USRE44913E1

Movatterモバイル変換

Info

Publication number: USRE44913E1
Application number: US13/955,345
Authority: US
Inventors: Matthew J. Bickerton
Original assignee: Koninklijke Philips NV
Current assignee: Koninklijke Philips NV
Priority date: 2001-06-30
Filing date: 2013-07-31
Publication date: 2014-05-27
Also published as: WO2003005179A1; JP2004534318A; GB0116083D0; EP1405164A1; CN1692328A; KR20030027105A; US6885318B2; US20030025616A1

Abstract

A method and device for improved character input are described, wherein the method employs a keypad100 comprising keys102 able to display secondary characters106 in addition to primary characters104. The keypad has a default display state. A first key selection causes the keypad100 to display secondary characters106 associated with the first key on other keys102, whereupon a second key selection causes the displayed character to be input, following which the keypad reverts to displaying the default state. Further secondary characters200 may also be displayed after a first key selection. The method is particularly useful for handheld devices such as mobile radio telephones or handheld computers adapted to implement the method of the invention.

Description

This application claims the benefit or priority of and describes the relationships between the following applications: wherein this application is a reissue of U.S. Pat. No. 6,885,318, issued Apr. 26, 2005, from U.S. patent application Ser. No. 10/156,409, filed May 28, 2002, which claims priority of foreign application GB 0116083.7 filed Jun. 30, 2001, all of which are incorporated herein in whole by reference.

The present invention relates to a method of entering text into a device, and to a device such as a portable radio telephone or a handheld computer suitably adapted to implement said method.

Portable radio telephone, or “mobile phone”, ownership during recent years has been well documented and reported world-wide. Whilst mobile phone networks such as the Global System for Mobile communications (GSM) were originally designed for voice traffic, the sending of text messages using a Short Messaging Service (SMS) via suitably equipped phones has risen dramatically over the past couple of years, with the number of SMS messages sent world-wide on the GSM networks reaching fifteen billion in December 2000. This is in part due to the critical mass of ownership now reached in developed countries and also due to the low and typically fixed costs of sending a text message when compared with a voice call. The popularity of text messaging is also explained by the private and often intimate communication path offered by a text message. The numbers of text messages sent and received by users are forecast to increase even further with the impending introduction of more advanced, so-called 3G (third generation) wireless networks and services, where data, fax and more advanced e-mail services will be available on a 3G mobile phone or suitably equipped handheld computer or personal digital assistant (PDA).

A known method of entering text into devices such as mobile phones involves a user pressing a key on a keypad several times to cycle through characters associated with the key, until the character required is selected. For example, the number “2” key is associated with the characters “abc”, the “3” key with the characters “def”, the “4” key with the characters “ghi”, the “5” key with “jkl” and so on. To select the character “a”, the “2” key is pressed once. To select the character “b” the “2” key is press twice. The character “1” is selected by pressing the “5” key three times and so forth. Special characters (for example full stop, exclamation mark, double quote, dollar, percent, ampersand and star) are produced by tapping the one or zero keys several times until the required special character is selected. This method of entering text, commonly referred to as the “multitap” method is at present almost ubiquitous on mobile phones due to agreed standardisation between mobile phone manufacturers and service providers. Users are therefore very familiar with the multitap keypad layout and character association. However, this method often requires more than two key taps to select a character, and the entering of special characters can take many key taps. The method is therefore slow and prone to error.

An alternative method of inputting text to a device is disclosed in U.S. Pat. No. 5,128,672 wherein the device comprises a dynamic predictive keyboard which is graphically represented on a touch sensitive display. A user inputs a character by pressing a key with the required character displayed on it. Following a character input, software provided within the device formulates a prediction, based on statistical analysis of the make-up and composition of English words of the next most likely character required by the user and consequently the layout of the keyboard is altered such that said most likely character is displayed on the keyboard. This has the problem that the keyboard does not resemble the multitap keypad familiar to mobile phone users, thereby presenting an unfamiliar interface to the average user. This problem is further compounded since in use the constant changing of the keyboard layout necessitates much practice and learning for proficient and quick text entry. Furthermore, the access and input of special characters is a problem unsolved by the predictive means of U.S. Pat. No. 5,128,672.

It is therefore an aim of the present invention to provide an improved method of entering characters into a device such as a mobile phone or handheld computer. It is a further aim of the present invention to provide a method consistent with a keypad with which mobile phone users are familiar.

According to a first aspect of the present invention there is provided a method for inputting a character to a device, the device comprising a keypad, the keypad comprising a plurality of keys, at least one of which keys has a primary character, a plurality of secondary characters and a display area associated with it, the keypad in a default state displaying the primary character associated with a key in its respective display area, wherein the method comprises the steps of: detecting a first key selection; displaying each of the secondary characters associated with the first selected key in a respective display area; detecting a second key selection; selecting for input the secondary character associated with the second key selection; and returning the keypad to the default state.

