CN105045520A - Touch screen response method and apparatus - Google Patents

Abstract

The present invention discloses a touch screen response method and apparatus. The touch screen response method comprises: in response to a touch operation of a user on a self-mobile area of a virtual control panel, calculating a moving speed and a moving direction of a controlled object according to the location of a touch point of the touch operation, wherein the moving direction is a direction that the touch point is opposite to a center point of the virtual control panel, and the moving speed or the acceleration, and a distance between the touch point and the center point of the virtual control panel present an increasing function relationship; and the virtual control panel is displayed in an arbitrary area of the touch screen; and and controlling the controlled object to move on the touch screen in the moving direction at the moving speed. By adopting the embodiment of the present invention, the controlled object can be quickly and accurately controlled to move on the touch screen.

Description

A kind of touch-screen response method and device

Technical field

The present invention relates to technical field of mobile terminals, particularly relate to a kind of touch-screen response method and device.

Background technology

Universal along with touch-screen, the operating habit of people when using electronic product has been contact action by the physical button operational transition in past.Contact action requires that user uses finger to control at the enterprising line operate of screen.But along with industrial level is day by day flourishing, the cost of manufacture of screen is more and more lower, the screen that electronic equipment uses is also increasing.The high-resolution touch display screen of giant-screen, while giving the grand banquet of user's vision, also brings certain trouble also to the operation of user.The mode of operation of user is generally one hand and holds electronic equipment and adopt thumb to do in on-screen options, but when if user needs service range to point application software far away or needs to click menu position, X button, this operator scheme can be very difficult, easily makes electronic equipment landing simultaneously.

To this, many solutions are suggested.Some schemes solve by producing a screen thumbnail on screen.But, because screen thumbnail is too small, point when clicking in screen thumbnail and can only click a general area, can not precise manipulation.Such as, user wants the icon of the application software clicked in screen thumbnail, and icon usually only has several pixel in screen thumbnail, uses finger to go the icon clicking several pixel to be accurately unpractical.

In addition, also have some schemes to be by by remote screen " movement ", the interface of whole viewing area is narrowed down to solve in part viewing area.But, this solution adds extra operation, have impact on the display to the effective content of screen in operating process simultaneously.And, can not switch flexibly between whole viewing area and part viewing area, and handoff procedure is complicated.

Summary of the invention

The embodiment of the present invention proposes a kind of touch-screen response method and device, can control controlled device fast, accurately and move on the touchscreen.

The embodiment of the present invention provides a kind of touch-screen response method, comprising:

In response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen;

Control described controlled device to move on described touch-screen with described moving direction and described translational speed.

Further, described in response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device, specifically comprise:

In response to the touch control operation from moving area on of user at virtual controlling plate, start the operation duration of recording user;

When described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device.

Further, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

In first preferably embodiment, described virtual controlling plate is border circular areas, and the central point of described virtual controlling plate is the center of circle of described border circular areas, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In second preferably embodiment, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 3rd preferably embodiment, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 4th preferably embodiment, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

Further, described touch-screen response method also comprises:

In response to the rotation process of user to described virtual controlling plate, rotate described virtual controlling plate.

In another preferably embodiment, described virtual controlling plate also comprises normal moving area; Described normal moving area is circular, described from moving area be annular region around described normal moving area;

Described touch-screen response method also comprises:

In response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed;

The moving direction and translational speed that obtain controlled device is calculated based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

Further, after the described controlled device of described control moves on described touch-screen with described moving direction and described translational speed, also comprise:

Terminate in response to user's touch control operation, control described controlled device and stop mobile.

Further, described touch-screen response method also comprises:

In response to the steering order that user sends on described virtual controlling plate, the object of described controlled device position is processed accordingly.

Further, described touch-screen response method also comprises:

In response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

Further, described touch-screen response method also comprises:

In response to the clicking operation of user to hover button, show described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

Further, described touch-screen response method also comprises:

In response to the drag operation of user to described hover button, mobile described hover button.

Further, described touch-screen response method also comprises:

In response to the drag operation of user to described virtual controlling plate, mobile described virtual controlling plate.

The embodiment of the present invention also provides a kind of touch-screen response method, comprising:

In response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.

