CN102622087B - Mobile terminal and unlocking method thereof - Google Patents

Abstract

The invention discloses a mobile terminal and an unlocking method thereof. The mobile terminal comprises a screen locking interface display module, at least two proximity transducers, a gesture acquisition module and an unlocking module, wherein the screen locking interface display module is used for displaying a screen locking interface; at least one moving object is displayed in the screen locking interface; at least one of all objects is taken as a target; the at least two proximity transducers are arranged on a shell of the mobile terminal, and are used for detecting the movement of an operation control assembly; the gesture acquisition module is used for acquiring the moving locus and moving direction of the operation control assembly based on detection results of the at least two proximity transducers; and the unlocking module is used for judging whether the relative relationship between the moving locus and moving direction of the operation control assembly and the moving locus and moving direction of the target is consistent with a preset relationship, if so, unlocking the screen locking interface, and if not, not unlocking the screen locking interface. The invention provides an operation control unlocking function.

Description

Mobile terminal and unlock method thereof

Technical field

The present invention relates to a kind of mobile terminal, particularly relate to and a kind of there is the mobile terminal and corresponding unlock method of waving control unlocking function.

Background technology

At present, unlocking manner on mobile terminal unlocks nothing more than button and touches unblock two class, but this two classes unlocking manner needs to realize the operation of touch-screen the operation of button or user based on user respectively, and this has greatly limited to the design concept of various unlock method undoubtedly.

Summary of the invention

The technical problem to be solved in the present invention all cannot break away from defect to button or the support of this operand of touch-screen to overcome various unlock method of the prior art, there is provided one to have and wave control unlocking function, thus the mobile terminal can broken away from up hill and dale when unlocking the support of the operand such as button or touch-screen and corresponding unlock method.

The present invention solves above-mentioned technical matters by following technical proposals: a kind of mobile terminal, and its feature is, it comprises:

One locking screen interface display module, for showing a locking screen interface, shows at least one object moving in this locking screen interface, get at least one object in all objects as destination object;

Be located at least two proximity transducers on the shell of this mobile terminal, for detecting the motion of waving control assembly;

One gesture acquisition module, for obtaining this movement locus waving control assembly and direction of motion based on the result of detection of these at least two proximity transducers;

One unlocked state, for judging whether the relativeness that this is waved between the control movement locus of assembly and the movement locus of direction of motion and this destination object and direction of motion meets a preset relation, if then unlock this locking screen interface, does not then unlock this locking screen interface if not.

Based on the detection principle of existing proximity transducer, its can detect this wave control assembly whether occur in its effective scope of detection and this to wave control assembly be close to this proximity transducer or away from this proximity transducer in this effective scope of detection, and after the result of detection comprehensively analyzing each proximity transducer, this gesture acquisition module just can depict this movement locus waving control assembly and direction of motion.

Wherein, the present invention does not limit, as long as it can trigger the detecting function of proximity transducer the kind that this waves control assembly.This waves control assembly can be the whole hand of user, the finger of user or the hand-held arbitrary object of kind of user.Correspondingly, " gesture " in " gesture acquisition module " this term one word and all non-kind for this being waved control assembly of " gesture " word that hereinafter occurs be restricted to hand or the finger of user, even the motion completed by the object that user is hand-held, is also referred to as " gesture " in the present invention.

In addition, the present invention is also unrestricted to the concrete quantity of proximity transducer, but the identification accuracy that the complexity of the gesture that can be identified as required by those skilled in the art and needs reach carrys out appropriate design.Such as, well known, the gesture identifying a rectilinear motion at least needs design two proximity transducers, the gesture identifying a circular motion then at least needs the proximity transducer of design three installation sites not conllinear, and can meet on the basis of basic need in the design quantity of proximity transducer and installation site, along with the rising of the design quantity of proximity transducer, the identification accuracy that can reach also will rise thereupon.

Preferably, when the quantity of this object is one or the quantity of this object be two or more and the direction of motion of all objects is identical time, get all objects as destination object; When the quantity of this object is two or more and only has the direction of motion of fractional object direction of motion that is identical or all objects different, get an object in this at least one object or get this identical fractional object of direction of motion as destination object.

