CN102750107A - Single-hand operation method of large-screen handheld electronic device and device - Google Patents

Abstract

The invention relates to a single-hand operation method of a large-screen handheld electronic device. The large-screen handheld electronic device comprises a gravity sensor and a graphical user interface (GUI). The single-hand operation method of the large-screen handheld electronic device includes that GUI of the large-screen handheld electronic device is displayed; whether a user tilts the large-screen handheld electronic device is judged, if yes, output signals of the gravity sensor are obtained; otherwise the operation is ended to enter next judgment; the output signals of the gravity sensor are obtained, the GUI is integrally translated along the tilted direction of the large-screen handheld electronic device indicated by the output signals, and the translation distance of the GUI is less than the dimension of the GUI in the translation direction; and the operation is ended to enter next judgment. The invention further provides a device for achieving the method. The single-hand operation method of the large-screen handheld electronic device and the device have the advantages of being strong in usability and convenient to operate and enhancing user experience.

Description

A kind of method and device of giant-screen hand-hold electronic equipments one-handed performance

Technical field

The present invention relates to moving communicating field, more particularly, relate to a kind of method and device of giant-screen hand-hold electronic equipments one-handed performance.

Background technology

Along with development of science and technology, various functionality of handheld electronic devices when possessing communication function, possess storage and amusement function again from strength to strength.Hand-hold electronic equipments has become a kind of necessity in people's daily life, and for example: mobile phone is brought into play big emphatically effect in people's daily life.Along with the fast development of hand-hold electronic equipments, touch screen also occurs in succession and obtains large development.Touch screen (Touch panel) is called contact panel again; It is the induction type liquid crystal indicator that can receive input signal such as contact; When having contacted the graphic button on the screen; Haptic feedback system on the screen can drive various coupling arrangements according to the formula of programming in advance, can be in order to the push button panel of dessert machine tool formula, and produce lively visual and sound effects by liquid crystal display picture.

At present, the hand-hold electronic equipments screen on the market is increasing, has brought better user experience to the user on the one hand, browses more information and information simultaneously.But in operating aspect, what cause because of the continuous increase of screen that a lot of functions become can't singlehanded complete operation, must both hands are collaborative just can accomplish.For hand-hold electronic equipments, aspect ease for use, will be short of to some extent like this, cause operation inconvenience, influence user experience.

Summary of the invention

The technical matters that the present invention will solve is; The defective that above-mentioned ease for use to prior art is strong, operation is inconvenient, influence user experience provides a kind of ease for use is stronger, easy to operate, strengthen the giant-screen hand-hold electronic equipments one-handed performance of user experience method and device.

The technical solution adopted for the present invention to solve the technical problems is: construct a kind of method of giant-screen hand-hold electronic equipments one-handed performance, said giant-screen hand-hold electronic equipments comprises gravity sensor and gui interface, comprises the steps:

A) gui interface of the said giant-screen hand-hold electronic equipments of demonstration;

B) the judges said giant-screen hand-hold electronic equipments that whether tilts, in this way, execution in step C); Otherwise, execution in step D);

C) obtain the output signal of said gravity sensor, and along the giant-screen hand-hold electronic equipments vergence direction of said output signal indication with said gui interface integral translation, the distance of its translation is less than the size of said gui interface at said translation direction;

D) finish this operation and return step B).

In the method for giant-screen hand-hold electronic equipments one-handed performance of the present invention, said step B) further comprise:

B1) prepare to start working;

B2) judge whether said gravity sensor has signal output, in this way, execution in step C); Otherwise, execution in step D).

In the method for giant-screen hand-hold electronic equipments one-handed performance of the present invention, said step C) further comprise:

C1) obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

C2) with the said current vergence direction in said gui interface edge unit distance of speed integral translation to set;

C3) judgement whether less than preset setpoint distance, in this way, is returned step C2 in the distance of gui interface translation described in this translation); Otherwise, stop to carry out translation and execution in step D); Said setpoint distance is less than the size of said gui interface at said translation direction.

In the method for giant-screen hand-hold electronic equipments one-handed performance of the present invention, said unit distance comprises 1-10 the length that display pixel had of said giant-screen hand-hold electronic equipments display screen; Said setpoint distance is greater than said unit distance and be its integral multiple.