Accordingly, the embodiment of the present invention provides a kind of touch-screen responding device, comprising:

Computing module, in response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculates the translational speed and moving direction that obtain controlled device; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen; And,

Control module, moves with described moving direction and described translational speed for controlling described controlled device on described touch-screen.

Further, described first computing module specifically comprises:

Timing unit, in response to the touch control operation from moving area on of user at virtual controlling plate, starts the operation duration of recording user; And,

Computing unit, for when described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculates the translational speed and moving direction that obtain controlled device.

Further, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

In first preferably embodiment, described virtual controlling plate is border circular areas, and the central point of described virtual controlling plate is the center of circle of described border circular areas, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In second preferably embodiment, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 3rd preferably embodiment, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 4th preferably embodiment, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

Further, described touch-screen responding device also comprises:

Rotating module, in response to the rotation process of user to described virtual controlling plate, rotates described virtual controlling plate.

In another preferably embodiment, described virtual controlling plate also comprises normal moving area; Described normal moving area is circular, described from moving area be annular region around described normal moving area;

Described touch-screen responding device also comprises:

Acquisition module, in response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed; And,

Calculate acquisition module, for calculating the moving direction and translational speed that obtain controlled device based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

Further, described touch-screen responding device also comprises:

Control stopping modular, for terminating in response to user's touch control operation, controlling described controlled device and stopping mobile.

Further, described touch-screen responding device also comprises:

Processing module, for the steering order sent on described virtual controlling plate in response to user, processes accordingly to the object of described controlled device position.

Further, described touch-screen responding device also comprises:

Hide module, in response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

Further, described touch-screen responding device also comprises:

Display module, in response to the clicking operation of user to hover button, shows described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

Further, described touch-screen responding device also comprises:

Hover button mobile module, in response to the drag operation of user to described hover button, moves described hover button.

Further, described touch-screen responding device also comprises:

Virtual controlling plate mobile module, in response to the drag operation of user to described virtual controlling plate, moves described virtual controlling plate.

The embodiment of the present invention also provides a kind of touch-screen responding device, described touch-screen responding device is in response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.

Implement the embodiment of the present invention, there is following beneficial effect:

The touch-screen response method that the embodiment of the present invention provides and device, can on user's touch-control virtual controlling plate from moving area time, calculate moving direction and the translational speed of controlled device, realize the control to controlled device movement, user only needs touch-control from moving area and removable controlled device, reduce virtual controlling plate area, and realize fast, accurately control controlled device move; After user carries out touch control operation, the duration of touch control operation being judged, moving controlled device again when reaching duration threshold value, to avoid the maloperation of user; User also in the enterprising line slip operation of the normal moving area of virtual controlling plate, can follow slide to move to control controlled device, makes the movement of controlled device more accurate; After controlled device stopping is mobile, on virtual controlling plate, sending controling instruction carries out respective handling to the object of controlled device position, thus by means of only the control realized whole screen of going out to drill at virtual controlling plate, improves Consumer's Experience; Random mobile hover button or virtual controlling plate on the touchscreen, to be adapted to the mode of operation of user, improves Consumer's Experience.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of first embodiment of touch-screen response method provided by the invention;

Fig. 2 is the structural representation of first embodiment of touch-screen provided by the invention;

Fig. 3 is the structural representation of second embodiment of touch-screen provided by the invention;

Fig. 4 is the part run schematic diagram of second embodiment of touch-screen response method provided by the invention;

Fig. 5 is the structural representation of the 3rd embodiment of touch-screen provided by the invention;

Fig. 6 is the structural representation of an embodiment of touch-screen responding device provided by the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

See Fig. 1, be the schematic flow sheet of an embodiment of touch-screen response method provided by the invention, comprise:

S11, in response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculate and obtain the translational speed of controlled device and moving direction; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen;

S12, control described controlled device and move on described touch-screen with described moving direction and described translational speed.

It should be noted that, virtual controlling plate is touch-screen supplies user operation to control the region of controlled device movement, the size of virtual controlling plate is traditionally arranged to be the zone of action of finger on screen of this hand when user's one hand holds mobile device, thus improves the Consumer's Experience that user uses large scale screen mobile devices.Wherein, controlled device can be cursor, also can be the virtual portrait etc. in game client.

