CN105607858A - Method and device for controlling intelligent watch or intelligent glasses through direction gestures - Google Patents

Abstract

The invention discloses a method and device for controlling an intelligent watch or a pair of intelligent glasses through direction gestures. The method involves the control procedure, the function calling rule and the interface calling rule. A direction gesture control device comprises an intelligent ring and the intelligent watch or the intelligent glasses. An application for installing the intelligent ring comprises a data acquisition module and a data sending module. An application for installing the intelligent watch or the intelligent glasses comprises a button display module, a data receiving module, a gesture analyzing module, a function obtaining module, a panel obtaining module, a function calling module and a panel calling module. By means of the direction gesture control, the advantage that as long as the number of buttons of the intelligent watch or the intelligent glasses does not exceed 18, a user can click any of the buttons with two steps of operation at most is achieved, and therefore the control efficiency of the intelligent watch or the intelligent glasses is greatly improved.

Description

A kind of method and device that utilizes orientation gesture manipulation intelligent watch or intelligent glasses

Technical field

The invention belongs to intelligent terminal human-computer interaction technique field, be specifically related to one and utilize orientation handGesture manipulation intelligent watch (comprising intelligent bracelet, Intelligent spire lamella) or intelligent glasses (comprising intelligent helmet)Method and device; Described method and device also can be applicable to smart mobile phone, desktop computer, notebook computer,The intelligent terminals such as panel computer, vehicle-mounted computer (comprising central control board).

Background technology

The greatest problem of intelligent watch manipulation is can not one-handed performance, and people must have on a handIntelligent watch, goes to touch operation with another hand, and the mode of operation that this both hands are drawn is obviously not suitable for peopleUnder mobile status, use the requirement of intelligent watch; It is occupied or stain in the situation that at another hand,People have to be with the head chin intelligent watch dial plate that goes to collide with, and both inconvenience was also unbecoming.

Intelligent watch dial plate area is smaller, if hold more button, certainly will cause each byButton small-sized, finger, in the time of button click, will be put slightly because of carelessness wrong button or click multiple pressing simultaneouslyButton, causes touch-control error or touch-control to lose efficacy; If hold little button, although can improve the point of fingerHit effect, but can cause turning over, screen operation is too much, the problem of manipulation inefficiency.

Intelligent glasses has mostly adopted speech control mode. But interactive voice has limitation,Instruction manipulation can only be carried out intermittently, instruction manipulation can not be in extremely rapid succession carried out; Interactive voice easily produces tiredLabor sense, cannot adapt to long interactive requirements; So interactive voice is applicable to the mutual of formula as a supplementMode.

Commonplace solution is for a Trackpad equipment of intelligent glasses configuration at present, passes throughThe action such as catch the slip of finger on Trackpad, press carrys out operation interface and carries out alternately. But, TrackpadBe positioned at mirror holder position, need finger to operate near the position of face, itself just belongs to abnormal limbsAction, the unsettled operation of arm also easily produces sense of fatigue for a long time. According to test, unsettled operation is after 10 minutes,Arm will produce the sense of significantly aching.

Summary of the invention

Object of the present invention will solve above-mentioned the asking that manipulation intelligent watch or intelligent glasses face justTopic, and provide a kind of orientation gesture of utilizing to manipulate easily and fast, exactly intelligent watch or intelligent glassesMethod and device; Utilize described method and device, can allow user use and be worn over the intelligent ring (bag on fingerDraw together intelligent finger ring) optionally carry out blind operation, can allow again touch-screen or the intelligent glasses of user at intelligent watchTrackpad on carry out freely blind operation.

The point hitter of the finger that described orientation gesture comprises user on described touch-screen or TrackpadLong by gesture after gesture, slippage gesture and slippage; Described slippage gesture comprises that user's finger is at described touch-screenOr on Trackpad, the straight line slippage along eight orientation is moved; Described eight orientation comprise described touch-screen or touchThe top, below, left of control plate, right-hand, upper left side, lower left, upper right side and lower right.

Described orientation gesture control mode comprises orientation gesture remote control mode and the straight prosecutor of orientation gestureFormula.

Described orientation gesture remote control mode is defined as: utilize user's finger in the touch of intelligent ringThe orientation gesture of doing on screen is come the touch-screen of operative intelligence wrist-watch or the shown void of the display screen of intelligent glassesIntend interface and virtual push button thereof.

Gesture straight prosecutor formula in described orientation is defined as: utilize user's finger in the touch of intelligent watchThe orientation gesture of doing on the Trackpad of screen or intelligent glasses manipulates touch-screen or the intelligent glasses of intelligent watchShown virtual interface and the virtual push button thereof of display screen.

For convenient narration, if no special instructions, the alleged interface of the present invention all refers to virtual interface,The alleged button of the present invention all refers to virtual push button.

In order to solve the problems of the technologies described above, technical scheme of the present invention is as follows:

1 orientation gesture actuation means

A kind of device that utilizes orientation gesture manipulation intelligent watch or intelligent glasses; Described orientation gestureActuation means is divided into orientation gesture remote control device and orientation gesture is directly controlled device.

1. orientation gesture remote control device

Described orientation gesture remote control device, its concrete structure block diagram as shown in Figure 1, comprises an intelligence ringFinger, an intelligent watch or an intelligent glasses; Wherein, described intelligent ring be used for manipulating described intelligent watch orIntelligent glasses; Between described intelligent ring and described intelligent watch or intelligent glasses, enter by communicationThe exchange of row real time data.

