CN111870934A - Vibration adjusting method of handle, game handle and computer readable storage medium - Google Patents

Abstract

The invention discloses a vibration adjusting method of a handle, which comprises the following steps: receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information; determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction; and executing the vibration operation of the handle according to the adjusting parameters. The invention also discloses a gamepad and a computer readable storage medium. The vibration effect of the handle is adjusted by combining the control instruction corresponding to the virtual scene information and the touch information, so that the vibration requirements of different virtual scenes and different users can be met, and the vibration effect of the handle is improved.

Description

Vibration adjusting method of handle, game handle and computer readable storage medium

Technical Field

The invention relates to the technical field of equipment control, in particular to a vibration adjusting method of a handle, a game handle and a computer readable storage medium.

Background

Nowadays, the variety of games is more and more, and more people choose to play games through a gamepad in order to pursue the comfort of game operation and the experience of games. The control of the virtual roles of the game can be realized by controlling the keys on the gamepad, and the gamepad can generate a vibration effect along with the change of a game scene in the process of controlling the gamepad so as to improve the game experience of a user. However, in the actual using process, the vibration effect of the gamepad cannot meet the experience of the user, so that the vibration effect is poor and the experience of the user is not good.

Disclosure of Invention

The invention mainly aims to provide a vibration adjusting method of a handle, a game handle and a computer readable storage medium, and aims to solve the problem that the vibration adjusting of the handle in the prior art cannot meet the user experience feeling, so that the vibration effect is poor.

In order to achieve the above object, the present invention provides a method for adjusting vibration of a handle, the handle being connected to a terminal, the handle being provided with a touch detection device for detecting touch information when a human body contacts the handle, the method comprising the steps of:

receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction;

and executing the vibration operation of the handle according to the adjusting parameters.

Optionally, the step of determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction includes:

determining a target control parameter corresponding to the control instruction;

correcting the target control parameter according to the touch information;

and determining the corrected target control parameter as an adjustment parameter of the handle vibration.

Optionally, when the control instruction corresponds to a plurality of control parameters, the step of correcting the control parameters according to the touch information includes:

determining a target control parameter and a correction value thereof from the plurality of control parameters according to the touch information;

and correcting the target control parameter by the determined correction value.

Optionally, the step of determining a target control parameter and a correction value thereof from the plurality of control parameters according to the touch information includes:

determining a difference value between the touch information and preset touch information;

and determining a target control parameter and a correction value thereof from the plurality of control parameters according to the difference.

Optionally, the step of determining a target control parameter and a correction value thereof from the plurality of control parameters according to the difference comprises:

determining a target control parameter from the plurality of control parameters according to the difference range in which the difference value is located;

searching a correction value corresponding to the difference value from a preset mapping relation according to the difference value;

and taking the searched correction value as the correction value of the target control parameter.

Optionally, if the control parameter includes an amplitude, a frequency, and a duty ratio, the step of determining the target control parameter from the plurality of control parameters according to the difference range in which the difference is located includes:

if the difference value is within a first difference value range, determining the amplitude in the control parameter as a target control parameter;

if the difference value is within a second difference value range, determining the amplitude and the frequency in the control parameters as target control parameters;

if the difference value is within a third difference value range, determining the amplitude, the frequency and the duty ratio in the control parameters as target control parameters;

wherein the first difference range is smaller than the second difference range, and the second difference range is smaller than the third difference range.

Optionally, before the step of correcting the target control parameter according to the touch information, the method includes:

judging whether the touch information is matched with preset touch information or not;

if the control command is matched with the control command, responding to the control command, and executing the vibration operation of the handle;

and if not, executing the step of correcting the target control parameter according to the touch information.

Optionally, the handle comprises at least one vibration component, and the step of performing the vibration operation of the handle according to the adjustment parameter comprises:

determining a target vibration component corresponding to the adjustment parameter from the at least one vibration component;

and controlling the target vibration assembly to execute the vibration operation of the handle according to the adjustment parameter.

In addition, in order to achieve the above object, the present invention further provides a game pad, the game pad comprising a memory, a processor and a pad vibration adjustment program stored on the processor and operable on the processor, wherein the processor implements the steps of the pad vibration adjustment method as described above when executing the pad vibration adjustment program.

Further, to achieve the above object, the present invention also provides a computer-readable storage medium having stored thereon a vibration adjustment program of a handle, which when executed by a processor, implements the steps of the vibration adjustment method of a handle as described above.

