CN107783669B

CN107783669B - Cursor generation system, method and computer program product

Info

Publication number: CN107783669B
Application number: CN201610704407.1A
Authority: CN
Inventors: 姚顺益; 王逸宏
Original assignee: Chicony Electronics Co Ltd
Current assignee: Chicony Electronics Co Ltd
Priority date: 2016-08-23
Filing date: 2016-08-23
Publication date: 2021-04-16
Anticipated expiration: 2036-08-23
Also published as: CN107783669A

Abstract

A cursor generation system includes a digital pen and a computer device. The digital pen comprises identification data, a first wireless communication module and a displacement sensor, wherein the first wireless communication module is used for sending a pairing request signal, the identification data and displacement information. The computer device comprises a cursor application program, a processor, a second wireless communication module and a display screen, and the second wireless communication module and the first wireless communication module can receive identification data and displacement information after being successfully paired. The processor executes a cursor application program corresponding to the identification data to register a user-defined Usage Page (Vendor) associated with the digital pen, generates a cursor icon according to the Vendor, displays the cursor icon on the display screen, and reads the displacement information and correspondingly controls the moving display of the cursor icon on the display screen according to the Vendor.

Description

Cursor generation system, method and computer program product

[ technical field ] A method for producing a semiconductor device

The present invention relates to a pointing system, and more particularly, to a cursor generation system, method and computer program product.

[ background of the invention ]

In conference situations, it is quite common to use a computer for presentation, and at present it is common to connect the computer to a projector for projecting clip data onto a screen or wall, or to connect the computer to another display screen (such as a large television screen) for directly presenting presentation data on the display screen.

In the course of a lecture, a lecturer usually uses a laser pen to emit laser to a cloth screen or a display screen to prompt the participants about the content of a brief report corresponding to the lecture at present for guidance and related explanation. However, in the process of using the laser pen to emit laser light by a speaker, the laser light is prone to misemit to eyes of the participant, and the laser light spot displayed on the cloth screen or the display screen is reflected to hurt eyes.

[ summary of the invention ]

In view of the foregoing, in one embodiment, a cursor generation system is provided, which includes a digital pen and a computer device. The digital pen comprises identification data, a first wireless communication module and a displacement sensor, wherein the first wireless communication module is electrically connected with the displacement sensor, the displacement sensor senses the movement of the digital pen to obtain displacement information, and the first wireless communication module is used for sending a pairing request signal, the identification data and the displacement information. The computer device comprises a cursor application program, a processor, a second wireless communication module and a display screen, wherein the cursor application program is related to the identification data of the digital pen, the processor is electrically connected with the second wireless communication module and the display screen respectively, and the second wireless communication module can receive the identification data and the displacement information in a wireless mode after receiving the pairing request signal and successfully pairing with the first wireless communication module. The processor executes a cursor application program corresponding to the identification data to register a user-defined Usage Page (Vedor-defined Usage Page) associated with the digital pen, and the cursor application program can also execute the cursor application program to generate a cursor icon according to the user-defined Usage Page and display the cursor icon on the display screen, and read the displacement information and correspondingly control the moving display of the cursor icon on the display screen according to the user-defined Usage Page and the displacement information.

In one embodiment, a cursor generating method is further provided, which includes the following steps: sending a pairing request signal to a computer device by a first wireless communication module of the digital pen, receiving the pairing request signal by a second wireless communication module of the computer device, and successfully pairing the pairing request signal with the first wireless communication module, wherein the digital pen comprises identification data; the computer device executing a cursor application corresponding to the identification data to register a custom-defined Usage Page (Vendor-defined Usage Page) associated with the digital pen; the computer device executes the cursor application program to correspondingly generate a cursor icon according to the user-defined usage page and displays the cursor icon on the display screen; the second wireless communication module receives the displacement information from the digital pen, and the computer device executes the cursor application program to read the displacement information and correspondingly controls the moving display of the cursor icon on the display screen according to the user-defined usage page and the displacement information.

