CN103870176A

CN103870176A - Control method and electronic device

Info

Publication number: CN103870176A
Application number: CN201210534000.0A
Authority: CN
Inventors: 张晓平; 李欣; 孟广博
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2012-12-11
Filing date: 2012-12-11
Publication date: 2014-06-18
Anticipated expiration: 2032-12-11
Also published as: CN103870176B

Abstract

The invention discloses a control method and an electronic device. The control method is applied to a first electronic device; the first electronic device is in data connection with a second electronic device; the first electronic device comprises a touch sensitive unit. The control method comprises detecting and obtaining first sliding operation of a first area on the surface of the touch sensing unit; confirming first sliding direction which is corresponding to the first sliding operation; confirming a first control command which is corresponding to the first sliding direction based on a corresponding relation between the sliding direction and the control command; sending the first control command to the second electronic device to enable the second electronic device to achieve a first function due to execution of the first control command.

Description

A kind of control method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of control method and electronic equipment.

Background technology

Along with the development of electronic technology, produce increasing electronic equipment, such as: intelligent television, panel computer, mobile phone etc.And along with the development of intelligent television, its corresponding control mode is also more and more, such as: control etc. by key control, voice control, Pad.

Wherein, in the time adopting Pad to control intelligent television, normally based on upper some the shown virtual keys of Pad, intelligent television is controlled.

Present inventor is realizing in the process of the embodiment of the present application technical scheme, at least finds to exist in prior art following technical matters:

Due in the prior art, in the time adopting Pad to control intelligent television, that virtual key based on above Pad is controlled, and there is no physical button, and then cause user can not determine the corresponding steering order of each button with sense of touch, so easily produce wrong operation, and then cause Pad to produce wrong steering order, so, in prior art, exist the technical matters not accurate enough to the control of intelligent television.

Summary of the invention

The embodiment of the present invention provides a kind of method and mobile terminal of controlling electronic equipment, for solving prior art to the not accurate enough technical matters of the control of intelligent television.

On the one hand, the application provides following technical scheme by an embodiment:

A kind of control method, is applied to the first electronic equipment, and described the first electronic equipment is connected with the second electronic equipment data, and described the first electronic equipment comprises touch sensing unit, and described method comprises:

Detect and obtain the first slide of the first area on described touch sensing unit surface;

Determine corresponding the first glide direction of described the first slide;

Based on the corresponding relation between glide direction and steering order, determine corresponding the first steering order of described the first glide direction;

Described the second electronic equipment described the first steering order is sent to described the second electronic equipment, so that can be realized the first function by carrying out described the first steering order.

Optionally, described first area comprises that the L-1 bar dividing line based on paralleling with described the first glide direction divides obtained L sub regions to described first area, and L is more than or equal to 2 integer; Described the first slide is slide that the arbitrary subregion in described L sub regions carries out.

Optionally, when described touch sensing unit comprises N region, wherein N is while being more than or equal to 2 integer, and the described corresponding relation based between glide direction and steering order is determined corresponding the first steering order of described the first glide direction, specifically comprises:

Based on the corresponding relation between the and instruction collection of region, determine corresponding the first instruction set in described first area;

Based on the corresponding relation between glide direction and steering order, from described the first instruction set, determine corresponding described the first steering order of described the first glide direction.

Optionally, the induction region of stating touch sensing unit is rectangular area, and described rectangular area comprises 2 long limits and 2 minor faces, wherein, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region.

Optionally, described electronic equipment also comprises display unit, and described display unit and described touch sensing unit overlap, and described display unit shows M virtual key, and M is more than or equal to 1 integer;

Wherein, described touch sensing unit can respond the i of i virtual key in a described M virtual key is touched to operation, generate with described i virtual key corresponding for controlling the steering order of described electronic equipment, wherein, M is more than or equal to 1 integer, and i is 1 to M arbitrary integer.

Optionally, described M virtual key is shown in the corner regions of described display unit; And/or

A described M virtual key is shown in the second area on the first edge of described display unit, and wherein, the distance at the center at described second area and described the first edge is less than the first predeterminable range threshold value.

Optionally, described viewing area comprises that M shows subregion, corresponding described M of i virtual key in a described M virtual key shows that i in subregion shows subregion, described i touches operation, is specially: the touch time of carrying out in the optional position of described i demonstration subregion exceedes the touch operation of the first Preset Time threshold value.

Optionally, described definite corresponding the first glide direction of described the first slide, specifically comprises:

Detect and obtain corresponding first touch point of reference position of described the first slide and corresponding second touch point of end position of described the first slide;

At least determine described the first glide direction based on described the first touch point and described the second touch point.

Optionally, describedly at least determine described the first glide direction based on described the first touch point and described the second touch point, be specially:

Determine the first direction vector based on corresponding the first coordinate information of described the first touch point and corresponding the second coordinate information of described the second touch point, described the first direction vector is described the first glide direction.