According to the embodiment of the invention, the control instruction sent by the terminal is received, the touch information detected by the touch detection device is acquired, the control instruction is sent by the terminal according to the current virtual scene information, then the adjustment parameter of the handle vibration is determined according to the acquired touch information and the control instruction, and then the vibration operation of the handle is executed according to the adjustment parameter. The vibration effect of the handle is adjusted through the control instruction corresponding to the touch information and the virtual scene information, so that the handle can adapt to different users or different scenes to execute vibration operation, the vibration requirement of the user on the handle is avoided being unable to be met, the user experience feeling is poor, the vibration effect of the handle is improved, and the user experience feeling is improved.

Drawings

FIG. 1 is a schematic diagram of a gamepad structure of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a first embodiment of a vibration adjustment method of the handle of the present invention;

FIG. 3 is a schematic view of the coverage area of a Grip Touch on the handle according to an embodiment of the vibration adjustment method of the handle of the present invention;

FIG. 4 is a schematic flow chart of a second embodiment of a vibration adjustment method of the handle according to the present invention;

FIG. 5 is a schematic flow chart of a third embodiment of a vibration adjustment method of the handle according to the present invention;

fig. 6 is a schematic distribution diagram of pressure information characteristic points in an embodiment of a vibration adjustment method for a handle according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the invention is: receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information; determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction; and executing the vibration operation of the handle according to the adjusting parameters.

The current handle can't satisfy the vibration demand of user to the handle in the use, has the relatively poor problem of handle vibration effect. Therefore, the invention provides a vibration adjusting method of a handle, a game handle and a computer readable storage medium, which are characterized in that a control instruction sent by a terminal is received, and touch information detected by a touch detection device is obtained, the control instruction is sent by the terminal according to the current virtual scene information, then an adjusting parameter of handle vibration is determined according to the obtained touch information and the control instruction, and then vibration operation of the handle is executed according to the adjusting parameter, so as to achieve a vibration effect corresponding to the adjusting parameter. Control instruction and human body through virtual scene information corresponds with touch information when the handle contacts comes the vibration effect of adjustment handle for the user can possess the experience of being personally on the scene at the in-process of using, has promoted the vibration effect of handle and has promoted user experience sense.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a gamepad in a hardware operating environment according to an embodiment of the present invention.

In this embodiment, the game paddle can be connected with terminals such as smart televisions, VRs, mobile phones or projectors, and the game paddle is provided with a touch detection device and can be used for detecting touch information when a human body contacts the game paddle. The touch detection device may be a pressure sensor, a gravity sensor, a capacitive component, or other detection devices that can be used to detect pressure information.

As shown in fig. 1, the game pad may include: a communication bus 1002, a processor 1001, such as a CPU, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the joystick structure shown in fig. 1 is not intended to be limiting of the joystick and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

In the game pad shown in fig. 1, the network interface 1004 is mainly used for connecting with a background server and performing data communication with the background server; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; and the processor 1001 may be used to call up the vibration adjustment program of the handle stored in the memory 1005 and perform the following operations:

receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction;

and executing the vibration operation of the handle according to the adjusting parameters.

Alternatively, the processor 1001 may call a vibration adjustment program of the handle stored in the memory 1005, and also perform the following operations:

determining a target control parameter corresponding to the control instruction;

correcting the target control parameter according to the touch information;

and determining the corrected target control parameter as an adjustment parameter of the handle vibration.

Alternatively, the processor 1001 may call a vibration adjustment program of the handle stored in the memory 1005, and also perform the following operations:

determining a target control parameter and a correction value thereof from the plurality of control parameters according to the touch information;

and correcting the target control parameter by the determined correction value.

Alternatively, the processor 1001 calls a vibration adjustment program of the handle stored in the memory 1005, and performs the following operations:

determining a difference value between the touch information and preset touch information;

and determining a target control parameter and a correction value thereof from the plurality of control parameters according to the difference.

Alternatively, the processor 1001 may call a vibration adjustment program of the handle stored in the memory 1005, and also perform the following operations:

determining a target control parameter from the plurality of control parameters according to the difference range in which the difference value is located;

searching a correction value corresponding to the difference value from a preset mapping relation according to the difference value;

and taking the searched correction value as the correction value of the target control parameter.

Alternatively, if the control parameters include amplitude, frequency and duty cycle, the processor 1001 may call the vibration adjustment program of the handle stored in the memory 1005, and further perform the following operations:

if the difference value is within a first difference value range, determining the amplitude in the control parameter as a target control parameter;

if the difference value is within a second difference value range, determining the amplitude and the frequency in the control parameters as target control parameters;

if the difference value is within a third difference value range, determining the amplitude, the frequency and the duty ratio in the control parameters as target control parameters;

wherein the first difference range is smaller than the second difference range, and the second difference range is smaller than the third difference range.

