CN101452366A - Information display terminal, information display method and program - Google Patents

Information display terminal, information display method and program Download PDF

Info

Publication number
CN101452366A
CN101452366A CNA200810171373XA CN200810171373A CN101452366A CN 101452366 A CN101452366 A CN 101452366A CN A200810171373X A CNA200810171373X A CN A200810171373XA CN 200810171373 A CN200810171373 A CN 200810171373A CN 101452366 A CN101452366 A CN 101452366A
Authority
CN
China
Prior art keywords
information
display screen
row
obtains
objects
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CNA200810171373XA
Other languages
Chinese (zh)
Other versions
CN101452366B (en
Inventor
宫崎丽子
宫下健
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sony Corp
Original Assignee
Sony Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sony Corp filed Critical Sony Corp
Publication of CN101452366A publication Critical patent/CN101452366A/en
Application granted granted Critical
Publication of CN101452366B publication Critical patent/CN101452366B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Abstract

There is provided an information display terminal for displaying an object of a graphical user interface on a display screen including a first operation information acquiring unit for acquiring first operation information including location information on the display screen via a contact detection surface provided so as to overlap with the display screen; a second operation information acquiring unit for acquiring second operation information including location information on the display screen via a contact detection surface provided on a surface on the side opposite to the display screen; and a display controlling unit for controlling the display of the object on the display screen on the basis of the acquired first operation information and second operation information. As a result, an information display terminal having excellent visibility and operability, which can provide an operating environment where intuitive operation is possible, can be provided.