Optionally, describedly at least determine described the first glide direction based on described the first touch point and described the second touch point, specifically comprise:

Determine the first direction vector based on described the first touch point and described the second touch point;

Detect the duty that obtains described the first electronic equipment;

Based on described duty, described the first direction vector is adjusted, to obtain described the first glide direction.

Optionally, when described the first glide direction is when sliding into the glide direction on right side or described the first glide direction from the left side of described touch sensing unit and being the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: the steering order that increases the value of the first parameter; Or when described the first glide direction be when sliding into the glide direction in described left side or the first glide direction from described right side and being the glide direction from described top slide to bottom, described the first steering order is specially: the steering order that reduces the value of described the first parameter

Optionally, when described the first glide direction is that while sliding into the glide direction on right side from the left side of described touch sensing unit, described the first steering order is specially: control the steering order that the first focus moves right; Or

When described the first glide direction is that while sliding into the glide direction in described left side from described right side, described the first steering order is specially: control the steering order that described the first focus is moved to the left; Or

In the time that described the first glide direction is the glide direction from the top slide of described touch sensing unit to bottom, described the first steering order is specially: control the steering order that described the first focus moves to bottom; And/or

In the time that described the first glide direction is the glide direction from described basal sliding to described top, described the first steering order is specially: control the steering order that described the first focus moves to top.

Optionally, in the time that described the first glide direction is the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: frequency of utilization is greater than the steering order of the first predetermined threshold value; Or

In the time that described the first glide direction is the glide direction from the central slide of described touch-control sensing unit to both sides, described the first steering order is specially: frequency of utilization is greater than the steering order of the second predetermined threshold value.

On the other hand, the application provides following technical scheme by another embodiment:

A kind of electronic equipment, described electronic equipment is connected with the second electronic equipment data, and described electronic equipment comprises touch sensing unit, and described electronic equipment also comprises:

Detection module, for detection of and obtain the first slide of the first area on described touch sensing unit surface;

The first determination module, for determining corresponding the first glide direction of described the first slide;

The second determination module, for the corresponding relation based between glide direction and steering order, determines corresponding the first steering order of described the first glide direction;

Sending module, for described the first steering order is sent to described the second electronic equipment, so that described the second electronic equipment can be realized the first function by carrying out described the first steering order.

Optionally, when described touch sensing unit comprises N region, wherein N is while being more than or equal to 2 integer, and described the second determination module, specifically comprises:

The first determining unit, for the corresponding relation based between the and instruction collection of region, determines corresponding the first instruction set in described first area;

The second determining unit for the corresponding relation based between glide direction and steering order, is determined corresponding described the first steering order of described the first glide direction from described the first instruction set.

Optionally, the induction region of described touch sensing unit is rectangular area, and described rectangular area comprises 2 long limits and 2 minor faces, wherein, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region.

Optionally, described the first determination module, specifically comprises:

Detecting unit, for detection of obtaining corresponding first touch point of reference position of described the first slide and corresponding second touch point of end position of described the first slide;

The 3rd determining unit, at least determining described the first glide direction based on described the first touch point and described the second touch point.

Optionally, described the 3rd determining unit, specifically for:

Optionally, described the 3rd determining unit, specifically comprises:

Determine subelement, for determining the first direction vector based on described the first touch point and described the second touch point;

Detection sub-unit, for detection of the duty that obtains described the first electronic equipment;

Adjust subelement, for based on described duty, described the first direction vector being adjusted, to obtain described the first glide direction.

The one or more technical schemes that provide in the embodiment of the present application, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt by corresponding the first glide direction of the first slide in the touch sensing unit of the first electronic equipment and determined the first corresponding steering order, and then the second electronic equipment is carried out to the technical scheme of steering order, namely steering order is only relevant to glide direction, and it is uncorrelated with sliding area, so, greatly reduce the possibility that produces wrong operation, thereby prevent that the first electronic equipment from producing wrong steering order, and then reach the control of the second electronic equipment technique effect more accurately.

(2) due in the embodiment of the present application, described the first slide can be the slide that arbitrary subregion carries out in the L-1 bar dividing line based on paralleling with described the first glide direction is divided obtained L sub regions to described first area, that is to say that described the first slide can be the slide carrying out in arbitrary subregion in a large region, so further prevented from producing wrong steering order, and then further reached the control of the second electronic equipment technique effect more accurately.

(3) due in the embodiment of the present application, described touch sensing unit is divided into multiple regions, different steering order collection corresponding to region, so corresponding described the second electronic equipment can produce more steering order, has reached the more diversified technique effect of the control of the second electronic equipment.

