter of the word.

• – Oben: die vorliegende Erfindung im Ausführungsbeispiel mit Vokal-Taste und ohne 'Gesture'-Eingabefunktion. Wobei Vokale mit 'Tap' und 'Stroke' geschrieben werden. Gezeigt wird die Eingabe beginnend auf der Taste G, mit Eingabebewegung 'nach rechts', ein Anheben des Stiftes, die Eingabe beginnend auf der Taste T, einer Eingabebewegung 'nach rechts-oben' und ein Anheben des Fingers oder Stiftes, wonach das Wort 'gut', gefolgt von einem Leerzeichen, erzeugt wird. Dieses Ausführungsbeispiel hat den Vorteil, dass der Benutzer keine Wortvorschläge lesen muss und dass er direkt und selber schreibt.
• – In der Mitte: die vorliegende Erfindung im Ausführungsbeispiel mit Vokal-Taste und mit 'Gesture'-Eingabefunktion. Wobei ein Wort wird mit einer 'Gesture' geschrieben wird. Gezeigt wird die Eingabe beginnend auf der Taste G und einer 'Gesture' über die Vokal-Taste für den Vokal U, weiter zur Taste T für den Konsonanten T und ein Anheben des Fingers oder Stiftes, wonach über Mittel der Datenverarbeitung und eines abgespeicherten Wörterbuches, das Wort 'gut', gefolgt von einem Leerzeichen, vorgeschlagen und oder erzeugt wird. Dieses Ausführungsbeispiel hat den Vorteil, dass der Benutzer die Vokale nicht mit 'Strokes' eingeben muss.
• – Unten die vorliegende Erfindung im Ausführungsbeispiel ohne Vokal-Taste und mit 'Gesture'-Eingabefunktion. Wobei ein Wort wird mit einer 'Gesture' geschrieben wird. Gezeigt wird die Eingabe beginnend auf der Taste G und einer 'Gesture' direkt zur Taste T für den Konsonanten T und ein Anheben des Fingers oder Stiftes, wonach über Mittel der Datenverarbeitung und eines abgespeicherten Wörterbuches, das Wort 'gut', gefolgt von einem Leerzeichen, vorgeschlagen und oder erzeugt wird. Wenn die Vokale bei der 'Gesture'-Eingabe ignoriert werden, stehen den Mitteln der Datenverarbeitung weniger Angaben zur Verfügung, wodurch die Menge potentiell passender Wörter grösser wird als im oberen Beispiel. Dafür kann mit minimalem Bewegungsaufwand Text generiert werden und es steht Platz für eine weitere Taste zur Verfügung. Ausserdem verbleiben im Vergleich zur normalen QWERTZ oder auch QWERTY Tastenanordung drei Tasten der oberen Tastenreihe am gleichen Ort relativ zur mittleren und unteren Tastenreihe, was das Finden der weiter Tasten erleichtert.

Je nach Situation kann sich der Benutzer für die optimale Ausführungsbeispielkombinaton entscheiden. shows three ways to enter the word 'good', followed by a space:

• - Above: the present invention in the embodiment with a vowel key and without gestures input function. Wherein vowels are written with 'Tap' and 'Stroke'. The input is shown starting on the key G, with input movement 'to the right', a raising of the pen, the input starting on the key T, a movement of input 'right-up' and a raising of the finger or pen, after which the word ' good ', followed by a space. This embodiment has the advantage that the user does not have to read word suggestions and that he writes directly and himself.
• In the middle: the present invention in the embodiment with a vowel key and with gestures input function. Whereby a word is written with a 'Gesture'. Shown is the input beginning on the key G and a 'Gesture' via the vowel key for the vowel U, to the key T for the consonant T and a raising of the finger or pen, after which means of data processing and a stored dictionary, the word 'good' followed by a space, suggested and or generated. This embodiment has the advantage that the user does not have to enter the vowels with 'strokes'.
• - Below, the present invention in the embodiment without a vowel key and with 'Gesture' input function. Whereby a word is written with a 'Gesture'. Shown is the input starting on the G key and a 'gesture' directly to the T key for the consonant T and raising the finger or pen, after which by means of data processing and a stored dictionary, the word 'good' followed by a space , proposed and / or produced. If the vowels are ignored in the Gesture input, the data processing means will have less information available, which will increase the amount of potentially matching words larger than in the example above. This can be generated with minimal movement effort text and there is room for another key available. In addition, as compared with the normal QWERTY or QWERTY key arrangement, three keys of the upper row of keys remain in the same location relative to the middle and lower rows of keys, which facilitates finding the wider keys.

Depending on the situation, the user can opt for the optimal exemplary combination.

shows above the present invention as an embodiment with QWERTY key arrangement and below as an embodiment with QWERTY key arrangement.

shows the present invention with an example of a fully occupied keypad.