In the method for giant-screen hand-hold electronic equipments one-handed performance of the present invention, said step C) further comprise:

C1 ') obtains the output signal of said gravity sensor and be current vergence direction with said output signal map;

C2 ') with the said current vergence direction in said gui interface edge preset setpoint distance of speed integral translation to set; Said setpoint distance is less than the size of said gui interface at said translation direction.

The invention still further relates to a kind of device of realizing said method, comprising:

Gui interface display module: the gui interface that is used to show said giant-screen hand-hold electronic equipments;

Heeling condition judge module: be used for the judges said giant-screen hand-hold electronic equipments that whether tilts, in this way, further obtain the output signal of said gravity sensor;

Signal is obtained and interface translation module: the output signal that is used to obtain said gravity sensor; And along the giant-screen hand-hold electronic equipments vergence direction of said output signal indication with said gui interface integral translation, the distance of its translation is less than the size of said gui interface at said translation direction;

Finish judge module: be used to finish this operation and return next time and judge.

In device of the present invention, said heeling condition judge module further comprises:

Ready unit: be used for preparing to start working;

Signal output judging unit: be used to judge whether said gravity sensor has signal output, in this way, obtains the output signal of said gravity sensor.

In device of the present invention, said signal is obtained and interface translation module further comprises:

Signal is obtained and the vergence direction map unit: be used to obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

Interface unit's translation unit: be used for said gui interface along said current vergence direction unit distance of speed integral translation to set;

Translation distance judging unit: be used to judge that distance in the translation of gui interface described in this translation whether less than preset setpoint distance, in this way, proceeds next unit distance translation; Otherwise, stop to carry out translation; Said setpoint distance is less than the size of said gui interface at said translation direction.

In device of the present invention, said unit distance comprises 1-10 the length that display pixel had of said giant-screen hand-hold electronic equipments display screen; Said setpoint distance is greater than said unit distance and be its integral multiple.

In device of the present invention, said signal is obtained and interface translation module further comprises:

Signal is obtained and the vergence direction map unit: be used to obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

Interface setting is apart from translation unit: be used for said gui interface along said current vergence direction preset setpoint distance of speed integral translation to set; Said setpoint distance is less than the size of said gui interface at said translation direction.

Whether the method and the device of the giant-screen hand-hold electronic equipments one-handed performance of embodiment of the present invention have following beneficial effect: owing to have signal to export the judges giant-screen hand-hold electronic equipments that whether tilts through detecting gravity sensor; When the user tilts the giant-screen hand-hold electronic equipments; Gravity sensor has signal output, obtains the output signal of gravity sensor, and should to export signal map be current vergence direction; Gui interface carries out parallel moving along said vergence direction; Even the zone that one-handed performance can't touch moves to the interior user of confession of the scope one-handed performance of one-hand operation, make the user when being hold by one hand the giant-screen hand-hold electronic equipments, can carry out the zone that one-handed performance can't touch; But the user operates after the completion horizontal or tilts in the other direction, recovers the normal display state of screen; So its ease for use is stronger, easy to operate, strengthen user experience.

Description of drawings

Fig. 1 is the method for giant-screen hand-hold electronic equipments one-handed performance of the present invention and installs the process flow diagram of method among the embodiment;

Fig. 2 judges the particular flow sheet that whether the giant-screen hand-hold electronic equipments tilts and gui interface carries out the unit distance translation among the said embodiment;

Fig. 3 judges the particular flow sheet that whether the giant-screen hand-hold electronic equipments tilts and gui interface carries out the setpoint distance translation among the said embodiment;

Fig. 4 is the structural representation that installs among the said embodiment;

Fig. 5 is the structural representation of said embodiment medium dip condition judgment module;

Fig. 6 is that signal is obtained and interface translation module structural representation in one case among the said embodiment;

Fig. 7 is that signal is obtained and the structural representation of translation module in interface under another kind of situation among the said embodiment;

Fig. 8 is the structural representation of giant-screen hand-hold electronic equipments among the said embodiment;

Fig. 9 is a view before gui interface moves when being in dialing interface among the said embodiment;

Figure 10 is the synoptic diagram of a state in the gui interface moving process when being in dialing interface among the said embodiment;

Figure 11 is the synoptic diagram of gui interface mobile end state when being in dialing interface among the said embodiment;

Figure 12 is a view before gui interface moves when being in menu interface among the said embodiment;

Figure 13 is the synoptic diagram of a state in the gui interface moving process when being in menu interface among the said embodiment;

Figure 14 is the synoptic diagram of gui interface mobile end state when being in menu interface among the said embodiment.

