CN107615216A - A kind of labeling method and screen display equipment - Google Patents

Abstract

A kind of labeling method and screen display equipment, it is related to electronic technology field, it can solve the problem that in the prior art when reading screen display content, screen display content and unidentified screen display content have been identified due to manually marking to be difficult to accurately distinguish user, so as to be difficult to effectively guide user to read unidentified screen display content, thus the problem of caused reading efficiency is low.Concrete scheme is：Reading object (101) is opened in viewing area on a display screen, it is determined that effectively viewpoint (102), marks effective viewpoint (103).This method is used to be marked in screen display equipment.

Description

A kind of labeling method and screen display equipment Technical field

The present invention relates to electronic technology field more particularly to a kind of labeling methods and screen display equipment.

Background technique

Currently, more and more people's selection replaces papery text come various data of reading by display screen display device.When reading screen display data, user constantly judges which screen display contents value must mark, which screen display content is unworthy marking, and when user's subjectivity thinks to need to mark, hand labeled is carried out by various drawing means, such as text chunk is selected manually in word document and highlights, underscore, highlight, or hand drawn underscore label, text highlight mark etc. in PDF document.

In the prior art, when reading screen display content, the content of user's hand labeled may be the content that the sight of user is skimmed over but user does not identify really, alternatively, the identified screen display content of user is not marked by user in time.That is, having identified screen display content and unidentified screen display content as shown in Figure 1, being difficult to accurately distinguish user by hand labeled, to be difficult to effectively user be guided to read unidentified screen display content to eliminate the blind spot in cognition, thus reading efficiency is reduced.Wherein, the box in Fig. 1 indicates that whole screen display contents, right oblique line fill part indicate the unidentified screen display content of user, and the solid oval internal representation user of grid filling has identified screen display content, the screen display content of dotted ellipse internal representation user's subjectivity label.

Summary of the invention

The embodiment of the present invention provides a kind of labeling method and screen display equipment, it is able to solve in the prior art when reading screen display content, screen display content and unidentified screen display content have been identified due to being difficult to accurately distinguish user by hand labeled, to be difficult to effectively guide the unidentified screen display content of user's reading, because caused by the problem of reading low efficiency.

In order to achieve the above objectives, the embodiment of the present invention adopts the following technical scheme that

In a first aspect, providing a kind of labeling method, comprising:

Reading object is opened in display area on a display screen, is included at least one described display area on the display screen, is determined effective viewpoint, effective viewpoint is to fall within the display area Multiple continuous user's viewpoints of dense arrangement in user's viewpoint, and mark effective viewpoint.

Second aspect provides a kind of screen display equipment, including display unit, determination unit and marking unit；Wherein, the display unit is used for, and reading object is opened in display area on a display screen, includes at least one described display area on the display screen of the screen display equipment；The determination unit is used for, and determines that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen within the display area；The marking unit is used for, and marks effective viewpoint automatically.

The third aspect provides a kind of screen display equipment, including display screen and processor；Wherein, the display screen is used for, and reading object is opened in display area on a display screen, includes at least one described display area on the display screen；The processor is used for, and determines that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen within the display area, and mark effective viewpoint.

In conjunction with above-mentioned first into the third aspect, multiple continuous user's viewpoints of dense arrangement in the user's viewpoint of screen display device flag fallen in display area, the effective viewpoint for thering is time enough to identify screen display content corresponding with its is understood for user, thus the corresponding user of effective viewpoint, which can be accurately distinguished, has identified screen display content and the unidentified screen display content of user, the effectively unidentified screen display content of guidance user reading, improves the reading efficiency of user.

Also, screen display equipment is automatically marked effective viewpoint, can record the interim point of interruption in time, facilitates user quickly to return to the point of interruption after the interruption and continues to read, so as to improve the reading efficiency of user.Moreover, screen display equipment carries out additional marking operation by the way that effective viewpoint is marked automatically, without user's dispersion force and energy, thus it can be further improved the reading efficiency of user.

In addition, can open simultaneously multiple reading objects in multiple display areas of display screen when on display screen including multiple display areas, and be independently marked for the reading object in each display area, the space resources of display screen can also be made full use of.

With reference to first aspect, in the first possible implementation of the first aspect, determine that effective viewpoint includes:

If fallen in continuous k (default positive integer) a user's viewpoint within the display area, appoint The distance between two neighboring user viewpoints of anticipating are less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint.

In conjunction with second aspect, in the first possible implementation of the second aspect, the determination unit is specifically used for:

If falling in continuous k (default positive integer) a user's viewpoint within the display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint.

In conjunction with the third aspect, in the first possible implementation of the third aspect, the processor is for determining that stating effective viewpoint specifically includes:

If falling in continuous k (default positive integer) a user's viewpoint within the display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint.

When falling in continuous k (default positive integer) a user's viewpoint within the display area, when the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, continuous multiple user's viewpoints concentrate near specific screen display content, and user's sight continues residence time long enough, so that human brain has sufficient authenticated time to identify and understands seen content, thus it can determine that the continuous k user viewpoint is effective viewpoint.

With reference to first aspect or the first possible implementation of first aspect, in the second possible implementation of the first aspect, label effective viewpoint includes:

The transparent color lump of pre-set color is filled in the view region of effective viewpoint；

Or, if it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, fills the transparent color lump of pre-set color；

Alternatively, wiping the corresponding region of view region described in the clear coat.

In conjunction with the possible implementation of the first of second aspect or second aspect, in a second possible implementation of the second aspect, the marking unit is specifically used for:

The transparent color lump of pre-set color is filled in the view region of effective viewpoint；

Or, if it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, fills the transparent color lump of pre-set color；

Alternatively, wiping the corresponding region of view region described in the clear coat.

In conjunction with the possible implementation of the first of the third aspect or the third aspect, in the second possible implementation of the third aspect, the processor is for marking effective viewpoint to specifically include:

The transparent color lump of pre-set color is filled in the view region of effective viewpoint；

Or, if it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, fills the transparent color lump of pre-set color；

Alternatively, wiping the corresponding region of view region described in the clear coat.

Screen display equipment is through the above way marked effective viewpoint, can highlight the corresponding user of effective viewpoint and identify content.Wherein, since transparent color lump and clear coat will not block screen display content completely, thus it will not influence the normal reading of user.

