CN104423548A - Control method and control device - Google Patents

Abstract

The embodiment of the invention provides a control method and a control device. After a trigger signal is detects in a first area of a touch screen, an operation target is displayed in a second area of the touch display, and the operation target is controlled to input variable quantity of parameters in the second area corresponding to the first area. The first area and the second area are not overlapped, so that when the control method and device are used for the touch screen with a large area, an operation command can be input in an area outside a response range of the target of a user, and the operation target is displayed in an area within the range of the target, and the operation target is used for responding the operation command input by the user; and therefore, the user is not required to move, and the target can be remotely operated conveniently by the user.

Description

A kind of control method and device

Technical field

The present invention relates to control field, particularly relate to a kind of control method.

Background technology

Along with the development of closely touch display screen, the application of large-scale closely touch display screen is increasingly extensive.In the use procedure of large-scale closely touch display screen, user, may because the spacing of different target object be comparatively far away when operating the destination object of display, and user needs by shift position, realizes the operation to different target object.

Visible, the existing method of operating to touch display screen may bring inconvenience to the use of user.

Summary of the invention

In view of this, embodiments provide a kind of control method and device, the problem that the inconvenient user of method of operating that object is to solve existing touch display screen uses.

To achieve these goals, following technical scheme is embodiments provided:

A kind of control method, be applied to electronic equipment, described electronic equipment at least has touch display screen, comprising:

After the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

Respond to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area;

Control described operand in described second area, respond described input parameter variable quantity.

Preferably, described method is applied to electronic equipment, and described electronic equipment at least has the touch display screen can responding to closely gesture operation, and described input parameter variable quantity at least comprises with the next item down:

The variable quantity of the distance between input contact and described touch display screen; Or,

The changes in coordinates amount of input contact on the parallel plane of described touch display screen.

Preferably, described input parameter variable quantity is caused by the spatial position change between operating body and described first area and comprises:

The variable quantity of the distance between described input contact and described touch display screen is changed by the distance between the first operating body and described first area and causes;

The changes in coordinates amount of described input contact on the parallel plane of described touch display screen is caused by the movement of described operating body on described parallel plane.

Preferably, the described operand of described control responds described input parameter variable quantity and comprises in described second area:

When described input parameter variable quantity is and distance between described touch display screen becomes large, control described operand in described second area away from described first area;

When described input parameter variable quantity is and distance between described touch display screen diminishes, control described operand in described second area near described first area;

When described input parameter variable quantity is the changes in coordinates amount on the parallel plane of described touch display screen, controls described operand and move according to described changes in coordinates amount at described second area.

Preferably, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When described input parameter variable quantity is and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing.

Preferably, described input parameter variable quantity comprises:

The changes in coordinates amount of input contact on described touch display screen.

Preferably, described input parameter variable quantity is caused by the spatial position change between operating body and described first area and comprises

The changes in coordinates amount of described input contact on described touch display screen causes by described first operating body is mobile in described first area.

Preferably, the described operand of described control responds described input parameter variable quantity and comprises in described second area:

Control described operand to move according to described changes in coordinates amount at described second area.

Preferably, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When detect in described first area double-click by described first operating body the variable quantity caused time, then control the target that described operand selectes sensing.

Preferably, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

Preferably, described default trigger pip comprises:

Meet the signal that pre-conditioned input contact produces;

Describedly pre-conditionedly at least to comprise with the next item down:

Described input contact forms preset shape, or the quantity of described input contact is greater than predetermined number.

A kind of control device, be applied to electronic equipment, described electronic equipment at least has touch display screen, comprising:

Display module, for after the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

Induction module, for responding to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area;

Control module, responds described input parameter variable quantity for controlling described operand in described second area.

Preferably, described application of installation is in electronic equipment, and described electronic equipment at least has the touch display screen can responding to closely gesture operation, it is characterized in that, described induction module at least comprises with the next item down:

First sensing unit, for responding to the variable quantity of the input contact in described first area and the distance between described touch display screen, the variable quantity of the distance between described input contact and described touch display screen is changed by the distance between the first operating body and described first area and causes;

Second sensing unit, for responding to the changes in coordinates amount of input contact on the parallel plane of described touch display screen in described first area, the changes in coordinates amount of described input contact on the parallel plane of described touch display screen is caused by the movement of described first operating body on described parallel plane.