Described intelligent ring is provided with touch-screen, and described touch-screen is for detection of orientation gesture; DescribedTouch-screen can adopt condenser type or resistance-type or voltage-type touch-screen, can induce exactly the single of userThe touch situation of finger, and can communicate and collaborative work with other peripheral hardwares; Described intelligent ring peaceApplication program is housed, and described application program comprises data acquisition module and data transmission blocks;

Further, the finger that described data acquisition module detects user is in real time at described intelligent ringTouch-screen on touch operate the touch data producing;

Described data transmission blocks, logical for the touch data that described data acquisition module is detectedCross communication and send in real time data reception module.

The touch-screen of described intelligent watch or the display screen of intelligent glasses be used for showing current interface andButton; Described intelligent watch or intelligent glasses are provided with application program, and described application program comprises that button showsModule, data reception module, gesture parsing module, function acquisition module, interface acquisition module, function are adjustedWith module and interface calling module;

Further, described button display module, for providing touch-screen or the intelligence at intelligent watchDemonstration screen display current interface and the button thereof of energy glasses;

Described data reception module, passes through side wireless communication for receiving by described data transmission blocksThe touch data that formula sends in real time, and described touch data is transferred to gesture parsing module;

Described gesture parsing module, for resolving to corresponding orientation gesture also by described touch dataJudge the type of orientation gesture; If the type of described orientation gesture is slippage gesture, calling function obtainsModule; If the type of described orientation gesture is that after clicking gesture or slippage, length, by gesture, is called interfaceAcquisition module;

Described function acquisition module, right for according between predefined orientation gesture and buttonShould be related to, determine the corresponding the target button of described orientation gesture, and assign click order to function allocating moduleThe instruction of mark button;

Described interface acquisition module, right for according between predefined orientation gesture and interfaceShould be related to, determine the corresponding target interface of described orientation gesture, and assign and call order to interface calling moduleThe demarcate instruction of face;

Described function allocating module, for the instruction of assigning according to described function acquisition module, callsThe function indicating on the target button;

Described interface calling module, for the instruction of assigning according to described interface acquisition module, callsTarget interface.

Described communication includes but not limited to bluetooth connected mode, infrared connected mode, penetratesFrequently the one in connected mode, WIFI connected mode.

2. orientation gesture is directly controlled device

Described orientation gesture is directly controlled device, and its concrete structure block diagram as shown in Figure 2, comprises an intelligent handTable or an intelligent glasses; With orientation gesture remote control device comparison, cancel intelligent ring and data thereof and sent mouldPiece, data reception module; Described orientation gesture is directly controlled device and utilizes touch-screen or the intelligent glasses of intelligent watchTrackpad replace the touch-screen of intelligent ring to carry out orientation gesture operation.

2. orientation gesture control method

A kind of method of utilizing orientation gesture manipulation intelligent watch or intelligent glasses; Described orientation gestureControl method is divided into orientation gesture remote control method and the straight control method of orientation gesture.

1. orientation gesture remote control method

Described orientation gesture remote control method comprises step as shown in Figure 3:

Gesture manipulation state in A orientation is opened;

Button display module described in B, provides the demonstration at touch-screen or the intelligent glasses of intelligent watchScreen display current interface and button thereof;

Data acquisition module described in C, detects user's finger in real time on the touch-screen of intelligent ringTouch operate the touch data producing;

Data transmission blocks described in D, the touch data that described data acquisition module is detected passes throughCommunication sends to data reception module in real time;

Data reception module described in E, receives in real time described data transmission blocks and passes through side wireless communicationThe touch data that formula sends over, and described touch data is transferred to gesture parsing module;

Gesture parsing module described in F, orientation gesture corresponding to described touch data resolves to and sentencesThe type of disconnected orientation gesture; If the type of described orientation gesture is slippage gesture, calling function obtains mouldPiece; If the type of described orientation gesture is that after clicking gesture or slippage, length, by gesture, is called interface and obtainedModule;

Function acquisition module described in G, corresponding according between predefined orientation gesture and buttonRelation, determines the corresponding the target button of described orientation gesture, and assigns click target to function allocating moduleThe instruction of button; Described interface acquisition module, corresponding according between predefined orientation gesture and interfaceRelation, determines the corresponding target interface of described orientation gesture, and assigns invocation target to interface calling moduleThe instruction at interface;

Function allocating module described in H, the instruction of assigning according to described function acquisition module, calls orderThe function that mark button indicates; Described interface calling module, the instruction of assigning according to described interface acquisition module,Invocation target interface.

2. the straight control method of orientation gesture

The described orientation straight control method of gesture comprises step as shown in Figure 3; With orientation gesture remote control methodRelatively, step D and step e have been cancelled; The described orientation straight control method of gesture utilizes user's finger at intelligent handOn the touch-screen of table or the orientation gesture done on the Trackpad of intelligent watch manipulate intelligent watch or intelligenceGlasses.

Described orientation gesture control method also comprises funcall rule and interface calling rule; DescribedFuncall rule and interface calling rule, be applicable to orientation gesture remote control method and orientation gesture simultaneously and directly controlMethod.

For the ease of unified narration, in funcall rule and interface calling rule, if be suitable forBe orientation gesture remote control method, described touch-screen is defined as to the touch-screen of intelligent ring, if be suitable forBe the straight control method of orientation gesture, described touch-screen is defined as to touch-screen or the intelligent glasses of intelligent watchTrackpad.