In another embodiment, there is also provided a computer program product installed in a computer device, for performing the following steps by loading of the computer device: registering a user-defined Usage Page (Vendor) associated with a digital pen, wherein the digital pen is an external device distinct from the computer device; generating a cursor icon according to the user-defined usage page and displaying the cursor icon on a display screen of the computer device; and reading the displacement information from the digital pen, and correspondingly controlling the moving display of the cursor icon on the display screen according to the user-defined usage page and the displacement information.

Therefore, after the digital pen is matched with the computer device, the processor can execute the cursor application program to register the user-defined usage page related to the digital pen, so that the cursor application program can generate the cursor icon according to the user-defined usage page and display the cursor icon on the display screen, and the cursor icon is controlled to move on the display screen according to the user-defined usage page and the displacement information of the digital pen, therefore, in the process of briefing, the digital pen does not need to emit laser so as to avoid human eye injury, the brightness of the cursor icon cannot be absorbed by the screen or weakened due to the working distance of the digital pen, and the indicating effect and the definition are greatly improved.

[ description of the drawings ]

FIG. 1 is a system block diagram of a cursor generation system in accordance with an embodiment of the present invention;

FIG. 2 is a flow chart of steps of a cursor generation method according to an embodiment of the invention;

FIG. 3 is a diagram illustrating a system operation of a cursor generation system according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating a system operation of a cursor generation system according to an embodiment of the present invention;

FIG. 5 is a system block diagram of a cursor generation system in accordance with an embodiment of the present invention;

FIG. 6 is a flow chart of steps of a cursor generation method according to an embodiment of the present invention;

FIG. 7 is a diagram illustrating the operation of a cursor generation system according to an embodiment of the present invention;

FIG. 8 is a diagram illustrating the operation of a cursor generation system according to an embodiment of the present invention;

FIG. 9 is a diagram illustrating cursor application settings according to an embodiment of the present invention;

FIG. 10 is a flowchart of the steps of a cursor generation method according to an embodiment of the present invention;

FIG. 11 is a flowchart of the steps of a cursor generation method according to an embodiment of the present invention; and

FIG. 12 is a flowchart of the steps of a cursor generation method according to an embodiment of the present invention.

Description of reference numerals:

1 Cursor generation system

10 digital pen

11 first wireless communication module

12 displacement sensor

13 enable switch

14 touch control pen point

20 computer device

21 Cursor application

22 processor

23 second wireless communication module

24 display screen

25. 26 setting screen

30 extended screen

31 standard control device

C. C1 Cursor Diagram

M mouse diagrams

S1-S13.

[ detailed description ] embodiments

Fig. 1 is a system block diagram of a cursor generation system according to a first embodiment of the present invention. In the present embodiment, the cursor generating system 1 includes a digital pen 10 and a computer device 20. The computer device 20 may be an electronic device such as a smart phone, a tablet computer, or a notebook computer.

As shown in fig. 1, a first wireless communication module 11 and a displacement sensor 12 are disposed inside the digital pen 10, and identification data (for example, the identification data is stored in a memory inside the digital pen 10) is disposed inside the digital pen 10, where the identification data may be an identification code or a configuration descriptor (e.g., 0X00) for the computer device 20 to identify the digital pen 10, the first wireless communication module 11 may specifically be a WiFi module, an 802.11 module, a bluetooth module or a ZigBee module to receive or transmit a digital signal, the displacement sensor 12 may include a gyroscope (gyroscope) or a gravity sensor (or an accelerometer) to sense the movement of the digital pen 10 in a three-dimensional space to obtain displacement information, for example, the displacement information may be a continuous coordinate position (X, Y) or a displacement variation (Δ X, Δ Y) when the digital pen 10 moves, the first wireless communication module 11 is directly or indirectly electrically connected to the displacement sensor 12, and is used to send the pairing request signal and the identification data and displacement information to the computer device 20. As shown in FIG. 3, in one embodiment, the digital pen 10 can be a touch pen having a touch pen tip 14, so that the digital pen 10 can simultaneously write and select files on the screen of the computer device 20.