Optionally, before the step of correcting the target control parameter according to the touch information, the processor 1001 may call a vibration adjustment program of the handle stored in the memory 1005, and further perform the following operations:

judging whether the touch information is matched with preset touch information or not;

if the control command is matched with the control command, responding to the control command, and executing the vibration operation of the handle;

and if not, executing the step of correcting the target control parameter according to the touch information.

Optionally, the handle comprises at least one vibration component, and the processor 1001 may call a vibration adjustment program of the handle stored in the memory 1005, and further perform the following operations:

determining a target vibration component corresponding to the adjustment parameter from the at least one vibration component;

and controlling the target vibration assembly to execute the vibration operation of the handle according to the adjustment parameter.

Referring to fig. 2, fig. 2 is a flowchart of a vibration adjusting method of a handle according to a first embodiment of the present invention, in this embodiment, the vibration adjusting method of the handle includes the following steps:

step S10: receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

in this embodiment, the touch detection device can be used to detect touch information such as touch position information when a human body contacts the handle and pressure information corresponding to different touch positions. That is, the touch information may be pressure information, and accordingly, the touch detection device may be a pressure detection device, such as a pressure sensor, a gravity sensor, a capacitive component, and the like. In order to more completely and accurately acquire Touch information of a contact position when a human body is in contact with the handle, a Grip Touch (sensing human body to Grip the control panel) is preferably used as a Touch detection device in the embodiment, and the Touch detection device can be used for detecting whether the human body grips the handle of the handle, detecting positions of the handle to be gripped by a user, detecting Grip strength (namely pressure information) at different gripping positions and the like. In an embodiment, in order to completely acquire Touch information such as position information and pressure information of a contact portion when a human body contacts with a handle, a schematic diagram of a coverage area of a Grip Touch on the handle is shown in fig. 3. In FIG. 3, the Grip Touch is fixed on the surface of the handle of the left and right handles, and the gray area is the area to be covered by the Grip Touch. In addition, since the flexible circuit board is flexible and can be applied to a curved surface, the flexible circuit board is preferably used to realize the circuit design of the clip Touch.

The handle is connected with the terminal (may be in a wireless connection or a wired connection), and can be used as an input device of the terminal, and the control of a virtual object in a virtual scene displayed by the terminal can be realized by operating a button and the like. On this basis, the handle may be a game handle, such as a VR (Virtual Reality) game handle; when the handle is a game handle, the terminal may be a game terminal, such as a television, a computer, a mobile phone, a VR device, a projector, and the like, and may provide an electronic game function or may support a terminal that installs and runs a game APP (Application). At this time, the game role in the game run by the terminal can be controlled by operating the game handle, and in the process of operating the game handle, the user can feel the vibration effect corresponding to different game scenes in real time and enjoy the experience of being personally on the scene. However, under different users or different virtual scene information, the touch information of the user operating the handle is different, the vibration requirements for the handle are also different, and if the vibration parameters of the handle are adjusted only according to the virtual scene information, the handle can only adapt to different virtual scene information, but cannot adapt to different touch information, so that the vibration effect of the handle is poor, and the user experience is poor. Therefore, in order to adapt to different virtual scene information and touch information simultaneously to improve the user experience, the touch information between the human body and the handle needs to be detected, and the vibration effect of the handle is adjusted by combining the virtual scene information where the terminal is located and the touch information between the human body and the handle.

Therefore, after the handle is connected with the terminal, if the handle receives a control instruction sent by the terminal according to the current virtual scene information, the touch information detected by the touch detection device can be acquired through the main control chip, and then the vibration parameters of the handle are adjusted according to the control instruction sent by the terminal and the acquired touch information, so as to adapt to different virtual scenes and different touch information, and further improve the vibration effect. The virtual scene information may be scene information corresponding to different games, such as a car racing scene corresponding to a car racing game, a shooting scene corresponding to a shooting game, or scene information corresponding to different game scenes in the same game, such as car racing scenes under different road conditions in the car racing game or shooting scenes under different battle conditions in the shooting game; the control instruction sent by the terminal is a vibration instruction matched with the current virtual scene information, and the vibration parameters (such as amplitude, frequency, duty ratio and the like) of the handle can be adjusted according to the vibration instruction, so that the vibration operation corresponding to the control instruction is executed according to the adjusted adjustment parameters.