Preferably, described control module at least comprises with the next item down:

First control module, for when described input parameter variable quantity be and distance between described touch display screen becomes large time, control described operand in described second area away from described first area;

Second control module, for when described input parameter variable quantity be and distance between described touch display screen diminishes time, control described operand in described second area near described first area;

3rd control module, during for being the changes in coordinates amount on the parallel plane of described touch display screen when described input parameter variable quantity, controlling described operand and moving according to described changes in coordinates amount at described second area;

4th control module, for when described input parameter variable quantity being and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing;

5th control module, for when detect in described first area double-click by described operating body the variable quantity caused time, then control the target that described operand selectes sensing;

6th control module, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

Preferably, described induction module comprises:

3rd sensing unit, for inputting the changes in coordinates amount of contact on described touch display screen, the changes in coordinates amount of described input contact on described touch display screen causes by described first operating body is mobile in described first area.

Preferably, described control module at least comprises with the next item down:

7th control module, moves according to described changes in coordinates amount at described second area for controlling described operand;

8th control module, for when detect in described first area double-click by described first operating body the variable quantity caused time, then control the target that described operand selectes sensing;

9th control module, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

A kind of control method that the embodiment of the present invention provides and device, after the first area of touch display screen detects trigger pip, operand is shown in the second area of touch display screen, and the variable quantity of input parameter in the corresponding corresponding first area in the second area of control operation, because first area does not overlap with second area, so, control method of the present invention and device, for during for large-area touch display screen, can enter the operating instructions according to the region of user outside destination object responding range, and within destination object responding range, show operand, this operand is used to respond the operational order of user's input, thus make user need not shift position, just can operate destination object at a distance, user-friendly.

Accompanying drawing explanation

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

The process flow diagram of Fig. 1 a kind of control method disclosed in the embodiment of the present invention;

The use scenes of Fig. 2 a kind of control method disclosed in the embodiment of the present invention and the schematic diagram of existing scene;

Fig. 3 is the process flow diagram of the embodiment of the present invention another control method disclosed;

The schematic diagram of the gesture of input parameter variable quantity is caused in Fig. 4 control method disclosed in the embodiment of the present invention;

Fig. 5 is the process flow diagram of the embodiment of the present invention another control method disclosed;

The structural representation of Fig. 6 a kind of control device disclosed in the embodiment of the present invention;

The structural representation of Fig. 7 a kind of control device disclosed in the embodiment of the present invention;

The structural representation of Fig. 8 a kind of control device disclosed in the embodiment of the present 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.

Disclosed in the embodiment of the present invention, a kind of control method, is applied to electronic equipment, and described electronic equipment at least has touch display screen, as shown in Figure 1, comprising:

S101: after the first area at described touch display screen detects default trigger pip, shows operand in the second area of described touch display screen, and described first area does not overlap with described second area;

S102: respond to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area;

S103: control described operand and respond described input parameter variable quantity in described second area.

In prior art, because destination object has certain responding range, such as, as in 2-1, the responding range of word document is the region that its icon covers, so, based on the position that user is current in Fig. 2-1, if user will operate word document, then user needs to move to the position that can touch word document icon from current position, just can operate on it.

And the control method described in the present embodiment, as shown in Fig. 2-2, user can carry out in current location region (first area) the input operation gesture that operates, after sensing the input parameter variable quantity that the operating gesture of user causes in this region (first area), in the region (second area) of response region comprising word document, use arrow (operand) to respond the variable quantity of input parameter, visible, method described in the present embodiment, make user when current location " reaches " destination object, need not move, can operate destination object in current location, thus it is user-friendly.

The embodiment of the present invention another control method disclosed, be applied to electronic equipment, described electronic equipment at least has the touch display screen can responding to closely gesture operation, and as shown in Figure 3, the method described in the present embodiment comprises:

S301: after the first area at described touch display screen detects default trigger pip, shows operand in the second area of described touch display screen, and described first area does not overlap with described second area;

S302: respond to the variable quantity that inputs the distance between contact and described touch display screen in described first area and/or input the changes in coordinates amount of contact on the parallel plane of described touch display screen;

For the touch display screen of closely gesture operation, can the contactless gesture of perception user, therefore, the variable quantity inputting the distance between contact and described touch display screen can be caused by the spatial position change between the touch display screen of the first operating body and closely gesture operation.