Preferably, scheme one, scheme two or scheme three is adopted;

Scheme one: this destination object moves along a straight line, this preset relation is that movement locus that this waves control assembly is overlapped in or is parallel to the movement locus of this destination object and this direction of motion of waving control assembly is identical with the direction of motion of this destination object or contrary, has at least two these proximity transducers edges to be overlapped in or is parallel to the line spread of direction of motion of this destination object;

Scheme two: this destination object moves along a straight line, this preset relation be this movement locus waving control assembly perpendicular to the movement locus of this destination object and this direction of motion of waving control assembly is perpendicular with the direction of motion of this destination object, have the line spread that at least two these proximity transducers edges are perpendicular with the direction of motion of this destination object;

Scheme three: this destination object is along circular motion, this preset relation is that the movement locus that this waves control assembly to extend and this direction of motion of waving direction of motion and this destination object controlling assembly is identical or contrary along one with concentric the justifying of this circular arc, the quantity of this proximity transducer is at least three, and has at least three these proximity transducers to be positioned on a circle concentric with this circular arc.

Wherein, in scheme one and scheme two, this destination object is when along one first orbiting motion to the border of this locking screen interface:

This destination object switches to along one second orbiting motion, and this second track is the reflection trace of this first track relative to this border; Or

This destination object gets back to the starting point place of this first track along this first orbiting motion.

Wherein, in scheme three, this destination object is when along one the 3rd orbiting motion to the border of this locking screen interface:

This destination object switches to along one the 4th orbiting motion, and the 4th track is the reflection trace of the 3rd track relative to this border;

This destination object gets back to the starting point place of the 3rd track along the 3rd orbiting motion; Or

This destination object switches to along one the 5th orbiting motion, and the 5th track is be positioned at the 3rd track on same circle and be positioned at the circular arc in the 3rd track downstream.

Preferably, when getting the fractional object in this at least one object as destination object, at least one destination object in all destination objects, is had to strengthen display relative to the object not as destination object.

Preferably, strengthening display comprises using one or more under type: color is deeper than and is not coarser than not as lines and the display flicker of the object of destination object as the color of the object of destination object, lines.

Strengthening display can make user not separate as the object of destination object and remaining as the object areas of destination object, to improve the unblock success ratio of user more easily.

Preferably, this locking screen interface display module is also for showing movement locus and/or the direction of motion of at least one this destination object.

Preferably, this locking screen interface display module also waves movement locus and/or the direction of motion of control assembly for showing this that meet this preset relation.

Be no matter movement locus and/or the direction of motion of display-object object, still show this movement locus meeting unlocking requirements waving control assembly and/or direction of motion, suggesting effect can both be played to user, to improve the success ratio that user unlocks.

Wherein, show this and wave control movement locus meeting unlocking requirements of assembly and/or direction of motion is only used for pointing out user, because the control gesture of waving of user is actually that the top that is suspended on display screen carries out, therefore this prompting herein not require user wave control must with the movement locus demonstrated and/or direction of motion strictly overlapping, as long as but the control of waving of user meet the unlocking condition above limited and get final product successful unlock.

Preferably, this proximity transducer is infrared sensor.

Present invention also offers a kind of unlock method of mobile terminal as above, this unlock method comprises:

S ₁, these at least two proximity transducers detect this wave control assembly motion;

S ₂, this gesture acquisition module obtains this movement locus waving control assembly and direction of motion based on the result of detection of these at least two proximity transducers;

S ₃, this unlocked state judges whether the relativeness that this is waved between the control movement locus of assembly and the movement locus of direction of motion and this destination object and direction of motion meets a preset relation, if then unlock this locking screen interface, does not then unlock this locking screen interface if not.

Preferably, when the quantity of this object is one or the quantity of this object be two or more and the direction of motion of all objects is identical time, get all objects as destination object; When the quantity of this object is two or more and only has the direction of motion of fractional object direction of motion that is identical or all objects different, get an object in this at least one object or get this identical fractional object of direction of motion as destination object.