1. funcall rule

Described funcall is defined as the function that invocation target button indicates, and is embodied in and passes throughOne-to-one relationship between predefined orientation gesture and the target button click action, user can utilizeDescribed orientation gesture is clicked corresponding the target button in current interface.

A button layout and definition thereof

N button is set in the current interface of intelligent watch or intelligent glasses.

A is in the time of N=9, and a described N button adopts 3 row 3 column distribution modes, generates nine grids button.

Described nine grids button comprise centre button as shown in Figure 4, upper left side button, top button,Upper right side button, left button, right-hand button, lower left button, below button and lower right button.

Further, described centre button is defined as to the button that is positioned at nine grids button central authorities;

By described upper left side button definition for being positioned at the upper left button of nine grids button;

It is the button that is positioned at nine grids button top by described top button definition;

By described upper right side button definition for being positioned at the top-right button of nine grids button;

Be the button that is positioned at nine grids button left by described left button definition;

Be to be positioned at right-hand button of nine grids button by described right-hand button definition;

Be the button that is positioned at nine grids button lower left by described lower left button definition;

It is the button that is positioned at nine grids button below by described below button definition;

By described lower right button definition for being positioned at the bottom-right button of nine grids button.

Described nine grids button also comprises middle row button as shown in Figure 5, middle row button, limit row buttonWith limit row button.

Further, by described middle row button definition be the second row button of nine grids button;

The secondary series button that is nine grids button by described middle row button definition;

Be the first row button or the 3rd row button of nine grids button by described limit row button definition;

Be first row button or the 3rd row button of nine grids button by described limit row button definition.

B is in the time of N < 9, and the cross direction profiles of a described N button is no more than 3 row, longitudinally distributes and be no more than 3Row, generates non-nine grids button.

Described funcall rule, comprises that funcall primitive rule and funcall supplement rule;Described funcall primitive rule is applicable to nine grids button; Described funcall supplements rule and is applicable to non-ninePalace lattice button.

B funcall primitive rule

Described funcall primitive rule comprises:

User's finger is clicked described touch-screen, is the centre button of clicking described nine grids button;

User's finger is done straight line slippage to a certain orientation on described touch-screen, be click described inThe same orientation button of nine grids button, as shown in Figure 4;

Further, finger is done straight line slippage on described touch-screen to upper left side, is to click instituteState the upper left side button of nine grids button;

Finger is done upward straight line slippage on described touch-screen, is to click described nine grids buttonTop button;

Finger on described touch-screen, do straight line slippage to upper right side, be click described nine grids byThe upper right side button of button;

Finger is done straight line slippage to left on described touch-screen, is to click described nine grids buttonLeft button;

Finger is done straight line slippage to right-hand on described touch-screen, is to click described nine grids buttonRight-hand button;

Finger is done straight line slippage below left on described touch-screen, be click described nine grids byThe lower left button of button;

Finger is done straight line slippage downwards on described touch-screen, is to click described nine grids buttonBelow button;

Finger on described touch-screen, do straight line slippage to lower right, be click described nine grids byThe lower right button of button.

B funcall supplements rule

Described funcall supplements rule and comprises:

Single file button carries out clicking operation according to the middle row button of nine grids button;

Single-row button carries out clicking operation according to the middle row button of nine grids button;

Duplicate rows button carries out clicking operation according to the limit row button of nine grids button;

Biserial button carries out clicking operation according to the limit row button of nine grids button.

2. interface calling rule

Described interface calling rule is applicable to nine grids interface.

A interface layout and definition thereof

Described nine grids interface is defined as in the Virtual Space of intelligent watch or intelligent glasses and arranges nineIndividual interface, the arrangement mode that described nine interfaces adopt 3 row 3 to be listed as, generates nine grids interface.

Described nine grids interface comprise central interface as shown in Figure 6, interface, upper left side, interface, top,Interface, upper right side, left interface, right-hand interface, interface, lower left, interface, below and interface, lower right.

Further, described central interface is defined as to the interface that is positioned at nine grids interface central authorities;

Interface, described upper left side is defined as and is positioned at upper left interface, nine grids interface;

Interface, described top is defined as to the interface that is positioned at top, nine grids interface;

Interface, described upper right side is defined as and is positioned at top-right interface, nine grids interface;

Described left interface is defined as to the interface that is positioned at nine grids interface left;

Described right-hand interface is defined as and is positioned at right-hand interface, nine grids interface;

Interface, described lower left is defined as to the interface that is positioned at lower left, nine grids interface;

Interface, described below is defined as to the interface that is positioned at below, nine grids interface;

Interface, described lower right is defined as and is positioned at bottom-right interface, nine grids interface.

B interface calling rule

Call at described interface, is defined as invocation target interface, is embodied in by predefinedOrientation gesture and turn over the one-to-one relationship between screen operation, user can utilize orientation gesture to realize currentInterface is replaced by target interface, on intelligent watch or intelligent glasses, turns over screen operation.

