TW201133324A - Method and system of executing multi-touch control - Google Patents

Abstract

The invention provides a method and system of executing multi-touch control, suitable for a computer executing window operating system. The computer performs rotation, zoom-in/zoom-out or movement processing on a target object via a mouse. The method comprises the steps of: starting the window operating system and then loading a monitoring process; using the monitoring process to detect whether the functional key of the mouse is pressed or not; when the functional key of the mouse is pressed, using the monitoring process to call a multi-touch control function of the window operating system; and, if the cursor of the mouse is positioned inside the target object, determining the output signal of the mouse based on the multi-touch control function, so as to execute a pen gesture operation corresponding to the multi-touch control function.

Description

201133324 VI. Description of the Invention: [Technical Field] The present invention relates to an input method and apparatus, and more particularly to a method and system for performing multi-touch. [Prior Art] The operating system (Operating System) is a computer system software used as an execution environment of an application and an operation interface of a computer. In general, the tasks of the operating system include direct supervision of hardware dragons, management of computing resources (such as internal storage, processor usage time), and provision of various application services for users to output through keyboards, screens, etc. / Input device to control the computer. With the graphical user (4) interfaee' GUI ’ _ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ ─ With the Wei hardware technology woven, the operating system can be used to open the window for the implementation of the conventional technology, and can only be used for _ keyboard, mouse or stalking. The progress of science and technology, along with a variety of input and loss around the rise. No (10) The development of the curtains' user can touch the screen through the finger to select: special =: program window, coffee ^ ... referred to as heart 7; in = second window system (a related function. dGWS 7 is even more The 201133324 user with built-in touch screen can zoom or move the target object 110 in the honor screen by sliding the finger on the touch screen. Please refer to "1", which is a habit. The multi-touch diagram of the technology is known. The multi-touch function of WindGWS 7 uses the movement of multiple fingers as the operation of the target object. Microsoft has used these various ambiguous wires performed by the multi-control function. At present, Wind_7 supports i-character zoom, single-finger or two-finger movement, rotation, two-finger tap, hold and tap, and various gestures. For example, #user selects touch with two fingers. On-the-spot—At any time, WindQws 7 _ will start recording and transferring Wei. When the relative distance between the two players increases, the image file will be enlarged; otherwise, the image will be reduced. Service, but for users without a touch screen It is impossible to enjoy this - Wei's convenience. [Invention] The above problems, a method of performing multi-touch, is performed by a mouse to perform multi-touch function of the window operating system. The above-mentioned purpose is as follows: The method for performing multi-touch disclosed in the present invention includes the following steps: after starting the window operating system, the manned training sequence; the monitoring program detects whether the mouse is pressed or not; when the mouse is viewed Wei Jianshi, the job control program calls the window operation system (4) the control function; if the cursor is located on the target object, the output signal output by the monitoring program will enable the multi-touch function to perform the corresponding gesture operation. The system 'turns over the computer that performs the window job secret, through the mouse 201133324

. To achieve the above objective, the system disclosed by the present invention includes: a computer, a mouse and a monitoring private sequence, and is electrically connected to a computer; and a monitoring program is run on the computer, wherein the monitoring process can be shouted at the mouse driver towel. Or the independent lung sequence; the slippery force and the monthly b button 'monitoring program to monitor whether the function key is pressed; when the sliding = _ can be pressed, the monitoring program calls the multi-touch of the window operating system ^ When the right mouse's tree is above the target object, the multi-touch function performs the corresponding gesture operation according to the signal from the I control program. It can be seen that the mouse device of the present invention pre-defines the signal of pressing the mouse button and scrolling the wheel (4), and transmits the signal when the analog "multi-touch" is sent by a simple mouse button or a scroll mouse ( The signal group), therefore, the (four) one-handed control of the mouse' can immediately achieve the above multi-touch function, simplifying the zooming or moving of the target object of the window operating system. Regarding the present invention, the features and implementations, the best embodiment of the invention is described in detail below. [Embodiment] The apparatus of the present invention and its wiring method will be described in detail in the following preferred embodiments. However, the concept of the present invention is threatened by other villages. The examples cited in the town are only used to illustrate the pure line method of the present invention, and are to be turned over. In this embodiment, the window