(4) due in the embodiment of the present application, the induction region of described touch-control sensing unit is set to rectangular area, comprising 2 long limits and 2 minor faces, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region, so can be convenient distinguish this N region, and then reached at the technique effect that also can guarantee precise control to the more diversified while of the control of electronic equipment.

(5) due in the embodiment of the present application, described the first electronic equipment also comprises the display unit overlapping with touch sensing unit, wherein on described display unit, show M virtual key, so further having reached the more diversified technique effect of the control of the second electronic equipment.

(6) due in the embodiment of the present application, a described M virtual key is shown in the corner regions of described display unit or is shown near the center at edge of described display unit, so can determine easily the position of a described M virtual key, and then reach at the technique effect that also can guarantee precise control to the more diversified while of the control of electronic equipment.

(7) due in the embodiment of the present application, can also show subregion by corresponding described M virtual key viewing area M, and do not remove to limit its concrete setting position, and produce steering order by responding long mode of pressing, owing to not needing to determine the particular location of M virtual key, just can produce steering order accurately, so further guaranteed the technique effect of precise control.

(8) due in the embodiment of the present application, after first touch point corresponding based on the first slide and the second touch point are determined the first direction vector, also to the duty based on electronic equipment correct to obtain described the first glide direction to described the first direction vector, so the first glide direction of determining is more accurate, thereby has further reached the control of the second electronic equipment technique effect more accurately.

(9) due in the embodiment of the present application, by steering order respective operations gesture comparatively easily higher frequency of utilization, so reached the more accurate technique effect of the control of the second electronic equipment.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of control method in the embodiment of the present application one;

Fig. 2 is the process flow diagram of determining described the first glide direction in the embodiment of the present application one method;

Fig. 3 is the refinement process flow diagram of determining described the first glide direction in the embodiment of the present application one method;

Fig. 4 is the process flow diagram of determining corresponding the first steering order of described the first glide direction in the embodiment of the present application one method;

Fig. 5 is the structural drawing of the embodiment of the present application two middle plateform computers;

Fig. 6 is the structural drawing of electronic equipment in the embodiment of the present application three.

Embodiment

The embodiment of the present invention provides a kind of control method and electronic equipment, for solving prior art to the not accurate enough technical matters of the control of intelligent television.

Technical scheme in the embodiment of the present application is to solve above-mentioned technical matters, and general thought is as follows:

The invention provides a kind of control method, apply in the first electronic equipment, can control the second electronic equipment by described the first electronic equipment, wherein, described the first electronic equipment comprises touch sensing unit, described the first electronic equipment is for example: panel computer, and described the second electronic equipment is for example intelligent television; Its control procedure specifically comprises: the first slide that detects and obtain the first area on described touch sensing unit surface; Determine corresponding the first glide direction of described the first slide; Based on the corresponding relation between glide direction and steering order, determine corresponding the first steering order of described the first glide direction; Described the second electronic equipment described the first steering order is sent to described the second electronic equipment, so that can be realized the first function by carrying out described the first steering order.

When adopting such scheme to produce the first steering order the second electronic equipment is controlled, steering order is only relevant to glide direction, and it is uncorrelated with sliding area, so, greatly reduce the possibility that produces wrong operation, thereby prevented that the first electronic equipment from producing wrong steering order, and then reach the control of the second electronic equipment technique effect more accurately.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Embodiment mono-

The embodiment of the present application one provides a kind of control method, be applied to the first electronic equipment, described the first electronic equipment is connected with the second electronic equipment data, and described the first electronic equipment comprises touch sensing unit, and described the first electronic equipment is for example: panel computer, mobile phone etc.; Described the second electronic equipment is for example: intelligent television.

Please refer to Fig. 1, described control method comprises the steps:

Step S101: the first slide that detects and obtain the first area on described touch sensing unit surface;

Step S102: determine corresponding the first glide direction of described the first slide;

Step S103: based on the corresponding relation between glide direction and steering order, determine corresponding the first steering order of described the first glide direction;

Step S104: described the first steering order is sent to described the second electronic equipment, so that described the second electronic equipment can be realized the first function by carrying out described the first steering order.

Wherein, in step S101, described first area comprises that the L-1 bar dividing line based on paralleling with described the first glide direction divides obtained L sub regions to described first area, and L is more than or equal to 2 integer; Described the first slide is slide that the arbitrary subregion in described L sub regions carries out.

As seen from the above description, due in the embodiment of the present application, described the first slide can be the slide carrying out in arbitrary subregion in a large region, so further prevented from producing wrong steering order, and then further reached the control of the second electronic equipment technique effect more accurately.

Specifically, that is to say that the first slide can, for the slide carrying out in arbitrary subregion in a large region, not be restricted for the particular location of described the first slide.