In operation, user can carry out growing by operation on moving area, according to the long moving direction calculating the Distance geometry controlled device between 2 by the position of the position and virtual controlling plate central point that operate touch point on the touchscreen.Call again that preset to increasing function that is Distance geometry velocity correlation to calculate this apart from corresponding speed, and using the translational speed of this speed as controlled device, or, call the increasing function relevant to Distance geometry acceleration that preset to calculate this apart from corresponding acceleration, and calculate the translational speed obtaining controlled device in real time according to this acceleration, thus control controlled device moves on screen with this moving direction and translational speed.User also can operate from the enterprising line slip of moving area, moving direction and the translational speed of controlled device is calculated in real time by the real time position of slide touch point on the touchscreen, thus adjust moving direction and the translational speed of controlled device in real time, fast and accurately can move to desired location to make controlled device.

Further, described in response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device, specifically comprise:

In response to the touch control operation from moving area on of user at virtual controlling plate, start the operation duration of recording user;

When described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device.

It should be noted that, touch for avoiding user by mistake and cause controlled device to move from moving area, user is set in the duration threshold value of carrying out touch control operation from moving area.Detecting that user is when the touch control operation of moving area, starting timing, when timing duration reaches this duration threshold value, then starting to calculate the translational speed of controlled device and moving direction with mobile controlled device.

Further, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

Wherein, the distance dependent between the translational speed of controlled device and the central point of touch point and virtual controlling plate.The translational speed of controlled device can be proportional to distance, also can increase progressively according to range segment separating.Wherein, increase progressively to be according to range segment separating and distance is divided into multistage, different speed amplification corresponding to segment distance is different, and can be identical with the speed corresponding to segment distance, as first paragraph is a apart from corresponding translational speed, second segment is b apart from corresponding translational speed, also can be proportional to its distance with the speed corresponding to segment distance.

In first preferably embodiment, as shown in Figure 2, described virtual controlling plate 2 is border circular areas, and the central point of described virtual controlling plate 2 is the center of circle of described border circular areas, and described virtual controlling plate 2 is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate 2 from moving area.

In second preferably embodiment, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

It should be noted that, as shown in Figure 2, virtual controlling plate 2 is the arbitrary region on touch-screen 1.Virtual controlling plate can be circular or annular, and the activity of finger 3 on virtual controlling plate 2 just can determine the moving direction of 360 °.And border circular areas is one is all symmetrical region to all axles by the center of circle, and user uses left hand, the right hand, both hands or transverse direction, longitudinal direction, oblique function screen can operate with same operating habit.

The positional information of Real-time Obtaining touch point, and calculate in real time distance between touch point and the central point of virtual controlling plate region residing for touch point is judged.If virtual controlling plate is circular, then this distance is less than virtual controlling plate radius and can judges that touch point is positioned at from moving area; If virtual controlling plate is annular, then this distance is greater than the inside radius of virtual controlling plate and the external radius being less than virtual controlling plate can judge that touch point is positioned at from moving area.

In the 3rd preferably embodiment, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 4th preferably embodiment, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

Further, described touch-screen response method also comprises:

In response to the rotation process of user to described virtual controlling plate, rotate described virtual controlling plate.

It should be noted that, virtual controlling plate also can be semicircle or semi-circular shape, by can reach the effect that border circular areas has to the rotation process of semicircle or semi-circular shape, control controlled device to move up 360 ° of sides, and virtual controlling plate is set to semicircle or semi-circular shape, virtual controlling plate viewing area on the touchscreen can be reduced.

The positional information of Real-time Obtaining touch point, and calculate in real time distance between touch point and the center of circle of virtual controlling plate region residing for touch point is judged.If virtual controlling plate is semicircle, then this distance is less than virtual controlling plate radius, and the angle between the radius that can be used as axis of symmetry in the line in touch point and the center of circle and virtual controlling plate is less than 90 ° can judge that touch point is positioned at from moving area; If virtual controlling plate is semi-circular shape, then this distance is greater than the inside radius of virtual controlling plate and is less than the external radius of virtual controlling plate, and the angle between the radius that can be used as axis of symmetry in the line in touch point and the center of circle and virtual controlling plate is less than 90 ° can judge that touch point is positioned at from moving area.