With reference to first aspect to second of possible implementation of first aspect, in a third possible implementation of the first aspect, the overlapping region is marked according to the corresponding overlapping number in overlapping region includes:

Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding；

Alternatively, the corresponding position display overlapping number mark in the overlapping region.

In conjunction with second of possible implementation of second aspect to second aspect, in the third possible implementation of the second aspect, the marking unit is specifically used for:

Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding；

Alternatively, the corresponding position display overlapping number mark in the overlapping region.

In conjunction with second of possible implementation of the third aspect to the third aspect, in the third possible implementation of the third aspect, the processor is specifically included for the overlapping region to be marked according to the corresponding overlapping number in overlapping region:

Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding；

Alternatively, the corresponding position display overlapping number mark in the overlapping region.

When overlapping has occurred in the coverage area of the different effectively view regions of viewpoint, overlapping region is marked according to the corresponding overlapping number in overlapping region, corresponding screen display content in overlapping region can be identified is concerned degree, emphasizes the screen display content read repeatedly by user.

In conjunction with the third possible implementation of any of the above-described aspect to either side, in the 4th kind of possible implementation of any of the above-described aspect, after opening reading object within the display area, time shaft is shown in display area, at least one vernier that can be slided is provided on the time shaft.When vernier slides on a timeline, screen display equipment marks real time position on a timeline according to sliding process middle reaches, the flag state on reading object corresponding with slider position is shown, so as to look back marked user's viewpoint sequentially in time, to look back the vision track of user.

The first vernier is provided on the time shaft in the display area in the fifth possible implementation of the first aspect to the 4th kind of possible implementation of first aspect with reference to first aspect, the method also includes:

When first vernier on the time axis slides, corresponding first sampling instant of the slider position of first vernier is determined；

According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

Within the display area, it shows in the corresponding reading object of first identity, flag state of the corresponding first object page of first coordinate in the corresponding user's viewpoint of first sampling instant.

The first vernier is provided on the time shaft in the display area in a fifth possible implementation of the second aspect in conjunction with the 4th kind of possible implementation of second aspect to second aspect；

The determination unit is also used to, and when first vernier on the time axis slides, determines corresponding first sampling instant of the slider position of first vernier；According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

The display unit is also used to, and within the display area, is shown in the corresponding reading object of first identity, flag state of the corresponding first object page of first coordinate in the corresponding user's viewpoint of first sampling instant.

The first vernier is provided on the time shaft in the display area in the 5th kind of possible implementation of the third aspect in conjunction with the 4th kind of possible implementation of the third aspect to the third aspect；

The processor is also used to, and when first vernier on the time axis slides, determines corresponding first sampling instant of the slider position of first vernier；According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

The display screen is also used to, and within the display area, is shown in the corresponding reading object of first identity, flag state of the corresponding first object page of first coordinate in the corresponding user's viewpoint of first sampling instant.

When being provided with a vernier on time shaft, user can look back the corresponding sampling instant of the slider position user viewpoint marked to initial time by sliding vernier.

With reference to first aspect to the 5th kind of possible implementation of first aspect, in the sixth possible implementation of the first aspect, the second vernier and third vernier are provided on time shaft in the display area, second vernier is located at the side on time shaft close to initial time, the method also includes:

When second vernier on the time axis slides, corresponding second sampling instant of the slider position of second vernier and the corresponding third sampling instant of slider position of third vernier are determined；

According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

Within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

When the third vernier on the time axis slides, the corresponding third sampling instant of the slider position of the third vernier is determined；

According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

Within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.

In conjunction with the 5th kind of possible implementation of second aspect to second aspect, in the sixth possible implementation of the second aspect, the second vernier and third vernier are provided on time shaft in the display area, second vernier is located at the side on time shaft close to initial time；

The determination unit is also used to, and when second vernier on the time axis slides, determines corresponding second sampling instant of the slider position of second vernier and the corresponding third sampling instant of slider position of third vernier；According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

The display unit is also used to, within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

The determination unit is also used to, and when the third vernier on the time axis slides, determines the corresponding third sampling instant of the slider position of the third vernier；According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

The display unit is also used to, within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.

In conjunction with the 5th kind of possible implementation of the third aspect to the third aspect, in the 6th kind of possible implementation of the third aspect, the second vernier and third vernier are provided on time shaft in the display area, second vernier is located at the side on time shaft close to initial time；

The processor is also used to, and when second vernier on the time axis slides, determines corresponding second sampling instant of the slider position of second vernier and the corresponding third sampling instant of slider position of third vernier；According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

The display screen is also used to, within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

The processor is also used to, and when the third vernier on the time axis slides, determines the corresponding third sampling instant of the slider position of the third vernier；According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

The display screen is also used to, within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.

When there are two when vernier, user can look back user's viewpoint marked between the corresponding sampling instant of two slider positions by sliding vernier for setting on time shaft.Compared with being provided only with a vernier on time shaft, when setting can look back marked user's viewpoint in special time period in order to user, improve user experience there are two when vernier on time shaft.

In conjunction with any possible implementation of any of the above-described aspect, in one possible implementation, the display area includes at least one subregion, and each subregion is used to show a page in the reading object.

In conjunction with any of the above-described aspect the third to the 5th kind of possible implementation, in the 6th kind of possible implementation of any of the above-described aspect, when the vernier on time shaft does not slide, the sequentially adjacent page of text alignment is shown in the adjacent subarea domain in same display area.Work as the time When vernier on axis slides, it is shown in the page adjacent on flag sequence in the adjacent subarea domain in same display area, including the corresponding target pages of slider position.

When in display area including multiple subregions, multiple pages can be shown simultaneously in each display area, understand more view contents convenient for user.

For ease of understanding, the exemplary explanation for giving part concept related to the present invention is for reference, as follows:

Eyeball tracking: a technique for user's sight is tracked according to Eyeball motion information.When user sees to different location, subtle variation can occur for eye, these variations can generate the feature that can be extracted, these features can be extracted by picture catching or scanning, thus real-time tracing user's viewpoint.Such as the devices such as infrared facility, image collecting device, eyeball tracking can be carried out according to the changing features on eyeball and eyeball periphery, perhaps eyeball tracking is carried out according to iris angle change or extracts changing features by actively projecting the light beams such as infrared ray to iris, to carry out eyeball tracking.