In specific implementation process, described first area can be multiple region, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, described touch sensing unit only comprises a region, the whole region that described first area is described touch sensing unit;

The second, described touch sensing unit comprises N region, N is more than or equal to 2 integer, described first area is a region in a described N region, wherein, even if different region glide directions is identical, its corresponding steering order is also different, thereby can corresponding more steering order.

As seen from the above description, due in the embodiment of the present application, described touch sensing unit is divided into multiple regions, different steering order collection corresponding to region, so corresponding described the second electronic equipment can produce more steering order, has reached the more diversified technique effect of the control of the second electronic equipment.

In specific implementation process, in the time that described touch sensing unit comprises N region, can divide in the following way a described N region:

The induction region of described touch sensing unit is rectangular area, and described rectangular area comprises 2 long limits and 2 minor faces, wherein, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region.

As seen from the above description, due in the embodiment of the present application, the induction region of described touch-control sensing unit is set to rectangular area, comprising 2 long limits and 2 minor faces, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region, so can be convenient distinguish this N region, and then reached at the technique effect that also can guarantee precise control to the more diversified while of the control of electronic equipment.

Wherein, in step S102, determine corresponding the first glide direction of described the first slide, as shown in Figure 2, specifically comprise the steps:

Step S201: detect and obtain corresponding first touch point of reference position of described the first slide and corresponding second touch point of end position of described the first slide;

Step S202: at least determine described the first glide direction based on described the first touch point and described the second touch point.

Wherein, in step S201, in the time that described touch sensing unit determines that touch-control body exists with it contact, just determine corresponding the first touch point of reference position, and in the time that touch sensing unit determines that touch-control body leaves described touch sensing unit, just determine corresponding the second touch point of end position; Or in the time that described touch sensing unit detects that touch-control body exists with it contact, just detect the trace information that touch control operation is corresponding, after touch control operation finishes, determine described the first touch point and described the second touch point simultaneously.Under normal circumstances, can determine that touch point or the infrared detecting device by touch sensing unit determine described touch point by the variation of touch sensing unit capacitance.

Suppose in step S201, the coordinate of the first touch point of determining is: (10,40), the coordinate of the second touch point is: (50,40).Certainly, also can be other value, such as: the first touch point is (20,30), the second touch point is (50,70), the first touch point is that (30,60), the second touch point are (60,60) etc., be which kind of coordinate for described the first touch point and described the second touch point, the embodiment of the present application is not restricted actually.

Wherein, in step S202, at least determine described the first glide direction based on described the first touch point and described the second touch point, can be divided into again multiple situation, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

(1) determine the first direction vector based on corresponding the first coordinate information of described the first touch point and corresponding the second coordinate information of described the second touch point, described the first direction vector is described the first glide direction.

Take the coordinate of described the first touch point as: (10,40), the coordinate of the second touch point is: (50,40) be example, wherein, its corresponding straight line is: Y=40, and wherein the horizontal ordinate of the second touch point is greater than the horizontal ordinate of the second touch point, so determine the direction that described the first direction vector is vector from left to right.

(2) please refer to Fig. 3, comprise the steps:

Step S301: determine the first direction vector based on described the first touch point and described the second touch point;

Step S302: detect the duty that obtains described the first electronic equipment;

Step S303: based on described duty, described the first direction vector is adjusted, to obtain described the first glide direction.

Wherein, in step S301, determine in the mode of described the first direction vector and described (1) based on described the first touch point and described the second touch point similar, so do not repeat them here.

Wherein, in step S302, the working morphology of the first electronic equipment can be: horizontal screen working morphology and perpendicular screen working morphology, wherein, in the time that the working morphology of described the first electronic equipment is different, even if the first direction vector is identical, its determined first glide direction is also different.

In specific implementation process, can detect by being arranged at the gravity sensor of described the first electronic equipment internal or acceleration transducer the working morphology of described the first electronic equipment, can certainly be other sensor, this application no longer be itemized, and be not restricted.

Such as: take described electronic equipment laterally as X-axis, longitudinally as Y-axis is as example, when described electronic equipment is during in horizontal screen working morphology, if Y=40 can determine that its first glide direction is: glide direction from left to right so; But when described electronic equipment is in the time indulging screen mode of operation, if Y=40, so, its first glide direction may be glide direction from top to bottom.

So, can, based in step S303, described the first direction vector being adjusted, to obtain the first correct glide direction, and then can the second electronic equipment be reached more accurately and be controlled.

As seen from the above description, due in the embodiment of the present application, after first touch point corresponding based on the first slide and the second touch point are determined the first direction vector, also to the duty based on electronic equipment correct to obtain described the first glide direction to described the first direction vector, so the first glide direction of determining is more accurate, thereby has further reached the control of the second electronic equipment technique effect more accurately.

