CN115981975A - Method for adjusting data return rate - Google Patents

Abstract

The method mainly provides intelligent or dynamic adjustment of data return rate by a user by using a built-in preset value or a self-defined preset value according to the actual workload and hardware operation efficiency of a computer host or even further matching with the operation type of built-in software.

Description

Method for adjusting data return rate

Technical Field

The present disclosure relates to a method for adjusting a data rate of return, and more particularly, to a method for adjusting a data rate of return applied between a host and a peripheral device.

Background

In the information field, the data Rate (Report Rate) generally refers to the speed and frequency at which a Human Interface Device (HID) type peripheral Device, such as a mouse, a keyboard, or a voice-activated voice input Device, transmits data back to a Host computer (Host). For example, in the Windows operating system, the data return rate is assumed to be 250Hz, which means that the amount of data transmitted to the computer host per second is 250 pieces of data, that is, one piece of data is received every 4ms on average.

Furthermore, the input peripheral device which is most easy to operate is the mouse for professional computer game players (gamers) or computer creators (creators) at present. In order to improve the precision, smoothness and operation feeling of the existing mouse operation, the data return rate is often increased. For example, manufacturers often provide data return rates of up to 10000 data/second, so that the host receives an average of 100us of data, and thus interrupt notifications of up to 10000 times per second are generated.

In the face of such a large amount of high-speed data return rate, if the hardware performance of the computer host is not good or is in a high-load operation state, the workload of the computer host is often further increased, and there is a great chance that the requirement of such a high-speed data return rate cannot be met; on the other hand, such a large amount of data reporting rate with high speed is an extremely power consuming operation requirement for the peripheral device itself.

Therefore, how to provide a method for intelligently or dynamically adjusting the data return rate between the computer host and the peripheral device is the technical subject to be solved by the present application.

Disclosure of Invention

The main objective of the present invention is to provide a method for adjusting a data return rate between a host computer and a peripheral device according to actual workload and hardware performance of the host computer and the peripheral device.

Another objective of the present invention is to provide a method for adjusting the data return rate between a computer host and a peripheral device according to the actual workload and hardware operating performance of the computer host and the operating type of the built-in software.

The present invention relates to a method for adjusting data return rate, which is applied between a computer host and a peripheral device, and at least comprises the following steps: (a) Determining whether to start the content of a software running list as a basis for adjusting a report rate (report rate) of the peripheral device; (b) When the content of the software running list is judged to be started to serve as a basis for adjusting the data return rate of the peripheral device, whether a specified data return rate notification is correspondingly generated according to any software in the software running list is further judged to serve as a basis for adjusting the data return rate of the peripheral device; (c) Generating the specified data rate-of-return notification according to any software in the software running list, so as to execute a specified data rate-of-return adjustment procedure, and continuing to execute the step (a); (d) Determining whether to enable the content of the software running list in the step (a) or to enable the content of the software running list in the step (b) but determining that the specified data return rate notification is not generated, and automatically collecting at least one of peripheral device operation information, peripheral device input information, a hardware performance index and hardware real-time load information when the specified data return rate notification is used as a basis for adjusting the data return rate of the peripheral device; and (e) generating a dynamic data report rate notification in response to the actual use frequency of any software in the software running list by the user, and/or in response to at least one of the operating status information of the peripheral device and the input information of the peripheral device, the hardware performance index and the hardware real-time load information, so as to execute a dynamic data report rate adjustment procedure, and continuing to execute the step (a).

Preferably, in the step (a), the contents of the software operation list include at least one software installed in the computer host and capable of being operated and used by the peripheral device.

Preferably, in the step (b), the notification of the assigned data return rate includes at least one fixed data return rate corresponding to the at least one piece of software, which is preset in the software running list in response to the function attribute of the at least one piece of software.

Preferably, in the step (c), the designated data rate of return adjustment procedure means that the host computer sends the designated data rate of return notification to the peripheral device for the peripheral device to respond to and automatically adjust the data rate of return, or the host computer sends the designated data rate of return notification to the user for the user to respond to and manually adjust the data rate of return of the peripheral device.

Preferably, in the step (e), the dynamic data rate-of-return adjustment procedure means that the computer host transmits the dynamic data rate-of-return notification to the peripheral device for the peripheral device to respond and automatically adjust the data rate-of-return, or the computer host transmits the dynamic data rate-of-return notification to the user for the user to respond and manually adjust the data rate-of-return of the peripheral device.