Embodiment

Can understand and embodiment of the present invention for the ease of those of ordinary skill in the art, will combine accompanying drawing that the embodiment of the invention is described further below.

In the method and device embodiment of giant-screen hand-hold electronic equipments one-handed performance of the present invention; The process flow diagram of its method is as shown in Figure 1, and this large-size screen monitors hand-hold electronic equipments comprises gravity sensor (Gravity-sensor writes a Chinese character in simplified form G-sensor) and gui interface (Graphical User Interface; Be called for short GUI; Graphic user interface is claimed graphical user interface again), this method comprises the steps:

Step S10 shows the gui interface of giant-screen hand-hold electronic equipments: before work, also promptly carry out screen translation (parallel moving) and at first carry out this step S10 before, promptly show the gui interface of giant-screen hand-hold electronic equipments; Certainly, under the certain situation of present embodiment, when the gui interface of giant-screen hand-hold electronic equipments has been in show state, then need not carry out this step again, directly carry out subsequent step.What deserves to be mentioned is; Giant-screen hand-hold electronic equipments in the present embodiment is for having the giant-screen mobile phone of touch screen (being touch-screen); Certainly; Under some other situation of present embodiment, this giant-screen hand-hold electronic equipments also can have the giant-screen portable electric appts of touch screen (touch-screen) for other.

The step S11 judges giant-screen hand-hold electronic equipments that tilts? In this step; With the surface level is reference field; When giant-screen hand-hold electronic equipments horizontal positioned (at this moment touch screen is parallel with reference field), at this moment the angle of giant-screen hand-hold electronic equipments and reference field is 0; Certainly, consider the user the time with giant-screen hand-hold electronic equipments horizontal positioned, might with absolute some error of surface level (being reference field in the present embodiment); For this reason, in the present embodiment, preset a level thresholds angle; Whether judges tilts the giant-screen hand-hold electronic equipments (in the present embodiment; The giant-screen hand-hold electronic equipments is the giant-screen mobile phone that has touch screen or touch-screen), specifically, whether the angle of judging giant-screen hand-hold electronic equipments and reference field exactly is greater than above-mentioned level thresholds angle; If angle, explains then that the giant-screen hand-hold electronic equipments is in heeling condition greater than the level thresholds angle; If angle is less than or equal to the level thresholds angle, explain that then the giant-screen hand-hold electronic equipments is in horizontality, what deserves to be mentioned is, if judged result is for being execution in step S12; Otherwise, execution in step S13.

Step S12 obtains the output signal of gravity sensor; And along giant-screen hand-hold electronic equipments vergence direction with the gui interface integral translation: because gravity sensor can perceive the variation of accelerating force; Accelerating force is exactly in accelerator, to act on the power on the object when object, such as rocking, fall, rise, descend the various mobile variations of degradation to be converted into electric signal by G-sensor, then through after the computational analysis of microprocessor; Can accomplish the good function of program design; Can be such as MP3 according to user's whipping direction, song is changed in front and back, also can calculate user's pace of progress when putting pocket into.In giant-screen hand-hold electronic equipments (being the giant-screen mobile phone that has touch screen or touch-screen in the present embodiment), use this technology; Can carry out corresponding software application according to user's action; Such as recreation, the user waves mobile phone, and recreation also has corresponding reaction; Gravity sensor in the present embodiment also can be an acceleration transducer.In this step, obtain the output signal of above-mentioned gravity sensor, and along the giant-screen hand-hold electronic equipments vergence direction of said output signal indication with above-mentioned gui interface integral translation, the distance of its translation is less than the size of gui interface at said translation direction; Specifically; The direction that tilts when the giant-screen hand-hold electronic equipments is not simultaneously; Gravity sensor output various signals, the different vergence direction of the corresponding giant-screen hand-hold electronic equipments of different output signals, gui interface carries out integral translation along current vergence direction; The distance that should be noted in the discussion above that the gui interface translation is less than the size of this gui interface at translation direction.