User's viewpoint: the drop point of user's sight that screen display equipment is detected by the devices such as camera, using eyeball tracking technology on a display screen.

Screen display equipment: the equipment that there is display screen and can show electronic bits of data.

Reading object: the non-animated screen display data such as document, webpage, picture, interface for being read by display screen for user.

Screen display content: the corresponding content of reading object shown by display screen.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, the drawings to be used in the description of the embodiments or prior art will be briefly described below, apparently, drawings in the following description are only some embodiments of the invention, for those of ordinary skill in the art, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the distribution schematic diagram that a kind of user that the prior art provides has identified screen display content and the unidentified screen display content of user；

Fig. 2 is a kind of application scenarios schematic diagram provided in an embodiment of the present invention；

Fig. 3 is a kind of labeling method flow chart provided in an embodiment of the present invention；

Fig. 4 a is the distribution schematic diagram of display area on a kind of display screen provided in an embodiment of the present invention；

Fig. 4 b is the distribution schematic diagram of display area on another display screen provided in an embodiment of the present invention；

Fig. 5 is the distribution schematic diagram of subregion in a kind of display area provided in an embodiment of the present invention；

Fig. 6 is a kind of distribution schematic diagram of effective viewpoint and invalid viewpoint provided in an embodiment of the present invention；

Fig. 7 is a kind of objective screen display content and the objective screen display content distribution schematic diagram of not reading of user read of user provided in an embodiment of the present invention；

Fig. 8 is another labeling method flow chart provided in an embodiment of the present invention；

Fig. 9 is a kind of structural schematic diagram of time shaft provided in an embodiment of the present invention；

Figure 10 is a kind of schematic diagram of viewpoint and view region provided in an embodiment of the present invention；

Figure 11 is a kind of vision ink marks effect diagram provided in an embodiment of the present invention；

Figure 12 is another vision ink marks effect diagram provided in an embodiment of the present invention；

Figure 13 is another vision ink marks effect diagram provided in an embodiment of the present invention；

Figure 14 is another vision ink marks effect diagram provided in an embodiment of the present invention；

Figure 15 is another vision ink marks effect diagram provided in an embodiment of the present invention；

Figure 16 a is the flag state schematic diagram of display during a kind of vernier slide provided in an embodiment of the present invention；

Figure 16 b is the flag state schematic diagram of display during another vernier slide provided in an embodiment of the present invention；

Figure 17 a is the flag state schematic diagram of display during another vernier slide provided in an embodiment of the present invention；

Figure 17 b is the flag state schematic diagram of display during another vernier slide provided in an embodiment of the present invention；

Figure 17 c is the label shape of display during another vernier slide provided in an embodiment of the present invention State schematic diagram；

Figure 17 d is the flag state schematic diagram of display during another vernier slide provided in an embodiment of the present invention；

Figure 18 a is the display effect schematic diagram in multiple subarea domain in a kind of display area provided in an embodiment of the present invention；

Figure 18 b is the display effect schematic diagram in multiple subarea domain in another display area provided in an embodiment of the present invention；

Figure 18 c is the display effect schematic diagram in multiple subarea domain in another display area provided in an embodiment of the present invention；

Figure 18 d is the display effect schematic diagram in multiple subarea domain in another display area provided in an embodiment of the present invention；

Figure 19 is a kind of structural schematic diagram of screen display equipment provided in an embodiment of the present invention；

Figure 20 is the structural schematic diagram of another screen display equipment provided in an embodiment of the present invention；

Figure 21 is the structural schematic diagram of another screen display equipment provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, shall fall within the protection scope of the present invention.

When reading screen display content, aiming at the problem that user in the prior art cannot accurately be distinguished by hand labeled and identify screen display content and unidentified screen display content, in the labeling method that following embodiment of the present invention provides, referring to fig. 2, screen display equipment may include display screen, tracking component, the components such as processor and memory, screen display equipment passes through eyeball tracking technology possessed by tracking component, track drop point of user's sight on screen display device display screen, and the multiple continuous viewpoints for falling dense arrangement in user's viewpoint on a display screen are determined by processor, multiple continuous viewpoint is effective viewpoint that user has time enough to identify screen display content corresponding with its is understood, to be marked automatically to effective viewpoint Note, has identified screen display content and unidentified screen display content accurately to distinguish user.

Screen display equipment in following embodiment of the present invention refers to, can provide screen display content by display screen for user and have the electronic equipment, such as smart phone, iPad etc. of eyeball tracking ability.Display screen can be touch screen and be also possible to non-touch screen, for showing data to be read to user；Tracking component can have the component (such as camera) of eyeball tracking ability for infrared facility, image collecting device etc., can be used for tracking the drop point of user's sight on a display screen；Memory for storing data and instruction.

Specifically, the present invention will be described in detail provided labeling method and screen display equipment by following embodiment.

Embodiment 1

The embodiment of the present invention provides a kind of labeling method, referring to Fig. 3, may include:

101, reading object is opened in the display area on screen display device display screen, includes at least one display area on display screen.

Wherein, screen display equipment can open reading object in display area on a display screen, so that user reads.A referring to fig. 4, the entire display screen of screen display equipment can be used as a display area；Alternatively, the display screen of screen display equipment can also be divided into multiple display areas, the position of different display areas and size can be set according to actual needs.Illustratively, schematic diagram is divided shown in b referring to fig. 4, the display screen of screen display equipment is divided into 2 display areas in left and right.Specifically, the reading object that user can read different in the same display area, corresponding reading object is mutually indepedent in different display areas.After opening reading object in display area, screen display equipment can acquire user's viewpoint, and the labeling method provided according to embodiments of the present invention is marked.

Labeling method provided in an embodiment of the present invention independently carries out in each display area, and screen display equipment determines the corresponding display area of user's viewpoint according to the position of user's viewpoint.Illustratively, by taking Fig. 4 b as an example, when the sight of user is when sampling instant 11-16 is fallen in display area 1, the collected user's viewpoint of sampling instant 11-16 is fallen in display area 1, and screen display equipment is marked on the reading object in display area 1；When the sight of user is when sampling instant 17-20 is fallen in display area 2, the collected user's viewpoint of sampling instant 17-20 is fallen in display area 2, and screen display equipment exists It is marked on reading object in display area 2；When the sight of user is returned in display area 1 after sampling instant 20, then the corresponding flag state of sampling instant 16 continues to mark screen display equipment.