Description

Message Display Terminal, method for information display and program
The cross reference of related application
The present invention comprises the Japanese patent application JP 2007-317720 theme of submitting in Jap.P. office with on Dec 7th, 2007 and on July 4th, 2008 relevant with JP 2008-175839, incorporates its full content into this paper at this with way of reference.
Technical field
The present invention relates to Message Display Terminal, method for information display and program.
Background technology
Known graphic user interface (GUI), can be operated in described operating environment intuitively as a kind of user interface that operating environment with fabulous visuality and operability is provided.GUI, arranges the object such as window, icon and menu on the table as desktop with the bitmap screen of computing machine, thereby can utilize fixed-point apparatus such as mouse or Trackpad freely to operate the object of arrangement.At present, described desktop is realized as virtual three dimensional space, thereby, can set up the operating environment such as real world, and the visual and improved three-dimensional GUI of operability is put to put into practice.
In the three-dimensional GUI of prior art, by operation, specify or mobile object, thereby can operate and change the viewpoint of projective object in virtual three dimensional space, and show the object of appointment the object in the virtual three dimensional space.
Here, being in not the projection plane that viewpoint is carried out under the state of any operation is the benchmark projection plane, and the left and right directions on the display screen that shows under the benchmark projection plane state is the x axle, and above-below direction is the y axle, and depth direction is the z axle.In this case, by utilization be presented on the display screen, with the indicator of the operational contact of fixed-point apparatus, can carry out the object on x axle and the y axle and the operation of viewpoint, thereby on display screen, specify specific point, perhaps mobile object under the state of specifying specified point.
Summary of the invention
Simultaneously, by the stand-alone interface (device) that is different from the fixed-point apparatus that is used for the operation of x axle and y axle is provided,, carry out the object on the z axle and the operation of viewpoint on display screen such as GUI button and specific operating key.In this case, carry out operation on x axle and the y axle intuitively, simultaneously, utilize interface (device) independently to carry out operation on the z axle by utilizing fixed-point apparatus or analog, so, the operating environment that intuitive operation can be provided lost.
In addition, in the fixed-point apparatus of prior art, under the situation that the specified point of appointment is moved, detect the translational acceleration of fixed-point apparatus, and moving according to the translational acceleration control indicator that detects.But, in this interface (device), in GUI button that provides for the operation on the z axle or specific keys, under the situation that the specified point of appointment is moved, can not detect the translational acceleration of interface (device).
In addition, especially in three-dimensional GUI, form in virtual three dimensional space under the situation of many objects, the object that approaches the viewpoint that virtual three dimensional space is projected onto of front stops the object of the viewpoint that is projected onto away from virtual three dimensional space of back easily.So, on the display screen such as the appointment of special object or the difficulty that becomes of the operation moving, visual and operability reduction.In addition, for forming overlappingly under the situation of a plurality of objects at display screen upper edge depth direction, two-dimentional GUI also can produce identical problem.
In addition,,, usually, specify a group, specify an object that is included in specified group afterwards no matter the interface is three-dimensional GUI or two-dimentional GUI selecting under the situation of special object the group objects from a plurality of minutes.But, in three-dimensional GUI,, be difficult to seamlessly designated groups and object owing to the restriction of operating environment and display environment in some cases.
A kind of Message Display Terminal with fabulous visuality and operability preferably is provided, method for information display and program, they can provide a kind of intuitive operation that makes to become possible operating environment.
According to the first embodiment of the present invention, provide a kind of on display screen the Message Display Terminal of the object of display graphics user interface, comprise: the first operation information acquisition unit, be used for by with the contact detection surface of the overlapping setting of display screen, obtain to comprise first operation information of the positional information on the display screen; The second operation information acquisition unit is used for by the contact detection surface that is arranged on the opposite side surface with display screen, obtains to comprise second operation information of the positional information on the display screen; And indicative control unit, be used for according to first operation information and second operation information that obtain, the demonstration of controlling object on display screen.
In this configuration, first operation information that comprises the positional information on the display screen is to obtain by the contact detection surface with the overlapping setting of display screen, and second operation information that comprises the positional information on the display screen is to obtain by the contact detection surface that is arranged on an opposite side with display screen.In addition, according to first and second operation informations that obtain, the demonstration of controlling object on display screen.Thereby, according to by being arranged on the display screen and being arranged on two operation informations that two contact detection surface on the opposite side surface with display screen obtains, the demonstration of controlling object on display screen, so, can provide a kind of intuitive operation that makes to become possible operating environment.
In addition, can above-mentioned object be arranged in the three-dimensional coordinate space according to the distinctive three-dimensional coordinate information of object, the demonstration of indicative control unit controllable objects on display screen, this display screen is the surface that the three-dimensional coordinate space is projected onto.Thereby, can controlling object as the demonstration on the display screen on the surface in projection three-dimensional coordinate space, so, can be provided for the operating environment of three-dimensional GUI.
In addition, the a plurality of objects that comprise above-mentioned object can form object row, in the direction overlapping arrangement of object described in these object row along first coordinate axis in three-dimensional coordinate space, one of first operation information and second operation information can comprise first scrolling information that obtains according to the exposure level that detects on the contact detection surface, indicative control unit can be according to the positional information that is included in first operation information or second operation information, the appointed object row, and show control, make a plurality of objects that are included in the appointed object row according to first scrolling information that obtains direction rolling in the first coordinate axis upper edge.Thereby, show Be Controlled, thereby be included in first scrolling information that a plurality of objects bases in the object row obtain according to the exposure level that detects that on the contact detection surface direction is rolled in the first coordinate axis upper edge.Therefore, the user can carry out rolling operation to object intuitively in three-dimensional GUI.
In addition, in first operation information and second operation information another can comprise second scrolling information that obtains according to the exposure level that detects on the contact detection surface, indicative control unit can show control, make a plurality of objects that are included in the appointed object row according to second scrolling information that obtains, roll at the first coordinate axis upper edge other direction.Thereby, but show Be Controlled, thus be included in first and second mobile messages that a plurality of objects bases in the object row obtain according to the exposure level that detects on the contact detection surface, roll at the first coordinate upper edge both direction.Therefore, the user can carry out rolling operation to object intuitively in three-dimensional GUI.
In addition, can obtain exposure level, as the contact strength that detects on the contact detection surface, indicative control unit can show control, thereby surpasses under the situation of predetermined threshold in contact strength, and a plurality of objects roll.Thereby, but show Be Controlled, thus surpass under the situation of predetermined threshold in contact strength, and object rolls, so, can import the instruction of rolling operation intuitively.
In addition, can obtain exposure level, as the detection duration of the contact that detects on the contact detection surface, indicative control unit can be according to the detection duration of contact, and control makes the acceleration of the demonstration of a plurality of objects rollings.Thereby, can be according to the detection duration of contact, the roll acceleration of demonstration of described object of control, so, can improve the operability of rolling operation.
In addition, can obtain exposure level, as the area of detection of the contact that detects on the contact detection surface, indicative control unit can be according to the area of detection of contact, and control makes the acceleration of the demonstration of a plurality of objects rollings.Thereby, can be according to the area of detection of contact, the acceleration of the demonstration of the described object of control rolling, so, by continuously changing contact area, the acceleration of demonstration can be changed, thereby the operability of rolling operation can be further improved.
In addition, a plurality of objects can form the object row along the overlapping arrangement of direction of first coordinate axis in the three-dimensional coordinate space, first operation information can comprise the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, second operation information can comprise second origin information that obtains simultaneously with the first dot information, with second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, indicative control unit can be according to the first dot information that obtains, on display screen, specify the top object that is included in the special object row, according to second origin information that obtains, appointment is included in the rearmost object in the object row, first endpoint information that link obtains and the position of top object migration, and second endpoint information of link acquisition and the position of rearmost object migration, thereby control shows, thereby a plurality of objects that are included in the above-mentioned object row move in perpendicular to the plane of first coordinate axis.Thereby, first and second origin information and first and second endpoint information that can obtain according to mobile status from the contact point that detects on the contact detection surface, show control, thereby a plurality of objects that are included in the object row move in perpendicular to the plane of first coordinate axis.Therefore, the user can avoid visuality and operability to reduce because of stopping of object among the three-dimensional GUI.
In addition, first operation information described above can comprise the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, second operation information can comprise second origin information that obtains simultaneously with the first dot information and second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, indicative control unit can calculate the variable quantity of the angle between the shifting axle that the reference axis that obtains from the first dot information that obtains and second origin information and first endpoint information and second endpoint information from acquisition obtain, and change the angle of the axle that connects viewpoint and reference point according to the variable quantity of the angle of calculating, described viewpoint is represented the summit, foremost as the cone of the vision external form in projection three-dimensional coordinate space, reference point is represented the center of projection surface, change under the state of angle of axle thereby be controlled at respect to the three-dimensional coordinate space, object is as the demonstration on the display screen of projection surface.Thereby, first and second origin information and first and second endpoint information that obtain according to mobile status from the contact point that detects on the contact detection surface, can be controlled under the reformed state of viewpoint the demonstration of object on the display screen on the surface in conduct projection three-dimensional coordinate space.Therefore, the user can operate the viewpoint among the three-dimensional GUI intuitively.
In addition, can be according to the distinctive two-dimensional coordinate information of object, on the two-dimensional coordinate plane, form above-mentioned object, a plurality of objects formations are listed as with a plurality of objects object that partly overlapping at least mode is arranged on display screen, first operation information can comprise the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, second operation information can comprise second origin information that obtains simultaneously with the first dot information, with second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects, indicative control unit can be according to the first dot information that obtains, on display screen, specify the top object that is included in the special object row, according to second origin information that obtains, appointment is included in the rearmost object in the object row, first endpoint information that link obtains and the position of top object migration, and second endpoint information of link acquisition and the position of rearmost object migration, thereby control shows, the a plurality of objects that are included in the object row are moved, and change the overlapping degree between the object.Thereby, first and second origin information and first and second endpoint information that can obtain according to mobile status from the contact point that detects on the contact detection surface, control shows, thereby a plurality of objects that are included in the object row move, and change the overlapping degree between the object simultaneously.Therefore, the user can avoid visuality and operability to reduce because of stopping of object among the two-dimentional GUI.
In addition, can be arranged on first operational zone of the lip-deep operand of contact detection on the display screen less than conduct as second operational zone that is arranged on the lip-deep operand of contact detection on the opposite side surface with display screen, indicative control unit can be adjusted, and makes positional information from the display screen that second operational zone obtains corresponding to the positional information on the display screen that obtains first operational zone.Thereby, can adjust, make positional information on the display screen that obtains from second operational zone corresponding to the positional information on the display screen that obtains from first operational zone, so the user can avoid operability to reduce because of the difference of operational zone scope.
In addition, also can provide an operational zone information setting unit, be used for second operation information that obtains according to for each user, be provided for specifying the operational zone information of the scope of second operational zone.Thereby, the scope of second operational zone can be set each user, so, each user's operability can be improved.
In addition, also can provide an operational zone information memory cell, be used to preserve the operational zone information that the unit setting is set by the operational zone.Response is from specific user's change request, and indicative control unit can be read specific user's operational zone information from the operational zone information memory cell, and the scope of second operational zone is set.Thereby, can be each user's setting and the scope of preserving second operational zone, can set the scope of second operational zone for each user, so, can improve each user's operability.
In addition, also can provide an operational zone information memory cell, be used to preserve a plurality of operational zones information that conforms to the direction of using display screen.Indicative control unit can determine to use the direction of display screen, reads the operational zone information that conforms to the direction of using display screen from the operational zone information memory cell, and the scope of second operational zone is set.Thereby the scope that can preserve second operational zone according to the direction of using display screen can be provided with the scope of second operational zone according to definite result of the direction of using display screen, so, can improve the operability of each use occasion.
In addition, above-mentioned indicative control unit can determine to use the direction of display screen according to second operation information that obtains from the user.Thereby, can determine use the direction of display screen according to second operation information, so, the operability of every kind of use occasion can easily be improved.
In addition, also can provide an acceleration transducer.Indicative control unit can determine to use the direction of display screen according to the testing result of acceleration transducer.Thereby, according to the testing result of acceleration transducer, can determine to use the direction of display screen, so, the operability of every kind of use occasion can be improved.
In addition, a plurality of objects form object row, can be arranged in the state that initial position and described a plurality of object be arranged in sliding position with overlapping at least and show this object row according to a plurality of objects are superimposed, indicative control unit can be according to being included in the primary importance information in first operation information and/or being included in the state that obtains of the second place information in second operation information, show state with the object row, control is used for the demonstration of operand row and is used to operate the demonstration of the object that constitutes the object row.Thereby, can be according to first and/or the show state of the state that obtains of second place information and object row, control is used for the demonstration of operand row and object, so, can seamlessly carry out the operation that is listed as about object and about the operation of object.
In addition, the demonstration of indicative control unit controllable objects row, thereby therein after foundation primary importance information appointed object row, a plurality of objects of formation object row are displayed on initial position or are presented under the state of sliding position, obtain under the situation of second place information, in the schedule time of response after obtaining second place information, the continuous variation of the primary importance information that obtains continuously, lap between the object changes, and a plurality of object is moved.Thereby in the lap that changes between the object, a plurality of objects move and are shown with the continuous variation of the corresponding to primary importance information of show state that the state that obtains and object with positional information are listed as.Therefore, the lap between the object is changed and shows, thereby, can confirm to constitute a plurality of objects that object is listed as.
In addition, at a plurality of objects that place above-mentioned object row with overlapping at least, the object that is placed in the front side on display screen is compared with the object that places rear side and is shown biglyyer, the demonstration of indicative control unit controllable objects row, so that the continuous variation of the primary importance information that response obtains continuously, a plurality of objects are moved, change the lap between the object simultaneously, lap between the object is more little, object is just more towards preceding side shifting and be shown greatly more, and the lap between the object is big more, and object just moves and is shown more for a short time towards rear side more.Thereby in the lap that changes between the object, a plurality of objects move with the continuous variation of primary importance information, subsequently according to the lap between the object towards the front side or rear side move so that be shown.Therefore, for demonstration, the lap between the object and the arrangement of fore-and-aft direction can be changed, thereby, can confirm to form a plurality of objects that object is listed as.
In addition, at a plurality of objects that place above-mentioned object row with overlapping at least, the object that is placed in the front side on display screen is compared with the object that places rear side and is shown biglyyer, the demonstration of indicative control unit controllable objects row, so that do not arrange under the situation about showing overlappingly at a plurality of objects that form the object row, a plurality of objects move to the foremost, thereby with the demonstration of being tabulated of identical size.Thereby a plurality of objects move to the foremost, and with the demonstration of being tabulated of identical size, so, can operate object not reducing under the visual situation.
In addition, the demonstration of above-mentioned indicative control unit controllable objects row, thus when object during towards preceding side shifting, a plurality of objects quilts are shown biglyyer.Thereby when a plurality of objects during further towards preceding side shifting, their are shown biglyyer, so, can operate object, and not reduce operability.