Preferably, scheme one, scheme two or scheme three is adopted;

Scheme one: this destination object moves along a straight line, this preset relation is that movement locus that this waves control assembly is overlapped in or is parallel to the movement locus of this destination object and this direction of motion of waving control assembly is identical with the direction of motion of this destination object or contrary, has at least two these proximity transducers edges to be overlapped in or is parallel to the line spread of direction of motion of this destination object;

Scheme two: this destination object moves along a straight line, this preset relation be this movement locus waving control assembly perpendicular to the movement locus of this destination object and this direction of motion of waving control assembly is perpendicular with the direction of motion of this destination object, have the line spread that at least two these proximity transducers edges are perpendicular with the direction of motion of this destination object;

Scheme three: this destination object is along circular motion, this preset relation is that the movement locus that this waves control assembly to extend and this direction of motion of waving direction of motion and this destination object controlling assembly is identical or contrary along one with concentric the justifying of this circular arc, the quantity of this proximity transducer is at least three, and has at least three these proximity transducers to be positioned on a circle concentric with this circular arc.

Preferably, in scheme one and scheme two, this destination object is when along one first orbiting motion to the border of this locking screen interface:

This destination object switches to along one second orbiting motion, and this second track is the reflection trace of this first track relative to this border; Or

This destination object gets back to the starting point place of this first track along this first orbiting motion.

Preferably, in scheme three, this destination object is when along one the 3rd orbiting motion to the border of this locking screen interface:

This destination object switches to along one the 4th orbiting motion, and the 4th track is the reflection trace of the 3rd track relative to this border;

This destination object gets back to the starting point place of the 3rd track along the 3rd orbiting motion; Or

This destination object switches to along one the 5th orbiting motion, and the 5th track is be positioned at the 3rd track on same circle and be positioned at the circular arc in the 3rd track downstream.

Preferably, when getting the fractional object in this at least one object as destination object, at least one destination object in all destination objects, is had to strengthen display relative to the object not as destination object.

Preferably, strengthening display comprises using one or more under type: color is deeper than and is not coarser than not as lines and the display flicker of the object of destination object as the color of the object of destination object, lines.

Preferably, this locking screen interface display module also shows movement locus and/or the direction of motion of at least one this destination object.

Preferably, this locking screen interface display module also shows movement locus and/or the direction of motion that this that meet this preset relation waves control assembly.

Positive progressive effect of the present invention is: this mobile terminal of the present invention has waves control unlocking function, thus the support can broken away from up hill and dale when unlocking the operand such as button or touch-screen, not only can design the more various interesting unlock method of realization thus, improve the experience of user, further original unlocking operation can also be simplified, also can easily by waving the unblock controlling to mobile terminal when therefore inconvenience operates button or touch-screen even if make user be in hand-held object.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the mobile terminal in embodiment 1.

Fig. 2 is the schematic diagram of the locking screen interface in embodiment 1 and 2.

Fig. 3 is the schematic diagram of the locking screen interface in embodiment 3.

Fig. 4 is the schematic diagram of the locking screen interface in embodiment 4.

Fig. 5 is the schematic diagram of the locking screen interface in embodiment 5.

Embodiment

Present pre-ferred embodiments is provided, to describe technical scheme of the present invention in detail below in conjunction with accompanying drawing.

Embodiment 1

Shown in figure 1, this mobile terminal in the present embodiment comprises: locking screen interface display module 1, at least two proximity transducer 2, gesture acquisition module 3 and a unlocked state 4.

According to the conventional design in this area, if user does not operate this mobile terminal within a certain period of time, first this mobile terminal just can reduce the display brightness of display screen, if after this user does not still operate this mobile terminal within a certain period of time, now this mobile terminal just can be closed display screen and be entered battery saving mode.And once this mobile terminal enters battery saving mode, when user wishes to operate this mobile terminal again, just need to press a certain default physical button in advance and demonstrate a unlock interface to make display screen, when user performs correct unlocking operation under this unlock interface, this mobile terminal just can successful unlock, and enters normal runnable interface.

This locking screen interface display module 1 is for showing this locking screen interface.Especially, in the present invention, at least one object moving is shown in this locking screen interface, when the quantity of this object is one or the quantity of this object be two or more and the direction of motion of all objects is identical time, get all objects as destination object, when the quantity of this object is two or more and only has the direction of motion of fractional object direction of motion that is identical or all objects different, get an object in this at least one object or get this identical fractional object of direction of motion as destination object.

Only have in all objects fractional object by as destination object time, for the ease of user distinguish more easily destination object with not as all the other objects of destination object, enhancing display can be carried out to all destination objects or the destination object of part, the mode of this enhancing display can be varied, the color of destination object such as can be made to be deeper than not as the color of the object of destination object, also the lines of destination object can be made to be coarser than not as the lines of the object of destination object, the display pattern of destination object can also be made to carry out glimmering etc.