Described interface calling rule comprises:

User's finger is long by described touch-screen, is to turn over the central interface of shielding to nine grids interface;

User's finger is done straight line slippage to a certain orientation on described touch-screen, and slippage finishes rear verticalLong pressing, is to turn over the same direction interfaces shielding to nine grids interface, as shown in Figure 6;

Further, finger on described touch-screen, do to upper left side after straight line slippage long by, beTurn over the upper left side interface of screen to described nine grids interface;

Finger on described touch-screen, do upward after straight line slippage long by, be to turn over screen to described nineThe interface, top at lattice interface, palace;

Finger on described touch-screen, do to upper right side after straight line slippage long by, be turn over screen to described inThe interface, upper right side at nine grids interface;

Finger on described touch-screen to left do after straight line slippage long by, be to turn over screen to described nineThe left interface at interface, palace;

Finger on described touch-screen to right-hand do after straight line slippage long by, be to turn over screen to described nineThe right-hand interface at lattice interface, palace;

Finger on described touch-screen, do below left after straight line slippage long by, be turn over screen to described inThe interface, lower left at nine grids interface;

Finger on described touch-screen, do downwards after straight line slippage long by, be to turn over screen to described nineThe interface, below at lattice interface, palace;

Finger on described touch-screen, do to lower right after straight line slippage long by, be turn over screen to described inThe interface, lower right at nine grids interface.

Brief description of the drawings

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, belowTo the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described, apparently,Accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art,Do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

In the accompanying drawings, Fig. 1 is orientation disclosed by the invention gesture remote control device frame diagram;

Fig. 2 is that orientation disclosed by the invention gesture is directly controlled device frame figure;

Fig. 3 is orientation disclosed by the invention gesture manipulation flow chart;

Fig. 4 is nine grids button disclosed by the invention and orientation gesture contrast figure thereof;

Fig. 5 is nine grids button classification schematic diagram disclosed by the invention;

Fig. 6 is nine grids disclosed by the invention interface and orientation gesture contrast figure thereof;

Fig. 7 is the disclosed intelligent watch of the embodiment of the present invention one, intelligent glasses and the signal of intelligent ringFigure;

Fig. 8 is disclosed certain the intelligent watch nine grids button remote control schematic diagram of the embodiment of the present invention three;

Fig. 9 is that the non-nine grids button of disclosed certain intelligent watch of the embodiment of the present invention four is directly controlled schematic diagram;

Figure 10 is disclosed certain the intelligent glasses nine grids graphical interface remoting schematic diagram of the embodiment of the present invention five.

Detailed description of the invention

For making object of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and toolThe invention will be further described for body embodiment. Described accompanying drawing is only for reference and use is described, does not form thisThe restriction of invention patent protection scope.

Embodiment mono-

Embodiment mono-provides a kind of device that utilizes orientation gesture manipulation intelligent watch or intelligent glasses;Described device is divided into orientation gesture remote control device and orientation gesture is directly controlled device.

1. orientation gesture remote control device

Described orientation gesture remote control device, its concrete structure block diagram as shown in Figure 1, comprises an intelligenceRing 00, an intelligent watch 10 or an intelligent glasses 20; Wherein, described intelligent ring 00 is for manipulatingState intelligent watch 10 or intelligent glasses 20.

Described intelligent ring 00 is provided with touch-screen 70; Described touch-screen 70, for detection of orientationGesture.

Preferably, as shown in Figure 7, described intelligent ring 00 is worn on the forefinger of a hand of user,User touches operation with the thumb of this hand; Intelligent watch is also worn in this wrist, like this, and instituteState the manipulation of intelligent watch 10 and just do not need to occupy user's another hand, thereby realized as smart mobile phoneGeneral one-handed performance.

Described intelligent ring 00 is not a composition of described intelligent watch 10 or intelligent glasses 20Parts, but be independent of an intelligent terminal outside described intelligent watch 10 or intelligent glasses 20; DescribedIntelligence ring 00 is provided with application program, and described application program comprises that data acquisition module 200 and data sendModule 800.

Further, described data acquisition module 200, for the finger that in real time detects user describedTouch on the touch-screen 70 of intelligence ring operates the touch data producing.

Described data transmission blocks 800, for the touch that described data acquisition module 200 is detectedData send to data reception module in real time by communication.

The touch-screen 30 of described intelligent watch 10 or the display screen 50 of intelligent glasses 20 are for showingCurrent interface and button thereof; Described intelligent watch 10 or intelligent glasses 20 are provided with application program, described answeringComprise that by program button display module 100, data reception module 900, gesture parsing module 300, function obtainDelivery piece 400, interface acquisition module 500, function allocating module 600 and interface calling module 700;

Further, described button display module 100, for providing touching at described intelligent watch 10Touch screen upper 30 or show current interface and button thereof on the display screen 50 of described intelligent glasses 20;

Described data reception module 900, for receiving by described data transmission blocks 800 by wirelessThe touch data that communication mode sends in real time, and described touch data is transferred to gesture parsing module;

Described gesture parsing module 300, for resolving to described touch data corresponding orientation gestureAnd judge the type of orientation gesture; If the type of described orientation gesture is slippage gesture, calling function obtainsDelivery piece; If the type of described orientation gesture is that after clicking gesture or slippage, length, by gesture, is called interfaceAcquisition module;

Described function acquisition module 400, for according between predefined orientation gesture and buttonCorresponding relation, determines the corresponding the target button of described orientation gesture, and assigns click to function allocating moduleThe instruction of the target button;

Described interface acquisition module 500, for according between predefined orientation gesture and interfaceCorresponding relation, determines the corresponding target interface of described orientation gesture, and assigns and call to interface calling moduleThe instruction of target interface;

Described function allocating module 600, for the instruction of assigning according to described function acquisition module, adjustsBy the function indicating on the target button;

Described interface calling module 700, for the instruction of assigning according to described interface acquisition module, adjustsUse target interface.

Described communication includes but not limited to bluetooth connected mode, infrared connected mode, penetratesFrequently the one in connected mode, WIFI connected mode.