Wherein, in step S103, based on the corresponding relation between glide direction and steering order, determine corresponding the first steering order of described the first glide direction, also can be divided into multiple situation, two kinds of situations enumerating below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

The first, directly the corresponding relation based between glide direction and steering order, determines corresponding the first steering order of described the first glide direction.

In the time of the Dou Wei first area, whole region of the touch sensing unit of described the first electronic equipment, can directly in described the first electronic equipment, store the corresponding relation between glide direction and steering order, such as, following corresponding relation:

Glide direction	Steering order
		Slide into the glide direction on right side from left side	Control the steering order that the first focus moves right
Slide into the glide direction in left side from right side	Control the steering order that the first focus is moved to the left
		Glide direction from top slide to bottom	Control the steering order that the first focus moves to bottom
Glide direction from basal sliding to top	Control the steering order that the first focus moves to top

Wherein, take described the first glide direction as: slide into the glide direction on right side from left side as example, so, the first steering order that just can determine its correspondence is: control the steering order that moves right of the first focus.

The second, comprises N region when described when described touch sensing unit, and wherein N is while being more than or equal to 2 integer, the described corresponding relation based between glide direction and steering order, determine corresponding the first steering order of described the first glide direction, as shown in Figure 4, specifically comprise the steps:

Step S401: based on the corresponding relation between the and instruction collection of region, determine corresponding the first instruction set in described first area;

Step S402: based on the corresponding relation between glide direction and steering order, determine corresponding described the first steering order of described the first glide direction from described the first instruction set.

Wherein, because described touch sensing unit comprises N region, wherein instruction set corresponding to different regions, even identical in corresponding the first glide direction of different regions the first slide, the first steering order of its correspondence is also different, so first will first determine the corresponding instruction set in described first area.

For example: the touch sensing unit of described electronic equipment comprises two regions, corresponding the first instruction set of left field wherein; Corresponding the second instruction set of right side area.

Wherein, in the first instruction set and the second instruction set, comprise respectively following steering order:

Wherein, the right side area take described first area as touch sensing unit, described the first glide direction as: the glide direction that slides into right side from left side is example, so first determines that the corresponding instruction set in first area is the second instruction set; Then from described the second instruction set, determine that the corresponding steering order of glide direction that slides into right side from left side is: the steering order that jumps to succeeding channel.

In addition, in step S103, between described the first glide direction and described the first steering order, there is any corresponding relation, enumerate several being introduced wherein below, certainly, in specific implementation process, be not limited to following several situation.

The first, when described the first glide direction is when sliding into the glide direction on right side or described the first glide direction from the left side of described touch sensing unit and being the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: the steering order that increases the value of the first parameter; Or when described the first glide direction be when sliding into the glide direction in described left side or the first glide direction from described right side and being the glide direction from described top slide to bottom, described the first steering order is specially: the steering order that reduces the value of described the first parameter.

In specific implementation process, described the first parameter is for example: channel parameter, volume parameters, form and aspect saturation parameters etc., plant parameter why for described the first parameter, and the embodiment of the present application is not restricted.

Wherein, in the time that described the first parameter is channel parameter, increase the steering order of value of the first parameter specifically for the next channel that is switched to current channel; Reduce the steering order of value of the first parameter specifically for the upper channel that is switched to current channel.In the time that described the first parameter is volume parameters, the steering order that increases the value of the first parameter is used for: the volume of heightening the second electronic equipment; The steering order that reduces the value of the first parameter is used for: the volume that reduces the second electronic equipment.When described the first parameter is form and aspect saturation parameters, the steering order that increases the value of the first parameter is used for: the form and aspect saturation degree that improves the display unit of described the second electronic equipment; The steering order that reduces the value of described the first parameter is used for: reduce form and aspect saturation degree of the display unit of described the second electronic equipment etc.For other parameter, its steering order is similar with it, this embodiment of the present application is no longer itemized, and be not restricted.

The second, when described the first glide direction is that while sliding into the glide direction on right side from the left side of described touch sensing unit, described the first steering order is specially: control the steering order that the first focus moves right; Or

In specific implementation process, described the first focus can be any focus, such as: for cursor, be reference mark on progress bar, be objective body in game etc.Wherein, in the time that described the first focus is cursor, by the slide of different directions, just can be by cursor movement to different positions, and then the location of realizing cursor; In the time that described the first focus is the reference mark on progress bar, by left and right or upper and lower slide, just can control progress; In the time that described the first focus is the objective body in game, by different slides, just described objective body can be positioned over to different positions.Certainly,, in specific implementation process, described the first focus can also be other focus, this embodiment of the present application is no longer itemized, and be not restricted.