In the 5th preferably embodiment, as shown in Figure 3, described virtual controlling plate 2 also comprises normal moving area 21; Described normal moving area 21 is border circular areas, described from moving area 22 be annular region around described normal moving area.

As shown in Figure 4, described touch-screen response method also comprises:

S41, in response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed;

S42, calculate the moving direction and translational speed that obtain controlled device based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

Virtual controlling plate can also arrange normal moving area, and the sliding trace of user on normal moving area is mapped as controlled device motion track on the touchscreen in real time.When concrete operations, user first slides on normal moving area, make controlled device follow this slip to move on the touchscreen, when user slides into normal moving area edge, if controlled device does not move to desired location, then user slidably arrives from moving area, stop sliding but keep touch condition, the translational speed that controlled device goes out according to this touch point position calculation and moving direction continue mobile, user also can hold sliding mode, to adjust translational speed and the moving direction of controlled device in real time from the continuation of insurance of moving area relaying.

Further, after the described controlled device of described control moves on described touch-screen with described moving direction and described translational speed, also comprise:

Terminate in response to user's touch control operation, control described controlled device and stop mobile.

When detect user from moving area without touch control operation, namely user's finger is when leaving touch-screen, and controlled device stops mobile.When detecting that user is in the fricton-tight operation of normal moving area, when namely user no longer slides on normal moving area, controlled device stops mobile.

Further, described touch-screen response method also comprises:

In response to the steering order that user sends on described virtual controlling plate, the object of described controlled device position is processed accordingly.

When controlled device moves to user's desired location, during as a software icon, user carries out respective handling by sending steering order on virtual controlling plate to this software icon, as opened this software icon, and this software icon mobile etc.Wherein, the user operation that steering order pre-sets by the double click operation etc. of user on virtual controlling plate realizes.

Further, described touch-screen response method also comprises:

In response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

After user does not re-use this virtual controlling plate, can touch screen zone beyond touch-control virtual controlling plate, virtual controlling plate is accepted, avoids affecting user's other operations on the touchscreen.Concrete, virtual controlling plate is border circular areas, when detecting that the distance between the touch point of user's touch control operation and the central point of virtual controlling plate is greater than the radius of virtual controlling plate, judge that the touch control operation of user is positioned in the touch screen zone beyond virtual controlling plate, hide controlled device, and virtual controlling plate is reduced be shown as hover button.Wherein, hover button suspends in 4 contents shown at touch-screen 1, is translucent button, as shown in Figure 5, thus does not affect user and normally use mobile phone.

Further, described touch-screen response method also comprises:

In response to the clicking operation of user to hover button, show described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

When user needs to move controlled device to realize the operation to whole screen by virtual controlling plate, click hover button, opened by hover button and be shown as virtual controlling plate, and demonstrate controlled device in the center of touch-screen, user can at the enterprising line operate of virtual controlling plate.Wherein, virtual controlling plate shows in the position of hover button, namely the center of circle of virtual controlling plate and the center of circle of hover button overlapping, if hover button is near the edge of touch-screen, then when demonstrating virtual controlling plate, the center of circle of meeting mobile virtual control panel all shows on the touchscreen to make virtual controlling plate.

Further, described touch-screen response method also comprises:

In response to the drag operation of user to described hover button, mobile described hover button.

When user needs mobile hover button, drag operation is carried out to hover button.Real-time detection drag operation touch point on the touchscreen, and control hover button in real time along with moving touch point.

Further, described touch-screen response method also comprises:

In response to the drag operation of user to described virtual controlling plate, mobile described virtual controlling plate.

The user operation of user also by presetting adjusts the position of virtual controlling plate at touch-screen, in real time to adapt to the operating habit of user.

The embodiment of the present invention also provides another kind of touch-screen response method, comprising:

In response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.

It should be noted that, each point on moving area of virtual controlling plate is fixed value relative to the distance of the central point of virtual controlling plate, can pre-set and the translational speed/acceleration preserved on moving area corresponding to various point locations and moving direction.When the touch control operation of user is positioned at from moving area, obtain the position of the touch point of touch control operation, can obtain translational speed/acceleration and the moving direction of its correspondence according to this position, thus control controlled device moves on the touchscreen with this translational speed/acceleration and moving direction.Adopt the present embodiment, can realize fast, accurately control controlled device move.