Step S20: determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction;

after receiving a control instruction sent by the terminal and acquiring touch information detected by the touch detection device, in order to meet experience of different users and users in different virtual scenes, adjustment parameters of handle vibration can be determined by combining the acquired touch information and the received control instruction. The adjustment parameters may include: duty cycle, amplitude, frequency, voltage, current, etc.

The manner of determining the adjustment parameter of the handle according to the acquired touch information and the received control instruction may be: determining a target control parameter to be adjusted corresponding to the control instruction, then correcting the target control parameter to be adjusted corresponding to the control instruction according to the acquired touch information, and further determining the corrected target control parameter as an adjustment parameter of handle vibration. The specific modification method may be: when the touch information exceeds preset touch information, increasing and adjusting one of the amplitude and the frequency, and using the adjusted amplitude and/or frequency as an adjustment parameter of the handle vibration; or respectively determining a target control parameter to be adjusted corresponding to the control instruction and a target control parameter to be adjusted corresponding to the touch information, and then determining an adjustment parameter of the handle vibration by combining the target control parameter to be adjusted corresponding to the control instruction and the target control parameter to be adjusted corresponding to the touch information, for example, if the target control parameter to be adjusted corresponding to the control instruction comprises amplitude and frequency and the target control parameter to be adjusted corresponding to the touch information comprises duty ratio, the amplitude, the frequency and the duty ratio are used as the adjustment parameter of the handle vibration; if the target control parameter to be adjusted corresponding to the control instruction comprises amplitude and frequency, and the target control parameter to be adjusted corresponding to the touch information comprises amplitude and duty ratio, firstly, the amplitude to be adjusted corresponding to the control instruction and the amplitude to be adjusted corresponding to the touch information are superposed, and then the processed amplitude, the frequency corresponding to the control instruction and the duty ratio corresponding to the touch information are used as the adjustment parameter of the handle vibration, and the like. Of course, the adjustment parameter of the handle may be determined according to the acquired touch information and the received control command in other manners, which are only exemplary and not limiting.

Step S30: executing vibration operation of the handle according to the adjusting parameters;

after the adjustment parameters of the handle vibration are determined, the vibration operation of the handle is executed according to the adjustment parameters, and the handle vibration operation can be adapted to the virtual scene information and the touch information, so that the game experience of different users or users under different virtual scenes is met, and the vibration effect is improved. The vibration effect may be reflected by the vibration intensity, the vibration frequency, the vibration duration, and the like. The handle is provided with main control chip and at least one driving piece (for example, motor), when game paddle is provided with two handles about, can set up each at least one driving piece on left handle and right handle, when the handle is the single handle, can set up at least one driving piece, the driving piece contains driver chip, and accessible driver chip control handle vibrates, also can vibrate through main control chip direct control handle.

Then, the process of performing the vibration operation of the handle according to the adjustment parameter may be: controlling a driving chip to drive the handle to execute the vibration operation of the handle according to the adjusting parameters (such as voltage, current and other electrical appliance parameters); or the main control chip can directly control the handle to execute the vibration operation of the handle through a PWM (Pulse Width modulation) signal corresponding to the adjusting parameter (signal parameters such as frequency, amplitude and duty ratio).

In the embodiment, a control instruction sent by a terminal is received, and touch information detected by the touch detection device is acquired, wherein the control instruction is sent by the terminal according to the current virtual scene information; determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction; and executing the vibration operation of the handle according to the adjusting parameters. Promptly, come the vibration effect of adjustment handle through touch information and control command, avoid the use, the relatively poor experience that can't satisfy the user of vibration effect feels, has improved the vibration effect of handle and has promoted user experience sense.

Referring to fig. 4, fig. 4 is a flowchart illustrating a vibration adjusting method of a handle according to a second embodiment of the present invention. A second embodiment of the vibration adjusting method of the handle of the invention is proposed based on the first embodiment. In this embodiment, the vibration adjusting method of the handle includes the steps of:

step S11: receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

step S12: determining a target control parameter corresponding to the control instruction;

step S13: correcting the target control parameter according to the touch information;

step S14: determining the corrected target control parameter as an adjustment parameter of handle vibration;

step S15: and executing the vibration operation of the handle according to the adjusting parameters.