is freshly modified, and the embodiment is also applicable to other window operating systems, such as wind_ or windowing, etc., but the scope is not limited. In the window operating system of the present invention, different target objects are displayed, and the type of the target object may be an application (including its function options), an image file, or a file file. The month is referred to as "Figure 2A", which is a schematic diagram of the structure of the present invention. In "Plan 2A", a personal computer 21" and a computer input device are included. In the personal computer program, run S as #彡统230 and monitor the order. The computer input device of the present invention is exemplified by a mouse 22 ,, including but not limited to a computer input device such as a mouse 22 〇, a trackball (10), and a monitoring program executed in the window operating system 23 〇 240. The present invention can be applied to a mouse 220 having a left button, a right button, and a miscellaneous page control module, or a mouse 22 having a separate function button 221. The monitoring program 240 can be built into the mouse 220 in a driver embedded in the mouse, or in a separate application. In the "FIG. 2A", the monitoring program 240 is executed in the personal computer 210 as an explanation. For the person skilled in the art, the monitoring program 240 can also be embedded in the firmware of the mouse 220 (as claimed in "FIG. 2B"). ). When the mouse 220 is connected to the personal computer 21, the monitoring program 240 is activated and instantly monitors the various signals transmitted by the mouse 220. Different signals are output to the PC 21 during the movement of the mouse 22 或 or when the button is pressed. The signal output from the mouse 220 is the first signal 201133324 v and the second signal. The first signal is the multi-touch function demand signal sent by the mouse after the function key is pressed. The second signal is issued after the mouse is pressed by the function key, and then the button is pressed (which includes pressing the left/right button and the scrolling page control module) or moving the mouse (meaning the mouse movement is performed). Signal. When the cursor of the mouse 22 is located on the target object 25〇 and the mouse is pressed to press the function key 221 to output the first signal, the monitoring program mo generates a corresponding multi-touch signal group according to the mouse button. The multi-touch function for calling the window operating system MO' is used to process the target object 25〇 accordingly. The function key 221 may be an independent button, but may be, but not limited to, a left button, a right button, a right button, a left and right button, or a left button, a right button, and a page control module. The combination of scrolling. After the multi-touch function is turned on, the monitoring program 24〇 determines the second signal output by the mouse 22〇 and converts the first signal and the second signal to the absolute coordinate signal φ number, and then transmits the same to The multi-touch function enables its multi-touch function to determine the corresponding gesture operation based on the absolute coordinate signal output. In order to clearly explain the overall operation of the present invention, please also refer to the "Fig. 3", which is a schematic diagram of the operational flow of the present invention. The main operational procedure of the present invention includes the following steps: Step S310: After the Windows operating system is started, the monitoring program is loaded; Step S320: The monitoring program detects whether the mouse sends the first signal (ie, the pressed function key); Step S330 When the monitoring program detects the first signal of the mouse, the monitoring program 201133324 grabs the coordinate of the current cursor as the first absolute coordinate signal' and calls the multi-touch function of the window operating system, and then receives the output of the mouse. The second signal is converted into a second absolute coordinate signal, and the position of the first absolute coordinate signal and the second absolute coordinate signal is transmitted to the multi-touch function to perform a corresponding gesture operation; and step S340: if the monitoring program does not When the first signal of the mouse is detected, the mouse will sequentially output the moving relative coordinate signal to the personal computer to perform the cursor function of the general mouse. When the Windows operating system 230 is launched, the Windows operating system 230 is immediately loaded into the monitoring program 240 and runs the monitoring program 240. The monitor program 240 monitors whether the function key 221 of the mouse 220 is pressed at any time. When the function key 221 is pressed, the monitoring program 240 on the personal computer 210 sends a corresponding signal to the window operating system 230. The multi-touch function of the window operating system 230 is called by the monitoring program 240 (corresponding to steps S310 to S340). The built-in multi-touch function is implemented in Windows 7, but in other Windows operating systems 230, the newly installed multi-touch function can also be called through the operating system. The first absolute coordinate signal is the function of pressing the function key 221 of the mouse 220 (the first signal is sent). The monitoring program uses the coordinate of the current cursor as the absolute coordinate and outputs the signal to the window operating system. The second absolute coordinate is that after the mouse 220 function key 221 is pressed, the monitoring program will replace any motion made by the mouse 220 with the second signal of the 201133324 into an absolute coordinate and