As shown in fig. 1, the computer device 20 includes a cursor application 21, a processor 22, a second wireless communication module 23 and a display screen 24, wherein the cursor application 21 may be an application downloaded from a network platform (e.g., App Store of apple inc.) or installed and stored in a memory inside the computer device 20 via a computer readable storage medium (e.g., a compact disc, a USB or a memory card), and the cursor application 21 is identification data associated with the digital pen 10 (as will be described in detail later). The processor 22 is electrically connected to the second wireless communication module 23 and the display screen 24, respectively. The second wireless communication module 23 may be a WiFi module, an 802.11 module, a bluetooth module or a ZigBee module to receive or transmit digital signals. When the second wireless communication module 23 receives the pairing request signal and successfully pairs with the first wireless communication module 11, the second wireless communication module 23 may establish a connection with the first wireless communication module 11 to wirelessly receive the identification data and the displacement information of the digital pen 10.

Accordingly, the processor 22 may execute the cursor application 21 corresponding to the identification data to register a custom-defined Usage Page (Ventor-defined Usage Page) associated with the digital pen 10, and the processor 22 may further execute the cursor application 21 to generate the cursor icon C to be displayed on the display screen 24 according to the custom Usage Page (as shown in FIG. 3), and read the displacement information and correspondingly control the moving display of the cursor icon C on the display screen 24 according to the custom Usage Page (as shown in FIG. 4).

To more clearly illustrate the above embodiments, please refer to fig. 1 and fig. 2, wherein fig. 2 is a flowchart illustrating steps of a first embodiment of a cursor generating method according to the present invention. The hardware structure mentioned below can be disclosed in comparison with the cursor generating system 1. In one embodiment, when a user uses the computer device 20 to perform brief news in a meeting situation, taking fig. 3 as an example, the computer device 20 is a tablet computer, and in a general meeting situation, the computer device 20 is connected to an extended screen 30 (such as a large tv screen or a projection screen) to facilitate the meeting participants to watch the brief news. The presenter can first operate the digital pen 10 (e.g. press the switch of the digital pen 10) to pair with the computer device 20, in step S1: after the digital pen 10 is controlled by the user, the first wireless communication module 11 sends a pairing request signal to the computer device 20, and the second wireless communication module 23 of the computer device 20 can receive the pairing request signal and successfully pair with the first wireless communication module 11, at this time, the first wireless communication module 11 and the second wireless communication module 23 can establish a connection to be able to transmit signals or data with each other.

Subsequently, in step S2: the computer device 20 first identifies the pen 10 and identifies whether the pen 10 is a vendor-defined device. In detail, after the first wireless communication module 11 and the second wireless communication module 23 are connected, the first wireless communication module 11 can send the identification data (such as the identification code or the configuration descriptor) of the digital pen 10 to the computer device 20, and the computer device 20 can compare the built-in data and the identification data to identify whether the digital pen 10 is a manufacturer-defined device. For example, please refer to the following table one:

generally, the computer device 20 is provided with a standard Usage Page (Generic Desktop Usage Page) as shown in table one, so that when a standard mouse or a standard keyboard is connected to the computer device 20, corresponding functions can be generated according to the standard Usage Page, for example, when the standard mouse is connected to the computer device 20, a mouse icon can be generated and the mouse icon can be controlled to operate, and when the standard keyboard is connected to the computer device 20, a user can perform typing operation. The computer device 20 can identify whether the digital pen 10 is a manufacturer-defined device according to the identification data of the digital pen 10 and the built-in data of the computer device 20 (for example, the digital pen 10 can be identified as the manufacturer-defined device if the identification data cannot be searched in the built-in data of the computer device 20), whereas the digital pen 10 of the embodiment is a manufacturer-defined device and is not a standard device (such as a standard mouse or a standard keyboard) corresponding to a standard usage page, so the computer device 20 can identify the digital pen 10 as the manufacturer-defined device according to the identification data of the digital pen 10.