Following each embodiment only all identical for the direction of motion of all objects, therefore all by the situation as destination object, the present invention will be described, and remaining various situation aspect unlike this is only: now on this locking screen interface except as except the object of destination object, also have some other object and moving with different movement locus.But unlock method actual in these cases remains with all objects all by as unlock method all fours during destination object, therefore at this, these situations are not repeated.

The locking screen interface that one is designed with three objects is schematically depict in Fig. 2, wherein, object A moves along the straight path a1 be illustrated by the broken lines, object B moves along the straight path b1 be illustrated by the broken lines, object C then moves along the straight path c1 be illustrated by the broken lines, and object A, B are identical with the direction of motion of C, namely track a1, b1 and c1 is parallel to each other.Actual realize this animation time, the display icon of object A, B and C can be designed to any pattern, such as, they can be designed to moving fish, cloud and bubble etc. respectively.

The length of track a1, b1 and c1 both can be equal, also can be unequal.

In the situation shown in fig. 2, track a1 and b1 extends to the border of this locking screen interface, and track c1 does not extend to the border of this locking screen interface.When object A and B moves to the boundary of this locking screen interface along track a1 and b1 respectively, the starting point place, left side that they can get back to track a1 and b1 respectively starts to move along track a1 and b1 again, and object C then can retract track c1 starting point place, left side when moving to the right side terminal of track c1 starts to move along track c1 again.

Certainly, under above-mentioned motor pattern, track a1 and b1 all can not extend to the border of this locking screen interface yet, and the starting point place, left side that now object A and B then can retract track a1 and b1 respectively when moving to the right side terminal of track a1 and b1 starts to move along track a1 and b1 again.

Under above-mentioned motor pattern, because object A, B can keep identical all the time with the direction of motion of C, therefore their movement velocity is then unrestricted.

In the present embodiment, the correct unblock gesture preset is: this movement locus waving control assembly is overlapped in or is parallel to track a1, b1 or c1, and this direction of motion of waving control assembly is all identical with the direction of motion of C with object A, B, namely moves from the lower left side of this locking screen interface towards upper right side.

According to the common practise in this area, in order to identify the unblock gesture as above that this waves control assembly, then at least need installation two along the proximity transducer 2 of line spread being overlapped in or being parallel to track a1, b1 or c1.When this wave control assembly perform correct unblock gesture time, it first can be located at the top of the proximity transducer of display screen lower left side through first, the top of the proximity transducer of display screen upper right side is located at subsequently through second, in this process, can first there is a minor peaks in the detectable signal of first proximity transducer, the detectable signal of second proximity transducer also there will be a minor peaks subsequently.

This gesture acquisition module 3, after receiving the such result of detection from proximity transducer, just instead can be released this motor pattern waving control assembly and necessarily move along a straight line above second proximity transducer from the top of first proximity transducer.Because such motor pattern meets default correct unblock gesture, now this unlocked state 4 just can unlock this locking screen interface, demonstrates the normal runnable interface of this mobile terminal.

And if this motor pattern waving control assembly does not meet above-mentioned default correct unblock gesture, then now the result of detection of proximity transducer just can be different with above-mentioned situation, it is invalid that the gesture that this gesture acquisition module obtains thus just can be judged as by this unlocked state, so this unlocked state just can not unlock this locking screen interface.

Certainly, in the present embodiment, in order to correct unblock gesture more accurately can be identified, also can design more proximity transducer on the line of above-mentioned first and second proximity transducer, or on the straight line parallel with this line, design more proximity transducer; In addition, in order to the unblock gesture of mistake more accurately can be picked out, just also can also suitably arrange some proximity transducers in the position only having incorrect unblock gesture to pass through, to reduce the risk of maloperation as much as possible.

In addition, in the present embodiment, correct unblock gesture is preset as this direction of motion of waving control assembly identical with the direction of motion of C with object A, B, but it is contrary with the direction of motion of object A, B and C obviously also correct unblock gesture can be preset as this direction of motion of waving control assembly.

In the present embodiment the kind of proximity transducer is not limited, such as, can adopt infrared sensor etc.