In this embodiment, after receiving a control instruction sent by a terminal and acquiring touch information detected by a touch detection device, in order to determine an adjustment parameter of handle vibration, a target control parameter corresponding to the control instruction needs to be determined first. If the control instruction sent by the terminal is sent according to the scene information of the current racing car, if the terminal passes through a bumpy road surface, the vibration intensity may need to be improved, and at this time, the target control parameter corresponding to the control instruction may be the amplitude of a PWM signal; if the road passes through a bumpy road section on an uphill slope, the vibration duration may need to be prolonged, and at the moment, the target control parameter corresponding to the control instruction may be the duty ratio of a PWM signal; if the road passes through a rugged bumpy road section, the vibration frequency may need to be increased, and the target control parameter corresponding to the control instruction at this time may be the frequency of the PWM signal; if the road passes through a bumpy road section of a downhill, the vibration frequency and the vibration duration may need to be adjusted at the same time, and at this time, the target control parameter corresponding to the control instruction may be the frequency, the duty ratio, and the like of the PWM signal. That is, the target control parameter corresponding to the control command may be one, or may include a plurality of control parameters at the same time, and the control parameters may be the amplitude, the frequency, the duty ratio, and the like of the PWM signal. Of course, the driving parameters corresponding to the driving chip, such as voltage, current, etc., are also possible.

After the target control parameter corresponding to the control instruction is determined, the target control parameter may be corrected according to touch information detected by the touch detection device, and then the corrected target control parameter is determined as an adjustment parameter of the handle vibration. The condition for correcting the target control parameter according to the touch information may be: and when the touch information meets a preset condition, correcting the target control parameter according to the touch information, for example, when the touch information is not matched with the preset touch information, correcting the target control parameter according to the touch information, or when the touch information exceeds a preset range, correcting the target control parameter, and the like.

In a specific embodiment, when the control instruction corresponds to a plurality of control parameters, that is, when the control instruction includes a plurality of control parameters, the process of correcting the target control parameter according to the touch information may specifically be: firstly, determining a target control parameter and a correction value thereof from the plurality of control parameters according to the touch information, and then correcting the target control parameter according to the determined correction value. The manner of determining the target control parameter and the correction value thereof from the plurality of control parameters according to the touch information may be: and determining a target control parameter and a correction value thereof from the plurality of control parameters according to the relation such as the difference value or the ratio of the touch information and preset touch information. If the target control parameter and the correction value thereof are determined according to the difference value between the touch information and the preset touch information, the target control parameter corresponding to the difference value can be determined according to the difference value range where the difference value is located and the preset mapping relation between the difference value range and the control parameter, and the adjustment value of the target control parameter is determined according to the mapping relation between the difference value and the control parameter; if the target control parameter and the correction value thereof are determined according to the ratio of the touch information to the preset touch information, the target control parameter can be determined from the plurality of control parameters according to the ratio range of the ratio and the mapping relation between the preset ratio range and the control parameters, and then the correction value of the target control parameter is determined according to the mapping relation between the ratio and the control parameters; the target control parameter may also be determined from the plurality of control parameters according to the numerical range corresponding to the touch information where the touch information is located, for example, the target control parameter may be determined from the control parameters according to the mapping relationship between the numerical range corresponding to the touch information and the control parameters, and then the correction value of the target control parameter may be determined according to the mapping relationship between the touch information and the control parameters.

In an embodiment, the target control parameter does not need to be corrected every time, and therefore, before the target control parameter corresponding to the control instruction is corrected according to the touch information, whether the target control parameter needs to be corrected or not can be determined, so that the target control parameter is prevented from being corrected when the target control parameter does not need to be corrected, and the reliability of correction of the target control parameter can be improved. Specifically, whether the touch information is matched with the preset touch information may be determined according to a comparison result between the touch information and the preset touch information. If the touch information is matched with the preset touch information, the target control parameter corresponding to the control instruction does not need to be corrected, and the vibration operation of the handle can be executed in direct response to the control instruction; if the touch information is not matched with the preset touch information, it is indicated that the target control parameter corresponding to the control instruction needs to be corrected, the target control parameter can be corrected according to the touch information, the corrected target control parameter is determined as an adjustment parameter of the handle vibration, and then the vibration operation of the handle is executed according to the determined adjustment parameter. The preset touch information may be preset touch information corresponding to different devices or different users, and may be specifically set according to performance parameters of sensitivity of the devices, usage habits of the users, and the like.

