CN103677616A

CN103677616A - Operating method of electronic device

Info

Publication number: CN103677616A
Application number: CN201310240181.0A
Authority: CN
Inventors: 吴易锡
Original assignee: Asustek Computer Inc
Current assignee: Asustek Computer Inc
Priority date: 2012-09-18
Filing date: 2013-06-18
Publication date: 2014-03-26
Anticipated expiration: 2033-06-18
Also published as: CN103677616B; TWI480792B; TW201413560A

Abstract

An operating method of an electronic device is provided. The electronic device includes a display module and a detecting module. The operating method includes: detecting a first input signal by the detecting module; triggering an auxiliary displaying module according to the first input signal, and displaying the auxiliary displaying module on the display module; detecting a second input signal by the detecting module; determining whether the second input signal is in a sensing zone corresponding to the auxiliary displaying module; and displaying a drawing track along an edge of the auxiliary displaying module according to the second input signal when the second input signal is in the sensing zone.

Description

A kind of method of operating of electronic installation

Technical field

The present invention relates to a kind of method of operating that is applied to electronic installation, relate in particular to a kind of method of operating that is applied to have the electronic installation of display module.

Background technology

Along with the development of electronics technology, various electronic installation is applied in people's life at large, such as intelligent mobile phone, panel computer, e-book etc.

Generally speaking, the electronic installation such as intelligent mobile phone, panel computer, e-book has display module (being for example contact panel).Display module for example comprises touch sensing element and electromagnetic induction element; Touch-control sensing and electromagnetic induction element can approach in order to respond to touch-control input and time writer the changes of magnetic field causing respectively.User can input instruction (for example touch or slide) to electronic installation by display module, and obtains corresponding visual feedback by display module, thereby electronic installation is operated.

So, in the electronic installation such as intelligent mobile phone, panel computer, e-book flourish today, how to design a kind of method of operating, can allow user's convenient operation electronic installation, be the urgent problem solving in this area.

Summary of the invention

The invention provides a kind of method of operating, according to one embodiment of the invention, aforesaid operations method is applicable to electronic installation, and above-mentioned electronic installation comprises display module and detection module; Aforesaid operations method comprises: by above-mentioned detection module, detect the first input signal; According to the first input signal, trigger drawing Aids, and make above-mentioned drawing Aids be presented at above-mentioned display module; By above-mentioned detection module, detect the second input signal; Judge whether above-mentioned the second input signal is positioned at the corresponding induction zone of drawing Aids; And when above-mentioned the second input signal is positioned at above-mentioned induction zone, the edge demonstration drawing locus according to above-mentioned the second input signal along above-mentioned drawing Aids.

By application the above embodiments, can realize virtualized drawing Aids; In addition, by the application of drawing Aids, can more press close to the experience of life that user utilizes instrument to draw, thereby user can be drawn more swimmingly on electronic installation.

Accompanying drawing explanation

Fig. 1 is the schematic diagram according to the electronic installation of first embodiment of the invention;

Fig. 2 is the process flow diagram according to the method for operating of first embodiment of the invention;

Fig. 3 is the schematic diagram according to the example operation of first embodiment of the invention;

Fig. 4 A, 4B are the schematic diagram according to the example operation of first embodiment of the invention;

Fig. 5 is the process flow diagram according to the method for operating of second embodiment of the invention;

Fig. 6 is the schematic diagram according to the example operation of second embodiment of the invention; And

Fig. 7 is the schematic diagram according to the example operation of second embodiment of the invention.

Embodiment

Below with reference to accompanying drawing and describe the spirit that clearly demonstrates content of the present invention in detail, the personnel of any described technical field are after understanding the preferred embodiment of content of the present invention, when can be by the technology of content of the present invention institute teaching, change and modification, it does not depart from spirit and the scope of content of the present invention.

One embodiment of the invention provide a kind of electronic installation, clear for making to narrate, and following paragraph will be take panel computer and be described as example, yet the present invention is not as limit.

Figure 1 shows that according to the schematic diagram of the electronic installation 100 of first embodiment of the invention.Electronic installation 100 can comprise display module 110, detection module 120 and processing module 130; Wherein display module 110, detection module 120 and processing module 130 are electrically connected to each other.