It further, can also include at least one subregion in each display area, each subregion is used to show a page in reading object.Optionally, can be put in order the upper adjacent page in the adjacent subarea domain in the same display area with display text.Illustratively, upper and lower 2 sub-regions as shown in Figure 5 can be also divided into display area 1 in Fig. 4 b, the page 5 in the corresponding reading object 1 of active user's viewpoint can be shown in subregion 2, can be shown in subregion 1 in reading object 1 according to the page 4 come before the page 5 in sequences of text.

It should be noted that, when in display area including multiple subregions, multiple pages can be presented in the same display area, user is facilitated to understand more view contents, and user can be made not need to carry out page turning, can easily and quickly be read the content of prevpage or the next page, while be also possible that the space resources of display screen is fully used.

Labeling method provided in an embodiment of the present invention will be illustrated by taking display area 1 shown in Fig. 4 b as an example below, the corresponding labeling method in other each display areas is similar.

102, screen display equipment determines that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen in display area.

After opening reading object in display area 1, screen display equipment can acquire user's viewpoint of viewable user by eyeball tracking technology and tracking component in preset multiple sampling instants.Wherein, the time interval between sampling instant can be preset value such as 0.1s.If the eyes of current sample time user be closure (such as blink when eyes closed moment), tracking component does not acquire user's viewpoint.If the eyes of user are opened, but do not watch the screen of screen display equipment attentively, then tracking component can not also collect user's viewpoint.When user is just being look at the display screen of screen display equipment, tracking component can track the drop point of user's sight on a display screen, i.e. tracking component can collect user's viewpoint.In the display area 1 that collected user's viewpoint does not fall within display screen, and when falling in the other positions of display screen, it may indicate that the screen display content that user does not read in display area 1, user's viewpoint at this time are properly termed as sky viewpoint for display area 1.When collected user's viewpoint is fallen in the display area 1 of display screen, it may indicate that user is reading user's viewpoint pair in display area 1 The screen display content answered, user's viewpoint at this time are properly termed as non-empty viewpoint for display area 1.Wherein, the corresponding screen display content of non-empty viewpoint in display area 1 is the screen display content of user's objective reading in display area 1.

However, falling in the screen display content of the corresponding user of the user's viewpoint objective reading in display area 1, it is not necessarily the identified screen display content of user, it is also possible to the screen display content that user's sight is skimmed over but user does not identify really.Thus, screen display equipment can determine that user can identify effective viewpoint of its corresponding screen display content from the user's viewpoint fallen in display area 1, and be marked by certain form, to be different from user's viewpoint of its unidentified corresponding screen display content of user.

Wherein it is collected to can be continuous multiple sampling instants for effective viewpoint, and falls in user's viewpoint in display area 1, multiple continuous user's viewpoints of dense arrangement, is user's viewpoint that user has time enough to identify screen display content corresponding with its is understood.Multiple continuous user's viewpoints refer to continuous multiple collected user's viewpoints of sampling instant.Continuous multiple sampling instants refer to multiple sampling instants successively adjacent in time sequencing, such as sampling instant mt, (m+1) t, (m+2) t ... etc., wherein m is integer.Multiple continuous user's viewpoints of dense arrangement refer to that the interval between multiple continuous sampling moment collected continuous user's viewpoints is closer, and arrangement is more concentrated.

Optionally, screen display equipment determines that effective viewpoint may include:

If falling in the continuous k user viewpoint in display area 1, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that continuous k user's viewpoint is effective viewpoint, wherein k is default positive integer.

Here distance can refer to that the straight length of two user's viewpoints on a display screen, distance threshold are according to the preset length value of needs.When the distance between adjacent user's viewpoint is less than pre-determined distance threshold value, it is considered that the interval between user's viewpoint is closer, when in k continuous user's viewpoints, when the distance between neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is believed that the k continuous user's viewpoint dense arrangements.Illustratively, pre-determined distance threshold value here can be 2cm, and default positive integer k can be the lesser positive integers of numerical value such as 2,3,5.

Wherein, screen display equipment determines that a kind of optional embodiment of effective viewpoint is specifically as follows:

When opening reading object, screen display equipment initializes the value n of continuous effective viewpoint counter It is 0；

If the collected active user's viewpoint of current sample time is fallen in display area 1, there are previous user's viewpoints of active user's viewpoint, and previous user's viewpoint of active user's viewpoint is non-empty viewpoint, then screen display equipment determines whether the distance between previous non-empty viewpoint of active user's viewpoint and active user's viewpoint is less than or equal to pre-determined distance threshold value；

If the distance between the previous non-empty viewpoint of active user's viewpoint and active user's viewpoint, it is less than or equal to pre-determined distance threshold value, then screen display equipment determines the relationship of n Yu default positive integer k；

If n is greater than default positive integer k, screen display equipment determines that active user's viewpoint is effective viewpoint, and n is added 1；

If n is equal to default positive integer k, screen display equipment determines that k-1 non-empty viewpoint before active user's viewpoint and active user's viewpoint is effective viewpoint, and n is added 1；

If n is less than default positive integer k, n is added 1 by screen display equipment；

If the distance between previous non-empty viewpoint of active user's viewpoint and active user's viewpoint is greater than pre-determined distance threshold value, n is reset to 0 by screen display equipment；

If the collected active user's viewpoint of current sample time is the empty viewpoint not fallen in display area 1, n is reset to 0.

Wherein, neighbouring sample moment collected user's viewpoint before previous user's viewpoint of active user's viewpoint refers to current sample time.

Alternatively, screen display equipment determines that the optional embodiment of the another kind of effective viewpoint is specifically as follows:

If screen display equipment determine active user's viewpoint and active user's viewpoint before k-1 continuous non-empty viewpoints in, linear distance between any two viewpoint is respectively less than pre-determined distance threshold value, then the k-1 viewpoint (total k viewpoint) before screen display equipment can determine active user's viewpoint and active user's viewpoint is effective viewpoint.