Then, the flow proceeds to step S3: the computer device 20 executes the cursor application 21 corresponding to the identification data to register a custom-defined Usage Page (Vendor-defined Usage Page) associated with the digital pen 10. That is, the computer device 20 recognizes the digital pen 10 as a vendor-defined device rather than a standard device according to the identification data, and therefore, the cursor application 21 corresponding to the digital pen 10 needs to be executed additionally to register a custom application page associated with the digital pen 10 (i.e. the cursor application 21 corresponds to the identification data of the digital pen 10), wherein the cursor application 21 can be started by a user, automatically started when the computer device 20 is powered on, or started when the computer device 20 recognizes the digital pen 10 as a custom device, which is not limited in this embodiment, and in some embodiments, the computer device 20 can also assist in recognizing whether the digital pen 10 is a vendor-defined device according to the custom application page. The user-defined usage page can be referred to the following table two:

generally, the custom usage page will reserve a space (e.g., Vendor-Defined block FF 00-FFFF) for the Vendor to define and declare itself, so as to avoid malfunction of future devices that are mistakenly recognized by the operating system of the computer device 20 or other Vendor software. After the computer device 20 executes the cursor application 21 to register the custom usage page associated with the digital pen 10, the digital pen 10 is operable to generate a corresponding function.

Then, the process proceeds to step S4 and step S5: after the computer device 20 executes the cursor application 21 to register the user-defined usage page associated with the digital pen 10, the computer device 20 can receive the coordinate position (X, Y) or the displacement variation (Δ X, Δ Y) transmitted by the digital pen 10, so that the cursor application 21 can generate a cursor icon C according to the user-defined usage page and the coordinate position (X, Y) to be displayed on the display screen 24 (as shown in fig. 3, the cursor icon C can be a simulated laser spot, but can also be another pattern), and can control the movement of the cursor icon C according to the displacement variation (Δ X, Δ Y) generated by the movement of the user-defined usage page and the digital pen 10 (please refer to fig. 3 and 4). For example, the computer device 20 can compare the coordinate position (X, Y) and the displacement variation (Δ X, Δ Y) of the digital pen 10 to obtain the moving direction and the moving speed of the digital pen 10, and can control the cursor graph C to move on the display screen 24 corresponding to the moving direction and the moving speed. In one embodiment, the cursor application 21 may also directly generate the cursor icon C from the custom usage page and display it at a default position on the display screen 24 (e.g., the midpoint of the display screen 24) without the coordinate position (X, Y) transmitted by the digital pen 10. In addition, as shown in fig. 3 and 4, since the computer device 20 is connected to the extended screen 30 (such as a large-sized tv screen or a projection screen), the extended screen 30 can be set to display the same content synchronously with the display screen 24 of the computer device 20, so that the cursor icon C1 is also displayed on the extended screen 30, and when the cursor icon C moves on the display screen 24, the cursor icon C1 also moves on the extended screen 30 correspondingly, so as to perform a brief report operation during a meeting.

To sum up, the embodiment of the present invention uses the signal interaction between the digital pen 10 and the computer device 20, and the computer device 20 executes the cursor application 21 to display the cursor icon C on the display screen 24 and control the movement of the cursor icon C on the display screen 24, so that the digital pen 10 can achieve the indicating function without emitting laser to avoid hurting human eyes, and the brightness of the cursor icon C is not absorbed by the screen or weakened due to the working distance of the digital pen 10, thereby greatly improving the indicating effect and the definition.

