CN116361011B - Method and device for accelerating response of operation handle system and intelligent game handle - Google Patents

Abstract

The application provides a response speed-up method and device for an operation handle system and an intelligent game handle, wherein the response speed-up method and device are used for acquiring return parameters according to the type of an interface, judging the state of the interface, acquiring an operation event of the operation handle, calculating the difference delay state of the return time, identifying the contacts of the operation event, acquiring the analysis use state of the operation parameters between the contacts, determining the switching type according to the delay state and the use state, and controlling the operation handle to switch a data interface according to the switching type. The application classifies the current delay state, determines the operation parameters in the interval statistics operation event through the contacts, classifies the operation busyness, determines whether to switch to the interface type with higher data transmission efficiency according to the operation delay severity and the operation busyness, and automatically selects the proper switching interface and switching ratio, thereby being capable of automatically switching the data interface of the operation handle and solving the problems of operation delay and poor sensitivity of the operation handle caused by signal overload.

Description

Method and device for accelerating response of operation handle system and intelligent game handle

Technical Field

The application relates to the technical field of operation handles, in particular to a response speed increasing method and device of an operation handle system and an intelligent game handle.

Background

The operating handle is deep in modern life and work and can be widely used for operating electronic games, mobile equipment and industrial instruments.

The moving rocker in most operating handles relies on two potentiometer-based modules on the X-axis and the Y-axis, the potentiometers measuring the voltage change of the moving rocker and relying on metal contacts that wear out over time. This may result in the movable rocker constantly recording voltage changes and taking up a lot of process memory, even in a stationary state. Meanwhile, when the internet server accessed by the operating handle is busy or fails and the background of the controller runs too many application programs, the transmission signals are accumulated excessively in a short time, and the phenomenon of operation delay possibly caused by the limitation of the data transmission speed is caused.

Disclosure of Invention

The application aims to provide a response speed increasing method and device for an operation handle system and an intelligent game handle, which can automatically switch a data interface of the operation handle and solve the problems of operation delay and poor sensitivity of the operation handle caused by signal overload.

The specific technical scheme of the application is as follows:

the first aspect of the application provides a response speed increasing method of an operation handle system, comprising the following steps:

acquiring an interface type of an operation handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging an interface state according to the return parameter and the standard return parameter;

if the interface state is a normal state, acquiring an operation event of the operation handle, calculating a return time difference of the operation event, and analyzing a delay state according to the return time difference;

identifying contacts of the operation event, acquiring operation parameters among the contacts, and analyzing a use state according to the operation parameters and historical operation parameters;

and determining a switching type according to the delay state and the use state, and controlling the operating handle to switch the data interface according to the switching type.

Further, the obtaining the return parameter and the standard return parameter according to the interface type specifically includes:

if the interface type is HDMI interface, obtaining TMDS differential level information;

and calling the differential signal pull-up voltage, the port impedance, the single-ended signal swing and the differential swing in the TMDS differential level information.

Further, the obtaining the return parameter and the standard return parameter according to the interface type specifically includes:

if the interface type is VGA interface, acquiring an analog image signal, a digital image signal and a compatible analog digital image signal;

and respectively calling signal time in the analog image signal, the digital image signal and the compatible analog digital image signal.

Further, the calculating the return time difference of the operation event specifically includes:

identifying a key object of the operation event, and acquiring the triggering time of the key object;

invoking a return time of the operation event;

and calculating the return time difference according to the trigger time and the return time.

Further, before calculating the return time difference of the operation event, the method further comprises:

acquiring a moving axis value and a calibration axis value of the operating handle;

judging a moving state according to the moving axis value and the calibration axis value;

and if the moving state is an abnormal state, modifying the moving axis value according to the calibration axis value, and then starting to calculate the return time difference of the operation event.

Further, the operation parameter is an operation frequency, and the operation parameter obtaining between the contacts is specifically:

acquiring a first measuring and calculating interval between the contacts and a weight value corresponding to the first measuring and calculating interval;

calculating the regional operation frequency in the first measuring and calculating interval;

and introducing the weight value to the regional operation frequency, and then accumulating and calculating to generate the operation frequency.

Further, the operation parameter is an operation amplitude, and the operation parameter obtaining between the contacts is specifically:

monitoring key pressure between the contacts, generating a second measuring and calculating interval according to the distribution condition of the key pressure, and calculating the pressure average value in the second measuring and calculating interval;

monitoring key displacement between the contacts, generating a third measuring and calculating interval according to the distribution condition of the key displacement, and calculating a displacement average value in the third measuring and calculating interval;

the pressure average and the displacement average constitute the operating amplitude.

