Methods, Controllers and Devices for Assembling a Word

专利摘要:
Abstract A method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, 5 the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word 10 components corresponding to the sequence of word components stored in the memory; the processor receiving a user input from a keyboard device having a plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the 15 keyboard device; a word component determiner of the processor determining that a user input word component is a valid subsequent word component that validly continues from the sequence of word components stored in the memory based on the set of valid words located by the word locator, the user input 20 word component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and a word component adder of the processor adding the user input word component to the stored sequence of word components of the word. 2 c c CL 0 a) A :3 CL m (D E Ci)C0 C)C
公开号:AU2013204311A1
申请号:U2013204311
申请日:2013-04-12
公开日:2013-12-19
发明作者:Timothy Michael CHOMLEY
申请人:CHOMLEY CONSULTING Pty Ltd；
IPC主号:G06F3-023

专利说明:
- 1 METHODS, CONTROLLERS AND DEVICES FOR ASSEMBLING A WORD Related Application 5 This application claims the benefit of the priority of Australian provisional application no. 201290255, the content of which as filed is incorporated by reference in its entirety. 10 Field The present invention relates to methods, controllers and devices for assembling a word, and is of particular but by no means exclusive application in assembling a word using a 15 keyboard device displayed on a touchscreen. Background In smartphones, the user input device is typically a 20 software-implemented virtual keyboard displayed by a touchscreen of the smartphone. To assemble or type a word, a user touches the touchscreen at positions corresponding to the keys of the keyboard associated with the letters of the word. The keys displayed by the touchscreen are normally smaller 25 than the keys of a typical computer keyboard. Thus, it is more common for a user to type a wrong letter on a touchscreen of a smartphone than on a conventional keyboard. There is a need for an improved or alternative technique 30 for assembling a word using a keyboard displayed on a touchscreen. Summary of the Invention 35 In a first aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, the method comprising: - 2 a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in 5 a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; the processor receiving a user input from a keyboard device having a plurality of keys respectively associated with 10 a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; a word component determiner of the processor determining that a user input word component is a valid subsequent word component that validly continues from the sequence of word 15 components stored in the memory based on the set of valid words located by the word locator, the user input word component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and 20 a word component adder of the processor adding the user input word component to the stored sequence of word components of the word. In an embodiment, the method further comprises: 25 a display controller of the processor controlling a display to display the keys of the keyboard device; and in response to the word locator locating the set of valid words: the word component determiner determining a set of 30 one or more valid subsequent word components based on the set of valid words located by the word locator, wherein each valid subsequent word component validly continues from the sequence of word components stored in the memory; and the display controller controlling the display to 35 modify the display of the key associated with each valid subsequent word component. In an embodiment, the method further comprises the - 3 display controller controlling the display to display one or more, or all, of the valid words located by the word locator, in response to the word locator locating the set of valid words. 5 In an embodiment, each word component is a Latin alphabetic letter. In an embodiment, the possible word components comprise 10 the 26 Latin alphabetic letters. In an embodiment, the word is a logographic character, and each word component is a character stroke. 15 In an embodiment, the keyboard device is a software implemented keyboard displayed on a display. In an embodiment, the method further comprises: in response to the processor receiving the user input, 20 the word locator locating a set of one or more additional valid words from the plurality of possible words stored in the words database, each additional valid word comprises a sequence of one or more word components corresponding to a subset of the sequence of word components stored in the 25 memory. In an embodiment, the method further comprises the display controller controlling the display to display one or more, or all, of the additional valid words located by the 30 word locator. In an embodiment, the method further comprises: in response to the word locator locating the set of valid words: 35 a valid word set size determiner of the processor determining that the set of valid words consists of only one valid word; and the display controller controlling the display to - 4 modify the display of the valid word. In an embodiment, the method further comprises: in response to the word locator locating the set of 5 additional valid words: a valid word set size determiner determining that the set of additional valid words consists of only one additional valid word, the display controller controlling the display to modify the display of the additional valid word. 10 In an embodiment, the method further comprises: in response to the word component adder adding a word component to the sequence of word components stored in the memory: 15 a letter number comparator of the processor determining that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and the display controller controlling the display to 20 modify the display of the valid word that has the same number of word components as the stored sequence of word components of the word. In an embodiment, the method further comprises: 25 in response to the word component adder adding a word component to the sequence of word components stored in the memory: a letter number comparator of the processor determining that the stored sequence of word components of the 30 word does not have the same number of word components as one of the set of valid words; and the display controller controlling the display to modify the display of the valid word that does not have the same number of word components as the stored sequence of word 35 components of the word. In an embodiment, the method further comprises: in response to the word locator locating the set of more -5 than one valid words: a common word component determiner of the processor determining that each of the valid words comprises a sequence of one or more common subsequent valid word components that 5 (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and the character adder adding the sequence of common subsequent valid word components to the sequence of word 10 components stored in the memory. In an embodiment, each of the possible words stored in the words database is categorized into one of a plurality of word categories, and the set of valid words located by the 15 word locator is based on the word category of a previous assembled word. In a second aspect, the present invention provides a method of assembling a word comprising a sequence of word 20 components according to one or more word assembly conventions, the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or 25 more valid words from a plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a word component determiner of the processor determining 30 a set of one or more valid subsequent word components based on the set of valid words located by the word locator, wherein each valid subsequent word component validly continues from the sequence of word components stored in the memory; a display controller controlling the display to display a 35 keyboard device having a plurality of keys respectively associated with a plurality of possible word components; and the processor receiving a user input from the keyboard device, the received user input corresponding to one of the - 6 keys of the keyboard device; a key position determiner of the processor determining a display position of the key associated with the possible word component corresponding to each valid subsequent word 5 component; a closest key determiner of the processor determining which one of the keys associated with the possible word components corresponding to the valid subsequent word components is displayed closest to the key corresponding to 10 the user input; and a word component adder of the processor adding to the sequence of word components stored in the memory the possible word component corresponding to the valid subsequent word component associated with the key determined by the closest 15 key determiner to be displayed closest to the key corresponding to the user input. In an embodiment, the method further comprises the display controller controlling the display to modify the 20 display of the key associated with the possible word component corresponding to each valid subsequent word component. In an embodiment, the method further comprises the display controller controlling the display to display the 25 possible word component corresponding to the valid subsequent word component associated with the key determined by the closest key determiner to be displayed closest to the key corresponding to the user input. 30 In an embodiment, the method further comprises the display controller controlling the display to display one or more, or all, of the valid words located by the word locator, in response to the word locator locating the set of valid words. 35 In an embodiment, each word component is a Latin alphabetic letter.
In an embodiment, the possible word components comprise the 26 Latin alphabetic letters. In an embodiment, the word is a logographic character, 5 and each word component is a character stroke. In an embodiment, the keyboard device is a software implemented keyboard displayed on a display. 10 In an embodiment, the method further comprises: in response to the processor receiving the user input, the word locator locating a set of one or more additional valid words from the plurality of possible words stored in the words database, each additional valid word comprises a 15 sequence of one or more word components corresponding to a subset of the sequence of word components stored in the memory. In an embodiment, the method further comprises the 20 display controller controlling the display to display one or more, or all, of the additional valid words located by the word locator. In an embodiment, the method further comprises: 25 in response to the word locator locating the set of valid words: a valid word set size determiner of the processor determining that the set of valid words consists of only one valid word; and 30 the display controller controlling the display to modify the display of the valid word. In an embodiment, the method further comprises: in response to the word locator locating the set of 35 additional valid words: a valid word set size determiner determining that the set of additional valid words consists of only one additional valid word, the display controller controlling the display to modify the display of the additional valid word. In an embodiment, the method further comprises: in response to the word component adder adding a word 5 component to the sequence of word components stored in the memory: a letter number comparator of the processor determining that the stored sequence of word components of the word has the same number of word components as one of the set 10 of valid words; and the display controller controlling the display to modify the display of the valid word that has the same number of word components as the stored sequence of word components of the word. 15 In an embodiment, the method further comprises: in response to the word component adder adding a word component to the sequence of word components stored in the memory: 20 a letter number comparator of the processor determining that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and the display controller controlling the display to 25 modify the display of the valid word that does not have the same number of word components as the stored sequence of word components of the word. In an embodiment, the method further comprises: 30 in response to the word locator locating the set of more than one valid words: a common word component determiner of the processor determining that each of the valid words comprises a sequence of one or more common subsequent valid word components that 35 (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and the character adder adding the sequence of common - 9 subsequent valid word components to the sequence of word components stored in the memory. In an embodiment, each of the possible words stored in 5 the words database is categorized into one of a plurality of word categories; and the set of valid words located by the word locator is based on the word category of a previous assembled word. 10 In a third aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, the method comprising: a memory storing a sequence of one or more word 15 components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word 20 components stored in the memory; the processor receiving a user input from a keyboard device having a plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; 25 a word component determiner of the processor determining that the user input word component is a valid further subsequent word component based on the set of valid words located by the word locator, the valid further subsequent word component being a word component that validly continues from 30 one or more intermediate word components that in turn continue from the sequence of word components stored in the memory; and a word component adder of the processor adding the user input word component and the intermediate word components to the sequence of word components stored in the memory. 35 In an embodiment, the word component determiner determined that the user input word component is not a valid subsequent word component.
- 10 In an embodiment, the one or more intermediate word components consist of a punctuation mark. 5 In an embodiment, the method further comprises: in response to the processor receiving the user input: an alternative word component locator of the processor locating an alternative word component from an alternative word component database comprising one or more 10 sets of alternative word components associated with respective word components, based on the user input word component; the word component determiner determining that the alternative word component is a valid subsequent word component continuing from the sequence of word components 15 stored in the memory based on the set of valid words located by the word locator; and the word component adder adding the alternative input word component to the sequence of word components stored in the memory. 20 In an embodiment, the alternative word component locator locates the alternative word component based on the user input word component in response to a determination by the word component determiner that the user input word component is not 25 a valid subsequent word component. In a fourth aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, 30 the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more additional valid words from a plurality of possible words 35 stored in a words database, each additional valid word comprising a sequence of one or more word components corresponding to a subset of the sequence of word components stored in the memory; - 11 the processor receiving a user input from a keyboard device having a plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; 5 a word component determiner of the processor determining that a user input word component is a valid subsequent word component that validly continues from the sequence of word components stored in the memory based on the set of additional valid words located by the word locator, the user input word 10 component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and a word component adder of the processor adding the user input word component to the sequence of word components stored 15 in the memory. In an embodiment, the method further comprises a display controller controlling a display to display one or more, or all, of the additional valid words located by the word 20 locator. In a fifth aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, 25 the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating one valid word from a plurality of possible words stored in a words database, 30 the valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a display controller of the processor controlling a display to display the valid word; 35 a valid word set size determiner of the processor determining that only one valid word is located by the word locator; and the display controller controlling the display to modify - 12 the display of the valid word. In a sixth aspect, the present invention provides a method of assembling a word comprising a sequence of word 5 components according to one or more word assembly conventions, the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating one valid word 10 from a plurality of possible words stored in a words database, the valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a display controller of the processor controlling a 15 display to display the valid word. a valid word set size determiner of the processor determining that the set of additional valid words consists of only one additional valid word, the display controller controlling the display to modify the display of the 20 additional valid word. In a seventh aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, 25 the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in 30 a words database, each valid word comprising a sequence of one or more valid word components including a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a display controller of the processor controlling a 35 display to display one or more, or all, of the valid words located by the word locator; a letter number comparator determining that the stored sequence of word components of the word has the same number of - 13 word components as one of the set of valid words; and the display controller controlling the display to modify the display of the valid word that has the same number of word components as the stored sequence of word components of the 5 word. In an eighth aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, 10 the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in 15 a words database, each valid word comprising a sequence of one or more valid word components including a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a display controller of the processor controlling a 20 display to display one or more, or all, of the valid words located by the word locator; a letter number comparator determining that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; 25 and the display controller controlling the display to modify the display of the valid word that does not have the same number of word components as the stored sequence of word components of the word. 30 In a ninth aspect, the present invention provides a method of assembling a word comprising a sequence of word components according to one or more word assembly conventions, the method comprising: 35 a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in - 14 a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; a common word component determiner of the processor 5 determining that each of the located valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and 10 a character adder of the processor adding the sequence of common subsequent valid word components to the sequence of word components stored in the memory. In a tenth aspect, the present invention provides a 15 method of assembling a sequence of words comprising a first word and a second word, the method comprising: a memory storing the first word; a word locator of a processor locating a valid word corresponding to the first word from a plurality of possible 20 words stored in a words database, each of the possible words categorized into one of a plurality of word categories; the memory storing a sequence of one or more word components of the second word; the word locator locating a set of one or more valid 25 words from a plurality of possible words stored in a words database based on the word category of the first word, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; and 30 a word component adder of the processor adding a word component that validly continues from the sequence of word components stored in the memory based on the set of valid words located by the word locator. 35 In an embodiment, the word categories include verbs and nouns. In an embodiment, the method further comprises a display - 15 controller controlling a display to display one or more, or all, of the valid words located by the word locator, in response to the word locator locating the set of valid words. 5 In an embodiment, each word component is a Latin alphabetic letter. In an embodiment, the possible word components comprise the 26 Latin alphabetic letters. 10 In an embodiment, the word is a logographic character, and each word component is a character stroke. In an embodiment, the method further comprises: 15 in response to the word locator locating the set of valid words: a valid word set size determiner of the processor determining that the set of valid words consists of only one valid word; and 20 the display controller controlling the display to modify the display of the valid word. In an embodiment, the method further comprises: in response to the word component adder adding a word 25 component to the sequence of word components stored in the memory: a letter number comparator of the processor determining that the stored sequence of word components of the word has the same number of word components as one of the set 30 of valid words; and the display controller controlling the display to modify the display of the valid word that has the same number of word components as the stored sequence of word components of the word. 35 In an embodiment, the method further comprises: in response to the word component adder adding a word component to the sequence of word components stored in the - 16 memory: a letter number comparator of the processor determining that the stored sequence of word components of the word does not have the same number of word components as one 5 of the set of valid words; and the display controller controlling the display to modify the display of the valid word that does not have the same number of word components as the stored sequence of word components of the word. 10 In an embodiment, the method further comprises: in response to the word locator locating the set of more than one valid words: a common word component determiner of the processor 15 determining that each of the valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and 20 the character adder adding the sequence of common subsequent valid word components to the sequence of word components stored in the memory. In an eleventh aspect, the present invention provides a 25 method of assembling text comprising a sequence of characters, the method comprising: a processor receiving a user input from a keyboard device having one or more punctuation keys respectively associated with one or more punctuation characters, the received user 30 input corresponding to one of the punctuation keys of the keyboard device; the processor determining that the punctuation character associated with the punctuation key corresponding to the user input corresponds to one of a set of terminating punctuation 35 characters; and the processor adding to the text (i) the punctuation character associated with the punctuation key corresponding to the user input and (ii) a space character.