Preferably, the manner of manually adjusting the data return rate of the peripheral device by the user is to perform manual alternate switching adjustment according to any one of the specified data return rate notification and the dynamic data return rate notification, and by using a single key or a compound key of the peripheral device, to a group of preset data return rates with different values, or according to mutual matching and combination of the group of preset data return rates with different values and a group of preset mouse resolutions with different values, to select any one of the preset data return rates, or to select mutual matching and combination of the any one of the preset data return rates and any one of the preset mouse resolutions; wherein, the compound key can be at least one of the following key combinations: a mouse resolution (Dots Per inc, DPI) button in combination with a right button, a mouse side button in combination with a scroll wheel button, a keyboard function button in combination with any number button.

Preferably, in the step (d), the operating status information of the peripheral device refers to an operating habit information of the user when operating the peripheral device, and the operating status information of the peripheral device at least includes: a common key information and an operation time information; alternatively, the input information of the peripheral device is a data input quantity of the peripheral device, and the input information at least comprises: at least one of a key data input amount, a sensor data input amount, a wheel movement data input amount, and a lighting effect control (lighting effect) data input amount; or, the hardware performance index is a hardware configuration level score of the computer host, and the scoring objects at least include: at least one of a clock speed of a Central Processing Unit (CPU), a memory capacity, a Solid State Disk (SSD) capacity, and an operating speed of a hardware accelerator card; or, the hardware real-time load information refers to a workload degree of the central microprocessor of the computer host during real-time operation.

Preferably, in the step (c) or in the step (e), when the data reporting rate of the peripheral device is readjusted, the computer host may continue to perform the step (a) after waiting for the peripheral device to notify the user of the adjusted data reporting rate in a specific notification manner.

Preferably, the specific notification means includes at least one of an on-screen menu (OSD) display, a Light Emitting Diode (LED) display and a sound effect notification.

Preferably, the steps (a) to (e) are implemented by a data rate-of-return intelligent adjusting software installed in the computer host, and the computer host and the peripheral device are matched accordingly.

Preferably, the software for intelligently adjusting the data rate of return at least comprises the software running list and an environmental parameter configuration file (profile), wherein the software running list can be built in a preset mode or is provided for the user to set in a self-defined preset mode; the environment parameter configuration file at least comprises a group of preset data return rates with different numerical values, or at least comprises the mutual matching combination of the group of preset data return rates with different numerical values and a group of preset mouse resolutions with different numerical values.

Preferably, the data rate of return intelligent adjustment software is used to detect and collect the running status or system configuration status of the computer host and the peripheral device, so as to generate at least one of the peripheral device operation information, the peripheral device input information, the hardware performance index and the hardware real-time load information.

In order to better appreciate the above and other aspects of the present disclosure, reference will now be made in detail to the embodiments illustrated in the accompanying drawings.

Drawings

Fig. 1A and 1B are conceptual diagrams illustrating a preferred implementation process of the present disclosure.

Fig. 2A to fig. 2C are conceptual schematic diagrams of three different implementation schemes for matching the preferred implementation flow of the present invention.

Fig. 3 is a conceptual diagram illustrating an environment parameter configuration file applied to a preferred embodiment of the present invention, and the specific file contents are established in a built-in default manner and performing a switching operation.

Fig. 4A is a schematic diagram of an environment parameter configuration file applied to a preferred implementation process of the present invention, and specific file contents thereof are schematic diagrams of implementation concepts for the user to establish in a customized and predetermined manner.

Fig. 4B is a conceptual diagram of an implementation of the context configuration file established in fig. 4A for performing a handover operation.

Wherein the reference numerals are as follows:

1: computer mainframe

11: screen

2: peripheral device

R: data rate of return

I1: specified data rate of return notification

I2: dynamic data rate of return notification

C1: any software in software running list

C21: peripheral device operation information

C22: peripheral device input information

C31: hardware performance index

C32: hardware immediate load information

S10 to S16: step (ii) of

S31 to S33: step (ii) of

S41 to S47: step (ii) of

Detailed Description

The following embodiments are provided as examples and should not be construed to limit the scope of the present disclosure. In addition, the drawings in the embodiments omit elements which are not necessary or can be completed by ordinary techniques, so as to clearly show the technical features of the present disclosure.