Therefore, when the target control parameter corresponding to the control instruction needs to be corrected, if the control instruction only corresponds to one control parameter, the control parameter can be directly determined as the target control parameter, the correction value of the target control parameter is determined according to the touch information, the target control parameter is corrected according to the determined correction value, and the corrected target control parameter can be used as the adjustment parameter of the handle vibration to execute the vibration operation of the handle. If the control instruction corresponds to a plurality of control parameters, that is, if the control instruction includes a plurality of control parameters, the determined target control parameters may be corrected with the determined correction values only by determining the correction values of the target control parameters according to the touch information and determining the target control parameters from the plurality of control parameters. The manner of determining the target control parameter and the correction value thereof from the control parameters according to the touch information may be as follows: and determining a target control parameter and a correction value thereof from the plurality of control parameters according to the relation such as the difference value or the ratio of the touch information and preset touch information. If the target control parameter and the correction value thereof are determined according to the difference value between the touch information and the preset touch information, the target control parameter corresponding to the difference value can be determined according to the difference value range where the difference value is located and the preset mapping relation between the difference value range and the control parameter, and then the correction value of the target control parameter is determined according to the mapping relation between the difference value and the control parameter; if the target control parameter and the correction value thereof are determined according to the ratio of the touch information to the preset touch information, the target control parameter can be determined from the control parameters according to the ratio range of the ratio and the mapping relation between the preset ratio range and the control parameters, and then the correction value of the target control parameter is determined according to the mapping relation between the ratio and the control parameters; the target control parameter may also be determined from the control parameters according to the numerical range corresponding to the touch information where the touch information is located, for example, the target control parameter may be determined from the control parameters according to the mapping relationship between the numerical range corresponding to the touch information and the control parameters, and then the correction value of the target control parameter may be determined according to the mapping relationship between the touch information and the control parameters.

In one embodiment, the target control parameter and the correction value thereof may be determined according to a difference between the touch information and the preset touch information. Specifically, a difference between the touch information and preset touch information may be determined, and then a target control parameter and a correction value thereof may be determined from a plurality of control parameters according to the determined difference. The target control parameter and the correction value thereof may be determined according to a difference value range of the touch information and the preset touch information, for example, a plurality of difference value ranges may be pre-divided, and different difference value ranges correspond to different control parameters. If three difference value ranges are divided in advance, when the difference value is in the first difference value range, a user can approach to a real experience feeling when operating the handle by only correcting one target control parameter, and at the moment, one control parameter corresponding to the control instructions is selected to serve as the target control parameter; when the difference value is within a second difference value range, two target control parameters may need to be corrected at the same time to meet the use requirements of the user, and at the moment, two control parameters corresponding to the control instruction are screened out to be used as the target control parameters; when the difference is within a third difference range, three target control parameters may need to be corrected at the same time to meet the use requirements of the user, and at the moment, three control parameters corresponding to the control instruction are screened out to be used as the target control parameters; of course, in order to more accurately determine the target control parameters corresponding to different difference ranges, so that each difference range corresponds to only one target control parameter, the first difference range, the second difference range, and the third difference range may be further subdivided. For example, when there are three control parameters, the first difference range may be subdivided into three sub-difference ranges, each of which may correspond to one target control parameter; the second difference range is subdivided into three sub-difference ranges, each sub-difference range may correspond to a set of target control parameters, each set including two target control parameters, and so on. The different target control parameters may be preset with corresponding priorities, and the screening may be performed according to the set priorities, or corresponding target control parameters may be preset for different difference ranges, and after the difference range corresponding to the difference is determined, the corresponding target control parameters may be directly determined based on the determined difference range.

In a specific embodiment, when the control parameters include amplitude, frequency and duty ratio, if the difference is within a first difference range, determining the amplitude in the control parameters as a target control parameter; if the difference value is within a second difference value range, determining the amplitude and the frequency in the control parameters as target control parameters; and if the difference is within a third difference range, determining the amplitude, the frequency and the duty ratio in the control parameters as target control parameters. That is, based on the difference range in which the difference is located, the control parameter corresponding to the difference range may be determined, so that the control parameter corresponding to the difference range is determined as the target control parameter.

Therefore, after the target control parameter is determined according to the difference range where the difference value between the touch information and the preset touch information is located, the correction value corresponding to the difference value can be found from the preset mapping relation according to the difference value between the touch information and the preset touch information, and the found correction value is used as the correction value of the target control parameter. The preset mapping relation is a mapping relation between different control parameters and the correction value under different difference conditions. That is, after determining the target control parameter, the mapping relationship table of the difference value and the correction value corresponding to the target control parameter may be found from the preset mapping relationship, and then the correction value corresponding to the difference value may be found from the mapping relationship table based on the determined difference value, where the found correction value is the correction value of the target control parameter.

In this embodiment, a control instruction sent by a terminal is received, and touch information detected by the touch detection device is acquired, where the control instruction is sent by the terminal according to the current virtual scene information, then a target control parameter corresponding to the control instruction is determined, the target control parameter is corrected according to the touch information, then the corrected target control parameter is determined as an adjustment parameter of handle vibration, and a vibration operation of a handle is executed according to the adjustment parameter. The target control parameters corresponding to the control instructions are corrected through the touch information, and the vibration operation of the handle is executed according to the corrected target control parameters, so that the vibration effect of the handle not only corresponds to different virtual scene information, but also corresponds to the touch information, the situation that the handle directly executes the vibration operation according to the touch information or the virtual scene information is avoided, the use requirements of different virtual scenes and different users cannot be met, and the vibration effect and the user experience feeling of the handle are improved.