In the present embodiment, alternatively, the variable quantity of the distance between input contact and described touch display screen can be changed by the distance between the first operating body and described first area and cause, such as, as shown in Fig. 4-1, when the forefinger of user is as the first operating body, forefinger lifts and to cause and distance between first area becomes large, as shown in the Fig. 4-2, forefinger puts down and to cause and distance between first area diminishes; The changes in coordinates amount of input contact on the parallel plane of described touch display screen is caused by the translation of operating body on described parallel plane, such as, in Fig. 4-3, the forefinger of user moves right, and causes the change of the coordinate on the parallel plane of described touch display screen.

In practical application, the variable quantity of input contact can be obtained by the capacitance variations induction detecting touch display screen, also can being responded to by the electromagnetic change of touch sensitive display screen, by detecting the variation sensing of operating body image in operation, can also not limit here.

S303: when described input parameter variable quantity is and distance between described touch display screen becomes large, control described operand in described second area away from described first area;

Such as, as shown in Fig. 2-2, when input parameter variable quantity is and distance between described touch display screen becomes large (being caused by the gesture of Fig. 4-1), controls arrow close to word document in the second area, such as, move on to position 2.

S304: when described input parameter variable quantity is and distance between described touch display screen diminishes, controls described operand in described second area near described first area;

Such as, as shown in Fig. 2-2, when input parameter variable quantity is and distance between described touch display screen diminishes (being caused by the gesture of Fig. 4-2), controls arrow close to first area in the second area, such as, move on to position 3.

S305: when described input parameter variable quantity is the changes in coordinates amount on the parallel plane of described touch display screen, controls described operand and move according to described changes in coordinates amount at described second area.

Such as, as shown in Fig. 2-2, when the variable quantity of input parameter is the changes in coordinates amount on the parallel plane of touch display screen (being caused by the gesture of Fig. 4-3), then controls arrow right and move, such as, move on to position 4.

S306: when described input parameter variable quantity is and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing.

Such as, when user by change in first area gesture control arrow arrive word document response region after, can by finger lower after also hover be greater than preset time value time after, control operation object selectes word document.

It should be noted that, the mode of the selected target object described in S306 is a kind of specific implementation, in addition, also otherwise selected target object can be made, such as, when detect in described first area double-click by the first operating body the variable quantity caused time, then control the target that described operand selectes sensing.

Again such as, when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.That is: when detect inputted by the click of middle finger in first area time, then control arrow and select the word document of sensing.

Method described in the present embodiment, electronic equipment can by the variable quantity of the input parameter in induction first area, realize the operation to the destination object in second area, namely the operation not in the responding range of destination object is utilized to operate destination object, when destination object is distributed in the diverse location of touch display screen, user need not move around the operation that position can realize arbitrary target object.

The embodiment of the present invention another control method disclosed, be applied to electronic equipment, described electronic equipment has touch display screen, and as shown in Figure 5, described method comprises:

S501: after the first area at described touch display screen detects default trigger pip, shows operand in the second area of described touch display screen, and described first area does not overlap with described second area;

In the present embodiment, alternatively, pre-conditionedly can be: input contact forms preset shape, or the quantity of input contact is greater than predetermined number, or input contact forms preset shape and its quantity is greater than predetermined number.

Such as, can set the shape of the hand that input contact is formed as the trigger condition at second area display arrow, that is, user is by a hand on touch display screen, just can trigger at second area display arrow; Again such as, the quantity that can set input contact is greater than 5 as the trigger condition at second area display arrow, namely, user uses five to point point touching display screen, or, a hand is placed on touch display screen, can both triggers at second area display arrow.

In the present embodiment, the object being set in the trigger condition of second area display operand is, distinguishes, avoid maloperation with the common input operation carried out at touch display screen.

S502: induction inputs the changes in coordinates amount of contact on described touch display screen in the first region;

The changes in coordinates amount of input contact on touch display screen can by the first operating body in the first region translation cause, alternatively, in the present embodiment, changes in coordinates amount can by the forefinger of user in the first region movement cause.

Further, the movement in the first region of first operating body can be the movement of the first operating body in first area, such as, the forefinger of user moves in the first region, and " rolling " action that this movement carries out "--contact first area--slides in the first region to leave first area " by forefinger circulation realizes.