2. orientation gesture is directly controlled device

Described orientation gesture is directly controlled device, and its concrete structure block diagram as shown in Figure 2, comprises an intelligenceWrist-watch or an intelligent glasses; With orientation gesture remote control device comparison, cancel intelligent ring 00 and data thereof and sent outSend module 800, data reception module 900; Described orientation gesture directly control device utilize intelligent watch 10 touchThe Trackpad 50 of touching screen 30 or intelligent glasses 20 replaces the touch-screen 70 of intelligent ring 00 to carry out orientation gestureOperation.

On described intelligent watch 10, touch-screen 30 is both as the induction carrier of orientation gesture, againAs the demonstration carrier of current interface and button thereof; On described intelligent glasses 20, although as orientation gestureRespond to the Trackpad 40 of carrier and show that as current interface and button thereof the display screen 50 of carrier is not sameIndividual parts, still, the two is all integrated on described intelligent glasses 20, is all one of described intelligent glasses 20Individual building block.

Embodiment bis-

Embodiment bis-provides the stream that utilizes orientation gesture manipulation intelligent watch or intelligent glasses to followJourney.

Gesture manipulation flow process in described orientation is divided into orientation gesture remote control flow process and the straight flow control of orientation gestureJourney.

1. orientation gesture remote control flow process

The step that described orientation gesture remote control flow definition is followed when carrying out orientation gesture remote control,As shown in Figure 3, comprising:

Step S01: gesture manipulation state in orientation is opened;

Step S02: described button display module 100 provides touch-screen 30 or the intelligence at intelligent watch 10Can on the display screen 50 of glasses 20, show current interface and button thereof;

Step S03: the finger that described data acquisition module 200 detects user is in real time at intelligent ringTouch on touch-screen 70 operates the touch data producing;

Described touch data had both comprised that user's finger was clicked, long time generates by described touch-screen 70Data, the data that the finger that also comprises user generates when slippage on described touch-screen 70;

Step S04: what described data transmission blocks 800 detected described data acquisition module 200 touchesTouch data and send in real time data reception module 900 by communication;

Step S05: described data reception module 900 receives described data transmission blocks 800 in real time to be passed throughThe touch data that communication sends over, and described touch data is transferred to gesture parsing module300；

Step S06: described touch data is resolved to corresponding orientation by described gesture parsing module 300Gesture also judges the type of orientation gesture; The type of described orientation gesture comprise click gesture, slippage gesture andLong by gesture after slippage, after slippage, length also can replace by rear slippage gesture with long by gesture, and the two is equivalence; If the type of described orientation gesture is slippage gesture, calling function acquisition module 400; If described inThe type of orientation gesture is that after clicking gesture or slippage, length, by gesture, is called interface acquisition module 500;

Concrete determination methods is the sliding trajectory according to touch point, calculates the skidding distance of touch point,If while reaching setting threshold, regard as slippage gesture, otherwise, regard as and click gesture or long by gesture;Time of staying when calculating finger is static on described touch-screen 70, if while reaching setting threshold, regard asLong by gesture, otherwise, regard as click gesture; Described touch point is defined as user's finger and described touchingTouch the contact point of screen 70;

Step S07: described function acquisition module 400, according to predefined orientation gesture and buttonBetween corresponding relation, determine the corresponding the target button of described orientation gesture, and under function allocating moduleReach the instruction of clicking the target button; Wherein, described predefined corresponding relation is described orientation gesture and orderOne-to-one relationship between mark button click action;

Described interface acquisition module 500, corresponding according between predefined orientation gesture and interfaceRelation, determines the corresponding target interface of described orientation gesture, and assigns invocation target to interface calling moduleThe instruction at interface; Wherein, described predefined corresponding relation is that described orientation gesture and target interface are calledOne-to-one relationship between operation (turning over screen operation);

Step S08: described function allocating module 600, the finger of assigning according to described function acquisition moduleOrder, the function that invocation target button indicates; Described funcall, is defined as invocation target button and indicatesFunction, be embodied in by described predefined corresponding relation, user can utilize described orientation handGesture is clicked corresponding the target button in current interface;

Described interface calling module 700, the instruction of assigning according to described interface acquisition module, calls orderThe face of demarcating; Call at described interface, is defined as invocation target interface, is embodied in by described and presetsCorresponding relation, user can utilize orientation gesture to realize current interface is replaced by target interface, carries outThe screen that turns over of intelligent watch or intelligent glasses operates.

2. the straight flow control journey of orientation gesture

Gesture straight flow control journey in described orientation is defined as carries out the step followed when orientation gesture is directly controlled,As shown in Figure 3; Except cancellation step S04 and step S05, all the other steps and orientation gesture remote control method instituteThe step comprising is identical, only described touch-screen need be defined as to touch-screen 30 or the intelligent glasses of intelligent watch 1020 Trackpad 40.

Embodiment tri-

Embodiment tri-provides an example that utilizes orientation gesture to carry out remote-controlled intelligent wrist-watch.

Fig. 8 is the nine grids button of certain intelligent watch, wherein:

Upper left side button A1 is " motion " button;

Top button A2 is " cardiotach ometer " button;

Upper right side button A3 is " compass " button;

Left button A4 is " searching equipment " button;

Centre button A5 is " application " button;

Right-hand button A6 is " set " button;

Lower left button A7 is " notice " button;

Below button A8 is " music " button;

Lower right button A9 is " weather " button.

