FR2986087A1 - Mobile terminal, has tool bar with multiple active controls, where new set of cursors is placed on selectable objects that have not yet received cursor pointer, by short striking on key, so that cursor pointer is received by all objects - Google Patents

Abstract

The terminal has a tool bar in which multiple active controls are placed, where striking of a key (T) identified by an indicator enables placing a cursor pointer (CP) on some of selectable objects (OS). A position indicator (PO) indicates the position occupied by the key, where holding down of the key allows the cursor pointer to move in a direction. A new set of cursors is placed on the selectable objects that have not yet received a cursor pointer, by short striking on the key, so that a cursor pointer is received by all selectable objects for selection.

Description

The invention relates to a mobile terminal consisting of a keyboard and a screen and having no specific pointing device, already described in patents or prior patent applications (02 06510, 06 02047, 06 09193, 08 01489, 09 03351). It consists of a software environment that makes the method of selecting objects on the screen specific to this terminal more efficient and ergonomic. The keyboard has three lines of five keys, each receiving a command, a numeric character and a variable number of alphabetic characters or other symbols relating to the input (Fig. 1). It can therefore be equipped with the ten major navigation commands: Directions (a to V), Correction (4-), Validation (o--), Menu (m), End (), Return (.14) and Continued ( "). During a character input session, the specific command CUR (4>), placed on the key located at the top left of the keyboard, makes it possible to go from the "input" mode to the "command" mode and vice versa, and therefore to give the cursor alternately an input role and shift role. This change of operating mode can also be done by "keyboard shortcuts by long press".

The ambiguity created by the double meaning "command" and "alphanumeric" of each key is raised thanks to a toolbar BA displayed at the bottom of the screen, which receives at any time the "activity indicators" AC of the commands that are actually active on the current screen. A checkerboard effect is created on this keyboard thanks to an alternating coloring of its keys. An object OA of the current screen is said to be "active" when it has "an identity indicator" ID equal to one of the numeric characters of the keyboard and it will actually be activated by a keystroke. the key T whose numerical character is equal to this indicator. The indicator ID occupies on the screen a position "homologous" to that occupied by the key T on the keyboard and its color is also identical to that of the key T, which is said for that "homologue" of the object OA. These two properties greatly facilitate the identification and typing of the T key. The input of a predictive text text on the terminal follows directly from this process by displaying on a TAB table, at each step of the input, words or strings that will then be selected by their "peer" key. In addition to the active objects, the screen may contain non-active but nonetheless selectable OS objects that are referred to as "selectable objects". The selection of such objects can first be done by moving a cursor with the direction controls. The terminal also has a specific software process for selecting these objects "selectable" by indirect pointing. The latter is initialized either by the specific command "POI", placed on the key located at the top left of the keyboard, or as a keyboard shortcut by a long press on one of the keys 1 to 9, the consequence of which is the temporary assignment of a selection indicator to the selectable objects of the screen: the selection of the latter will then continue with a tap on their homologous key. A semi-transparent mask, the same color as this key, is further interposed between the object and the indicator to make it easy to identify the second while maintaining sufficient visibility of the first. Several objects may have been grouped on the screen in a certain area Z so as to receive all the same identity indicator ID (Figure 2). The striking of their homologous key T then causes the placement on some of them of a direction indicator DI which designates the direction in which, with respect to the key T, the key T 'adjacent to T which will designate them (FIG. 3). A strike on the latter will therefore definitely select these objects. If some objects in zone Z have not received indicators, a new key press on the T key will place a new set of indicators on all or part of them, and so on until all Objects received a direction indicator and could thus be selected.