For the skilled person it is clear that the implementation of the keyboard according to the invention is not only possible by means of a touch screen, but that the input for selecting a letter or a sequence of letters can also be done in other ways, for. By a mouse, which is moved over a keyboard displayed on a screen, by a joystick, or by an eyetracking Einhait that detects the eye movement and recognizes which key of the keyboard is viewed by the user and thereby selected. In the case of the mouse, putting down the finger on a key can be replaced by a click of a mouse button, the raising of the finger by releasing the mouse button.

It will be further understood by those skilled in the art that the invention may be implemented by a processor controlled display of a keyboard on a display device in conjunction with a sensor device that selects a key by settling or raising a finger, pen, mouse, or other sensor device detects and detects a corresponding movement of the pen / mouse / finger via the keyboard and determined based on the detected selection and / or movement of the letters to be displayed or the letter sequence to be displayed. This can be done by a correspondingly implemented program logic for controlling the sensor device and the display. The thus-determined letter or the thus-determined letter sequence is then displayed on the display device.

Particularly advantageous is the keyboard arrangement in which the vocal button is completely omitted, since you the greatest space savings will be achieved. However, also advantageous are the Ausführungsbeiosppiele with a vocal button, since here also a space saving is achieved. In both cases, despite reduced vocal keys as described in the embodiments, yet all letters and words can be written by typing on the keyboard.

The arrangement of the keyboard such that only very small changes to the conventional QWERTZ or QWERTY keyboard are made, thereby leading to an easy learnability of the use of the new keyboard by the user.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CH 01/00453 [0010]

Cited non-patent literature

• M. Helander (ed.), Handbook of Human-Computer Interaction, Elsevier (1988), pp. 475-479 [0003]

Claims (13)

Input unit, in particular keyboard, characterized in that with a finger ( 1 ) or a pen ( 2 ) on a touchscreen ( 10 ), in an input field ( 16 ) and a keypad ( 21 ), which consonant keys ( 22 ) and at most a single vowel key ( 25 ), an input is made that the input via means of data processing letters, syllables, words, special characters or performs functions that the keypad ( 21 ) has three letter key rows that the upper letter key row ( 17 ) at most the vowel key ( 25 ) and the letter keys for the letters Q, W, R, T, Z or Y and P has the middle letter-key row ( 18 ) has the letter keys for the letters S, D, F, G, H, J, K and L, that the lower letter key row ( 19 ) has the letter keys for the letters Y or Z, X, C, V, B, N and M that the keypad ( 21 ) the letter key for the letter Z either in the upper letter key row ( 17 ) or the lower letter key row ( 19 ) that the keypad ( 21 ) has the letter key Y in the letter row which does not contain the letter key for the letter Z. Input unit according to claim 1, characterized in that the keypad ( 21 ) - depending on the embodiment - in addition to the letter key rows left and or right further keys, and or that the keypad ( 21 ) - depending on the embodiment - in addition to the letter key rows above and or below further keys. Input unit according to claim 1, characterized in that - depending on the embodiment - the upper letter key row ( 17 ) the vowel key ( 25 ) having. Input unit according to claim 3, characterized in that the input takes place as a 'tap' on a consonant key, whereby consonants are generated. Input unit according to claim 3, characterized in that during the input - a) the finger or pen is placed on a preselected key at least once and raised from it again (tap), or - b) the finger or pen is placed on a preselected key, in one of at least six line directions (1 to 6) is performed as a pin movement and then raised again (stroke). Input unit according to claim 3 to 5, characterized in that the input is made as a 'stroke' on a consonant key by the 'stroke' - is performed in one of the five provided for the vowels A, ..., U line directions, wherein the associated vowel is generated, or - is performed in a sixth stroke direction, wherein a blank is generated. Input unit according to one of claims 3-5, characterized in that the input is made as a 'stroke' on the single vowel key starting by the 'stroke' - in one of the five provided for the vowels A, ..., U line directions is performed, wherein the associated vowel is generated, or - is performed in a sixth stroke direction, wherein a blank is generated. Input unit according to claim 1, characterized in that - depending on the embodiment - the upper letter key row ( 17 ) has the letter keys for the letters Q, W, R, T, Z or Y and P, but no vocal key. Input unit according to claim 1 to 8, characterized in that for inputs which do not consist of all letters of a desired word, via means of data processing and a stored dictionary, a complete word proposed and / or output. Input unit according to claim 9, characterized in that - depending on the embodiment - the input of a desired word as 'Gesture' by touching the first matching consonant key to the word and the following descendant consonant keys - omitting the vowels - the finger or pen in the Most cases also Konsonanttasten touches which do not belong to the desired word and the finger or pen is lifted at the end of the word, and proposed means of data processing and a stored dictionary, a complete word and or issued. Input unit according to claim 1 to 10, characterized in that by 'tap' on a key or 'stroke' from a key, between the embodiments with a vowel key and the embodiment without vowel button back and forth can be switched. Input unit according to claim 1 to 11, characterized in that by 'tap' on a key or 'stroke' from a key, between the embodiments with 'gesture' Input function and the embodiment without gestures input function can be switched back and forth. Input unit according to claim 1 to 12, characterized in that the keys are square.

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