Further, the transfer type includes a transfer interface and a transfer flux, and determining the transfer type according to the delay state and the usage state specifically includes:

acquiring an available interface type, and determining a transfer interface in the available interface type according to the delay state and the use state;

and acquiring available interface flux, and determining switching flux under the available interface flux according to the delay state and the use state.

A second aspect of the present application provides an operating handle system response speed increasing device, comprising:

the interface detection module is used for acquiring the interface type of the operating handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging the interface state according to the return parameter and the standard return parameter;

the delay analysis module is used for acquiring an operation event of the operation handle if the interface state is a normal state, calculating a return time difference of the operation event and analyzing a delay state according to the return time difference;

the use analysis module is used for identifying the contacts of the operation event, acquiring the operation parameters among the contacts and analyzing the use state according to the operation parameters and the historical operation parameters;

and the switching module is used for determining a switching type according to the delay state and the use state and controlling the operating handle to switch the data interface according to the switching type.

In a third aspect, the present application provides an intelligent game paddle that implements steps in the method of responding to a speed increase by the operation paddle system, or comprises modules in the device of responding to a speed increase by the operation paddle system.

In summary, the application provides a method and a device for accelerating response of an operation handle system and an intelligent game handle, which are used for acquiring return parameters according to interface types, judging interface states, acquiring operation events of the operation handle, calculating a return time difference delay state, identifying contacts of the operation events, acquiring operation parameter analysis use states among the contacts, determining a transfer type according to the delay states and the use states, and controlling the operation handle to switch a data interface according to the transfer type. The application judges whether the interface is in a normal access state according to the return parameters, and screens out the current effective access interface; when judging that the interface is normally accessed, starting a delay analysis process, and grading the current delay state; determining operation parameters in the interval statistics operation event through the contact points, and grading the operation busyness; and determining whether to switch to an interface type with higher data transmission efficiency according to the operation delay severity and the operation busyness, and automatically selecting a proper switching interface and switching ratio, so that the data interface of the operation handle can be automatically switched, and the problem of operation delay caused by busy current data processing is solved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a flow chart of a method of accelerating the response of the operating handle system of the present application;

FIG. 2 is a block diagram of the operation handle system response speed increasing device of the present application.

Detailed Description

In order to make the objects, features and advantages of the present application more obvious and understandable, the technical solutions of the embodiments of the present application are clearly and completely described, and it is apparent that the embodiments described below are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, fig. 1 is a flowchart of a response acceleration method of an operating handle system according to the present application.

The embodiment of the application provides a response accelerating method of an operation handle system, which comprises the following steps:

s1: acquiring an interface type of an operation handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging an interface state according to the return parameter and the standard return parameter;

s2: if the interface state is a normal state, acquiring an operation event of the operation handle, calculating a return time difference of the operation event, and analyzing a delay state according to the return time difference;

s3: identifying contacts of the operation event, acquiring operation parameters among the contacts, and analyzing a use state according to the operation parameters and historical operation parameters;

s4: and determining a switching type according to the delay state and the use state, and controlling the operating handle to switch the data interface according to the switching type.

As an example, the operation handle in S1 may be a game handle, and the interface type may support HDMI, VGA, or the like. The return parameters can be obtained through real-time differential level signals, analog image signals and the like, and the standard return parameters are fixed values or numerical ranges and can be determined according to information such as the model number, specification and the like of the operating handle. Judging whether the interface is in a normal access state according to the comparison condition of the return parameter and the standard return parameter, and screening out the current effective access interface to prepare for the subsequent interface switching.

And S2, when judging that the interface is normally accessed, starting a delay analysis process. The operation event refers to operation data generated in the background of the system after the user issues a command through the operation handle, and the return time difference of the operation event refers to the time interval between the user issuing the command to the system to execute the corresponding operation event, namely the time difference between the user operation and the feedback of the terminal. The current delay state can be classified according to the magnitude relation between the return time difference and a preset threshold value, and the current delay state can be used as a judgment basis for a subsequent speed-up decision.

