TW200921467A - Method of using dynamic sensing to change display position and electronic device of the same - Google Patents

Abstract

The invention discloses a method of using dynamic sensing to change a display position and electronic device of the same, wherein the electronic device includes a display module, a picture module, a detection module and an integration module. The picture module is used to display a picture via the display module and dispose plural diagrams on the picture. The detection module is used to detect whether it is in a dynamic state, and when it is in a dynamic state, a sensing information corresponding to the dynamic state is generated. The integration module is used to receive the sensing information transmitted by the detection module and then make the display module display the diagram moving from a first position to a second position according to the sensing information. By combining the electronic device with the detection module, the invention can make the diagram displayed on the picture to slide and stack according to the tilting of the electronic device, thereby representing a natural-attraction-like visual effect.

Description

200921467 IX. OBJECTS OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a method for changing a diagram and an electronic device thereof, and more particularly to a method for utilizing dynamic sensing to change a position of a figure and an electronic device thereof. Prior Art Accelerometer is currently the main inertial measuring instrument, which can be used to measure the line & motion of the object and the aforementioned accelerometer is analyzed step by step, and can be divided into two categories according to its functional characteristics. The static accelerometer, when the static accelerometer is tilted by an angle, the gravity field will generate a component on the induction field, and the component can be used to measure the tilt of the object with the static accelerometer. How many corners; relative, the other is the so-called dynamic accelerometer, which can (4) measure the movement of the object (four) state 'and is often used in the automotive industry, such as assembled on the car Airbags, tamper detection, etc. If the above accelerometers are combined with other inertial estimators, such as gyroscopes that sense the rotational motion of the object, It is possible to simultaneously detect the linear and rotational motion state of the object. Therefore, in recent years, the related industry has also developed how to apply the techniques of the aforementioned inertial measuring devices to the electronic devices that are often used in life, such as The US Patent Case No. 566, No. (10) 554, No. s%, and 帛656·, etc., refer to the current display screen size of the handheld device to make the operator's visual sense more comfortable and gradually change. The big trend 'has to take into account the lightweight and portable convenience of the handheld device 200921467, /, to compress the space of the control buttons on the handheld device, therefore, when the handheld device is combined with the inertial measuring device, it develops As long as the hand = tilt left, right or front and back tilted or otherwise rotate and move the handheld device to make it in a dynamic state, it can be displayed on the handheld device. Up, down, or left and right scrolling (scr〇11) for easy viewing, or changing the execution status on the handheld device, such as turning on, clicking, turning off or adjusting (volume size, image or text display ruler) Etc.), thereby saving the number and space of the necessary operating buttons of the handheld device. Therefore, how to integrate such an inertial measuring device on the electronic device, and expand a more diversified salary function to make its characteristics The most important purpose of the present invention is to provide a change in the icon The electronic device of the position includes a display module and a picture module. The present invention utilizes dynamic sensing to change the position of the electronic device detection module, and an integrated module. For displaying through the display group - face and = set = the plural of the picture. The group of ❹m is used to detect whether the state is in a dynamic state, and in the dynamic state, the relative dynamic state is generated Induction information. The integration module receives the sentiment transmitted by the group (four), and then moves the icons displayed by the display module from a first position to a second position according to the sensing information. Furthermore, another object of the present invention is to provide a method for varying the position of the illustration. Heart Name 200921467 Thus, the present invention utilizes dynamic sensing to change the graphical display state of the 'applicable to-electronic device'. The electronic device can display a facet: a plurality of icons arranged on the screen, the method comprising the steps of: (a) sensing whether an electronic device is in a dynamic state; (b) generating a sensing message when the dynamic state is sensed; and (c) causing the graphics to be from a first position based on the sensing information Move to a second position. Furthermore, it is a further object of the present invention to provide an alternative method of utilizing the motion sensing to vary the position of the illustration. The method of using the dynamic sensing to change the position of the image is applicable to an electronic device having a detecting module and a display module, and the detecting module is configured to test whether the electronic device is in a The dynamic state, and the dynamic state generates a sensing information relative to the dynamic state, and includes the steps of: (4) displaying, by the display module, a plurality of icons and a plurality of icons arranged on the surface. (b) receiving the sensing information. (4) Depending on the sensing information, the icons displayed by the display module are moved from the first position to the second position. The effect of the present invention is that the electronic device and the detection module are used. The combination then causes the graphic displayed on the face to slip and stack as the electronic device tilts to present a visual effect as natural gravity. [Embodiment] The foregoing and other technical contents, features and effects of the present invention will be apparent from the following description of the preferred embodiments of the accompanying drawings. Before the present invention is described in detail, it is to be noted that in the following description, similar elements are denoted by the same reference numerals. Referring to FIG. 1 , a preferred embodiment of the electronic device 1 that utilizes dynamic sensing to change the illustrated position includes a display module 11 , a face module 12=, a detection module 13 , and a Integration module 14. In the preferred embodiment