As shown in fig. 3 to 5, in an embodiment, the digital pen 10 may further include an enabling switch 13 (e.g., a button or a key), and when the user presses the enabling switch 13, the first wireless communication module 11 outputs the displacement information of the digital pen 10, so that the computer device 20 can execute the cursor application 21 to generate the cursor icon C to be displayed on the display screen 24 and control the cursor icon C to move on the display screen 24. In other words, referring to fig. 6, which is a flowchart illustrating the steps of the cursor generating method according to the second embodiment of the present invention, the cursor application 21 first determines whether the activation switch 13 is activated (as in step S6), and when the user presses the activation switch 13, the second wireless communication module 23 of the computer device 20 can receive the displacement information of the digital pen 10 outputted by the first wireless communication module 11 to display the cursor icon C and control the movement of the cursor icon C on the display screen 24 (as in steps S4 and S5). On the contrary, if the user does not activate the enabling switch 13, the cursor icon C is hidden and disappears and is not continuously displayed on the display screen 24, so as to avoid blocking the content of the brief report. In some embodiments, the first wireless communication module 11 may also continuously output the displacement information of the digital pen 10, and when the user presses the start enabling switch 13, the cursor application 21 generates the cursor icon C to be displayed on the display screen 24.

As shown in fig. 7, in one embodiment, since the digital pen 10 of the present invention is a vendor-defined device, and thus may operate concurrently with a standard control device 31, such as a Mouse (Mouse) or an Air Mouse (Air Mouse), as shown in this figure, the computer device 20 may execute a cursor application 21 corresponding to the digital pen 10, to generate a cursor icon C (here the cursor icon C is a simulated laser spot) according to the custom usage page to be displayed on the display screen 24, and can control the cursor icon C to move according to the displacement information generated by the custom page and the movement of the digital pen 10 (as shown in figure 4), the computer device 20 may also generate a Mouse icon M according to a standard usage page in response to an input from a standard control device 31 (such as a Mouse (Mouse) or an Air Mouse (Air Mouse)), and display the Mouse icon M and the cursor icon C on the display screen 24 at the same time.

Alternatively, as shown in fig. 8, in an embodiment, the computer device 20 may generate the mouse icon M to be displayed on the display screen 24 according to the standard usage page instead corresponding to the switching signal sent by the first wireless communication module 11, and the computer device 20 reads the displacement information of the digital pen 10 and correspondingly controls the movement display of the mouse icon M on the display screen 24 according to the standard usage page. For example, the user may cause the first wireless communication module 11 to send a switching signal by pressing a switch of the digital pen 10, wherein the switching signal may include identification data corresponding to a standard usage page, so that the computer device 20 recognizes the digital pen 10 as a standard device according to the identification data, and generates a standard mouse icon M according to the standard usage page to be displayed on the display screen 24. The computer device 20 may respond to the reply signal sent by the first wireless communication module 11 (e.g., pressing another switch of the digital pen 10 to send the reply signal), and then execute the cursor application 21 to generate the cursor icon C to be displayed on the display screen 24 according to the user-defined usage page, and read the displacement information and correspondingly control the movement display of the cursor icon C on the display screen 24 according to the user-defined usage page (as shown in fig. 3 and 4). So that the digital pen 10 can selectively generate the mouse icon M or the cursor icon C according to the use requirement.

In one embodiment, the computer device 20 can execute the cursor application 21 to set the movable range of the cursor icon C on the display screen 24. For example, the movable range may be the edge of the display screen 24 (as shown in fig. 4) to avoid the cursor diagram C from exceeding the edge of the display screen 24 during the movement process to cause operational trouble. In some embodiments, the movable range may be smaller than the edge of the display screen 24 according to a user setting, and the embodiment is not limited thereto.

In addition, the cursor application 21 may control the movement of the cursor icon C on the display screen 24 in several embodiments as follows:

in one embodiment, the cursor application 21 can calculate the displacement speed (Δ VX, Δ VY) of the digital pen 10 according to the displacement information, and directly control the moving speed of the cursor icon C on the display screen 24 according to the displacement speed of the digital pen 10, so that the displacement amounts of the digital pen 10 and the cursor icon C are the same. For example, if the displacement speed of the digital pen 10 is V, the cursor application 21 controls the movement speed of the cursor icon C on the display screen 24 to be V.