In the previous invention, the direction indicator DI is either placed on the selectable object OS, or next to it (see patent 09 03351). In the first case, certain OS objects must be zoomed in significantly to remain visible despite the placement in the center of their DI indicator. In the second case the user does not know in advance the position occupied by the indicator DI and its location requires the eye an additional perceptual treatment which is very penalizing. It also happens that the configuration and the number of selectable objects does not allow to group them into separate areas: the previous invention then provides no solution to this case. The toolbar according to the previous invention does not give, moreover, the means of knowing whether the long-press shortcuts of the selection methods initialized by the "Cursor" or "Pointer" commands are active on the current screen. Nor does it make it possible to determine whether the direction commands, when active, have the meaning of moving the current cursor towards the object that the user wishes to select or a different meaning. The methods described in the present invention make it possible to avoid these disadvantages. Their advantages will become apparent on reading the description which is given by way of illustrative and nonlimiting example, with reference to the appended figures among which: FIG. 1 presents the keyboard, the toolbar and the method of selecting objects "Active" of the screen, identical in the present invention and in the previous invention, - Figures 2 and 3 illustrate the method of selecting the "selectable" objects of the screen according to the previous invention, - Figures 4 to 5 describe the method of selecting the selectable objects of the screen according to the present invention; FIGS. 6 to 13 describe a variant of the method when the number of objects to be selected on the screen is very large, - FIGS. 14 to 16 illustrate the selection of screen objects when they can not be grouped by separate areas, - Figures 17 and 18 show the two possible forms that indicat The following are the two possible locations that the shortcut permission symbol "o" may have on the toolbar: FIGS. 19 and 20 show the two possible locations of the toolbar according to the invention. By long press of the object selection on the screen, Figures 21 and 22 illustrate the predictive input on the terminal according to the present invention.

The selection by direction indicators of the selectable objects of the same area of the screen differs according to the present invention of the preceding method in that the typing of the T key which controls the zone places on certain OS objects of this zone, not a direction indicator DI, but what will be called a "pointed cursor" CP (Figure 4). This has indeed a point PO on its contour that will be called position indicator. The selection of these OS objects will then continue with a long press on the current key T, the result of which is shown in FIG. 5: a direction indicator is progressively released from the position indicator PO, in the form of an arrow rigorously giving the direction in which is the key T 'which will select each OS object. The eye of the user being placed on the object he wants to designate, he immediately perceives not only the cursor CP which has just surrounded him, but also the point PO, and all the better that last is d a color different from that of the cursor CP. The user of the terminal also knows, after a brief period of use, that the direction indicator DI will "exit" from the position indicator PO and therefore sets it at the moment of the support. long he exerts on the key T: the spurt of the arrow DI gives him the direction that must take his finger on the keyboard, both by the direction that indicates precisely this arrow and its movement in this direction. The position of PO on the contour CP further indicates in advance the position occupied by the key T 'with respect to the key T. Thus the position "north-west" of PO on the cursor surrounding the object OS ( the word "time") in Figure 4 clearly indicates that the corresponding DI direction indicator will be the "north-west" arrow shown in Figure 5. So the user can , as a keyboard shortcut, make the selection of OS by pressing this key T 'in Figure 4. A variant of the method is also to bring out the direction indicators of their position indicator after the flow of a equivalent delay tO to that which defines the long support, thus avoiding the user to carry out the long press on the key T. Another variant finally consists in triggering the spouting of the direction indicators DI as well by a long press the T key only by the flow of the timer tO. Of course, if certain selectable objects have not received indicators, a new typing of the key T will place as in the previous invention a new set of cursors pointed at all or part of them, and so on until that all objects received a cursor and could thus be selected. The selectable objects (words of the text) grouped in the zone 5 of the screen of FIG. 2 are relatively few in number so that they will all be selected by a short sequence of keystrokes of the type <4,5, T> or < 4,5,5, T>. When the number of selectable objects increases, the process becomes long and tedious, because it requires a very large number of intermediate keystrokes on key 5. A variant of the process is then implemented to reduce the total time of selection of the target object. This is the case when selecting a point in an image, illustrated in FIGS. 6 to 13. FIG. 7 thus shows the result of the typing of the "Pointer" command, carried out from FIG. 6 in order to select the "point P". Since zone 5 has about one hundred "selectable" points, a new hit on key 5, if it placed a cursor on eight of these points, should be followed by 12 new keystrokes before all these points were preselected. Instead, it preselects the subzone SZ consisting of all the "points" outside zone 5 which will be called "crown" (Figure 8). The "point P" not being covered by said crown, the user will tap the key 5 again, resulting in a gradual narrowing of the ring inside the box 5 to cover said point. Two strikes will have been enough to do this (Figure 9). The selection of all the points covered by the crown will then continue with a long press on the key 5 or by waiting for the extinction of a delay of equivalent duration. The result is shown in FIG. 10: the "crown" of FIG. 9 has been staked with eight elementary cursors provided with a position indicator, before disappearing as such. The "point P" is not covered by one of them, the user must then type a key (short) on the 5 key, which moves the cursors along the crown by one notch displayed (Figure 11). All of these sliders have been rotated and this rotation is always in the same direction (clockwise), so that the user, knowing in advance which of these sliders will reach "the point P ", can follow his movement as if he were unique. We see that here a single new keystroke on the 5 key will be enough to place on the latter the cursor "north-east" (Figure 12). The "point P" will therefore be definitively selected by a striking on the key 3 situated in the "north-east" of the key 5 (FIG. 13 shows the gushing of the direction indicators obtained after a long press on the key 5 or after the extinguishing an equivalent timer). Six keystrokes, four of which on the same key, will have been sufficient on average to designate any point on the screen of FIG. 6 with an accuracy of one millimeter. Note the perfect duality that exists between this process and the selection of a point by the classic cursor movement with the steering controls. The keystrokes that precede the final selection are repeated on one key instead of four, but it moves several cursors instead of one. The validation of the selection is instead entrusted to several keys (the neighbors of the current key) and not to one (the validation command). The "target" points are defined by their "polar" coordinates and no longer by their Cartesian coordinates.