Whether above-mentioned determining user's viewpoint is that the meaning of method of effective viewpoint is, if falling in the continuous k user viewpoint in display area 1, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, and k is default positive integer, then may indicate that continuous multiple user's views Point concentrates near specific screen display content, and user's sight continues residence time long enough, so that human brain has sufficient authenticated time to identify and understands seen content, thus these user's viewpoints can be defined as effective viewpoint.

Furthermore, for in user's viewpoint for falling in display area 1, the distance between neighboring user viewpoint is larger, and user's viewpoint arranges the case where not concentrating (such as user's sight skims over display area 1), although the sight of user has swept to the corresponding screen display content of these user's viewpoints, these screen display contents belong to the objective screen display content of having read of user, but user's sight continues residence time and falls short of, human brain does not have sufficient authenticated time to identify and understand these screen display contents, thus these user's viewpoints are not effective viewpoints, are properly termed as invalid viewpoint.That is, invalid viewpoint is user's viewpoint in the user's viewpoint for fall in display area 1, in addition to effective viewpoint.

Illustratively, the distribution schematic diagram of effective viewpoint and invalid viewpoint may refer to Fig. 6 in display area 1, wherein stain indicates effective viewpoint, and white point indicates invalid viewpoint.

103, the effective viewpoint of screen display device flag.

When determining that user can identify effective viewpoint of its corresponding screen display content, screen display equipment can mark effective viewpoint automatically, identify screen display content so as to accurately identify the corresponding user of effective viewpoint.Wherein, labeled multiple continuous effectively viewpoints will form the trace item concentrated and presented, and be properly termed as vision ink marks.And the invalid viewpoint in user's viewpoint for falling in display area 1, screen display equipment can be without labels；Alternatively, screen display equipment can also be to be different from the mark pattern of effective viewpoint, marked invalid viewpoint.To, effective viewpoint and invalid viewpoint can accurately be distinguished, it can accurately and clearly mark the corresponding user of effective viewpoint and identify screen display content, and it can accurately distinguish the corresponding user of effective viewpoint and identify screen display content and the unidentified screen display content of the corresponding user of invalid viewpoint, it thus can effectively guide the unidentified screen display content of user's reading, so as to avoid user from leaking through details or serial, leakage row etc. when reading screen display content, and specific objective can be quickly located, the reading efficiency of user is improved.

In hand labeled method in the prior art, it needs user to take sb's mind off sth and constantly judges which screen display contents value must mark, which screen display content is unworthy marking, thus marked screen display content is that user's subjectivity thinks the screen display content for being worth label, it not necessarily can accurately cover the objective all the elements read of user, i.e., can not accurately distinguish the visitor in whole screen display contents as shown in Figure 7 Sight has been read screen display content and objective screen display content of not reading, prevent user from reading objective screen display content of not reading consciously according to the label done.Specifically, the box in Fig. 7 indicates that whole screen display contents, left oblique line fill part indicate the objective screen display content of not reading of user, the objective screen display content of having read of biggish ellipse internal representation user, the screen display content of lesser ellipse internal representation user's subjectivity label.And in labeling method provided in an embodiment of the present invention, fall the screen display content that the corresponding screen display content of user's viewpoint on a display screen is user's objective reading, after will fall effective viewpoint on a display screen and invalid viewpoint is marked, the corresponding screen display content of marked user's viewpoint is the objective screen display content of having read of user, and other parts screen display content is the objective screen display content that do not read of user.

And, labeling method provided in an embodiment of the present invention is when user reads screen display content by marking effective viewpoint automatically, the corresponding user of effective viewpoint can be marked to have identified screen display content automatically, attention and energy without dispersion user carry out hand labeled by additional operation, thus can be further improved the reading efficiency of user.

Further, in hand labeled method in the prior art, user is when reading screen display content, due to that cannot predict the interim reading point of interruption, because going out the position of the interim point of interruption without timely hand labeled, to cannot quickly navigate to the interim point of interruption just now when returning and reading, to reduce reading efficiency.Such as, when financial statement is being done in an accounting, colleague temporarily interrupts his work, since the accounting cannot predict the interim point of interruption, thus fail to mark in the data currently calculated in time, so that it is returning to the data for when work needing that more time is spent to re-search for calculating just now.And in labeling method provided in an embodiment of the present invention, since the user's viewpoint that can be fallen to user on a display screen is marked automatically, the interim point of interruption can be thus marked in time, the preceding screen display content read is interrupted so as to quickly navigate to when user returns and reads, so as to further increase reading efficiency.

The embodiment of the present invention provides a kind of labeling method, when opening reading object is read in the display area on screen display device display screen for user, screen display equipment can mark the multiple continuous viewpoints for falling dense arrangement on a display screen automatically, multiple continuous viewpoint of label is effective viewpoint that user has time enough to identify screen display content corresponding with its is understood, screen display content and unidentified screen display content have been identified so as to accurately distinguish user, the effectively unidentified screen display content of guidance user reading, improves the reading efficiency of user.

Embodiment 2

Referring to Fig. 8, on the basis of embodiment 1, the embodiment of the present invention provides another labeling method, still shown in Fig. 4 b for display area 1, not described part in embodiment 1 is described in detail, for part in the same manner as in Example 1, will not be described in great detail in the embodiment of the present invention.

After opening reading object in display area 1 in a step 101, labeling method provided in an embodiment of the present invention can also include:

104, screen display equipment shows time shaft, is provided at least one vernier on time shaft.

After screen display equipment can open reading object in display area 1, time shaft is arranged in the appropriate location in display area 1, and time shaft can arbitrarily drag in current display area.Illustratively, referring to Fig. 9, time shaft can be set in the bottom of display area, time shaft indicates in the form of at least one the slidably reference axis of vernier, one end of time shaft is initial time, initial time is at the time of opening first reading object in display area 1, and the other end is directed toward future time instance, and each sampling instant corresponds to a point on time shaft.

Wherein, the quantity of the corresponding sampling instant of unit length can fix on time shaft, and the length of time shaft can increase over time；Alternatively, the length of time shaft can fix, the quantity of the corresponding sampling instant of unit length increases over time.

Before marking effective viewpoint in step 103, method provided in an embodiment of the present invention can also include:

105, screen display equipment determines the corresponding view region of effective viewpoint.