- 17 In a twelfth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, 5 the controller comprising: a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate a set of one or more valid words from a 10 plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; receive a user input from a keyboard device having a 15 plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; determine that a user input word component is a valid subsequent word component that validly continues from 20 the sequence of word components stored in the memory based on the located set of valid words, the user input word component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and 25 add the user input word component to the stored sequence of word components of the word. In an embodiment, the processor is further arranged to: control a display to display the keys of the keyboard 30 device; and in response to a location of the set of valid words: determine a set of one or more valid subsequent word components based on the set of valid words located by the word locator, wherein each valid subsequent word component validly 35 continues from the sequence of word components stored in the memory; and control the display to modify the display of the key associated with each valid subsequent word component.
- 18 In an embodiment, the processor is further arranged to control the display to display one or more, or all, of the located valid words, in response to a location of the set of 5 valid words. In an embodiment, each word component is a Latin alphabetic letter. 10 In an embodiment, the possible word components comprise the 26 Latin alphabetic letters. In an embodiment, the word is a logographic character, and each word component is a character stroke. 15 In an embodiment, the keyboard device is a software implemented keyboard displayed on a display. In an embodiment, the processor is further arranged to: 20 in response to a receipt of the user input, locate a set of one or more additional valid words from the plurality of possible words stored in the words database, each additional valid word comprises a sequence of one or more word components corresponding to a subset of the sequence of word components 25 stored in the memory. In an embodiment, the processor is further arranged to control the display to display one or more, or all, of the located additional valid words. 30 In an embodiment, the processor is further arranged to: in response to a location of the set of valid words: determine that the set of valid words consists of only one valid word; and 35 control the display to modify the display of the valid word. In an embodiment, the processor is further arranged to: - 19 in response to a location of the set of additional valid words: determine that the set of additional valid words consists of only one additional valid word; and 5 control the display to modify the display of the additional valid word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence 10 of word components stored in the memory: determine that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and control the display to modify the display of the 15 valid word that has the same number of word components as the stored sequence of word components of the word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence 20 of word components stored in the memory: determine that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and control the display to modify the display of the 25 valid word that does not have the same number of word components as the stored sequence of word components of the word. In an embodiment, the processor is further arranged to: 30 in response a location of more than one valid words: determine that each of the valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components 35 stored in the memory; and add the sequence of common subsequent valid word components to the sequence of word components stored in the memory.
- 20 In an embodiment, each of the possible words stored in the words database is categorized into one of a plurality of word categories, and the location of the set of valid words is 5 based on the word category of a previous assembled word. In a fourteenth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, 10 the controller comprising: a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate a set of one or more valid words from a 15 plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; determine a set of one or more valid subsequent word 20 components based on the located set of valid words, wherein each valid subsequent word component validly continues from the sequence of word components stored in the memory; control a display to display a keyboard device having a plurality of keys respectively associated with a 25 plurality of possible word components; and receive a user input from the keyboard device, the received user input corresponding to one of the keys of the keyboard device; determine a display position of the key associated 30 with the possible word component corresponding to each valid subsequent word component; determine which one of the keys associated with the possible word components corresponding to the valid subsequent word components is displayed closest to the key corresponding 35 to the user input; and add to the sequence of word components stored in the memory the possible word component corresponding to the valid subsequent word component associated with the key determined - 21 by the closest key determiner to be displayed closest to the key corresponding to the user input. In an embodiment, the processor is further arranged to 5 control the display to modify the display of the key associated with the possible word component corresponding to each valid subsequent word component. In an embodiment, the processor is further arranged to 10 control the display to display the possible word component corresponding to the valid subsequent word component associated with the key determined by the closest key determiner to be displayed closest to the key corresponding to the user input. 15 In an embodiment, the processor is further arranged to control the display to display one or more, or all, of the located valid words, in response to a location of the set of valid words. 20 In an embodiment, each word component is a Latin alphabetic letter. In an embodiment, the possible word components comprise 25 the 26 Latin alphabetic letters. In an embodiment, the word is a logographic character, and each word component is a character stroke. 30 In an embodiment, the keyboard device is a software implemented keyboard displayed on a display. In an embodiment, the processor is further arranged to: in response to a receipt of the user input, locate a set 35 of one or more additional valid words from the plurality of possible words stored in the words database, each additional valid word comprises a sequence of one or more word components corresponding to a subset of the sequence of word components - 22 stored in the memory. In an embodiment, the processor is further arranged to control the display to display one or more, or all, of the 5 located additional valid words. In an embodiment, the processor is further arranged to: in response to a location of the set of valid words: determine that the set of valid words consists of 10 only one valid word; and control the display to modify the display of the valid word. In an embodiment, the processor is further arranged to: 15 in response to a location of the set of additional valid words: determine that the set of additional valid words consists of only one additional valid word; and control the display to modify the display of the 20 additional valid word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence of word components stored in the memory: 25 determine that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and control the display to modify the display of the valid word that has the same number of word components as the 30 stored sequence of word components of the word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence of word components stored in the memory: 35 determine that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and control the display to modify the display of the - 23 valid word that does not have the same number of word components as the stored sequence of word components of the word. 5 In an embodiment, the processor is further arranged to: in response a location of more than one valid words: determine that each of the valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and that 10 (ii) validly continue from the sequence of word components stored in the memory; and add the sequence of common subsequent valid word components to the sequence of word components stored in the memory. 15 In an embodiment, each of the possible words stored in the words database is categorized into one of a plurality of word classes; and the location of the set of valid words is based on the 20 word class of a previous assembled word. In a fifteenth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, 25 the controller comprising: a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate a set of one or more valid words from a 30 plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; receive a user input from a keyboard device having a 35 plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; determine that the user input word component is a - 24 valid further subsequent word component based on the located set of valid words, the valid further subsequent word component being a word component that validly continues from one or more intermediate word components that in turn continue 5 from the sequence of word components stored in the memory; and add the user input word component and the intermediate word components to the sequence of word components stored in the memory. 10 In an embodiment, the processor determined that the user input word component is not a valid subsequent word component. In an embodiment, the one or more intermediate word components consist of a punctuation mark. 15 In an embodiment, the processor is further arranged to: in response to a receipt of the user input: locate an alternative word component from an alternative word component database comprising one or more 20 sets of alternative word components associated with respective word components, based on the user input word component; determine that the alternative word component is a valid subsequent word component continuing from the sequence of word components stored in the memory based on the located 25 set of valid words; and add the alternative input word component to the sequence of word components stored in the memory. In an embodiment, the processor locates the alternative 30 word component based on the user input word component in response to a determination that the user input word component is not a valid subsequent word component. In a sixteenth aspect, the present invention provides a 35 controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: a memory for storing a sequence of one or more word - 25 components of the word; and a processor arranged to: locate a set of one or more additional valid words from a plurality of possible words stored in a words database, 5 each additional valid word comprising a sequence of one or more word components corresponding to a subset of the sequence of word components stored in the memory; receive a user input from a keyboard device having a plurality of keys respectively associated with a plurality of 10 possible word components, the received user input corresponding to one of the keys of the keyboard device; determine that a user input word component is a valid subsequent word component that validly continues from the sequence of word components stored in the memory based on 15 the located set of additional valid words, the user input word component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and add the user input word component to the sequence of 20 word components stored in the memory. In an embodiment, the processor is further arranged to control a display to display one or more, or all, of the located additional valid words. 25 In a seventeenth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: 30 a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate one valid word from a plurality of possible words stored in a words database, the valid word comprising a 35 sequence of one or more word components corresponding to the sequence of word components stored in the memory; control a display to display the valid word. determine that only one valid word is located; and - 26 control the display to modify the display of the valid word. In an eighteenth aspect, the present invention provides a 5 controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: a memory for storing a sequence of one or more word components of the word; and 10 a processor is arranged to: locate one valid word from a plurality of possible words stored in a words database, the valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; 15 control a display to display the valid word; determine that the set of additional valid words consists of only one additional valid word; and control the display to modify the display of the additional valid word. 20 In a nineteenth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: 25 a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate a set of one or more valid words from a plurality of possible words stored in a words database, each 30 valid word comprising a sequence of one or more valid word components including a sequence of one or more word components corresponding to the sequence of word components stored in the memory; control a display to display one or more, or all, of 35 the located valid words; determine that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and - 27 control the display to modify the display of the valid word that has the same number of word components as the stored sequence of word components of the word. 5 In a twentieth aspect, the present invention provides a controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: a memory for storing a sequence of one or more word 10 components of the word; a processor arranged to: locate a set of one or more valid words from a plurality of possible words stored in a words database, each valid word comprising a sequence of one or more valid word 15 components including a sequence of one or more word components corresponding to the sequence of word components stored in the memory; control a display to display one or more, or all, of the located valid words; 20 determine that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and control the display to modify the display of the valid word that does not have the same number of word 25 components as the stored sequence of word components of the word. In a twenty-first aspect, the present invention provides a controller for assembling a word comprising a sequence of 30 word components according to one or more word assembly conventions, the controller comprising: a memory for storing a sequence of one or more word components of the word; and a processor arranged to: 35 locate a set of one or more valid words from a plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components - 28 stored in the memory; determine that each of the located valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and 5 that (ii) validly continue from the sequence of word components stored in the memory; and add the sequence of common subsequent valid word components to the sequence of word components stored in the memory. 10 In a twenty-second aspect, the present invention provides a controller for assembling a sequence of words comprising a first word and a second word, the controller comprising: a memory for storing the first word; and 15 a processor arranged to: locate a valid word corresponding to the first word from a plurality of possible words stored in a words database, each of the possible words categorized into one of a plurality of word categories; 20 store a sequence of one or more word components of the second word; locate a set of one or more valid words from a plurality of possible words stored in a words database based on the word category of the first word, each valid word 25 comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; and add a word component that validly continues from the sequence of word components stored in the memory based on the 30 located set of valid words. In an embodiment, the word categories include verbs and nouns. 35 In an embodiment, the processor is further arranged to control a display to display one or more, or all, of the located valid words, in response to a location of the set of valid words.
- 29 In an embodiment, each word component is a Latin alphabetic letter. 5 In an embodiment, the possible word components comprise the 26 Latin alphabetic letters. In an embodiment, the word is a logographic character, and each word component is a character stroke. 10 In an embodiment, the processor is further arranged to: in response to a location of the set of valid words: determine that the set of valid words consists of only one valid word; and 15 control the display to modify the display of the valid word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence 20 of word components stored in the memory: determine that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and control the display to modify the display of the 25 valid word that has the same number of word components as the stored sequence of word components of the word. In an embodiment, the processor is further arranged to: in response an adding of a word component to the sequence 30 of word components stored in the memory: determine that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and control the display to modify the display of the 35 valid word that does not have the same number of word components as the stored sequence of word components of the word.
- 30 In an embodiment, the processor is further arranged to: in response a location of more than one valid words: determine that each of the valid words comprises a sequence of one or more common subsequent valid word 5 components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and add the sequence of common subsequent valid word components to the sequence of word components stored in the 10 memory. In a twenty-third aspect, the present invention provides a controller for assembling text comprising a sequence of characters, the controller comprising: 15 a processor arranged to: receive a user input from a keyboard device having one or more punctuation keys respectively associated with one or more punctuation characters, the received user input corresponding to one of the punctuation keys of the keyboard 20 device; determine that the punctuation character associated with the punctuation key corresponding to the user input corresponds to one of a set of terminating punctuation characters; and 25 add to the text (i) the punctuation character associated with the punctuation key corresponding to the user input and (ii) a space character. In a twenty-fourth aspect, the present invention provides 30 computer program code which when executed implements the above method. In a twenty-fifth aspect, the present invention provides a computer readable medium comprising the above computer 35 program code. In a twenty-sixth aspect, the present invention provides a device comprising the above controller.