The subzone SZ selected by the first strikes of a selection among a large number of objects is not necessarily the "crown" of the external objects of the zone Z; on the contrary, it adapts to the configuration of the objects in the zone. If it is a question of selecting the letters of a text, the first sub-zone will consist for example of the first three lines of the text belonging to the zone Z, the second the following three, and so on. The direction indicator selection according to the previous invention assumes that the selectable objects of the screen can be grouped into distinct areas from each other after the "Pointer" command is typed. Thus, the selectable objects of FIG. 2 (words of the text) are grouped in nine separate zones forming a "selection checkerboard" and the user unambiguously knows the key that will allow the selection of the "target" object to be continued. after typing the "Pointer" command. Figure 14 shows instead a configuration of objects that does not allow this division into separate areas and Figures 15 and 16 how the terminal according to the present invention makes it possible to select these objects. FIG. 15 is the result of typing the "Pointer" command from FIG. 14: a nine-zone selection checkerboard has been displayed as in FIG. 2, but it is regular and some of the selectable objects (FIGS. drawing) are straddling several areas of selection. The user is then prompted to select one of those that covers the "target" object. The result of the striking of the key 5 is thus shown in FIG. 16: some of the objects which have a common part with the central zone 5 have received a direction indicator in the form of an arrow. This direction indicator can not always be placed in the center of the object and the user is therefore not able to know in advance the position he occupies on this object, so the outline of the preselected objects is it is strengthened to facilitate the identification of their indicator.

It is also placed on its common part with the zone 5, where the eye of the user is likely to be placed at the moment of the striking of the key 5. It can be seen in FIG. circle C has thus received in its upper part, common with zone 5, a direction indicator DI "upwards". The selection of objects that have not received indicators will of course continue with a new key 5 key.

A new flag AL () is created on the terminal according to the present invention. Its role is to indicate either that the keyboard shortcuts of selection (long press on one of the directional controls) by the command "Cursor" are authorized on the current screen, or that the shortcut keys of selection (long press on one of the keys 1 to 9) by the command "Pointer" are allowed on the current screen.