As shown in fig. 10, in an embodiment, the cursor application 21 may calculate the displacement speed (Δ VX, Δ VY) of the digital pen 10 according to the displacement information, and the cursor application 21 has a plurality of different cursor movement speeds respectively set corresponding to the different displacement speeds (as shown in step S7), and the cursor application 21 controls the moving display of the cursor icon C on the display screen 24 according to the cursor movement speed corresponding to the displacement speed (as shown in step S8). For example, assuming that the displacement speed of the digital pen 10 is V, the cursor moving speed corresponding to the displacement speed may be 1.2V. If the displacement speed of the digital pen 10 is 1.2V, the cursor movement speed corresponding to the displacement speed may be 1.5V, so that the digital pen 10 and the cursor icon C generate different displacement amounts. Referring to fig. 9, the cursor application 21 can display a setting frame 25 on the display screen 24 according to the user operation, so that the user can set the cursor moving speed corresponding to the displacement speed of the digital pen 10 to meet the user requirement.

As shown in fig. 11, in an embodiment, the computer device 20 may execute the cursor application 21 to detect the screen resolution of the computer device 20, and a plurality of different cursor moving speeds are respectively set for the cursor application 21 corresponding to the different screen resolutions (as in step S9), and the cursor application 21 controls the moving display of the cursor icon C on the display screen according to the cursor moving speed corresponding to the screen resolution (as in step S10). For example, assuming that the displacement speed of the digital pen 10 is V, when the cursor application 21 detects that the screen resolution of the computer device 20 or the extended screen 30 is 1280 pixels (pixels), the corresponding cursor movement speed may be V. When the cursor application 21 detects that the screen resolution of the computer device 20 or the extended screen 30 is 1366 pixels, the corresponding cursor moving speed may be 1.05V. When the cursor application program 21 detects that the screen resolution of the computer device 20 or the extended screen 30 is 1600pixels, the corresponding cursor moving speed may be 1.1V (see the setting frame 26 in fig. 9), so as to achieve the goal of selecting an appropriate cursor moving speed according to the screen resolution of different computer devices 20, as shown in fig. 9, the cursor application program 21 may display the setting frame 26 on the display screen 24 according to the user operation, so that the user can set the cursor moving speed corresponding to the displacement speed of the digital pen 10 by himself to meet the user requirement. Referring to fig. 4, the cursor application program 21 can detect the screen resolutions of the computer device 20 and the extended screen 30 respectively to control the cursor movement speeds of the cursor icons on the computer device 20 and the extended screen 30 respectively, for example, the cursor application program 21 detects that the screen resolution of the computer device 20 is 1280 pixels, the screen resolution of the extended screen 30 is 1600pixels, and can control the cursor movement speed of the cursor icon C to be V and the cursor movement speed of the cursor icon C1 to be 1.1V, so that the cursor icon C, C1 has different displacement amounts according to different screen resolutions.

As shown in fig. 12, in an embodiment, the cursor application 21 calculates a displacement speed of the digital pen 10 according to the displacement information of the digital pen 10 and correspondingly generates a first cursor moving speed (as shown in step S11), for example, the displacement speed is V, and the corresponding first cursor moving speed is 1.1V. The cursor application 21 detects the screen resolution of the computer device 20 and generates a second cursor movement speed (step S12), for example, the screen resolution of the computer device 20 is 1366 pixels, the second cursor movement speed is 1.05V, the cursor application 21 generates a new cursor displacement (Δ X, Δ Y) according to the first cursor movement speed and the second cursor movement speed to control the movement and display of the cursor icon C on the display screen 24 (step S13), for example, the cursor application 21 generates a new cursor displacement (Δ X, Δ Y) according to the addition and multiplication of the first cursor movement speed and the second cursor movement speed. In some embodiments, the cursor application 21 may also calculate a new cursor displacement amount (Δ X, Δ Y) according to the first cursor movement speed or the second cursor movement speed, respectively, to control the moving display of the cursor icon C on the display screen 24.