The electronic device 1 is a handheld electronic device such as a mobile phone, a personal digital assistant, or a palm-type game machine. The S surface pattern, 'and 12' is used to display a plane 12 丨 and configuration through the display module 11, and the complex image # 122 of the surface 121. In the preferred embodiment, the first type of display (such as LCD, TFT, or OLED, etc.) and the electronic circuit components required for its operation are included in the preferred embodiment.

The medium/real surface module is the operating system (〇s), for example, MS ^ and the surface 121 is the desktop of the wind_ operating system: s: 〇P), and the graphic 122 is generally scattered in The viewport link icon (Ic()n). Detection module 13 is used! Bo, a, s ^ dynamic state, produce a 1 =. in a dynamic state (10) ^ good example towel, material information. In this comparison, the inertial measuring instrument for the sickness, the second instrument or the accelerometer can be used for the detection and transmission of f, / for each disease inertial detector and with the correlator and gravity detection. The complex detection V at different positions may include π in the electronic device 1 to measure the motion relative to different coordinate axes. 200921467, since this is a known technology, it will not be described in detail. And obliquely! 14 receives the sensing information transmitted by the axis group 13, * face grip ~ Beixun performs analysis and calculation to obtain a motion information, and sends the f12 processing 'so that the graphic 122 displayed on the display module u is from a position Move to the second position (see Figures 2 and 3). Referring to FIG. 4, the 兮 兮 γ 包含 includes the following steps: 1. The method corresponding to the preferred embodiment of the first embodiment is: 2 First, as shown in step 21, the detecting module 13 senses whether the electronic device i is in a dynamic state. 'For example, this electronic device! It is tilted to the lower left, lower right, or tilted in other directions. In step 22, when the debt measurement module 13 senses the dynamic centroid % 'that is generated - it can be - dimensional, two-dimensional or even three-dimensional sensing information, such as a tilt angle compared with a certain axis and some Acceleration in the direction, etc. For example, when the debt module 13 senses that the electronic device is tilted toward the lower right side with a horizontal plane (as shown in FIG. 2), that is, the virtual axis of the one-phase electronic device 1 is extended. Sensing information with a tilt angle of degree. Then, as shown in step 23, the integration module 14 receives the sensing information described above. After the step, the integration module 14 analyzes and calculates the sensing information according to the received sensing information 2, and obtains a motion information. In the embodiment, after analyzing and calculating through the integration module 14 The sports assets s include the amount of motion used to determine the distance between the first position and the second position corresponding to each of the $122 jacks, and one for determining the position-to-position and the number of 200921467 corresponding to the icon 122 The square between the two positions, in the above-mentioned example scenario, ..., ... moving direction. That is to say, in the m environment, the motion information includes one of the displacements obtained by converting the lower right degree by 30 degrees, "the direction value of πI Han to the right. Of course, in his situation, the electronic device i may be simultaneously", ', '····································· 』The amount of exercise obtained by the principle of threshold 0 then 'as shown in step 25, the whole person knows 1λ Μ move 1... the whole 杈 group 丨 4 will get the operation: the second parent inside the module 12 processing' Make it appear in the display module number map! 122 moves from the -first position to the second position, respectively. In other words, in the context of the description, when the kneading module 12 receives the motion information that is rotated by the integrated module, the display of the remaining u is displayed, so that the icon m on the m moves to the right (as shown in the figure). 3 shows Budan