These shortcut possibilities given to the user are obviously incompatible with each other. The indicator () is therefore placed next to the activity indicator of the toolbar command when it allows the first keyboard shortcut (Figure 17) and on the right side of the toolbar when he authorizes the second (Figure 18).

The steering commands allow, when they are active on the current screen, either to move a cursor or to perform another function such as navigation in a succession of screens, the incrementation of a counter, etc. However, the toolbar according to the preceding invention does not give any explicit means of knowing the exact role of the steering controls when they are displayed on the toolbar BA, hence the risk of error. This disadvantage is raised on the terminal according to the present invention by giving a different shape to the AC activity indicators of the steering controls according to the function they exert on the keyboard. For example, the toolbar in Figure 19 indicates that the steering controls will move a cursor on the screen, while the one in Figure 20 indicates to the contrary that the steering controls have the role of making jumps. screen up or down. The implementation of the selection method for predictive acquisition differs in the present invention from what it is in the previous invention (see patent 08 01489). The new method is illustrated in Figure 21 on the example of the entry of the word "case". It shows the result of the three keystrokes of the predictive input of the word "case", the first of which is the hit of the <ABC> key: the words "compatible" with these keystrokes, "car", "case" and "cap" , were placed on the first row of boxes in the TAB table displayed at the bottom of the screen because they all start with the same letter "c" and the probability that one of them is the word "target" is greater than one of the words beginning with "a" or one of the words beginning with "b". The other compatible words have of course been distributed following the same rule. The final entry of these six words will then be obtained by a long press on their homologous key. In order to facilitate this long press, the box of the table TAB which receives the word "ABS" has received a cursor to mark the homology of position between the finger on the keyboard and this word in the table and to allow the final selection of to take place in a differential mode. The TAB table has no identity indicator, the positional homology being sufficient to clearly indicate the identity of the corresponding key of each of these words. If the first typing stroke occurred on the four-letter <PQRS> or <WXYZ> keys, the compatible words starting with P and Q, or W and X, would then have been grouped on the same line of the TAB array. .

To identify the box where the target word is located, the user will naturally look at the first box of the first row of the table TAB which receives the word which is usually the most common of them. Knowing that the word "case", which begins with the same letter, is on the same line, he will then identify it very easily. The words starting with "b" or "a" will of course be searched for starting with a vertical scan, followed by a possible horizontal scan, all in a few tenths of a second, which is of course much faster than moving as on current terminals a cursor in a group of six words, then validate. The user can also, to select the word "target", start by pressing the space key, then press its peer key. If there is only one compatible word, it will be enough for a short hit on the key <space> to validate the input what will be indicated by a sound or visual signal S1. In the very rare case that the table TAB can not contain all the words compatible with the first keystrokes and that the word "target" does not appear there, the user will activate the contextual command SUI (Continued) by a striking of his counter key "+", which will display a new compatible word game.

Figure 22 shows the result of the first six keystrokes of the predictive seizure according to the invention of the word "characterization". Since no six-letter word is compatible with this sequence of keystrokes, the word-processing software displayed on the board three "compatible" words but of higher weight, including the word "characterization". They will be selected by a long press on one of the three keys homologous to the line they occupy on the checkerboard (the user will most probably choose which of them is closest to the current key). Seven strikes will have allowed access to the word "characterization" instead of sixteen that would have required its complete seizure: fifteen for the word itself, plus the keystroke of the space key. There are also three words that are compatible with the first six keystrokes (characteristic, characterization and characterology): the contextual command SUI, counterpart of the "+" key, will display these words on the checkerboard and the number 1 located before this command indicates that all remaining compatible words are actually viewable in one tap. A sound or visual signal S2 is finally issued by the system software when all the words compatible with the first keystrokes can be accessed by the TAB table faster than by continuing their predictive entry.