In addition, the demonstration of above-mentioned indicative control unit controllable objects, thus therein under the state that a plurality of objects are shown by tabulating, under the situation according to primary importance information appointed object, the content of display object.Thereby, under a plurality of objects are tabulated the state that shows, show the content of appointed object, so, can operate object, and not reduce visuality and operability.
In addition, the demonstration of above-mentioned indicative control unit controllable objects row, thereby therein after foundation primary importance information appointed object row, show at sliding position under the state of a plurality of objects that form the object row, do not obtain under the situation of first and second positional informations in the given time, the a plurality of objects that form the object row move to initial position, and overlapping arrangement.Thereby a plurality of objects that form the object row move to initial position, and are aligned to overlappingly, obtain positional information unless be displayed at a plurality of objects under the state of sliding position, so, can avoid reducing visuality because of stopping of object.
In addition, the demonstration of above-mentioned indicative control unit controllable objects row, so that object is listed as along with after foundation primary importance information appointed object row, a plurality of objects of formation object row are displayed on the continuous variation of the primary importance information that obtains continuously under the state of initial position and move.Thereby a plurality of objects are along with moving and be shown with the continuous variation of the corresponding to primary importance information of show state of the state that obtains of positional information and object row, so, can carry out move operation to the object row.
In addition, the demonstration of above-mentioned indicative control unit controllable objects, so that when after foundation primary importance information appointed object row, when under a plurality of objects that form the object row are displayed on the state of initial position, having obtained the primary importance information of appointed object row not or second place information, form in a plurality of objects of appointed object row one object as focus under the situation that obtains primary importance information, transfer to another object that places one of this object front side or rear side on the display screen, under the situation that obtains second place information, transfer to another object that places this object of focus front side or rear side opposite side on the display screen.Thereby, under the state that is displayed at a plurality of objects in the initial position, when obtaining first or second mobile message, according to this mobile message, the focus on a plurality of objects or transfer to the front side is perhaps transferred to rear side, so, can carry out focusing operation to object intuitively.
According to the second embodiment of the present invention, provide a kind of on display screen the method for information display of the object of display graphics user interface, described method comprises the steps: by obtaining to comprise first operation information of the positional information on the display screen with the contact detection surface of the overlapping setting of display screen; By the contact detection surface that is arranged on the opposite side surface with display screen, obtain to comprise second operation information of the positional information on the display screen; With first operation information and second operation information according to acquisition, the demonstration of controlling object on display screen.
According to the third embodiment of the present invention, a kind of program is provided, described program makes the method for information display of computing machine execution according to above-mentioned second embodiment of the present invention.
According to embodiments of the invention described above, a kind of Message Display Terminal with fabulous visuality and operability can be provided, method for information display and program, they provide and make intuitive operation become possible operating environment.
Description of drawings
Figure 1A is the diagrammatic sketch of expression according to the Message Display Terminal of the first embodiment of the present invention;
Figure 1B is the diagrammatic sketch of expression according to the Message Display Terminal of the first embodiment of the present invention;
Fig. 2 is the block scheme of configuration of the major function of expression Message Display Terminal;
Fig. 3 is the diagrammatic sketch of the display screen of graphic extension Message Display Terminal;
Fig. 4 A is the diagrammatic sketch of distinctive first function of expression Message Display Terminal;
Fig. 4 B is the diagrammatic sketch of distinctive first function of expression Message Display Terminal;
Fig. 4 C is the diagrammatic sketch of distinctive first function of expression Message Display Terminal;
Fig. 5 A is the diagrammatic sketch of distinctive second function of expression Message Display Terminal;
Fig. 5 B is the diagrammatic sketch of distinctive second function of expression Message Display Terminal;
Fig. 5 C is the diagrammatic sketch of distinctive second function of expression Message Display Terminal;
Fig. 5 D is the diagrammatic sketch of distinctive second function of expression Message Display Terminal;
Fig. 6 is the diagrammatic sketch of distinctive the 3rd function of expression Message Display Terminal;
Fig. 7 is the diagrammatic sketch that is illustrated in the display screen under the reformed state of viewpoint that throws the three-dimensional coordinate space;
Fig. 8 is the diagrammatic sketch that is illustrated in the display screen under the reformed state of viewpoint that throws the three-dimensional coordinate space;
Fig. 9 A is the diagrammatic sketch of distinctive the 4th function of expression Message Display Terminal;
Fig. 9 B is the diagrammatic sketch of distinctive the 4th function of expression Message Display Terminal;
Figure 10 is the diagrammatic sketch that is illustrated in according to the demonstration on the touch pad of the Message Display Terminal of the second embodiment of the present invention (the initial state that shows);
Figure 11 A is the diagrammatic sketch of graphic extension about the slide (state that the initial state that shows → tabulation shows) of object row;
Figure 11 B is the diagrammatic sketch of graphic extension about the slide (state that the initial state that shows → tabulation shows) of object row;
Figure 11 C is the diagrammatic sketch of graphic extension about the slide (state that the initial state that shows → tabulation shows) of object row;
Figure 11 D is the diagrammatic sketch of graphic extension about the slide (state that the initial state that shows → tabulation shows) of object row;
Figure 12 A is the diagrammatic sketch of graphic extension about the slide (state that the state that tabulation shows → content shows) of object row;
Figure 12 B is the diagrammatic sketch of graphic extension about the slide (state that the state that tabulation shows → content shows) of object row;
Figure 13 A is the diagrammatic sketch of graphic extension about the slide (state → initial state that shows that slides and show) of object row;
Figure 13 B is the diagrammatic sketch of graphic extension about the slide (state → initial state that shows that slides and show) of object row;
Figure 14 is the diagrammatic sketch of the expression demonstration relevant with slide (state that slides and show);
Figure 15 is the diagrammatic sketch of the expression demonstration relevant with slide (state that slides and show);
Figure 16 is the diagrammatic sketch of the expression demonstration relevant with slide (state that tabulation shows);
Figure 17 is the diagrammatic sketch of the expression demonstration relevant with slide (state that content shows);
Figure 18 A is the diagrammatic sketch of graphic extension about the move operation of object row;
Figure 18 B is the diagrammatic sketch of graphic extension about the move operation of object row;
Figure 19 A is the diagrammatic sketch of graphic extension about the focusing operation of object;
Figure 19 B is the diagrammatic sketch of graphic extension about the focusing operation of object;
Figure 19 C is the diagrammatic sketch of graphic extension about the focusing operation of object;
Figure 19 D is the diagrammatic sketch of graphic extension about the focusing operation of object;
Figure 20 is illustrated in object to be listed as the process flow diagram that is changed into the operating process under the situation of list display state from initial show state;
Figure 21 is the process flow diagram of expression to the flow process of the operation of the row of the object under the list display state.
Embodiment
Below, with preferred embodiment of the present invention will be described in detail by reference to the drawing.Notice that in instructions and accompanying drawing, the structural detail with basic identical function and structure represents that with identical Reference numeral the repeat specification of these structural details is omitted.
<the first embodiment 〉
(configuration of Message Display Terminal 100)
Figure 1A and 1B are the diagrammatic sketch of expression according to the Message Display Terminal 100 of the first embodiment of the present invention.
Message Display Terminal 100 is a kind of portable sets, for example the portable data assistance such as PDA (personal digital assistant) or communicator, mobile terminals or portable music player terminal.As shown in Figure 1A and 1B, Message Display Terminal 100 has the main body that is flat type, and as shown in Figure 1A and 1B, is provided with touch pad 110 on a surface of main body, is provided with Trackpad 120 on another surface opposite with touch pad 110.
Touch pad 110 is the fixed-point apparatus that are used for input primary importance information on display screen 114, combines feeler 112 (for example matrix switch) and display screen 114 (for example LCD) in described touch pad 110.Trackpad 120 is the fixed-point apparatus that are used for input second place information on display screen 114, and has the feeler 122 that is flat type.The object that display screen 114 shows such as the window, icon and the menu that constitute GUI.
Touch pad 110 is furnished with the feeler 112 overlapping with display screen 114, thereby when the specified point on user's usefulness finger or the analog contact display screen 114, detect first make contact by feeler 112, import the primary importance information on the display screen 114 corresponding with first make contact.Simultaneously, on Trackpad 120, when the specified point on user's usefulness finger or the analog touch feeler 122, detect second contact point, import the second place information on the display screen 114 corresponding with second contact point by feeler 122.
Here, touch pad 110 can have area identical or different areas with Trackpad 120.In addition, can be according to any direction, vertical or horizontal use touch pad 110 and Trackpad 120.
Fig. 2 is the block scheme of configuration of the major function of expression Message Display Terminal 100.
As shown in Figure 2, except touch pad 110 and Trackpad 120, Message Display Terminal 100 also comprises the first operation information acquisition unit 132, the second operation information acquisition unit 134, storage unit 136, display unit 138, control module 140 and indicative control unit 142.
The first operation information acquisition unit 132 obtains to comprise first operation information of the primary importance information on the display screen 114 by being arranged to the contact detection surface (feeler 112 of touch pad 110) overlapping with display screen 114.The second operation information acquisition unit 134 by be arranged on display screen 114 opposite side surfaces on contact detection surface (feeler 122 of Trackpad 120), obtain to comprise second operation information of the second place information on the display screen 114.Storage unit 136 is to form with the form of storer such as RAM or ROM, preserves various data, such as the coordinate information of program that Message Display Terminal 100 is worked and object.Display unit 138 shows the object of GUI on display screen 114.Control module 140 comprises indicative control unit 142, controls the function of whole Message Display Terminal 100.Indicative control unit 142 is controlled at the demonstration of the object on the display screen 114 according to the first and second operation information acquisition unit 132 and 134 first operation information and second operation informations that obtain.
In addition, form and the following describes the Message Display Terminal 100 of its details, so that comprise operational zone information setting unit 152 selectively, operational zone information memory cell 154 and acceleration transducer 156.
(basic operation of Message Display Terminal 100)
Fig. 3 is the diagrammatic sketch of the display screen 114 of graphic extension Message Display Terminal 100.Here, although Fig. 3 has represented to show the example of the icon of GUI on display screen 114, but under the situation that shows other object such as window, menu, operation is identical.
In Message Display Terminal 100, realize under the situation of three-dimensional GUI, according to distinctive three-dimensional coordinate information of object and area information, in the three-dimensional coordinate space, form object, and by the processing of the coordinate conversion from the three-dimensional coordinate space to the two-dimensional coordinate plane, described object is displayed on the display screen 114, and display screen 114 is the planes in projection three-dimensional coordinate space.
Below, the projection plane that is displayed under the state on the display screen 114 shown in Fig. 3 at object is the benchmark projection plane, left and right directions on the display screen 114 that shows under the benchmark projection plane state is the x axle, and above-below direction is the y axle, and depth direction is the z axle.
On the display screen shown in Fig. 3 114, the file (for example file 211) that comprises the data such as content is arranged in matrix in the x-y axial plane with the form of the icon of GUI, and the data 212-216 that is included in the file 211 is arranged in after the file 211.Here, file 211 has such z axial coordinate value, thereby it approaches to show that the viewpoint under the benchmark projection plane state is displayed on the front most, and data 212-216 has such z axial coordinate value, thereby they are shown as overlapping away from viewpoint the back of file 211.Below, be arranged in a plurality of object 211-216 overlapping on the z axle (comprising file 211 and data 212-216) and be called as object row 210.
First indicator 250 is displayed on the display screen 114, thereby corresponding to the primary importance information by touch pad 110 inputs, second indicator 255 is displayed on the display screen 114, thereby corresponding to the second place information by Trackpad 120 inputs.
The following describes the basic operation process of in Message Display Terminal 100, carrying out.On user's touch display screen curtain 114, promptly, during specified point on the touch pad 110, detect first make contact by the feeler on the touch pad 110 112, thereby the first operation information acquisition unit 132 obtains primary importance information, and primary importance information is indicated the position on the display screen 114 corresponding with the first make contact that detects.In addition, when the user touches specified point on the Trackpad 120, detect second contact point by the feeler on the Trackpad 120 122, thereby the second operation information acquisition unit 134 obtains second place information, and second place information is indicated the position on the display screen 114 corresponding with second contact point that detects.
Here, have at the feeler 122 of Trackpad 120 under the situation of area of the feeler 112 that is different from the touch pad 110, adjust second place information by 122 inputs of the feeler on the Trackpad 120, thus can be with the form input second place information of the positional information of the specified point on the indicated number screen 114.Details will illustrate below.
When acquisition first or second place information, indicative control unit 142 control display units 138, thus first or second indicator 250 or 255 is displayed on the display screen 114 corresponding to first or the second place information that obtain.In addition, 142 positional informations that obtain as the coordinate information on the two-dimensional coordinate plane of indicative control unit convert the coordinate information in the three-dimensional coordinate space to.Here, indicative control unit 142 decision can determined according to primary importance information under the situation of a plurality of objects, specifies the object of the front of approaching viewpoint most, can not determine under the situation of object, specifies the part corresponding with background away from viewpoint.Similarly, indicative control unit 142 decision can determine according to second place information under the situation of a plurality of objects, specifies the object away from viewpoint, and can not determine under the situation of any object, specifies the part corresponding to background near viewpoint.Thereby indicative control unit 142 is determined the objects by first and/or second indicator 250 and 255 appointments, and corresponding to the part of background.
(first function)
Fig. 4 A-4C is the diagrammatic sketch of graphic extension Message Display Terminal 100 distinctive first functions.Message Display Terminal 100 has on the z axle to roll and is included in the function of a plurality of object 221-225 in the special object row 220.
Fig. 4 A-4C represents the object row 220 by the operation appointment of touch pad 110 or Trackpad 120.In Fig. 4 A-4C, attract the user's attention the object shadow representation of (being paid close attention to) by the user.Fig. 4 A represents that the object 221 that is included in the front of approaching viewpoint most in the object row 220 absorbs the state (corresponding to the state that shows the benchmark projection plane) that the user notes.Fig. 4 B and 4C represent to be included in the state that a plurality of object 221-225 in the object row 220 roll on the z axle.
As shown in Fig. 4 A, be included among the three-dimensional GUI of a plurality of object 221-225 in the object row 220 and be arranged in overlappingly on the Z axle, so the object 221 that the object 222-225 that is positioned at the back is placed in the front easily stops, thereby, visual and operability reduction.
In order to realize first function, touch pad 110 and Trackpad 120 one of at least detect contact points by feeler 112 or 122, and detect exposure level.Below, illustrate that touch pad 110 and Trackpad 120 detect the situation of exposure level.
The following describes the operating process relevant with first function.Under the state of specifying specific object row 220, when the user presses arbitrfary point on the display screen 114 forcefully, contact strength (the force value that it is expressed as contacting, perhaps by contacting the electrostatic induced current amount that produces) detect by the feeler on the touch pad 110, the contact strength that the first operation information acquisition unit 132 obtains to detect is as first scrolling information.In addition, when under the state of appointed object row 220, when the user pressed arbitrfary point on the Trackpad 120 forcefully, contact strength was detected by the feeler on the Trackpad 120 122, thereby second information acquisition unit 134 obtains detected contact strength as second scrolling information.
When obtaining first or second scrolling information, when the contact strength of being represented by the scrolling information that obtains surpassed predetermined threshold, indicative control unit 142 determined that the rolling instruction is transfused to.Simultaneously, under the situation of contact strength less than predetermined threshold of being represented by the scrolling information that obtains, indicative control unit 142 determines that positional information rather than scrolling information are transfused to, and control display unit 138.
In addition, under the situation of acquisition above second scrolling information of predetermined threshold, indicative control unit 142 control display units 138, thus be included in a plurality of object 221-225 in the object row 220 object that rolls towards the front of display screen 114, as shown in Fig. 4 B.In addition, surpass under the situation of first scrolling information of predetermined threshold in acquisition under the state shown in Fig. 4 B, indicative control unit 142 control display units 138, thereby be included in a plurality of object 221-225 in the object row 220 object that rolls towards the back of display screen 114, as shown in Fig. 4 C.Here, indicative control unit 142 is adjusted the distinctive z axial coordinate of object 221-225 information, thereby when object 221-225 was rolled, described z axial coordinate information increased or reduces, and control display unit 138, thereby according to adjusted z axial coordinate information display object 221-225 in projection plane.
The user arrives his/her attention mobility on the previous or back object (for example object 222 or object 221) by rolling operation.Here, indicative control unit 142 control display units 138, thus object 222 object 221 before that is positioned at user's concern becomes transparent.Thereby the object 221 that the object 222 that the user pays close attention to can not be positioned at the front stops, thereby, can avoid reducing visuality and operability.
In addition, indicative control unit 142 can be controlled the wherein acceleration of the demonstration of object 221-225 rolling according to by feeler 112 and the 122 detection duration of detecting that contact.In this case, it is long more to detect the duration, can make the rolling acceleration big more.Here, under the situation of detection duration less than predetermined threshold of contact, determine that positional information is transfused to, and control display unit 138.Thereby, wish to increase under the situation of rolling acceleration the user, the user is with pointing or analog sustained touch feeler 112 and 122, and wish to reduce under the situation of described acceleration the user, the user decontrols his/her finger or analog from feeler 112 and 122, thereby, can carry out rolling operation intuitively.