The third, in the time that described the first glide direction is the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: frequency of utilization is greater than the steering order of the first predetermined threshold value; Or

Under normal circumstances, when the first glide direction of the first slide is to the glide direction at top or in the time that described the first glide direction is the glide direction from the central slide of described touch-control sensing unit to both sides by the basal sliding of touch sensing unit, slide can more convenient operation, so, be set to the first steering order that frequency of utilization is higher, for example: switching channels steering order, adjustment volume steering order etc.

As seen from the above description, due in the embodiment of the present application, by steering order respective operations gesture comparatively easily higher frequency of utilization, so reached the more accurate technique effect of the control of the second electronic equipment.

In specific implementation process, described electronic equipment also comprises display unit, and described display unit and described touch sensing unit overlap, and described display unit shows M virtual key, and M is more than or equal to 1 integer;

In specific implementation process, because the corresponding steering order instruction of slide is limited, steering order that under normal circumstances only can be conventional with some is corresponding, so M virtual key can be set on described display unit, corresponding some steering orders that are of little use of described the second electronic equipment.

As seen from the above description, due in the embodiment of the present application, described the first electronic equipment also comprises the display unit overlapping with touch sensing unit, wherein on described display unit, show M virtual key, so further having reached the more diversified technique effect of the control of the second electronic equipment.

Wherein, a described M virtual key can be shown in the arbitrary region of described display unit, and two kinds of preferred embodiments enumerating below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, a described M virtual key is shown in the corner regions of described display unit; And/or

In specific implementation process, under normal circumstances, near the corner regions of touch sensing unit or the central area at edge, determine than being easier to, so, if a described M virtual key is arranged to these regions, can prevent largely maloperation, reach the control of the second electronic equipment technique effect more accurately.

As seen from the above description, due in the embodiment of the present application, a described M virtual key is shown in the corner regions of described display unit or is shown near the center at edge of described display unit, so can determine easily the position of a described M virtual key, and then reach at the technique effect that also can guarantee precise control to the more diversified while of the control of electronic equipment.

The second, described viewing area comprises that M shows subregion, corresponding described M of i virtual key in a described M virtual key shows that i in subregion shows subregion, described i touches operation, is specially: the touch time of carrying out in the optional position of described i demonstration subregion exceedes the touch operation of the first Preset Time threshold value.

Specifically, namely by a described M button a certain region of unfixed demonstration, but described display unit is divided into multiple larger regions, as long as the optional position in this larger region is grown by operation, just can trigger corresponding steering order.

As seen from the above description, due in the embodiment of the present application, can also show subregion by corresponding described M virtual key viewing area M, and do not remove to limit its concrete setting position, and produce steering order by responding long mode of pressing, owing to not needing to determine the particular location of M virtual key, just can produce steering order accurately, so further guaranteed the technique effect of precise control.

Embodiment bis-

In order to make those skilled in the art can connect the specific implementation process of the control method of introducing in the embodiment of the present application one, in the present embodiment, will stand in the detailed annotation of user's side and introduce the specific implementation process of this control method.

In the present embodiment, by take described the first electronic equipment as panel computer, described touch sensing unit is introduced as the touch screen of described panel computer as example, the second electronic equipment is that intelligent television is that example is introduced.

Wherein, please refer to Fig. 5, the touch screen 51 of described panel computer comprises 2 long limit 51a and 2 minor face 51b, by the dividing line 52 on described 2 long limit 51a, described touch screen 51 is divided into left field 53a and right side area 53b.Wherein, corresponding the first instruction set of described left field 53a, corresponding the second instruction set of right side area 53b, described the first instruction set is the instruction set in the embodiment of the present application one, described the second instruction set is that the application implements the instruction set in two.

In addition, on described touch screen 51, also show 4 virtual key 54a, 54b, 54c, 54d, be arranged at respectively four jiaos of described touch screen 51, please refer to following table, respectively corresponding following steering order:

Virtual key	Steering order
		Virtual key 54a	Open intelligent television
Virtual key 54b	Close intelligent television
		Virtual key 54c	Channel selection
Virtual key 54d	Enter interface

In the T1 moment, user A wishes to open intelligent television, so by the virtual key 54a in the panel computer upper left corner described in finger touch, described panel computer produces one and controls start-up command, and be sent to described intelligent television after the touch operation of user A being detected.

Described intelligent television receives described start-up command, and then enters open state.

In the T2 moment, described intelligent television is in open state, and playing TV play, but user A does not like this TV play, wishes zapping, so produce a slide from left to right at the right side area 53b of described touch screen 51; After described touch screen 51 detects described slide, first determining the region at described slide place, and then determine it and be positioned at described right side area 53b, is described the second instruction set thereby determine its corresponding instruction set; Then to determine the corresponding glide direction of described slide be from after sliding into the glide direction on right side from left side to described panel computer, just produces one and jump to the steering order of succeeding channel, and send it to described intelligent television;

After jumping to the steering order of succeeding channel described in described intelligent television receives, be just switched to next channel.