It is worth mentioning that in this version of Wei Wei 眚 + A, you have a good example of the early t, each round 122 is a default option, that is, a Jg-Vyt ^, ^ general operating system, such as Microsoft Windows series Figure 122 on the desktop of the operating system, in the ', Window or - Menu. After A (4), the screen module 12 can be moved within the range of the written U1, and when the icon ^ is linked to the edge of the screen 121, the map is commanded* Part of 122 is stacked on (2); that is, 疋3 brothers' undertakes the above example, when written in the figure 19 ^ „ - 121 on the picture 122 due to the picture module: owed to the induction information of the integrated module 14 All appear as if they were subjected to (4) = ground, they moved to the right (as shown in item 3), and when they are tilted to the right, and Figure 5 is not 'greater than the original angle of inclination, and slips to the surface 121, the edge 'Infrared® 121 has insufficient edge length while accommodating all of the illustrations 122, 10 200921467 so that each of the illustrations 122 are stacked on top of each other on the edge (as shown in Figure 6). Referring to Figures 7 and 8', it is added that In the presentation of the visual picture, when the icons 122 are moved to the edge of the picture, the icons 122 on the face ι21 may also be presented in a manner of being squeezed and close together, that is, in the above situation. The illustrations 122 are all close together and should not be limited to the description of the preferred embodiment. In addition, by the above-mentioned method 2 of utilizing dynamic sensing to change the position of the figure, the concept can be further introduced into the field of audio-visual entertainment to realize a dynamic feeling like the current popular Nintendo Wii game machine. A preferred embodiment of the method 3 for utilizing dynamic sensing to change the position of the image, as described above with reference to FIG. 9, FIG. 10 and FIG. 13 and an electronic device of the display module u, such as a mobile phone, a personal digital assistant or a handheld electronic device 1' equipped with various inertial measuring devices, and the detecting module 13 Whether the electronic device 1 is in a dynamic state, and generates a sensing information relative to the dynamic state in the dynamic state, the method includes the following steps: First, as shown in step 31, displaying through the display module U - 昼 工 21, and the number of maps 122 and 复 丄 丄 丄 丄 与 与 与 与 与 与 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • The same, ie _The module Π senses the dynamic state of the electric tilting toward the lower right. For example, each of the illustrations (4) is in the preferred embodiment, only the figure of 200921467, which is unfortunately Next, as shown in step ^2, the 'integrated module 14 receives the 哕 杳 杳, that is, the relative edge of the electric receiving money should be -30 degrees. The long axis of the device 1 extends its virtual axis. The tilt angle is as shown in step 3 3 - 'The feeling of receiving the information into the data _ T°j analysis and the difference after the 'acquisition-motion information, such as step 34 thousand needles ^ not 'integration mode' group 14 The motion information obtained by the operation is processed by the parent screen module 12, and the screen module 12 is based on the sensing information transmitted from the self-integration module 14, so that the festival deer _ W ^ Μ 7 5 The icon 122 moves from a position of one brother to a position of _ 任 任 弟 , in this case, that is, to the right. It is worth mentioning that it is too exciting. Preferably, only the example of the integration module 14 performs the analysis of the received sensing information and the subsequent related processing, which is the same as the step 25 in the previous embodiment, and therefore will not be repeated here. Then, as shown in step 35, the integration module 14 determines the icon I: by the return of the coordinate position where the graphic icons 12 are located. Whether there is movement to some - a specific target position 123 ' as preset by the integration module 14 such as - a specific marked point or - range. The last name is 'as shown in step 36'. If it is returned to the integration module 14, the result is that the integration module 14 executes a preset command, which is a motion of the 7 movement to the target position 123. 