- 31 In a twenty-seventh aspect, the present invention provides the above device in the form of a smartphone. 5 Brief Description of Drawings In order that the invention may be more clearly ascertained, embodiments will now be described, by way of example, with reference to the accompanying drawings, in 10 which: Figure 1A is a schematic diagram of a smartphone according to an embodiment of the invention; 15 Figure 1B is a screenshot of a portion of a touchscreen display of the smartphone; Figure 2 is a block diagram of the functional components of the smartphone; 20 Figure 3 is a functional block diagram of the controller of the smartphone; Figure 4 is a functional block diagram of the modules of 25 the controller implementing the KeyShading functionality; Figure 5 is a functional block diagram of the modules of the controller implementing the PreKeyCorrection functionality; 30 Figure 6 is a functional block diagram of the modules of the controller implementing the ComposingMode functionality; Figure 7 is a functional block diagram of the modules of 35 the controller implementing the LetterSubstitution functionality; Figure 8 is a functional block diagram of the modules of - 32 the controller implementing the PointofDeviation functionality; Figure 9 is a flowchart illustrating the KeyShading 5 functionality; Figure 10 is an extension of the flowchart of figure 9, which additionally illustrates the PostKeyCorrection functionality; 10 Figure 11 is an extension of the flowchart of figure 9, which additionally illustrates the ComposingMode functionality; 15 Figure 12 is an extension of the flowchart of figure 9, which additionally illustrates the PointofDeviation functionality; Figure 13 is an extension of the flowchart of figure 9, 20 which additionally illustrates the ComputationLinguistics functionality; Figure 14 is an extension of the flowchart of figure 9, which additionally illustrates the PreKeyCorrection 25 functionality and the PopUpPreview functionality; Figure 15 is an extension of the flowchart of figure 9, which additionally illustrates one of the AutomaticSystems functionalities; 30 Figure 16 is an extension of the flowchart of figure 9, which additionally illustrates another one of the AutomaticSystems functionalities; 35 Figure 17 is an extension of the flowchart of figure 9, which additionally illustrates yet another one of the AutomaticSystems functionalities; - 33 Figure 18A comprises a series of screenshots illustrating the KeyShading functionality and the KeyPreviewPopup functionality; 5 Figure 18B comprises a further series of screenshots illustrating the KeyShading functionality and the KeyPreviewPopup functionality; Figure 18C comprises yet another series of screenshots 10 illustrating the KeyShading functionality and the KeyPreviewPopup functionality; Figure 19A comprises a series of screenshots illustrating the KeyShading functionality without the KeyPreviewPopup 15 functionality; Figure 19B comprises a series of screenshots illustrating the KeyShading functionality with the PostKeyCorrection functionality; 20 Figure 19C comprises another series of screenshots illustrating the KeyShading functionality with the PostKeyCorrection functionality; 25 Figure 19D comprises another series of screenshots illustrating the KeyShading functionality with the PostKeyCorrection functionality; Figure 19E comprises a further series of screenshots 30 illustrating the KeyShading functionality, the PostKeyCorrection functionality and the ComposingMode functionality; Figure 19F comprises yet another series of screenshots 35 illustrating the KeyShading functionality and the PostKeyCorrection functionality; Figure 20A comprises a series of screenshots illustrating - 34 the KeyShading functionality, the PreKeyCorrection functionality, and the KeyPreviewPopup functionality; Figure 20B comprises a series of screenshots illustrating 5 the KeyShading functionality, the PreKeyCorrection functionality, and the PostKeyCorrection functionality; Figures 21A to 21C each comprises a series of screenshots illustrating the KeyShading functionality, the 10 PreKeyCorrection functionality, and the PostKeyCorrection functionality; Figures 22A to 221 each comprises a series of screenshots illustrating the ContextualKey functionality, the 15 ComposingMode functionality, the PreKeyCorrection functionality, and the KeyShading functionality; Figures 23A to 23C each comprises a series of screenshots illustrating the ComposingMode functionality, the 20 PreKeyCorrection functionality, and the KeyShading functionality; Figures 24A and 24B each comprises a series of screenshots illustrating the KeyShading functionality and 25 ComposingMode functionality; Figure 25 illustrates an alternative full-screen mode of the ValidWordsPanel; 30 Figures 26A to 26G each comprises a series of screenshots illustrating the AutomaticSystems functionality; Figure 27 comprises a series of screenshots illustrating the EditingWords functionality; 35 Figures 28A and 28B each comprises a series of screenshots illustrating the KeyPreviewPopup functionality; - 35 Figure 29 comprises a series of screenshots illustrating the AutomaticSystems functionality; Figures 30A to 30G each comprises a series of screenshots 5 illustrating the AutomaticSystems functionality; Figure 31A to 31B each comprises a series of screenshots illustrating the KeyPreviewPopup functionality; 10 Figure 32 comprises a table illustrating the different formats used by the smartphone when implementing the various functionalities; Figures 33A to 33J each comprises screenshots 15 illustrating an alternative ChordKeys keyboard layout; Figures 34A to 34F each comprises screenshots illustrating an alternative RadialKeys keyboard layout; and 20 Figures 35A to 35E each comprises a series of screenshots illustrating overriding key presses when using a combination of PreKeyCorrection and PostKeyCorrection. 25 Detailed Description Referring to the figures, there is illustrated an embodiment of the invention in the form of a smartphone 10. It is envisaged that the invention need not be in the form of 30 a smartphone. For example, the invention may alternatively be in the form of a notebook computer. The smartphone 10 is configured to implement a number of functionalities to assist or enable a user to assemble or type a word. It will be appreciated that each of these functionalities may be 35 temporarily disabled by the user. Figure 1A is a schematic diagram of the smartphone 10. The smartphone 10 comprises a display in the form of a - 36 touchscreen 20. The touchscreen 20 is adapted to display a number of elements. One of the elements is a keyboard 280 comprising a plurality of keys. Another one of the elements is a ComposingWordArea 210 for displaying a letter or letters 5 input by the user to assemble the word. Another one of the elements is a ValidWordsPanel 230 for displaying one or more words located by the smartphone 10. The touchscreen 20 serves as a user input device that is 10 operable by the user to assemble the word. In particular, the user can select one or more of the keys of the keyboard 280 by touching or contacting the touchscreen 20 at a position or positions of the touchscreen 20 corresponding to the key or keys of the keyboard 280. The smartphone 10 is configured to 15 detect the following types of user inputs from the touchscreen 20: " A "press" action analogous to the action of the user pressing and releasing a key on a conventional computer keyboard 20 e A "double press" action where the user performs the "press" action twice in quick succession * A "hold" action where the user performs the "press" action but does not release the key as quickly * A "long hold" action where the user maintains the "hold" 25 action for a longer period of time Figure 1B is a screenshot illustrating of the elements displayed by the touchscreen 20. The ValidWordsPanel 230 displays the words "Ten", "Tea" "Text", "Test" and "Tell", 30 and part of the word "Term". These are some of the words located by the smartphone 10. The ComposingWordArea 210 displays the letters "Te" added by the user to assemble a word the user intends to assemble. After all the letters of the word the user intends to assemble are added, the added letters 35 (which are displayed in the ComposingWordArea 210) can be combined with other text (such as other word or words, punctuation etc) to form phrases and sentences.
- 37 Herein, the term ComposingWord refers to the letter or letters added by the user and displayed in the ComposingWordArea 210; the term ValidWords refers to the words located by the smartphone 10 and displayed in the 5 ValidWordsPanel 230; and the term PrimaryValidWord refers to the first word of the ValidWords (which in figure 1B is "Ten"). The ValidWordsPanel 230 includes a contextual button 240. 10 In figure 1B, the contextual button 240 is displayed with a picture of a "Up Arrow" (that is, an upward pointing arrow). Upon the user pressing the "Up Arrow" button 240, the touchscreen 20 displays more or all of the ValidWords. The ValidWordsPanel 230 may include alternative or additional 15 buttons. For example, as described in further detail below in the section entitled PointofDeviation, the ValidWordsPanel 230 may include an additional "Auto-Fill" button 242. The display of the ValidWordsPanel 230 may be modified to 20 display the ValidWords located by the smartphone 10 but not displayed in the ValidWordsPanel 230. Specifically, the user can scroll the display of the ValidWordsPanel 230 by touching a finger on the ValidWordsPanel 230 and sliding the finger across the ValidWordsPanel 260 horizontally along the length 25 of the ValidWordsPanel 260 (that is, by a horizontal scrolling action) to control the touchscreen 20 to display the other ValidWords located by the smartphone 10. In figure 1B, the ValidWordsPanel 260 is displayed in a 30 compact mode. The ValidWordsPanel 260 can be modified to display in a full-screen mode instead of the compact mode. In the full-screen mode, the user can scroll the display of the ValidWordsPanel 230 by touching a finger on the ValidWordsPanel 260 and sliding a finger across the 35 ValidWordsPanel 260 vertically (that is, by a vertical scrolling action). The ValidWordsPanel 260 may also be separated into different sections or windows that a user can alternate between using Tabs.
- 38 The keyboard 280 is arranged in a QWERTY layout. The keyboard 280 includes 26 letter keys respectively associated with the 26 Latin alphabetic letters. The keyboard 280 also 5 includes a number of punctuation and system keys. In figure 1B, the letter keys "e", "r", "t", "a", "s", "1", "x", "c", "n" and "m" appear to be shaded 290. The shaded keys 290 are keys that are associated with letters 10 determined by the smartphone 10 to validly continue from the letters of the ComposingWord. The shading of letter keys is one of the functionalities implemented by the smartphone 10, and is described in greater detail below in the section entitled KeyShading. 15 Herein, the term ValidLetterKey refers to a letter key associated with a letter that validly continues from the letters of the ComposingWord, and the term InvalidLetterKey refers to a letter key associated with a letter that does not 20 validly continue from the ComposingWord. However, persons skilled in the art will appreciate that in an alternative embodiment, ValidLetterKeys may include other types of keys such as number keys or punctuation keys. 25 In figure 1B, the letter keys "e", "y", "u", "i", "o", "a", "s", "c" and "n" are displayed with an indicator tab 250. When a user holds a letter key having an indicator tab 250, a pop-up-mini-keyboard is displayed on the touchscreen 20. This is another one of the functionalities implemented by the 30 smartphone 10. Further description of this functionality is provided below in the section entitled KeyPreviewPopup. Figure 2 is a block diagram showing the functional components of the smartphone 10. As indicated above, the 35 smartphone 10 comprises a touchscreen 20. The touchscreen 20 is connected to a controller 30. The controller 30 comprises a processor 80 and a memory 90. The processor 80 is arranged to execute program code stored in the memory 90 to implement a - 39 plurality of modules to control the smartphone 10. For example, the processor 80 is arranged to execute a display controller to control the touchscreen 20 to display the keyboard 280. Persons skilled in the art will appreciate that 5 one or more of the modules may be implemented in an alternative way. For example, one of the modules may be implemented by a dedicated circuit. The controller 30 also has an input and output interface 10 60 to enable the processor 80 to receive user inputs from the touchscreen 20, and to send commands to the touchscreen 20 to control the touchscreen 20. Figure 3 is a block diagram showing the modules 15 implemented by the processor 80. The modules include the display controller 890, a key determiner 820, a word locator 830, a letter determiner 860, a word analyzer 850 and a letter adder 880. The letter determiner 860 includes a plurality of sub-modules including a key position determiner 863, a closest 20 key determiner 866 and an alternative letter locator 869. The word analyzer 850 includes a plurality of sub-modules including a valid words set size determiner 853, a letter number comparator 856, a valid subsequent letters determiner 858, and a common letter determiner 859. 25 As indicated above, the memory 90 stores program code that can be implemented by the processor 80 to implement the modules. The memory 90 also includes a word database 920 comprising a plurality of preloaded words. It is envisaged 30 that the words database 920 may additionally or alternatively comprise a set of user defined words that are input by the user (for example, when a word is not present in the word database), a set of words derived from a contacts database (that is, a database comprising a plurality of contacts) etc. 35 Persons skilled in the art will appreciate that the smartphone 10 may include more than one word database 920. The memory 90 also includes an alternative letter - 40 database 930 storing one or more sets of alternative letters. When carrying out the word assembly operation, the memory 90 may also store an added letters set 960 comprising the letter or letters of the ComposingWord, and a valid words set 990 5 comprising the ValidWords including the PrimaryValidWord. Persons skilled in the art will appreciate that the added letters set 960 may consist only of one letter or comprise more than one letter. 10 KeyShading As indicated above, a number of functionalities are implemented by the smartphone 10 to assist a user to assemble a word. One of the functionalities is KeyShading. 15 Figure 4 is a block diagram of the modules implementing the KeyShading functionality. The controller 30 is adapted to receive a user input from the touchscreen 20 via the input and output interface 60. The key determiner 820 of the processor 20 80 is arranged to determine whether or not the user input received by the controller 30 corresponds to one of the key of the keyboard 280. The user input corresponds to the position of the contact or touch detected by the touchscreen 20. The key determiner 820 is also arranged to determine whether or 25 not the input letter is the first letter of a word to be assembled. If the input letter is the first letter of a word to be assembled, the key determiner 820 outputs the input letter to the letter adder 880. Upon receiving the input letter, the letter adder 880 adds the input letter to the 30 added letters set 960 stored in the memory 90. After the input letter is added to the added letters set 960, the display controller 890 controls the touchscreen 20 to display the letter or letters of the added letters set 960 35 (which in this case consist of just the added letter recently added to the added letters set 960) as the ComposingWord in the ComposingWordArea 210. In addition, the word locator 830 locates a set of one or more ValidWords based on the added - 41 letters set 960. The word locator 830 does this by locating a word or words comprising a first letter corresponding to the added letter. The set of ValidWords are located from the possible words stored in the word database 920 of the memory 5 90. The set of ValidWords are then output by the word locator 830 to the memory 90 for storage in the valid words set 990. After the set of ValidWords is located by the word locator 830, the valid subsequent letter determiner 858 10 determines a valid subsequent letter for each one of the set of ValidWords stored in the valid words set 990, each valid subsequent letter being the subsequent letter of a ValidWord that validly continues from the first letter of the ValidWord. Upon determining a valid subsequent letter for each one of the 15 set of ValidWords, the valid subsequent letter determiner 858 outputs each of the valid subsequent letter or letters to the memory 90 for storage in a valid subsequent letters set 980. In this case, the first ValidWord located by the word 20 locator 830 is displayed in the ValidWordsPanel 230 as the PrimaryValidWord. However, it is envisaged that the PrimaryValidWord may not be the first ValidWord located by the word locator 830 but is selected from the set of ValidWords based on the popularity of each of the ValidWords in an 25 alternative embodiment. After the set of ValidWords is located by the word locator 830, the display controller 890 controls the touchscreen 20 to display in the ValidWordsPanel 230 of the 30 touchscreen 20 one or more of the words of the set of ValidWords stored in the valid words set 990. After the valid subsequent letter or letters are determined by the valid subsequent letter determiner 858, the display controller 890 controls the touchscreen 20 to modify the display of the key 35 or keys that are associated with the valid subsequent letter or letters as one or more ValidLetterKeys. The display controller 890 controls the touchscreen 20 to modify the display of each ValidLetterKey by controlling the touchscreen - 42 20 to display a modified "shaded" version of the key. If the input letter is not the first letter of a word the user intends to assemble, upon receiving the input letter from 5 the key determiner 820, the letter determiner 860 determines whether the input letter is a valid subsequent letter that validly continues from a letter or letters stored in the added letters set 960 based on the set of ValidWords stored in the valid words set 990 of the memory 990. 10 The set of ValidWords stored in the valid words set 990 is located by the word locator 830 based on all of the letter or letters stored in the added letters set 960. The word locator 830 locates the set of ValidWords by locating a word 15 or words comprising an initial sequence of letter or letters corresponding to all of the added letter or letters stored in the added letters set 960. The ValidWords are located by the word locator 830 from the possible words stored in the word database 920. 20 The letter determiner 860 determines whether the input letter is a valid subsequent letter based on the set of ValidWords stored in the valid words set 990 of the memory 990, by using letter or letters stored in the valid subsequent 25 letters set 980. The letter or letters stored in the valid subsequent letters set 980 are determined by the valid subsequent letters determiner 858 based on the set of ValidWords stored in the 30 valid words sets 990 and the added letters stored in the added letters set 960. If the input letter is the first letter of the word the user intends to assemble, each valid subsequent letter determined by the valid subsequent letter determiner 858 is the second letter of a ValidWord that validly continues 35 from the first letter of the ValidWord. If the input letter is not the first letter of the word the user intends to assemble, each valid subsequent letter determined by the valid subsequent letter determiner 858 is the subsequent letter of a - 43 ValidWord that validly continues from the letter of the ValidWord corresponding to the letter of the word to be assembled. For example, if the input letter is the second letter of the word the user intends to assemble, each valid 5 subsequent letter determined by the valid subsequent letter determiner 858 is the third letter of a ValidWord that validly continues from the second letter of the ValidWord. Alternatively, if the input letter is the third letter of the word to be assembled, each valid subsequent letter determined 10 by the valid subsequent letter determiner 858 is the fourth letter of a ValidWord that validly continues from the third letter of the ValidWord. Persons skilled in the art will appreciate that the position of the valid subsequent letter within a ValidWord may not correspond to the position of the 15 letter to be added to the ComposingWord, for example, where the ValidWord includes a non-terminating punctuation mark (such as a hyphen). 20 Upon a determination by letter determiner 860 that the input letter is a valid subsequent letter, the letter adder 880 adds the input letter to the added letters set 960 of the memory 90. The display controller 890 then controls the touchscreen 20 to display the letters of the added letters set 25 960 (which include the added letter recently added to the added letters set 960) as the ComposingWord in the ComposingWordArea 210. The KeyShading functionality may be described with 30 respect to the following example where the user the user intends to assemble the word "cat". Initially, before any letters are input by the user, all of the keys of the keyboard 280 are ValidLetterKeys. After inputting the letter "c", words that start with the letter "c" are located. Then, the 35 next letter of each located word is used to define a set of valid subsequent letters. Based on the set of valid subsequent letters, the display and/or the functionality of the keys of the keyboard 280 that are ValidLetterKeys are - 44 modified: The display of ValidLetterKeys are shaded. Additionally, InvalidLetterKey presses are ignored. It will be appreciated that in an alternative embodiment, the modification may only involve modifying the display of valid 5 keys without ignoring InvalidLetterKey presses, or involve ignoring InvalidLetterKey presses without modification to the display of the ValidLetterKeys. PreKeyCorrection 10 Another one of the functionalities implemented by the smartphone 10 is PreKeyCorrection. Figure 5 is a functional block diagram illustrating the PreKeyCorrection functionality in greater detail. 15 Upon a determination by the letter determiner 860 that the input letter is not a valid subsequent letter (that is, upon a determination that the user input does not correspond to one of the ValidLetterKeys determined by the valid 20 subsequent letter determiner 858), the letter determiner 860 determines a ValidLetterKey in place of the key associated with the input letter. More specifically, upon a determination by the letter determiner 860 that the input letter is not a valid subsequent letter, a key position 25 determiner 863 of the letter determiner 860 determines the display position of each ValidLetterKey (that is, the display position of each ValidLetterKey). Then, a closest key determiner 866 of the letter determiner 860 determines which one of the ValidLetterKeys is displayed closest to the key 30 corresponding to the input letter, and determines that the ValidLetterKey determined to be displayed closest to the key corresponding to the user input is the key . Herein, the term ClosestValidLetterKey refers to the key determined to be displayed closest to the key corresponding to the user input. 35 PostKeyCorrection - 45 Another one of the functionalities implemented by the smartphone 10 is PostKeyCorrection where the word locator 830 additionally locates one or more ValidWords in addition to the set of ValidWords. 5 The word locator 830 locates the one or more additional ValidWords based on a sub-sequence of the added letters in the added letters set 960, by locating a word or words comprising a sequence of letter or letters corresponding to a sub 10 sequence of added letters stored in the added letters set 960 of the memory 90. For example, the word locator 830 may locate the additional ValidWords based on the subsequence "es" when the added letters set 960 consists of the letters "Tes". By locating words based on a subsequence of the added letters 15 stored in the added letters set 960 rather than on all the letters of the added letters set 960, the smartphone 10 allows for the case where one or more of the letters previously added by the user were incorrectly added (for example, in a scenario where the user mistypes a key and adds the letter associated 20 with the mistyped key). The additional ValidWords are located by the word locator 830 from the words stored in the word database 920. Any additional ValidWords located by the word locator 830 are stored in the valid words set 990 of the memory 90. 25 The display controller 890 is arranged to control the touchscreen 20 to display the additional ValidWords in the ComposingWordArea 210 together with the ValidWords located via the KeyShading functionality. In addition, the display 30 controller 890 is arranged to modify the keys associated with subsequent valid letters that validly continues from the additional ValidWords located by the word locator 830. Herein, the term AdditionalValidLetterKey refers to a key associated with a subsequent valid letter that validly 35 continues from one of the additional ValidWords located by the word locator 830. To enable the user to differentiate between - 46 ValidLetterKeys (that are located via the KeyShading functionality) and AdditionalValidLetterKeys (that are additionally located via the PostKeyCorrection functionality), the display of the AdditionalValidLetterKeys are modified 5 differently to the display of the ValidLetterKeys. Specifically, the display of AdditionalValidLetterKeys are shaded in a darker colour to the shading colour of the display of ValidLetterKeys located via the KeyShading functionality. 