Referring to fig. 5, fig. 5 is a flowchart illustrating a vibration adjusting method of a handle according to a third embodiment of the present invention, in this embodiment, the vibration adjusting method of the handle includes the following steps:

step S21: receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

step S22: determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction;

step S23: determining a target vibration component corresponding to the adjustment parameter from the at least one vibration component;

step S24: and controlling the target vibration assembly to execute the vibration operation of the handle according to the adjustment parameter.

In this embodiment, the handle is provided with at least one vibration assembly, when the game handle is provided with a left handle and a right handle, the at least one vibration assembly can be respectively arranged on the left handle and the right handle, and when the handle is a single handle, the at least one vibration assembly can be arranged, and the vibration assembly comprises a driving member, such as a motor. Therefore, after receiving the control instruction and determining the adjustment parameter of the handle vibration, it is further necessary to determine an adjustment object corresponding to the adjustment parameter, that is, which vibration components are to be subjected to parameter adjustment corresponding to the adjustment parameter. Then, before performing the vibration operation of the handle according to the adjustment parameter, a target vibration component corresponding to the adjustment parameter needs to be determined from the at least one vibration component; and then controlling the target vibration assembly to vibrate according to the adjustment parameters so as to enable the handle to execute vibration operation.

The adjustment parameters may correspond to a plurality of vibration assemblies, and when the terminal sends a control instruction to the handle according to the scene information, the control instruction may correspond to the adjustment parameters of different vibration assemblies, so that when one vibration assembly is arranged on the handle, the vibration assembly may be directly determined as a target vibration assembly; when the handle is provided with a plurality of vibration assemblies, a target vibration assembly corresponding to the adjustment parameter needs to be determined from the plurality of vibration assemblies. The manner of determining the target vibration component corresponding to the adjustment parameter from the plurality of vibration components may be: when the handle receives a control instruction sent by the terminal, a target vibration component to be adjusted is determined according to the distribution condition corresponding to the touch information, then the adjustment parameter of the target vibration component is determined according to the touch information and the control instruction, at the moment, the target vibration component corresponding to the adjustment parameter can be directly determined according to the adjustment parameter, and therefore the target control component is controlled to vibrate according to the adjustment parameter, the handle executes vibration operation, and the vibration effect is improved.

In an embodiment, the Touch detection device is configured as a pressure acquisition device and a position acquisition device, and the corresponding Touch information is pressure information and position information, as shown in fig. 6, when a human body (e.g., a palm) contacts the handle, the Touch detection device (e.g., a Grip Touch) may acquire position information and pressure information of a plurality of feature points. Therefore, the distribution of the pressure information can be obtained based on the pressure information and the position information of the different feature points, and the target vibration component can be determined based on the distribution. For example, in the case of the pressure distribution: if the characteristic points with the pressure values larger than the preset pressure value exist in the characteristic points on the left side and the characteristic points with the pressure values larger than the preset pressure value do not exist in the characteristic points on the right side, determining the left vibration component as a target vibration component; when the characteristic point with the pressure value larger than the preset pressure value does not exist in the characteristic point on the left side and the characteristic point with the pressure value larger than the preset pressure value exists in the characteristic point on the right side, determining the right side vibration assembly as a target vibration assembly; when a characteristic point with a pressure value larger than a preset pressure value exists in the left characteristic point and a characteristic point with a pressure value larger than a preset pressure value exists in the right characteristic point, the left vibration assembly and the right vibration assembly are both target vibration assemblies; when the feature point with the pressure value larger than the preset pressure value does not exist in the feature point on the left side and the feature point with the pressure value larger than the preset pressure value does not exist in the feature point on the right side, the feature point can be directly sent to the corresponding vibration assembly according to the control instruction so as to execute the vibration operation of the handle. The preset pressure values corresponding to different feature points can be the same or different, and can be set according to specific application environments.