122. Stepwise to generate a surface 121 effect that falls through the display module 123 at the target position 123 of the display surface 121, such as the disappearance or other visual effect. The value of the value of & 疋 'in the above step 36 of the preset instruction 'in the actual 12 200921467 application' the preset instruction may also correspond to a score in a game, which is generally related to the background of the field It is easy to change and should not be limited to those disclosed in the preferred embodiment. Referring to FIG. 1A, FIG. 9 and FIG. 12, for example, the following embodiment can be used to construct the following entertainment environment. In the handheld electronic device, the screen 121 of the workstation, the model broadcast ψ ν- ,., Long Lai's desktop, on the desktop ^ small not - the hole 'and on the desktop shows at least a filament; then, the user only needs to hold the hand-held electronic device in the hand, then, or left, If you tilt right, you can roll the spheroids forward, backward, or left and right according to natural inertia. And when the spheroids roll off the holes that mark different scores, you can get the game scores indicated. . The method of using the dynamic sensing to change the position of the image and the electronic device thereof by the electronic device 丨 and the η module η are combined to display the graphic 122 displayed on the image 121 Can receive according to the received: Inductive Gongxun, with the tilting effect of the electronic cracking, produces the action of slipping, leaning or stacking, such as the natural gravity in the world, showing the eye-light The visual effect 'is indeed able to achieve the object of the invention. However, the above is only the preferred embodiment of the present invention, and does not: limit the scope of the practice of the present invention, that is, the application of the present invention: the simple equivalent change of the scope of the invention and the description of the invention And Xiuhan, are still within the scope of the invention patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a preferred embodiment of an electronic device using dynamic sensing to change the position shown in FIG. 13 and 200921467; FIG. 2 is a side view showing the preferred embodiment. The tilting state in the embodiment; the method corresponding to the embodiment of the electronic device is shown in FIG. 3, which is a schematic view showing the state of the facet when tilted in the preferred embodiment; FIG. 4 is a flow chart illustrating the preferred embodiment. 5 is a side view illustrating the tilted state; in the embodiment, the electronic device FIG. 6 is a schematic view showing the illustrated stacked state in the check when the ten devices are tilted; Figure 7 is a side view showing the tilted state; in the embodiment L, when the electronic device is tilted, the figure 8 is a schematic view showing the state in the electronic device; FIG. 9 is a flow chart showing another embodiment of the preferred embodiment in which the corresponding figure is a schematic diagram illustrating the relationship between the positions of the screens; and the main target FIG. 11 is a side view showing the tilting m In the case of palladium, the electronic device Fig. 12 is a schematic view showing the state in which the screen is placed and dropped into the opening. Move to the target private position 14 200921467 [Main component symbol description] 1 •...· ••Electronic device 14........Integration module 11 ··_. •...Display module 2 ..... ....Using Dynamic Sensing to Change 12·····...The method of moving the position of the facet module 121 ····昼面21~26...·Step 122 ·· •... Figure 3 .. .......Using dynamic sensing to change 123 ·· •...Target position to move the position of the image 124 ····Opening 31~36···Step 13 .··· •...Detecting mode Group 15