And S3, the contact point of the operation event refers to a trigger time point of the operation event, and the operation parameters in the operation event are counted to better capture continuous and concentrated operation instructions through the contact point determination interval. The operation parameters reflect the user operation busyness and can include operation frequency, key pressure, handle displacement and the like. The historical operating parameters may be preset fixed values determined empirically from industry experience or empirical values determined from historical user usage data. And grading the operation busyness according to the magnitude comparison relation between the operation parameters and the historical operation parameters, and taking the operation busyness as a judgment basis for a subsequent speed-up decision.

And S4, determining whether to switch to an interface type with higher data transmission efficiency according to the operation delay severity and the operation busyness, and automatically selecting a proper transfer interface and a transfer ratio so as to solve the problem of operation delay caused by busy current data processing. If the interface is judged to be switched, the system judges the suitable switching type of the operation handle, including the type of the switched interface, the flux proportion of switching and the like, and the output data of the operation handle after switching is completed is subjected to data transmission through the high-efficiency transmission interface after switching, so that the response speed-up effect of the operation instruction is realized.

According to the embodiment of the application, the acquisition of the return parameter and the standard return parameter according to the interface type is specifically as follows:

if the interface type is HDMI interface, obtaining TMDS differential level information;

and calling the differential signal pull-up voltage, the port impedance, the single-ended signal swing and the differential swing in the TMDS differential level information.

As an embodiment, when the system obtains the HDMI interface access, the TMDS differential level used by the HDMI interface is obtained, then the voltage sensor is connected to obtain the current 100ms differential signal pull-up voltage of the HDMI interface, the resistive sensor is connected to obtain the current 100ms port impedance of the HDMI interface, and the current 100ms single-ended signal swing and differential swing of the HDMI interface are obtained. Meanwhile, the system connection cloud acquires a differential signal pull-up voltage (such as 3.3V), port impedance (such as 50Ω), single-ended signal swing (400-600 mV, nominal 500 mV) and differential swing (800-1200 mV), wherein the actual differential voltage swing can be 150-1200 mV) under normal use of the HDMI interface.

The system compares the four return parameters respectively, and when the numerical differences are smaller than 8%, the system judges that the HDMI interface is in a normal state; when the numerical value difference is not less than 8%, the system judges that the HDMI interface is in an abnormal state. Meanwhile, the system controls the automatic alarm module to alarm for 3 seconds, stops the input and output of the HDMI interface, uploads error data to the cloud, and returns the error data to the intelligent operation handle connection screen to carry out error reminding.

According to the embodiment of the application, the acquisition of the return parameter and the standard return parameter according to the interface type is specifically as follows:

if the interface type is VGA interface, acquiring an analog image signal, a digital image signal and a compatible analog digital image signal;

and respectively calling signal time in the analog image signal, the digital image signal and the compatible analog digital image signal.

As an embodiment, when the system acquires the VGA interface access, the system acquires the time when the VGA interface transmits the transmissible pure analog image signal and extracts the pure analog image signal, acquires the time when the VGA interface transmits the transmissible pure digital image signal and purifies the digital image signal, and acquires the time when the VGA interface transmits the compatible analog digital image signal and extracts the compatible analog digital image signal.

The system compares the three return parameters respectively, and when the numerical differences are smaller than 30%, the system judges that the VGA interface is in a normal state; when the numerical value difference is not less than 30%, the system judges that the VGA interface is in an abnormal state. Meanwhile, the system controls the automatic alarm module to alarm for 3 seconds, stops the input and output of the VGA interface, uploads error data to the cloud, and returns the error data to the intelligent operation handle to be connected with a screen for error reminding.

According to the embodiment of the application, the calculation of the return time difference of the operation event is specifically as follows:

identifying a key object of the operation event, and acquiring the triggering time of the key object;

invoking a return time of the operation event;

and calculating the return time difference according to the trigger time and the return time.

As an embodiment, the key object may comprise a directional rocker or a button, the time difference being determined by the difference in key duration and usage habits of the two, respectively. The system acquires a specific key which can indicate to trigger an operation event, acquires the triggering time of the specific key and the return time of the corresponding operation event through an operation event callback, and calculates the return time difference. Meanwhile, the system connection cloud acquires a normal operation event standard return time difference under the configuration of the operation handle.

Comparing the calculated return time difference with a standard return time difference, and if the former is higher than the latter by less than 120%, judging that the system is in a low-delay mode, namely that the operation movement of the equipment corresponding to the physical movement is basically consistent with the set standard; if the former is higher than the latter by 120% or more and smaller than 160%, the system judges that the system is in a medium delay mode; if the former is higher than the latter by 160% or more, the system determines a high delay mode.

According to an embodiment of the present application, before calculating the return time difference of the operation event, the method further includes:

acquiring a moving axis value and a calibration axis value of the operating handle;

judging a moving state according to the moving axis value and the calibration axis value;

and if the moving state is an abnormal state, modifying the moving axis value according to the calibration axis value, and then starting to calculate the return time difference of the operation event.

As an embodiment, the return time difference is affected by the conditions such as rocker drift, in addition to the data transmission, and the operating handle needs to be pre-corrected to clear the partially occupied invalid memory. The system will acquire input objects from the joystick and shoulder triggers whose operational events bear a set of axis values describing the position and other movement attributes of the particular physical control. The system obtains the moving axis values of the input objects through a calling program, and the connecting device obtains the normal effective axis values through configuration parameters. When the moving axis value is inconsistent with the effective standard axis value, namely the operation movement of the equipment corresponding to the physical movement is inconsistent with the set standard, the system judges that the moving state is abnormal, then a moving error correction program is started, and the system is restarted to detect the delay state again 100ms after the error correction is finished.

According to the embodiment of the application, the operation parameter is an operation frequency, and the operation parameter obtaining between the contacts is specifically:

acquiring a first measuring and calculating interval between the contacts and a weight value corresponding to the first measuring and calculating interval;

calculating the regional operation frequency in the first measuring and calculating interval;

and introducing the weight value to the regional operation frequency, and then accumulating and calculating to generate the operation frequency.

As an embodiment, the first measurement interval refers to a statistical range of operation frequencies, and may be preset by the system to be 300ms, 100ms, etc. If there is a single-key multi-click case within 300ms, the number of key contacts within this range is multiplied by 2 and if there is a single-key multi-click case within 100ms, the number of key contacts within this range is multiplied by 3. And the system generates the operation frequency within 10s according to the regional operation frequency addition calculation, and meanwhile, the cloud end is connected to acquire the average operation frequency within 10s used by the user daily.

When the operation frequency is higher than the average operation frequency by more than 100%, the system judges that the use state is busy; when the operation frequency is higher than the average operation frequency by 20-100%, the system judges that the use state is normal; when the operation frequency is higher than the average operation frequency and lower than 20%, the system judges that the use state is idle.

According to the embodiment of the application, the operation parameter is an operation amplitude, and the operation parameter obtaining between the contacts is specifically:

monitoring key pressure between the contacts, generating a second measuring and calculating interval according to the distribution condition of the key pressure, and calculating the pressure average value in the second measuring and calculating interval;

monitoring key displacement between the contacts, generating a third measuring and calculating interval according to the distribution condition of the key displacement, and calculating a displacement average value in the third measuring and calculating interval;

the pressure average and the displacement average constitute the operating amplitude.

As an embodiment, the second measurement interval refers to a statistical range of key pressures, and may be an interval where the key pressures exceed the average key pressures of the user, and the pressure average is calculated under the interval to pull the screening level of the pressure index. After the system acquires the key operation of the user, starting the pressure sensor to acquire the key pressure in the user 10s, connecting the cloud to acquire the daily average key pressure of the user 10s, and intercepting the second measuring and calculating interval to generate a pressure average value.

The operation displacement refers to the amplitude of shake and movement of the operation handle during the operation of the user. The third measuring and calculating interval refers to the statistical range of the key displacement, and can be an interval section for intercepting the key displacement exceeding the daily average key displacement of the user, and a screening level for calculating the displacement average value under the interval section can pull the displacement index more. The system acquires the current x-axis (left and right) y-axis (up and down) moving distance (up and down distance 23cm, left and right distance 21 cm) of the user by using a displacement sensor after the user performs key operation, and simultaneously connects the cloud to acquire the current x-axis (left and right) y-axis (up and down) moving distance (up and down distance 14.3cm, left and right distance 16.2 cm) of the user by daily use of 10s, and the third measuring and calculating interval is intercepted to generate a displacement average value.

Respectively comparing the pressure average value with the average key pressure and the displacement average value with the average key displacement, and judging that the use state is busy when the pressure average value and the displacement average value are higher than the average level by more than 160%; when the pressure average value and the displacement average value are higher than the average level by 120-160%, the system judges that the use state is normal; when the pressure average value and the displacement average value are higher than the average level by 100-120%, the system judges that the use state is idle.

According to an embodiment of the present application, the transfer type includes a transfer interface and a transfer flux, and determining the transfer type according to the delay state and the usage state specifically includes:

acquiring an available interface type, and determining a transfer interface in the available interface type according to the delay state and the use state;

and acquiring available interface flux, and determining switching flux under the available interface flux according to the delay state and the use state.

As an embodiment, a currently available switching interface, switching rate or switching flux suitable for speed up is selected according to the delay degree and the busyness of use, and the speed up of data processing with the current data transmission volume as an operation instruction is adapted. The available interfaces refer to interfaces which have been normally accessed and are in an idle state, and the type and flux information of the interfaces can be obtained by interface configuration information.

Assuming that the current interface type is an HDMI interface, when the delay state is high delay or the use state is busy, the system switches 100% of data transmission of the joystick and the shoulder trigger to VGA interface output and input, monitors the delay state and the use state again, and if the state is not changed yet, can further control 100% of data transmission of operation events generated by the direction joystick and the button to be switched to VGA interface output and input. When the delay state is middle delay and the use state is normal, the system switches 40-100% of data transmission of the operating lever and the shoulder trigger to VGA interface output and input, monitors the delay state and the use state again, and if the state is not changed, can further control 40-100% of data transmission of operation events generated by the direction rocker and the button to be switched to VGA interface output and input. When the delay state is low delay or the use state is idle, the system judges that the current data transmission requirement can be met without switching an interface.

Referring to fig. 2, fig. 2 is a block diagram of a response speed increasing device of an operating handle system according to the present application.

The embodiment of the application also provides a response speed-increasing device of the operating handle system, which comprises:

the interface detection module 1 is used for acquiring the interface type of the operation handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging the interface state according to the return parameter and the standard return parameter;

the delay analysis module 2 is used for acquiring an operation event of the operation handle if the interface state is a normal state, calculating a return time difference of the operation event, and analyzing a delay state according to the return time difference;

the use analysis module 3 is used for identifying the contacts of the operation event, acquiring the operation parameters among the contacts and analyzing the use state according to the operation parameters and the historical operation parameters;

and the switching and switching module 4 is used for determining a switching type according to the delay state and the use state and controlling the operating handle to switch the data interface according to the switching type.

According to the embodiment of the application, the interface detection module is specifically used for:

if the interface type is HDMI interface, obtaining TMDS differential level information;

and calling the differential signal pull-up voltage, the port impedance, the single-ended signal swing and the differential swing in the TMDS differential level information.

According to the embodiment of the application, the interface detection module is specifically used for:

if the interface type is VGA interface, acquiring an analog image signal, a digital image signal and a compatible analog digital image signal;

and respectively calling signal time in the analog image signal, the digital image signal and the compatible analog digital image signal.

According to an embodiment of the present application, the delay analysis module is specifically configured to:

identifying a key object of the operation event, and acquiring the triggering time of the key object;

invoking a return time of the operation event;

and calculating the return time difference according to the trigger time and the return time.

According to an embodiment of the present application, the delay analysis module is further configured to:

acquiring a moving axis value and a calibration axis value of the operating handle;

judging a moving state according to the moving axis value and the calibration axis value;

and if the moving state is an abnormal state, modifying the moving axis value according to the calibration axis value, and then starting to calculate the return time difference of the operation event.

According to an embodiment of the present application, the usage analysis module is specifically configured to:

acquiring a first measuring and calculating interval between the contacts and a weight value corresponding to the first measuring and calculating interval;

calculating the regional operation frequency in the first measuring and calculating interval;

and introducing the weight value to the regional operation frequency, and then accumulating and calculating to generate the operation frequency.

According to an embodiment of the present application, the usage analysis module is specifically configured to:

monitoring key pressure between the contacts, generating a second measuring and calculating interval according to the distribution condition of the key pressure, and calculating the pressure average value in the second measuring and calculating interval;

monitoring key displacement between the contacts, generating a third measuring and calculating interval according to the distribution condition of the key displacement, and calculating a displacement average value in the third measuring and calculating interval;

the pressure average and the displacement average constitute the operating amplitude.

According to an embodiment of the present application, the transit switching module is specifically configured to:

acquiring an available interface type, and determining a transfer interface in the available interface type according to the delay state and the use state;

and acquiring available interface flux, and determining switching flux under the available interface flux according to the delay state and the use state.

The embodiment of the application also provides an intelligent game handle which realizes each step in the response speed increasing method of the operation handle system or comprises each module in the response speed increasing device of the operation handle system.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. A method for accelerating response of an operating handle system, comprising the steps of:

acquiring an interface type of an operation handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging an interface state according to the return parameter and the standard return parameter;

if the interface state is a normal state, acquiring an operation event of the operation handle, calculating a return time difference of the operation event, and analyzing a delay state according to the return time difference;

identifying contacts of the operation event, acquiring operation parameters among the contacts, and analyzing a use state according to the operation parameters and historical operation parameters;

and determining a switching type according to the delay state and the use state, and controlling the operating handle to switch the data interface according to the switching type.

2. The method for accelerating response of an operation handle system according to claim 1, wherein the acquiring the return parameter and the standard return parameter according to the interface type is specifically as follows:

if the interface type is HDMI interface, obtaining TMDS differential level information;

and calling the differential signal pull-up voltage, the port impedance, the single-ended signal swing and the differential swing in the TMDS differential level information.

3. The method for accelerating response of an operation handle system according to claim 1, wherein the acquiring the return parameter and the standard return parameter according to the interface type is specifically as follows:

if the interface type is VGA interface, acquiring an analog image signal, a digital image signal and a compatible analog digital image signal;

and respectively calling signal time in the analog image signal, the digital image signal and the compatible analog digital image signal.

4. The method for accelerating the response of an operating handle system according to claim 1, wherein calculating the return time difference of the operating event is specifically:

identifying a key object of the operation event, and acquiring the triggering time of the key object;

invoking a return time of the operation event;

and calculating the return time difference according to the trigger time and the return time.

5. The method of claim 1, further comprising, prior to calculating the return time difference for the operational event:

acquiring a moving axis value and a calibration axis value of the operating handle;

judging a moving state according to the moving axis value and the calibration axis value;

and if the moving state is an abnormal state, modifying the moving axis value according to the calibration axis value, and then starting to calculate the return time difference of the operation event.

6. The method for accelerating response of an operating handle system according to claim 1, wherein the operating parameter is an operating frequency, and the acquiring the operating parameter between the contacts is specifically:

acquiring a first measuring and calculating interval between the contacts and a weight value corresponding to the first measuring and calculating interval;

calculating the regional operation frequency in the first measuring and calculating interval;

and introducing the weight value to the regional operation frequency, and then accumulating and calculating to generate the operation frequency.

7. The method for accelerating the response of an operating handle system according to claim 1, wherein the operating parameter is an operating amplitude, and the acquiring the operating parameter between the contacts is specifically:

monitoring key pressure between the contacts, generating a second measuring and calculating interval according to the distribution condition of the key pressure, and calculating the pressure average value in the second measuring and calculating interval;

monitoring key displacement between the contacts, generating a third measuring and calculating interval according to the distribution condition of the key displacement, and calculating a displacement average value in the third measuring and calculating interval;

the pressure average and the displacement average constitute the operating amplitude.

8. The method for accelerating response of an operation handle system according to claim 1, wherein the transfer type comprises a transfer interface and a transfer flux, and the determination of the transfer type according to the delay state and the use state is specifically as follows:

acquiring an available interface type, and determining a transfer interface in the available interface type according to the delay state and the use state;

and acquiring available interface flux, and determining switching flux under the available interface flux according to the delay state and the use state.

9. An operating handle system response speed increasing device, characterized in that the operating handle system response speed increasing device comprises:

the interface detection module is used for acquiring the interface type of the operating handle, acquiring a return parameter and a standard return parameter according to the interface type, and judging the interface state according to the return parameter and the standard return parameter;

the delay analysis module is used for acquiring an operation event of the operation handle if the interface state is a normal state, calculating a return time difference of the operation event and analyzing a delay state according to the return time difference;

the use analysis module is used for identifying the contacts of the operation event, acquiring the operation parameters among the contacts and analyzing the use state according to the operation parameters and the historical operation parameters;

and the switching module is used for determining a switching type according to the delay state and the use state and controlling the operating handle to switch the data interface according to the switching type.

10. An intelligent game handle, wherein the intelligent game handle realizes each step in the response speed increasing method of the operation handle system according to any one of claims 1-8 or comprises each module in the response speed increasing device of the operation handle system according to claim 9.