output it to the window for the signal. Next, in step S33G, the multi-gate control function performs a corresponding gesture operation according to the signal output by the mouse 22() (corresponding to steps (10) to S33). The following is a description of various gesture operations. The present embodiment is a description of the movement of the target object 25〇 by the mouse 220. If the mouse 22G outputs a second signal that moves linearly, the financial control function performs the gesture operation on the target object 25〇 according to the mouse 220 touch execution, which includes the following steps, and please cooperate with the "4th 8th" As shown in the following: Step S411. The current position when the first-order fine mouse sends the first signal is regarded as the first absolute coordinate position; Step S412: the current position of the linear movement when the monitoring program is squirming (four) and two signals is regarded as the first The second absolute coordinate position; and step S413: the monitoring sequence transmits the _ coordinate position and the second absolute coordinate position to the multi-touch function of the visual system, and then the multi-touch function is further based on the first absolute coordinate position. And a displacement vector between the second absolute coordinate position for moving the target object from the current position. In this embodiment, the operating system of the household is described by Microsoft's Wind〇ws 7. Please also refer to the "5A" to "5C" diagrams, which are schematic diagrams of the movement process of the target object moving from the first absolute coordinate position to the second absolute coordinate position. 201133324 In "5A", the image in the screen is used as the target object. When the mouse 220 cursor is located on the target object (10) and the function key 221 on the user's healthy mouse 220 (which is set to the left side of the "5th eight-th drawing" mouse, the first signal is sent immediately), the monitoring program The multi-touch function is started immediately, and the monitoring program records the absolute coordinates of the cursor of the mouse 22〇 in the job secret 230 as the first-absolute coordinate position according to the first signal output by the mouse 220. Next, the mouse 220 is moved to another position (i.e., the second signal) that is different from the first absolute coordinate position, and the monitor program_records the position as the second absolute coordinate position. The monitoring program 24G (4) - the absolute coordinate position and the second absolute seat 0 - the linear displacement track is transmitted to the multi-touch function. The multi-gate control function moves the object 250 to the corresponding position (such as the distance moved by "Fig. 5b" according to the first-absolute coordinate position and the second absolute coordinate position_师 vector. The direction and distance that the 'mouse 22' moves after switching to the multi-touch function will scream the direction and distance of movement of the target object 25G. Finally, after the 220 is completed, release the Wei key 221 to complete the target object processing (as shown in Figure 5C). In addition to the movement of the target object 25〇, the present invention can also be applied to the movement of the target object 25() according to the movement of the slide 220, and the signal is non-linear (rotation). Execution's multi-touch function according to the displacement track of the squirrel 220 _ standard object 25 〇 perform the gesture operation step, please refer to the second "Figure 4B": 201133324, step S421: the monitoring program is issued by the mouse The current position at the time of the first signal is regarded as the first absolute coordinate position; Step S422: The monitoring program is regarded as the second absolute coordinate position by the current position of the displacement trajectory rotated when the second signal is emitted by the mouse; and step S423: The monitoring program transmits the first absolute coordinate position and the second absolute coordinate position to the multi-touch function of the window operating system, and then the multi-point touch function is further rotated according to the first absolute coordinate position and the second absolute coordinate position. A displacement vector used to rotate the target object. To further explain the rotation process of the target object 250, please also refer to "6A" to "6C". When the mouse 220 cursor is located on the target object 250 and the user presses the function key 221 on the mouse 22 ( (the system is set on the left side of the "21a figure" mouse 22G) "the training order 24 〇 receives the mouse 22 () After the first call is output, the multi-touch function is activated. The monitoring program 24 records the first position of the first signal according to the current position of the first signal output by the mouse MO. Then, the mouse 22〇 is rotated and moved to another position (that is, the second signal is sent), the monitoring program 240 records the position as the second absolute coordinate position, and the monitoring program 24 then sets the first absolute coordinate position: The rotational displacement trajectory between the first absolute seat_position is transmitted to the multi-touch function. At the same time, the target object 25〇 is centered on the first-absolute coordinate, and the wheel and the riding degree according to the mouse 22〇 are moved. The target object 25G is caused to rotate. In other words, the moving process towel is also associated with the target object (4) to produce a rotating view (as shown in Figure 6B and Figure 6C). Another feature of the multi-touch function is to reduce/place the target object 250.