In the present embodiment, display module 110 can be the contact panel with electromagnetic induction ability, can in order to respond to touch-control input and in order to induced electricity magnetic pen or other suitable object near to or in contact with the changes of magnetic field causing, and export induced signal; In addition, display module 110 can receiving processing module 130 sends control signal display frame; It should be noted that, for ease of narration, in following paragraph, user be take and is described as example by finger contact display module 110 mode of operation of display module 110, yet in the present invention, user also can pass through time writer or other suitable object near to or in contact with display module 110, thereby display module 110 is operated.

Detection module 120 can be in order to receive the induced signal of display module 110, thereby detect user's input (be for example the click of single-point or multiple spot, or the slip of single-point or multiple spot), and detection signal is provided; The detection module 120 for example suitable element of available central processing unit, microprocessor or other tool processing capacity is realized.

Processing module 130 can be used for receiving the detection signal that detection module 120 sends, and controls signal to display module 110 in order to provide, to control the display frame of display module 110; The processing module 130 for example suitable element of available central processing unit, microprocessor or other tool processing capacity realizes.

One embodiment of the invention provide a kind of method of operating, method of operating can be applicable to same or similar electronic installation 100 in Fig. 1, and for making narration simple, below will be according to the first embodiment of the present invention, the electronic installation 100 of take in Fig. 1 is narrated method of operating as example, and so the present invention does not apply and is limited with this.

In addition, should be appreciated that, the step of mentioned method of operating, except specifying its order, all can adjust its front and back order according to actual needs in the present embodiment, even can carry out simultaneously or partly simultaneously.

Simultaneously with reference to figure 2, Fig. 3, Fig. 4 A, Fig. 4 B; Figure 2 shows that method of operating 200 can comprise the steps: according to the schematic diagram of the method for operating 200 of first embodiment of the invention

In step S1, detection module 120 can detect the first input signal by display module 110; In the present embodiment, the first input signal is for example the control action that user carries out display module 110, as single-point or multi-point touch (if user is with a finger or two above finger touches display modules 110).

In step S2, processing module 130 can judge whether the first input signal detecting is the deliberate action that triggers drawing Aids, and triggers drawing Aids according to the first input signal; In the present embodiment, drawing Aids is for example virtual chi TOOL_1 in Fig. 3 or the virtual protractor TOOL_2 in Fig. 4 A, 4B.

In step S3, processing module 130 can be controlled the boost line (for example boost line L2 of the boost line L1 of virtual chi TOOL_1, virtual protractor TOOL_2) that display module 110 shows drawing Aids and drawing Aids; Boost line is for example the edge that is positioned at drawing Aids (edge, the boost line L2 that for example boost line L1 is positioned at virtual chi TOOL_1 is positioned at the edge of virtual protractor TOOL_2).

In step S4, detection module 120 can detect by display module 110 displacement of the first input signal, and processing module 130 can be controlled display module 110 according to the displacement of the first input signal, to adjust drawing Aids and boost line, be presented at display size, angles of display or the display position on display module.

In step S5, processing module 130 can be passed through detection module 120, judges whether the first input signal continues, for example, judge whether user continues display module 110 to carry out single-point or multi-point touch; If so, carry out step S6; If not, carry out step S7.

In step S6, under the lasting state of the first input signal, detection module 120 can detect the second input signal by display module 110; In the present embodiment, the second input signal is for example the control action that user carries out display module 110, as single-point contact, single-point slip, multi-point touch or multiple spot slide.

In step S7, under the state stopping at the first input signal, processing module 130 can be closed drawing Aids (being for example to close virtual chi TOOL_1 or virtual protractor TOOL_2), and controls the boost line that display module 110 stops showing drawing Aids and drawing Aids; In other words, whether processing module 130 can stop according to the first input signal, operates and closes drawing Aids; In one embodiment, when the first input signal stops, processing module 130 is closed drawing Aids immediately, and is not limited to close drawing Aids in particular step.

In step S8, after the second input signal being detected, processing module 130 can judge whether the second input signal is positioned at the corresponding induction zone of drawing Aids (for example the corresponding induction zone SEN_1 of virtual chi TOOL_1, the corresponding induction zone SEN_2 of virtual protractor TOOL_2); If so, carry out step S9, carry out if not step S10; Wherein the induction zone of drawing Aids is for example the surrounding's (for example the induction zone SEN_1 of virtual chi TOOL_1 is positioned at boost line L1 around, and the induction zone SEN_2 of virtual protractor TOOL_2 is positioned at boost line L2 around) that is positioned at boost line.