The touch-screen response method that the embodiment of the present invention provides, can on user's touch-control virtual controlling plate from moving area time, calculate moving direction and the translational speed of controlled device, realize the control to controlled device movement, user only needs touch-control from moving area and removable controlled device, reduce virtual controlling plate area, and realize fast, accurately control controlled device move; After user carries out touch control operation, the duration of touch control operation being judged, moving controlled device again when reaching duration threshold value, to avoid the maloperation of user; User also in the enterprising line slip operation of the normal moving area of virtual controlling plate, can follow slide to move to control controlled device, makes the movement of controlled device more accurate; After controlled device stopping is mobile, on virtual controlling plate, sending controling instruction carries out respective handling to the object of controlled device position, thus by means of only the control realized whole screen of going out to drill at virtual controlling plate, improves Consumer's Experience; Random mobile hover button or virtual controlling plate on the touchscreen, to be adapted to the mode of operation of user, improves Consumer's Experience.

Accordingly, the present invention also provides a kind of touch-screen responding device, can realize all flow processs of the touch-screen response method in above-described embodiment.

See Fig. 6, be the structural representation of an embodiment of touch-screen responding device provided by the invention, comprise:

Computing module 61, in response to the touch control operation from moving area on of user at virtual controlling plate, according to the position of the touch point of described touch control operation, calculates the translational speed and moving direction that obtain controlled device; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen; And,

Control module 62, moves with described moving direction and described translational speed for controlling described controlled device on described touch-screen.

Further, described first computing module specifically comprises:

Timing unit, in response to the touch control operation from moving area on of user at virtual controlling plate, starts the operation duration of recording user; And,

Computing unit, for when described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculates the translational speed and moving direction that obtain controlled device.

Further, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

In first preferably embodiment, described virtual controlling plate is border circular areas, and the central point of described virtual controlling plate is the center of circle of described border circular areas, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In second preferably embodiment, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 3rd preferably embodiment, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

In the 4th preferably embodiment, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

Further, described touch-screen responding device also comprises:

Rotating module, in response to the rotation process of user to described virtual controlling plate, rotates described virtual controlling plate.

In another preferably embodiment, described virtual controlling plate also comprises normal moving area; Described normal moving area is circular, described from moving area be annular region around described normal moving area;

Described touch-screen responding device also comprises:

Acquisition module, in response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed; And,

Calculate acquisition module, for calculating the moving direction and translational speed that obtain controlled device based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

Further, described touch-screen responding device also comprises:

Control stopping modular, for terminating in response to user's touch control operation, controlling described controlled device and stopping mobile.

Further, described touch-screen responding device also comprises:

Processing module, for the steering order sent on described virtual controlling plate in response to user, processes accordingly to the object of described controlled device position.

Further, described touch-screen responding device also comprises:

Hide module, in response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

Further, described touch-screen responding device also comprises:

Display module, in response to the clicking operation of user to hover button, shows described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

Further, described touch-screen responding device also comprises:

Hover button mobile module, in response to the drag operation of user to described hover button, moves described hover button.

Further, described touch-screen responding device also comprises:

Virtual controlling plate mobile module, in response to the drag operation of user to described virtual controlling plate, moves described virtual controlling plate.

The embodiment of the present invention also provides a kind of touch-screen responding device, described touch-screen responding device is in response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.