In addition, indicative control unit 142 can be controlled the wherein acceleration of the demonstration of object 221-225 rolling according to by feeler 112 and 122 area of detection that contact that detect.In this case, area of detection is big more, can make the acceleration of rolling big more.Here, under the situation of area of detection less than predetermined threshold of contact, determine that positional information is transfused to, and control display unit 138.Thereby, wish to increase under the situation of rolling acceleration the user, the user is with referring to that tripe or analog touch feeler 112 and 122, and wish to reduce under the situation of described acceleration the user, the user touches feeler 112 and 122 with finger tip or analog, thereby, can carry out rolling operation intuitively.Especially, in a rolling operation, the user can not unclamp under the situation of finger from feeler 112 and 122, change contact area with feeler 112 and 122, quicken or deceleration thereby can make continuously rolls, so, can carry out rolling operation more intuitively.
Except the demonstration of object of control GUI, first function also can be used for following application.
Suppose that wherein the object row are the situations that comprise the playlist of a plurality of objects that are made of music file.In this case, indicative control unit 142 can control function unit, such as the playback process unit, thereby when first or second scrolling information surpasses predetermined threshold, can carry out the playback process of the music file of a file before or after the music file of playing at that time.In addition, indicative control unit 142 can be controlled the playback process of the music file of playing at that time, thereby according to duration of contact or contacts area by feeler 112 and 122 detections, the music file that F.F. or recoil were play at that time.
Illustrated above by touch pad 110 and Trackpad 120 and detected exposure level, thereby controlled the situation of rolling operation along both direction.But, only detecting exposure level, and along under the situation of a direction control rolling operation, similar operation is possible by one of touch pad 110 and Trackpad 120.Here, controlling along a direction under the situation of rolling operation, rotatably rolling is included in a plurality of object 221-225 in the object row 220, thereby continues to roll between object up front 221 and the rearmost object 225.In addition, the object that can roll reversedly, thereby the direction that object up front 221 and 225 reversings of rearmost object are rolled.
(second function)
Fig. 5 A-5D is the diagrammatic sketch of graphic extension Message Display Terminal 100 distinctive second functions.Message Display Terminal 100 has the mobile function that is included in a plurality of object 231-235 in the special object row 230 in perpendicular to the x-y plane of z axle.
Fig. 5 A represents to be presented at the state of the object row 230 on the benchmark projection plane, Fig. 5 B is illustrated in the state of mobile object 231-235 on x axle and the y axle, Fig. 5 C is illustrated in the state of mobile object 231-235 on the x axle, and Fig. 5 D is illustrated in the state of mobile object 231-235 on the y axle.Here, Fig. 5 A corresponding to wherein x axial coordinate and y axial coordinate respectively with the viewpoint 240 that the following describes, situation about conforming to reference point 242, the situation that Fig. 5 B is moved respectively corresponding to wherein x axial coordinate and y axial coordinate, the situation that Fig. 5 C is moved corresponding to x axial coordinate wherein, the situation that Fig. 5 D is moved corresponding to y axial coordinate wherein.
As shown in Fig. 5 A, be included in a plurality of object 231-235 in the object row 220 be arranged on the z axle overlapping, so the object 231 that the object 232-235 that is positioned at the back is positioned at the front easily stops, thereby, visual and operability reduction.
In order to realize second function, touch pad 110 and Trackpad 120 detect the mobile status of contact point on the feeler 112 and 122.
The following describes the operating process relevant with second function.Suppose a kind of like this state, specified by first indicator 250 that simultaneously, rearmost object 235 is specified by second indicator 255 comprising the top object 231 in special object row 230.Here, the first operation information acquisition unit 132 obtains on the display screens 144 point by 250 appointments of first indicator, as the first dot information, the second operation information acquisition unit 134 obtains on the display screens 114 point by 255 appointments of second indicator, as second origin information.
Under the state of specifying top object 231 and rearmost object 235 at the same time, the user utilizes finger or analog on touch pad 110 during mobile access point, contact point after moving is detected by the feeler on the touch pad 110 112, the first operation information acquisition unit 132 obtains first endpoint information, the point corresponding with detected contact point on the described first endpoint information indicated number screen 114.In addition, when the contact point of moveable finger or analog on the feeler 122 of user on Trackpad 120, contact point after moving is detected by the feeler on the Trackpad 120 122, the second operation information acquisition unit 134 obtains second endpoint information, the point corresponding with detected contact point on the described second endpoint information indicated number screen 114.
When obtaining first and second endpoint information simultaneously, indicative control unit 142 control display units 138, thus first and second indicators 250 and 255 are displayed on the display screen 114, thereby corresponding to first and second endpoint information that obtain.In addition, 142 endpoint information that obtain as the coordinate information on the two-dimensional coordinate plane of indicative control unit convert the coordinate information in the three-dimensional coordinate space to.Here, the z axial coordinate of first and second endpoint information is not different from the z axial coordinate of first and second origin information.Thereby the coordinate information after the conversion is used as the coordinate information of the mobile destination of top object 231 in the object row 230 and rearmost object 235, and calculates the coordinate information of the mobile destination that is included in other object 232-234 in the object row 230.
Subsequently, indicative control unit 142 is adjusted, increase on x axle and y axle or reduce thereby be included in the distinctive coordinate information of object 231-235 in the object row 230, as shown in Fig. 5 B, coordinate information increases on the x axle or reduces, shown in Fig. 5 C, coordinate information increases on the y axle or reduces, as shown in Fig. 5 D, and control display unit 138, thereby according to the coordinate information of adjusting, object 231-235 is displayed on the projection plane.
The user moves a plurality of object 231-235 that are included in the object row 230 on perpendicular to the x-y plane of z axle, thereby launches to be aligned to the object 231-235 of overlapping demonstration, perhaps arranges described object, thus the overlapping demonstration of described object.Thereby the user can easily check and operate a plurality of object 231-235 that are included in the object row 230, in addition, can use the viewing area on the display screen 114 effectively.
Here, realizing to realize second function according to identical mode under the situation of two-dimentional GUI in the Message Display Terminal 100.In this case,, on the two-dimensional coordinate plane, form corresponding object, and be presented on the display screen 114 corresponding to the two-dimensional coordinate plane according to distinctive two-dimensional coordinate information of object and area information.
Be arranged among the two-dimentional GUI at a plurality of objects under the situation of overlap at least (a plurality of objects of Pai Lieing are also referred to as the object row in this manner), the object that places the object of back to be placed in the front easily stops, thereby, visual and operability reduction.
Therefore, according to the mode identical with the situation of three-dimensional GUI, move a plurality of objects that are included in the special object row in such a manner, thereby according to the overlapping degree between first starting point and endpoint information and second starting point and the endpoint information change object, and show described a plurality of object, thereby, can avoid visuality and operability to reduce because of stopping of object among the two-dimentional GUI.
(the 3rd function)
Fig. 6 is the diagrammatic sketch of expression Message Display Terminal 100 distinctive the 3rd functions.Message Display Terminal 100 has the function of the position that changes viewpoint 240, and the three-dimensional coordinate space is projected onto described viewpoint 240.
Fig. 6 utilizes three-dimensional coordinate space and projection plane to represent relation between viewpoint 240 and the reference point 242.As shown in Figure 6, viewpoint 240 indications are as the summit, foremost of the cone 244 of the vision external form in projection three-dimensional coordinate space, and reference point 242 is represented the center of projection plane 246.
In order to realize the 3rd function according to the mode identical with second function, touch pad 110 and Trackpad 120 detect the mobile status of contact point on the feeler 112 and 122.
The following describes the operating process relevant with the 3rd function.Suppose a kind of like this state, wherein specify by first and second indicators 250 and 255 simultaneously corresponding to the part (except the object in the three-dimensional coordinate space) of background.Here, the first operation information acquisition unit 132 obtains by the point on the display screen 114 of first indicator, 250 appointments as the first dot information, the second operation information acquisition unit 134 obtain by on the display screen 114 of second indicator, 255 appointments o'clock as second origin information.
When under the state of first and second indicators 250 and 255 specific context part, when the user uses finger or analog mobile access point on touch pad 110, contact point after moving is detected by the feeler on the touch pad 110 112, the first operation information acquisition unit 132 obtains first endpoint information, on the described first endpoint information indicated number screen 114 with the corresponding point of contact point that detects.In addition, when using finger or analog mobile access point on the feeler 122 of user on Trackpad 120, contact point after moving is detected by the feeler on the Trackpad 120 122, the second operation information acquisition unit 134 obtains second endpoint information, the point corresponding with detected contact point on the described second endpoint information indicated number screen 114.
When obtaining first and second endpoint information simultaneously, indicative control unit 142 control display units 138, thus first and second indicators 250 and 255 are displayed on the display screen 114, thereby corresponding to first and second endpoint information that obtain.At first, indicative control unit 142 supposition are along on the depth direction of display screen 114, on the display screen 114 corresponding on the point of the first dot information and the display screen 114 between the point corresponding to second origin information, and on the display screen 114 corresponding on the point of first endpoint information and the display screen 114 corresponding to the certain distance between the point of second endpoint information.Subsequently, indicative control unit 142 calculates the variable quantity of the three-dimensional perspective between reference axis (its connect on display screen 114 corresponding on the point of the first dot information and the display screen 114 corresponding to the point of second origin information) and the shifting axle (on its connection display screen 114 corresponding on the point of first endpoint information and the display screen 114 corresponding to the point of second endpoint information).In addition, indicative control unit 142 changes the angle of the axle that connects viewpoint and reference point according to the angle variable quantity that calculates, and under the reformed state, calculates the coordinate information of object on the projection plane in viewpoint in the three-dimensional coordinate space.
Thereby, indicative control unit 142 is according to the change of the viewpoint 240 that has moved on the y axle, the demonstration of controlling object on projection plane 246, for example as shown in Figure 7, in addition, according to the variation of the viewpoint 240 that on the x axle, moves, the demonstration of controlling object on projection plane 246, for example as shown in Figure 8.
By the operation of touch pad 110 and Trackpad 120, the user can operate intuitively to the viewpoint among the three-dimensional GUI 240.Thereby the user can freely change the viewpoint 240 that the three-dimensional coordinate space is projected onto, thereby, from the top, from the side, from behind, along to identification and operand intuitively such as angular direction.
(the 4th function)
Fig. 9 A and 9B are the diagrammatic sketch of graphic extension Message Display Terminal 100 distinctive the 4th functions.Message Display Terminal 100 has the function of the scope in the operational zone on the feeler of adjusting on the Trackpad 120 122.
Fig. 9 A and 9B represent zone 124 and 126, and zone 124 and 126 is to use under the situation of display screen 114 operand on the Trackpad 120 with horizontal direction along the longitudinal direction respectively.
Under the state that Message Display Terminal 100 is held by one hand or both hands, operation information is transfused in the Message Display Terminal 100 by two lip-deep feelers 112,122 that are arranged on main body.So, depend on the size of user's both hands and hold the state of terminal as the zone 124 and 126 of the operand on the Trackpad 120.In addition, using under the situation of display screen 114 with horizontal direction along the longitudinal direction, can be different as the zone 124 of operand with the direction of using terminal with 126.Therefore, the operational zone on the feeler 122 on the Trackpad 120 preferably is adjusted with user or its use-pattern.
In order to realize the 4th function, Message Display Terminal 100 also is furnished with operational zone information setting unit 152 and operational zone information memory cell 154.Operational zone information setting unit 152 is according to second operation information that obtains about each user, is provided for specifying the practical operation district 124 on the Trackpad 120 and the operational zone information of 126 scope.Operational zone information memory cell 154 is preserved by the operational zone operational zone information that the unit is provided with is set.
Operational zone information setting unit 152 allows the user by setup menu, and input is provided with stroke (stroke) 125 and 127 in the scope that the finger nature touches on Trackpad 120.When stroke 125 or 127 being set being transfused to, at starting point and end point determination contact point, the second operation information acquisition unit 134 obtains corresponding origin information and the endpoint information of contact point with detection by the feeler on the Trackpad 120 122.
When obtaining origin information and endpoint information, operational zone information setting unit 152 connects its diagonal line corresponding to the point of origin information with corresponding to the quadrilateral area of the point of endpoint information and is made as practical operation district 124 or 126, and it is kept in the operational zone information memory cell 154.
In addition, indicative control unit 142 obtains to make the information of the actual range of operational zone 124 or 126 corresponding to the scope of display screen 114.Scope at display screen 114 is 10cm * 10cm, practical operation district 124 or 126 scope are under the situation of 5cm * 5cm, positional information on the operational zone 124 or 126 on the Trackpad 120 is doubled and adjusts, so that corresponding to the positional information on the display screen 114.
Under the situation that Message Display Terminal 100 is used by a plurality of users, operational zone information memory cell 154 can be preserved each user's operational zone information and identification information.In addition, indicative control unit 142 is according to the change request from the specific user, reads the operational zone information corresponding to this user and the scope of setting operation district 124 or 126 from operational zone information memory cell 154.
In addition, operational zone information memory cell 154 can be preserved the operational zone information that conforms to the direction of using display screen 114.In addition, indicative control unit 142 determines to use the directions of display screens 114, according to the direction of using display screen 114 from operational zone information memory cell 154 read operation district information, and the scope of setting operation district 124 or 126.In this case, indicative control unit 142 can be according to the kind that is presented at the data on the display screen 114, determines to use the direction of display screen 114, perhaps can basis and stroke 125 or 127 relevant information are set, determine the direction of use display screen 114.In addition, in Message Display Terminal 100, under the situation of the acceleration transducer 156 of configuration such as gyroscope, can determine to use the direction of display screen 114 according to the testing result of acceleration transducer 156.
Thereby the user can ownly be provided with the zone 124 or 126 of carrying out practical operation on Trackpad 120, and perhaps described regional 124 or 126 are provided with automatically, thereby can cosily carry out the operation on the Trackpad 120.
As mentioned above, in Message Display Terminal 100 according to first embodiment, first operation information that comprises the positional information on the display screen 114 is by obtaining with the feeler 112 of display screen 114 overlapping settings on the touch pad 110, and second operation information that comprises the positional information on the display screen 114 is obtained by the feeler 122 on the lip-deep Trackpad 120 that is arranged on display screen 114 opposite sides.In addition, according to the demonstration of object on the first and second operation information control display screen curtains 114 that obtain.
Thereby, according to by be arranged on the display screen 114 and with lip-deep two feelers 112 and 122 two operation informations that obtain of display screen 114 opposite sides, the demonstration of object on the control display screen curtain 114, so, the operating environment that can realize intuitive operation can be provided.
<the second embodiment 〉
Below, the Message Display Terminal 100 according to the second embodiment of the present invention is described.Have and according to Message Display Terminal's 100 identical functions configuration of first embodiment according to the Message Display Terminal 100 of second embodiment.
According to the Message Display Terminal 100 of present embodiment mode of operation according to touch pad 110 and Trackpad 120, and the show state of object row 310, control is used for the demonstration of operand row 310 (a plurality of objects 300 by grouping constitute) and object 300.
(display screen)
Figure 10 is the diagrammatic sketch of the demonstration on the touch pad 110 that is illustrated in the Message Display Terminal 100.Below, illustrating that the image of the cover of music disc wherein is assumed that object 300, a plurality of objects 300 of music disc that expression belongs to same genre are assumed that the situation of object row 310.
As shown in Figure 10, on touch pad 110, there are object viewing area 352 and layout viewing area 354.The a plurality of object row 311-319 (in the explanation of present embodiment, being also referred to as object row 310) that formed by a plurality of objects 300 are displayed in the object viewing area 352.In layout viewing area 354, the layout that is presented at the object row 310 in the object viewing area 352 is shown as icon.
As shown in Figure 10, in object viewing area 352,, 9 object row 311-319 have been shown such as jazz, pop etc. corresponding to 9 kinds of schools.In layout viewing area 354, be shown as icon as the layout of 14 objects row of operand, 9 icons corresponding with object row 311-319 in being presented at object viewing area 352 are shown as black box, so that they and other icon area are separated.
Be aligned to matrix in the x-y coordinate plane of object row 310 on object viewing area 352, each object that forms object row 310 is a unit with object row 310, arranges and demonstration along the z axle.300 settings comprise x to object, and the coordinate information of y and z coordinate and the area information of indicating the viewing area (the demonstration size of object) that is occupied by object 300 are according to described coordinate information display object 300.Here, x coordinate and y coordinate correspond respectively to left and right directions and the above-below direction on the display screen, and the z axle is corresponding to the depth direction on the display screen.Below, suppose that wherein the lower-left end of the front side of object viewing area 352 becomes the coordinate system of initial point so that explanation.