In the T3 moment, user uses described intelligent television to play the game pushing box, and wherein, user A wishes chest to move to top, so, produce the slide from basal sliding to top at described left field 53a; Described touch screen 51 is after described slide being detected, first determine that described slide region is left field 53a, then determine that the corresponding instruction set of described left field 53a is described the first instruction set, thereby from described the first instruction set, select the corresponding steering order of glide direction from basal sliding to top, namely: control the steering order that the first focus moves to top, and send it to described intelligent television.

After the steering order that described control the first focus that receives described intelligent television moves to top, just chest is upwards moved to a step.

In the T4 moment, user A wishes to close intelligent television, so touch the virtual key 54b in touch screen 51 lower left corners, and after described panel computer detects described touch operation, just produce the corresponding with it steering order of closing intelligent television, and send it to described intelligent television.

After closing the steering order of intelligent television described in described intelligent television receives, just cut off the power supply of described intelligent television, and then enter off-mode.

Embodiment tri-

Based on same inventive concept, the embodiment of the present application three provides a kind of electronic equipment, wherein, described electronic equipment is the first electronic equipment in the embodiment of the present application one, described electronic equipment is connected with the second electronic equipment data, described electronic equipment comprises touch sensing unit, and described electronic equipment is for example: panel computer, mobile phone etc.; Described the second electronic equipment is for example: intelligent television.

Please refer to Fig. 6, described electronic equipment also comprises following structure:

Detection module 601, for detection of and obtain the first slide of the first area on described touch sensing unit surface;

The first determination module 602, for determining corresponding the first glide direction of described the first slide;

The second determination module 603, for the corresponding relation based between glide direction and steering order, determines corresponding the first steering order of described the first glide direction;

Sending module 604, for described the first steering order is sent to described the second electronic equipment, so that described the second electronic equipment can be realized the first function by carrying out described the first steering order.

In specific implementation process, described first area comprises that the L-1 bar dividing line based on paralleling with described the first glide direction divides obtained L sub regions to described first area, and L is more than or equal to 2 integer; Described the first slide is slide that the arbitrary subregion in described L sub regions carries out.

In specific implementation process, described the first determination module 602, specifically comprises:

Wherein, described the 3rd determining unit can adopt again various ways to determine described the first glide direction, and then its functional module is also different, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

The first, described the 3rd determining unit, specifically for:

The second, described the 3rd determining unit, specifically comprises:

In specific implementation process, when described touch sensing unit comprises N region, wherein N is while being more than or equal to 2 integer, and described the second determination module 603, specifically comprises:

In specific implementation process, between described the first glide direction and described the first steering order, there is any corresponding relation, enumerate several being introduced wherein below, certainly, in specific implementation process, be not limited to following several situation.

In specific implementation process, a described M virtual key can be shown in the arbitrary region of described display unit, and two kinds of preferred embodiments enumerating below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.

The electronic equipment of introducing due to the present embodiment three, the electronic equipment adopting for the control method of implementing in the embodiment of the present application one, so based on the control method of introducing in the embodiment of the present application one, the embodiment that those skilled in the art can understand three kinds of electronic equipments of the embodiment of the present application with and various version, so introduce no longer in detail for this electronic equipment at this.As long as those skilled in the art implement the electronic equipment that in the embodiment of the present application one, control method adopts, all belong to the scope of the application institute wish protection.

One or more technical schemes that the application provides, at least have following technique effect or advantage:

Although described the preferred embodiments of the present invention, once those skilled in the art obtain the basic creative concept of cicada, can make other change and modification to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the modification of the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims

1. a control method, is applied to the first electronic equipment, and described the first electronic equipment is connected with the second electronic equipment data, and described the first electronic equipment comprises touch sensing unit, it is characterized in that, described method comprises:

Determine corresponding the first glide direction of described the first slide;

2. the method for claim 1, is characterized in that, described first area comprises that the L-1 bar dividing line based on paralleling with described the first glide direction divides obtained L sub regions to described first area, and L is more than or equal to 2 integer; Described the first slide is slide that the arbitrary subregion in described L sub regions carries out.

3. the method for claim 1, it is characterized in that, when described touch sensing unit comprises N region, wherein N is while being more than or equal to 2 integer, the described corresponding relation based between glide direction and steering order, determine corresponding the first steering order of described the first glide direction, specifically comprise:

4. method as claimed in claim 3, it is characterized in that, the induction region of described touch sensing unit is rectangular area, described rectangular area comprises 2 long limits and 2 minor faces, wherein, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region.