The touch-screen responding device that the embodiment of the present invention provides, can on user's touch-control virtual controlling plate from moving area time, calculate moving direction and the translational speed of controlled device, realize the control to controlled device movement, user only needs touch-control from moving area and removable controlled device, reduce virtual controlling plate area, and realize fast, accurately control controlled device move; After user carries out touch control operation, the duration of touch control operation being judged, moving controlled device again when reaching duration threshold value, to avoid the maloperation of user; User also in the enterprising line slip operation of the normal moving area of virtual controlling plate, can follow slide to move to control controlled device, makes the movement of controlled device more accurate; After controlled device stopping is mobile, on virtual controlling plate, sending controling instruction carries out respective handling to the object of controlled device position, thus by means of only the control realized whole screen of going out to drill at virtual controlling plate, improves Consumer's Experience; Random mobile hover button or virtual controlling plate on the touchscreen, to be adapted to the mode of operation of user, improves Consumer's Experience.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (32)

1. a touch-screen response method, is characterized in that, comprising:

In response to the touch control operation from moving area on of user at virtual controlling plate, and the position of touch point according to described touch control operation, calculate the translational speed and moving direction that obtain controlled device; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen;

Control described controlled device to move on described touch-screen with described moving direction and described translational speed.

2. touch-screen response method as claimed in claim 1, it is characterized in that, described in response to the touch control operation from moving area on of user at virtual controlling plate, and the position of touch point according to described touch control operation, calculate the translational speed and moving direction that obtain controlled device, specifically comprise:

In response to the touch control operation from moving area on of user at virtual controlling plate, start the operation duration of recording user;

When described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculate the translational speed and moving direction that obtain controlled device.

3. touch-screen response method as claimed in claim 1 or 2, it is characterized in that, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

4. touch-screen response method as claimed in claim 1, it is characterized in that, described virtual controlling plate is border circular areas, and the central point of described virtual controlling plate is the center of circle of described border circular areas, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

5. touch-screen response method as claimed in claim 1, it is characterized in that, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

6. touch-screen response method as claimed in claim 1, it is characterized in that, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

7. touch-screen response method as claimed in claim 1, it is characterized in that, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

8. touch-screen response method as claimed in claims 6 or 7, it is characterized in that, described touch-screen response method also comprises:

In response to the rotation process of user to described virtual controlling plate, rotate described virtual controlling plate.

9. touch-screen response method as claimed in claim 1, it is characterized in that, described virtual controlling plate also comprises normal moving area; Described normal moving area is circular, described from moving area be annular region around described normal moving area;

Described touch-screen response method also comprises:

In response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed;

The moving direction and translational speed that obtain controlled device is calculated based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

10. touch-screen response method as claimed in claim 1, is characterized in that, after the described controlled device of described control moves on described touch-screen with described moving direction and described translational speed, also comprises:

Terminate in response to user's touch control operation, control described controlled device and stop mobile.

11. touch-screen response methods as claimed in claim 1, it is characterized in that, described touch-screen response method also comprises:

In response to the steering order that user sends on described virtual controlling plate, the object of described controlled device position is processed accordingly.

12. touch-screen response methods as claimed in claim 1, it is characterized in that, described touch-screen response method also comprises:

In response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

13. touch-screen response methods as claimed in claim 1, it is characterized in that, described touch-screen response method also comprises:

In response to the clicking operation of user to hover button, show described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

14. touch-screen response methods as described in claim 12 or 13, it is characterized in that, described touch-screen response method also comprises:

In response to the drag operation of user to described hover button, mobile described hover button.

15. touch-screen response methods as claimed in claim 1, it is characterized in that, described touch-screen response method also comprises:

In response to the drag operation of user to described virtual controlling plate, mobile described virtual controlling plate.

16. 1 kinds of touch-screen response methods, is characterized in that, comprising:

In response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.

17. 1 kinds of touch-screen responding devices, is characterized in that, comprising:

Computing module, in response to the touch control operation from moving area on of user at virtual controlling plate, and the position of touch point according to described touch control operation, calculate the translational speed and moving direction that obtain controlled device; Wherein, described moving direction is the direction of the central point of the relatively described virtual controlling plate of described touch point, and the distance between the central point of the translational speed of described controlled device or acceleration and described touch point and described virtual controlling plate is relationships of increase function; Described virtual controlling plate is presented at the arbitrary region of touch-screen; And,

Control module, moves with described moving direction and described translational speed for controlling described controlled device on described touch-screen.

18. touch-screen responding devices as claimed in claim 17, it is characterized in that, described first computing module specifically comprises:

Timing unit, in response to the touch control operation from moving area on of user at virtual controlling plate, starts the operation duration of recording user; And,

Computing unit, for when described operation duration reaches default duration threshold value, according to the position of the touch point of described touch control operation, calculates the translational speed and moving direction that obtain controlled device.