Claims (1)

200921467 X. Patent application scope: 1. An electronic device that uses dynamic sensing to change the position of the icon, scooping in. A display module; Is a face-to-face module for displaying a written message through the display group And a plurality of icons arranged on the screen; the Dan® and the one-to-one test module are used in a dynamic state, and in the pure state, a relative Inductive information of the dynamic state; and: the integrated module 'receives (four) the sensing information transmitted by the module, and the transport obtains a motion information # 'displays the icons from a first -#番ns shoulders, - And the 罘 position moves to a second position. 2. According to the scope of the patent application, the first use of the dynamic sensing to change the map does not show the position of the electronic device, the information of the movement includes the first movement of the Syrian Dan. In the blasting movement in 々A, it is determined that at least one of the icons corresponds to the distance between the first position and the second position.夕— 3. According to the 1st and 2nd items of the patent scope, the dynamic sensing is used to change the position of the electronic device without the position of the electronic device i/, r忒 linkage information including _ moving direction, the integrated module媸 愰 ', and according to the direction of the movement 'determine at least one of the corresponding _ 'no " between the location of the Zidzi and the second position 4. According to the scope of the patent application, the third top, +, &gt ; ^, m Gu Di 3 of the use of dynamic sensing to display the location of the electronic device, the owing to the map does not /, the positive 5 module is to make the group within the range of the face, and The temple map is not and * when the special icon is moved to the edge, the parts of the icons will be on the surface. According to the scope of the patent application, the electronic 奘番甘士分杜a change map device using the dynamic sensing display position as described in the 3 τ5 %, +. λ μ consumption of the third party, wherein the integration The module is such that the icons 16 200921467 are moved within the kneading plane, and when the option icons are moved to the kneading edge, portions of the icons are stacked on the kneading surface. 6. The electronic device using the dynamic sensing to change the display position of FIG. 1 according to the item i of the patent scope of the patent application, wherein each of the icons is a corresponding selection/synthesis type using dynamic sensing to change the graphic display. The method of the state is applicable to an electronic device, the electronic device can display a picture and a plurality of icons arranged on the facet. The method comprises the following steps: (a) sensing whether an electronic device is in a dynamic state; (b) When the dynamic state is sensed, a sensing information is generated, (c) the motion information is obtained according to the sensing information; and (d) the graphics are respectively changed from the first to the first according to the motion information. Two locations. A method for using a dynamic sensing to change a display dry state according to item 7 of the application scope, wherein the motion information includes a motion amount, wherein the motion amount is determined according to the motion amount, and at least one of the icons is determined. Corresponding to the distance between the first position and the second position. ~ 9. The method of using dynamic sensing to change the graphical display state according to item 7 or 8 of the scope of the middle, wherein the motion information includes a motion direction, the step (in the sentence, the motion is determined according to the motion direction) The direction between the first position and the second position corresponding to at least one of them is illustrated. 10. The method of using the dynamic sensing to change the display state according to the ninth item of the scope of the request, further includes - Step (4) after the step (4), the icons are moved within the range of the picture, and when the icons are moved to: the edge of the face, the portions of the icons are further placed on the face 17 200921467 11. The method for using the dynamic sensing to change the display state according to the ninth application of the application scope further includes a step (e) after the step (d), so that the s Moving within the kneading range, and when the icons are moved to the edge of the picture, the portions of the icons are further stacked on the screen. 12. Using dynamic sensing to change according to item 7 of the application scope. a method of displaying a state, In the step (d), each of the icons corresponds to a preset option. 13. A method for dynamically changing the display position by using dynamic sensing, which is suitable for having a detecting module and a display module The electronic device of the group is configured to detect whether the electronic device is in a dynamic state, and generate a sensing information relative to the dynamic state in the dynamic state, the method comprising the following steps: (a) The display module displays a plurality of icons and a plurality of icons arranged on the surface; (b) receiving the sensing information; (c) obtaining a motion information according to the sensing information; and (d) causing the display according to the motion information The graphics displayed by the module are moved from a first position to a second position. 14. The method of using dynamic sensing to change a graphical display position according to claim 13 of the patent application scope, wherein the motion information includes An amount of exercise, in step (d), determining the distance between the first position and the second position corresponding to at least one of the icons according to the amount of movement. 18 200921467 15. According to the patent patent (4) 13 A u $ The method for using dynamic sensing to change the display position of the graphic, wherein the motion information includes a moving direction, and in the step (d), determining, according to the moving direction, at least one of the icons corresponds to the first The direction between the position and the second position. The method of using the dynamic sensing to change the display position according to the application of the patent _15, wherein the step (4) is to move the icons within the range of the picture, And when the option icons are moved to the edge of the face, the portions of the icons are further stacked on the screen. 17·Using dynamic sensing to change the position according to the patent application _13 The method, wherein the step (4) is further disposed at least one target position of the face through the display handle set, and the method further comprises the following steps after the step (d): and (4) determining the same Whether at least one of the icons moves to the target position (1) If the result of the determination is YES, the preset instruction is executed. 18. The method of using dynamic sensing to change the map without displaying the position as described in claim 17 of the patent scope, wherein the preset instruction corresponds to a scoring effect in a game. 19. According to the method of claim 17 of the patent application, the method of using the dynamic sensing to change the position of the change map does not show the position of the display module in the step (a). _ The display position is not the same as the opening pattern. The preset command is to make the movement to the position of the __ ^ ^ 軚 position, and further produce the effect of falling into the opening. 19