In step S9, in the situation that the second input signal is positioned at the induction zone of drawing Aids, processing module 130 can be controlled display module 110 according to the second input signal, and along the edge of drawing Aids, the boost line of drawing Aids (or along) shows that drawing locus (for example shows drawing locus TRACE_1 or shows drawing locus TRACE_2 along the edge (or along boost line L2) of virtual protractor TOOL_2 along the edge (or along boost line L1) of virtual chi TOOL_1.

In step S10, in the situation that the second input signal is not positioned at induction zone, processing module 130 can be controlled display module 110 and according to the second input signal, show another drawing locus (in other words, this another drawing locus does not show along the edge of drawing Aids) at the edge that is independent of drawing Aids.

By application the above embodiments, can realize virtualized drawing Aids; In addition, by the application of drawing Aids, can more press close to the experience of life that user utilizes Solid Tools to draw, thereby user can be drawn more swimmingly on electronic installation.

In addition, according to one embodiment of the invention, processing module 130 can be according to drawing locus, the supplementary INFO_2(of the supplementary of instant or non-immediately computing and plotting track (the supplementary INFO_1(that is for example drawing locus TRACE_1 is for example length 300 pixels of drawing locus TRACE_1) or drawing locus TRACE_2 is for example drawing locus TRACE_2 with respect to 70 ° of the angles of the center of circle O of virtual protractor TOOL_2)), and the instant or non-display module 110 of immediately controlling shows supplementarys.

Thus, user, when utilizing drawing Aids to draw, can learn rapidly the information of the drawing locus that it illustrates, and increase significantly the convenience that user utilizes drawing Aids to draw.

In following paragraph, will provide about aforesaid operations 200 implementation detail more specifically, yet the present invention is not as limit.

According to one embodiment of the invention, in above-mentioned steps S2, processing module 130 can judge the induction point quantity (being for example the finger quantity that user contacts display module 110) of the first input signal detecting, and the state of the drawing Aids that decision triggers according to induction point quantity (for example determining trigger virtual chi TOOL_1 or trigger virtual protractor TOOL_2).

According to one embodiment of the invention, in above-mentioned steps S3, processing module 130 can be according to the first input signal the sensed position of the induction point on display module 110, determine that drawing Aids and boost line are shown in display position on display module and angles of display or the display size of drawing Aids and boost line.

For example, with particular reference to Fig. 3, in the situation that drawing Aids is virtual chi TOOL_1, processing module 130 can be according to the first input signal all or part of induction point A, the B on display module 110, the sensed position of C, determine that virtual chi TOOL_1 and boost line L1 are presented at the display position on display module 110; Processing module 130 can for example,, according to the formed straight line D of sensed position of 2 points in induction point A, B, C (being induction point A, B), determine that virtual chi TOOL_1 and boost line L1 are presented at the angles of display on display module 110 in addition; In one embodiment, straight line D and boost line L1 for example have same slope.

Again for example, with particular reference to Fig. 4 A, in the situation that drawing Aids is virtual protractor TOOL_2, processing module 130 can be according to the first input signal all or part of induction point A on display module 110, the sensed position of B, determine that virtual protractor TOOL_2 and boost line L2 are presented at the display position on display module 110; In addition, processing module 130 can, according to the spacing I1 of the sensed position of induction point A, B, determine that virtual protractor TOOL_2 is presented at display module 110 and boost line L2 is presented at the display size on display module 110.

On the other hand, in above-mentioned steps S4, in the situation that drawing Aids is virtual chi TOOL_1 (with particular reference to Fig. 3), processing module 130 can be according to the first input signal induction point A, the B after all or part of displacement on display module 110, the sensed position of C, decide virtual chi TOOL_1 and boost line L1 to be presented at the display position after the adjustment on display module 110; In addition, processing module 130 can for example,, according to the formed straight line D of sensed position of 2 points in induction point A, B after displacement, C (be displacement after induction point A, B), determine that virtual chi TOOL_1 and boost line L1 are presented at the angles of display after the adjustment on display module 110.

Similarly, in the situation that drawing Aids is virtual protractor TOOL_2 (with particular reference to Fig. 4 A, 4B), processing module 130 can be according to the first input signal the induction point A after the displacement on display module 110, the sensed position of B, decide virtual protractor TOOL_2 and boost line L2 to be shown in the display position after the adjustment on display module 110; In addition, processing module 130 can, according to the induction point A after displacement, the spacing I2 of B, determine that virtual protractor TOOL_2 is presented at display module 110 and boost line L2 is presented at the display size after the adjustment on display module 110.