First, please refer to fig. 1A and 1B, and fig. 2A to 2C; fig. 1A and 1B are schematic diagrams of a preferred implementation process of the present disclosure, and fig. 2A to 2C are respectively used to combine fig. 1A and 1B to show conceptual illustrations of various implementation aspects when the preferred implementation process is applied between a computer host 1 and a peripheral device 2.

The computer host 1 may be a personal terminal computer device, such as a notebook computer, a desktop computer, or various handheld computer devices, and may also be a cloud computer device; the peripheral Device 2 may be a Human Interface Device (HID) type peripheral Device, such as a mouse, a keyboard, or a voice-operated voice input Device, and for convenience of description, the following embodiments will be described by taking a mouse and/or a keyboard as an example, but the disclosure is not limited thereto.

In summary, the detailed steps of the preferred implementation process of the present disclosure are as follows:

step S10: installing a data rate of return intelligent adjustment software in the computer host 1.

The data rate of return intelligent adjustment software can be matched with the operation of the host computer 1 and the peripheral device 2 to implement the inventive concept of the present invention.

In addition, the data rate of return intelligent adjustment software can be built in the computer host 1, or can be collocated with the peripheral device 2 for sale, and then installed to the computer host 1 by the user.

Step S11: the data rate intelligent adjustment software determines whether to start the content of a software running list, so as to be used as a basis for adjusting a data rate (report rate) R of the peripheral device 2.

The software for intelligently adjusting the data return rate at least includes a software running list that can be set in a preset manner or in a preset manner by the user, and regarding the content of the software running list, please refer to a first implementation manner shown in fig. 2A in which the preferred implementation flow of the present invention is collocated, which includes at least one software C1 that can be operated and used by the peripheral device 2, for example, various software C1 such as a document operation application software, an operating system software (such as an operating system or a browser), a social chat software, a drawing software and/or a game software, and the present invention is not limited thereto.

Of course, the purpose of the software run list is to provide the data return rate R for adjusting the peripheral device 2; wherein, the screen 11 of the host computer 1 can be used to display the data rate of return R currently used by the peripheral device 2.

Step S12: when the content of the software running list is determined to be enabled to serve as an adjustment basis for adjusting the data rate of return R of the peripheral device 2, the intelligent data rate adjustment software further determines whether to generate a specified data rate of return notification I1 according to any software C1 in the software running list to serve as a basis for adjusting the data rate of return R of the peripheral device 2.

Referring to fig. 2A again, the specified data rate of return notification I1 includes at least one fixed data rate of return corresponding to the at least one software C1, which is preset in the software running list in response to the functional attribute of the at least one software C1.

For example, the operation of general social chat software does not generally place too much load on the workload of the central microprocessor (not shown) of the computer host 1 during real-time operation, so that a fixed data return rate can be preset based on the functional attributes of such software (for example, a fixed data return rate designated as 100 Hz), and no dynamic adjustment is required to the data return rate R during the software operation process; moreover, for example, the functional attributes of some game software originally need to be operated quickly and accurately, and the data return rate cannot be reduced arbitrarily in the process, so that some game software can maintain the high-speed data return rate (for example, the fixed and high-speed data return rate designated as 4000 Hz) required by being collocated with the peripheral device 2 for operation, so as to maintain the operation smoothness and accuracy of the user.

Of course, some specific software of the at least one software C1 may not be assigned any fixed data rate of return, but the intelligent adjusting software for data rate of return is dynamically added to the evaluation process for adjusting the data rate of return R of the peripheral device 2 according to the frequency of the specific software actually used by the user, and this part will be further detailed in the following steps S15 and S16.

Therefore, in step S12, the content of the software running list is determined to be enabled to serve as an adjustment basis for adjusting the data rate of return R of the peripheral device 2, which means that the content of the software running list is added to the process of subsequently adjusting the data rate of return R of the peripheral device 2, so that the data rate of return intelligent adjustment software can perform comprehensive determination.

Step S13: the data rate of return intelligent adjustment software correspondingly generates the specified data rate of return notice I1 according to any software C1 in the software running list, so as to execute a specified data rate of return adjustment program.