Step S13 finishes this operation: in this step, when the gui interface translation finishes, finish this operation and return step S11 and judge next time.

Judge in the present embodiment whether the giant-screen hand-hold electronic equipments tilts and gui interface to carry out the particular flow sheet of unit distance translation as shown in Figure 2, also be that above-mentioned steps S11-S12 specifically comprises the steps:

Step S20 prepares to start working: in this step, all devices in the giant-screen hand-hold electronic equipments is ready, then prepares to start working.

Does step S21 judge that gravity sensor has signal output? In this step; The giant-screen hand-hold electronic equipments if the user tilts; Measure because the acceleration that gravity causes through gravity sensor; The pitch angle (vergence direction) on a certain direction of giant-screen hand-hold electronic equipments relative datum face can be obtained,, the mode that the giant-screen hand-hold electronic equipments moves can be drawn through analyzing dynamic acceleration.In this step; The output signal of gravity sensor be acceleration of gravity in the space three axially on component value; During giant-screen hand-hold electronic equipments horizontal positioned; The output of its gravity sensor no signal, when the user at inclination giant-screen hand-hold electronic equipments and when acceleration is arranged, gravity sensor has signal output; In this step, if the result who judges is for being, execution in step S22 then, otherwise, execution in step S13.

Step S22 obtains the output signal of gravity sensor and is current vergence direction with said output signal map: in this step; If the gravity sensor that is judged as among the above-mentioned steps S21 has signal output; Then carry out this step; Obtain the output signal of above-mentioned gravity sensor and be current vergence direction said output signal map; Specifically be exactly the output signal of obtaining above-mentioned gravity sensor (in the present embodiment output signal be acceleration of gravity in the space three axially on component value) since acceleration of gravity in the space three axially on component value when inequality, the output signal of its gravity sensor is also different; Different output signal map is different vergence direction (pitch angle), also is the different corresponding different vergence directions (pitch angle) of output signal.What deserves to be mentioned is, execute this step, execution in step S23.

Step S23 with gui interface along current vergence direction unit distance of speed integral translation to set: present embodiment; During the gui interface translation; Be that translation is several times accomplished, in this step, with the current vergence direction in above-mentioned gui interface edge unit distance of speed integral translation to set; In the present embodiment; Predefined speed is the speed oneself set as required of user or the speed of system default, and the speed here is that gui interface one of which when translation moves how many distances, the i.e. distance of translation in the unit interval second; Above-mentioned unit distance comprises 1-10 the length that display pixel had of this giant-screen hand-hold electronic equipments display screen; Unit distance of a translation of gui interface what deserves to be mentioned is, executes this step, carries out step S24.

Does step S24 judge that the distance of gui interface translation in this translation is less than preset setpoint distance? In the present embodiment, whether the distance of judging above-mentioned gui interface translation in this translation in this way, returns step S23 less than preset setpoint distance; Otherwise, execution in step S25; Above-mentioned setpoint distance is less than the size of gui interface at translation direction.Above-mentioned setpoint distance is greater than said unit distance and be its integral multiple; In the present embodiment, gui interface carries out a plurality of unit distance translations in whole translation process, that is to say; After unit distance of gui interface translation; Then carry out the translation of next unit in this position, until gui interface in whole translation process the path of process reach preset setpoint distance, accomplish this translation.What deserves to be mentioned is, in the present embodiment, in the gui interface translation process, brush screen once at regular intervals, this time can be the time of system default, under the other situation, also setting-up time as required.

Step S25 stops to carry out translation: if the judged result among the above-mentioned steps S24 is then carried out this step for being, stop to carry out translation.What deserves to be mentioned is, execute this step and return step S13.