10 ComposingMode Another one of the functionalities implemented by the smartphone 10 is ComposingMode where the ComposingWord is compared to the PrimaryValidWord. In operation, the colour of 15 the PrimaryValidWord is modified to indicate that (i) the PrimaryValidWord is the only word in the valid words set 990 (that is, based on the letters added so far, there is only one ValidWord and no AdditionalValidWords, or there is only one AdditionalValidWord and no ValidWords), (ii) the ComposingWord 20 has the same number of letters as the PrimaryValidWord, or (iii) the ComposingWord does not have the same number of letters as the PrimaryValidWord. The smartphone 10 is configured to exclude non-letters in its calculation of the number of letters of a word. However, it is envisaged that an 25 alternative embodiment of the smartphone 10 may include non letters in its calculation of the number of letters of a word. Figure 6 is a functional block diagram illustrating the ComposingMode functionality in greater detail. The 30 comparisons between the ComposingWord and the PrimaryValidWord are performed by the word analyzer 850. The letter number comparator 853 of the word analyzer 850 is arranged to determine whether or not the ComposingWord has 35 the same number of letters as the PrimaryValidWord. The letter number comparator 853 does this by counting the letters of the ComposingWord and the PrimaryValidWord and determining whether or not the two are the same. If the letter number - 47 comparator 853 determines that the ComposingWord has the same number of letters as the PrimaryValidWord, the display controller 890 modifies the colour of the display of the PrimaryValidWord to blue. The colour modification is intended 5 to indicate to the user that the ComposingWord substantially corresponds to the PrimaryValidWord, and that the ComposingWord can be automatically corrected (for example, to correct any inconsistencies due to capitalization or alternative letters) to correspond to the PrimaryValidWord. 10 Otherwise, if the letter number comparator 853 determines that the ComposingWord does not have the same number of letters as the PrimaryValidWord, the display controller 890 modifies the colour of the display of the ValidWord in the ValidWordsPanel 830 to green. This indicates the user that the ComposingWord 15 substantially corresponds to a partially assembled PrimaryValidWord. Persons skilled in the art will appreciate that the colour modification may be expressed in a different manner. For example, the smartphone 10 may be configured to aurally output a particular sound or tone instead of visually 20 modifying the colour of the display of the PrimaryValidWord. The valid words set size determiner 853 of the word analyzer 850 is arranged to determine whether or not the set of ValidWords stored in the valid words set 990 consist of 25 only one ValidWord. If the word analyzer 850 determines that the set of ValidWords stored in the valid words set 990 consist of only one ValidWord, the display controller 890 modifies the colour of the display of the ValidWord in the ValidWordsPanel 830 to orange. The colour modification 30 indicates to the user that the PrimaryValidWord is the only ValidWord located by the word locator 830, and that the ComposingWord can be automatically completed (and, if there is any inconsistencies due to capitalization or alternative letters, corrected) to correspond to the PrimaryValidWord. 35 Herein, when the letter number comparator 853 determines that the ComposingWord has the same number of letters as the PrimaryValidWord, the ComposingWord is referred to as an - 48 AutoCorrectableWord (which is displayed in blue); when the letter number comparator 853 determines that the ComposingWord does not have the same number of letters as the PrimaryValidWord, the ComposingWord is referred to as a 5 PreValidWord (which is displayed in green); and when valid words set size determiner 853 determines that the set of ValidWords stored in the valid words set 990 consist of only one ValidWord, the ComposingWord is referred to as an AutoCompletableWord (which is displayed in orange). 10 In this implementation of the ComposingMode functionality, the comparison to the ComposingWord (and the colour modification resulting from the comparison) is with respect to the PrimaryValidWord. However, it is envisaged 15 that the comparison (and the colour modification resulting from the comparison) may apply to another one or more than one of the words displayed in the ValidWordsPanel 230, or to more than one of the words displayed in the ValidWordsPanel 230. 20 ContextualKey Another one of the functionalities is the ContextualKey functionality. In operation, the smartphone 10 automatically corrects a ComposingWord to a AutoCorrectableWord, or 25 completes (and if there are correctable letters, corrects) a ComposingWord to a AutoCompletableWord (that is, the smartphone 10 will automatically complete the word assembly process) upon receiving a further user input corresponding to a key associated with the space character or a punctuation 30 character. For example, when the ComposingWord is a AutoCorrectableWord, pressing the spacebar or a punctuation key corrects the ComposingWord to the AutoCorrectableWord by correcting any inconsistencies due to capitalization or alternative letters (for example, correcting the 35 capitalization of a letter or letter, and/or making any appropriate substitutions to replace certain letters with alternative letters such as replacing "e" with "6").
- 49 Also, the smartphone 10 is configured to automatically correct and/or complete the ComposingWord to one of the ValidWords displayed in the ValidWordsPanel 230 upon the user selecting the ValidWord from the ValidWordsPanel 230 (that is, 5 by the user pressing the ValidWord displayed in the ValidWordsPanel 230). AutomaticSystems 10 Another set of functionalities implemented by the smartphone 10 is AutomaticSystems. One of the AutomaticSystems functionalities is AutomaticNonTerminatingPunctuationInsertion. Upon a 15 determination by the letter determiner 860 that the input letter is not a valid subsequent word component, the letter determiner 860 determines whether or not the input letter is a valid further subsequent letter that validly continues from a punctuation mark that in turn continues from the 20 ComposingWord. This determination is based on the set of ValidWords stored in the valid words set 920 and added letter or letters of the ComposingWord stored in the added letters set 960. If the letter determiner 860 determines that the input letter is a valid further subsequent letter that validly 25 continues from a punctuation mark that in turn continues from the ComposingWord, the letter adder 880 adds the punctuation mark before adding the valid further subsequent letter. In this implementation, the letter determiner 860 30 determines that the input letter is a valid further subsequent letter based on comparisons involving all of the ValidWords stored in the valid words set 920. In particular, the letter determiner 860 determines that the input letter is a valid further subsequent letter only if the input letter validly 35 continues from the same punctuation mark when compared to all of the ValidWords stored in the valid words set 920. It is envisaged that in an alternative embodiment, a - 50 valid further subsequent letter may be a letter that validly continues from a letter rather than a punctuation mark that in turn continues from the added letter or letters stored in the added letters set 960. It is also envisaged that the valid 5 further subsequent letter may be a letter that validly continues from more than one letter or punctuation mark in another alternative embodiment. Another one of the AutomaticSystems functionalities is 10 AutomaticSpaceInsertion. Upon the processor 80 receiving a user input corresponding to one of the punctuation keys of the keyboard 280, the processor 80 determines whether or not the punctuation mark associated with the punctuation key corresponding to the user input corresponds to one of a set of 15 terminating punctuation mark such as a full stop, question mark, an exclamation mark or a comma. Upon a determination by the processor 80 that the punctuation mark associated with the punctuation key corresponding to the user input corresponds to one of a set of terminating punctuation mark, the processor 80 20 adds a space character after adding the punctuation mark associated with the punctuation key corresponding to the user input. LetterSubstitution 25 Another one of the functionalities implemented by the smartphone 10 is LetterSubstitution. Figure 7 is a functional block diagram illustrating the LetterSubstitution functionality in greater detail. Upon a determination by the 30 letter determiner 860 that the input letter is not a valid subsequent letter, the alternative letter locator 869 of the letter determiner 860 locates one or more alternative letters from the alternative letter database 930 of the memory 90 based on the input letter. Upon locating the alternative 35 letters, the letter determiner 860 determines whether or not each one of the alternative letters is a valid subsequent letter continuing from the sequence of letters stored in the memory based on the set of ValidWords of the valid words set - 51 990 stored in the memory 90. Upon a determination by the letter determiner 860 that one of the alternative letters is a valid subsequent letter, the letter determiner 860 outputs the alternative letter to the letter adder 880. 5 KeyPreviewPopup Another one of the functionalities implemented by the smartphone 10 is KeyPreviewPopup. In operation, the display 10 controller 890 controls the touchscreen 20 to display a popup display of a character before adding the character is added to the added letters sets 960. The popup display may be a letter corresponding ValidLetterKey, a letter corresponding to an InvalidLetterKey, or a punctuation mark corresponding to a 15 punctuation key. Also, the display controller 890 is additionally configured to modify the popup display-for example, by modifying the colour of the letter in the popup display-to indicate that the letter is a valid subsequent letter, that there is only one ValidWord in the valid words 20 set 990, or that the ComposingWord is a AutoCorrectableWord or a AutoCompletableWord. PopUpMiniKeyboard 25 If the key is a key displayed with an indicator tab 250, the display controller 890 displays a popup mini keyboard comprising one or more alternative letters associated with the input letter upon the user holding the key. The alternative letters are located from the alternative letter database 930 30 by the letter determiner 860 via the LetterSubstition functionality. PointofDeviation 35 Another one of the functionalities implemented by the smartphone 10 is PointofDeviation. Figure 8 is a functional block diagram illustrating the PointofDeviation functionality in greater detail.
- 52 The common letter determiner 859 of the word analyzer 850 is arranged to determine whether or not each ValidWord of the valid words set 990 comprises a sequence of one or more common 5 subsequent valid letters that (i) are common to all the ValidWords, and (ii) validly continues from the ComposingWord. In this implementation, upon a determination by the common letter determiner 859 that each ValidWord of the valid 10 words set 990 comprises a sequence of one or more common subsequent valid letters that (i) are common to all the ValidWords, and (ii) validly continues from the ComposingWord, the display controller 890 prompt the user about whether or not to add the common letters. Specifically, the display 15 controller 890 controls the touchscreen 20 to display a contextual "auto-fill" button 242 in the ValidWordsPanel 230 of the touchscreen 20 (see for example, figures 20 and 29) to enable the user to add the common letter or letters if the user wishes to do so. 20 ComputationLinguistics Another one of the functionalities implemented by the smartphone 10 is ComputationLinguistics where each of the 25 possible words stored in the words database 920 is categorized into one a plurality of word categories such as (verbs, nouns or adjectives) and the word locator 830 is configured to analyze the computational linguistics of the sentence of which the ComposingWord is a part of. Specifically, in addition to 30 the letter or letters of the ComposingWord, the word locator 830 locates the set of ValidWords from the possible words stored in the words database 920 based on the word category of a previous word. For instance, when a user types "The cat is", the next word that is going to be typed is most likely 35 going to be a noun and so the word locator 830 can be optimized to locate only ValidWords that are nouns. Advantageously, ComputationLinguistics optimizes the - 53 smartphone 10 to take in account the part of speech of the next or current word being typed (for example, whether the next or current word is a verb or noun), by reducing the number of words of the word database 920 the word locator 830 5 have to consider. EditingWords Another one of the functionalities implemented by the 10 smartphone 10 is EditingWords where the processor 80 is configured to enable a user to modify a part of the ComposingWord separated from the other parts of the ComposingWord by a cursor. Herein, the term WordStem refers to the letter or letters of the ComposingWord before the 15 Cursor; and the term WordTail refers to the letter or letters of the ComposingWord after the cursor. (That is, the WordStem and the WordTail combine to form the ComposingWord). In operation, the word locator 830 locates the set of 20 ValidWords using only the WordStem instead of the entire ComposingWord. (That is, the letters in the WordTail are not used to locate ValidWords). Thus, the other functionalities (such as the KeyShading functionality) operates at the point of the cursor, and represent the next possible letter for the 25 WordStem (that is, in relation to the cursor position within the ComposingWord). Additional functionalities 30 Functionalities in addition to those described above may be implemented by the smartphone 10. For example, with respect to the KeyPreviewPopup functionality, the display controller 890 may additionally be configured to display to the user a pop-up preview of a ClosestValidLetterKey instead 35 of the letter associated with the key corresponding to the user input. It is envisaged that in an alternative embodiment, one or - 54 more of the above mentioned functionalities may not be implemented. For example, in an alternative embodiment, the smartphone 10 may not be configured to implement the KeyPreviewPopup functionality. Also, it is envisaged that in 5 an alternative embodiment, one or more of the modules of the processor 80 or the components of the memory 90 may not be implemented. For example, in an alternative embodiment, the memory 90 may not include an alternative letter database 930. Also, the modules of the processor 80 may be implemented in a 10 manner that is described above. For example, rather than outputting the input letter to either the letter determiner 860 or the letter adder 880, the key determiner 820 may output merely a flag or a command to indicate to the letter determiner 860 or the letter adder 880 that the user input 15 received by the processor 80 corresponds to a key associated with a letter. It is envisaged that the smartphone 10 may alternatively be configured to assemble words than are not based on Latin 20 alphabetic letters. For example, the device may be configured to assemble Chinese characters instead of or in addition to English words. Also, the smartphone 10 is configured to assemble words according to the Standard English word entry convention where the letters forming a word are input 25 sequentially from the first letter of the word to the last letter of the word. However, persons skilled in the art will appreciate that the smartphone 10 may alternatively or additionally be configured to assemble words according to another word entry convention. For example, in an alternative 30 embodiment where the smartphone is configured to assemble Chinese characters, the smartphone may be configured to assemble words according to different character stroke entry conventions where the character stroke of characters are entered in different sequences. 35 It is envisaged that the keyboard 280 in an alternative embodiment may be a physical keyboard instead of a virtual keyboard implemented by a touchscreen. For example, a - 55 physical keyboard comprising LEDs arranged to highlight each key of the keyboard may be used to implement the KeyShading functionality and/or a physical keyboard comprising a mini display arranged to display alternative letters for each key 5 of the keyboard may be used to implement the PopupPreview functionality. Also, persons skilled in the art will appreciate that a user may input a user input via different ways other than directly pressing a key of the keyboard. For example, the user input may be input alternatively via multi 10 touch gestures on a touchscreen, physical gestures (such as tilting a smartphone etc), voice inputs. Also, alternative or additional user input devices (such as a digitiser pen or stylus, a mouse, and/or a game controller comprising one or more buttons, single or dual directional control pads or 15 thumbsticks) may be used in other embodiments. The above functionalities may be implemented differently in embodiments where there is an additional or alternative user input device. For example, in an embodiment where a mouse is used as a user input device, the pop up previews may be displayed when the 20 mouse cursor "hovers" above the display of a key of keyboard device. In another example, in an embodiment where a touch sensitive keyboard is used, a pop up preview may be displayed when a user touches a key of the keyboard without pressing the key. 25 Also, it is envisaged that the keyboard in an alternative embodiment may be displayed in a different layout to the QWERTY layout. For example, it is envisaged that the keyboard may be displayed in a "Chord" layout or a "Radial" layout. 30 Persons skilled in the art will also appreciate that there are a plurality of QWERTY layout variants and that the keyboard layout may be one of the plurality of QWERTY layout variants. Persons skilled in the art will also appreciate that the keyboard may be in a layout that is designed for a non-English 35 language, and that the keys of the keyboard may not correspond to English alphabet. For example, the keys of the keyboard may correspond to a character stroke.
- 56 Figure 9 is a flowchart illustrating the KeyShading functionality for assisting a user to assemble a word. At step 110, the display controller 890 implemented by the processor 80 of the controller 30 of the smartphone 10 5 controls the touchscreen 20 of the smartphone 10 to display the keys of the keyboard 280 to the user of the smartphone 10. At step 120, the processor 80 receives, from the user, a user input to assemble a word, the user input corresponding to a key associated with a letter after the user types the letter 10 using the smartphone 10 by pressing the key. If the associated letter is the first letter after a terminating character (for example, a space or a terminating punctuation mark such as a em-dash) received by the processor 80, the letter adder 880 implemented by the processor 80 adds the 15 associated letter to the added letters set 960 stored in the memory 90 of the controller 30. That is, the associated letter is added to the added letters set 960 if the letter is the first letter of the word to be assembled. Otherwise, if the associated letter is a subsequent letter of the word to be 20 assembled, at step 130, the letter determiner 860 implemented by the processor 80 determines whether the associated letter is a valid subsequent letter that validly continues from the letter or letters stored in the added letters set 960. If the letter determiner 860 determines that the associated letter is 25 a valid subsequent letter, the letter added 880 adds the associated letter to the added letters set 960. At step 160, the word locator 830 implemented by the processor 80 locates a set of ValidWords-that is, words that comprises a sequence of letters corresponding to the sequence of letters added to the 30 added letters set 960-from the words of the word database 920 stored in the memory 90, and stores the set of ValidWords in the valid words set 990 of the memory 90. At step 190, the display controller 890 controls the touchscreen 20 to display one or more of the located ValidWords in the ValidWordsPanel 35 230, and modifies the respective keys associated with valid subsequent letters determined by the valid subsequent letters determiner 858 of the word analyzer 850 implemented by the processor 80. The smartphone 10 then awaits the next user - 57 input by the user. Figure 10 is an extension of the flowchart of figure 9, which additionally illustrates the PostKeyCorrection 5 functionality. After the associated letter is added to the added letters set 960 at step 150, at step 162, the word locator 830 additionally locates a set of ValidWords that comprises a sequence of letters corresponding to a subset of the sequence of letters added to the added letters set 960 10 from the words of the word database 920, and stores the set of ValidWords in the valid words set 990 of the memory 90. That is, in addition to the ValidWords comprising a sequence of letters corresponding to the sequence of added letters, the word locator 830 locates ValidWords that comprise only 15 sequence of letters corresponding to a subset of the sequence of added letters. By locating such additional ValidWords, the smartphone 10 assumes that one or more of the added letters are incorrectly added. At step 192, the display controller 890 controls the touchscreen 20 to display one or more of the 20 located ValidWords in the ValidWordsPanel 230, and modifies the respective keys associated with alternative valid subsequent letters determined by the valid subsequent letters determiner 858 to be letters of the AdditionalValidWords that validly continues from the added letters. The smartphone 10 25 then awaits the next user input by the user. Figure 11 is an extension of the flowchart of figure 9, which additionally illustrates the ComposingMode functionality. After the set of ValidWords are located by the 30 word locator 830 at step 160, at step 173, the valid word set size determiner 853 of the word analyzer 850 determines whether or not the set of ValidWords stored in the valid words set 990 consists of only one ValidWord. At step 194, if the valid word set size determiner 853 determines that the valid 35 words set 990 consists of only one ValidWord, the display controller 890 controls the touchscreen 20 to apply a first modification to the display of the ValidWord. Specifically, the display controller 890 controls the touchscreen 20 to - 58 modify the colour of the ValidWord to orange to indicate that the ComposingWord is a AutoCompletableWord. At step 176, if the valid word set size determiner 853 determines that the valid words set 990 consists of not only one ValidWord, the 5 letter number comparator 856 of the word analyzer 850 determines whether or not the ComposingWord (that is, the letters stored in the added letters set 960) has the same number of letters as the PrimaryValidWord. At