Embodiment 2

Still with reference to shown in figure 1 and Fig. 2, the difference between the present embodiment and embodiment 1 is only:

1) correct unblock gesture is preset as: this waves control assembly needs along enough this locking screen interfaces of successful unlock of the direction athleticism perpendicular with the movement locus of object A, B or C;

2) correspondingly, in order to correct unblock gesture can be identified, at least need installation two along the proximity transducer 2 of the line spread perpendicular to track a1, b1 or c1.In addition, similar to Example 1ly, more proximity transducer can certainly be designed on this line, or the identification accuracy designing more proximity transducer to improve to correct unblock gesture in another rectilinear direction being parallel to this straight line, equally also also can suitably design some proximity transducers in the position only having incorrect unblock gesture just can pass through, to reduce the risk of maloperation further.

Embodiment 3

Shown in figure 3, in the present embodiment, object A ' moves along arc track a1 ', object B ' moves along arc track b1 ', and the direction of motion of object A ' and B ' remains identical, namely track a1 ' is concentric with the circle at track b1 ' place, and object A ' and the movement velocity of B ' make them that direction of motion can be kept identical all the time.

Now, correct unblock gesture is preset as: this movement locus waving control assembly extends along the circle concentric with track a1 ' or track b1 ', and this direction of motion of waving control assembly is identical with the direction of motion of object A ' or B '.

According to the common practise in this area, in order to identify that this correct unblock gesture at least needs to arrange three proximity transducers along the circle best-fit concentric with track a1 ' or track b1 ', concrete gesture identification and releasing process then with embodiment 1 and 2 all fours, therefore not repeat at this.

In addition, same and embodiment 1 and 2 similarly, also can arrange the proximity transducer of greater number, to improve the degree of accuracy of gesture identification, and reduce the risk of maloperation as much as possible.

In the present embodiment, when object A ' and object B ' moves to the right side terminal of track a1 ' and b1 ', the starting point place, left side just can getting back to track a1 ' and b1 ' respectively starts again along track a1 ' and b1 ' motion.

Embodiment 4

Shown in figure 4, difference between the present embodiment and embodiment 1 is only: in the present embodiment, track a1, b1 and c1 all extend to the boundary of this locking screen interface, when along when moving to the boundary of this locking screen interface from lower left side towards the direction of upper right side, object A, B and C all can do perfectly elastic impact at this boundary, then do from lower right side moving towards upper left side along track a2, b2 and c2 respectively, namely track a2, b2 and c2 is respectively track a1, b1 and c1 reflection trace relative to this border.

In the present embodiment, track a1, b1 both can be identical with the length of c1, also can not be identical, and object A, B and the movement velocity of C similarly both can be identical, also can not be identical, but this length must cooperatively interact with this movement velocity, to ensure that object A, B and C can collide at this boundary simultaneously, only in this way can ensure that the direction of motion being no matter before collision or after collision object A, B and C can both remain identical.

In the present embodiment, correct unblock gesture is preset as: this direction of motion of waving control assembly is all identical with the direction of motion of C with object A, B, if and implement to unlock in user's process of moving along track a1, b1 and c1 respectively at object A, B and C, then this movement locus waving control assembly needs be overlapped in or be parallel to track a1, b1 or c1, if and implement to unlock in the process that user moves along track a2, b2 and c2 respectively at object A, B and C, then this movement locus waving control assembly needs be overlapped in or be parallel to track a2, b2 or c2.

And correspondingly, now just at least need to be overlapped in or on the straight line being parallel to track a1, b1 or c1 and be overlapped in or each setting at least two proximity transducers respectively on the straight line being parallel to track a2, b2 or c2.

Embodiment 5

Shown in figure 5, difference between the present embodiment and embodiment 3 is only: only have object A ' moving along arc track in the present embodiment, and track a1 ' extends to the boundary of this locking screen interface, when object A ' moves to this boundary, object A ' will switch to track a2 ' and continue motion, wherein track a2 ' and track a1 ' are positioned on same circle, and object A ' on track a2 ' will according to identical with when track a1 ' is upper suitable/counterclockwise move, namely remain clockwise movement in Figure 5.

Now, by arranging at least three proximity transducers on the circle concentric with track a1 ' and a2 ', just correct unblock gesture can be preset as: this is waved control assembly and does the direction motion identical with object A ' along a circular arc concentric with track a1 ' with track a2 ', just successfully can implement unblock; Or this is waved control assembly and does the direction motion contrary with object A ' along a circular arc concentric with track a1 ' with track a2 ', just successfully can implement unblock.