Under the other situation of present embodiment, during the gui interface translation, can be setpoint distance of a translation, i.e. the disposable translation of gui interface puts in place.Seeing also step the S22 '-S23 ' among Fig. 3, is to change the step S22-S24 among Fig. 2 among Fig. 3 step S22 '-S23 ' in fact; Introduce step S22 '-S23 ' below:

Step S22 ' obtains the output signal of gravity sensor and is current vergence direction with said output signal map: in this step; If the gravity sensor that is judged as among the above-mentioned steps S21 has signal output; Then carry out this step; Obtain the output signal of above-mentioned gravity sensor and be current vergence direction said output signal map; Specifically be exactly the output signal of obtaining above-mentioned gravity sensor (in the present embodiment output signal be acceleration of gravity in the space three axially on component value) since acceleration of gravity in the space three axially on component value when inequality, the output signal of its gravity sensor is also different; Different output signal map is different vergence direction (pitch angle), also is the different corresponding different vergence directions (pitch angle) of output signal.What deserves to be mentioned is, execute this step, execution in step S23 '.

Step S23 ' with gui interface along current vergence direction preset setpoint distance of speed integral translation to set: in this step, with above-mentioned gui interface along current vergence direction preset setpoint distance of speed integral translation to set; Said setpoint distance is less than the size of said gui interface at translation direction.What deserves to be mentioned is that setpoint distance of a translation of gui interface has just been accomplished this translation, executes this step, execution in step S13.

The invention still further relates to a kind of device of realizing said method, its structural representation is as shown in Figure 4, and the device in the present embodiment comprises gui interface display module 1, heeling condition judge module 2, signal is obtained and interface translation module 3 and end judge module 4; Wherein, gui interface display module 1 is used to show the gui interface of above-mentioned giant-screen hand-hold electronic equipments; The judges that the is used for heeling condition judge module 2 above-mentioned giant-screen hand-hold electronic equipments that whether tilts in this way, is further obtained the output signal of above-mentioned gravity sensor; Signal is obtained and interface translation module 3 is used to obtain the output signal of above-mentioned gravity sensor; And along the giant-screen hand-hold electronic equipments vergence direction of above-mentioned output signal indication with above-mentioned gui interface integral translation, the distance of its translation is less than the size of above-mentioned gui interface at above-mentioned translation direction; End judge module 4 is used to finish this operation and returns next time and judge.

As shown in Figure 5, in the present embodiment, above-mentioned heeling condition judge module 2 further comprises ready unit 21 and signal output judging unit 22; Wherein, ready unit 21 is used for preparing to start working; Signal output judging unit 22 is used to judge whether above-mentioned gravity sensor has signal output, in this way, obtains the output signal of gravity sensor.

As shown in Figure 6, in the present embodiment, above-mentioned signal is obtained and interface translation module 3 comprises that further signal is obtained and vergence direction map unit 31, interface unit's translation unit 32 and translation distance judging unit 33; Wherein, signal obtain and vergence direction map unit 31 to be used to obtain the output signal of above-mentioned gravity sensor and will to export signal map be current vergence direction; Interface unit's translation unit 32 is used for above-mentioned gui interface along current vergence direction unit distance of speed integral translation to set; Translation distance judging unit 33 is used for judging that distance in this translation gui interface translation whether less than preset setpoint distance, in this way, proceeds next unit distance translation; Otherwise, stop to carry out translation; Above-mentioned setpoint distance is less than the size of gui interface at translation direction.What deserves to be mentioned is that above-mentioned unit distance comprises 1-10 the length that display pixel had of above-mentioned giant-screen hand-hold electronic equipments display screen; Above-mentioned setpoint distance is greater than unit distance and be its integral multiple.

Under the other situation of present embodiment; Above-mentioned signal is obtained and interface translation module 3 also can be other structure; As shown in Figure 7, above-mentioned signal is obtained and interface translation module 3 comprises that signal is obtained and vergence direction map unit 31 and interface setting apart from translation unit 34; Wherein, signal obtain and vergence direction map unit 31 to be used to obtain the output signal of above-mentioned gravity sensor and will to export signal map be current vergence direction; Interface setting is used for above-mentioned gui interface along current vergence direction preset setpoint distance of speed integral translation to set apart from translation unit 34; Above-mentioned setpoint distance is less than the size of above-mentioned gui interface at translation direction.