step 196, if the letter number comparator 856 determines that the 10 ComposingWord has the same number of letters as the PrimaryValidWord, the display controller 890 controls the touchscreen 20 to apply a second modification to the display of the ValidWord. Specifically, the display controller 890 controls the touchscreen 20 to modify the colour of the 15 ValidWord to blue to indicate that the ComposingWord is a AutoCorrectableWord. At step 198, if the letter number comparator 856 determines that the ComposingWord does not have the same number of letters as the PrimaryValidWord, the display controller 890 controls the touchscreen 20 to apply a 20 third modification to the display of the ValidWord. Specifically, the display controller 890 controls the touchscreen 20 to modify the colour of the ValidWord to green to indicate that the ComposingWord is a PreValidWord. The smartphone 10 then awaits the next user input by the user. 25 Figure 12 is an extension of the flowchart of figure 9, which additionally illustrates the PointofDeviation functionality. After the set of ValidWords are located by the word locator 830 at step 160, at step 183, the common letter 30 determiner 859 of the word analyzer 850 determines whether or not each one of the located ValidWords comprises that (i) are common to all of the located ValidWords and (ii) validly continues from the ComposingWord. If the common letter determiner 859 determines that each one of the located 35 ValidWords comprises a sequence of letters that (i) are common to all of the located ValidWords and (ii) validly continues from the ComposingWord, the letter adder 880 adds the sequence of letters to the ComposingWord. The smartphone 10 then - 59 awaits the next user input by the user. Figure 13 is an extension of the flowchart of figure 9, which additionally illustrates the ComputationLinguistics 5 functionality. After the associated letter is added to the added letters set 960 at step 150, at step 163, the word locator 830 determines whether or not the previous word assembled by the user is a noun. The word locator 830 does this by locating the previous assembled from the words stored 10 in the word database 920, and determining whether or not the located word is a noun. The word locator 830 makes the determination by checking the word category or class of the located word. If the word locator 830 determines that the previous word assembled by the user is a noun, the word 15 locator 830 locates only ValidWords that are non-nouns. Specifically, the word locator 830 locates a set of ValidWords that consist of only ValidWords that are non-nouns and that validly continues from the sequence of letters added to the added letters set 960. If the word locator 830 determines 20 that the previous word assembled by the user is not a noun, at step 168, the word locator 830 locates any ValidWords that validly continues from the sequence of letters stored in the added letters set 960. At step 190, the display controller 890 controls the touchscreen 20 to display one or more of the 25 located ValidWords in the ValidWordsPanel 230, and modifies the respective keys associated with valid subsequent letters determined by the valid subsequent letters determiner 858 of the word analyzer 850 implemented by the processor 80. The smartphone 10 then awaits the next user input by the user. In 30 this embodiment, the word locator 830 determines only whether or not a previous word is a noun. However, it is envisaged that the word locator 830 may determine whether or not a word or words other the previous word are nouns in an alternative embodiment. Also, it is envisaged that the word locator 830 35 may locate ValidWords based on a determination other than whether or not a previous word or words is a noun. For example, the word locator 830 may locate only ValidWords that are nouns upon a determination that the previous word is an - 60 adjective. Figure 14 is an extension of the flowchart of figure 9, which additionally illustrates the PreKeyCorrection 5 functionality and the PopUpPreview functionality. After the letter determiner 860 determines that the associated letter (that is, the letter associated with the key corresponding to the user input) is not a valid subsequent letter, at step 131, the key position determiner 863 of the letter determiner 860 10 determines the display position of the key associated with each one of the valid subsequent letters determined by the letter determiner 860, and the closest key determiner 866 of the letter determiner 860 determines one of the keys associated with the valid subsequent letters as a valid 15 subsequent letter key that is displayed closest to the key corresponding to the user input. At step 133, the display controller 890 controls the touchscreen 20 to display a pop up preview of the letter associated with the valid subsequent letter key that is displayed closest to the key corresponding 20 to the user input. At step 151, the letter added 880 adds the previewed letter to the added letters set 960. The word locator 160 then locates a new set of ValidWords based on the sequence of letters of the added letters set 960 (which now includes the previewed letter). 25 Figure 15 is an extension of the flowchart of figure 9, which additionally illustrates one of the AutomaticSystems functionalities. After the letter determiner 860 determines that the associated letter is not a valid subsequent letter, 30 at step 135, the letter determiner 860 determines, based on the ValidWords located by the word locator 830, whether or not the associated letter is a valid further subsequent letter that continues from one or more intermediate characters (for example, a non-alphabetic character such as a non-terminating 35 punctuation mark) which in turn continues from the sequence of letters of the added letters set 960. If the letter determiner 860 determines that the associated letter is a valid further subsequent letter, at step 153, the letter - 61 determiner 860 adds the one or more intermediate characters followed by the associated letter to the added letters set 960. The word locator 160 then locates a new set of ValidWords based on the sequence of letters of the added 5 letters set 960 (which now includes the one or more intermediate characters followed by the associated letter). Figure 16 is an extension of the flowchart of figure 9, which additionally illustrates another one of the 10 AutomaticSystems functionalities. After the letter determiner 860 determines that the associated letter is not a valid subsequent letter, at step 138, the alternative letter locator 869 of the letter determiner 860 locates alternative letter or letters that are associated with the associated letter from 15 the plurality of alternative letters of the alternative letter database 930 stored in the memory 90. If no alternative letter or letters are located by the alternative letter locator 869, the smartphone 10 awaits the next user input by the user. Otherwise, if an alternative letter or alternative 20 letters are located by the alternative letter locator 869, at step 139, the letter determiner 860 determines whether one of the alternative letters correspond to a valid subsequent letter that validly continues from the sequence of letters of the added letters set 960. If the letter determiner 860 25 determines that one of the alternative letters correspond to a valid subsequent letter, the letter adder 880 adds the alternative letter to the added letters set 960 at step 158. The word locator 160 then locates a new set of ValidWords based on the sequence of letters of the added letters set 960 30 (which now includes the alternative letter). Figure 17 is an extension of the flowchart of figure 9, which additionally illustrates yet another one of the AutomaticSystems functionalities. After the keys of the 35 keyboard 280 are displayed on the touchscreen 20 to the user, at step 123, the processor 80 receives, from the user, a user input to assemble text, the user input corresponding to a key associated with a punctuation mark. At step 173, the - 62 processor 80 adds the associated punctuation mark to the text to be assembled by the user stored in the memory 90. At step 175, the processor 80 determines whether or not the associated punctuation mark is a terminating punctuating mark. If the 5 processor 80 determines that the associated punctuation mark is a terminating punctuating mark, the processor 178 adds a space character to the text to be assembled by the user stored in the memory 90. 10 Examples Figure 18A to 18C comprise a series of screenshots illustrating the KeyShading functionality. The screenshots also illustrate some aspects of the KeyPreviewPopup 15 functionality. This series of screen shots illustrates the process of assembling a word using the smartphone 10. Referring to figure 18A, the shaded keys (that is, the keys that are lightly shaded with a blue background via 20 KeyShading) are valid subsequent letters (that is, keys corresponding to letters which represent the next letter in one or more of the ValidWords). For example, three of the ValidWords are "To", "T-Shirt", "The" and "Too". After the letter "T" is input by the user, the word "To" and "Too" both 25 share "o" as the next valid letter, hence the letter "o" is shaded. By the same process, the key/letter "h" is valid as it validly continues from "T" in the word "The". In the example, this process repeats itself for each letter entered, for each distinct word. 30 The ValidWord, "T-shirt" represents a deviation of the process, where the hyphen (non-alphabetic) character, is skipped, and the next alphabetic letter, in this example "s", is considered the next valid subsequent letter (for the given 35 word). As indicated in the figure, the letter "s" is displayed as a valid subsequent letter. As indicated above, the screenshots of figure 18A also - 63 illustrates the KeyPreviewPopup functionality. For example, in the figure, a pop up preview of a letter is displayed on the touchscreen 20 when a user presses the touchscreen 20 at the position of the touchscreen 20 corresponding to the key 5 associated with the letter. The key is displayed in white colour to indicate that the key corresponds to a valid subsequent letter. Referring to figure 18B, the pop up previews of the 10 letters "n" and "g" are in orange colour to indicate that there is only one ValidWord in the valid words set 990 and that the word to be assembled can be automatically completed. The figure also shows an "Add" button 241. Pressing this "Add" button adds the ComposingWord "Testi" as a new word to 15 the memory. Referring to figure 18C, the final three screenshots illustrate that no more valid subsequent letters can be added to the currently composing word. The last screenshot 20 illustrates that pressing the "g" key does not result in a key press being registered, and the pop up preview of the "g" key is in red to indicate that the key/letter is invalid. Also, in the figure, "Testingg" is displayed in the ValidWordsPanel 230 to indicate the form of the ComposingWord had the "g" key 25 been registered. In the implementation illustrated in figures 18A to 18C, pressing the spacebar commits the letters assembled (that is, complete the assembly process for the current word), or the 30 user can hold an InvalidLetterKey to add the letter associated with the InvalidLetterKey (which is a letter that is not a valid subsequent letter). Figures 19A to 19E comprise series of screenshots 35 illustrating the PostKeyCorrection functionality. The screenshots also additionally illustrate aspects of the KeyShading functionality and the ComposingMode functionality.
- 64 In figure 19A, the screenshots illustrate ValidWords that are located based on letters corresponding to keys corresponding to user inputs (that is, based on the actual keys pressed by the user), and valid subsequent letters that 5 are determined only from such ValidWords. This represents an optimised implementation of the KeyShading functionality where only ValidWords can be typed and words are assembled using actual key strokes. 10 Figure 19B comprises a series of screenshots illustrating the PostKeyCorrection feature where additional ValidWords are located based on a subsequence of the added letters (that is, assuming that the added letters contain mistyped letters) in addition to ValidWords located based on the sequence of the 15 added letters. In this implementation, the first two letters of the word currently being composed are used to locate the additional ValidWords based on the proximity of the actual key pressed. Herein, the term QuickFix refers to the implementation of PostKeyCorrection where the first two 20 letters of the word currently being composed are used to locate the additional ValidWords based on the proximity of the actual key pressed. Permutations of keys that are identified as invalid are not used to locate ValidWords. These differences can be seen in the different ValidWord expressed 25 in the previous sequence. For example in the last image of the sequence, we see the word "Resting" is displayed as a ValidWord. In this implementation, there is an increased amount of 30 valid subsequent letters at each step due to the extra permutations and an increase in the number of ValidWords located. In an alternative implementation, AdditionalValidLetterKeys may be shaded darker (not illustrated), but retain the default functionality of a key 35 corresponding to a valid subsequent letter. Also, the priority of a key may be weighted lower. In the example illustrated in figure 19B, in the event - 65 that there is only one ValidWord arising from the letters added by the user but multiple AdditionalValidWords are located because of the PostKeyCorrection functionality, only the ValidWords located based on the letters added by the user 5 are used in the ComposingMode functionality (as shown in Figure 19B). When no ValidWords arising from the letters added by the user are added, the AdditionalValidWords are used. 10 Figure 19C illustrates an implementation of the PostKeyCorrection feature where each letter of the ComposingWord is considered a potential mistyped key. Herein, the term MashMode refers to this implementation. As with the previous implementation in figure 19B, ValidWords are located 15 based on the proximity of keys for each letter of the word to be assembled. In this example the requirement for accurately typed keys/letters is minimised, and the variation in ValidWords is maximised. 20 Figure 19D illustrates another example where the user has pressed the lower portion of the key "t" key. Based on the location of the "t" key the user pressed and the proximity of the "t" to the "F" and "G" keys, AdditionalValidWords-such as "Ft" and "Go"-are located. 25 Referring to figure 19E, the input letters return only one ValidWord located via the QuickFix functionality. In this example, the ComposingMode is triggered, and the colour of the ValidWord indicates that the ValidWord may be automatically 30 corrected to correspond to the PrimaryValidWord (that is, an AutoCorrectableWord). Pressing the spacebar, as indicated in the fourth image, automatically corrects the letters displayed in the ComposingWordArea 210 to correspond to the AutoCorrectableWord. In this example, more steps are required 35 to have the desired word presented as the first ValidWord displayed in the ValidWordsPanel 230 of the touchscreen (that is, the PrimaryValidWord). In turn, the requirement for accurately typed keys/letters is minimised, and the variation - 66 in ValidWords is maximised. Referring to figure 19F, the desired word is "Testing", but every letter of the word is typed inaccurately. This 5 example illustrates the process of locating ValidWords, based on proximity of valid keys/letters. In this example, the letters associated with the keys corresponding to the user inputs received by the smartphone 10 are "Rwarung". However, by considering the proximity of other keys, ValidWords 10 including the desired ValidWord "Testing" are located. In this example, the tolerance is set to approximately 1.8 key widths. The tolerance is set based on the dimensions of the keys of the keyboard, the dimension of a pressing finger, and the dimensions of areas separating the keys of the keyboard. 15 Words previously suggested (for a ComposingWord) may be re evaluated with a further relaxed tolerance. In turn, words with sufficient popularity have a higher tolerance for key press deviation. 20 QuickFix and MashMode incur an additional computation cost on the smartphone. Consequentially, it may be beyond the performance envelope of some devices to, in real-time, to implement these functionalities. It is envisaged that these modes can be restricted to the user, to ensure the device 25 remains responsive. For instance, when the user types quickly enough to overwhelm the device, the location of ValidWords and the determination of valid subsequent letters, can be aborted or suspended until the user has paused or slowed typing, allowing sufficient time to locate ValidWords. Where the mode 30 is disabled by the user, the action can still be initiated by user interaction via the "Up Arrow" button 240, as an aspect of the full-screen ValidWordsPanel. The interface is updated as results are found. The user can be notified by System Notifications, containing further details such as percentage 35 complete, and search parameters incorporating Spell Check algorithms. This notification process may be triggered only for very time consuming tasks.
- 67 Figures 20A and 20B comprise a series of screenshots illustrating the PreKeyCorrection functionality. Like the other figures, the screenshots also illustrate aspects of some of the other functionalities. Referring to figure 20A, a 5 valid subsequent letter is displayed in a pop up preview when a user touches the touchscreen 20 at a position corresponding to a key associated with a letter that is not a valid subsequent letter (that is, an InvalidLetterKey) if the key associated with the valid subsequent letter is within a 10 specified proximity of the key corresponding to the position at which the user touches. This provides the user an opportunity to substitute a mistyped key for the correct key. In this example, the threshold for determining a substitute for a mistype key is derived based on the dimensions of the 15 keyboard, keys of the keyboard, the dimension of a pressing finger, the dimensions of areas separating the keys of the keyboard and the expectation of single dual thumb or all finger usage, accordingly. However, the following factors can additionally or alternatively be taken in account: 20 e Whether the key is associated with a valid subsequent letter determined from a ValidWord located based on all of the letters associated with the keys corresponding to user inputs, or if the key is associated with a valid subsequent letter determined from a ValidWord located 25 based on only some of the letters associated with the keys corresponding to user inputs. The general popularity of the ValidWord from which the key is determined (that is, it can be dependent on how common the ValidWord is). 30 * A valid key can also be substituted for a letter determined from a ValidWord with greater popularity, where the inaccuracy of the initial valid key is outweighed by the popularity and proximity of the more popular valid word. For example, pressing near the edge 35 of a valid key, where an adjacent key has a sufficiently greater popularity and weighting. The process of previewing and selecting a valid - 68 subsequent letters that is displayed closest to the key corresponding to the input letter (that is, the ClosestValidLetterKey) can be overridden by holding an InvalidLetterKey. The pop up preview of the 5 ClosestValidLetterKey is then replaced with the, now selectable, invalid letter. This allows the user to type words that are not in the dictionary. When the user releases the key, the previously un 10 selectable invalid letter is added to the word currently being composed. In this example, the keyboard also subsequently enters a mode where all keys are valid. Herein, the term FreeType refers to this mode. In this example, FreeType mode is indicated by the darkest grey background and the green 15 letter of the keys. FreeType mode allows for any word to be entered (and disables the KeyShading functionality). Referring to figure 20A, the letters added or assembled so far are displayed in the ValidWordsPanel 230 in black. The 20 user may add the word to the word database by pressing the contextual "Add" button (a dialog box will display to the user to select one of the words in the ValidWordsPanel 230 if the user presses the "Add" button) or holding either invalid words displayed on the ValidWordsPanel 230. If a word 25 previously not found in the word database is assembled more than a predefined amount, the word is automatically added to the word database, with preference to an invalid word chosen from the ValidWordsPanel 230. 30 The screenshots of figure 20A illustrate the process of overriding InvalidLetterKey presses and substituting the ClosestValidLetterKey. Specifically, upon the user pressing the InvalidLetterKey "u", and the key/letter "i" is determined as the ClosestValidLetterKey and is displayed in the pop up 35 preview instead of key/letter "u". When the user release the key/letter "u", the "i" letter is committed. Note that in the pop up preview, the red letter 300 - 69 indicates that the preview is a preview of a ClosestValidLetterKey rather than the key actually pressed by the user. 5 Figure 20B comprises a series of screenshots where the user holds the invalid "u" key. As illustrated, the pop up preview changes from the ClosestValidLetterKey "i" to the InvalidLetterKey "u" when the user holds the invalid "u" key. When the user releases the key, the "u" letter is committed, 10 and the FreeType mode is triggered. Also, the letter displayed in the pop up preview is coloured green to indicate that FreeType mode may be triggered upon the user committing the InvalidLetterKey. 15 In figure 20B, some of the keys are associated with letters that are accessible via an indicator tab which indicates to the user that a popup-mini-keyboard may be accessed by holding the key. Also, double-pressing some keys in quick succession (that is, a double press action) may 20 invoke the display of the letters that are accessible via the indicator tab. For example, with respect to the punctuation key, a single press of the key results in a full-stop, but a double press results in a comer. 25 Figures 21A to 21C comprises a further series of screenshots illustrating the PreKeyCorrection functionality. Figure 21A illustrates the case when a user press and release an InvalidLetterKey. Figure 21B illustrates the case when a user press and holds an InvalidLetterKey. Figure 21C 30 illustrates the case when a user press and holds the InvalidLetterKey displaying the popupKeyboard indicator tab 250 for a longer period of time. Figures 22A to 221 illustrate the ContextualKey 35 functionality by having the user press, hold, or long hold the spacebar. Note that the KeyPreviewPopup functionality is disabled in some of the screen shots.