According to a second aspect of the present invention there is provided a device for receiving character input, comprising a keypad having a plurality of keys, a key having a primary character, a plurality of secondary characters and a display area associated with it, wherein means are provided for displaying in a default state the primary character associated with a key in its respective display area, means responsive to a first key selection are provided for displaying each of the secondary characters associated with the selected key in a respective display area, and means responsive to a second key selection are provided for selecting as input character the secondary character associated with the second key selected and for returning the keypad to its default state.

The device and method of this invention comprise a keypad having a default display state wherein primary, and optionally secondary, characters are displayed. A user inputs a character by selecting the key having that character as one of its associated secondary characters, following which the keypad displays the required character which is then input via an appropriate second key selection.

In one embodiment of the present invention the keypad is displayed on a touch screen, the touchscreen having an output area for displaying characters input by the user. In this embodiment the display area associated with a key is provided by an area of touchscreen within or adjacent to the graphical representation of the key or button.

In another embodiment of the present invention the associated display area of a key is provided by display means such as a liquid crystal display within or adjacent to the key or button. The display means are arranged such that a displayed character is visible to the user, and hence character association with the key is rendered obvious to the user.

The method and device of this invention provide improved text entry particularly suited to, but not exclusively for, hand held devices such as portable mobile radio telephones, personal digital assistants, pocket computers and remote control handsets.

Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying figures in which:

FIG. 1 depicts a default display state of a keypad for use with the present invention.

FIG. 2 illustrates an example of the characters displayed on the keypad after a first key selection.

FIG. 3 depicts an example of a device made in accordance with the present invention.

FIG. 4 is a schematic diagram of components of the device ofFIG. 3.

FIG. 5 is a flow diagram illustrating a basic implementation of a method according to the present invention.

FIG. 6 depicts an alternative default display state of a keypad for use with the present invention.

In the figures the same reference numerals have been used to indicate corresponding features.

FIG. 1 depicts akeypad100 in a default display state wherein twelvekeys102 are arranged in four rows of three keys. Each key has aprimary character104 and a plurality ofsecondary characters106 associated with it. Theprimary character104 displayed on eachkey102 is, in this embodiment, selected from the group of

characters

1, 2, 3, 4, 5, 6, 7, 8, 9, 0, # and *. Thesecondary characters106 associated with each key are shown in groups adjacent the respective key. The secondary character groupings in this embodiment are similar to those of the multitap method, for example the key associated with primary character “2” has an associated secondary character grouping “abc”, the key “3” the associated secondary characters “def” and so on as shown in the figure. Hence, the default display state of thekeypad100 as shown inFIG. 1 presents to the user a keypad having a well known key and character layout, thereby necessitating little or no familiarisation.

FIG. 2 illustrates a possible display state of thekeypad100 after a first key selection by a user, the selected key in this example being the “5” key (the key associated with the primary character “5” and secondary characters “jkl”). The secondary character “j” is displayed by the display area associated with a neighbouring key, in this example the key associated with the primary character “4” adjacent the “5” key. Similarly, the secondary characters “k” and “l”, associated with the first key selection, are displayed respectively on the keys previously displaying “2” and “6” as primary characters. In this example the remaining keys have displayed upon themfurther characters200 which are useful for text entry. For example characters representing an exclamation mark, a double quote, a pound, a dollar sign, left and right brackets, a percentage symbol and a caret may be displayed as shown inFIG. 2.

A second key selection from the keypad ofFIG. 2 selects the character displayed on the display area associated with said second key for input. Following a character input, the keypad ofFIG. 2 is returned to the default display state as shown inFIG. 1.

The key selections are typically provided by a user's finger or stylus and may comprise the user tapping a first key followed by the user tapping a second key. Alternatively, the user may make a second key selection by sliding or dragging said finger or stylus across the keypad from the first key to the second key and pausing on, or removing the finger or stylus from, the required second key.

The dynamic keypad states illustrated inFIG. 1 andFIG. 2 provide a method of quick and accurate character input wherein secondary characters are available with only two key selections. Additionally the method is intuitive and requires little or no learning by the user due to the provision of a familiar default keypad display state.

An embodiment of a device employing the keypad and features of this method and made in accordance with the present invention is shown inFIG. 3. The figure depicts a hand-held device300 such as a personal digital assistant (PDA) or sometimes called a handheld computer. The device comprises atouchscreen302 comprising touch input means arranged to detect touch input upon a surface of a display means (such as a liquid crystal or organic light emitting diode display). The touchscreen in this embodiment displays akeypad100 to the user within atouch input region302a of the touchscreen, whilstinput characters304 are displayed in anoutput region302b of thetouchscreen302. InFIG. 3 thekeypad100 is shown in the second display state ofFIG. 2, wherein a first key selection of the key “5” has occurred and the keypad awaits a second key selection to input a character. The device further comprisescontrol buttons306 provided to power up the device or change mode of usage for example. Additionally the handheld device may incorporate means (not shown onFIG. 3) to transmit and receive data including voice and text messaging wirelessly via a suitable network.