5. the method for claim 1, is characterized in that, described electronic equipment also comprises display unit, and described display unit and described touch sensing unit overlap, and described display unit shows M virtual key, and M is more than or equal to 1 integer;

6. method as claimed in claim 5, is characterized in that, a described M virtual key is shown in the corner regions of described display unit; And/or

7. method as claimed in claim 5, it is characterized in that, described viewing area comprises that M shows subregion, corresponding described M of i virtual key in a described M virtual key shows that i in subregion shows subregion, described i touches operation, is specially: the touch time of carrying out in the optional position of described i demonstration subregion exceedes the touch operation of the first Preset Time threshold value.

8. the method for claim 1, is characterized in that, described definite corresponding the first glide direction of described the first slide, specifically comprises:

9. method as claimed in claim 8, is characterized in that, describedly at least determines described the first glide direction based on described the first touch point and described the second touch point, is specially:

10. method as claimed in claim 8, is characterized in that, describedly at least determines described the first glide direction based on described the first touch point and described the second touch point, specifically comprises:

Detect the duty that obtains described the first electronic equipment;

Method as described in 11. claims as arbitrary in claim 1-10, it is characterized in that, when described the first glide direction is when sliding into the glide direction on right side or described the first glide direction from the left side of described touch sensing unit and being the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: the steering order that increases the value of the first parameter; Or when described the first glide direction be when sliding into the glide direction in described left side or the first glide direction from described right side and being the glide direction from described top slide to bottom, described the first steering order is specially: the steering order that reduces the value of described the first parameter.

Method as described in 12. claims as arbitrary in claim 1-10, it is characterized in that, when described the first glide direction is that while sliding into the glide direction on right side from the left side of described touch sensing unit, described the first steering order is specially: control the steering order that the first focus moves right; Or

Method as described in 13. claims as arbitrary in claim 1-10, it is characterized in that, in the time that described the first glide direction is the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: frequency of utilization is greater than the steering order of the first predetermined threshold value; Or

14. 1 kinds of electronic equipments, described electronic equipment is connected with the second electronic equipment data, and described electronic equipment comprises touch sensing unit, it is characterized in that, and described electronic equipment also comprises:

15. electronic equipments as claimed in claim 14, is characterized in that, described first area comprises that the L-1 bar dividing line based on paralleling with described the first glide direction divides obtained L sub regions to described first area, and L is more than or equal to 2 integer; Described the first slide is slide that the arbitrary subregion in described L sub regions carries out.

16. electronic equipments as claimed in claim 14, is characterized in that, when described touch sensing unit comprises N region, wherein N is while being more than or equal to 2 integer, and described the second determination module, specifically comprises:

17. electronic equipments as claimed in claim 16, it is characterized in that, the induction region of described touch sensing unit is rectangular area, described rectangular area comprises 2 long limits and 2 minor faces, wherein, by adopting the N-1 bar dividing line vertical with described 2 long limits, described touch sensing unit is divided into a described N region.

18. electronic equipments as claimed in claim 14, is characterized in that, described electronic equipment also comprises display unit, and described display unit and described touch sensing unit overlap, and described display unit shows M virtual key, and M is more than or equal to 1 integer;

19. electronic equipments as claimed in claim 18, is characterized in that, a described M virtual key is shown in the corner regions of described display unit; And/or

20. electronic equipments as claimed in claim 18, it is characterized in that, described viewing area comprises that M shows subregion, corresponding described M of i virtual key in a described M virtual key shows that i in subregion shows subregion, described i touches operation, is specially: the touch time of carrying out in the optional position of described i demonstration subregion exceedes the touch operation of the first Preset Time threshold value.

21. electronic equipments as claimed in claim 14, is characterized in that, described the first determination module, specifically comprises:

22. electronic equipments as claimed in claim 21, is characterized in that, described the 3rd determining unit, specifically for:

23. electronic equipments as claimed in claim 21, is characterized in that, described the 3rd determining unit, specifically comprises:

Electronic equipment as described in 24. claims as arbitrary in claim 14-23, it is characterized in that, when described the first glide direction is when sliding into the glide direction on right side or described the first glide direction from the left side of described touch sensing unit and being the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: the steering order that increases the value of the first parameter; Or when described the first glide direction be when sliding into the glide direction in described left side or the first glide direction from described right side and being the glide direction from described top slide to bottom, described the first steering order is specially: the steering order that reduces the value of described the first parameter.

Electronic equipment as described in 25. claims as arbitrary in claim 14-23, it is characterized in that, when described the first glide direction is that while sliding into the glide direction on right side from the left side of described touch sensing unit, described the first steering order is specially: control the steering order that the first focus moves right; Or

Electronic equipment as described in 26. claims as arbitrary in claim 14-23, it is characterized in that, in the time that described the first glide direction is the glide direction from the basal sliding of described touch sensing unit to top, described the first steering order is specially: frequency of utilization is greater than the steering order of the first predetermined threshold value; Or