In the present embodiment; The structural representation of giant-screen hand-hold electronic equipments is as shown in Figure 8; Among Fig. 8; This giant-screen hand-hold electronic equipments comprises storer 01, power-supply system 02, Memory Controller 031, CPU (central processing unit; Central Processing Unit writes a Chinese character in simplified form CPU) 032, Peripheral Interface 033, RF (radio frequency) circuit 04, external interface 05, voicefrequency circuit 06, loudspeaker 7, microphone 08, I/O (I/O) subsystem 09, gravity sensor 10, touch-screen 11 and other input/opertaing devices 12; Wherein, Memory Controller 031, CPU032 and Peripheral Interface 033 can be done on a chip 03, also can discretely be provided with; Storer 01 is connected with Memory Controller 031 1 ends; Peripheral Interface 033 is connected with the other end and the CPU032 of Memory Controller 031 respectively; One end of RF circuit 04, external interface 05 and voicefrequency circuit 06 is connected with chip 03 respectively; Loudspeaker 07 is connected with the other end of voicefrequency circuit 06 respectively with microphone 08, and I/O subsystem 09 is connected with Peripheral Interface 033; In the present embodiment; I/O subsystem 09 comprises gravity sensor controller 091, touch screen controller 092 and one or more other input controllers 093; Gravity sensor controller 091 is connected with gravity sensor 10; Touch screen controller 092 is connected with touch-screen 11, and one or more other input controllers 093 are connected with other input/opertaing devices 12; Power-supply system 02 is used for above-mentioned various assemblies are supplied power.

Fig. 9 is a view before gui interface moves when being in dialing interface in the present embodiment; In the present embodiment, direction has been done a regulation, X1 is a left, and X2 is right-hand, and Y1 is the top, and Y2 is the below, and the direction in the present embodiment in institute's drawings attached all adopts this regulation.Because the individual use habit of different user is different, the user's custom that has is taken with left hand, and the user's custom that has is taken with the right hand; For this reason, in the present embodiment, describe for ease; On gui interface, delimit one-handed performance zone and object run zone, the maneuverable zone of thumb when the screen electronic equipment is put on airs for user's hand in the one-handed performance zone, the target area is that thumb is not allowed easy-operating zone; Among Fig. 9; Gui interface is the dialing interface of giant-screen hand-hold electronic equipments (the giant-screen mobile phone of band touch screen or touch-screen), and f1 is the one-handed performance zone, and f2 is the object run zone; One-handed performance zone f1 is arranged in the left end of gui interface, and object run zone f2 is arranged in the right-hand member of gui interface; What deserves to be mentioned is; Different settings can be carried out according to the operating habit of different user in the position of f1 in gui interface, one-handed performance zone, and for example: when the user was accustomed to using left-handed operation, the one-handed performance zone possibly be arranged on the right-hand member in the gui interface; Certainly; According to the operating habit of particular user, corresponding setting is carried out in the position of one-handed performance zone in gui interface, to adapt to requirements of different users.Among Fig. 9, object run zone f2 is shifted in the scope of one-handed performance zone f1, with user-friendly this giant-screen hand-hold electronic equipments.The user is to left X1 inclination giant-screen hand-hold electronic equipments, and gravity sensor is exported signal, and should export signal map is vergence direction, and the object run zone f2 in the gui interface along inclined direction carries out translation, also promptly to the regional f1 translation of the one-handed performance of left.

Figure 10 is the synoptic diagram of a state in the gui interface moving process when being in dialing interface in the present embodiment; From Figure 10, see, object run in the touch-screen 11 zone f2 to left (to one-handed performance zone f1) translation certain distance.

Figure 11 is the synoptic diagram of gui interface mobile end state when being in dialing interface in the present embodiment; Among Figure 11, object run zone f2 has moved in the scope of one-handed performance zone f1.What deserves to be mentioned is; If the interface when making gui interface return to horizontal positioned; Then only need the giant-screen hand-hold electronic equipments is tilted until parallel with reference field to opposite direction (right-hand X2); At this moment the object run in gui interface zone f2 is to the opposite direction translation, the state before coming back to translation.