Certainly, in the present embodiment, also track a2 ' can be designed to the reflection trace of track a1 ', namely object A ' carries out perfectly elastic impact at this boundary after moving to the right side destination county of track a1 ', enters track a2 ' subsequently and continues motion.

In addition, in above all embodiments, this locking screen interface display module 1 can also show movement locus and/or the direction of motion of at least one destination object on this locking screen interface, to facilitate user to judge correct unblock gesture, improves the success ratio unlocked; Or this locking screen interface display module 1 also directly can demonstrate the movement locus and/or direction of motion that correct unblock gesture should meet on this locking screen interface.Movement locus herein and/or the prompting of direction of motion can adopt various pattern to represent, the track or arrow etc. such as lighted.

Although the foregoing describe the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is defined by the appended claims.Those skilled in the art, under the prerequisite not deviating from principle of the present invention and essence, can make various changes or modifications to these embodiments, but these change and amendment all falls into protection scope of the present invention.

Claims (17)

1. a mobile terminal, is characterized in that, it comprises:

One locking screen interface display module, for showing a locking screen interface, shows at least one object moving in this locking screen interface, get at least one object in all objects as destination object;

Be located at least two proximity transducers on the shell of this mobile terminal, for detecting the motion of waving control assembly;

One gesture acquisition module, for obtaining this movement locus waving control assembly and direction of motion based on the result of detection of these at least two proximity transducers;

One unlocked state, for judging whether the relativeness that this is waved between the control movement locus of assembly and the movement locus of direction of motion and this destination object and direction of motion meets a preset relation, if then unlock this locking screen interface, does not then unlock this locking screen interface if not;

Employing scheme one, scheme two or scheme three;

Scheme one: this destination object moves along a straight line, this preset relation is that movement locus that this waves control assembly is overlapped in or is parallel to the movement locus of this destination object and this direction of motion of waving control assembly is contrary with the direction of motion of this destination object, has at least two these proximity transducers edges to be overlapped in or is parallel to the line spread of direction of motion of this destination object;

Scheme two: this destination object moves along a straight line, this preset relation be this movement locus waving control assembly perpendicular to the movement locus of this destination object and this direction of motion of waving control assembly is perpendicular with the direction of motion of this destination object, have the line spread that at least two these proximity transducers edges are perpendicular with the direction of motion of this destination object;

Scheme three: this destination object is along circular motion, this preset relation is that the movement locus that this waves control assembly to extend and this direction of motion of waving direction of motion and this destination object controlling assembly is contrary along one with concentric the justifying of this circular arc, the quantity of this proximity transducer is at least three, and has at least three these proximity transducers to be positioned on a circle concentric with this circular arc.

2. mobile terminal as claimed in claim 1, is characterized in that, when the quantity of this object is one or the quantity of this object be two or more and the direction of motion of all objects is identical time, get all objects as destination object; When the quantity of this object is two or more and only has the direction of motion of fractional object direction of motion that is identical or all objects different, get an object in this at least one object or get this identical fractional object of direction of motion as destination object.

3. mobile terminal as claimed in claim 1, it is characterized in that, in scheme one and scheme two, this destination object is when along one first orbiting motion to the border of this locking screen interface:

This destination object switches to along one second orbiting motion, and this second track is the reflection trace of this first track relative to this border; Or

This destination object gets back to the starting point place of this first track along this first orbiting motion.

4. mobile terminal as claimed in claim 1, it is characterized in that, in scheme three, this destination object is when along one the 3rd orbiting motion to the border of this locking screen interface:

This destination object switches to along one the 4th orbiting motion, and the 4th track is the reflection trace of the 3rd track relative to this border;

This destination object gets back to the starting point place of the 3rd track along the 3rd orbiting motion; Or

This destination object switches to along one the 5th orbiting motion, and the 5th track is be positioned at the 3rd track on same circle and be positioned at the circular arc in the 3rd track downstream.

5. as the mobile terminal in claim 1-4 as described in any one, it is characterized in that, when getting the fractional object in this at least one object as destination object, at least one destination object in all destination objects, is had to strengthen display relative to the object not as destination object.