An embodiment of the present invention further provides a computer program product, which can be a computer program stored in a computer readable storage medium (such as an optical disc, a USB or a memory card) for executing the steps (steps S2-S13) of the above embodiments by being loaded by the computer device 20.

In one embodiment, the computer program product may also be an application downloaded from a network platform (e.g., the application Store of apple, inc.) and installed on computer device 20. To be loaded through the computer device 20 to execute the steps of the above embodiments (steps S2-S13).

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made without departing from the spirit of the invention.

Claims

1. A cursor generation system, comprising:

the digital pen comprises identification data, a first wireless communication module and a displacement sensor, wherein the first wireless communication module is electrically connected to the displacement sensor, the displacement sensor senses the movement of the digital pen to obtain displacement information, and the first wireless communication module is used for sending a pairing requirement signal, the identification data and the displacement information; and

the computer device comprises a cursor application program, a processor, a second wireless communication module and a display screen, wherein the cursor application program is related to the identification data of the digital pen, the processor is electrically connected to the second wireless communication module and the display screen respectively, and the second wireless communication module can receive the pairing request signal and can also receive the identification data and the displacement information wirelessly after being successfully paired with the first wireless communication module;

the processor executes a cursor application program corresponding to the identification data to register a custom usage page associated with the digital pen, and also executes the cursor application program to generate a cursor icon according to the custom usage page to be displayed on the display screen, and reads the displacement information and correspondingly controls the moving display of the cursor icon on the display screen according to the custom usage page and the displacement information;

the processor further executes the cursor application program to detect the screen resolution of an extended screen, the extended screen is connected to the computer device, the cursor application program sets a plurality of different cursor movement speeds for different screen resolutions respectively, and the cursor application program controls the cursor icon to move and display on the extended screen according to the cursor movement speed corresponding to the screen resolution.

2. The cursor generation system of claim 1 wherein the displacement information comprises a coordinate position or a displacement change.

3. A cursor generation system according to claim 1, wherein the digital pen is further provided with an enable switch, and when the enable switch is activated, the cursor application generates the cursor icon according to the custom usage page and displays the cursor icon on the display screen.

4. A cursor generation system according to claim 3, wherein the enabling switch is connected to the first wireless communication module, the first wireless communication module transmitting the displacement information when the enabling switch is actuated.

5. The cursor generation system of claim 1, wherein a standard usage page is provided in the computer device, and the processor further generates a mouse icon according to the standard usage page and displays the mouse icon on the display screen simultaneously with the cursor icon in response to an input from a standard control device.

6. The cursor generating system of claim 1, wherein a standard usage page is provided in the computer device, the processor selectively generates a mouse icon for displaying on the display screen according to the standard usage page in response to the switching signal sent by the first wireless communication module, and the processor reads the displacement information and controls the moving display of the mouse icon on the display screen in response to the standard usage page; or the processor selectively returns to execute the cursor application program corresponding to the reply signal sent by the first wireless communication module so as to generate the cursor icon to be displayed on the display screen according to the user-defined usage page, and reads the displacement information and correspondingly controls the moving display of the cursor icon on the display screen according to the user-defined usage page.

7. The system of claim 1, wherein the processor further executes the cursor application program to calculate a displacement speed of the digital pen according to the displacement information, and the cursor application program sets a plurality of different cursor movement speeds corresponding to the different displacement speeds, respectively, and the cursor application program controls the cursor icon to move and display on the display screen according to the cursor movement speed corresponding to the displacement speed.

8. The cursor generation system of claim 1, wherein execution of the cursor application by the processor further sets a movable range of the cursor icon on the display screen.