The a plurality of objects 300 that constitute object row 310 are shown in such a manner, thereby the z axle of object 300 is depended in the position of each object 300, changed along x axle and/or y axle, thus superimposed, object 300 approaches the front side more on display screen, just display object 300 bigly more, more bright.For example, in the example shown in Figure 10, the z axle that object 300 is depended in the position of object 300 is along the change of y axle, and object 300 along the degree of x coordinate change with the left column that is arranged in object viewing area 352, the object row 310 of central array or right row and changing.Specifically, in demonstration, in the object row 311,314 and 317 of left column, object 300 on display screen more near the front side, the x coordinate figure of object 300 and y coordinate figure just become more little so, in the object row 312,315 and 318 of central authorities, object 300 approaches the front more on display screen, the y coordinate figure of object just becomes more little, in the object row 313,316 and 319 of right side row, object 300 approaches the front more on display screen, the x coordinate figure of object just becomes big more, and the y coordinate figure of object becomes more little.
In Message Display Terminal 100, by utilizing touch pad 110 and Trackpad 120, in preset detection in the cycle, can be by feeler 112 and 122 detecting operation states.When the user with finger or analog contact touch pad 110, remove finger and not on touch pad 110 during moveable finger from touch pad 110 subsequently, obtain primary importance information (below, this operation is called as point operation).Simultaneously, point under the state that remains on the touch pad 110 when making the user, the user is on touch pad 110 during moveable finger, moving by feeler 112 of contact point detects, thereby can obtain primary importance information (below, this operation is called as drag operation) in proper order according to moving of contact point.In addition, corresponding to primary importance information display indicator 320 on display screen.Carrying out obtaining second place information according to identical mode under the situation of point operation or drag operation on the Trackpad 120 the user.
When a plurality of object row 310 that exist as operand, all object row 310 can not be displayed in the object viewing area 352.So the layout that is presented at the object row 310 in the object viewing area 352 is shown as icon in the layout viewing area 354 together with the layout of all object row 310 so that and other target area separately.Here, by specifying and the corresponding icon of special object row 310 in the layout viewing area 354, perhaps by operation scroll bar (not shown), switching is presented at the object row 310 in the object viewing area.
Below, the operation about object row 310 and object 300 is described.In Message Display Terminal 100, object row 310 are carried out slide and move operation, object 300 is carried out focusing operation.
(to the slide of object row)
Figure 11 A-11D, 12A, 12B, 13A and 13B are the diagrammatic sketch of graphic extension to the slide of object row 310, Figure 14-the 17th, the diagrammatic sketch of the demonstration on the graphic extension touch pad 110 relevant with slide.
Figure 11 A-11D, 12A, 12B, 13A and 13B schematically represent the mode of operation of touch pad 110 and Trackpad 120, and the show state of object row 310 (this Figure 18 A to the following describes, 18B is the same with 19A-19D).Here, at Figure 11 A-11D, 12A, 12B, among 13A and the 13B, the left and right directions among the figure is corresponding to the z axle (depth direction on the display screen, touch pad 110 is indicated on the left side, Trackpad 120 is indicated on the right side), the above-below direction among the figure is corresponding to y axle (above-below direction among the figure) (this Figure 18 A to the following describes, 18B is the same with 19A-19D).In addition, represented wherein object row 310 to be carried out the situation of slide along the y axle.Describe along x axle (left and right directions among the figure) and carry out the situation of slide along x and y axle (left and right directions among the figure and above-below direction) according to identical mode.
Figure 11 A according to the z coordinate representation of each object 300 constitute four objects 300 of object row 310.That is, superimposed when each object 300 is expressed as earthquake y coordinate, object 300 approaches the front side more on display screen, just display object 300 bigly more, more bright.Figure 11 A is illustrated in the state that initial position shows each object 300 (below be also referred to as initial show state).
When the user when on touch pad 110, carrying out point operation 360 under the state as shown in Figure 11 A, obtain primary importance information.Relatively primary importance information and formation are presented at the coordinate information and the area information of the object 300 of the object row 310 in the object viewing area 352.Primary importance information corresponding to situation about the coordinate in the viewing area of the coordinate information and the desired object row 310 of area information of each object 300 (being configured the viewing area in the object viewing area 352 that the object 300 of object row 310 occupies) under, corresponding object row 310 are designated.In addition, when the user when on Trackpad 120, carrying out point operation 362 under the object row 310 appointed states, beginning is about the slide of object row 310.
When the user under the state of beginning slide, on touch pad 110, object A300 is carried out drag operation 364 or at 366 o'clock, as shown in Figure 11 B and 11C, object A-D300 in demonstration, slide (below be called the slip show state).Here, the user is moveable finger under the state of the viewing area of the lasting contact object A300 of finger, thereby, object A300 is carried out drag operation 364 or 366.When object A300 was carried out drag operation 364 or 366, object A-D300 reduced the mode of lap each other according to the quantity (displacement of finger on touch pad 110) corresponding to drag operation, slides along the distance that y axially descends spacing to equate.Corresponding object A-D300 slides along the y axle, thereby lap each other is reduced, and lap reduces manyly more, and corresponding object A-D300 can move at display screen upper edge z axle and more approach the front side.In this case, each object 300 approaches the front side more on display screen, just shows each object 300 bigly more, more bright.
Thereby response primary importance information changes continuously along with the variation of 300 laps of object, and a plurality of objects 300 move.So,, can confirm to constitute a plurality of objects 300 of object row 310 by variation display object 300 along with lap.In addition, when a plurality of objects during towards preceding side shifting, a plurality of objects 300 are shown greatlyyer, so, can not reduce operand row 310 under the visual situation.
Here, Figure 11 B has represented wherein to move according to the mode that reduces lap each other the situation of object A-D300.But, the mode that can increase according to each other lap from the state shown in Figure 11 B is along the axial mobile object A-D300 down of y.In this case, each object 300 can move along the z axle, thereby along with lap increases, is arranged to one side towards the rear surface on display screen, and therefore, because the position of object is further towards rear side, so object can be shown forr a short time and darker.
Under the state that is continuing slide, the lap between the object A-D300 becomes at 0 o'clock, and as shown in Figure 11 C, the slide of object row 310 is finished, and as shown in Figure 11 D, according to list display state display object row 310.Under list display state, object A-D300 moves to front side on display screen, thus z=0, thereby, be shown as not overlapping each other.In addition, with identical size and brightness display object A-D300.
Thereby a plurality of objects 300 move to the foremost, and are presented in the tabulation with identical size, so, can operate object 300 and do not reduce visuality.
Figure 14 and 15 is illustrated respectively in the state of beginning slide and is continuing under the state of slide the demonstration on the touch pad 110.In Figure 14 and 15, object row 311 (" Jazz ") are designated as object row 310, and it becomes the object of slide.
As shown in Figure 14,, be presented at dingily under the state of object viewing area 352, the special object row 311 as the object of slide are carried out slide at object row 312-319 (except the specific object row 311) when beginning during slide.Specific object row 311 are slided along the y axle and are shown, thus the quantity of response drag operation, and a plurality of objects 311 lap each other that constitutes object row 311 is reduced.In addition, the satellite information of each object 300 (in this example, the album title of music disc and artist) is displayed on the next door of a plurality of objects 300, and and a plurality of objects 300 slide together and show.
As shown in Figure 15, when continuing slide, and when the drag operation amount of top object 300 reached predetermined value, except special object row 311 as the object of slide, display object row 312-319 in object viewing area 352 not.
Under list display state, the user can select specific object 300 in the given time.As shown in Figure 12 A, when the user carries out point operation to object A300 on touch pad 110, the object A300 of selection, rather than the content of object A-D300 is displayed in the object viewing area 352, (below be also referred to as the content show state) as shown in Figure 12B.
Thereby, under the state of a plurality of objects 300 of tabulation demonstration, specify an object 300, and show the content 302 of appointed object 300, so, can operate object 300, and not reduce visuality and operability.
Under the slip show state as shown in Figure 13 A (corresponding to Figure 11 B), object row 310 not to be carried out under the situation of any drag operation in the given time, the demonstration of object row 310 becomes initial show state from the slip show state.As shown in Figure 13 B, the demonstration of object row 310 becomes initial show state from the slip show state, and is superimposed when object A-D300 is shown as earthquake y coordinate.Here, with regard to variation from the slip show state to initial show state, the same with the situation from initial show state to the slip show state described above, carry out reverse operating, except object A-D300 slides, and do not require outside the operation of touch pad 110 and Trackpad 120.
Thereby, the a plurality of objects 300 that constitute object row 310 move to initial position, thereby arrange overlappingly, do not obtain positional information unless be displayed at a plurality of objects 300 under the state of sliding position, so, can avoid owing to stopping of object 300 reduced visuality.
Figure 16 and 17 represents tabulation respectively under show state and content show state, the demonstration on the touch pad 110.
As shown in Figure 16, under list display state, a plurality of objects 300 are placed in front side on the display screen, and are shown as not overlapping each other in object viewing area 352.In layout viewing area 354, the icon corresponding with the object row that show by list display state 311 is expressed as black box, so that and corresponding to the icon area of other object row separately.
As shown in Figure 17, under the content show state, in object viewing area 352, show and amplify the object 300 and the satellite information 304 (in this example, the disc name of music disc and artist) of selection.In addition, show the subobject 306 (in this example, being included in the music track in the music disc) that is included in the selected object 300 in the bottom of object viewing area 352.
Under the content show state, by the operation of touch pad 110, the user can select to be included in the subobject 306 (music track in this example) in the selected object 300.In addition, can carry out scheduled operation (for example, playing back music song) to the subobject of selecting 306.
(to the move operation of object row)
Figure 18 A and 18B are the diagrammatic sketch of graphic extension to the move operation of object row 310.
Figure 18 A represents to constitute four objects 300 of object row 310 according to the mode identical with the situation of Figure 11 A, thereby object row 310 are by to the point operation appointment of object row 310, but do not carry out any point operation 362 on Trackpad 120.
When the user under the state of appointed object row 310, as shown in Figure 18 B, when on touch pad 110 object A300 being carried out drag operation 372, object row 310 are moved and show.When object A300 was carried out drag operation 372, object A-D300 was moved and is shown on the y axle under the state that they overlap each other with the quantity of drag operation.
Here, Figure 18 B represents the wherein situation of mobile object A-D30 on the y axle, also can be described in the x axle according to identical mode or the situation of mobile object on x and y axle.
Thereby, according to the state that obtains positional information and with the show state of the corresponding object row 310 of continuous variation of primary importance information, move and show a plurality of objects 300, so, can carry out move operation to object row 310.
(about the focusing operation of object)
Figure 19 A-19D is the diagrammatic sketch of graphic extension to the focusing operation of object 300.
Figure 19 A has represented to constitute four objects 300 of object row 310 according to the mode identical with the situation of Figure 11 A.Under the state shown in Figure 19 A, the object A300 that is positioned at foremost one side on the display screen as focus, display object A300 brightly.Under the state shown in Figure 19 A, according to the identical mode of situation shown in Figure 11 A, by the point operation 360 of object row 310 having been specified after the object row 310, on touch pad 110, carry out point operation 374.In this case, carry out point operation 374 in the zone except that the viewing area of object row 310.
When carrying out point operation 374 on touch pad 110, as shown in Figure 19 B, the focus on the object 300 moves towards the rear side on the display screen.Thereby the object B 300 that is positioned at the rear side of object A300 is focused, thereby object B 300 is shown that brightly the object A300 of front side that is arranged in object B 300 is by transparent demonstration (dotted line by Figure 19 A-19D is represented).
According to identical mode, when carrying out point operation 376 on Trackpad 120 as shown in Figure 19 C, the focus on the object 300 is towards the preceding side shifting of display screen, as shown in Figure 19 D.Thereby, make the object A300 of the front side that is positioned at object B 300 become focus, thereby object A300 is by transparent demonstration.
Thereby when obtaining first or second mobile message under the state that shows a plurality of objects 300 at initial position, the focus on the object 300 of formation object row 310 is according to mobile message, perhaps shift to the front side, perhaps shift to rear side, so, can carry out focusing operation intuitively to object 300.
(operating process)
Below with reference to Figure 20 and 21 flow processs that illustrate about the operation of object row 310 and object 300.Figure 20 is the process flow diagram that is illustrated in the flow process of operation under object row 310 change over list display state from initial show state the situation etc.Figure 11 A-11D is illustrated under the list display state, to the process flow diagram of the flow process of the operation of object row 310.
Message Display Terminal 100 determines whether by on touch pad 110, and the object row 310 that are in initial show state have been carried out point operation (operation 360 shown in Figure 11 A, the operation 370 shown in Figure 18 A), has specified object row 310 (S302).Under the situation of having specified object row 310, Message Display Terminal 100 carries out subsequent step S304, if appointed object is not listed as, returns step S302 so.
Under the state of having specified object row 310, Message Display Terminal 100 has determined whether to carry out point operation (operation 362 shown in Figure 11 A) (S304) on Trackpad 120.Under the situation of having carried out point operation, Message Display Terminal 100 carries out subsequent step S306, is not carrying out under the situation of any point operation, and Message Display Terminal 100 transfers to the step S322 about move operation and focusing operation that illustrates later.
Under the situation of having carried out point operation, Message Display Terminal 100 (for example determines whether within the predetermined time, after carrying out point operation in one second), on touch pad 110, the object row 310 of appointment have been carried out drag operation ( operation 364 and 366 shown in Figure 11 B and the 11C) (S306).Under the situation of having carried out drag operation, Message Display Terminal 100 carries out subsequent step S308, under the situation of not carrying out drag operation, transfers to the step S324 about focusing operation.Carrying out under the situation of drag operation, Message Display Terminal 100 converts object row 310 to slip show state (S308), shows (S310) so that slide.
When object row 310 were converted into the slip show state, Message Display Terminal 100 determined whether a plurality of objects 300 that constitute object row 310 are shown as overlap at least (S312).Thereby under the situation of the superimposed demonstration of object, Message Display Terminal 100 carries out subsequent step S314, and not under the situation of superimposed demonstration, Message Display Terminal 100 converts object row 310 to list display state (S320) at object.
Under the situation of the superimposed demonstration of object, Message Display Terminal 100 (for example determines whether within the predetermined time, after carrying out drag operation in 10 seconds), continue object row 310 have been carried out drag operation ( operation 364 and 366 shown in Figure 11 B and the 11C) (S314).Under the situation of having carried out drag operation, Message Display Terminal 100 returns step S310, is not carrying out under the situation of drag operation, and object row 310 are converted to initial show state (S316).Thereby Message Display Terminal 100 moves on to initial position to a plurality of objects 300 that constitute object row 310, initially shows (S318) under the overlapping state of object, and returns step S302.
When in step S320, when object row 310 are converted into list display state, 100 tabulation display object row, 310 (S332) of Message Display Terminal.
When object row 310 were shown by tabulation, Message Display Terminal 100 determined whether by on touch pad 110, and object 300 is carried out point operation (operation 368 shown in Figure 12 A), has specified object 300 (S334).Under the situation of having specified object 300, show subobject 306 (S336), and subobject 306 is handled (S338) according to instruction from the user.
After subobject 306 having been carried out handle, Message Display Terminal 100 determines whether to instruct the processing (S340) that changes object 300.Instructing under the situation of change of object 300, Message Display Terminal 100 returns step S332, not instructing under the situation of any variation, returns step S338, thereby subobject 306 is handled.
In step S304 under the situation of not carrying out any point operation (operation 362 shown in Figure 11 A) on the Trackpad 120, Message Display Terminal 100 determines whether the zone except that the viewing area of object row 310, has carried out point operation (operation 374 shown in Figure 19 A) (S322) on touch pad 110.Under the situation of having carried out point operation, Message Display Terminal 100 carries out subsequent step S324, is not carrying out under the situation of point operation, and Message Display Terminal 100 forwards step S326 to.In addition, when in step S306, (for example, after carrying out point operation in 1 second) in the given time, and when on touch pad 110, not carrying out drag operation, the 100 execution in step S324 of Message Display Terminal.
In addition, Message Display Terminal 100 still is being to carry out on Trackpad 120 on the touch pad 110 according to point operation (operation 374 and 376 shown in Figure 19 A and the 11C), focus on the object 300 moved on to the front side of display screen or move on to the rear side (S324) of display screen, and return step S302.
Do not carrying out under the situation of any point operation on the touch pad 110 in step S322, Message Display Terminal 100 determines whether the object row 310 of appointment have been carried out drag operation (operation 372 shown in Figure 18 B).Under the situation of having carried out drag operation, Message Display Terminal 100 moves and display object row 310 in step S328, and under the situation of not carrying out drag operation, Message Display Terminal 100 returns step S302.
As mentioned above, according to the Message Display Terminal 100 of second embodiment according to obtaining first and/or the state of second place information, and according to the show state of object row 310, control is used for the demonstration of operand row 310 and object 300, so, can carry out more seamless operation to object row 310 and object 300.
Above, the wherein three phases of branch music school → music disc → music track has been described, to the situation that information is operated, wherein musical genre is object row 310, and music disc is an object 300, and music track is a subobject 306.
Here, can divide the four-stage of music school → music artist → music disc → music track, information is operated, wherein musical genre and artist are object row 310.In this case, a plurality of objects 300 that belong to common musical genre are arranged, so that according to the artistical predefined procedure of music disc, be presented in the object row 310 such as lexicographic order.In addition, can divide two stages of music disc → music track, information is operated, wherein music disc is object row 310, and music track is an object 300.In addition, according to the information in a plurality of stages of preassigned grouping, such as photo, animation and data can be used as object handles.
Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited thereto.It will be understood by those skilled in the art that can produce various modifications according to designing requirement and other factors, combination, sub-portfolio and change are as long as they are in the scope of accessory claim or its equivalent.