6. mobile terminal as claimed in claim 5, is characterized in that, strengthens display and comprises using one or more under type: color is deeper than and is not coarser than not as lines and the display flicker of the object of destination object as the color of the object of destination object, lines.

7. as the mobile terminal in claim 1-4 as described in any one, it is characterized in that, this locking screen interface display module is also for showing movement locus and/or the direction of motion of at least one this destination object.

8. as the mobile terminal in claim 1-4 as described in any one, it is characterized in that, this locking screen interface display module also waves movement locus and/or the direction of motion of control assembly for showing this that meet this preset relation.

9. mobile terminal as claimed in claim 1, it is characterized in that, this proximity transducer is infrared sensor.

10. a unlock method for mobile terminal as claimed in claim 1, this unlock method comprises:

S ₁, these at least two proximity transducers detect this wave control assembly motion;

S ₂, this gesture acquisition module obtains this movement locus waving control assembly and direction of motion based on the result of detection of these at least two proximity transducers;

S ₃, this unlocked state judges whether the relativeness that this is waved between the control movement locus of assembly and the movement locus of direction of motion and this destination object and direction of motion meets a preset relation, if then unlock this locking screen interface, does not then unlock this locking screen interface if not;

Employing scheme one, scheme two or scheme three;

Scheme one: this destination object moves along a straight line, this preset relation is that movement locus that this waves control assembly is overlapped in or is parallel to the movement locus of this destination object and this direction of motion of waving control assembly is contrary with the direction of motion of this destination object, has at least two these proximity transducers edges to be overlapped in or is parallel to the line spread of direction of motion of this destination object;

Scheme two: this destination object moves along a straight line, this preset relation be this movement locus waving control assembly perpendicular to the movement locus of this destination object and this direction of motion of waving control assembly is perpendicular with the direction of motion of this destination object, have the line spread that at least two these proximity transducers edges are perpendicular with the direction of motion of this destination object;

Scheme three: this destination object is along circular motion, this preset relation is that the movement locus that this waves control assembly to extend and this direction of motion of waving direction of motion and this destination object controlling assembly is contrary along one with concentric the justifying of this circular arc, the quantity of this proximity transducer is at least three, and has at least three these proximity transducers to be positioned on a circle concentric with this circular arc.

The unlock method of 11. mobile terminals as claimed in claim 10, is characterized in that, when the quantity of this object is one or the quantity of this object be two or more and the direction of motion of all objects is identical time, get all objects as destination object; When the quantity of this object is two or more and only has the direction of motion of fractional object direction of motion that is identical or all objects different, get an object in this at least one object or get this identical fractional object of direction of motion as destination object.

The unlock method of 12. mobile terminals as claimed in claim 10, is characterized in that, in scheme one and scheme two, this destination object is when along one first orbiting motion to the border of this locking screen interface:

This destination object switches to along one second orbiting motion, and this second track is the reflection trace of this first track relative to this border; Or

This destination object gets back to the starting point place of this first track along this first orbiting motion.

The unlock method of 13. mobile terminals as claimed in claim 10, is characterized in that, in scheme three, this destination object is when along one the 3rd orbiting motion to the border of this locking screen interface:

This destination object switches to along one the 4th orbiting motion, and the 4th track is the reflection trace of the 3rd track relative to this border;

This destination object gets back to the starting point place of the 3rd track along the 3rd orbiting motion; Or

This destination object switches to along one the 5th orbiting motion, and the 5th track is be positioned at the 3rd track on same circle and be positioned at the circular arc in the 3rd track downstream.

14. as the unlock method of the mobile terminal in claim 10-13 as described in any one, it is characterized in that, when getting the fractional object in this at least one object as destination object, at least one destination object in all destination objects, is had to strengthen display relative to the object not as destination object.

The unlock method of 15. mobile terminals as claimed in claim 14, it is characterized in that, strengthen display and comprise using one or more under type: color is deeper than and is not coarser than not as lines and the display flicker of the object of destination object as the color of the object of destination object, lines.

16. as the unlock method of the mobile terminal in claim 10-13 as described in any one, and it is characterized in that, this locking screen interface display module also shows movement locus and/or the direction of motion of at least one this destination object.

17., as the unlock method of the mobile terminal in claim 10-13 as described in any one, is characterized in that, this locking screen interface display module also shows movement locus and/or the direction of motion that this that meet this preset relation waves control assembly.