According to one embodiment of the invention, in above-mentioned steps S8, in the situation that the second input signal is single-point contact, processing module 130 can judge whether the sensed position of the induction point (being for example the contact point of finger contact display module 110) of contact is arranged in induction zone; According to another embodiment of the present invention, in step S7, in the situation that the second input signal is single-point slip, processing module 130 can judge whether the sensed position of the starting induction point (being for example the contact starting point of finger contact display module 110) of slip is arranged in induction zone.

For ease of understanding, the present invention will be described below to lift operational demonstration example, but the present invention is not as limit.

With reference to figure 3, under the first mode of operation, user is for example with three finger contact display modules 110; Processing module 130 for example, determines to trigger virtual chi TOOL_1 according to induction point quantity (being 3); Then, processing module 130 is controlled display module 110, according to the sensed position of three fingers (being induction point A, B, C) of contact display module 110, shows the boost line L1 of virtual chi TOOL_1 and virtual TOOL_1; Now, if the sensed position of induction point A, B, C is subjected to displacement, processing module 130 detects these displacements by detection module 120, and induction point A, B after displacement, the sensed position of C; Then, processing module 130 is controlled display module 110 to adjust the display position of virtual chi TOOL_1 and boost line L1 according to the sensed position after induction point A, B, C displacement; Then,, if user still continues with three finger contact display modules 110, detection module 120 detects the second input signal by display module 110; If user stops with three finger contact display modules 110, processing module 130 is closed virtual chi TOOL_1, and controls display module 110 and stop showing virtual chi TOOL_1 and boost line L1.

In the situation that user continues with three finger contact display modules 110, user for example can carry out at the edge of virtual chi TOOL_1 (or the SEN_1 of induction zone in) single-point slip (also can be multi-point touch, single-point or multiple spot slip); Now, processing module 130 these single-points of judgement slide and are positioned at induction zone SEN_1, therefore processing module 130 is controlled display module 110 and is slided according to this single-point, edge (or along boost line L1) along virtual chi TOOL_1 shows drawing locus TRACE_1, in addition, processing module 130 is the supplementary of computing and plotting track TRACE_1 (being length) INFO_1 also, and controls display module 110 simultaneous display drawing locus TRACE_1 and supplementary INFO_1; On the other hand, if user does not carry out single-point slip (also can be multi-point touch, single-point or multiple spot slides) at the edge of virtual chi TOOL_1 (or in the SEN_1 of induction zone), processing module 130 is controlled display modules 110 and is slided and show another drawing locus (be for example this single-point slide the path of process) that is independent of boost line L1 according to this single-point.

On the other hand, with reference to figure 4A, 4B, under the second mode of operation, user is for example with two finger contact display modules 110; Processing module 130 for example, determines to trigger virtual protractor TOOL_2 according to induction point quantity (being 2); Then, processing module 130, according to the sensed position of two fingers (being induction point A, B) of contact display module 110, and the spacing I1 of the sensed position of induction point A, B, determine display position and the display size of the boost line L2 of virtual protractor TOOL_2 and virtual protractor TOOL_2, and control the boost line L2 that display module 110 shows virtual protractor TOOL_2 and virtual protractor TOOL_2; Now, if the sensed position of user's induction point A, B is subjected to displacement, processing module 130, by detection module 120, detects the displacement of the sensed position of induction point A, B, and the induction point A after displacement, the sensed position of B; Then, processing module 130 is according to the induction point A after displacement, the sensed position of B, and the sensed position spacing I2 of induction point A, B, controls the display position that display module 110 is adjusted virtual protractor TOOL_2 and boost line L2; Then,, if user still continues with two finger contact display modules 110, detection module 120 detects the second input signal by display module 110; If user stops with two finger contact display modules 110, processing module 130 is closed virtual protractor TOOL_2, and controls display module 110 and stop showing virtual protractor TOOL_2 and boost line L2.