Claims (7)

REVENDICATIONS1. Mobile terminal based on the keyboard-screen combination of which CLAIMS1. A mobile terminal based on the keyboard-screen combination whose keys comprise a command, a numerical character and a variable number of alphabetic characters or other symbols relating to the input, in which a specific command CUR is responsible for managing the status of the cursor on the current screen, in which a POI specific command has the role of initializing the selection of the OS objects selectable from the screen, the activation of this command resulting in giving each OS object an "identity indicator" ID which designates the key T whose typing will make it possible to continue the selection, terminal finally having the ability to display at any time a toolbar BA where are placed the active commands on the current screen, characterized in that : a) When more than one OS object on the screen has received the same identity indicator ID after the POI command is typed, typing the T key identified by the ID indicator places r some of these objects a pointer "pointed" CP, that is to say, on its contour with a "position indicator" PO which indicates the position occupied by T T key that will select it , b) a long press on the key T succeeding the first short strike on this key has the consequence of removing from the pointer PO of each cursor CP a direction indicator DI in the direction where the key T 'is by report to the T key, c) a short tap on the T key places a new CP slider set on OS objects that have not yet received a cursor, and so on until all OS objects have received such a cursor and could therefore be selected. 2. Mobile terminal according to claim 1 characterized in that the gushing of the DI direction indicators from their position indicators PO takes place after the extinction of a certain time delay tO. 3. Mobile terminal according to claims 1 and 2 characterized in that the sprouting of the DI direction indicators from their position indicators PO takes place both after a long press of the T key after the extinction of a certain time delay t0. 4. Mobile terminal according to claim 1 characterized in that: a) after selection by its homologous key T of a zone Z of the screen comprising a large number of OS objects, a new key T key preselects collectively the objects belonging to a subzone SZ of the zone Z, b) a short hit on the key T collectively preselects the objects belonging to a new subfield SZ, and so on until all the objects OS have received such a cursor, c) when the object "target" belongs to one of the subzones SZ and successively preselected zone Z, a long press on the key T individually preselects certain points of this sub-zone by placing a cursor pointed at each of these objects, d) new (brief) keystrokes on the T key then collectively move the cursors until one of them reaches the "target" object, e) when the one of the sliders has reached the object "c , a long press on the T key or a time delay tO triggers the spurt of a direction indicator DI from the position indicator PO of this slider. 5. Mobile terminal according to claim 1 characterized in that the toolbar is able to receive, in addition to AC activity indicators, an AL indicator "authorization for selection by long press". When the authorized long press relates to the selection method initialized by the CUR cursor command, this flag is displayed on the toolbar next to the activity indicator location of this command. When the authorized long press concerns the selection process initialized by the POI POI command, this indicator is displayed on the toolbar next to the activity indicator location of this command. 6. Mobile terminal according to claim 1 characterized in that the AC activity indicators of the steering controls are represented on the toolbar BA by different symbols depending on whether their role is to move a cursor on the screen. or are assigned to another function. 7. Mobile terminal according to claim 1, wherein the predictive mode input is effected by displaying the words compatible with the first keystrokes of a word on a TAB counter panel of the nine central keys of the keyboard, characterized in that : a) words compatible with these first keystrokes and beginning with the same letter are grouped together on the same row of boxes in the TAB table, the first line being occupied by the group of words that are collectively the most frequent of the language, the second and the third line receiving the groups of words of lower frequency, b) when the first striking took place on a key having four letters, the words beginning with two of them are grouped on the same row of boxes of the table TAB , c) the position of the finger on the keyboard is marked on the screen by a cursor placed on the square of the TAB board located in a position homologous to this position, d) when there is only a word compatible with the predictive word input, a sound or visual signal S1 is emitted by the terminal to indicate to the user that the final word "target" can be obtained by a single key on the <space> key, e) A box of the table TAB receives a contextual button comprising both a command "Next" and a number, which command makes it possible, when it is active, to display successively the other words compatible with the first keystrokes, which number indicates how many keystrokes on this command will still be necessary to access all these words, f) a sound or visual signal S2 is emitted when all the words compatible with the first keystrokes can be accessed more quickly via the table TAB than by continuing their predictive input. 5