Claims (27)

1, a kind of on display screen the Message Display Terminal of the object of display graphics user interface, comprising:
The first operation information acquisition unit, be used for by with the contact detection surface of the overlapping setting of display screen, obtain to comprise first operation information of the positional information on the display screen;
The second operation information acquisition unit is used for by the contact detection surface that is arranged on the opposite side surface with display screen, obtains to comprise second operation information of the positional information on the display screen; With
Indicative control unit is used for according to first operation information and second operation information that obtain, the demonstration of controlling object on display screen.
2, according to the described Message Display Terminal of claim 1, wherein
According to the distinctive three-dimensional coordinate information of object, object is arranged in the three-dimensional coordinate space,
The demonstration of indicative control unit controlling object on display screen, this display screen are the surfaces that the three-dimensional coordinate space is projected onto.
3, according to the described Message Display Terminal of claim 2, wherein
A plurality of objects form object row, in the direction overlapping arrangement of object described in these object row along first coordinate axis in three-dimensional coordinate space,
One of first operation information and second operation information comprise first scrolling information that obtains according to the exposure level that detects on the contact detection surface,
Indicative control unit is listed as and the control demonstration according to the positional information appointed object that is included in first operation information or second operation information, makes a plurality of objects that are included in the appointed object row according to first scrolling information that obtains direction rolling in the first coordinate axis upper edge.
4, according to the described Message Display Terminal of claim 3, wherein
In first operation information and second operation information another comprises second scrolling information that obtains according to the exposure level that detects on the contact detection surface,
Indicative control unit control shows, a plurality of objects that are included in the appointed object row are rolled at the first coordinate axis upper edge other direction according to second scrolling information that obtains.
5, according to the described Message Display Terminal of claim 3, wherein
Obtain exposure level, as the contact strength that on the contact detection surface, detects,
Indicative control unit control shows, makes in contact strength to surpass under the situation of predetermined threshold, and a plurality of objects roll.
6, according to the described Message Display Terminal of claim 3, wherein
Obtain exposure level, as the detection duration of the contact that on the contact detection surface, detects,
Indicative control unit is according to the detection duration of contact, and control makes the acceleration of the demonstration of a plurality of objects rollings.
7, according to the described Message Display Terminal of claim 3, wherein
Obtain exposure level, as the area of detection of the contact that on the contact detection surface, detects,
Indicative control unit is according to the area of detection of contact, and control makes the acceleration of the demonstration of a plurality of objects rollings.
8, according to the described Message Display Terminal of claim 2, wherein
A plurality of objects form the object row along the overlapping arrangement of direction of first coordinate axis in the three-dimensional coordinate space,
First operation information comprises the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Second operation information comprises second origin information that obtains simultaneously with the first dot information and second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Indicative control unit is according to the first dot information that obtains, on display screen, specify the top object that is included in the special object row, specify the rearmost object that is included in the object row according to second origin information that obtains, first endpoint information that link obtains and the position of top object migration, and second endpoint information of link acquisition and the position of rearmost object migration, thereby control shows, a plurality of objects that are included in the above-mentioned object row are moved in perpendicular to the plane of first coordinate axis.
9, according to the described Message Display Terminal of claim 2, wherein
First operation information comprises the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Second operation information comprises second origin information that obtains simultaneously with the first dot information and second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Indicative control unit calculates the variable quantity of the angle between the shifting axle that the reference axis that obtains from the first dot information that obtains and second origin information and first endpoint information and second endpoint information from acquisition obtain, and change the angle of the axle that connects viewpoint and reference point based on the above-mentioned angle variable quantity that calculates, described viewpoint is represented the summit, foremost as the cone of the vision external form in projection three-dimensional coordinate space, reference point is represented the center of projection surface, change under the state of angle of above-mentioned axle thereby be controlled at respect to the three-dimensional coordinate space, object is as the demonstration on the display screen of projection surface.
10, according to the described Message Display Terminal of claim 1, wherein
According to the distinctive two-dimensional coordinate information of object, the above-mentioned object of configuration on the two-dimensional coordinate plane, a plurality of objects constitute with a plurality of objects object that partly overlapping at least mode is arranged on display screen row,
First operation information comprises the first dot information and first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Second operation information comprises second origin information that obtains simultaneously with the first dot information and second endpoint information that obtains simultaneously with first endpoint information, the positional information that obtains as mobile status according to the contact point that on the contact detection surface, detects,
Indicative control unit is specified the top object that is included in the special object row on display screen according to the first dot information that obtains, specify the rearmost object that is included in the above-mentioned object row according to second origin information that obtains, first endpoint information that link obtains and the position of top object migration, and second endpoint information of link acquisition and the position of rearmost object migration, control shows, the a plurality of objects that are included in the object row are moved, to change the overlapping degree between the object.
11, according to the described Message Display Terminal of claim 1, wherein
As second operational zone that is arranged on the lip-deep operand of contact detection on the opposite side surface with display screen less than as being arranged on first operational zone of the lip-deep operand of contact detection on the display screen,
Indicative control unit is adjusted, and makes positional information from the display screen that second operational zone obtains corresponding to the positional information on the display screen that obtains first operational zone.
12, according to the described Message Display Terminal of claim 11, also comprise an operational zone information setting unit, be used for second operation information that obtains according to for each user, be provided for specifying the operational zone information of the scope of second operational zone.
13, according to the described Message Display Terminal of claim 12, also comprise an operational zone information memory cell, be used to preserve the operational zone information that the unit setting is set by the operational zone, wherein
Response is from specific user's change request, and indicative control unit is read specific user's operational zone information from the operational zone information memory cell, and the scope of second operational zone is set.
14, according to the described Message Display Terminal of claim 12, also comprise an operational zone information memory cell, be used to preserve a plurality of operational zones information that conforms to the direction of using display screen, wherein
Indicative control unit determines to use the direction of display screen, reads the operational zone information that conforms to the direction of using display screen from the operational zone information memory cell, and the scope of second operational zone is set.
15, according to the described Message Display Terminal of claim 14, wherein indicative control unit determines to use the direction of display screen according to second operation information that obtains from the user.
16,, wherein also comprise an acceleration transducer, wherein according to the described Message Display Terminal of claim 14
Indicative control unit determines to use the direction of display screen according to the testing result of acceleration transducer.
17, according to the described Message Display Terminal of claim 1, wherein
A plurality of objects form object row, and can be arranged in the state that initial position and described a plurality of object be arranged in sliding position with overlapping at least and show this object row according to a plurality of objects are superimposed,
The indicative control unit basis is included in the primary importance information in first operation information and/or is included in the state that obtains of the second place information in second operation information, with the show state of object row, control is used for the demonstration of operand row and is used to operate the demonstration of the object that constitutes the object row.
18, according to the described Message Display Terminal of claim 17, the wherein demonstration of indicative control unit controlling object row, make therein after foundation primary importance information appointed object row, a plurality of objects of formation object row are displayed on initial position or are presented under the state of sliding position, obtain under the situation of second place information, the continuous variation of the primary importance information that obtains continuously in the schedule time of response after obtaining second place information, the lap between the object changes and a plurality of object is moved.
19, according to the described Message Display Terminal of claim 18, wherein
At a plurality of objects that place above-mentioned object row, the object that is placed in the front side on display screen is compared with the object that places rear side and is shown biglyyer with overlapping at least,
The demonstration of indicative control unit controlling object row, so that the continuous variation of the primary importance information that a plurality of object responses obtain continuously, and be moved, change the lap between the object simultaneously, lap between the object is more little, object is just more towards preceding side shifting and be shown greatly more, and the lap between the object is big more, and object just moves and is shown more for a short time towards rear side more.
20, according to the described Message Display Terminal of claim 18, wherein
At a plurality of objects that place above-mentioned object row, the object that is placed in the front side on display screen is compared with the object that places rear side and is shown biglyyer with overlapping at least,
The demonstration of indicative control unit controlling object row, so that do not arranged under the situation about showing overlappingly at a plurality of objects that form the object row, a plurality of objects move to the foremost, thereby with the demonstration of being tabulated of identical size.
21, according to the described Message Display Terminal of claim 20, the wherein demonstration of indicative control unit controlling object row is so that when a plurality of objects during towards preceding side shifting, described a plurality of objects quilts are shown biglyyer.
22, according to the described Message Display Terminal of claim 20, the wherein demonstration of indicative control unit controlling object is so that therein under the state that a plurality of objects are shown by tabulating, under the situation according to primary importance information appointed object, show the content of this object.
23, according to the described Message Display Terminal of claim 17, the wherein demonstration of indicative control unit controlling object row, so that therein after foundation primary importance information appointed object row, show at sliding position under the state of a plurality of objects that form the object row, do not obtain under the situation of first and second positional informations in the given time, the a plurality of objects that form the object row move to initial position, and overlapping arrangement.
24, according to the described Message Display Terminal of claim 17, the wherein demonstration of indicative control unit controlling object row so that object be listed as along with after foundation primary importance information appointed object row, a plurality of objects of forming the object row are displayed under the state of initial position the continuous variation of the primary importance information of acquisition continuously and move.
25, according to the described Message Display Terminal of claim 17, the wherein demonstration of indicative control unit controlling object, so that when after foundation primary importance information appointed object row, when under a plurality of objects that form the object row are displayed on the state of initial position, having obtained the primary importance information of appointed object row not or second place information, form in a plurality of objects of appointed object row one object as focus under the situation that obtains primary importance information, transfer to another object that places one of this object front side or rear side on the display screen, under the situation that obtains second place information, transfer to another object that places this object of focus front side or rear side opposite side on the display screen.
26, a kind of on display screen the method for information display of the object of display graphics user interface, described method comprises the steps:
By obtaining to comprise first operation information of the positional information on the display screen with the contact detection of the overlapping setting of display screen surface;
By the contact detection surface that is arranged on the opposite side surface with display screen, obtain to comprise second operation information of the positional information on the display screen; With
According to first operation information and second operation information that obtain, the demonstration of controlling object on display screen.
27, a kind of program, described program make computing machine carry out the method for information display of the object of display graphics user interface on display screen, wherein
Described method for information display comprises the steps:
By obtaining to comprise first operation information of the positional information on the display screen with the contact detection of the overlapping setting of display screen surface;
By the contact detection surface that is arranged on the opposite side surface with display screen, obtain to comprise second operation information of the positional information on the display screen; With
According to first operation information and second operation information that obtain, the demonstration of controlling object on display screen.
CN200810171373XA 2007-12-07 2008-10-23 Information display terminal, information display method and program Active CN101452366B (en)