In this embodiment, a control instruction sent by a terminal is received, pressure information detected by a pressure detection device and position information corresponding to the pressure information are acquired, the control instruction is sent by the terminal according to virtual scene information where the terminal is located currently, then an adjustment parameter of handle vibration is determined according to the acquired pressure information, the position information corresponding to the pressure information and the control instruction, then a target vibration component corresponding to the adjustment parameter is determined from the vibration components, and the target vibration component is controlled to execute vibration operation of the handle according to the adjustment parameter. Through confirming the target vibration subassembly that the adjustment parameter corresponds, the vibration operation of control target vibration subassembly execution handle avoids all vibration subassemblies that set up on the terminal all to follow the vibration operation of adjustment parameter execution handle leads to the vibration effect to mismatch with user's actual demand, has improved the reliability of handle vibration, and has promoted user experience and feel.

In addition, the embodiment of the invention also provides a game handle, the game handle comprises a memory, a processor and a handle vibration adjusting program which is stored on the processor and can be run on the processor, and the processor realizes the steps of the handle vibration adjusting method when executing the handle vibration adjusting program.

Furthermore, an embodiment of the present invention further provides a computer-readable storage medium, on which a vibration adjustment program of a handle is stored, and when the vibration adjustment program of the handle is executed by a processor, the steps of the vibration adjustment method of the handle described above are implemented.

It should be noted that, in this document, the terms "comprises," "comprising," or other variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, a television, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A vibration adjusting method of a handle is characterized in that the handle is connected with a terminal, the handle is provided with a touch detection device and used for detecting touch information when a human body is in contact with the handle, and the vibration adjusting method of the handle comprises the following steps:

receiving a control instruction sent by a terminal, and acquiring touch information detected by the touch detection device, wherein the control instruction is sent by the terminal according to the current virtual scene information;

determining an adjustment parameter of the handle vibration according to the acquired touch information and the control instruction;

and executing the vibration operation of the handle according to the adjusting parameters.

2. The vibration adjusting method of a handle according to claim 1, wherein the step of determining the adjustment parameter of the handle vibration based on the acquired touch information and the control command comprises:

determining a target control parameter corresponding to the control instruction;

correcting the target control parameter according to the touch information;

and determining the corrected target control parameter as an adjustment parameter of the handle vibration.

3. The method for adjusting vibration of a handle according to claim 2, wherein when the control command corresponds to a plurality of control parameters, the step of correcting the control parameters according to the touch information includes:

determining a target control parameter and a correction value thereof from the plurality of control parameters according to the touch information;

and correcting the target control parameter by the determined correction value.

4. The vibration adjusting method of a handle according to claim 3, wherein the step of determining a target control parameter and a correction value thereof from the plurality of control parameters based on the touch information comprises:

determining a difference value between the touch information and preset touch information;

and determining a target control parameter and a correction value thereof from the plurality of control parameters according to the difference.

5. The vibration control method of a handle according to claim 4, wherein the step of determining a target control parameter and a correction value thereof from the plurality of control parameters based on the difference comprises:

determining a target control parameter from the plurality of control parameters according to the difference range in which the difference value is located;

searching a correction value corresponding to the difference value from a preset mapping relation according to the difference value;

and taking the searched correction value as the correction value of the target control parameter.

6. The method for adjusting vibration of a handle according to claim 5, wherein if the control parameters include amplitude, frequency and duty ratio, the step of determining the target control parameter from the plurality of control parameters according to the range of the difference in which the difference is located comprises:

if the difference value is within a first difference value range, determining the amplitude in the control parameter as a target control parameter;

if the difference value is within a second difference value range, determining the amplitude and the frequency in the control parameters as target control parameters;

if the difference value is within a third difference value range, determining the amplitude, the frequency and the duty ratio in the control parameters as target control parameters;

wherein the first difference range is smaller than the second difference range, and the second difference range is smaller than the third difference range.

7. The method for adjusting vibration of a handle according to claim 4, wherein the step of correcting the target control parameter based on the touch information is preceded by:

judging whether the touch information is matched with preset touch information or not;

if the control command is matched with the control command, responding to the control command, and executing the vibration operation of the handle;

and if not, executing the step of correcting the target control parameter according to the touch information.

8. The vibration control method of a handle according to any one of claims 1 to 7, wherein the handle includes at least one vibration member, and the step of performing the vibration operation of the handle in accordance with the adjustment parameter includes:

determining a target vibration component corresponding to the adjustment parameter from the at least one vibration component;

and controlling the target vibration assembly to execute the vibration operation of the handle according to the adjustment parameter.

9. A game pad, characterized in that the game pad comprises a memory, a processor and a pad vibration adjustment program stored on the memory and executable on the processor, the processor implementing the steps of the pad vibration adjustment method according to any one of claims 1 to 8 when executing the pad vibration adjustment program.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a vibration adjustment program of a handle, which when executed by a processor implements the steps of the vibration adjustment method of a handle according to any one of claims 1 to 8.

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