Referring to fig. 2A again, as can be seen from the foregoing, since the specified data rate of return notification I1 includes the at least one fixed data rate of return corresponding to the at least one software C1 required for subsequently adjusting the data rate of return R of the peripheral device 2, the specified data rate of return adjustment procedure can be implemented in at least two ways:

1. the host computer 1 directly transmits the specified data report rate notification I1 to the peripheral device 2 for the peripheral device 2 to respond and automatically adjust the data report rate R; and

2. the host computer 1 transmits the designated data report rate notice I1 to the user first, and then provides the user with the data report rate R corresponding to and manually adjusting the peripheral device 2; the specified data rate of return notification I1 may include displaying the at least one fixed data rate of return to be adjusted on the screen 11 in advance, so that the user can know the specified target to be adjusted, and then the user uses the single key or the composite key of the peripheral device 2 to perform manual alternate switching adjustment for a set of predetermined data rates with different values, or for mutual matching and combination of the predetermined data rates with different values and a set of predetermined mouse resolutions with different values, until any value matched with the at least one fixed data rate of return is selected from the predetermined data rates, and then notifies the peripheral device 2 to respond and adjust the data rate of return R.

The preset data rate of return of the group of the plurality of values or the mutual matching and combination of the preset data rate of return of the group of the plurality of values and the preset mouse resolution of the group of the plurality of values can be set in an environment parameter configuration file (profile), and the environment parameter configuration file is set in the data rate of return intelligent adjustment software in advance in a built-in preset mode or in a self-defined preset mode for the user.

Of course, the compound key can be at least one of the following key combinations: various key combinations such as a mouse resolution (Dots Per inc, DPI) key combined with a right key, a mouse side key combined with a roller key, a keyboard function key combined with any number key, etc., and the present disclosure is not limited thereto.

Step S14: after the host computer 1 waits for the peripheral device 2 to notify the user of the adjusted data reporting rate R in a specific notification manner, the host computer 1 continues to execute the step S11.

The specific notification manner at least includes one of an on-screen display (OSD) display, a Light Emitting Diode (LED) display, and a sound effect notification, and the present disclosure is not limited thereto.

Of course, whether the aforementioned step 14 is completely executed or not may be determined according to actual operation, for example, the peripheral device 2 may also choose not to notify the user of the adjusted data reporting rate R, but only directly notify the host computer 1, so that the host computer 1 can continue to execute the step S11.

Step S15: when the data rate of return intelligent adjustment software determines not to activate the contents of the software running list in the step 11, or determines not to generate the specified data rate of return notification when the data rate of return intelligent adjustment software activates the contents of the software running list in the step 12, the data rate of return intelligent adjustment software automatically collects at least one of a peripheral device operation information C21, a peripheral device input information C22, a hardware performance index C31 and a hardware real-time load information C32 as a basis for adjusting the data rate of return R of the peripheral device 2.

Please refer to fig. 2B and fig. 2C in combination with other two implementation manners, wherein the peripheral device operation state information C21 is operation habit information (as shown in fig. 2B) when the user operates the peripheral device 2, and at least includes: a common key information and an operation time information; alternatively, the peripheral input information C22 is a data input quantity of the peripheral (as shown in fig. 2B); alternatively, the hardware performance index C31 is a hardware configuration level score of the computer host 1 (as shown in fig. 2C), and the scoring objects at least include: at least one of a clock speed of a Central Processing Unit (CPU), a memory capacity, a Solid State Drive (SSD) capacity, and an operating speed of a hardware accelerator card; alternatively, the hardware real-time load information C32 is the workload level of the central microprocessor of the computer host 1 during real-time running (as shown in fig. 2C).

The peripheral device operation state information C21 is not limited to the commonly used key information among the plurality of keys of the peripheral device 2 used by the user, or the operation time information related to the operation of the peripheral device 2 by the user, for example, the operation habits (e.g., the operation action size when operating the peripheral device 2) related to the operation of the peripheral device 2 may be included.

In addition, for example, the peripheral device input information C22 may refer to at least one of a sensor data input amount related to the mouse, a data input amount of a wheel/left/right/side or other different positions or different function buttons (for example, including a button data input amount or a wheel movement data input amount), or other hardware information (for example, lighting effect control (lighting effect) data input amount), and the present disclosure is not limited thereto.