Wherein, each effectively viewpoint can correspond to a view region, which is to have the region of default size and preset shape centered on effective viewpoint.Default size therein and preset shape specifically can according to need and set.Illustratively, the schematic diagram of effective viewpoint and its corresponding view region may refer to Figure 10.

After the view region for determining effective viewpoint in step 105, a kind of optional implementation of step 103 can be with are as follows:

1031, screen display equipment fills the transparent color lump of pre-set color in the view region of effective viewpoint.

The transparent color lump of pre-set color is filled in the view region of effective viewpoint effective viewpoint to be marked, vision ink marks is namely patterned into the suitably transparent color lump of size, shape to be covered in the corresponding screen display content of effective viewpoint, this mark pattern is properly termed as highlighting formula.Wherein, due to transparent color lump be it is transparent, because without blocking the corresponding screen display content of effective viewpoint completely, to not interfere with the normal reading of user.The option of pre-set color can there are many, such as specifically one of which can be selected to be marked according to actual needs in the corresponding color of the trichromatic different ratio of RGB.Illustratively, Figure 11 may refer to using the vision ink marks effect diagram that the formula of highlighting marks effective viewpoint to be formed.

Alternatively, after determining the view region of effective viewpoint in step 105, the optional implementation of the another kind of step 103 can be with are as follows:

1032, if it is determined that the coverage area of the different effectively corresponding view regions of viewpoint overlaps, then screen display equipment is marked overlapping region according to the corresponding overlapping number in overlapping region, and in the view region other than overlapping region, the transparent color lump of pre-set color is filled.

Since the view region of effective viewpoint is centered on effective viewpoint and region with a certain size and shape, thus view region corresponds to certain coverage area.The corresponding coverage area of view region can specifically be determined according to the coordinate of effective viewpoint and the size and shape of view region.For example, on the reading object in display area 1, while the region that the point in the coverage area of view region 1 and view region 2 is formed is the overlapping region of view region 1 and view region 2, and being overlapped number is 1；The region that the point in the coverage area of view region 1, view region 2 and view region 3 is formed simultaneously is the overlapping region of view region 1, view region 2 and view region 3, and being overlapped number is 2.Thus, screen display equipment can determine the corresponding overlapping number in overlapping region and overlapping region according to the quantity of the view region where the point on the same reading object of display screen display.Wherein, the overlapping number of overlapping region can subtract 1 to cover the quantitative value of all view regions of the overlapping region.

For the overlapping region of view region in display area 1, can be marked according to overlapping number, and in the view region other than overlapping region, the transparent color lump of pre-set color can be filled as in step 1031.

Wherein, it due to the lap that overlapping region is the view region of effective viewpoint, thus is overlapped The corresponding screen display content in region is that user has identified screen display content.Screen display equipment is marked overlapping region using different mark patterns according to the not negative lap number of overlapping region, the corresponding user in overlapping region can be intuitively indicated to have identified the identification number of screen display content and be concerned degree, to be easily discriminated the screen display content that the corresponding user in overlapping region that view region is repeatedly overlapped reads and thought deeply repeatedly, and few lap of view region or does not occur the corresponding user of the view region being overlapped and consider less screen display content, so as to intuitively indicate the key content that user scrutinized, look back the blind spot in main points and quickly discovery understanding rapidly convenient for user.

Optionally, in step 1032, screen display equipment, which is marked overlapping region according to the corresponding overlapping number in overlapping region, may include:

Screen display equipment fills transparent color lump in the overlapping region of view region, and the color of transparent color lump and the overlapping number of overlapping region are corresponding.

Specifically, screen display equipment can be in the overlapping region of the corresponding view region of effective viewpoint, it is filled in the transparent color lump of the corresponding color of overlapping number, to identify the identified number of the corresponding screen display content in overlapping region by the different colours of transparent color lump and be concerned degree.

Illustratively, referring to Figure 12, when view region does not overlap, the transparent color lump of pre-set color can be filled in view region, pre-set color can be light grey (referring to grid fill part in Figure 12), when different points of view region overlaps and the corresponding overlapping number in overlapping region is 1, the color of the transparent color lump of overlapping region filling can be for blue (referring to vertical line fill part in Figure 12), and non-overlap part can fill grayish transparent color lump in the view region to overlap；When different points of view region overlaps and the corresponding overlapping number in overlapping region is 2, the color for the transparent color lump filled in overlapping region can be yellow (referring to oblique line fill part left in Figure 12), and non-overlap part can fill grayish transparent color lump in the view region to overlap；When different points of view region overlaps and the corresponding overlapping number in overlapping region is 3, the color for the transparent color lump filled in overlapping region can be for red, and non-overlap part can fill grayish transparent color lump in the view region to overlap.

Optionally, the corresponding overlapping number in overlapping region is bigger, and the color for the transparent color lump filled in overlapping region can be deeper.Illustratively, the color for the transparent color lump filled in overlapping region is the transparent color lump for the pre-set color (such as light grey) filled in all view regions of covering overlapping area Color superposition, the quantity of the view region of covering overlapping area is more, and the corresponding overlapping number in overlapping region just increases, and superimposed color is also deeper.Illustratively, referring to Figure 13, if the transparent color lump filled in the view region of effectively viewpoint is light gray, the color of transparent color lump is the superposition for the transparent color lump of light gray filled in the two view regions to overlap in the overlapping region of two view regions；The color of transparent color lump is the superposition for the transparent color lump of light gray filled in these three view regions to overlap in the overlapping region of three view regions.

Optionally, in step 1032, screen display equipment, which is marked overlapping region according to the corresponding overlapping number in overlapping region, to include:

Corresponding position display overlapping number mark of the screen display equipment in overlapping region.

Screen display equipment can show overlapping number mark in the corresponding position of the overlapping region of the corresponding view region of effective viewpoint, be concerned degree with highlight screen display content.Corresponding position therein can be set according to the actual situation, such as middle top, the upper left corner or the upper right corner etc. that can be located in overlapping region.Overlapping number mark can be Arabic numerals form, Roman number form or Chinese man's digital form, it is also possible to other forms, such as overlapping number is identified according to the sequence of The English alphabet, B indicates that overlapping number is 2 times, C indicates that overlapping number is 3 inferior, here without limitation to the concrete form of overlapping number mark.Illustratively, the schematic diagram of overlapping number mark may refer to Figure 14 in repeat region.