9. A cursor generation method, comprising the steps of:

sending a pairing request signal to a computer device through a first wireless communication module of a digital pen, wherein a second wireless communication module of the computer device receives the pairing request signal and successfully pairs with the first wireless communication module, and the digital pen comprises identification data;

the computer device executing a cursor application corresponding to the recognition data to register a custom usage page associated with the digital pen;

the computer device executes the cursor application program to correspondingly generate a cursor icon according to the user-defined usage page and displays the cursor icon on a display screen; and

the second wireless communication module receives displacement information from the digital pen, and the computer device executes the cursor application program to read the displacement information and correspondingly controls the cursor icon to move and display on the display screen according to the user-defined usage page and the displacement information;

wherein: the computer device further executes the cursor application program to detect the screen resolution of an extended screen, the extended screen is connected to the computer device, and a plurality of different cursor movement speeds are respectively set by the cursor application program corresponding to different screen resolutions;

and the computer device executes the cursor application program to control the cursor icon to move and display on the extended screen according to the cursor movement speed corresponding to the screen resolution.

10. A cursor generation method according to claim 9, wherein the first wireless communication module transmits the displacement information when an enable switch of the digital pen is activated.

11. The cursor generating method of claim 9, wherein the computer device generates a mouse icon according to a standard usage page corresponding to an input of a standard control device and displays the mouse icon on the display screen simultaneously with the cursor icon.

12. The cursor generating method of claim 9, wherein the computer device selectively generates a mouse icon according to a standard usage page instead of the switching signal sent by the first wireless communication module and displays the mouse icon on the display screen, and the computer device reads the displacement information and correspondingly controls the movement display of the mouse icon on the display screen according to the standard usage page; or the computer device selectively returns to execute the cursor application program corresponding to the reply signal sent by the first wireless communication module so as to generate the cursor icon to be displayed on the display screen according to the user-defined usage page, and reads the displacement information and correspondingly controls the cursor icon to be displayed on the display screen according to the user-defined usage page.

13. A cursor generating method as claimed in claim 9, wherein the computer device executes the cursor application program to calculate the displacement speed of the digital pen according to the displacement information, and the cursor application program has a plurality of different cursor moving speeds respectively set corresponding to different displacement speeds; and

and the computer device executes the cursor application program to control the moving display of the cursor icon on the display screen according to the cursor moving speed corresponding to the displacement speed.

14. A cursor generation method as claimed in claim 9, wherein the computer device executes the cursor application program to calculate a displacement velocity value of the digital pen according to the displacement information and correspondingly generates a first cursor movement velocity;

the computer device executes the cursor application program to detect the screen resolution of the computer device and correspondingly generates a second cursor moving speed; and

the computer device executes the cursor application program to generate cursor displacement according to the first cursor movement speed and the second cursor movement speed so as to control the movement display of the cursor icon on the display screen.

15. A cursor generation method as claimed in claim 9, wherein the computer device executes the cursor application program to set a movable range of the cursor icon on the display screen.

16. A computer program product, installed in a computer device, for performing the following steps via loading of the computer device:

registering a custom usage page associated with a digital pen, the digital pen being an external device distinct from the computer device;

generating a cursor icon according to the custom usage page and displaying the cursor icon on a display screen of the computer device;

reading displacement information from the digital pen, and correspondingly controlling the cursor icon to move and display on the display screen according to the user-defined usage page and the displacement information;

detecting screen resolution of an extended screen, wherein the extended screen is connected to the computer device, and the screen resolution corresponds to one of a plurality of default cursor movement speeds; and

and controlling the cursor icon to move and display on the extended screen according to the cursor movement speed corresponding to the screen resolution.

17. The computer program product of claim 16,

calculating the displacement speed of the digital pen according to the displacement information, wherein the displacement speed corresponds to one of a plurality of default cursor movement speeds; and

and controlling the cursor icon to move and display on the display screen according to the cursor movement speed corresponding to the displacement speed.

18. The computer program product of claim 16, wherein a displacement speed of the digital pen is calculated according to the displacement information and a first cursor moving speed is generated correspondingly;

detecting the screen resolution of the computer device and correspondingly generating a second cursor movement speed; and

and generating cursor displacement according to the first cursor movement speed and the second cursor movement speed to control the movement display of the cursor icon on the display screen.

19. The computer program product of claim 16, wherein a movable range of the cursor icon on the display screen is set.