In the situation that user continues with two finger contact display modules 110, user for example can carry out at the edge of virtual protractor TOOL_2 (or the SEN_2 of induction zone in) single-point slip (also can be multi-point touch, single-point or multiple spot slip); Now, processing module 130 these single-points of judgement slide and are positioned at induction zone SEN_2, therefore processing module 130 is controlled display module 110 and is slided according to this single-point, edge (or along boost line L2) along virtual protractor TOOL_2 shows drawing locus TRACE_2, in addition, processing module 130 is the supplementary of computing and plotting track TRACE_2 (being angle) INFO_2 also, and controls display module 110 simultaneous display drawing locus TRACE_2 and supplementary INFO_2; On the other hand, if user does not carry out single-point slip (also can be multi-point touch, single-point or multiple spot slides) at the edge of virtual protractor TOOL_2 (or in the SEN_2 of induction zone), processing module 130 is controlled display modules 110 and is slided and show another drawing locus (be for example this single-point slide the path of process) that is independent of boost line L2 according to this single-point.

Following paragraph will provide the embodiment of other method of operating of the present invention, but the present invention is not as limit.

With reference to figure 5, Fig. 6, Fig. 7, Figure 5 shows that the process flow diagram of the method for operating 500 of second embodiment of the invention simultaneously; Method of operating 500 is roughly similar to aforementioned operation method 200, therefore the part repeating will be omitted.

In addition, identical with method of operating 200, method of operating 500 can be applicable to same or similar electronic installation 100 in Fig. 1, and for making narration simple, below will be according to one embodiment of the invention, the electronic installation 100 of take in Fig. 1 is narrated method of operating 500 as example, but the present invention is not as limit.

Method of operating 500 comprises the following steps T1-T8; Method of operating 500 is with aforementioned operation method 200 key distinction parts, and method of operating 500 is not limited under the lasting state of the first input signal, just carries out the detection of the second input signal, below will describe in detail by step T1-T8.

Step T1 can be with reference to the step S1 of aforementioned operation method 200, therefore be not repeated herein.

In step T2, processing module 130 can judge whether the first input signal detecting is the deliberate action that triggers drawing Aids, and operatively according to the first input signal, triggers drawing Aids; The step S2 that is different from method of operating 200, in the present embodiment, a plurality of triggering keys of predeterminable demonstration, for example, trigger key ICON_1(for example in order to trigger the virtual chi TOOL_1 in Fig. 3) and trigger key ICON_2(for example in order to trigger the virtual protractor TOOL_2 in Fig. 4 A, Fig. 4 B); For example, when the first input signal (being single-point contact) detecting in processing module 130 judgements is positioned at the triggering key on display module 110, processing module 130 triggers drawing Aids.

In addition, the deliberate action that it should be noted that triggering drawing Aids can also be that specific single-point slides (for example L-type slip, U-shaped slip) or multiple spot slides, and with above-mentioned triggering key, is not limited.

In step T3, processing module 130 can be controlled the boost line that display module 110 shows drawing Aids and drawing Aids; The step S3 that is different from method of operating 200, in the present embodiment, processing module 130 can be controlled display module 110 and show drawing Aids according to default display position, default angles of display or default display size.

In step T4, processing module 130 can detect the property adjusted user by detection module 120 and input, and can, according to this property adjusted user input control display module 110, to adjust drawing Aids and boost line, be presented at display size, angles of display or the display position on display module; For example, this property adjusted user input can be pulled drawing Aids and boost line by single-point sliding type, to adjust the display position of drawing Aids and boost line, and with multiple spot sliding type, adjust angles of display and the display size of drawing Aids and boost line.

In step T5, detection module 120 can detect the second input signal by display module 110; The step S5 that is different from method of operating 200, in the present embodiment, does not need first to judge whether the first input signal continues just to carry out step T5; That is even if the first input signal stops, processing module 130 is not closed drawing Aids yet, and display module 110 still continues to show the boost line of drawing Aids and drawing Aids.

On the other hand, it should be noted that in the present embodiment owing to whether not continuing decision with the first input signal, whether close drawing Aids, therefore display module 110 can show the close key (as the close key CLOSE in Fig. 7) of drawing Aids.Detection module 120 can detect the 3rd user by display module 110 and input; Processing module 130 can judge whether the 3rd user's input is positioned at close key, and in the situation that the 3rd user's input is positioned at close key, close drawing Aids, and control the boost line that display module 110 stops showing drawing Aids and drawing Aids.

Step T6-T8 can be respectively with reference to the step S8-S10 of aforementioned operation method 200, therefore be not repeated herein.