- 70 Figure 22A illustrates the case when the ComposingWord is a PreValidWord. As illustrated, the PrimaryValidWord is coloured in green, and pressing the spacebar commits the letters of the ComposingWord assembled by the user. 5 Figure 22B illustrates the case when the ComposingWord is a AutoCorrectableWord. As illustrated, the PrimaryValidWord is coloured in blue, and pressing the spacebar commits the letters of the ComposingWord assembled by the user. 10 Figure 22C also illustrates the case when the ComposingWord is a AutoCorrectableWord. As illustrated, pressing the spacebar corrects the letters of the ComposingWord assembled by the user if there are any 15 capitalization inconsistencies. Figure 22D illustrates the case when the ComposingWord is a AutoCompletableWord. As illustrated, the PrimaryValidWord is coloured in orange, and pressing the spacebar automatically 20 completes the ComposingWord to the PrimaryValidWord. Figure 22E illustrates the case when the user holds the spacebar. In the first row of screenshots, when the ComposingWord is a PreValidWord, holding the spacebar rapidly 25 inserts spaces (referred to as the RapidSpace action). In the second row of screenshots, when the ComposingWord is a AutoCorrectableWord, holding the spacebar also triggers the RapidSpace action. Note that the RapidSpace action is triggered after the ComposingWord is committed. In another 30 words, the RapidSpace action is expressed when the current ComposingWord has zero letters, that is, after a word has been committed. In this example, the ComposingWord is a AutoCorrectableWord but there are no letters to be corrected. The third row of screenshots illustrates the case when the 35 ComposingWord is a AutoCorrectableWord (in this instance an automatic Capitalisation from "tim" to "Tim") and there is a letter correction. In this example, holding the spacebar will trigger the RetainUncorrection action, replacing the suggested - 71 words in the ValidWordsPanel 230 with the ComposingWord (referred to as a UnCorrected-ComposingWord), rather than the RapidSpace action. This alternate action is indicated to the user by displaying "tim" in black in the second last 5 screenshot, and the tab indicator above the PrimaryValidWord ("Tim") in the ValidWordsPanel 230. Figure 22F continues to illustrates the case when the user holds the spacebar. The first row of screenshots 10 illustrates the case when the ComposingWord is a AutoCorrectableWord (which is derived from a QuickFix or MashMode permutation) and there are a letter correction or corrections, holding the spacebar will trigger the alternative RetainUncorrection action, replacing the PrimaryValidWord with 15 the letters assembled. This alternate action is indicated to the user by displaying "Yest" in black , and the tab indicator above the PrimaryValidWord ("Yest") in the ValidWordsPanel 230. 20 The second and third rows of screenshots illustrate the case when the ComposingWord is a AutoCompletableWord. The screenshots illustrate an alternative action for the spacebar. When the ComposingWord is a AutoCompletableWord, holding the spacebar triggers an action where the letters assembled are 25 committed, overriding the default key press-release action. This allows the user to insert new and unrecognised words, and avoid the ContextualKey functionality to automatically complete the ComposingWord. As illustrated in the second row of the figure, the unknown word of "testi" is committed, where 30 the usual press-release action of the spacebar would insert the whole word "testing". The third row illustrates the same user action in the case when the ComposingWord is both a AutoCompletableWord and a AutoCorrectable word. As illustrated in the figure, the 35 unknown word of "Yesti" is committed, where the usual press release action of the spacebar would insert and autocorrect the whole word "testing". The word "Yesti" is displayed in black in the ValidWordsPanel 230.
- 72 Figure 22G continues to illustrates the case when the user holds the spacebar. The first row of screeshots illustrate the case when the ComposingWord is a 5 AutoCompletableWord and is comprised of letter or letters derived from PreKeyCorrections. As illustrated the in the figure, the unknown word of "testu" is committed, where the letter "u" is corrected to the letter "i", where the letters assembled are "testi". As illustrated, "testi" is displayed 10 in black and a tab indicator is displayed above it in the ValidWordsPanel 230. Holding the spacebar triggers an alternate action where the letters-assembled are committed, overriding the default key press-release action. The second row illustrates the same user action in the case when the 15 ComposingWord is a AutoCorrectableWord (comprising corrections derived from PreKeyCorrections), holding the spacebar will trigger the alternative RetainUncorrection action, replacing the PrimaryValidWord with the ComposingWord. The third row illustrates the same user action in the case when the 20 ComposingWord is a AutoCorrectableWord (comprising corrections derived both from PreKeyCorrections and QuickFix or MashMode permutation). As illustrated, "yesting" is committed (where the usual press-release action of the spacebar would insert the whole word "testing"). 25 Figure 22H comprises further screenshots illustrating the case when the user continues to hold the spacebar (the long hold action) and ComposingWord is a AutoCorrectableWord comprising corrections derived from both PreKeyCorrections and 30 PostKeyCorrection. As displayed in the ValidWordsPanel 230, "Yesting" and the first tab indicator displayed above the PrimarySugestion 231 indicate to the user the availability of the alternate hold spacebar action illustrated in the previous figures. Also note the display of "Yestinf" and the second 35 tab indicator above the PrimaryValidWord. Where both actions are available to the user, the alternative action for the spacebar hold is extended to trigger an additional long-hold action where the ComposingWord is committed, overriding the - 73 default and hold-key action. This allows the user to insert new and unrecognised words, and avoid the ContextualKey functionality to automatically complete the ComposingWord and the PreKeyCorrection operating on the ComposingWord when 5 adding unrecognised words. As illustrated in the figure, the unknown word "yestinf" is committed by the long-hold action, where the usual press-release action of the spacebar would insert the whole word "testing", and the and press-hold release would insert the whole word "yesting". 10 Figure 221 illustrates a special case of the hold spacebar functionality where the user has typed a word that is valid, but another word with higher priority is displayed as the PrimaryValidWord. As illustrated in the figure, the word 15 "I'll" is the PrimaryValidWord. Holding the spacebar will trigger the action where the assembled letters is the PrimaryValidWord, but the word "ill" is committed when the spacebar is released, where the usual press-release action of the spacebar would insert the whole word "I'll". 20 Figures 23A to 23C illustrate the effect of pressing, holding, or double pressing a punctuation mark key. Note that in some of the screen shots, the KeyPreviewPopup functionality is disabled to simplify the diagrams. 25 Figure 23A illustrates the case when the ComposingWord is a AutoCompletableWord. As illustrated, the user has the option of pressing spacebar or the punctuation key to automatically complete the ComposingWord to the 30 PrimaryValidWord. Although not illustrated, note that selecting a sentence terminating punctuation mark (such as the full-stop) will indicate a space is required after the full stop. This action will be triggered when the next key is struck. Also, the figure illustrates that inputting the 35 sentence terminating punctuation mark will trigger the keyboard to display change the keys of the keyboard from being lower-case letter keys to upper-case or capital letter keys. In this respect, it is envisaged that the smartphone 10 can be - 74 configured not to change the keys from lower-case to upper case when the committed valid word contains the full-stop character (for example, with respect to the word "Dr."). 5 Figure 23B illustrates the case when the user holds the punctuation key. As illustrated, this triggers the smartphone to display a popup-mini-keyboard. Figure 23C illustrates the case when the user double 10 presses the punctuation key. As illustrated, this triggers the smartphone to substitute the full-stop with a comer. Figures 24A and 24B comprise screenshots illustrating that a user can, at any point, select a ValidWord from the 15 ValidWordsPanel 230 to automatically correct the ComposingWord if the ComposingWord is a AutoCorrectableWord, or to complete, or correct and complete the ComposingWord if the ComposingWord is a AutoCompletableWord. The action of pressing the word results in the pressed-word being committed as the typed word. 20 That is, the typed letter replaces the word selected, and commits any alterations to the remaining letters. A space is inserted after the word. Also, the smartphone 10 substitutes the space after "Testing" with a punctuation mark upon receiving a user input corresponding to the punctuation mark. 25 Figure 24B illustrates the EditingWords functionality where the cursor has been moved by the user to a position that is considered to be, within the boundaries of a whole word. As illustrated, the letters "ng" in the ComposingWord after 30 the cursor (that is, the WordTail) are replaced with "ny" upon a user selecting a ValidWord from the ValidWordsPanel 230. Pressing delete after this action will restore the original word, and cursor position. 35 Figure 25 illustrates an alternative full-screen mode of the ValidWordsPanel 230. This full-screen mode is triggered by the "Up Arrow" button displayed on the right edge of the compact ValidWordsPanel. This "Up Arrow" button is displayed - 75 when the width of the words contained in the ValidWordsPanel is greater than the width available on screen. Pressing the "Up Arrow" button results in the ValidWordsPanel toggling to full-screen mode, where the ValidWordsPanel expands to the 5 remaining screen area not taken up by the keyboard. This enables the touchscreen 20 to increase the amount of ValidWords that can be displayed. This also provides a greater variety of word with regards to correction tolerance. Also, spellchecking can be triggered by pressing the "More 10 Plus" button 243 when in full-screen mode. The "More Plus" button 243 is displayed when the users pauses while composing a word. It is envisaged that when part of speech (POS) filtering (that is, the ComputationLinguistics functionality) is in effect, suggested words may be grouped on tabs for each 15 POS (this may include an "all" tab). Figures 26A to 26C comprises series of screenshots illustrating the EditingWords functionality. 20 Figure 26A illustrates the case when the ComposingWord is a PreValidWord. As illustrated, pressing the spacebar inserts a space between the WordStem and the WordTail. Figure 26B illustrates the case when the ComposingWord is 25 a AutoCorrectableWord. As illustrated, pressing the spacebar removes the WordTail. Note that this action of removing the WordTail is indicated to the user by underlining the words in the ValidWordsPanel 230 and the grey shading of the WordStem in the ComposingWordArea 210. 30 Figure 26C illustrates the case when the ComposingWord is a AutoCompletableWord. As illustrated, pressing the spacebar removes the WordTail and inserts the PrimaryValidWord. In this case, the resulting word is the same. 35 Figure 26D illustrate the case when the ComposingWord is a PreValidWord. As illustrated, holding the spacebar rapidly inserts spaces between the WordStem and the WordTail until the - 76 user releases the key. Figure 26E illustrates when the ComposingWord is a AutoCompletableWord. As illustrated, holding the spacebar 5 inserts a space but, in contrast to figure 26B, does not remove the WordTail. Figure 26F illustrates the case when the ComposingWord is a AutoCompletableWord. As illustrated, holding the spacebar 10 commits the letters assembled so far by the user, overriding the ContextualKey functionality to automatically complete the ComposingWord. In addition, it removes the WordTail. This is indicated to the user by replacing the words in the ValidWordsPanel with an underlined black-coloured version of 15 the letters assembled so far, and continuing to shade (in grey) the WordStem portion of the ComposingWord. Figure 26G illustrate the case when the ComposingWord is a AutoCompletableWord. As illustrated, long holding the 20 spacebar removes the underline from the words in the ValidWordsPanel 230 and the grey shading of the WordStem portion of the ComposingWord. This result in the same expected action of inserting the letters assembled so far by the user while retaining the WordTail. Note that Figures 26E 25 and 26G both underline the words in the ValidWordsPanel 230 and the grey shading of the WordStem portion of the ComposingWord to indicate the removal, or retention of WordTails. 30 Figure 27 comprises a further series of screenshots illustrating the EditingWords functionality. As illustrated, when editing a word with a WordTail, selecting a letter key removes the WordTail, at the point of the cursor, and insert the desired letter. 35 As illustrated in the first row of the screenshots, pressing the "y" key removes the WordTail "g"; releasing inserts the letter "y". As illustrated in the second row of - 77 the screenshots, there is only one ValidWord-"Texture" pressing the spacebar corrects "Testir" to "Texture". Figures 28A and 28B illustrate that holding a valid key with an indicator tab 250 displayed at the top-right edge of 5 the key results in a popup-mini-keyboard being displayed, and holding an InvalidLetterKey with an indicator tab results in overriding the PostKeyCorrection functionality. As illustrated, holding the InvalidLetterKey triggers a popup mini-keyboard to be displayed. 10 Figure 29 comprises a series of screenshots illustrating the PointofDeviation functionality. In the figure, the "Auto Fill" Button 242 appears on the left edge of the ValidWordsPanel 230. It is displayed contextually, to inform 15 that user that all of the ValidWords share more than one common letter beyond the point of the cursor, (that is, the WordStem). In this example, both words, "Automatic" and "Automatically", share the common letters "atic". When the user presses the "Auto-Fill" button, the common letters are 20 inserted. Figures 30A to 30G illustrate the AutomaticSystems functionality. 25 Figure 30A illustrates that after the user has entered a punctuation mark that requires a space to precede it, a space is automatically inserted before the next letter. Figure 30B illustrates that an automatically inserted 30 space is removed after the user selects a word from the ValidWordsPanel and commits a punctuation mark. Figures 30C and 30D illustrate that when a non-letter character is the next character to be typed in one of the 35 ValidWords, the letter after the non-letter character is substituted for its preceding (non-letter) character. This occurs where there are no other ValidWords with the same letter as the substituted character.
- 78 In Figure 30C, the "r" key is displayed as valid. As illustrated, pressing the "r" key results in the non-letter character being inserted before the letter "r", resulting in a 5 letter and a non-letter character being inserted in one key press. Figure 30D illustrates that a non-letter character can be substituted for the next letter. As illustrated, pressing the 10 "m" key results in the letters "'m" being inserted. The examples in Figures 30C and 30D differ in that the latter has a valid permutation of the word where adding the punctuation immediately (to the assembled letters) would conflict with another valid permutation of the word (that is, "im" could 15 also be "image" in Figure 30D but the only ValidWord for "xr" in Figure 30C is "x-ray"). Figure 30E illustrates that when the user deletes the first letter of a word that is capitalised, the keyboard 20 displays the "capitalised" versions of the keys. This action will not be triggered if the user immediately repeats the add letter, delete sequence of action. Figures 30F and 30G illustrate that when the user presses 25 the delete key after performing any automatic or word modifying action, any modification to the original word are restored. This action will not be triggered if the user immediately repeats the sequence of actions. For example, with respect to a word "testing" that is assembled after the 30 letters "ing" are automatically added, a first delete action will remove the letters "ing". However, selecting the word again and performing a second delete action will remove only the letter "g". 35 Figure 30F illustrates in the case where the committed ComposingWord was originally an AutoCompletableWord. Figure 30G illustrates the case where the committed ComposingWord was originally an AutoCompletableWord and AutoCorrectable, with a - 79 WordTail; performing the delete action restores the original word, and cursor position. In this case the committed word of "Hearing" is restored to "Testing". The cursor is also returned to a position after the fifth letter, restoring the 5 WordTail state. Figure 31A comprises a series of screenshots illustrating that a key of a popup-mini-keyboard may be shaded via the KeyShading functionality when appropriate. 10 Figure 31B comprises a series of screenshots illustrating an AutoCorrection operation where the letter "U" is substituted by the letter "U". 15 Figure 32 comprises a table illustrating the different formats used by the smartphone 10 when implementing the various functionalities. For example, the table indicates that the smartphone 10 modifies the display of one of the suggested words (for example, the PrimaryValidWord) to change 20 the colour of the word to blue when the ComposingWord is a Auto-correct word (that is, a AutoCorrectableWord). Figures 33A to 231 comprise screenshots illustrating an alternative ChordKeys keyboard layout. 25 ChordKeys allows a user to enter text using one hand. When using ChordKeys, keys are triggered via a sequence of actions. Keys are ordered into sets, with varying levels of accessibility, where the most frequently used characters are 30 at the top level of accessibility. Figure 33A comprises a series of screenshots illustrating the selection of one of the Top Level Keys E and T. Specifically, the figure illustrates the selection of the Top 35 Level Key E on the dominant side of the ChordKeys layout. As illustrated, pressing and releasing the Top Level Key E results in the letter E being committed.
- 80 In Figures 33A to 331, the order of the letters in this presentation is a predetermined average, based on an analysis of letter frequency in the English language. The letters can be alternatively arranged to be similar to a QWERTY layout 5 where the Top Level Keys are F and J with letter radiating from the Index Finger Keys, approximating a more familiar layout. Key layout can also be defined by the user. Figure 33B comprises a series of screenshots illustrating 10 the selection of one of the Second Level Keys A, I, 0, N, S, D, H and R on the dominant side of the ChordKeys layout. As illustrated, such keys are accessible with a single stroke gesture. 15 Figure 33C comprises a series of screenshots illustrating the selection of one of the remaining Third Level Keys on the dominant side of the ChordKeys layout. As illustrated, the keys are accessible via an addition secondary level of user action, or additional portion of the tough-input. A two-part 20 stroke gesture or equivalent-user-action, in this case, up, and right, results in the letter M key being triggered. Figure 33D comprises a series of screenshots illustrating an alternative method of selecting one of the Third Level Keys 25 on the dominant side of the ChordKeys layout using two fingers. In the process, the additional finger triggers the interface to replace the letters in the smaller (non-dominant) panel, on the right, changing the keys to those that are revealed, or uncovered, by the first fingers' gesture. 30 Figure 33E comprises a series of screenshots illustrating the selection the Top Level Key T on the non dominant side of the ChordKeys layout. Figure 33F comprises a series of screenshots illustrating that holding the Top Level Key T 35 toggles the dominance of the keyboard, making all second and third level keys accessible from the other side of the keyboard.
- 81 Figure 33G comprises a series of screenshots illustrating the selection a Second Level Key on the non dominant side of the ChordKeys layout. As illustrated, holding the non dominant side of the keyboard toggles the dominant-side of the 5 keyboard. Adding a stroke/gesture leads to second level keys from the non-dominant side of the keyboard. In this instance, the letter S is selected. As with the above example, the user can force the change of dominance (changing between the dominant and non-dominant sides) without waiting for the 10 system to change from the hold action. Figure 33H comprises a series of screenshots illustrating the selection a Third Level Key on the non dominant side of the ChordKeys layout. As illustrated, a third level letter is 15 accessed in the same way for each side-of-dominance, with the addition of the non-dominant hold action if triggered, rather than forced. Figure 331 comprises a series of screenshots illustrating 20 an alternative method of selecting a Third Level Key on the non dominant side of the ChordKeys layout. This two fingered method of accessing a third-level- letter is similar to the non-dominant example, with regards to the rules illustrated throughout these sequences. The second-touch-input is use to 25 perform the secondary portion of the two-part-stroke, triggering Figure 33J comprises a series of screenshots illustrating the KeyShading functionality implemented on the ChordKeys 30 layout where keys corresponding to valid subsequent letters are coloured differently to keys that do not correspond to valid subsequent letters. Figures 34A to 341 comprises screenshots illustrating an 35 alternative RadialKeys keyboard layout. The RadialKeys keyboard layout can be used with a device that is not being held in a completely controllable manor, and - 82 provides an interface to complement, with regards to the compromised accuracy of user input and complementing methods of user inputs available in devices such as game controllers with directional inputs (such as thumbsticks and D-Pads), 5 gyroscopic sensor and/or force sensors. Thus, the RadialKeys layout can be arranged to present the user with a variety of methods to select characters where a tradition ergonomic body position for typing is not available, or desired (for example, when the user is sitting on a couch using a small touchscreen 10 device or using a game controller). Figure 34A comprises a series of screenshots illustrating the selection of one of the keys of the RadialKeys layout by pointing. Specifically, to select a key, the user moves the 15 interactive-circle-selector to the desired key (a stroke action from the centre of the Radial Keyboard to the desired key). The circle selector expands on touch, indicating the process has been initiated. 20 Figure 34B comprises a series of screenshots illustrating an alternative method of selecting one of the keys of the RadialKeys layout by rotation where the user can rotate the Radial Keyboard to the desired key by holding the area indicated and rotate the interface as illustrated. 25 Figure 34C comprises a series of screenshots illustrating a variant of the RadialKeys layout where there is a dominant radial selector and a non-dominant radial selector. If the user presses the non-dominant selector, the second radial 30 selector splits the keys into the two radial selectors. The second band is used to continue a refined selection of the desired character, as illustrated. Figure 34D comprises a series of screenshots illustrating 35 that the user can take advantage of the reduced requirement for accuracy using the dual bands method of input, and also select a letter on the "other side", by using a second finger, as illustrated.