Moreover, the hardware performance index C31 is not limited to include: at least one of the clock speed of the Central Processing Unit (CPU), the memory capacity, the Solid State Disk (SSD) capacity, and the operating speed of the hardware accelerator card may also include various other hardware capabilities related to the computer host 1.

In short, any one of the peripheral device operating status information C21, the peripheral device input information C22, the hardware performance indicator C31 and the hardware real-time load information C32 can be included in the data-return-rate intelligent adjustment software as long as there is hardware performance information related to the data return rate R when the peripheral device 2 is operated.

Of course, as described in the aforementioned step S12, regarding the frequency of the specific software of the at least one software C1 in fig. 2A actually used by the user, the intelligent adjusting software for data rate of return (drr) is also automatically collected to dynamically add into the evaluation process for subsequently adjusting the drr of the peripheral device 2.

Step S16: the software for intelligently adjusting data reporting rate generates a dynamic data reporting rate notification I2 corresponding to the actual usage frequency of any software C1 in the software running list by the user, and/or at least one of the peripheral device operating information C21 and the peripheral device input information C22, the hardware performance index C31, and the hardware real-time load information C32, so as to execute a dynamic data reporting rate adjustment procedure, and continue to execute the step S14.

Since the dsr notification I2 includes the adjustment information required by the peripheral device 2 to perform the dsr adjustment procedure, the dsr adjustment procedure can be implemented in at least two embodiments as follows:

1. the host computer 1 directly transmits the dynamic data report rate notification I2 to the peripheral device 2 for the peripheral device 2 to respond and automatically adjust the data report rate R; and

2. the host computer 1 first transmits the dynamic data report rate notification I2 to the user, and then provides the user with the data report rate R for manually adjusting the peripheral device 2; the dynamic data return rate notification I2 may include displaying the data return rate to be adjusted on the screen 11 in advance, so that the user can know the adjustment target, and then the user uses a single key or a composite key of the peripheral device 2 to perform manual alternate switching adjustment for a set of predetermined data return rates with different values, or for mutual matching and combination of the predetermined data return rates with different values and a set of predetermined mouse resolutions with different values, until any value matched with the at least one fixed data return rate is selected from the predetermined data return rates, and then notifies the peripheral device 2 to respond and adjust the data return rate R.

The aforementioned predetermined data rate of return of the plurality of values or the mutual matching and combination of the predetermined data rate of return of the plurality of values and the predetermined mouse resolution of the plurality of values can be set in an environment parameter configuration file (profile), and the environment parameter configuration file is set in the data rate of return intelligent adjustment software in advance in a built-in predetermined manner or in a self-defined predetermined manner for the user.

Of course, the compound key can be at least one of the following key combinations: various key combinations such as a mouse resolution (Dots Per inc, DPI) key combined with a right key, a mouse side key combined with a roller key, a keyboard function key combined with any number key, etc., and the present disclosure is not limited thereto.

The intelligent adjusting software for data rate of return may also generate the dynamic data rate of return I2 in a staged manner during the process of generating the dynamic data rate of return I2 corresponding to the frequency of actual use of any software C1 in the software running list by the user and/or at least one of the peripheral device operation information C21 and the peripheral device input information C22, the hardware performance index C31 and the hardware immediate load information C32, for example, the intelligent adjusting software for data rate of return may first select the frequency of actual use of any software C1 in the software running list by the user, the peripheral device input information C22, the hardware performance index C31, and other factors to analyze, so as to generate the dynamic data rate of return I2 following the first stage, the intelligent adjusting software for data rate of return may then perform a rapid adjustment of the dynamic data rate of return I2 in the second stage according to the actual situation of the hardware immediate load information C32, or generate the dynamic data rate of return I2 in a slow fine tuning manner, so as to reduce the impact on the host computer for the dynamic data rate of return I1.

In addition, for the specific implementation of the aforementioned contents regarding the predetermined data rate of return that is different for the set of values, or the mutual matching and combination of the predetermined data rate of return and the predetermined mouse resolution that is different for the set of values, and the specific implementation of the environment parameter configuration file (profile) in a default manner or for the user to customize the default manner, refer to the following fig. 3 and fig. 4A and 4B for example, so as to obtain further understanding.