S503: control described operand and move according to described changes in coordinates amount at described second area;

S504: when detect in described first area double-click by described operating body the variable quantity caused time, then control the target that described operand selectes sensing.

Such as, if when user's finger is to word document " rolling ", then cause arrow to word document continuous moving; When user's middle finger is clicked in the first region, then arrow is used to choose described word document.

Method described in the present embodiment, is limited to first area by operating body in the operation of first area, equally can be user-friendly.

With said method embodiment accordingly, the embodiment of the invention also discloses a kind of control device, be applied to electronic equipment, described electronic equipment at least has touch display screen, and as shown in Figure 6, described device comprises:

Display module 601, for after the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

Induction module 602, for responding to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between operating body and described first area;

Control module 603, responds described input parameter variable quantity for controlling described operand in described second area.

Control device described in the present embodiment, can enter the operating instructions according to the region of user outside destination object responding range, and within destination object responding range, show operand, this operand is used to respond the operational order of user's input, thus make user need not shift position, just can operate destination object at a distance, user-friendly.

The embodiment of the present invention another control device disclosed, be applied to electronic equipment, described electronic equipment at least has the touch display screen can responding to closely gesture operation, as shown in Figure 7, comprising:

Display module 701, for after the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

First sensing unit 702, for responding to the variable quantity of the input contact in described first area and the distance between described touch display screen, the variable quantity of the distance between described input contact and described touch display screen is changed by the distance between operating body and described first area and causes;

Second sensing unit 703, for responding to the changes in coordinates amount of input contact on the parallel plane of described touch display screen in described first area, the changes in coordinates amount of described input contact on the parallel plane of described touch display screen is caused by the translation of described operating body on described parallel plane;

First control module 704, for when described input parameter variable quantity be and distance between described touch display screen becomes large time, control described operand in described second area away from described first area;

Second control module 705, for when described input parameter variable quantity be and distance between described touch display screen diminishes time, control described operand in described second area near described first area;

3rd control module 706, during for being the changes in coordinates amount on the parallel plane of described touch display screen when described input parameter variable quantity, controlling described operand and moving according to described changes in coordinates amount at described second area;

4th control module 707, for when described input parameter variable quantity being and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing;

5th control module 708, for when detect in described first area double-click by described operating body the variable quantity caused time, then control the target that described operand selectes sensing;

6th control module 709, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

The embodiment of the present invention another control device disclosed, is applied to the electronic equipment with touch display screen, as shown in Figure 8, comprises:

Display module 801, for after the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

3rd sensing unit 802, for inputting the changes in coordinates amount of contact on described touch display screen, the changes in coordinates amount of described input contact on described touch display screen is caused by the translation in described first area of described operating body;

7th control module 803, moves according to described changes in coordinates amount at described second area for controlling described operand;

8th control module 804, for when detect in described first area double-click by described operating body the variable quantity caused time, then control the target that described operand selectes sensing;

9th control module 805, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

If the function described in the present embodiment method using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computing equipment read/write memory medium.Based on such understanding, the part of the part that the embodiment of the present invention contributes to prior art or this technical scheme can embody with the form of software product, this software product is stored in a storage medium, comprising some instructions in order to make a computing equipment (can be personal computer, server, mobile computing device or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or CD etc. various can be program code stored medium.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiment, between each embodiment same or similar part mutually see.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (16)

1. a control method, is applied to electronic equipment, and described electronic equipment at least has touch display screen, it is characterized in that, comprising:

After the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

Respond to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area;

Control described operand in described second area, respond described input parameter variable quantity.

2. method according to claim 1, is applied to electronic equipment, and described electronic equipment at least has the touch display screen can responding to closely gesture operation, it is characterized in that, described input parameter variable quantity at least comprises with the next item down:

The variable quantity of the distance between input contact and described touch display screen; Or,

The changes in coordinates amount of input contact on the parallel plane of described touch display screen.

3. method according to claim 2, is characterized in that, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area and comprises:

The variable quantity of the distance between described input contact and described touch display screen is changed by the distance between the first operating body and described first area and causes;

The changes in coordinates amount of described input contact on the parallel plane of described touch display screen is caused by the movement of described first operating body on described parallel plane.