19. touch-screen responding devices as described in claim 17 or 18, it is characterized in that, described increasing function is direct proportion function or segmentation increasing function; The different section functions of described segmentation increasing function, in increasing progressively relation, are constant or direct proportion function with section function.

20. touch-screen responding devices as claimed in claim 17, it is characterized in that, described virtual controlling plate is border circular areas, and the central point of described virtual controlling plate is the center of circle of described border circular areas, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

21. touch-screen responding devices as claimed in claim 17, it is characterized in that, described virtual controlling plate is circular annular region, and the central point of described virtual controlling plate is the center of circle of described circular annular region, and described virtual controlling plate is whole is from moving area; When distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

22. touch-screen responding devices as claimed in claim 17, it is characterized in that, described virtual controlling plate is semicircular area, and the central point of described virtual controlling plate is the center of circle of described semicircular area, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is less than the radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

23. touch-screen responding devices as claimed in claim 17, it is characterized in that, described virtual controlling plate is semi-circular shape region, and the central point of described virtual controlling plate is the center of circle in described semi-circular shape region, and described virtual controlling plate is whole is from moving area; Distance between described touch point and the central point of described virtual controlling plate is between the inside and outside radius of described virtual controlling plate, and the angle in the line of described touch point and described central point and described virtual controlling plate between the radius of axis of symmetry position is when being less than 90 °, judge the described touch control operation of user be positioned on virtual controlling plate from moving area.

24. touch-screen responding devices as described in claim 22 or 23, it is characterized in that, described touch-screen responding device also comprises:

Rotating module, in response to the rotation process of user to described virtual controlling plate, rotates described virtual controlling plate.

25. touch-screen responding devices as claimed in claim 17, it is characterized in that, described virtual controlling plate also comprises normal moving area; Described normal moving area is circular, described from moving area be annular region around described normal moving area;

Described touch-screen responding device also comprises:

Acquisition module, in response to the slide of user on the normal moving area of virtual controlling plate, the glide direction of slide described in Real-time Obtaining on described normal moving area and sliding speed; And,

Calculate acquisition module, for calculating the moving direction and translational speed that obtain controlled device based on the glide direction of described slide and sliding speed, wherein, the moving direction of described controlled device is consistent with the glide direction of described slide, and the translational speed of described controlled device is proportional to the sliding speed of described slide.

26. touch-screen responding devices as claimed in claim 17, it is characterized in that, described touch-screen responding device also comprises:

Control stopping modular, for terminating in response to user's touch control operation, controlling described controlled device and stopping mobile.

27. touch-screen responding devices as claimed in claim 17, it is characterized in that, described touch-screen responding device also comprises:

Processing module, for the steering order sent on described virtual controlling plate in response to user, processes accordingly to the object of described controlled device position.

28. touch-screen responding devices as claimed in claim 17, it is characterized in that, described touch-screen responding device also comprises:

Hide module, in response to the touch control operation in the touch screen zone of user beyond virtual controlling plate, hide described controlled device, and described virtual controlling plate is reduced be shown as hover button.

29. touch-screen responding devices as claimed in claim 17, it is characterized in that, described touch-screen responding device also comprises:

Display module, in response to the clicking operation of user to hover button, shows described controlled device in the center of described touch-screen, and described hover button amplification is shown as described virtual controlling plate.

30. touch-screen responding devices as described in claim 28 or 29, it is characterized in that, described touch-screen responding device also comprises:

Hover button mobile module, in response to the drag operation of user to described hover button, moves described hover button.

31. touch-screen responding devices as claimed in claim 17, it is characterized in that, described touch-screen responding device also comprises:

Virtual controlling plate mobile module, in response to the drag operation of user to described virtual controlling plate, moves described virtual controlling plate.

32. 1 kinds of touch-screen responding devices, it is characterized in that, described touch-screen responding device is in response to the touch control operation from moving area on of user at virtual controlling plate, according to the touch point of described touch control operation in described position on moving area, control controlled device and move on the touchscreen with the translational speed/acceleration preset and moving direction; Described virtual controlling plate is presented at the arbitrary region of described touch-screen.