Fig. 3 is an exemplary diagram of an implementation concept that takes a combination of three preset data return rates with different values and three other preset mouse resolutions with different values as an example, and is arranged in the environment parameter configuration file in a built-in preset manner, that is, by matching with the alternate switching of the single key or the compound key of the peripheral device 2 by the user, the user can select to implement one of the following different steps, including:

step S31: a first mouse resolution (800 DPI) preset value + a first data rate of return (1000 Hz) preset value;

step S32: a second mouse resolution (1600 DPI) preset value + a second data rate of return (2000 Hz) preset value; and

step S33: a third mouse resolution (3200 DPI) preset + a third data rate of return (4000 Hz) preset.

The steps S31 to 33 are for circular switching selection, so that the environment parameter configuration file suitable for implementation can be provided for the specific data rate adjustment procedure in the step S13 in fig. 1A and 1B or for the dynamic data rate adjustment procedure in the step S16 in fig. 1A and 1B.

In addition, the present disclosure also provides an implementation method for the user to establish the specific file content of the environment parameter configuration file in a self-defined preset manner and perform the switching operation, and the following description is given by taking the data return rate and the mouse resolution as an example.

Please refer to fig. 4A and 4B for illustration, wherein fig. 4A is a schematic view of an environment parameter configuration file applied to a preferred implementation flow of the present invention, and the specific file content is a schematic flow chart of an implementation concept established by the user in a self-defined preset manner, and at least includes the following implementation steps:

step S41: the user enables a user-defined tool function built into the data rate of return intelligent tuning software.

Step S42: the user sets the preset data return rates with different values by himself or sets the preset data return rates with different values and the preset mouse resolutions with different values by himself.

Of course, the predetermined data return rate may be matched with the predetermined mouse resolution, or may be matched with other functional parameters (e.g., voice sampling rate) of other different peripheral devices, which is not limited in the present disclosure.

In addition, the present disclosure may also provide the user with the capability of self-defining and switching the hardware operation modes of the peripheral device 2, including self-defining the types or matching contents of the single key or the compound key, which is not limited thereto.

Step S43: the data rate of return intelligent adjustment software determines whether the user has completed the content customized in the step S42;

when the data rate of return intelligent adjustment software determines that the user has not finished the preset content in step S42, the step S42 can be executed again.

Step S44: when the predetermined content in step S42 is confirmed to be completed, the data rate of return intelligent adjustment software automatically generates an environmental parameter configuration file (profile).

Based on the environment parameter configuration file established in fig. 4A, fig. 4B is a conceptual flow diagram for the user to switch the environment parameter configuration file established in fig. 4A, and at least includes the following steps:

step S45: enabling the environment parameter configuration file (profile) from the data rate of return intelligent adjustment software by the user;

step S46: the data rate of return intelligent adjustment software detects the hardware operation mode of the user switching the peripheral device 2; and

step S47: the user selects and sets a numerical value of a preset data return rate to be adjusted and used from the environment parameter configuration file, or selects and sets a numerical value of a preset mouse resolution DPI + a preset data return rate;

wherein the steps S46 to 47 are selectable for circular switching.

In summary, the intelligent adjustment method for data rate of return proposed by the present application can provide users with intelligent or dynamic adjustment of data rate of return by using a built-in default value or a self-defined default value according to the actual workload and hardware operation performance of the computer host itself, or further by matching with the operation type of the built-in software, so that the computer host can flexibly and effectively match the speed requirements of various data rates of return of peripheral devices, and further assist the peripheral devices to reduce unnecessary data transmission of return, so as to reduce the power consumption of the peripheral devices and/or the computer host, thereby achieving the purpose of saving power.

Although the present disclosure has been described with reference to exemplary embodiments, it is not intended to be limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present application shall be determined by the appended claims.