Under the other situation in the present embodiment; When the object run zone in the upper end that is arranged in gui interface; And the one-handed performance zone is when being arranged in the lower end of gui interface, and when will be with the object run zone during to the translation of one-handed performance zone, its principle be with above-mentioned to hold the principle of moving left level with both hands by right-hand member be the same; The direction of different the is user tilts giant-screen hand-hold electronic equipments is different, and the output signal of gravity sensor is different.A view before Figure 12 has provided gui interface when being in menu interface in the present embodiment and moves; Among Figure 12, f1 is the one-handed performance zone, and f2 is the object run zone, and one-handed performance zone f1 is arranged in the lower end of gui interface, and object run zone f2 is arranged in the upper end of gui interface; User's Y2 inclination downwards giant-screen hand-hold electronic equipments, gravity sensor output signal, should export signal map is vergence direction, the regional f2 of the object run in the gui interface along inclined direction carries out translation, also i.e. downwards the regional f1 translation of one-handed performance.

Figure 13 is the synoptic diagram of a state in the gui interface moving process when being in menu interface in the present embodiment; From Figure 13, see, object run in the touch-screen 11 zone f2 (to one-handed performance zone f1) translation downwards certain distance.

Figure 14 is the synoptic diagram of gui interface mobile end state when being in menu interface in the present embodiment, and among Figure 14, object run zone f2 has moved in the scope of one-handed performance zone f1.What deserves to be mentioned is; If the interface when making gui interface return to horizontal positioned; Then only need the giant-screen hand-hold electronic equipments is tilted until parallel with reference field to opposite direction (top Y1); At this moment the object run in gui interface zone f2 is to the opposite direction translation, the state before coming back to translation.

In a word, in the present embodiment, in the time of in object run zone f2 moves to the regional f1 scope of one-handed performance, the position at the original place of f2, object run zone is for blank or corresponding background picture is set.The one-handed performance method is to utilize gravity sensor to respond to a heeling condition of giant-screen hand-hold electronic equipments (the giant-screen mobile phone of band touch screen or touch-screen); Then according to vergence direction; The translation along inclined direction of the content whole on the giant-screen hand-hold electronic equipments screen; When the giant-screen hand-hold electronic equipments was hold by one hand, the zone that one-handed performance can't touch moved to and supplies user's one-handed performance in the scope of one-hand operation.But the user operates after the completion horizontal or tilts in the other direction, recovers the normal display state of screen.In addition, the direction of inclination is descended on can being, a left side, and the right sides etc. have the translation of different directions according to the different screen of vergence direction.In addition, the integral translation of screen (touch-screen) or gui interface, it doesn't matter with concrete application in the giant-screen hand-hold electronic equipments (mobile phone).For any interface, can accomplish the translation that screen is whole.Utilize the gravity sensing function of gravity sensor; Displaying contents on the screen is carried out integral translation; So that being shown to a screen area (one-handed performance zone) of user expectation after translation, the displaying contents of a certain appointment shows, thus the convenience of realization giant-screen handheld device one-handed performance.

Certainly; Under some other situation of present embodiment, when the object run zone is arranged in the upper right side of gui interface, and the one-handed performance zone is when being positioned at the lower left; Need be with the object run zone to the lower left translation; At this moment, the user can be with the tiltedly inclination downwards again of square neck left earlier of giant-screen hand-hold electronic equipments, and the corresponding elder generation of gui interface is translation downwards again after the left translation; Also can the giant-screen hand-hold electronic equipments being tilted downwards earlier, square neck is oblique left again, and the translation downwards of the corresponding elder generation of gui interface is again to the left translation.Certainly; The user on screen maneuverable zone not simultaneously, corresponding different setting is carried out according to concrete needs in the position on the screen of one-handed performance zone, at this moment; Though the mode of gui interface translation maybe be different; But principle is the same, all is the signal of gravity sensor output (acceleration of gravity three in the space axially on component value) is mapped as vergence direction, and gui interface along inclined direction carries out corresponding translation.

The above embodiment has only expressed several kinds of embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the present invention's design, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with accompanying claims.