- 83 Figures 34E and 34F comprises two series of screenshots illustrating how the KeyShading functionality may be implemented on the RadialKeys keyboard layout. 5 Figures 35A to 35E comprises series of screenshots illustrating overriding key presses when using a combination of PreKeyCorrection and PostKeyCorrection, subject to the override tolerances set out in Tables K1 and Li below. In 10 these figures, InvalidLetterKeys are shaded in a darker colour than ValidLetterKeys and AdditionalValidLetterKeys. ValidLetterKeys are differentiated from AdditionalValidLetterKeys in that ValidLetterKeys are displayed in bold. ValidLetterKeys are also shaded in a 15 slightly lighter colour than AdditionalValidLetterKeys. As mentioned above, ValidLetterKeys, AdditionalValidLetterKeys and InvalidKeys may additionally or alternatively be differentiated by size (for example, the size of the key), colour (for example, the colour of the key), and/or font 20 attributes (for example, the size of the letter displayed on the key). Figure 35A comprises a series of screenshots illustrating an example where a user presses an AdditionalValidLetterKey 25 ("y") close to a ValidLetterKey ("t"). Specifically, when the user accurately presses the letter "y" key in the fourth screenshot (that is, the first screenshot on the bottom row of screenshots), a KeyPreviewPopup of the AdditionalValidLetterKey ("y") is displayed, the 30 PreKeyCorrection functionality dose not overrides the key press ("y"), the default behaviour. Figure 35B comprises a series of screenshots illustrating another example where a user "inaccurately" presses an 35 AdditionalValidLetterKey ("y") at a position of the key that is close to a ValidLetterKey ("t"). As shown in the fourth and fifth screenshots, not only is the key press ("y") replaced by the ValidLetterKey ("t"), a KeyPreviewPopup of the - 84 ValidLetterKey ("t") is also displayed when the user presses the AdditionalValidLetterKey ("y"), as indicated by 300. Figure 35C comprises a series of screenshots illustrating 5 another example where a user inaccurately presses an InvalidLetterKey ("j") close to both a ValidLetterKey ("i") and an AdditionalValidLetterKey ("n"). As shown in the fifth screenshot (that is, the middle screenshot on the bottom row of screenshots), even though the key press ("j") (as indicated 10 by the pointer location) is closer to the AdditionalValidLetterKey ("n") than the ValidLetterKey ("i"), the PreKeyCorrection functionality overrides the key press with the ValidLetterKey ("i"). 15 Figure 35D comprises a series of screenshots illustrating another example where a user presses an InvalidLetterKey ("k") that is close to four AdditionalValidLetterKeys ("i", "j", "m" and "n"). As shown in the fourth screenshot, the key press ("j") (as indicated by the pointer location) is closer to the 20 AdditionalValidLetterKey ("i") than the other AdditionalValidLetterKeys ("j", "im" and "n") and the key press is corrected with the AdditionalValidLetterKey ("i"). In this instance, the ValidLetterKey ("t")-the only ValidLetterKey in this instance-is the ValidLetterKey that is spatially closest 25 to the key press ("k"), and the word "test" is included as a ValidWord in the ValidWordsPanel 230 as the PrimaryValidWord. Figure 35E comprises a series of screenshots illustrating another example where a user presses an 30 AdditionalValidLetterKey ("a") and there are no neighboring ValidLetterKeys (the only ValidLetterKey in this instance is "t"). Again, the ValidWord "test" corresponding to the ValidLetterKey that is spatially closest to the key press ("k") is displayed in the ValidWordsPanel and in this instance 35 also as the PrimaryValidWord. Tables - 85 As indicated above, the smartphone 10 of the above example is configured to modify the display of the keys or words displayed on the touchscreen 20 during operation. The tables below tabulate the various modifications applied to the 5 various elements displayed by the touchscreen 20. Keyboard: Condition Color of Key letter background associated color with key ValidLetterKey Black(24%) Light Grey(85%) AdditionalValidLetterKey Dark Mid-Light Grey(35%) Grey(80%) InvalidLetterKey Light Grey(70%) Grey(87%) Letter FreeType (Mode) Key Green Dark Grey(61%) Pop up previews: Condition Color of letter Color of associated with ClosestValidLetterKey key when overriding InvalidLetterKey press PreValidWord White Background/Border Alternative Colour (Illustrated as a red letter: top-left) AutoCorrectableWord Blue(Display as Background/Border White in Alternative Colour diagrams) (Illustrated as a red letter: top-left) AutoCompletableWord Orange Background/Border Alternative Colour (Illustrated as a red letter: top-left) - 86 InvalidLetterKey Red None Override Green/FreeType None InvalidLetterKey Preview ValidWordsPanel: Condition Color of the WordTail letters or Indicator words PreValidWord Green Text Underlined AutoCorrectable Word Blue Text Underlined AutoCompletable Word Orange Text Underlined FreeType Mode Black Text Underlined Other(Non Primary-Suggested) Grey Text Underlined Other modifications: Condition Modification WordTail When editing a word, remaining characters of the original word are replaced with the new words remaining characters (from the point of the cursor) WordTail Override Retains the original WordStem, while retaining the remaining letters of the word (from the point of the cursor). A Space character is inserted in between (as the action has been triggered by the spacebar. New Sentence - Auto Capitalise An empty TextField or a terminating punctuation character will automatically trigger the Shift state and display capitalised keys on the - 87 keyboard. New Sentence - Auto Space Entering a terminating punctuation character will automatically trigger the insertion of a Space character is the user strikes a Letter Key after the Punctuation Key, without entering a space character. Punctuation When a word is selected from the ValidWordsPanel, a space is automatically added, this space will be removed when a punctuation character is typed. Retain Caps When the first letter of a Capitalized word is deleted the keyboard is put into Capital Mode. Auto Fill Inserts the common letters where all suggested word share a common group of Next-Letter Characters. The following table lists the action taken by the smartphone 10 in response to user inputs corresponding to system and non-letter keys. 5 Key Types (System and non-character Keys): Key Type Key Name IPress IDouble Press [Press & Hold System Keyboard Toggle No special Display Mode Keyboard Functionalit Alternative Mode y Keyboards(Nu meric Keypad) System Hide Hide No special Open Setting Keyboard Keyboard Functionalit Screen y Edit Shift Toggle Toggle Shift Toggle Shift - 88 Shift Lock Lock Edit Delete Delete No special Try Rapid Functionalit Delete y Punctuation Smart Add Add Display Punctuat Primary Secondary Popup ion Character( Character(Co Punctuation Full Stop) mer) Mini Keyboard The following tables (including tables Al to J2) list the action taken by the smartphone 10 of the above examples in response to user inputs corresponding to letter 5 and punctuation keys. Key Types (Letters and Punctuation): Description ]WordTail [Table (Press) [Table (Release) SpaceBar No Al A2 Single Key - Valid No Bi B2 Single Key - No Cl C2 Invalid Single Key & No Dl D2 Alternatives Valid Single Key & No El E2 Alternatives Invalid SpaceBar Yes Fl F2 Single Key - Valid Yes Gl G2 Single Key - Yes Hl H2 Invalid Single Key & Yes Il 12 Alternatives Valid Single Key & Yes J1 J2 Alternatives Invalid - 89 Table Al: SpaceBar Press, Without WordTail Table PreValidW AutoCorrectableWord AutoCompletableWord Al ord Press -Display -Display -Display Preview(W Preview(Orange) Preview(Orange) hite) note: change to blue Hold -Repeat -Trigger -Set Colour Coding Add Space Condition:onRelease to ComposingWord Add Space -Trigger -Trigger Condition: onRelease Condition:onRelease Add Space Commit ComposingWord -Trigger or UnPreCorrected Condition:onRelease ComposingWord (where Commit ComposingWord exists and or UnPreCorrected ComposingWord does ComposingWord (Where not exist) exists and ComposingWord does not exist) Long n/a -Trigger -Trigger Hold Condition: onRelease Condition: onRelease Commit UnPreCorrected Commit ComposingWord (where UnPreCorrected exists) ComposingWord (where exists) Table A2: SpaceBar Release, Without WordTail Table PreValidW AutoCorrectableWord AutoCompletableWord A2 ord Press -Commit -Commit -Commit Composing PrimaryValidWord PrimaryValidWord Word-Add -Add Space -Add Space Space -Dismiss Preview -Dismiss Preview -Dismiss Preview Hold n/a -if onRelease -if onRelease Condition Trigged: Condition Trigged: Add Space Add Space - 90 -if onRelease -if onRelease Condition Trigged: Condition Trigged: Commit Commit ComposingWord/UnPreCo ComposingWord/ rrected-ComposingWord UnPreCorrected -Dismiss Preview ComposingWord -Dismiss Preview Long n/a -if onRelease -if onRelease Hold Condition Trigged: Condition Trigged: Add Space Add Space -if onRelease -if onRelease Condition Trigged: Condition Trigged: Commit UnPreCorrected Commit ComposingWord UnPreCorrected ComposingWord Table B1: Single Key - Valid Press, Without WordTail Table PreValidWord AutoCorrectableWor AutoCompletableWor Bi d d Press -Display -Display -Display Preview(White) Preview(Orange) Preview(Orange) note: change to blue Hold n/a n/a n/a Long n/a n/a n/a Hold Table B2: Single Key - Valid Release, Without WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor B2 d Press -Commit Key -Commit Key -Commit Key -Dismiss -Dismiss Preview -Dismiss Preview Preview Hold n/a n/a n/a Long n/a n/a n/a Hold 5 - 91 Table Cl: Single Key - Invalid Press, Without WordTail Table PreValidWord AutoCorrectableW AutoCompletableWor Cl ord d Press -Compute -Compute -Compute ClosestValidLe ClosestValidLett ClosestValidLetter tterKey erKey Key -Display -Display -Display Preview Preview- Preview- ClosestValidLetter ClosestValidLe ClosestValidLett Key (Orange) tterKey erKey (Orange) note: Change (White) note: change to background/border note: Change blue to alt colour and background/bor note: Change display invalid der to alt background/borde letter in corner colour and r to alt colour to indicate, display and display closest valid invalid letter invalid letter Displayed. in corner to in corner to indicate, indicate, closest valid closest valid Displayed. Displayed. Hold -Override -Override -Override ClosestValidLe ClosestValidLett ClosestValidLetter tterKey erKey Key -Display -Display -Display Preview(Green/ Preview(Green/Fr Preview(Green/Free FreeType eeType preview). Type preview). preview). -Trigger -Trigger -Trigger Condition: FreeTy Condition: FreeType Condition:Free pe onRelease onRelease Type onRelease Long n/a n/a n/a Hold Table C2: Single Key - Invalid Release, Without WordTail Table PreValidWord AutoCorrectableW AutoCompletableWor C2 ord d Press -Commit -Commit -Commit - 92 Key (ClosestValid Key (ClosestValid Key (ClosestValidLe LetterKey) LetterKey) tterKey) -Dismiss Preview -Dismiss Preview -Dismiss Preview Hold -Set FreeType -Set FreeType -Set FreeType Mode (Override Mode (Override Mode (Override Key Key Shading) Key Shading) Shading) -Commit -Commit -Commit Key (Raw/Invalid) Key (Raw/Invalid) Key (Raw/Invalid) -Dismiss Preview -Dismiss Preview -Dismiss Preview Long n/a n/a n/a Hold Table Dl: Single Key & Alternatives - Valid Press, Without WordTail Table PreValidWord AutoCorrectableWord AutoCompletableW Dl ord Press -Display -Display -Display Preview (White) Preview(Orange) Preview(Orange) note: change to blue Hold -Dismiss -Dismiss Preview -Dismiss Preview Preview -Display Popup Mini- -Display Popup -Display Popup Keyboard for Mini-Keyboard Mini-Keyboard Alternative for Alternative for Alternative Characters Characters Characters Long n/a n/a n/a Hold 5 Table D2: Single Key & Alternatives - Valid Release, Without WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor D2 d Press -Commit Key -Commit Key -Commit Key -Dismiss -Dismiss Preview -Dismiss Preview Preview Hold n/a n/a n/a Long n/a n/a n/a Hold - 93 Table El: Single Key & Alternatives - Invalid Press, Without WordTail Table PreValidWord AutoCorrectableWo AutoCompletableWor El rd d Press -Compute -Compute -Compute ClosestValidLe ClosestValidLette ClosestValidLetter tterKey rKey Key -Display -Display Preview- -Display Preview Preview- ClosestValidLette ClosestValidLetter ClosestValidLe rKey (Orange) Key (Orange) tterKey note: change to note: Change (White) blue background/border note: Change note: Change to alt colour to background/bor background/border indicate, closest der to alt to alt colour to valid Displayed. colour to indicate, closest indicate, valid Displayed. closest valid Displayed. Hold -Override -Override -Override ClosestValidLe ClosestValidLette ClosestValidLetter tterKey rKey Key -Display -Display -Display Preview(Green/ Preview(Green/Fre Preview(Green/Free FreeType eType preview). Type preview). preview). -Trigger -Trigger -Trigger Condition:FreeTyp Condition:FreeType Condition:Free e onRelease onRelease Type onRelease Long -Display Popup -Display Popup -Display Popup Hold Mini-Keyboard Mini-Keyboard for Mini-Keyboard for for Alternative Alternative Alternative Characters Characters Characters 5 Table E2: Single Key & Alternatives - Invalid Release, Without WordTail - 94 Table PreValidWord AutoCorrectableWord AutoCompletableWor E2 d Press -Commit -Commit -Commit Key (ClosestVa Key (ClosestValidLet Key (ClosestValidLe lidLetterKey) terKey) tterKey) -Dismiss -Dismiss Preview -Dismiss Preview Preview Hold -if onRelease -if onRelease -if onRelease Condition:Set Condition:Set Condition:Set FreeType Mode FreeType Mode FreeType Mode Timeout Timeout Timeout Valid (Overrid Valid(Override Key Valid(Override Key e Key Shading) Shading) Shading) -Commit -Commit -Commit Key (Raw/Invalid) Key (Raw/Invalid) Key (Raw/Inval -Dismiss Preview -Dismiss Preview id) -Dismiss Preview Long n/a n/a n/a Hold Table Fl: Spacebar Press, With WordTail Table PreValidWord AutoCorrectableWor AutoCompletableWord Fl d Press -Display -Display -Display Preview(Whit Preview(Orange) Preview(Orange) e) note: change to blue Hold -Repeat Add -OverRide Default -Set Colour Coding Space Behaviour (Repeat to ComposingWord -Retain Add Space) -Trigger WordTail -Clear WordTail Condition:onRelease Indicator(ValidWor Add Space ds Underlined) -Trigger -Trigger Condition:onRelease Condition:OnReleas Commit - 95 e-Retain wordTail ComposingWord Long n/a n/a -Clear WordTail Hold Indicator (Clear ValidWords Underlined) -Trigger Condition:OnRelease -Retain wordTail Table F2: Spacebar Release, With WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor F2 d Press -Commit -Commit -Commit ComposingWord PrimaryValidWord PrimaryValidWord -Add Space -Add Space -Add Space -Indirect -Clear WordTail -Clear WordTail Retain -Dismiss Preview -Dismiss Preview WordTail -Dismiss Preview Hold n/a -if onRelease -if onRelease Condition Trigged: Condition Trigged: Add Space Add Space -if onRelease -if onRelease Condition Trigged: Condition Trigged: Commit Commit ComposingWord ComposingWord -Retain WordTail -Clear WordTail -Dismiss Preview -Dismiss Preview Long n/a n/a -if onRelease Hold Condition Trigged: Commit ComposingWord -if onRelease Condition Trigged: Add Space -if onRelease - 96 Condition Trigged: Retain wordTail -Dismiss Preview Table G1: Single Key - Valid Press, With WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor G1 d Press -Display -Display -Display Preview (Whit Preview(Orange) Preview(Orange) e) note: change to blue Hold n/a n/a n/a Long n/a n/a n/a Hold Table G2: Single Key - Valid Release, With WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor G2 d Press -Remove -Remove WordTail -Remove WordTail WordTail -Commit Key -Commit Key -Commit Key -Dismiss Preview -Dismiss Preview -Dismiss Preview Hold n/a n/a n/a Long n/a n/a n/a Hold 5 Table Hi: Single Key - Invalid Press, With WordTail Table PreValidWord AutoCorrectableW AutoCompletableWor Hi ord d Press -Compute -Compute -Compute ClosestValidLet ClosestValidLett ClosestValidLetter terKey erKey Key -Display -Display -Display Preview Preview- Preview- ClosestValidLetter ClosestValidLet ClosestValidLett Key (Orange) terKey (White) erKey (Orange) note: Change note: Change note: change to background/border background/bord blue to alt colour to - 97 er to alt note: Change indicate, closest colour to background/borde valid Displayed. indicate, r to alt colour closest valid to indicate, Displayed. closest valid Displayed. Hold -Override -Override -Override ClosestValidLet ClosestValidLett ClosestValidLetter terKey erKey Key -Display -Display -Display Preview(Green/F Preview(Green/Fr Preview(Green/Free reeType eeType preview). Type preview). preview). -Trigger -Trigger -Trigger Condition:FreeTy Condition:FreeType Condition:FreeT pe onRelease onRelease ype onRelease Long n/a n/a n/a Hold Table H2: Single Key - Invalid Release, With WordTail Table PreValidWord AutoCorrectableWor AutoCompletableWor H2 d d Press -Commit -Commit -Commit Key (ClosestVal Key (ClosestValidLe Key (ClosestValidLe idLetterKey) tterKey) tterKey) -Dismiss -Dismiss Preview -Dismiss Preview Preview Hold -Set FreeType -Set FreeType -Set FreeType Mode (Override Mode (Override Key Mode (Override Key Key Shading) Shading) Shading) -Commit Key -Commit Key -Commit Key -Dismiss -Dismiss Preview -Dismiss Preview Preview Long n/a n/a n/a Hold Table I1: Single Key & Alternatives - Valid Press, With 5 WordTail - 98 Table PreValidWord AutoCorrectableWor AutoCompletableWord I1 d Press -Display -Display -Display Preview (White Preview(Orange) Preview(Orange) note: change to blue Hold -Dismiss -Dismiss Preview -Dismiss Preview Preview -Display Popup- -Display Popup -Display Mini-Keyboard for Mini-Keyboard for Popup-Mini- Alternative Alternative Keyboard for Characters Characters Alternative Characters Long n/a n/a n/a Hold Table 12: Single Key & Alternatives - Valid Release, With WordTail Table PreValidWord AutoCorrectableWord AutoCompletableWor 12 d Press -Commit Key -Commit Key -Commit Key -Dismiss -Dismiss Preview -Dismiss Preview Preview Hold n/a n/a n/a Long n/a n/a n/a Hold 5 Table J1: Single Key & Alternatives - Invalid Press, With WordTail Table PreValidWord AutoCorrectabl AutoCompletableWord Ji eWord Press -Compute -Compute -Compute ClosestValidLett ClosestValidLe ClosestValidLetterK erKey tterKey ey -Display -Display -Display Preview Preview- Preview- ClosestValidLetterK ClosestValidLett ClosestValidLe ey (Orange) erKey (White) tterKey note: Change - 99 note: Change (Orange) background/border background/borde note: change to alt colour to r to alt colour to blue indicate, closest to indicate, note: Change valid Displayed. closest valid background/bor Displayed. der to alt colour to indicate, closest valid Displayed. Hold -Override -Override -Override ClosestValidLett ClosestValidLe ClosestValidLetterK erKey tterKey ey -Display -Display -Display Preview Preview(Green/Fr Preview(Green/ (Green/FreeType eeType preview). FreeType preview). -Trigger preview). -Trigger Condition:FreeTy -Trigger Condition:FreeType pe onRelease Condition:Free onRelease Type onRelease Long -Display Popup- -Display -Display Popup Hold Mini-Keyboard Popup-Mini- Mini-Keyboard for for Alternative Keyboard for Alternative Characters Alternative Characters Characters Table J2: Single Key & Alternatives - Invalid Release, With WordTail Table PreValidWord AutoCorrectableWor AutoCompletableW J2 d ord Press -Commit -Commit -Commit Key(ClosestValid Key(ClosestValidLe Key(ClosestValid LetterKey) tterKey) LetterKey) -Dismiss Preview -Dismiss Preview -Dismiss Preview Hold -if onRelease -if onRelease -if onRelease Condition:Set Condition:Set Condition:Set FreeType Mode FreeType Mode FreeType Mode Timeout Timeout Timeout - 100 Valid(Override Valid(Override Key Valid(Override Key Shading) Shading) Key Shading) -Commit Key -Commit Key -Commit Key -Dismiss Preview -Dismiss Preview -Dismiss Preview Long n/a n/a n/a Hold With respect to the above table, where there is no valid keys available, invalid keys may be added (for example, as UnPreCorrected-ComposingWords). 5 Also, with respect to the above tables, any trigger condition or conditions are cleared after each user input. Also, with respect to the key presses, an extra long hold key press overrides a long hold key press which in turn overrides 10 a hold key press which in turn overrides a normal key press (that is, non-hold key press). Table K1: Override tolerances when using a combination of PreKeyCorrection and PostKeyCorrection Table K1 [Override tolerance When key press is a n/a ValidLetterKey When key press is an Override with a ValidLetterKey if AdditionalValidLetterKey the key press (that is, the AdditionalValidLetterKey) is within 1/3 width (approximately) beyond key edges of the ValidLetterKey When key press is an Override with the closest InValidKey ValidLetterKey (that is, the ValidLetterKey closest to the key press (that is, the InValidKey)) if the key press is within a separation distance from the closest ValidLetterKey, the separation distance being 2/3 of the distance separating the closest ValidLetterKey - 101 and the closest AdditionalValidLetterKey Table Li: Keys that will be considered when overriding a key press, when using a combination of PreKeyCorrection and PostKeyCorrection Table Li Key count upper limit threshold ValidLettersKeys 2 (or more as defined by a program variable) closest ValidLetterKeys to the key press AdditionalValidLettersKeys all AdditionalValidLetterKeys within a spatial threshold (as defined by a program variable) 5 It will be understood to persons skilled in the art of the invention that many modifications may be made without departing from the spirit and scope of the invention, in particular it will be apparent that certain functionalities of 10 embodiments of the invention can be employed to form further embodiments. It is to be understood that any reference to prior art made herein does not constitute an admission that the prior 15 art formed or forms a part of the common general knowledge in the art in Australia or in any other country. In the claims which follow and in the preceding description of the invention, except where the context 20 requires otherwise due to express language or necessary implication, the word "comprise" or variations such as "comprises" or "comprising" is used in an inclusive sense, i.e. to specify the presence of the stated functionalities but not to preclude the presence or addition of further 25 functionalities in various embodiments of the invention.