Claims (12)

1. A method for adjusting data return rate is applied between a computer host and a peripheral device, and the method at least comprises the following steps:

(a) Judging whether to start the content of a software running list as a basis for adjusting a data return rate of the peripheral device;

(b) When the content of the software running list is judged to be started to be used as a basis for adjusting the data return rate of the peripheral device, whether a specified data return rate notification is correspondingly generated according to any software in the software running list is further judged to be used as a basis for adjusting the data return rate of the peripheral device;

(c) Correspondingly generating the specified data rate-of-return notification according to any software in the software running list so as to execute a specified data rate-of-return adjustment program, and continuing to execute the step (a);

(d) Judging whether the content of the software running list is not started in the step (a) or the content of the software running list is started in the step (b) but judging that the specified data return rate notification is not generated, and automatically collecting at least one of peripheral device operation information, peripheral device input information, a hardware performance index and hardware real-time load information when the specified data return rate notification is used as a basis for adjusting the data return rate of the peripheral device; and

(e) Generating a dynamic data report rate notification in response to the actual use frequency of any software in the software running list by the user and/or in response to at least one of the operating status information of the peripheral device and the input information of the peripheral device, the hardware performance index and the hardware real-time load information, so as to execute a dynamic data report rate adjustment procedure, and continuing to execute the step (a).

2. The method according to claim 1, wherein in the step (a), the software running list includes at least one software installed in the host computer and capable of being operated and used by the peripheral device.

3. The method according to claim 2, wherein in the step (b), the notification of the assigned data rate of return includes at least one fixed data rate of return corresponding to the at least one software, which is preset in the software running list according to the functional attribute of the at least one software.

4. The method as claimed in claim 1, wherein in the step (c), the designated data rate of return adjustment procedure is that the host computer sends the designated data rate of return notification to the peripheral device for the peripheral device to respond to and automatically adjust the data rate of return, or the host computer sends the designated data rate of return notification to the user for the user to respond to and manually adjust the data rate of return of the peripheral device.

5. The method as claimed in claim 1, wherein in the step (e), the dynamic data rate adjustment procedure means that the host computer sends the dynamic data rate notification to the peripheral device for the peripheral device to automatically adjust the data rate, or the host computer sends the dynamic data rate notification to the user for the user to manually adjust the data rate of the peripheral device.

6. The method according to claim 4 or 5, wherein the user manually adjusts the data rate of return of the peripheral device by selecting any one of a plurality of predetermined data rates of return, a plurality of predetermined mouse resolutions, and a plurality of predetermined mouse resolutions according to a combination of the predetermined data rates of return and the plurality of predetermined mouse resolutions, and by manually switching the peripheral device by using a single key or a combination of keys of the peripheral device; wherein, the compound key can be at least one of the following key combinations: a mouse resolution button combined with a right button, a mouse side button combined with a roller button, a keyboard function button combined with any number button.

7. The method according to claim 1, wherein in the step (d), the operation status information of the peripheral device is an operation habit information of the user when operating the peripheral device, and the operation habit information at least includes: a common key information and an operation time information; alternatively, the input information of the peripheral device is a data input quantity of the peripheral device, and the input information at least comprises: at least one of a key data input amount, a sensing data input amount, a roller movement data input amount and a light effect control data input amount; or, the hardware performance index is a hardware configuration level score of the computer host, and the scoring objects at least include: at least one of a clock speed of a central microprocessor, a memory capacity, a solid state disk capacity, and an operating speed of a hardware accelerator card; or, the hardware real-time load information refers to a workload degree of the central microprocessor of the computer host during real-time operation.

8. The method according to claim 1, wherein in step (c) or (e), when the data rate of the peripheral device has been re-adjusted, the host computer continues to perform step (a) after waiting for the peripheral device to notify the user of the adjusted data rate in a specific notification manner.

9. The method according to claim 8, wherein the specific notification manner comprises at least one of an on-screen menu display, a light emitting diode display and a sound effect notification.

10. The method according to claim 1, wherein the steps (a) to (e) are performed by a data rate-of-return intelligent adjusting software installed in the computer host, and the computer host and the peripheral device are collocated therewith.

11. The method according to claim 10, wherein the software for intelligently adjusting data rate of return comprises a software running list and an environment parameter configuration file, wherein the software running list can be configured in a preset manner or can be configured in a preset manner by a user; the environment parameter configuration file at least comprises a group of preset data return rates with different numerical values, or at least comprises the mutual matching combination of the group of preset data return rates with different numerical values and a group of preset mouse resolutions with different numerical values.

12. The method as claimed in claim 11, wherein the software for intelligently adjusting data rate of return is configured to detect and collect an operating status or a system configuration status of the host computer and the peripheral device in response to generating at least one of the operating information of the peripheral device, the input information of the peripheral device, the performance index of the hardware and the real-time loading information of the hardware.

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