With reference to figure 6, under the 3rd mode of operation, user for example carries out single-point contact to touching key ICON_2; The contact point that processing module 130 judgement users contact display module 110 is positioned at contact-key ICON_2, therefore processing module 130 triggers virtual protractor TOOL_2; Then,, with reference to figure 7, processing module 130 is controlled display module 110 according to default display position and default display size, shows the boost line L2 of virtual protractor TOOL_2 and virtual protractor TOOL_2; In addition, display module 110 can show the close key CLOSE of virtual protractor TOOL_2 when showing virtual protractor TOOL_2, to make the user can be by contact close key CLOSE to close virtual protractor TOOL_2; On the other hand, after showing virtual protractor TOOL_2, user can pull virtual protractor TOOL_2 and boost line L2 by single-point sliding type, or by multiple spot sliding type, adjusts the display size of virtual protractor TOOL_2 and boost line L2.

Then, under the state of opening at virtual protractor TOOL_2, user for example can slide by single-point on boost line L2, and to draw, its concrete operations can, with reference to the example operation in method of operating 200, be not repeated herein.

By above-mentioned setting, also can realize virtualized drawing Aids; In addition,, by application the above embodiments, user can learn the information of the drawing locus that it illustrates when utilizing drawing Aids to draw simultaneously, thereby increases significantly the convenience that user utilizes drawing Aids to draw.

Although the present invention with preferred embodiment openly as above; so it is not in order to limit the present invention; under any, in technical field, there are the personnel of common knowledge; without departing from the spirit and scope of the present invention; when doing a little change and retouching, so protection scope of the present invention is when being as the criterion depending on claims person of defining.

Claims

1. a method of operating, it is applicable to electronic installation, and this electronic installation comprises display module and detection module, it is characterized in that, and this method of operating comprises:

By above-mentioned detection module, detect the first input signal;

According to above-mentioned the first input signal, trigger drawing Aids, and make this drawing Aids be presented at above-mentioned display module;

By above-mentioned detection module, detect the second input signal;

Judge whether above-mentioned the second input signal is positioned at the corresponding induction zone of above-mentioned drawing Aids; And

When above-mentioned the second input signal is positioned at above-mentioned induction zone, according to above-mentioned the second input signal, along edge corresponding to above-mentioned drawing Aids, show drawing locus.

2. method of operating according to claim 1, is characterized in that, also comprises: the supplementary that shows described drawing locus.

3. method of operating according to claim 2, it is characterized in that, in the situation that described drawing Aids is virtual chi, described supplementary is the length of described drawing locus, in the situation that described drawing Aids is virtual protractor, the angle that described supplementary is described drawing locus.

4. method of operating according to claim 1, is characterized in that, described drawing Aids also comprises boost line.

5. method of operating according to claim 1, is characterized in that, also comprises: when described the second input signal is not positioned at described induction zone, according to described the second input signal, show another drawing locus at the described edge that is independent of described drawing Aids.

6. method of operating according to claim 1, is characterized in that, also comprises: judge whether described the first input signal continues; And

In the situation that described the first input signal stops, closing described drawing Aids, and stop showing described drawing Aids.

7. method of operating according to claim 1, is characterized in that, the step that wherein detects the second input signal also comprises:

At described the first input signal, lasting in the situation that, detect described the second input signal.

8. method of operating according to claim 1, is characterized in that, the step that wherein triggers described drawing Aids according to described the first input signal comprises:

Judge the induction point quantity of described the first input signal; And

According to above-mentioned induction point quantity, determine the state of described drawing Aids.

9. method of operating according to claim 1, is characterized in that, wherein shows that the step of described drawing Aids also comprises:

The sensed position of the induction point according to described the first input signal on described display module, determines that described drawing Aids is presented at the display position on described display module.

10. method of operating according to claim 1, is characterized in that, wherein, when described drawing Aids is virtual chi, shows that the step of described drawing Aids comprises:

According to the sensed position of the sensed position of the first induction point of described the first input signal and the second induction point, determine that described drawing Aids is presented at the angles of display on described display module.

11. methods of operating according to claim 1, is characterized in that, wherein, when described drawing Aids is virtual protractor, show that the step of described drawing Aids comprises:

According to the spacing of the sensed position of the sensed position of the first induction point of described the first input signal and the second induction point, determine that described drawing Aids is presented at the display size on display module.

12. methods of operating according to claim 1, is characterized in that, also comprise:

According to the displacement of described the first input signal, adjust described drawing Aids and be presented at display size, angles of display or the display position on described display module.