权利要求:
Claims (37)
[1] 1. A method of assembling a word comprising a sequence of word components according to one or more word assembly 5 conventions, the method comprising: a memory storing a sequence of one or more word components of the word; a word locator of a processor locating a set of one or more valid words from a plurality of possible words stored in 10 a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; the processor receiving a user input from a keyboard device having a plurality of keys respectively associated with 15 a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; a word component determiner of the processor determining that a user input word component is a valid subsequent word component that validly continues from the sequence of word 20 components stored in the memory based on the set of valid words located by the word locator, the user input word component being the possible word component associated with the key of the keyboard device corresponding to the user input received by the processor; and 25 a word component adder of the processor adding the user input word component to the stored sequence of word components of the word.
[2] 2. A method as claimed in claim 1, further comprising: 30 a display controller of the processor controlling a display to display the keys of the keyboard device; and in response to the word locator locating the set of valid words: the word component determiner determining a set of 35 one or more valid subsequent word components based on the set of valid words located by the word locator, wherein each valid subsequent word component validly continues from the sequence of word components stored in the memory; and - 103 the display controller controlling the display to modify the display of the key associated with each valid subsequent word component. 5
[3] 3. A method as claimed in claim 2, further comprising the display controller controlling the display to display one or more, or all, of the valid words located by the word locator, in response to the word locator locating the set of valid words. 10
[4] 4. A method as claimed in any one of the preceding claims, wherein each word component is a Latin alphabetic letter.
[5] 5. A method as claimed in any one of the preceding claims, 15 wherein the possible word components comprise the 26 Latin alphabetic letters.
[6] 6. A method as claimed in any one of claims 1 to 3, wherein the word is a logographic character, and each word component 20 is a character stroke.
[7] 7. A method as claimed in any one of the preceding claims, wherein the keyboard device is a software-implemented keyboard displayed on a display. 25
[8] 8. A method as claimed in any one of the preceding claims, further comprising: in response to the processor receiving the user input, the word locator locating a set of one or more additional 30 valid words from the plurality of possible words stored in the words database, each additional valid word comprises a sequence of one or more word components corresponding to a subset of the sequence of word components stored in the memory. 35
[9] 9. A method as claimed in claim 8, further comprising the display controller controlling the display to display one or more, or all, of the additional valid words located by the - 104 word locator.
[10] 10. A method as claimed in any one of claims 3 to 9, further comprising: 5 in response to the word locator locating the set of valid words: a valid word set size determiner of the processor determining that the set of valid words consists of only one valid word; and 10 the display controller controlling the display to modify the display of the valid word.
[11] 11. A method as claimed in claim 8 or 9, further comprising: in response to the word locator locating the set of 15 additional valid words: a valid word set size determiner determining that the set of additional valid words consists of only one additional valid word, the display controller controlling the display to modify the display of the additional valid word. 20
[12] 12. A method as claimed in any one of claims 3 to 11, further comprising: in response to the word component adder adding a word component to the sequence of word components stored in the 25 memory: a letter number comparator of the processor determining that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and 30 the display controller controlling the display to modify the display of the valid word that has the same number of word components as the stored sequence of word components of the word. 35
[13] 13. A method as claimed in any one of claims 3 to 11, further comprising: in response to the word component adder adding a word component to the sequence of word components stored in the - 105 memory: a letter number comparator of the processor determining that the stored sequence of word components of the word does not have the same number of word components as one 5 of the set of valid words; and the display controller controlling the display to modify the display of the valid word that does not have the same number of word components as the stored sequence of word components of the word. 10
[14] 14. A method as claimed in any one of the preceding claims, further comprising: in response to the word locator locating the set of more than one valid words: 15 a common word component determiner of the processor determining that each of the valid words comprises a sequence of one or more common subsequent valid word components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the 20 memory; and the character adder adding the sequence of common subsequent valid word components to the sequence of word components stored in the memory. 25
[15] 15. A method as claimed in any one of the preceding claims, wherein: each of the possible words stored in the words database is categorized into one of a plurality of word categories; and the set of valid words located by the word locator is 30 based on the word category of a previous assembled word.
[16] 16. A controller for assembling a word comprising a sequence of word components according to one or more word assembly conventions, the controller comprising: 35 a memory for storing a sequence of one or more word components of the word; and a processor arranged to: locate a set of one or more valid words from a - 106 plurality of possible words stored in a words database, each valid word comprising a sequence of one or more word components corresponding to the sequence of word components stored in the memory; 5 receive a user input from a keyboard device having a plurality of keys respectively associated with a plurality of possible word components, the received user input corresponding to one of the keys of the keyboard device; determine that a user input word component is a 10 valid subsequent word component that validly continues from the sequence of word components stored in the memory based on the located set of valid words, the user input word component being the possible word component associated with the key of the keyboard device corresponding to the user input received 15 by the processor; and add the user input word component to the stored sequence of word components of the word.
[17] 17. A controller as claimed in claim 16, wherein the 20 processor is further arranged to: control a display to display the keys of the keyboard device; and in response to a location of the set of valid words: determine a set of one or more valid subsequent word 25 components based on the set of valid words located by the word locator, wherein each valid subsequent word component validly continues from the sequence of word components stored in the memory; and control the display to modify the display of the key 30 associated with each valid subsequent word component.
[18] 18. A controller as claimed in claim 17, wherein the processor is further arranged to control the display to display one or more, or all, of the located valid words, in 35 response to a location of the set of valid words.
[19] 19. A controller as claimed in any one of claims 16 to 18, wherein each word component is a Latin alphabetic letter. - 107
[20] 20. A controller as claimed in any one of claims 16 to 19, wherein the possible word components comprise the 26 Latin alphabetic letters. 5
[21] 21. A controller as claimed in any one of claims 16 to 18, wherein the word is a logographic character, and each word component is a character stroke. 10
[22] 22. A controller as claimed in any one of claims 16 to 21, wherein the keyboard device is a software-implemented keyboard displayed on a display.
[23] 23. A controller as claimed in any one of claims 16 to 22, 15 wherein the processor is further arranged to: in response to a receipt of the user input, locate a set of one or more additional valid words from the plurality of possible words stored in the words database, each additional valid word comprises a sequence of one or more word components 20 corresponding to a subset of the sequence of word components stored in the memory.
[24] 24. A controller as claimed in claim 23, wherein the processor is further arranged to control the display to 25 display one or more, or all, of the located additional valid words.
[25] 25. A controller as claimed in any one of claims 18 to 24, wherein the processor is further arranged to: 30 in response to a location of the set of valid words: determine that the set of valid words consists of only one valid word; and control the display to modify the display of the valid word. 35
[26] 26. A controller as claimed in claim 23 or 24, wherein the processor is further arranged to: in response to a location of the set of additional valid - 108 words: determine that the set of additional valid words consists of only one additional valid word; and control the display to modify the display of the 5 additional valid word.
[27] 27. A controller as claimed in any one of claims 18 to 26, wherein the processor is further arranged to: in response an adding of a word component to the sequence 10 of word components stored in the memory: determine that the stored sequence of word components of the word has the same number of word components as one of the set of valid words; and control the display to modify the display of the 15 valid word that has the same number of word components as the stored sequence of word components of the word.
[28] 28. A controller as claimed in any one of claims 18 to 26, wherein the processor is further arranged to: 20 in response an adding of a word component to the sequence of word components stored in the memory: determine that the stored sequence of word components of the word does not have the same number of word components as one of the set of valid words; and 25 control the display to modify the display of the valid word that does not have the same number of word components as the stored sequence of word components of the word. 30
[29] 29. A controller as claimed in any one of claims 16 to 28, wherein the processor is further arranged to: in response a location of more than one valid words: determine that each of the valid words comprises a sequence of one or more common subsequent valid word 35 components that (i) are common to all valid words, and that (ii) validly continue from the sequence of word components stored in the memory; and add the sequence of common subsequent valid word - 109 components to the sequence of word components stored in the memory.
[30] 30. A controller as claimed in any one of claims 16 to 29, 5 wherein: each of the possible words stored in the words database is categorized into one of a plurality of word categories; and the location of the set of valid words is based on the word category of a previous assembled word. 10
[31] 31. Computer program code which when executed implements a method as claimed in any one of claims 1 to 15.
[32] 32. A computer readable medium comprising computer program 15 code as claimed in claim 31.
[33] 33. A device comprising a controller as claimed in any one claims 16 to 30. 20
[34] 34. A device as claimed in claim 33, wherein the device is a smartphone.
[35] 35. A method substantially as herein described with reference to the accompanying drawings. 25
[36] 36. A controller substantially as herein described with reference to the accompanying drawings.
[37] 37. A device substantially as herein described with reference 30 to the accompanying drawings.

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公开号 | 公开日

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IL235774A|2018-07-31|

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EP2856285A1|2015-04-08|

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AU2013204311B2|2016-09-29|

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PH12014502640B1|2015-01-26|

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IL235774D0|2015-01-29|

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PH12014502640A1|2015-01-26|

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ZA201408753B|2016-08-31|

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US10380153B2|2019-08-13|

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IN2014MN02403A|2015-08-21|

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CN104412204A|2015-03-11|

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EP2856285A4|2015-11-25|

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CA2874394C|2020-12-22|

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CA2874394A1|2013-12-05|

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NZ701828A|2017-05-26|

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JP2015520458A|2015-07-16|

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JP6219935B2|2017-10-25|

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US20150134642A1|2015-05-14|

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WO2013177624A1|2013-12-05|

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法律状态:
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AU2012902255A|AU2012902255A0||2012-05-30|Methods, Controllers and Devices for Assembling a Word|

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US14/403,564| US10380153B2|2012-05-30|2013-05-30|Methods, controllers and devices for assembling a word|

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