Therefore, another embodiment of the present invention can perform multi-point_function_release by the mouse 22 continuing the target object MO. If the tracking control signal of the 22 () is a second signal, the multi-touch function performs a gesture operation on the target object according to the displacement trajectory of the mouse 220, which includes the following steps, and Please refer to "4C": Step S431: The current position of the monitoring program with the first signal from the mouse is regarded as the first absolute coordinate position; Step S432 · The monitoring program outputs the second signal with the mouse The scrolling amount of the page control module is converted into the second absolute coordinate position; and step S433: the gambling material passes the first-coordinate coordinate position and the second coordinate position to the multi-touch function of the operating system, and then multi-touch The function then scales the target object according to the scrolling amount of the page curl control module of the first absolute coordinate position and the second absolute coordinate position. In this embodiment, the user can perform the gesture operation of the zoom function through the mouse 22〇. The processing of scaling the object 250 is different from the processing of the above-described movement/rotation. Please refer to "7A" to "7D" below. If the target object 250 is zoomed, the user first moves the mouse 22 〇 cursor to the target object 250 and presses the function key 221 (meaning that the first signal is issued). When the multi-touch function 12 201133324 v % is activated, the control program 24G records the first-to-absolute coordinate position according to the first signal of the first signal output by the mouse 220. Then, scrolling the mouse's volume control module (meaning: issuing a second signal) 'monitoring program converts the current volume of the volume control module to the second absolute coordinate position, and the monitoring program 24 will be the first - The amount of change between the absolute coordinate position and the second absolute coordinate position is transmitted to the multi-touch UI, and the multi-touch function performs the scaling processing of the target object 250. • In the prior art, the process of scaling the target object 25 by using the touch display panel is to select two points of the target object 25 by two (or more) fingers, and = two fingers to target the object 25G to zoom. However, the present invention is capable of multi-clicking and zooming with the single/month mouse 220. Therefore, after the multi-control control is started, the monitor program 240 will extract the window size of the target object and the frame on the screen. The position 'and the 10 touch signals of the finger pressing are simulated on the boundary of the target object 250 (the boundary of the target object 250 is a corner or an edge) according to the window size of the target object 250 (please refer to the dotted finger in "No. 7A") . When the cash is scrolled forward by the page control module, the shot control function enlarges the target object 250. Conversely, when the user scrolls the roll page control module backwards, the multi-touch function reduces the target object 250. It can be seen from the above that the mouse 22G of the present invention shakes the pre-mosquito pressing mouse 22 〇 button and simultaneously scrolls the signal sent by the scroll wheel, by simply pressing the mouse 22 〇 button or scrolling 'moon mouse 220 ' to transmit the simulation " Multi-touch" signal (signal group), so the user can immediately achieve the above multi-touch by a single-handed mouse π (four) 13 13 201133324 Function 'Simplify the zoom of the target object 250 of the window operating system 230 Or move. While the present invention has been described above in terms of the preferred embodiments thereof, it is not intended to limit the invention, and the invention may be modified and modified without departing from the spirit and scope of the invention. The patent protection scope of the invention is subject to the definition of the scope of the patent application attached to the specification. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of a multi-touch of the prior art. Figure 2A is a schematic diagram of the architecture of the present invention. Figure 2B is a schematic diagram of another architecture of the present invention. Figure 3 is a schematic diagram of the operational flow of the present invention. 4A is a schematic flow chart of the first embodiment of the present invention. Figure 4B is a schematic flow chart of the second embodiment of the present invention. Figure 4C is a schematic flow chart of the third embodiment of the present invention. Figure 5A is a schematic view showing the movement process of the target object of the present invention at the first absolute coordinate and moving to the first absolute coordinate. The first is a schematic diagram of the movement process in which the target object of the present invention is located at the _th absolute coordinate and moved to the second absolute coordinate. The redundant process is the schematic diagram of the moving process of the second absolute coordinate. Figure 6A is a schematic view of the object of the present invention before it is rotated. The figure is a schematic diagram of the object in the rotation of the object of the present invention. 