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
JP2007-317720 2007-12-07
JP2007317720 2007-12-07
JP2007317720 2007-12-07
JP2008175839 2008-07-04
JP2008175839A JP4557058B2 (en) 2007-12-07 2008-07-04 Information display terminal, information display method, and program
JP2008-175839 2008-07-04

Publications (2)

Publication Number Publication Date
CN101452366A true CN101452366A (en) 2009-06-10
CN101452366B CN101452366B (en) 2012-07-04

Family

ID=40734625

Family Applications (1)

Application Number Title Priority Date Filing Date
CN200810171373XA Active CN101452366B (en) 2007-12-07 2008-10-23 Information display terminal, information display method and program

Country Status (2)

Country Link
JP (1) JP4557058B2 (en)
CN (1) CN101452366B (en)

Cited By (24)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102098469A (en) * 2009-12-15 2011-06-15 索尼公司 Information processing apparatus, information processing method and program
CN102147703A (en) * 2010-02-05 2011-08-10 Lg电子株式会社 Electronic device and method for providing user interface
CN102214064A (en) * 2010-04-09 2011-10-12 索尼公司 Information processing apparatus, information processing method, and program
CN102236521A (en) * 2011-04-13 2011-11-09 南昊(北京)科技有限公司 Display method for interactive system
CN102541432A (en) * 2010-11-05 2012-07-04 Lg电子株式会社 Mobile terminal, method for controlling mobile terminal, and method for displaying image of mobile terminal
CN102568532A (en) * 2010-12-27 2012-07-11 索尼公司 Electronic apparatus, display control method and program
CN102576282A (en) * 2009-09-02 2012-07-11 索尼公司 Operation control device, operation control method and computer program
CN102576289A (en) * 2009-10-07 2012-07-11 三星电子株式会社 Method for providing gui using motion and display apparatus applying the same
CN102622158A (en) * 2011-01-28 2012-08-01 联想(北京)有限公司 Rotating control method and electronic equipment
CN102687406A (en) * 2009-10-07 2012-09-19 三星电子株式会社 Method for providing user interface and mobile terminal using the same
CN102681760A (en) * 2011-01-05 2012-09-19 索尼公司 Information processing apparatus, information processing method, and computer program
CN102855075A (en) * 2011-06-30 2013-01-02 联想(北京)有限公司 Control display method, control display device and electronic equipment
CN103080883A (en) * 2010-08-20 2013-05-01 三星电子株式会社 Method of configuring menu screen, user device for performing the method and computer-readable storage medium having recorded thereon program for executing the method
CN103262016A (en) * 2010-12-10 2013-08-21 三星电子株式会社 Method and system for displaying screens on the touch screen of a mobile device
CN103365567A (en) * 2012-03-31 2013-10-23 三星电子(中国)研发中心 3D-UI operation method and device based on acceleration inductor
CN103376999A (en) * 2012-04-23 2013-10-30 华晶科技股份有限公司 Handheld electronic device and digital information image control method thereof
CN103793144A (en) * 2014-02-20 2014-05-14 广州市久邦数码科技有限公司 Implementing method and system for icon array in drag and drop mode
CN104133609A (en) * 2013-05-02 2014-11-05 三星电子株式会社 Method and apparatus for managing file using thumbnail
CN104345457A (en) * 2013-08-01 2015-02-11 精工爱普生株式会社 Display device, head mounted display, display system, and control method for display device
CN104951221A (en) * 2014-03-26 2015-09-30 联想(北京)有限公司 Touch operation response method and electronic device
CN102576289B (en) * 2009-10-07 2016-12-14 三星电子株式会社 The display device of the methods and applications the method for the graphic user interface using motion is provided
US9898164B2 (en) 2010-12-28 2018-02-20 Samsung Electronics Co., Ltd Method for moving object between pages and interface apparatus
CN109792481A (en) * 2016-09-27 2019-05-21 富士胶片株式会社 The display control program of camera, the display control method of camera and camera
CN110109366A (en) * 2019-04-30 2019-08-09 广东美的制冷设备有限公司 Household appliance and its information display control method, device and mobile terminal