According to funcall primitive rule, this routine concrete operations code comprises:

S11: finger to upper left side slippage, is to click " motion " on the touch-screen of intelligent ringButton;

S12: finger slippage upward on described touch-screen is to click " cardiotach ometer " button;

S13: finger to upper right side slippage, is to click " compass " button on described touch-screen;

S14: finger to left slippage, is to click " searching equipment " button on described touch-screen;

S15: finger is clicked described touch-screen is to click " application " button;

S16: finger to right-hand slippage, is to click " set " button on described touch-screen;

S17: finger on described touch-screen left below slippage, be click " notice " button;

S18: finger slippage downwards on described touch-screen is to click " music " button;

S19: finger to lower right slippage, is to click " weather " button on described touch-screen.

Embodiment tetra-

Embodiment tetra-provides a reality utilizing orientation gesture directly to manipulate on intelligent watchExample.

Fig. 9 is the non-nine grids button of certain intelligent watch, wherein:

Upper left side button B01 is " call in real time " button;

Upper right side button B03 is " location in real time " button;

Lower left button B07 is " information reception " button;

Lower right button B09 is " information pushing " button.

Supplement rule according to funcall, for two row two row button layouts, should contrast nine gridsRow limit, the limit row button of button carries out clicking operation; Further, this routine concrete operations code comprises:

S21: finger to upper left side slippage, is to click " to lead in real time on the touch-screen of intelligent watchWords " button;

S22: finger to upper right side slippage, is to click " location in real time " to press on described touch-screenButton;

S23: finger on described touch-screen left below slippage, be click " information reception " pressButton;

S24: finger to lower right slippage, is to click " information pushing " to press on described touch-screenButton.

Embodiment five

Embodiment five provides a reality utilizing orientation gesture to carry out remote-controlled intelligent glasses to turn over screen operationExample.

Figure 10 is the nine grids interface of certain intelligent glasses, wherein:

Interface, upper left side B1 is " interface ";

Top interface B2 is " mobile phone interface ";

Interface, upper right side B3 is " video clip ";

Left interface B4 is " micro-letter interface ";

The interface B5 of central authorities is " main interface ";

Right-hand interface B6 is " music interface ";

Interface, lower left B7 is " application interface ";

Below interface B8 is " socket ";

Interface, lower right B9 is " shooting interface ".

According to interface calling rule, this routine concrete operations code comprises:

S31: finger to long pressing after the slippage of upper left side, is to turn over screen extremely on the touch-screen of intelligent ring" interface ";

S32: finger long pressing after slippage upward on described touch-screen is to turn over screen to " mobile phone circleFace ";

S33: finger to long pressing after the slippage of upper right side, is to turn over screen to " video on described touch-screenInterface ";

S34: finger to long pressing after left slippage, is to turn over screen to " Wei Xin circle on described touch-screenFace ";

S35: finger is long pressing on described touch-screen is to turn over screen to " main interface ";

S36: finger to long pressing after right-hand slippage, is to turn over screen to " music world on described touch-screenFace ";

S37: finger on described touch-screen left below long pressing after slippage, be to turn over screen to " applicationInterface ";

S38: finger is grown and pressed after slippage downwards on described touch-screen is to turn over screen to the " dotcom worldFace ";

S39: finger to long pressing after the slippage of lower right, is to turn over screen to " taking on described touch-screenInterface ".

Before the present invention occurs, turn over screen operation and conventionally only have two kinds, turn over forward screen operation and toAfter turn over screen operation. Run into number of interfaces when more, user need to turn over screen operation repeatedly, such as, at thisIn example, if nine interfaces are from left to right arranged in order as " interface " " mobile phone interface " " video circleFace " " micro-letter interface " " main interface " " music interface " " application interface " " socket " " shootingInterface ", so, user will enter from " interface " " shooting interface ", need to carry out eight timesTurn over screen operation; And adopt orientation gesture manipulation, user only need once turn over screen operation, just can enter and take officeOne interface; Carry out again one click operation, just can click the arbitrary button in current interface. 9 nine grids circleFace can hold at most 81 buttons, adopts orientation gesture manipulation, and after two step operations, user is with regard to energy at mostClick wherein any one button, improved significantly thus the manipulation effect of intelligent watch or intelligent glassesRate.

What the present invention proposed utilizes orientation gesture and manipulates intelligent watch or intelligence by intelligent ringThe solution of glasses, can become the touch screen design of intelligent ring the sample of the little and applicable finger manipulation of areaFormula; User is in the time of remote-controlled intelligent wrist-watch or intelligent glasses, and that hand that has on intelligent ring can be away from peopleSight line, even can be placed in and in coat-sleeve, pocket or trouser pocket, carry out blind operation.

The orientation gesture that the present invention proposes, had both comprised user's finger point touching screen or TrackpadAction, also comprises that user's finger does the action of straight line slippage on touch-screen or Trackpad, also comprises userWith the long action of pressing touch-screen or Trackpad of finger. Because click action is also one with length by action in essenceKind of orientation gesture, the slippage orientation of its finger is perpendicular to touch-screen or Trackpad surface, and from touch-screen orTrackpad outside is towards touch-screen or Trackpad interior slip, so, the finger that orientation definition of gesture is userMake the gesture motion of straight line slippage along Jiu Ge orientation, space.

Finger that the orientation gesture that the present invention proposes only depends on user is on touch-screen or TrackpadSlippage orientation, and irrelevant with the particular location of finger on touch-screen or Trackpad. In other words user no matter,Finger be touch-screen or Trackpad where on click, its manipulation result is all the same; No matterUser's finger is to be slightly thin, and skidding distance is that length is short, as long as slippage orientation is identical, its manipulation result alsoThe same.