Claims (10)

1. the method for a giant-screen hand-hold electronic equipments one-handed performance is characterized in that, said giant-screen hand-hold electronic equipments comprises gravity sensor and gui interface, comprises the steps:

A) gui interface of the said giant-screen hand-hold electronic equipments of demonstration;

B) the judges said giant-screen hand-hold electronic equipments that whether tilts, in this way, execution in step C); Otherwise, execution in step D);

C) obtain the output signal of said gravity sensor, and along the giant-screen hand-hold electronic equipments vergence direction of said output signal indication with said gui interface integral translation, the distance of its translation is less than the size of said gui interface at said translation direction;

D) finish this operation and return step B).

2. the method for giant-screen hand-hold electronic equipments one-handed performance according to claim 1 is characterized in that, said step B) further comprise:

B1) prepare to start working;

B2) judge whether said gravity sensor has signal output, in this way, execution in step C); Otherwise, execution in step D).

3. the method for giant-screen hand-hold electronic equipments one-handed performance according to claim 1 and 2 is characterized in that, said step C) further comprise:

C1) obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

C2) with the said current vergence direction in said gui interface edge unit distance of speed integral translation to set;

C3) judgement whether less than preset setpoint distance, in this way, is returned step C2 in the distance of gui interface translation described in this translation); Otherwise, stop to carry out translation and execution in step D); Said setpoint distance is less than the size of said gui interface at said translation direction.

4. the method for giant-screen hand-hold electronic equipments one-handed performance according to claim 3 is characterized in that, said unit distance comprises 1-10 the length that display pixel had of said giant-screen hand-hold electronic equipments display screen; Said setpoint distance is greater than said unit distance and be its integral multiple.

5. the method for giant-screen hand-hold electronic equipments one-handed performance according to claim 1 and 2 is characterized in that, said step C) further comprise:

C1 ') obtains the output signal of said gravity sensor and be current vergence direction with said output signal map;

C2 ') with the said current vergence direction in said gui interface edge preset setpoint distance of speed integral translation to set; Said setpoint distance is less than the size of said gui interface at said translation direction.

6. a device of realizing the method for giant-screen hand-hold electronic equipments one-handed performance as claimed in claim 1 is characterized in that, comprising:

Gui interface display module: the gui interface that is used to show said giant-screen hand-hold electronic equipments;

Heeling condition judge module: be used for the judges said giant-screen hand-hold electronic equipments that whether tilts, in this way, further obtain the output signal of said gravity sensor;

Signal is obtained and interface translation module: the output signal that is used to obtain said gravity sensor; And along the giant-screen hand-hold electronic equipments vergence direction of said output signal indication with said gui interface integral translation, the distance of its translation is less than the size of said gui interface at said translation direction;

Finish judge module: be used to finish this operation and return next time and judge.

7. device according to claim 6 is characterized in that, said heeling condition judge module further comprises:

Ready unit: be used for preparing to start working;

Signal output judging unit: be used to judge whether said gravity sensor has signal output, in this way, obtains the output signal of said gravity sensor.

8. according to claim 6 or 7 described devices, it is characterized in that said signal is obtained and interface translation module further comprises:

Signal is obtained and the vergence direction map unit: be used to obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

Interface unit's translation unit: be used for said gui interface along said current vergence direction unit distance of speed integral translation to set;

Translation distance judging unit: be used to judge that distance in the translation of gui interface described in this translation whether less than preset setpoint distance, in this way, proceeds next unit distance translation; Otherwise, stop to carry out translation; Said setpoint distance is less than the size of said gui interface at said translation direction.

9. device according to claim 8 is characterized in that, said unit distance comprises 1-10 the length that display pixel had of said giant-screen hand-hold electronic equipments display screen; Said setpoint distance is greater than said unit distance and be its integral multiple.

10. device according to claim 9 is characterized in that, said signal is obtained and interface translation module further comprises:

Signal is obtained and the vergence direction map unit: be used to obtain the output signal of said gravity sensor and be current vergence direction with said output signal map;

Interface setting is apart from translation unit: be used for said gui interface along said current vergence direction preset setpoint distance of speed integral translation to set; Said setpoint distance is less than the size of said gui interface at said translation direction.

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