Families Citing this family (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US8922592B2 (en) 2009-11-30 2014-12-30 Pioneer Corporation Map display device, map display method, map display program, and computer-readable recording medium
JP5515752B2 (en) * 2010-01-08 2014-06-11 カシオ計算機株式会社 Display processing apparatus, display processing method, and display processing program
JP5668355B2 (en) 2010-08-04 2015-02-12 ソニー株式会社 Information processing apparatus, information processing method, and computer program
JP6133451B2 (en) * 2010-09-15 2017-05-24 京セラ株式会社 Portable electronic device, screen control method, and screen control program
KR101915615B1 (en) 2010-10-14 2019-01-07 삼성전자주식회사 Apparatus and method for controlling user interface based motion
JP5728235B2 (en) * 2011-01-05 2015-06-03 ソニー株式会社 Display control apparatus, display control method, and program
JP5716503B2 (en) 2011-04-06 2015-05-13 ソニー株式会社 Information processing apparatus, information processing method, and computer program
JP5716502B2 (en) 2011-04-06 2015-05-13 ソニー株式会社 Information processing apparatus, information processing method, and computer program
JP5734732B2 (en) * 2011-05-11 2015-06-17 株式会社Nttドコモ Display device, display control method, and program
EP2763010A4 (en) * 2011-09-26 2015-06-03 Nec Casio Mobile Comm Ltd Mobile information processing terminal
JP5942375B2 (en) 2011-10-04 2016-06-29 ソニー株式会社 Information processing apparatus, information processing method, and computer program
JP2013117885A (en) 2011-12-02 2013-06-13 Nintendo Co Ltd Information processing program, information processing equipment, information processing system and information processing method
EP3082032A1 (en) 2012-02-08 2016-10-19 NEC Corporation Mobile terminal and operation method therefor
US9904457B2 (en) * 2012-04-25 2018-02-27 Nokia Technologies Oy Causing display of a three dimensional graphical user interface with dynamic selectability of items
KR101341737B1 (en) * 2012-06-21 2013-12-16 주식회사 팬택 Apparatus and method for controlling terminal using touch the back of the terminal
JP6084021B2 (en) * 2012-12-04 2017-02-22 富士通テン株式会社 Display system, display device, display method, and program
JP2014174808A (en) * 2013-03-11 2014-09-22 Sharp Corp Portable terminal and system for displaying video
JP6052399B2 (en) 2013-04-26 2016-12-27 富士通株式会社 Image processing program, image processing method, and information terminal
JP6225546B2 (en) 2013-08-02 2017-11-08 セイコーエプソン株式会社 Display device, head-mounted display device, display system, and display device control method
JP6095527B2 (en) * 2013-09-04 2017-03-15 レノボ・シンガポール・プライベート・リミテッド Portable information processing apparatus, data processing method thereof, and computer-executable program
JP6232940B2 (en) * 2013-11-01 2017-11-22 富士ゼロックス株式会社 Image information processing apparatus and program
JP6472108B1 (en) * 2018-07-04 2019-02-20 株式会社タッグ Information display device, information display system, information management system, information display method, information management method, and program

Family Cites Families (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6330928A (en) * 1986-07-25 1988-02-09 Hitachi Ltd Input/output device
US6597347B1 (en) * 1991-11-26 2003-07-22 Itu Research Inc. Methods and apparatus for providing touch-sensitive input in multiple degrees of freedom
JP2000105772A (en) * 1998-07-28 2000-04-11 Sharp Corp Information managing device
JP2000200147A (en) * 1999-01-06 2000-07-18 Fujitsu Takamisawa Component Ltd Input device
JP4803883B2 (en) * 2000-01-31 2011-10-26 キヤノン株式会社 Position information processing apparatus and method and program thereof.
JP4582863B2 (en) * 2000-05-22 2010-11-17 株式会社バンダイナムコゲームス Stereoscopic image display device and information storage medium
JP2001356878A (en) * 2000-06-14 2001-12-26 Hitachi Ltd Icon control method
JP2002073237A (en) * 2000-08-25 2002-03-12 Ricoh Co Ltd Graphical user interface
JP2003150308A (en) * 2001-11-15 2003-05-23 Seiko Epson Corp Display device
JP3730923B2 (en) * 2002-02-06 2006-01-05 株式会社ジャストシステム Icon display device, icon display method, and program for causing computer to execute the method
JP3852368B2 (en) * 2002-05-16 2006-11-29 ソニー株式会社 Input method and data processing apparatus
JP2004070920A (en) * 2002-06-11 2004-03-04 Sony Computer Entertainment Inc Information processing program, computer readable recording medium recording information processing program, information processing method and information processor
JP2004113386A (en) * 2002-09-25 2004-04-15 Sun Corp Displaying method
JP2004295159A (en) * 2003-02-07 2004-10-21 Sony Corp Icon display system and method, electronic equipment, and computer program
CN101308442B (en) * 2004-10-12 2012-04-04 日本电信电话株式会社 3d pointing method and 3d pointing device
CN1866180A (en) * 2005-05-17 2006-11-22 英华达股份有限公司 Mobile communication device
KR100672605B1 (en) * 2006-03-30 2007-01-24 엘지전자 주식회사 Method for selecting items and terminal therefor
JP2007272468A (en) * 2006-03-30 2007-10-18 Sony Corp Information processing device, method, and program
JP4799261B2 (en) * 2006-05-02 2011-10-26 株式会社ソニー・コンピュータエンタテインメント Image display apparatus, control method thereof, and program

Cited By (43)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102576282A (en) * 2009-09-02 2012-07-11 索尼公司 Operation control device, operation control method and computer program
CN102576282B (en) * 2009-09-02 2015-11-25 索尼公司 Operational control unit and method of controlling operation thereof
CN102687406A (en) * 2009-10-07 2012-09-19 三星电子株式会社 Method for providing user interface and mobile terminal using the same
US9495066B2 (en) 2009-10-07 2016-11-15 Samsung Electronics Co., Ltd. Method for providing GUI using motion and display apparatus applying the same
CN102576289A (en) * 2009-10-07 2012-07-11 三星电子株式会社 Method for providing gui using motion and display apparatus applying the same
CN102687406B (en) * 2009-10-07 2015-03-25 三星电子株式会社 Method for providing user interface and mobile terminal using the same
US9841869B2 (en) 2009-10-07 2017-12-12 Samsung Electronics Co., Ltd. Method for providing GUI using motion and display apparatus applying the same
CN102576289B (en) * 2009-10-07 2016-12-14 三星电子株式会社 The display device of the methods and applications the method for the graphic user interface using motion is provided
CN102098469B (en) * 2009-12-15 2015-08-19 索尼公司 Messaging device, information processing method
CN102098469A (en) * 2009-12-15 2011-06-15 索尼公司 Information processing apparatus, information processing method and program
CN102147703A (en) * 2010-02-05 2011-08-10 Lg电子株式会社 Electronic device and method for providing user interface
US11714545B2 (en) 2010-04-09 2023-08-01 Sony Corporation Information processing apparatus, information processing method, and program for changing layout of display objects
CN102214064A (en) * 2010-04-09 2011-10-12 索尼公司 Information processing apparatus, information processing method, and program
CN103080883A (en) * 2010-08-20 2013-05-01 三星电子株式会社 Method of configuring menu screen, user device for performing the method and computer-readable storage medium having recorded thereon program for executing the method
US10684767B2 (en) 2010-08-20 2020-06-16 Samsung Electronics Co., Ltd Method of configuring menu screen, user device for performing the method and computer-readable storage medium having recorded thereon program for executing the method
CN102541432B (en) * 2010-11-05 2017-10-20 Lg电子株式会社 The method for displaying image of mobile terminal and its control method and mobile terminal
US9110564B2 (en) 2010-11-05 2015-08-18 Lg Electronics Inc. Mobile terminal, method for controlling mobile terminal, and method for displaying image of mobile terminal
CN102541432A (en) * 2010-11-05 2012-07-04 Lg电子株式会社 Mobile terminal, method for controlling mobile terminal, and method for displaying image of mobile terminal
CN103262016A (en) * 2010-12-10 2013-08-21 三星电子株式会社 Method and system for displaying screens on the touch screen of a mobile device
CN103262016B (en) * 2010-12-10 2017-10-27 三星电子株式会社 For the method and apparatus by screen display on the touch-screen of mobile device
US9405454B2 (en) 2010-12-10 2016-08-02 Samsung Electronics Co., Ltd. Method and system for displaying screens on the touch screen of a mobile device
US9496005B2 (en) 2010-12-27 2016-11-15 Sony Corporation Electronic apparatus, display control method and program for displaying an image for selecting a content item to be reproduced
CN102568532A (en) * 2010-12-27 2012-07-11 索尼公司 Electronic apparatus, display control method and program
US9898164B2 (en) 2010-12-28 2018-02-20 Samsung Electronics Co., Ltd Method for moving object between pages and interface apparatus
CN102681760A (en) * 2011-01-05 2012-09-19 索尼公司 Information processing apparatus, information processing method, and computer program
CN102681760B (en) * 2011-01-05 2016-06-29 索尼公司 Messaging device and information processing method
CN102622158B (en) * 2011-01-28 2015-07-29 联想(北京)有限公司 Method of controlling rotation and electronic equipment
CN102622158A (en) * 2011-01-28 2012-08-01 联想(北京)有限公司 Rotating control method and electronic equipment
CN102236521A (en) * 2011-04-13 2011-11-09 南昊(北京)科技有限公司 Display method for interactive system
CN102236521B (en) * 2011-04-13 2017-01-25 北京南昊科技股份有限公司 Display method for interactive system
CN102855075B (en) * 2011-06-30 2015-06-03 联想(北京)有限公司 Control display method, control display device and electronic equipment
CN102855075A (en) * 2011-06-30 2013-01-02 联想(北京)有限公司 Control display method, control display device and electronic equipment
CN103365567A (en) * 2012-03-31 2013-10-23 三星电子(中国)研发中心 3D-UI operation method and device based on acceleration inductor
CN103376999A (en) * 2012-04-23 2013-10-30 华晶科技股份有限公司 Handheld electronic device and digital information image control method thereof
CN104133609B (en) * 2013-05-02 2018-12-14 三星电子株式会社 Method and apparatus for using thumbnail management file
CN104133609A (en) * 2013-05-02 2014-11-05 三星电子株式会社 Method and apparatus for managing file using thumbnail
CN104345457A (en) * 2013-08-01 2015-02-11 精工爱普生株式会社 Display device, head mounted display, display system, and control method for display device
CN103793144A (en) * 2014-02-20 2014-05-14 广州市久邦数码科技有限公司 Implementing method and system for icon array in drag and drop mode
CN104951221B (en) * 2014-03-26 2018-08-10 联想(北京)有限公司 Respond the method and electronic equipment of touch operation
CN104951221A (en) * 2014-03-26 2015-09-30 联想(北京)有限公司 Touch operation response method and electronic device
CN109792481A (en) * 2016-09-27 2019-05-21 富士胶片株式会社 The display control program of camera, the display control method of camera and camera
US10785416B2 (en) 2016-09-27 2020-09-22 Fujifilm Corporation Camera, display control method of camera, and display control program of camera
CN110109366A (en) * 2019-04-30 2019-08-09 广东美的制冷设备有限公司 Household appliance and its information display control method, device and mobile terminal

Also Published As

Publication number Publication date
JP2009157908A (en) 2009-07-16
CN101452366B (en) 2012-07-04
JP4557058B2 (en) 2010-10-06

Similar Documents

Publication Publication Date Title
CN101452366B (en) Information display terminal, information display method and program
US11003304B2 (en) Information display terminal, information display method and program
CN101650634B (en) Display apparatus and display method
JP5379250B2 (en) Input device, information processing device, and input value acquisition method
CN104736969B (en) information display device and display information operation method
CN104737221B (en) Information display device and display information operation method
CN105867531B (en) Portable device comprising touch-screen display and the method for controlling it
US8593408B2 (en) Electronic document reproduction apparatus and reproducing method thereof
US9223475B1 (en) Bookmark navigation user interface
US9367227B1 (en) Chapter navigation user interface
WO2013018480A1 (en) User interface device comprising touch pad for shrinking and displaying source image within screen capable of touch input, input processing method and program
US20060007179A1 (en) Multi-functional touch actuation in electronic devices
US20050168488A1 (en) Combination tool that zooms in, zooms out, pans, rotates, draws, or manipulates during a drag
US20080001928A1 (en) Driving method and input method, for touch panel
JP2007148927A (en) Input device and scrolling control method using the same
CN104137043A (en) Method for human-computer interaction on a graphical user interface (gui)
JP2014219992A (en) Input device, information processing device, and input value acquisition method
CN101178631A (en) Computer system and method thereof
CN101211250A (en) Method to provide menu, using menu set and multimedia device using the same
TW200403582A (en) Portable information terminal, display control device, display control method, and display control program
KR20140074141A (en) Method for display application excution window on a terminal and therminal
CN102934067A (en) Information processing system, operation input device, information processing device, information processing method, program and information storage medium
JP6106357B2 (en) Multi-page sorting for portable device menu items
CN105378622A (en) Document browsing device, method for turning over pages of electronic document, and program
JP2009276819A (en) Method for controlling pointing device, pointing device and computer program

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant