CN111045581B

CN111045581B - Page sliding control method, device, equipment and storage medium

Info

Publication number: CN111045581B
Application number: CN201911154457.7A
Authority: CN
Inventors: 陈少峰; 李全; 董梦瑶; 郑宇翔
Original assignee: Anhui Tingjian Technology Co ltd
Current assignee: Anhui Tingjian Technology Co ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2022-06-07
Anticipated expiration: 2039-11-22
Also published as: CN111045581A

Abstract

The application provides a page sliding control method, a device, equipment and a storage medium, wherein the method comprises the following steps: obtaining relevant information of the sliding operation of the time, wherein the relevant information of the sliding operation of the time at least comprises a sliding operation distance, a sliding operation strength, a sliding speed at the end of the sliding operation, a sliding operation track and a sliding operation direction; determining an inertia sliding speed attenuation parameter and inertia sliding duration according to the relevant information of the sliding operation; and controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration. By executing the scheme, the inertial sliding of the target display page can be matched with the sliding operation of the user, so that the inertial sliding of the display page meets the requirements and the wishes of the user.

Description

Page sliding control method, device, equipment and storage medium

Technical Field

The present disclosure relates to the field of automatic control technologies for electronic devices, and in particular, to a method, an apparatus, a device, and a storage medium for controlling page sliding.

Background

With the development of science and technology, a touch screen is generally assembled on the existing mobile terminal, and a user refreshes the display content of the screen through sliding operation on the touch screen.

In order to improve the operation experience of the user, when the mobile terminal senses that the user finishes the sliding operation at a non-zero speed, the mobile terminal controls the display page to perform inertial sliding for a certain time, so that the display page is still updated for a period of time after the sliding operation of the user, and the user can conveniently and quickly update the display content of the page.

The existing page inertial sliding process is relatively fixed and cannot be adjusted along with the change of the sliding operation of a user, and the problem that the inertial sliding process is not matched with the sliding operation of the user exists.

Disclosure of Invention

Based on the above problems, the present application provides a page sliding control method, device, apparatus, and storage medium, which can control inertial sliding of a displayed page in a manner according with a user operation habit, so that the inertial sliding of the page matches with the user sliding operation.

A page sliding control method comprises the following steps:

obtaining relevant information of the sliding operation of the time, wherein the relevant information of the sliding operation of the time at least comprises a sliding operation distance, a sliding operation strength, a sliding speed at the end of the sliding operation, a sliding operation track and a sliding operation direction;

determining an inertia sliding speed attenuation parameter and inertia sliding duration according to the relevant information of the sliding operation;

and controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration.

A page sliding control apparatus comprising:

the data acquisition unit is used for acquiring relevant information of the sliding operation of the time, which acts on the target page, wherein the relevant information of the sliding operation of the time at least comprises a sliding operation distance, a sliding operation strength, a sliding speed when the sliding operation is finished, a sliding operation track and a sliding operation direction;

the data processing unit is used for determining inertia sliding speed attenuation parameters and inertia sliding duration according to the relevant information of the sliding operation;

and the sliding control unit is used for controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration.

A page sliding control apparatus comprising:

a memory and a processor;

wherein the memory is connected with the processor and used for storing programs;

the processor is used for realizing the page sliding control method by running the program stored in the memory.

A storage medium having stored thereon a computer program which, when executed by a processor, implements the page sliding control method described above.

According to the page sliding control method, relevant information of the sliding operation which acts on the target display page at this time is processed, inertia sliding speed attenuation parameters and inertia sliding duration are determined, and inertia sliding of the target display page is controlled according to the inertia sliding speed attenuation parameters and the inertia sliding duration. By executing the scheme, the inertial sliding of the target display page can be matched with the sliding operation of the user, so that the inertial sliding of the display page meets the requirements and the wishes of the user.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic diagram illustrating a touch screen manipulation according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating a user performing a sliding operation on a touch screen according to an embodiment of the present disclosure;

fig. 3 is a schematic flowchart of a page sliding control method according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a page inertial sliding velocity decay curve provided by an embodiment of the present application;

fig. 5 is a schematic flowchart of another page sliding control method provided in the embodiment of the present application;

FIG. 6 is a flowchart illustrating another page sliding control method according to an embodiment of the present application;

FIG. 7 is a flowchart illustrating a process for determining a weight of information related to a sliding operation according to an embodiment of the present disclosure;

FIG. 8 is a schematic flow chart of a process for determining the duration of an inertial slip according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a page control apparatus according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a page control device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides a page inertial sliding control method, which can be applied to terminal devices equipped with a touch screen, such as a mobile phone, a tablet computer, an electronic reader and the like, wherein the terminal devices display a display page to a user through the touch screen, and meanwhile, the user performs touch, sliding and other operations on the touch screen by using a finger or other touch parts such as a touch pen and the like, so as to control the terminal devices.

As shown in fig. 1, when the terminal device touches the touch screen to display a news page, the user can control the display page to slide upwards by using a finger to perform an upwards sliding operation on the touch screen. The effect of the upward sliding of the display page is that the display content of the page moves upwards along with the upward sliding of the finger of the user, the display content reaching the top of the display area of the touch screen disappears in sequence, and meanwhile, new display content appears at the bottom of the display area of the touch screen in sequence, so that the continuous updating of the display content is achieved. When the user stops the finger sliding, the touch screen keeps displaying the current content.

In order to facilitate the user to refresh the page display content quickly, the terminal device with the touch screen is generally configured to: when the sliding operation of the user on the touch screen is finished, for example, when the finger of the user leaves the touch screen after sliding a distance on the touch screen, if the speed of the finger is not zero, the display page of the touch screen is controlled to perform inertial sliding for a period of time.

For example, as shown in fig. 2, when a user browses page news content, the content at the beginning of the news may not be interested, but rather, the user may wish to directly view news conclusions, and at this time, the user may perform a fast sliding operation on the touch screen to quickly refresh the displayed page and quickly find the news conclusion. For example, the user's finger starts to slide upward from the point a to the touch screen, and if the user's finger is lifted off the touch screen when it slides quickly to the point B, the user's sliding operation ends. In this process, the terminal device senses that the speed of the user at the end of the sliding operation is a non-zero speed, and at this time, the terminal device controls the display page of the terminal device to start upward inertial sliding with the sliding speed of the user's finger when the finger lifts off the touch screen at the point B as an initial speed. Assuming that the sliding speed of the user's finger when the user's finger lifts off the touch screen at point B is V0, the terminal device controls its displayed page to start to slide inertially upward at an initial speed of V0. During the inertial sliding process of the display page, the sliding speed of the display page gradually attenuates, after the inertial sliding of a certain time T, the sliding speed of the display page attenuates to zero, and at the moment, the inertial sliding of the display page is stopped, and the display content is kept unchanged.

Therefore, the inertial sliding process of the display page enables a user to refresh more display contents by one sliding operation, so that the user can refresh the display contents of the touch screen more quickly.

In the process of actually applying the terminal device with the touch screen by the user, the sliding operation of the user is randomly changed according to various factors such as mood, interest and requirements of the user. In some cases, the user may be interested in the displayed content, and at this time, the user wants to read the content of the displayed page carefully, so that the sliding operation is more moderate. In some cases, the user may be less interested in the displayed content, or the user may need to quickly browse the displayed content due to time pressure, and the sliding operation of the user may be urgent.

Because the content of the page watched by the user through the terminal equipment is varied and the situation of the user through the terminal equipment is different, the sliding operation of the user has high randomness, and different page sliding effects can be brought when any one of the distance, the force, the direction, the track, the speed and the like of the sliding operation of the user is changed. At this time, how to control the inertial sliding of the terminal display page, so that the inertial sliding process can meet the user's desire, becomes a difficult problem to be solved.

The page sliding control method provided by the embodiment of the application aims to control the inertial sliding process of the screen display page so that the inertial sliding process is matched with the sliding operation of a user.

It should be noted that the focus of the embodiment of the present application is to control the page sliding process, and in particular, to control the sliding duration and the speed attenuation process of the page inertial sliding, so as to match the page inertial sliding process with the user sliding operation as a whole. As for the specific implementation process of the above-mentioned sliding of the screen display page and the inertial sliding of the screen display page so as to update the display content thereof, reference may be made to the implementation of the prior art, and the present application does not improve the processing process of updating the display content by the sliding of the screen display page, and therefore, detailed description thereof is omitted.

Referring to fig. 3, a page sliding control method provided in the embodiment of the present application includes:

s301, obtaining relevant information of the sliding operation of the time, which acts on the target page, wherein the relevant information of the sliding operation of the time at least comprises a sliding operation distance, a sliding operation strength, a sliding speed when the sliding operation is finished, a sliding operation track and a sliding operation direction;

specifically, the information related to the current sliding operation is information related to the current sliding operation, which is acquired when the user finishes performing the sliding operation on the touch screen. The sliding operation of the user on the touch screen includes, but is not limited to, a sliding operation of the user directly using a finger on the touch screen, or a sliding operation of the user performed on the touch screen by a touch device such as a stylus.

The above-described slide operation is specifically a slide operation in which the slide speed at the end is non-zero, that is, a slide operation capable of causing inertial sliding of a page.

The information related to the sliding operation includes the distance of the sliding operation, the strength of the sliding operation, the sliding speed at the end of the sliding operation, the sliding operation track, the sliding operation direction, and the like.

The distance of the sliding operation is a linear distance from the start position to the end position of the sliding operation, for example, as shown in fig. 2, a linear distance between a point a and a point B is a distance of the sliding operation. For example, the distance of the sliding operation may be measured in units of length or in units of pixels.

The strength of the sliding operation refers to a pressure applied to the surface of the touch screen during the sliding operation performed by the user. Generally, when a user needs to slide a display page quickly, the sliding operation strength is increased; when the user needs to read the content of the displayed page relatively carefully, the sliding operation is performed with a small force. Therefore, the force of the sliding operation of the user can reflect the reading requirement of the user to a certain extent.

The sliding speed at the end of the sliding operation refers to the sliding speed of the display page at the end of the sliding operation of the user, and since the sliding of the display page is synchronized with the sliding of the finger or the touch device of the user during the sliding operation of the user, the sliding speed is actually the sliding speed of the finger or the touch device on the touch screen at the end of the sliding operation. For example, as shown in fig. 2, when the user's finger is lifted off the touch screen from a point a to a point B, the sliding speed of the user's finger when lifted off the touch screen at the point B is the sliding speed at the end of the sliding operation, that is, the sliding speed of the displayed page at the end of the sliding operation of the user.

The sliding operation trajectory refers to a trajectory of a sliding operation occurring on the touch screen, and the sliding operation trajectory can be represented by position coordinates on the touch screen.

The sliding operation direction refers to a direction of the sliding operation of the user with respect to the touch screen, for example, as shown in fig. 2, the direction of the sliding operation of the user is upward, or the user may perform the sliding operation in left, right, downward, upper left, lower left, upper right, lower right, and the like on the touch screen. It can be appreciated that the direction of the user's swipe operation directly affects the distance and speed of the inertial swipe of the page. For example, the distance and speed of the upward sliding operation performed by the user are larger relative to the page sliding caused by the upward and leftward sliding operation performed by the user.

It should be noted that, in the embodiment of the present application, the inertial sliding direction of the display page of the touch screen is set to be a direction with a larger component in the up, down, left, and right directions of the user sliding operation. For example, assuming that a user performs a certain sliding operation in the left-upper direction, if the component of the sliding operation in the left direction is larger than the component in the upward direction, the page is controlled to slide to the left; if the component of the sliding operation in the upward direction is larger than the component in the leftward direction, the page is controlled to slide upward.

In addition, the screen display direction during the sliding operation is also collected as one of the relevant information of the sliding operation. For example, whether the touch screen is displayed across the screen, etc.

For example, the related information of the sliding operation may be obtained by acquiring a corresponding signal and calculating the signal by using a corresponding sensor or a signal collector built in the terminal device when the sliding operation is finished.

S302, determining an inertia sliding speed attenuation parameter and inertia sliding duration according to the relevant information of the sliding operation;

specifically, the inertia slip velocity damping parameter is a parameter that affects a damping rate of the inertia slip velocity. The number of the inertia slip speed decay parameters may be one or more, wherein each inertia slip speed decay parameter is used as an influence factor influencing the decay rate of the inertia slip speed.

For example, when the first inertial sliding velocity attenuation parameter is larger and the second inertial sliding velocity attenuation parameter is smaller, the inertial sliding velocity of the page is attenuated faster in the early stage and is attenuated slower in the later stage; when the first inertial sliding speed attenuation parameter is smaller and the second inertial sliding speed attenuation parameter is larger, the speed of the inertial sliding of the page is attenuated slowly in the early stage and is attenuated quickly in the later stage. Or when the inertial sliding speed attenuation parameter is a fixed value, the inertial sliding speed of the page is attenuated at a constant speed according to a speed matched with the fixed value.

The duration of the inertial sliding is the duration of the inertial sliding of the displayed page, that is, the duration of the inertial sliding decaying from the initial speed to zero. For example, assuming that it takes 10 seconds for a certain displayed page coast to begin until the speed is reduced to zero, the displayed page coast lasts 10 seconds.

It is understood that when the inertial slip velocity decay parameter and the inertial slip duration are determined, the speed change at which the display page is slid and the inertial slip duration are determined, that is, the entire inertial slip process of the display page is determined, and the inertial slip of the display page can be controlled based on the inertial slip process of the display page.

Therefore, after the relevant information of the sliding operation is acquired, the inertia sliding speed attenuation parameter and the inertia sliding duration are determined based on the relevant information, and the inertia sliding speed attenuation parameter and the inertia sliding duration are further used for controlling the inertia sliding of the display page.

Illustratively, the inertia sliding speed attenuation parameter and the inertia sliding duration matched with the inertia sliding speed attenuation parameter can be determined by analyzing the distance, the strength, the speed, the track, the direction and the like of the sliding operation of the user and combining with a pre-configured inertia sliding control scheme. For example, if the distance, the force and the speed of the sliding operation of the user are longer, the duration of the inertial sliding is set to be longer, and the inertial sliding speed attenuation parameter is set to make the inertial sliding speed of the displayed page attenuate more slowly, so that the inertial sliding formed by the sliding operation of the user brings more page content refreshing.

S303, controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration.

Specifically, after the inertia sliding speed decay parameter and the inertia sliding duration are respectively determined in step S302, the embodiment of the present application controls the target page to start inertia sliding, where the sliding duration is the inertia sliding duration, and during the inertia sliding, the sliding speed of the target page is controlled to decay according to the inertia sliding speed decay parameter, with the sliding speed at the end of the sliding operation as the initial speed, until the sliding reaches the duration, the sliding speed decays to zero, and thus the entire inertia sliding process is ended.

For example, in the embodiment of the present application, first, an inertia sliding speed attenuation mode is determined according to the inertia sliding speed attenuation parameter and the inertia sliding duration; and then, controlling the inertial sliding of the target page according to the inertial sliding speed attenuation mode.

Specifically, the embodiment of the present application sets an inertia sliding speed attenuation function in advance:

B(t)＝P₀(1-t)³+3P₁t(1-t)²+3P₂t²(1-t)²+P₃t³

wherein, P₀Represents a velocity decay of 0%, P₃Represents a velocity decay of 100%, P₁And P₂Respectively represents inertia sliding speed attenuation parameters, and t is [0,1 ]]It is used to indicate the degree of completion of the inertia slip, that is, the ratio of the duration of the inertia slip to the duration of the total inertia slip. When the inertial slip lasts for a period of time t₁When determined, the display page passes t₀The inertia slip completion degree t after the long inertia slip is t ═ t₀/t₁。

The function represents the entire inertial slipVelocity decay curve of course, such as that shown in FIG. 4, which reflects the inertial slip velocity decay pattern, wherein the shape of the curve is given by P₁And P₂Two points, namely the inertial slip velocity decay parameter. Shown in FIG. 4, when P is₁Is greater than P₂When smaller, the inertial slip velocity of the display page decays rapidly in the early stages and slowly in the later stages.

When the inertia sliding velocity attenuation parameter P is mentioned₁And P₂And the duration of the inertial slip t₁When the speed damping curve is determined, the speed damping mode in the whole inertia sliding process is determined.

When the initial speed of the inertial sliding of the display page is determined, the speed of the display page after the inertial sliding for any time can be calculated and determined through the inertial sliding speed attenuation function, namely, the speed of each moment of the inertial sliding can be determined according to the inertial sliding speed attenuation function.

Furthermore, according to the determined speed of each moment of inertial sliding, the purpose of controlling inertial sliding of the display page can be achieved by controlling the inertial sliding speed of the display page. Moreover, since the inertia slip speed attenuation parameter and the inertia slip duration are determined according to the relevant information of the current sliding operation of the user, it can be determined that the inertia slip control on the display page according to the processing procedure is in accordance with the sliding operation of the user, that is, in accordance with the user requirement.

Alternatively, when the inertia slip speed decay parameter and the inertia slip duration are respectively determined, before the inertia slip of the display page starts, the speed of the display page after inertia slip at any time is determined by calculation according to the inertia slip speed decay function, for example, the speed of the display page after 1 second of slip, the speed after 2 seconds of slip, the speed after 3 seconds of slip, and the like are determined by calculation, and then, after the inertia slip of the display page starts, the slip speed is controlled according to the calculation result. Or, the sliding speed of the display page can be calculated in real time according to the function in the inertial sliding process of the display page and used for controlling the sliding speed of the display page.

The embodiment of the application does not limit the specific control implementation manner of the inertial sliding of the display page, but focuses on controlling the inertial sliding of the display page by calculating the sliding speed attenuation parameter and the inertial sliding duration and according to the sliding speed bad part parameter and the inertial sliding duration, so that the inertial sliding process of the display page is matched with the sliding operation of the user.

It can be determined through the above description that the page sliding control method provided in the embodiment of the present application determines the inertia sliding speed attenuation parameter and the inertia sliding duration by processing the relevant information of the current sliding operation that acts on the target display page, and controls the inertia sliding of the target display page according to the inertia sliding speed attenuation parameter and the inertia sliding duration. By executing the scheme, the inertial sliding of the target display page can be matched with the sliding operation of the user, so that the inertial sliding of the display page meets the requirements and the wishes of the user.

As an exemplary implementation manner, referring to fig. 5, an embodiment of the present application discloses that determining an inertia slip speed attenuation parameter and an inertia slip duration according to the information related to the current slip operation includes:

s502, respectively determining the weight of each item of relevant information of the sliding operation;

specifically, according to the importance and specific value of each item of relevant information of the current sliding operation, the embodiment of the present application allocates a weight to the relevant information.

For example, in the embodiment of the present application, each item of related information of the sliding operation is divided into different information groups for weight assignment. The first information group mainly comprises sliding operation force, sliding speed when the sliding operation is finished, sliding operation tracks and the like; the second information group mainly includes a slide operation distance, a slide operation direction, and the like.

Wherein, the total weight of the first information group is 60 percent to 70 percent, and all the items are equally weighted; the total weight of the second information group is 30-40%, wherein all the items are equally weighted. And the sum of the weights of the related information in the first information group and the second information group is 1.

And according to the weight distribution rule, carrying out weight distribution on each item of relevant information of the sliding operation, namely determining the weight of each item of relevant information.

S503, determining a first inertial sliding velocity attenuation parameter according to the weight of the sliding operation force of the sliding operation, the weight of the sliding velocity when the sliding operation is finished and the weight of the sliding operation track;

determining a second inertia sliding speed attenuation parameter according to the weight of other related information of the sliding operation;

specifically, the first inertial slip velocity damping parameter corresponds to a point P1 in the velocity damping curve shown in fig. 4, and the second inertial slip velocity damping parameter corresponds to a point P2 in the velocity damping curve shown in fig. 4.

In the embodiment of the present application, if the weight of each item of related information in the first information group is greater, the closer the abscissa of the point P1 is to the abscissa of the point P0, and the farther the distance between the ordinate of the point P1 and the ordinate of the point P0 is; if the weights of the items of related information in the second information group are larger, the abscissa of the point P2 is closer to the abscissa of the point P3, while the ordinate of the point P2 is closer to the ordinate of the point P3.

According to the above rule, in addition to the initial positions of the points P1 and P2, the coordinates of the point P1 are adjusted to determine a first inertial sliding velocity damping parameter based on the weight of the sliding operation force of the current sliding operation, the weight of the sliding velocity at the end of the sliding operation, and the weight of the sliding operation trajectory (the weight of the first information group), and the coordinates of the point P2 are adjusted to determine a second inertial sliding velocity damping parameter based on the weights of other related information (the weight of the second information group).

S504, determining the inertia sliding duration according to at least the first inertia sliding speed attenuation parameter.

It can be determined from the velocity decay curve shown in fig. 4 that the greater the absolute value of the coordinate at point P1, the faster the decay of the page inertial slip velocity in the pre-inertial slip phase. The faster the page coast speed decays in the early stages of coast, the shorter the distance and duration of coast, so the coordinate of point P1, i.e., the first coast decay parameter, directly affects the coast duration. Meanwhile, the coordinate of the point P2 also has an influence on the speed attenuation condition and the sliding time length of the inertial sliding, but the influence is not as obvious as the influence of the coordinate of the point P1.

Therefore, the inertia sliding duration is determined by taking the first inertia sliding speed attenuation parameter as a main parameter and combining the second inertia sliding speed attenuation parameter.

Steps S501 and S505 in the method embodiment shown in fig. 5 correspond to steps S301 and S303 in the method embodiment shown in fig. 3, respectively, and for specific contents, reference is made to the contents of the method embodiment shown in fig. 3, which is not described herein again.

As a preferred implementation manner, the relevant information of the current sliding operation performed on the target page, acquired in the embodiment of the present application, further includes current time information and current location information.

For example, if the user performs a sliding operation on the target page of the touch screen of the terminal device at 15:00 today, the current time is 15:00 today.

In particular, the current time is recorded in a time unit that can be repeated periodically, for example, in a unit of date, week, clock time, and the like. Based on this setting, the above-described current time can be reproduced in the history or in the future. For example, if the current time is recorded as a clock time, for example, the current time is 15:00 today, the time of 15:00 exists at any day of yesterday, the previous day, or the history, and the time of 15:00 also exists at tomorrow or at some future day.

Preferably, in the embodiment of the present application, the current time is recorded by taking a clock time interval as a unit.

Specifically, in the embodiment of the present application, all clock times of a day are divided into a time interval every 5 minutes from a point 0. For each time interval, all the sliding operations occurring in the time interval, and the current time in the related information is the time interval.

That is, the current time included in the information related to the current sliding operation is actually a time interval in which the current sliding operation occurs.

The current position information refers to information of a geographical position of the terminal device when the current sliding operation on the target page of the touch screen of the terminal device occurs, that is, information of the geographical position of the user when the user performs the current sliding operation.

For example, the location information may be represented by latitude and longitude, or may be represented by preset location information, such as "home", "company", "store", and the like.

The current time information and the current position information may be obtained by respectively reading the system clock module and the positioning system of the terminal device when the sliding operation is finished.

Based on the information related to the sliding operation, as shown in fig. 6, an embodiment of the present application proposes that the specific processing procedure for determining the weight of each item of related information of the sliding operation includes:

s602, respectively allocating initial weights to each item of relevant information of the current sliding operation according to the preset reference weights of each item of relevant information of the sliding operation and the specific content of each item of relevant information of the current sliding operation;

And according to the weight distribution rule, carrying out weight distribution on each item of relevant information of the sliding operation, namely determining the initial weight of each item of relevant information.

S603, judging whether the end time of the sliding operation is less than a first time length or greater than a second time length from the end time of the last inertia sliding; the first duration is less than the second duration;

for example, in the embodiment of the present application, the first time period and the second time period are set to be time periods of different multiples of the duration of the last inertia slip. For example, if the last inertia slip has a duration of T, the first time period is T/4, and the second time period is 5T/4.

The previous inertial sliding refers to the inertial sliding occurring last time on the display content of the touch screen of the terminal device, and the inertial sliding may be the inertial sliding of the target page or the inertial sliding of other display pages.

The distance between the end time of the current sliding operation and the end time of the last inertia sliding is the time interval between the end time of the current sliding operation and the end time of the last inertia sliding, and the time interval is actually the time interval between the time when the current inertia sliding starts and the time when the last inertia sliding ends.

If the time length is less than the first time length or greater than the second time length, executing step S604, storing the initial weight of each item of relevant information of the current sliding operation in the first data cache region, and setting the initial weight of each item of relevant information of the current sliding operation as the weight of each item of relevant information of the current sliding operation;

specifically, the embodiment of the present application sets a first data cache region, configured to store weight information of each item of relevant information of the user sliding operation. In particular, before storing the initial weight of each item of related information of the current sliding operation in the first data buffer, the weight of each item of related information of the sliding operation stored in the first data buffer is the weight of each item of related information of the historical sliding operation occurring at the same time and at the same position as the current sliding operation.

For example, assuming that the current sliding operation occurs in a time interval of today 15:00 to 15:05 and occurs in the company, the weights of the pieces of related information of all sliding operations stored in the first data buffer area occur in a time interval of 15:00 to 15:05 and the weights of the pieces of related information of sliding operations occurring in the company are only stored in a time interval of 15:00 to 15:05 of yesterday and the weights of the pieces of related information of sliding operations occurring in the company, or in a time interval of 15:00 to 15:05 of any historical date and the weights of the pieces of related information of sliding operations occurring in the company.

In addition, in the embodiment of the present application, an effective period is further set for the data storage in the first data buffer area. The stored data are valid in the valid period, and when the valid period is exceeded, the stored data are automatically deleted. For example, assuming that the validity period is 3 days, the weight of each item of related information occurring in the sliding operation of the company is automatically deleted after three days after the item of related information occurring in the time interval of 15:00 to 15:05 of today is stored in the first data buffer area of today.

Therefore, the weight of each item of information on the historical sliding operation occurring within the set number of cycles before the current sliding operation and at the same time and at the same position as the current sliding operation is stored in the first data buffer.

The data in the first data cache region is stored as data to be validated, and the data can be used as a basis for the terminal device to learn the operation habits of the user, so that the inertial sliding of the display page is controlled, and the inertial sliding of the display page is more in line with the operation habits of the user, for specific contents, please refer to the following description.

When the amount of the related data in the first data cache region reaches a certain amount, the data are applied, namely the data are used for the terminal equipment to learn the operation habit of the user, otherwise, the data are only stored according to the data storage rule of the first data cache region.

In the embodiment of the application, if the ending time of the current sliding operation is less than the first time length or greater than the second time length from the ending time of the last inertial sliding, the user operation is considered to be too urgent or too slow, and at this time, the sliding operation is regarded as an unconventional sliding operation, that is, the operation habit of the user is not met. At this time, the consideration of the operation habit of the user should be abandoned, and the user should be responded directly to the current sliding operation. Therefore, the initial weight of each item of relevant information of the current sliding operation is directly set as the weight of each item of relevant information of the current inertial sliding operation, and the initial weight is directly used for calculating the subsequent speed attenuation parameter and the inertial sliding duration.

Meanwhile, the initial weight of each item of relevant information of the sliding operation at this time is stored in the first data buffer area, so that when the user performs the sliding operation at a frequency similar to the occurrence frequency of the sliding operation at this time in a follow-up habitual manner (for example, the terminal device changes the owner), the user operation habit can be learned by using the data in the first data buffer area.

If the time length is not less than the first time length and not more than the second time length, step S605 is executed to determine the weight of each item of related information of the current sliding operation by comparing the initial weight of each item of related information of the current sliding operation with the weight of each item of related information of the target historical sliding operation stored in advance.

Specifically, if the distance between the end time of the current sliding operation and the end time of the last inertial sliding is not less than the first duration and not less than the second duration, it may be determined that the user performs the conventional sliding operation during the current sliding operation, that is, the sliding operation conforms to the operation habit of the user.

At this time, when the weight of each item of related information is determined, the initial weight of each item of related information of the current sliding operation is compared with the weight of the corresponding item of related information of the target historical sliding operation stored in advance, and the weight of each item of related information of the current sliding operation is determined. Namely, the weight of each item of relevant information of the sliding operation is determined by combining historical data.

The target historical sliding operation refers to a sliding operation which occurs in the latest period before the current sliding operation, is the same time as the current time of the current sliding operation and is the same position as the current position of the current sliding operation.

In the embodiment of the present application, the current time of the occurrence of the current sliding operation is recorded in time units that can be periodically repeated, so that the current time of the occurrence of the current sliding operation has periodicity. For example, assuming that the current time is a time interval from 15:00 to 15:05 of today and the period is set as day, each day before or after the current day is a period, that is: yesterday is a period, the previous day is a period, and the like; if the current time is a time interval from 15:00 to 15:05 of the current wednesday and the set period is a week, starting from the current wednesday, the current or next wednesday of each week is a period, that is: the upper wednesday is a period, the lower wednesday is a period again, and the like.

In the embodiment of the application, the sliding operation which occurs in the latest period before the current sliding operation, is the same time as the current time of the current sliding operation and is the same position as the current position of the current sliding operation, and is taken as the target historical sliding operation. The latest cycle does not include the cycle in which the current sliding operation is performed, that is, the target historical sliding operation, and is necessarily a sliding operation that occurs before the current sliding operation, which is different from the current sliding operation.

The above-mentioned period is a period of a minimum unit. For example, for clock times (15:00, 15:05, etc.), the minimum period is days; for dates (xx days, xx numbers, etc.), the minimum period is month.

For example, assuming that the current sliding operation occurs in the time interval of 15:00 to 15:05 today and occurs in the company, and the last sliding operation occurs in the time interval of 15:00 to 15:05 and occurs in the time interval of 15:00 to 15:05 of the previous day, the sliding operation occurring in the time interval of 15:00 to 15:05 of the previous day and occurring in the company is set as the target historical sliding operation according to the embodiment of the present application.

For example, the determining the weight of each item of relevant information of the current sliding operation by comparing the initial weight of each item of relevant information of the current sliding operation with the weight of each item of relevant information of the target historical sliding operation stored in advance specifically includes:

corresponding to the initial weight of each item of relevant information of the current sliding operation, the operations shown in fig. 7 are respectively executed:

s6051, comparing the initial weight of the relevant information of the sliding operation at this time with the weight of the relevant information of the target historical sliding operation stored in advance, and determining the difference value of the two weights;

if the difference value of the two is smaller than the first threshold value, S6052, setting the average value of the two as the weight of the relevant information of the current sliding operation;

specifically, the first threshold is a preset weight difference threshold corresponding to the relevant information of the sliding operation.

Taking the sliding operation strength as an example, assuming that the weight of the sliding operation strength of the current sliding operation is a, the weight of the sliding operation strength of the target historical sliding operation stored in advance is b, and the first threshold value is set to 0.08. And if the difference value of a and b is less than 0.08, setting the average value of a and b as the weight of the sliding operation strength of the sliding operation at the time.

S6053, updating the weight of the relevant information of the target historical sliding operation stored in advance to the weight of the relevant information of the current sliding operation;

specifically, when the weight of the relevant information of the current sliding operation is determined by combining the weight of the relevant information of the target historical sliding operation stored in advance, the embodiment of the present application updates the weight of the relevant information of the target historical sliding operation stored in advance to the weight of the relevant information determined this time, so as to be used for determining the weight of the relevant information of the subsequent sliding operation again.

If the difference value between the two values is not less than the first threshold value, S6054, storing the initial weight of the item of relevant information of the current sliding operation in a second data buffer; the second data cache region is used for storing the weight of the relevant information of each historical sliding operation which occurs in a set number of cycles before the sliding operation and is at the same time and at the same position as the sliding operation;

specifically, the function of the second data buffer is similar to that of the first data buffer, except that the first data buffer is used for storing the weight of each item of related information of the sliding operation, and the second data buffer is used for storing the weight of the item of related information of the sliding operation, so it can be understood that the second data buffer is a partial storage area in the first data buffer, and is used for storing the weight of a certain item of related information of the sliding operation, and other storage areas are also used for storing the weights of other items of related information of the sliding operation in the first data buffer.

If the difference between the initial weight of the related information of the current sliding operation and the weight of the related information of the target historical sliding operation is not less than the first threshold, it may be indicated that the weight of the related information of the current sliding operation is greatly changed from the weight of the related information of the target historical sliding operation, so as to reflect that the weight of the related information of the current sliding operation does not conform to the weight of the related information of the habitual sliding operation of the user, and at this time, the initial weight of the related information of the current sliding operation is stored in the second data buffer area.

For example, assuming that the difference between the weight a of the degree of sliding operation of the current sliding operation and the weight b of the degree of sliding operation of the target historical sliding operation stored in advance is not less than 0.08, the weight a of the degree of sliding operation of the current sliding operation is stored in the second data buffer.

S6055, determining whether the number of the similar weights stored in the second data cache region reaches a first number; wherein, the similar weight comprises the weight with the difference value of the initial weight of the relevant information of the sliding operation being less than a second threshold value;

specifically, the second threshold is a difference threshold of the weights of the relevant information stored in the second data cache region, which is set in advance. In addition, in the embodiment of the present application, the weight stored in the second data buffer and having a difference value smaller than the second threshold is set as the similar weight.

For example, assuming that the weights of the sliding operation strengths of the sliding operations stored in the second data buffer area respectively include a, b, c, d, and e, and the second threshold is set to 0.04, if the difference between a, b, and d is less than 0.04, a, b, and d are regarded as similar weights.

If the number of the similar weights reaches the first number, S6056, setting the average value of the similar weights of the first number as the weight of the item of relevant information of the current sliding operation;

return is made to step S6053.

Specifically, the first number is a threshold of the number of validated weights stored in the second data buffer. When the number of the similarity weights reaches a first number, the similarity weights of the first number take effect, and at this time, the average value of the similarity weights of the first number is set as the weight of the relevant information of the current sliding operation.

For example, if the number of similar weights having a difference smaller than 0.04 among the weights of the sliding operation strength of the sliding operation stored in the second data buffer reaches 10, the average of the 10 similar weights is set as the weight of the sliding operation strength of the current sliding operation.

If the number of the similar weights does not reach the first number, S6057 sets the initial weight of the item of related information of the present sliding operation as the weight of the item of related information of the present sliding operation.

Specifically, if the number of the similarity weights stored in the second data buffer does not reach the first number, the similarity weights in the second data buffer are not in effect for the moment, and at this time, the initial weight of the relevant information of the current sliding operation is directly set as the weight of the relevant information of the current sliding operation.

It should be noted that specific values of the set values such as the first threshold, the second threshold, the first number, and the like can be flexibly adjusted according to different information related to the sliding operation; the first data cache region and the second data cache region may be different storage regions in the same data cache region, or different data cache regions.

The present embodiment of the present application only describes the process of determining the weight of the related information of the sliding operation, which is proposed in the present embodiment, by taking the determination of the weight of one related information of the sliding operation this time as an example, and the weight of the related information of another item of the sliding operation this time can be implemented by referring to the above description of the present embodiment.

In addition, steps S601, S606 to S608 in the method embodiment shown in fig. 6 correspond to steps S501, S503 to S505 in the method embodiment shown in fig. 5, respectively, and for specific contents, reference is made to the contents of the method embodiment shown in fig. 5, which is not repeated here.

According to the embodiment of the application, through the setting of the data storage area and the comparison of the weight of the relevant information of the sliding operation at this time and the weight of the relevant information of the target historical sliding operation, the weight of the relevant information of the sliding operation at this time is updated, and the independent learning of the sliding operation habit of the user is realized.

That is, when determining the weight of the relevant information of the current sliding operation of the user, the weight of the relevant information of the historical sliding operation of the user is also considered, so that the weight of the relevant information of the current sliding operation is made to accord with the historical operation habit of the user. Furthermore, the inertia sliding speed attenuation parameter and the inertia sliding duration time determined according to the weight of the relevant information of the sliding operation determined at this time are both in accordance with the historical operation habit of the user, namely, the inertia sliding process of the display page can be in accordance with the habit of the user for using the terminal equipment.

In the above-described embodiments of the present application, only the weight determination process of the related information of the sliding operation occurring in a certain time interval is described. With reference to the above description, the weight of the information related to the sliding operation in each time interval of 24 hours a day is recorded and stored in the data buffer, so that the habit of the sliding operation in one day of the user can be basically covered. Therefore, the user can find the corresponding historical sliding operation in any time interval of any subsequent day, namely, the autonomous learning process of the sliding operation of the user realizes the comprehensive learning of the daily use habit of the user.

Meanwhile, the embodiment of the application sets that the weight value with larger weight difference with the pre-stored information related to the historical sliding operation is stored in the data cache region first, and does not participate in learning the operation habit of the user at this time, but takes effect when the similar data in the data cache region reaches a certain amount. This process can prevent the pre-stored history data from being contaminated. For example, when the user terminal is temporarily lent by other users, the learning of the operation habit of the original user is not affected by a small amount of sliding operation of other users on the terminal, because the operation data of other users is only stored in the data cache region, and the data in the data cache region is not valid until the data amount does not reach a certain amount; if the user terminal is replaced with the owner, after the new owner performs a sufficient number of sliding operations on the terminal, the data in the data cache region takes effect as the data amount reaches a certain amount, and at the moment, the operation habit of the owner can be learned to control the inertial sliding of the display page in a mode of conforming to the operation habit of the new owner.

It can be understood that the page sliding control method introduced in the above embodiment of the present application realizes autonomous learning of the sliding operation habit of the user, and can determine the control strategy of inertial sliding of the display page according to the sliding operation habit of the user, so that the inertial sliding of the display page better meets the user requirement, and when the operation habit of the user changes, the control strategy can also flexibly cope with the inertial sliding of the display page.

In an exemplary embodiment, the present application further discloses a specific process of determining the duration of the inertial sliding according to at least the first inertial sliding speed decay parameter, as shown in fig. 8, where the process includes:

s801, determining the estimated inertial sliding duration according to at least the first inertial sliding speed attenuation parameter;

referring to the velocity decay curve shown in FIG. 4, it can be determined that the greater the absolute value of the P1 point coordinate, the faster the decay of the page inertial slip velocity in the pre-inertial slip phase. The faster the page coast speed decays in the early stages of coast, the shorter the distance and duration of coast, so the coordinate of point P1, i.e., the first coast decay parameter, directly affects the coast duration. Meanwhile, the coordinate of the point P2 also has an influence on the speed attenuation condition and the sliding time length of the inertial sliding, but the influence is not obvious as that of the coordinate of the point P1.

Therefore, in the embodiment of the application, the inertia sliding duration is determined by taking the first inertia sliding speed attenuation parameter as a main component and combining the second inertia sliding speed attenuation parameter, and the duration is taken as the estimated inertia sliding duration.

S802, judging whether the end time of the sliding operation is less than a first time length or greater than a second time length from the end time of the last inertia sliding; the first duration is less than the second duration;

if the estimated inertial sliding duration is shorter than the first duration or longer than the second duration, executing step S803, setting the estimated inertial sliding duration as the estimated inertial sliding duration, and storing the estimated inertial sliding duration in a third data cache region; the third data cache region stores the duration of inertial sliding corresponding to historical sliding operation which occurs in a set number period before the sliding operation, is the same time as the sliding operation and is the same position as the sliding operation;

and if the estimated inertial sliding duration is not less than the first duration and not more than the second duration, comparing the estimated inertial sliding duration with a preset sliding duration to determine the inertial sliding duration.

Specifically, the setting of the first duration, the second duration and the third data buffer, and the processing contents of the steps S802 to S803 may be implemented as described in the steps S603 to S605 in the method embodiment described with reference to fig. 6.

The duration of the inertial sliding corresponding to the historical sliding operation stored in the third data cache region corresponds to the weight of each item of relevant information of the historical sliding operation stored in the first data cache region.

In other words, the weights of the pieces of relevant information of the historical sliding operation occurring within the set number of cycles before the current sliding operation, at the same time and at the same position as the current sliding operation are stored in the first data buffer area, and the duration of the corresponding inertial sliding is stored in the third data buffer area.

For example, the first data cache region and the third data cache region may be set as the same data cache region or different data cache regions, and in the embodiment of the present application, the data cache regions are named separately, and mainly the difference of the stored data content is distinguished, and the actual setting form is not limited.

The specific processing procedure for determining the inertia sliding duration by comparing the estimated inertia sliding duration with the preset sliding duration comprises the following steps:

s804, comparing the estimated inertial sliding duration with a preset sliding duration, and determining the difference value of the two;

illustratively, the sliding duration of the threshold is specifically a pre-stored duration of inertial sliding corresponding to the target historical sliding operation.

The target historical sliding operation is performed in the latest period before the current sliding operation, the same time as the current time of the current sliding operation and the same position as the current position of the current sliding operation.

It should be noted that the selection rule of the target history sliding operation described next time is the same as the selection rule of the target history sliding operation described in step S605 of the method embodiment shown in fig. 6, that is, the target history sliding operation described here is the same as the target history sliding operation described in the embodiment shown in fig. 6.

Optionally, when the current sliding operation is a first sliding operation performed on the terminal device, the sliding duration of the threshold may be an inertial sliding duration pre-stored in the terminal device.

If the difference value of the two is less than the third threshold value, executing step S805, and setting the average value of the two as the inertia sliding duration;

s806, updating the preset sliding duration to the inertial sliding duration;

if the difference value between the two is not less than the third threshold value, executing step S807, and storing the estimated inertial sliding duration to a third data cache region; the third data cache region is used for storing the duration of inertia sliding corresponding to each historical sliding operation which occurs in a set number cycle before the sliding operation and has the same time and the same position as the sliding operation;

s808, determining whether the number of the similar duration stored in the third data cache region reaches a second number; wherein the similar duration comprises a duration with a difference value smaller than a fourth threshold value from the estimated inertial slip duration;

if the number of similar durations reaches the second number, executing step S809 to set the average of the second number of similar durations as the inertia sliding duration;

the execution returns to step S806.

And if the number of the similar weights does not reach the second number, executing the step S810, and setting the estimated inertia sliding duration as the inertia sliding duration.

Specifically, the processing logic, the processing idea, and the processing procedure of steps S805 to S810 are all matched with the processing procedures of steps S6051 to S6057 in the method embodiment shown in fig. 7, and mainly compare the estimated duration of the inertial slip determined this time with the duration of the inertial slip corresponding to the target historical slip operation, update the estimated duration of the inertial slip of the sliding operation this time, and perform autonomous learning on the user operation habit, so that the determined duration of the inertial slip more conforms to the user operation habit, and the specific processing procedure can be implemented by adaptively adjusting with reference to the processing procedure shown in fig. 7.

The values of the third threshold, the fourth threshold, and the second number may be the same as or different from the values of the first threshold, the second threshold, and the first number in the above embodiments.

It can be understood that the embodiment shown in fig. 6 and the embodiment shown in fig. 8 described above describe the process of determining the weight of each item of relevant information of the current sliding operation and the process of determining the duration of the current inertial sliding, respectively. The determination of the weight and the duration of the inertial sliding both take the historical sliding operation of the target as reference, that is, the historical sliding operation data of the user are both referred to, so that the determined weight and the duration of the inertial sliding can better accord with the operation habit of the user, and further, the inertial sliding of the target page is controlled by using the attenuation parameter of the inertial sliding speed determined according to the weight and the duration of the inertial sliding, so that the inertial sliding of the target page can meet the desire of the user.

Corresponding to the above-mentioned page sliding control method, an embodiment of the present application further provides a page sliding control apparatus, as shown in fig. 9, the apparatus includes:

a data obtaining unit 100, configured to obtain relevant information of the current sliding operation performed on the target page, where the relevant information of the current sliding operation at least includes a sliding operation distance, a sliding operation strength, a sliding speed at the end of the sliding operation, a sliding operation trajectory, and a sliding operation direction;

the data processing unit 110 is configured to determine an inertia sliding speed attenuation parameter and an inertia sliding duration according to the relevant information of the current sliding operation;

and the sliding control unit 120 is configured to control inertial sliding of the target page according to the sliding speed at the end of the sliding operation, the inertial sliding speed attenuation parameter, and the inertial sliding duration.

In the page sliding control apparatus provided in the embodiment of the present application, the data obtaining unit 100 can obtain the relevant information of the current sliding operation acting on the target page, then, the data processing unit 110 determines the inertia sliding speed attenuation parameter and the inertia sliding duration by processing the relevant information of the current sliding operation acting on the target display page, and the sliding control unit 120 controls the inertia sliding of the target display page according to the inertia sliding speed attenuation parameter and the inertia sliding duration. The page sliding control device can enable the inertial sliding of the target display page to be matched with the sliding operation of the user by executing the scheme, so that the inertial sliding of the display page meets the requirements and the wishes of the user.

As an exemplary implementation manner, the data processing unit 110 described above includes:

the first processing unit is used for respectively determining the weight of each item of relevant information of the sliding operation;

the second processing unit is used for determining a first inertial sliding speed attenuation parameter according to the weight of the sliding operation strength of the sliding operation, the weight of the sliding speed when the sliding operation is finished and the weight of the sliding operation track;

and the third processing unit is used for determining the inertia sliding duration at least according to the first inertia sliding speed attenuation parameter.

As an exemplary implementation manner, the information related to the sliding operation further includes: current time information and current position information;

when the first processing unit determines the weights of the relevant information of the sliding operation, the first processing unit is specifically configured to:

according to the preset reference weight of each item of relevant information of the sliding operation and the specific content of each item of relevant information of the sliding operation, respectively allocating an initial weight to each item of relevant information of the sliding operation;

determining the weight of each item of relevant information of the sliding operation by comparing the initial weight of each item of relevant information of the sliding operation with the weight of the corresponding item of relevant information of the target historical sliding operation stored in advance;

the target historical sliding operation is a sliding operation which occurs in the latest period before the current sliding operation, is the same time as the current time and is the same position as the current position.

As an exemplary implementation, the first processing unit is further configured to:

judging whether the end time of the sliding operation is shorter than the first time length or longer than the second time length from the end time of the last inertia sliding; the first duration is less than the second duration;

if the time length is less than the first time length or greater than the second time length, storing the initial weight of each item of relevant information of the sliding operation to a first data cache region, and setting the initial weight of each item of relevant information of the sliding operation as the weight of each item of relevant information of the sliding operation; the first data cache region stores the weight of each item of relevant information of historical sliding operation which occurs in a set number period before the sliding operation, and is at the same time and at the same position as the sliding operation;

and if the time length is not less than the first time length and not more than the second time length, executing the step of comparing the initial weight of each item of relevant information of the sliding operation with the weight of the corresponding item of relevant information of the target historical sliding operation stored in advance to determine the weight of each item of relevant information of the sliding operation.

As an exemplary implementation manner, when the first processing unit determines the weight of each item of relevant information of the current sliding operation by comparing the initial weight of each item of relevant information of the current sliding operation with the weight of each item of relevant information of the target historical sliding operation stored in advance, the first processing unit is specifically configured to:

and respectively executing the following operations corresponding to the initial weight of each item of relevant information of the sliding operation:

comparing the initial weight of the relevant information of the sliding operation with the weight of the relevant information of the target historical sliding operation stored in advance, and determining the difference value of the initial weight and the weight;

and if the difference value of the two is smaller than the first threshold value, setting the average value of the two as the weight of the relevant information of the sliding operation.

Illustratively, the first processing unit is further configured to:

if the difference value of the two is not less than the first threshold value, storing the initial weight of the relevant information of the sliding operation to a second data cache region; the second data cache region is used for storing the weight of the relevant information of each historical sliding operation which occurs in a set number of cycles before the sliding operation and is at the same time and at the same position as the sliding operation;

determining whether the number of similar weights stored in the second data cache reaches a first number; wherein, the similar weight comprises the weight with the difference value of the initial weight of the relevant information of the sliding operation being less than a second threshold value;

if the number of the similar weights reaches a first number, setting the average value of the similar weights of the first number as the weight of the relevant information of the sliding operation;

and if the number of the similar weights does not reach the first number, setting the initial weight of the relevant information of the sliding operation at this time as the weight of the relevant information of the sliding operation at this time.

Illustratively, the first processing unit is further configured to:

and updating the weight of the relevant information of the target historical sliding operation which is stored in advance as the weight of the relevant information of the current sliding operation.

As an exemplary implementation manner, the third processing unit determines the inertial slip duration time according to at least the first inertial slip velocity attenuation parameter, and is specifically configured to:

determining the estimated duration of inertial sliding according to at least the first inertial sliding speed attenuation parameter;

and comparing the estimated inertial sliding duration with a preset sliding duration to determine the inertial sliding duration.

Optionally, the preset sliding duration is a pre-stored duration of inertial sliding corresponding to the target historical sliding operation;

Illustratively, the third processing unit is further configured to:

if the estimated inertial sliding duration is less than the first duration or greater than the second duration, setting the estimated inertial sliding duration as the estimated inertial sliding duration, and storing the estimated inertial sliding duration to a third data cache region; the third data cache region stores the duration of inertial sliding corresponding to historical sliding operation which occurs in a set number period before the sliding operation, is the same time as the sliding operation and is the same position as the sliding operation;

Illustratively, the third processing unit determines the inertia slip duration by comparing the estimated inertia slip duration with a preset slip duration, and is specifically configured to:

comparing the estimated inertial sliding duration with a preset sliding duration, and determining the difference value of the estimated inertial sliding duration and the preset sliding duration;

and if the difference value of the two is less than the third threshold value, setting the average value of the two as the inertia sliding duration.

Exemplarily, the third processing unit is further configured to:

if the difference value of the two is not less than a third threshold value, storing the estimated inertial sliding duration to a third data cache region; the third data cache region is used for storing the duration of inertial sliding corresponding to historical sliding operation which occurs in a set number period before the sliding operation, has the same time and the same position as the sliding operation;

determining whether the number of similar durations stored in the third data buffer reaches a second number; wherein the similar duration comprises a duration with a difference value with the estimated inertial slip duration being less than a fourth threshold;

setting the average of the second number of similar durations as the inertia slip duration if the number of similar durations reaches the second number;

and if the number of the similar weights does not reach the second number, setting the estimated inertial slip duration as the inertial slip duration.

Exemplarily, the third processing unit is further configured to:

and updating the preset sliding duration to the inertial sliding duration.

As an exemplary implementation manner, when the sliding control unit 120 controls the inertial sliding of the target page according to the sliding speed at the end of the sliding operation, the inertial sliding speed decay parameter, and the inertial sliding duration, specifically, to:

determining an inertia sliding speed attenuation mode according to the sliding speed at the end of the sliding operation, the inertia sliding speed attenuation parameter and the inertia sliding duration;

and controlling the inertial sliding of the target page according to the inertial sliding speed attenuation mode.

Specifically, please refer to the contents of the above method embodiments for the specific working contents of each unit in each embodiment of the page sliding control apparatus, which are not described herein again.

Another embodiment of the present application further discloses a page sliding control apparatus, as shown in fig. 10, the apparatus includes:

a memory 200 and a processor 210;

wherein, the memory 200 is connected to the processor 210 for storing programs;

the processor 210 is configured to execute the program stored in the memory 200 to implement the processing steps of the page sliding control method disclosed in any of the above embodiments.

Specifically, the screen projection processing device may further include: a bus, a communication interface 220, an input device 230, and an output device 240.

The processor 210, the memory 200, the communication interface 220, the input device 230, and the output device 240 are connected to each other through a bus. Wherein:

a bus may include a path that transfers information between components of a computer system.

The processor 210 may be a general-purpose processor, such as a general-purpose Central Processing Unit (CPU), microprocessor, etc., an application-specific integrated circuit (ASIC), or one or more integrated circuits for controlling the execution of programs in accordance with the present invention. But may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components.

The processor 210 may include a main processor and may also include a baseband chip, modem, and the like.

The memory 200 stores programs for executing the technical solution of the present invention, and may also store an operating system and other key services. In particular, the program may include program code including computer operating instructions. More specifically, memory 200 may include a read-only memory (ROM), other types of static storage devices that may store static information and instructions, a Random Access Memory (RAM), other types of dynamic storage devices that may store information and instructions, a disk storage, a flash, and so forth.

The input device 230 may include a means for receiving data and information input by a user, such as a keyboard, mouse, camera, scanner, light pen, voice input device, touch screen, pedometer, or gravity sensor, among others.

Output device 240 may include equipment that allows output of information to a user, such as a display screen, a printer, speakers, and the like.

Communication interface 220 may include any means for using a transceiver or the like to communicate with other devices or communication networks, such as ethernet, a Radio Access Network (RAN), a Wireless Local Area Network (WLAN), etc.

The processor 2102 executes programs stored in the memory 200 and invokes other devices, which may be used to implement the steps of the page sliding control method provided by the embodiments of the present application.

Another embodiment of the present application further provides a storage medium, where a computer program is stored on the storage medium, and when the computer program is executed by a processor, the computer program implements the steps of the page sliding control method provided in any of the embodiments.

While, for purposes of simplicity of explanation, the foregoing method embodiments have been described as a series of acts or combination of acts, it will be appreciated by those skilled in the art that the present application is not limited by the order of acts or acts described, as some steps may occur in other orders or concurrently with other steps in accordance with the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The steps in the method of the embodiments of the present application may be sequentially adjusted, combined, and deleted according to actual needs.

The modules and sub-modules in the device and the terminal in the embodiments of the application can be combined, divided and deleted according to actual needs.

In the several embodiments provided in the present application, it should be understood that the disclosed terminal, apparatus and method may be implemented in other manners. For example, the above-described terminal embodiments are merely illustrative, and for example, the division of a module or a sub-module is only one logical division, and there may be other divisions when the terminal is actually implemented, for example, a plurality of sub-modules or modules may be combined or integrated into another module, or some features may be omitted or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some interfaces, indirect coupling or communication connection between devices or modules, and may be in an electrical, mechanical or other form.

The modules or sub-modules described as separate parts may or may not be physically separate, and parts that are modules or sub-modules may or may not be physical modules or sub-modules, may be located in one place, or may be distributed over a plurality of network modules or sub-modules. Some or all of the modules or sub-modules can be selected according to actual needs to achieve the purpose of the solution of the present embodiment.

In addition, each functional module or sub-module in the embodiments of the present application may be integrated into one processing module, or each module or sub-module may exist alone physically, or two or more modules or sub-modules may be integrated into one module. The integrated modules or sub-modules may be implemented in the form of hardware, or may be implemented in the form of software functional modules or sub-modules.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software unit executed by a processor, or in a combination of the two. The software cells may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

Finally, it should also be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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 apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A page sliding control method is characterized by comprising the following steps:

determining inertia sliding speed attenuation parameters and inertia sliding duration according to the relevant information of the sliding operation and the weights of all relevant information, wherein the weights of all relevant information are determined by combining the weights of all relevant information of the target historical sliding operation which is stored in advance;

controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration;

wherein, the determining the inertia sliding speed attenuation parameter and the inertia sliding duration according to the relevant information of the sliding operation comprises:

respectively determining the weight of each item of relevant information of the sliding operation;

determining a first inertia sliding speed attenuation parameter according to the weight of the sliding operation force of the current sliding operation, the weight of the sliding speed when the sliding operation is finished and the weight of the sliding operation track;

and determining the duration of inertial sliding according to at least the first inertial sliding speed attenuation parameter.

2. The method of claim 1, wherein the information related to the sliding operation further comprises: current time information and current position information;

the determining the weight of each item of relevant information of the sliding operation respectively includes:

3. The method according to claim 2, wherein before comparing the initial weight of each item of related information of the current sliding operation with the weight of the corresponding item of related information of the target historical sliding operation stored in advance, the method further comprises:

4. The method according to claim 2 or 3, wherein the determining the weight of each item of relevant information of the current sliding operation by comparing the initial weight of each item of relevant information of the current sliding operation with the weight of the corresponding item of relevant information of the target historical sliding operation stored in advance comprises:

if the difference value of the two is smaller than the first threshold value, setting the average value of the two as the weight of the relevant information of the sliding operation;

determining whether the number of similar weights stored in the second data cache reaches a first number; wherein, the similar weight comprises the weight of which the difference value with the initial weight of the relevant information of the sliding operation is smaller than a second threshold value;

5. The method according to claim 4, wherein after setting an average value of the two as the weight of the related information of the current sliding operation, or after setting an average value of each similar weight as the weight of the related information of the current sliding operation, the method further comprises:

6. The method of claim 1, wherein determining an inertial slip duration based on at least the first inertial slip velocity decay parameter comprises:

7. The method according to claim 6, wherein the preset sliding time duration is a pre-stored time duration of inertial sliding corresponding to a target historical sliding operation;

8. The method of claim 6, wherein prior to comparing the estimated inertial slip duration to a preset slip duration, the method further comprises:

9. The method of any one of claims 6 to 8, wherein determining the duration of inertial slip by comparing the estimated duration of inertial slip with a preset slip duration comprises:

if the difference value of the two is less than a third threshold value, setting the average value of the two as the inertia sliding duration;

setting the average value of the similar duration of the second number as the inertial sliding duration if the number of the similar duration reaches the second number;

10. The method of claim 9, wherein after setting the average of the two to the coast duration or setting the average of each of the similar durations to the coast duration, the method further comprises:

and updating the preset sliding duration to the inertial sliding duration.

11. The method according to claim 1, wherein the controlling inertial sliding of the target page according to the sliding speed at the end of the sliding operation, the inertial sliding speed decay parameter and the inertial sliding duration comprises:

12. A page sliding control apparatus, comprising:

the data processing unit is used for determining inertia sliding speed attenuation parameters and inertia sliding duration according to the relevant information of the sliding operation and the weights of all relevant information, wherein the weights of all relevant information are determined by combining the weights of all relevant information of the target historical sliding operation which is stored in advance;

the sliding control unit is used for controlling the inertial sliding of the target page according to the sliding speed when the sliding operation is finished, the inertial sliding speed attenuation parameter and the inertial sliding duration;

the data processing unit is specifically configured to determine weights of various pieces of relevant information of the current sliding operation respectively; determining a first inertia sliding speed attenuation parameter according to the weight of the sliding operation force of the sliding operation, the weight of the sliding speed when the sliding operation is finished and the weight of the sliding operation track; determining a second inertia sliding speed attenuation parameter according to the weight of other related information of the sliding operation; and determining the duration of inertial sliding according to at least the first inertial sliding speed attenuation parameter.

13. A page sliding control apparatus, comprising:

a memory and a processor;

the processor is configured to implement the page sliding control method according to any one of claims 1 to 11 by executing a program stored in the memory.

14. A storage medium having stored thereon a computer program which, when executed by a processor, implements the page sliding control method according to any one of claims 1 to 11.