4. the method according to any one of claims 1 to 3, is characterized in that, the described operand of described control responds described input parameter variable quantity and comprises in described second area:

When described input parameter variable quantity is and distance between described touch display screen becomes large, control described operand in described second area away from described first area;

When described input parameter variable quantity is and distance between described touch display screen diminishes, control described operand in described second area near described first area;

When described input parameter variable quantity is the changes in coordinates amount on the parallel plane of described touch display screen, controls described operand and move according to described changes in coordinates amount at described second area.

5. method according to claim 4, is characterized in that, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When described input parameter variable quantity is and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing.

6. method according to claim 1, is characterized in that, described input parameter variable quantity comprises:

The changes in coordinates amount of input contact on described touch display screen.

7. method according to claim 6, is characterized in that, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area and comprises:

The changes in coordinates amount of described input contact on described touch display screen causes by described first operating body is mobile in described first area.

8. the method according to claim 1,6 or 7, is characterized in that, the described operand of described control responds described input parameter variable quantity and comprises in described second area:

Control described operand to move according to described changes in coordinates amount at described second area.

9. the method according to claim 2 or 7, is characterized in that, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When detect in described first area double-click by described first operating body the variable quantity caused time, then control the target that described operand selectes sensing.

10. the method according to claim 2 or 7, is characterized in that, the described operand of described control responds described input parameter variable quantity and also comprises in described second area:

When the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

11. methods according to claim 1, is characterized in that, described default trigger pip comprises:

Meet the signal that pre-conditioned input contact produces;

Describedly pre-conditionedly at least to comprise with the next item down:

Described input contact forms preset shape, or the quantity of described input contact is greater than predetermined number.

12. 1 kinds of control device, are applied to electronic equipment, and described electronic equipment at least has touch display screen, it is characterized in that, comprising:

Display module, for after the first area at described touch display screen detects default trigger pip, in the second area of described touch display screen, show operand, described first area does not overlap with described second area;

Induction module, for responding to the input parameter variable quantity in described first area, described input parameter variable quantity is caused by the spatial position change between the first operating body and described first area;

Control module, responds described input parameter variable quantity for controlling described operand in described second area.

13., according to the device shown in claim 12, are applied to electronic equipment, and described electronic equipment at least has the touch display screen can responding to closely gesture operation, it is characterized in that, described induction module at least comprises with the next item down:

First sensing unit, for responding to the variable quantity of the input contact in described first area and the distance between described touch display screen, the variable quantity of the distance between described input contact and described touch display screen is changed by the distance between the first operating body and described first area and causes;

Second sensing unit, for responding to the changes in coordinates amount of input contact on the parallel plane of described touch display screen in described first area, the changes in coordinates amount of described input contact on the parallel plane of described touch display screen is caused by the movement of described first operating body on described parallel plane.

14. devices according to claim 12 or 13, it is characterized in that, described control module at least comprises with the next item down:

First control module, for when described input parameter variable quantity be and distance between described touch display screen becomes large time, control described operand in described second area away from described first area;

Second control module, for when described input parameter variable quantity be and distance between described touch display screen diminishes time, control described operand in described second area near described first area;

3rd control module, during for being the changes in coordinates amount on the parallel plane of described touch display screen when described input parameter variable quantity, controlling described operand and moving according to described changes in coordinates amount at described second area;

4th control module, for when described input parameter variable quantity being and distance between described touch display screen diminishes, and the interval time described input parameter variable quantity being detected and detect between a front input parameter variable quantity when being greater than preset time value, then controls the target that described operand selectes sensing;

5th control module, for when detect in described first area double-click by described operating body the variable quantity caused time, then control the target that described operand selectes sensing;

6th control module, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.

15. devices according to claim 12, is characterized in that, described induction module comprises:

3rd sensing unit, for inputting the changes in coordinates amount of contact on described touch display screen, the changes in coordinates amount of described input contact on described touch display screen causes by described first operating body is mobile in described first area.

16. devices according to claim 15, is characterized in that, described control module at least comprises with the next item down:

7th control module, moves according to described changes in coordinates amount at described second area for controlling described operand;

8th control module, for when detect in described first area double-click by described first operating body the variable quantity caused time, then control the target that described operand selectes sensing;

9th control module, for when the variable quantity caused by the second operating body in described first area being detected, then control the target that described operand selectes sensing, described second operating body is different from described first operating body.