201133324 Figure 6C is a schematic diagram of the object of the present invention after rotation. Fig. 7A is a schematic view showing the object before the enlargement of the object of the present invention. Fig. 7B is a schematic view showing the enlarged object of the present invention. Figure 7C is a schematic view of the object of the present invention before it is reduced. The 7D figure is a schematic view of the object of the present invention after being reduced. [Main component symbol description] 100 Touch-type glory 110 Target object 210 Personal computer 220 Mouse 221 Function key 230 Window operating system 240 Monitor program 250 Target object 15

Claims (1)

201133324 VII. Patent application scope: 1. A method for performing multi-touch operation is to perform a multi-touch action on a multi-touch function b through a mouse, the method comprising the following steps : after starting the window operating system in the computer, loading a monitoring program; detecting whether the mouse sends a first signal by the monitoring program; when the mouse sends the first signal, the monitoring program calls the window operating system a multi-touch function; and if the mouse cursor is located on a target object, the multi-touch function receives a second signal from the mouse through the monitoring program, and then The first signal and the second signal are converted into absolute coordinate signals, and the multi-touch function performs a corresponding gesture operation. 2. The method of performing multi-touch according to claim 1, wherein the monitoring program does not have the debt to detect that the mouse sends the first signal, the mouse outputs the relative coordinate signal to the computer in sequence. , execute the cursor function. 3. The method of performing multi-touch as described in the claim, wherein the method further comprises the following steps: the monitoring program regards the current position of the first signal sent by the mouse as a first absolute a coordinate position; the current position of the monitoring program when the second signal sent by the mouse is regarded as a second absolute coordinate position; the first absolute coordinate position and the second absolute coordinate 16 201133324 are transmitted by the monitoring program The multi-touch function of the window operating system; and the moment of the touch point Wei to turn the position of the first-liner position and the position of the coordinate position to perform the corresponding gesture operation. 4. The method of performing multi-touch according to claim 3, wherein the fresh touch function can also perform a corresponding gesture operation according to the change amount of the first-absolute coordinate position and the second absolute coordinate position. 5. The method of performing multi-touch according to claim 1, 2 or 3, wherein the first signal is a f-signal of the multi-gate control function sent by the mouse. 6. The method of performing multi-touch according to claim 1 or 3, wherein the second signal is after the mouse sends the first signal, and then presses a button or moves the signal that is output by the slider. X 7· - A multi-touch system for performing multi-touch operations on a computer with multi-touch function through a mouse, the system includes: a mouse having a function button and a roll page control module, the mouse is used to transmit a first signal and a second signal to the computer; and a monitoring program executed in the window operation system of the computer, when the cursor of the mouse When the mouse is pressed on the function key, the monitoring program calls a multi-touch function of the window operating system, and the multi-touch function performs corresponding according to the signal transmitted by the mouse. The gesture operation. 8. The system for performing multi-touch as described in claim 7, wherein the first signal is the multi-touch function demand signal sent by the mouse. 17 201133324 9. The system for performing multi-touch according to claim 7, wherein the second signal is after the mouse is pressed by the function key, and then the button is pressed or the signal sent by the mouse is moved. . , ίο. - A system for performing multiple control, which is to perform a multi-touch action on a computer with multi-touch function through a mouse. The system includes: a mouse with a function key And a roll control module for transmitting a first signal and a second signal to the computer; and a monitoring program executed in the mouse when the cursor of the mouse is on a target object and When the mouse is pressed by the function key, the monitoring program in the mouse immediately calls a multi-touch function in the computer, and the multi-touch function performs a corresponding gesture according to the signal transmitted by the mouse. operating.