The device300 further comprises components adapted for carrying out a method in accordance with the present invention, these components being schematically represented inFIG. 4. The relevant components comprise a computer program (PRG) and processing means in the form of a general purpose microprocessor400 (μP). The computer program is stored in computer readable storage media402 (MEM), the PRG comprising instructions to instruct the microprocessor (μP)400 to carry out the steps of a method according to the present invention. It is noted herewith that although the processing means of this embodiment comprise a general purpose microprocessor, other suitable forms of processing means such as dedicated logic circuits, PICmicro® chips or application specific integrated circuits (ASIC) operating with or without a computer program could be employed in alternative embodiments.

InFIG. 4 there is also provided thetouchscreen302, the touchscreen able to display a keypad100 (KP) and detect touch input for inputting characters. In this embodiment the display area associated with each key102 of thekeypad100 is provided by an area oftouchscreen302 within or adjacent to the graphical representation of the key102. p Additionally, one or more key character tables (KCT) are provided withinMEM402. A KCT provides information to the microprocessor relating to the default keypad to be displayed on the touchscreen, and also provides the primary and secondary characters which are to be displayed upon a first key selection.

An example of a KCT is presented below (Table 1).

TABLE 1

KEY	PRIMARY CHARACTER	SECONDARY CHARACTER(S)

1	1	Not used
2	2	abc
3	3	def
4	4	ghi
5	5	jkl
6	6	mno
7	7	pqrs
8	8	tuv
9	9	wxyz
0	0	Not used
*	*	Not used
#	#	Not used

Table 1 thereby provides primary and secondary characters to the microprocessor which, under the guidance of PRG instructs the touchscreen to display these characters in the appropriate locations to build up a default keypad display state corresponding toFIG. 1 and Table 1.

	TABLE 2

		DISPLAYSECONDARY
	KEY	CHARACTER


	1	!
	2	k
	3	″
	4	j
	5	5
	6	1
	7	£
	8	$
	9	%
	0	{circumflex over ( )}
	*	(
	#	)

This KCT provides the characters displayed upon a first key selection corresponding tokey 5 thereby providing a second keypad display state as shown inFIG. 2.

In operation, themicroprocessor400, under the guidance of PRG looks up the default key character assignations stored inMEM402 as a KCT (for example the KCT of Table 1) and instructs thetouchscreen302 to display thekeypad100 in a default display state. The touchscreen is sampled repeatedly until a first key selection is detected, following which the appropriate characters to be displayed are retrieved from an appropriate stored KCT (e.g. Table 2) by the microprocessor and provided to the touchscreen which updates thekeypad100 displayed. Following these operations the touchscreen is sampled repeatedly for a second key selection.

Upon detection of a second key selection themicroprocessor400 compares the key selected with the displayed KCT (Table 2 for example) and returns the input character for display in theoutput region302b of thetouchscreen302. Finally, the microprocessor instructs the touchscreen to display the default keypad and awaits further user interaction.

A flow diagram illustrating the main steps of this method is presented inFIG. 5, the method being performed as a loop, wherein:

- A default keypad is displayed (DIS DEF KP)502
- The keypad is monitored for a first key selection (MON1)504
- Following a first key selection the appropriate characters are displayed on the keypad (DIS 2^ndKP)506
- The keypad is monitored for a second key selection (MON2)508
- Following a second key selection the secondary character associated with the second key selection is returned as an input character (RET CHAR)510
- Loop back to display the default keypad (DIS DEF KP)502

In a further embodiment, the first key selection is reported only after the key is selected by a user for a pre-determined time period, for example a time period of 0.2 seconds. This enables quick tapping to select the default primary characters displayed on a default keypad, thereby allowing fast number entry when required without altering the keypad display state.

According to a further embodiment of this invention, the display of primary or secondary characters associated with a key is achieved by providing an associated display area within, on or situated adjacent to the key. The default assigned secondary characters are provided adjacent to the keys on the keypad, and the user presses the keys to input characters in accordance with a method of this invention.

In a further embodiment of this invention, the default display state of the keypad comprises positioning some of the secondary characters associated with a key such that the key display area upon which a secondary character will be displayed next is indicated to the user. An example of a keypad default display state according to this embodiment is given inFIG. 6 wherein secondary characters are displayed within a key, each secondary character being positioned relative to the key upon which it will appear following a first key selection. For example, the key displaying the primary character “5” has the secondary characters “j”, “k” and “l” positioned to the left, above and right of the “5” respectively. Hence a visual indication of the key upon which each character will appear should the “5” be first selected is provided to the user. In this example the default display state provides an indication that the “j” will appear on the “4” key to the left of the “5” key, as is shown in the example of the keypad inFIG. 2.

In yet a further embodiment of this invention, one or more of the key character tables are alterable, thereby providing a user with the option of customising the keypad to his or her preference.

Whilst the embodiments described hereinbefore apply this invention to handheld devices such as PDAs and mobile phones, it will be apparent to those skilled in the art that the teaching of this invention may also be applied to advantage to devices wherever character input is required, such as remote control handsets or children's learning aids and toys.

Additionally, the characters assigned as primary and or secondary characters may be any characters convenient for the device, language and application chosen, and the keypad may comprise more or less keys displaying more or less characters than those illustrated herein without departing from the spirit and scope of this invention.