The orientation gesture manipulation that the present invention proposes, its sharpest edges are: user is without being concerned about that finger existsThe particular location of touch-screen or Trackpad, the slippage orientation that user only just can point control intuitively exactly,Therefore the feedback information that, user only provides according to the display screen of the touch-screen of intelligent watch or intelligent glassesAdjust click, the slippage or long by action of finger, this has not only improved manipulation speed, precision widelyAnd convenience, also reduce maloperation probability.

One of ordinary skill in the art will appreciate that all or part of stream of realizing in above-described embodimentJourney, can complete by computer program instructions related hardware, and described program can be stored in oneIn calculation machine readable storage medium storing program for executing, this program, in the time carrying out, can comprise as the flow process of the embodiment of above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-OnlyMemory,Or random store-memory body (RandomAccessMemory, RAM) ROM).

Disclosed is only exemplary embodiments of the present invention above, certainly can not limit with thisThe present invention's interest field, one of ordinary skill in the art will appreciate that the whole or portion that realizes above-described embodimentDivide flow process, and the equal variation of doing according to the claims in the present invention, the content that the present invention is contained still belonged to.

Claims (10)

1. a device that utilizes orientation gesture manipulation intelligent watch or intelligent glasses, is characterized in that: described inDevice comprises an intelligent ring, an intelligent watch or an intelligent glasses; Described in described intelligent ring is used for manipulatingIntelligent watch or intelligent glasses; Between described intelligent ring and described intelligent watch or intelligent glasses, pass through wirelessCommunication mode carries out real time data exchange; Described intelligent ring is provided with touch-screen, and described touch-screen is for inspectionInterception gesture; Described intelligent ring is provided with application program, and described application program comprises data acquisition moduleAnd data transmission blocks;

Further, the finger that described data acquisition module detects user is in real time on the touch-screen of intelligent ringTouch operate the touch data producing;

Described data transmission blocks, passes through wireless for the touch data that described data acquisition module is detectedCommunication mode sends to data reception module in real time;

The touch-screen of described intelligent watch or the display screen of intelligent glasses are used for showing current interface and button thereof;Described intelligent watch or intelligent glasses are provided with application program, described application program comprise button display module,Data reception module, gesture parsing module, function acquisition module, interface acquisition module, function allocating moduleWith interface calling module;

Further, described button display module, for providing touch-screen or the intelligent glasses at intelligent watchDemonstration screen display current interface and button thereof;

Described data reception module, real-time by communication for receiving by described data transmission blocksThe touch data sending over, and described touch data is transferred to gesture parsing module;

Described gesture parsing module, for resolving to described touch data corresponding orientation gesture judgement sideThe type of position gesture; If the type of described orientation gesture is slippage gesture, calling function acquisition module;If the type of described orientation gesture is that after clicking gesture or slippage, length, by gesture, is called interface and obtained mouldPiece;

Described function acquisition module, for the corresponding relation according between predefined orientation gesture and button,Determine the corresponding the target button of described orientation gesture, and assign and click the target button to function allocating moduleInstruction;

Described interface acquisition module, for the corresponding relation according between predefined orientation gesture and interface,Determine the corresponding target interface of described orientation gesture, and assign invocation target interface to interface calling moduleInstruction;

Described function allocating module, for the instruction of assigning according to described function acquisition module, invocation target is pressedThe function indicating on button;

Described interface calling module, for the instruction of assigning according to described interface acquisition module, invocation target circleFace;

Described communication includes but not limited to that bluetooth connected mode, infrared connected mode, radio frequency connectOne in mode, WIFI connected mode.

2. a kind of dress that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 1Put, it is characterized in that: described device also can be cancelled intelligent ring and data transmission blocks thereof, data receptionPiece, directly utilizes the touch-screen of intelligent watch or the Trackpad of intelligent glasses to replace the touch-screen of intelligent ring to enterRow orientation gesture operation.

3. a method of utilizing orientation gesture manipulation intelligent watch or intelligent glasses, is characterized in that: described inThe orientation gesture that method utilizes user's finger to do on the touch-screen of intelligent ring manipulate intelligent watch orIntelligent glasses; Described orientation gesture comprises the some hitter that user's finger is done on the touch-screen of intelligent ringLong by gesture after gesture, slippage gesture and slippage; Described method comprises step:

Gesture manipulation state in A orientation is opened;

Button display module described in B, provides aobvious on the touch-screen of intelligent watch or the display screen of intelligent glassesShow current interface and button thereof;

Data acquisition module described in C, the touch of the finger that detects in real time user on the touch-screen of intelligent ringThe touch data that operation produces;

Data transmission blocks described in D, the touch data that described data acquisition module is detected passes through in real timeCommunication sends to data reception module;

Data reception module described in E, receives in real time described data transmission blocks and sends by communicationThe touch data of coming over, and described touch data is transferred to gesture parsing module;

Gesture parsing module described in F, orientation gesture corresponding to described touch data resolves to and judges orientationThe type of gesture; If the type of described orientation gesture is slippage gesture, calling function acquisition module; AsThe type of the described orientation of fruit gesture is that after clicking gesture or slippage, length, by gesture, is called interface acquisition module;

Function acquisition module described in G, according to the corresponding relation between predefined orientation gesture and button,Determine the corresponding the target button of orientation gesture, and assign to function allocating module the instruction of clicking the target button;Described interface acquisition module, according to the corresponding relation between predefined orientation gesture and interface, determines sideThe corresponding target interface of position gesture, and assign the instruction at invocation target interface to interface calling module;

Function allocating module described in H, the instruction of assigning according to described function acquisition module, invocation target buttonThe function indicating; Described interface calling module, the instruction of assigning according to described interface acquisition module, callsTarget interface.

4. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: N button is set in the current interface of intelligent watch or intelligent glasses;

A is in the time of N=9, and a described N button adopts 3 row 3 column distribution modes, generates nine grids button;

Described nine grids button comprises centre button, upper left side button, top button, upper right side button, a left sideSide button, right-hand button, lower left button, below button and lower right button, or comprise middle row button,Limit row button, middle row button and Bian Lie button;

B is in the time of N < 9, and the cross direction profiles of a described N button is no more than 3 row, longitudinally distributes and be no more than 3 rows, rawBecome non-nine grids button.

5. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: the function that described invocation target button indicates, is embodied in and utilizes orientation gestureClick corresponding nine grids button in current interface, also comprise:

User's finger is clicked the touch-screen of intelligent ring, is the centre button of clicking described nine grids button;

User's finger is done straight line slippage to a certain orientation on described touch-screen, is to click described nine gridsThe same orientation button of button;

Further, finger is done straight line slippage on described touch-screen to upper left side, is to click described nine palacesThe upper left side button of lattice button;

Finger is done upward straight line slippage on described touch-screen, is the top of clicking described nine grids buttonButton;

Finger is done straight line slippage on described touch-screen to upper right side, be the right side of clicking described nine grids buttonTop button;

Finger is done straight line slippage to left on described touch-screen, is the left of clicking described nine grids buttonButton;

Finger is done straight line slippage to right-hand on described touch-screen, is click described nine grids button right-handButton;

Finger is done straight line slippage below left on described touch-screen, is a left side of clicking described nine grids buttonBelow button;

Finger is done straight line slippage downwards on described touch-screen, is the below of clicking described nine grids buttonButton;

Finger is done straight line slippage on described touch-screen to lower right, be the right side of clicking described nine grids buttonBelow button.

6. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: the function that described invocation target button indicates, is embodied in and utilizes orientation gestureClick corresponding non-nine grids button in current interface, also comprise:

Single file button carries out clicking operation according to the middle row button of nine grids button;

Single-row button carries out clicking operation according to the middle row button of nine grids button;

Duplicate rows button carries out clicking operation according to the limit row button of nine grids button;

Biserial button carries out clicking operation according to the limit row button of nine grids button.

7. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: 9 interfaces are set in the Virtual Space of intelligent watch or intelligent glasses; Described 9Interface adopts 3 row 3 column distribution modes, generates nine grids interface; Described nine grids interface comprise central interface,Interface, upper left side, interface, top, interface, upper right side, left interface, right-hand interface, interface, lower left, underInterface, side and interface, lower right.

8. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: described invocation target interface, is embodied in and utilizes orientation gesture to carry out intelligent watchOr the screen that turns over of intelligent glasses operates, and also comprises:

User's finger is long by the touch-screen of intelligent ring, is to turn over the central interface of shielding to nine grids interface;

User's finger is done straight line slippage to a certain orientation on described touch-screen, after slippage finishes immediately long by,To turn over the same direction interfaces shielding to nine grids interface;

Further, finger on described touch-screen, do to upper left side after straight line slippage long by, be to turn over screen extremelyThe interface, upper left side at described nine grids interface;

Finger on described touch-screen, do upward after straight line slippage long by, be to turn over screen to described nine grids circleThe interface, top of face;

Finger on described touch-screen, do to upper right side after straight line slippage long by, be to turn over screen to described nine gridsThe interface, upper right side at interface;

Finger on described touch-screen to left do after straight line slippage long by, be to turn over screen to described nine interfaces, palaceLeft interface;

Finger on described touch-screen to right-hand do after straight line slippage long by, be to turn over screen to described nine grids circleThe right-hand interface of face;

Finger on described touch-screen, do below left after straight line slippage long by, be to turn over screen to described nine gridsThe interface, lower left at interface;

Finger on described touch-screen, do downwards after straight line slippage long by, be to turn over screen to described nine grids circleThe interface, below of face;

Finger on described touch-screen, do to lower right after straight line slippage long by, be to turn over screen to described nine gridsThe interface, lower right at interface.

9. a kind of side that utilizes orientation gesture manipulation intelligent watch or intelligent glasses according to claim 3Method, is characterized in that: described method also can cancellation step D and step e, utilizes user's finger in intelligenceThe orientation gesture of doing on the touch-screen of wrist-watch or on the Trackpad of intelligent glasses directly manipulates intelligent watchOr intelligent glasses; Described orientation gesture comprises that user's finger is on the touch-screen of intelligent watch or at Brilliant EyesLong by gesture after click gesture, slippage gesture and the slippage of doing on the Trackpad of mirror.

10. one according to claim 9 utilizes orientation gesture directly to manipulate intelligent watch or intelligent glassesMethod, it is characterized in that: described method also comprises objective function calling rule and target interface calling rule;Described objective function calling rule is identical with claim 5, only described touch-screen need be defined as to intelligent watchThe Trackpad of touch-screen or intelligent glasses; Described target interface calling rule is identical with claim 8, onlyDescribed touch-screen need be defined as to the touch-screen of intelligent watch or the Trackpad of intelligent glasses.