In addition, the clear coat of pre-set color can also be previously covered by the corresponding content of reading object.In the case of this kind, mark the optional implementation of another kind of effective viewpoint can be with after the view region for determining effective viewpoint in step 105, in step 103 are as follows:

1033, the corresponding region of view region in screen display device erasing clear coat.

Mark pattern corresponding to the corresponding region of view region is properly termed as erasing type in the clear coat of the pre-set color (such as light grey) covered on erasing reading object, and vision ink marks shows as the corresponding clear coat of erasing view region and the cavity that occurs.When using this kind of mark mode, when can open reading object in display area, the full content on reading object is completely covered with clear coat.Illustratively, the effect diagram for the vision ink marks for marking effective viewpoint to be formed using erasing type may refer to Figure 15.

Furthermore, for the user's viewpoint fallen in display area 1, screen display equipment can be marked with 103 pairs through the above steps effective viewpoints therein, and for invalid viewpoint therein, screen display equipment can be without label, it can also be marked with the mark pattern for being different from effective viewpoint, the embodiment of the present invention is without limitation.

Further, labeling method provided in an embodiment of the present invention can also include:

106, screen display equipment saves the sampling instant for falling in user's viewpoint in display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of reading object.

For the user's viewpoint fallen in display area 1, screen display equipment can also save the sampling instant of user's viewpoint, the corresponding display area 1 of user's viewpoint, the identity of reading object belonging to the corresponding screen display content of user's viewpoint, and user's viewpoint is relative to the mapping relations between the coordinate of reading object, in order to after the user's viewpoint fallen in display area 1 is marked, flag state corresponding with the sampling instant on time shaft can be shown according to the mapping relations in the vernier on sliding time axis.

Since reading object corresponding in display area 1 can be one or more, screen display equipment can pass through one reading object of identity unique identification of preset reading object.Wherein, the identity of object of reading can be what screen display equipment automatically generated, be also possible to user's manual setting in screen display equipment, here without specifically limiting.User's viewpoint relative to reading object coordinate to position user's viewpoint currently reading object in specific location.For example, active user's viewpoint can arrange corresponding point for the * pages * row * on current reading object, corresponding coordinate can be the * pages * row * column.

After above-mentioned steps 101-106, labeling method provided in an embodiment of the present invention can also include, when vernier on a timeline slides, screen display equipment can show corresponding flag state according to the corresponding sampling instant of vernier real time position, flag state therein includes the object and in step 103 to the label that is carried out of user's viewpoint on reading object read, so as to look back marked user's viewpoint sequentially in time, the vision track of user is looked back.Wherein, user's viewpoint here may include effective viewpoint and invalid viewpoint.When the vernier on time shaft slides, screen display equipment can temporarily cease by tracking component acquire viewpoint (process be similar in the prior art sliding video into Suspend video playing when degree), it can continue to acquisition user's viewpoint and be marked, the embodiment of the present invention is without limitation.

It will be described in detail below by two kinds of concrete conditions:

(1) if, in display area 1 only include a sub-regions, in the vernier on sliding time axis, a page is shown in display area 1.

Specifically, after above-mentioned steps 101-106, this method can also include: when being provided with the first vernier on the time shaft in display area 1

107, when the first vernier of screen display equipment on a timeline slides, corresponding first sampling instant of the slider position of the first vernier is determined；

According to mapping relations, the first identity corresponding with display area and the first sampling instant and the first coordinate are determined；

In display area, in the corresponding reading object of the first identity of display, flag state of the corresponding first object page of the first coordinate in the corresponding user's viewpoint of the first sampling instant.

When being provided with the first vernier on the time shaft in display area 1, user can be with the first vernier (such as by mouse or touching sliding vernier) on sliding time axis, screen display equipment can determine corresponding first sampling instant of the first vernier according to the real time position of the first vernier in sliding process.Wherein, corresponding first sampling instant of the first vernier can be the sampling instant of the first vernier of distance on time shaft recently.After determining the first sampling instant, screen display equipment can be according to the mapping relations determined in step 106, determine the first identity corresponding with display area 1 and the first sampling instant and the first coordinate, to be shown in the corresponding reading object of the first identity in display area 1, the flag state of the corresponding user's viewpoint of the first sampling instant is ended on the corresponding first object page of the first coordinate.

Illustratively, when not sliding the first vernier, if current sample time is sampling instant 30, user has read to the lower half page of the page 1, screen display equipment marks user's viewpoint collected in sampling instant 1-30 according to above-mentioned steps 103, and the flag state of the corresponding page 1 of sampling instant 30 can be as illustrated in fig 16 a.At the first vernier slide to a certain position, if corresponding first sampling instant is sampling instant 5, cut-off 5 user of sampling instant reads to the upper half page of the page 1, screen display Equipment marks user's viewpoint collected in sampling instant 1-5 according to above-mentioned steps 103, i.e. the flag state of the corresponding page 1 of the first sampling instant (sampling instant 5) can be as shown in fig 16b.

When being provided with the second vernier and third vernier on the time shaft in display area 1, and when the second vernier is located on time shaft close to the side of initial time, after above-mentioned steps 101-106, this method can also include:

1081, when the second vernier of screen display equipment on a timeline slides, corresponding second sampling instant of the slider position of the second vernier and the corresponding third sampling instant of slider position of third vernier are determined；

According to mapping relations, the second identity corresponding with display area and the second sampling instant and the second coordinate are determined；

In display area, in the corresponding reading object of the second identity of display, after the second sampling instant and before third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of the second coordinate.

1082, when the third vernier of screen display equipment on a timeline slides, the corresponding third sampling instant of the slider position of third vernier is determined；

According to mapping relations, tiers e'tat mark corresponding with display area and third sampling instant and third coordinate are determined；

In display area, display tiers e'tat is identified in corresponding reading object, before third sampling instant and after the second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of third coordinate.

Wherein, the second vernier is located at the side on time shaft close to initial time, the then corresponding sampling instant of the second vernier sampling instant corresponding prior to third vernier in time sequencing.Corresponding second sampling instant of second vernier, can be the sampling instant that the second vernier of distance is nearest on time shaft, and the corresponding third sampling instant of third vernier can be sampling instant nearest apart from third vernier on time shaft.

Illustratively, when not sliding the second vernier and third vernier, corresponding second sampling instant of the second vernier is initial time, and the corresponding third sampling instant of third vernier is sampling instant 60, the Corresponding second target pages of two sampling instants are the page 1.End sampling instant 60, user has read to the upper half page of the page 2, screen display equipment is marked according to the user's viewpoint in the page 1 and the page 2 collected to sampling instant 1-60 of above-mentioned steps 103, wherein, the last one user's viewpoint in 45 corresponding page 1 of sampling instant, the flag state of the page 1 may refer to Figure 17 a, and the flag state of the page 2 may refer to Figure 17 b.

At the second vernier slide to a certain position, if corresponding second sampling instant is sampling instant 5, then corresponding second target pages of the second vernier are the page 1, after the corresponding sampling instant 5 of second sampling instant before the corresponding sampling instant 60 of third sampling instant, the flag state on the second target pages (page 1) can be as shown in fig. 17 c.Since the collected user's viewpoint of sampling instant 46-60 is not on the second target pages (page 1), and the flag state on the second target pages (page 1) is only shown in Figure 17 c, it thus in fact only shows in Figure 17 c after the second sampling instant before sampling instant 46, corresponding flag state on the page 1.

Further, the second slider position is stopped at into sampling instant 5, starts to slide third vernier.During sliding third vernier, if the corresponding third sampling instant of third vernier is sampling instant 50, the corresponding third target pages of third sampling instant are the page 2.Then before third sampling instant (sampling instant 50) after the second sampling instant (sampling instant 5), corresponding flag state can be as shown in Figure 17 d on third target pages (page 2).Wherein, due to screen display equipment before sampling instant 46 collected user's viewpoint on the page 1, not on third target pages (page 2), thus actual displayed is corresponding flag state on the page 2 after sampling instant 46 before sampling instant 50 in Figure 17 d.

It should be noted that corresponding first sampling instant of the first vernier is different, and the flag state on the corresponding first object page and the first object page is also different when the first slider position is slided.

(2) if, include at least two subregions in display area, when then vernier on a timeline slides, the shows target pages in a wherein sub-regions, other pages are shown in other subregions, the embodiment of the present invention is not specifically limited the physical relationship of the other pages and target pages that show in other subregions.

Optionally, if in display area including at least two subregions, vernier on a timeline When sliding, the page adjacent on flag sequence can be shown in adjacent subarea domain with shows target pages in a sub-regions wherein.Target pages therein are corresponding with the position of vernier on a timeline.If including the first vernier described in above-mentioned steps 107 on time shaft, when the first vernier slides, target pages are the first object page corresponding with the slider position of the first vernier.If including the second vernier and third vernier described in above-mentioned steps 1081 and 1082 on time shaft, when the second vernier slides, target pages are the second target pages corresponding with the slider position of the second vernier；When third vernier slides, target pages are third target pages corresponding with the slider position of third vernier.

It should be noted that since screen display equipment is to be marked according to the reading sequence of user, thus arrange the page according to flag sequence and namely arrange the page according to the reading of user sequence.That is, when vernier on a timeline slides, the sequentially adjacent page of the reading of user can be shown in the adjacent subarea domain in display area 1 if including at least one subregion in display area 1.And according to above, if in display area 1 including at least one subregion, when the vernier on time shaft does not slide, display text can put in order the upper adjacent page in the adjacent subarea domain in display area 1.

Specifically, if in display area 1 including two sub-regions, when then vernier on a timeline slides, can in the first subregion shows target pages, the target pages are corresponding with the position of vernier on a timeline, and the front/rear page that target pages are come according to flag sequence (user's reading sequence) is shown in the second subregion.

Illustratively, when in display area 1 including subregion 1 and subregion 2 as shown in Figure 5, sampling instant 5 is stopped at the position of above-mentioned second vernier, and when sliding third vernier for examples cited, second sampling instant corresponds to sampling instant 5, third sampling instant corresponds to sampling instant 50, and user has read the page 5 and the page 6 again after the reading page 1 and the page 2, then referring to Figure 18 a, third target pages (page 2) can be shown in subregion 2, the page 1 in flag sequence (user's reading sequence) before third target pages can be shown in subregion 1；Alternatively, can show third target pages (page 2) referring to Figure 18 b, in subregion 1, the page 5 come after third target pages in flag sequence (user's reading sequence) can be shown in subregion 2.

It certainly, also may include more than two subregions in display area 1.Illustratively, join See Figure 18 c, when in display area 1 including 3 sub-regions, screen display equipment can show third target pages (page 2) in subregion 2, it shows that flag sequence (user's reading sequence) comes the page 1 before the page 2 in subregion 1, and shows that flag sequence (user's reading sequence) comes the page 5 after the page 3 in subregion 3.Or, referring to Figure 18 d, third target pages (page 2) can also be shown in subregion 1, it shows that flag sequence (user's reading sequence) comes the page 5 after the page 2 in subregion 2, and shows that flag sequence (user's reading sequence) comes the page 6 after the page 5 in subregion 3.

It is worth noting that, the flag state of each page shown in above-mentioned Figure 18 a, 18b, 18c, 18d, is each page corresponding flag state before third sampling instant after the second sampling instant.Specifically, the corresponding flag state of the page 1, corresponding flag state before being the sampling instant 46 later of the second sampling instant (sampling instant 5) shown in Figure 17 c；The flag state of third target pages (page 2) can be as shown in Figure 17 d；Since in third sampling instant, content of the user still in the reading page 2 is not yet read to the page 5 and the page 6, thus is not marked on the page 5 and the page 6.

Therefore, when vernier on a timeline slides, if in display area including multiple subregions, the adjacent multiple pages of target pages sequentially corresponding with slider position of reading can be then simultaneously displayed in display area, so as to be convenient for user from the case where macroscopically knowing more marked user's viewpoints, understand more view contents, improves the experience of user.

It should be noted that corresponding second sampling instant of the second vernier is different, and the flag state on corresponding second target pages and the second target pages is also different when the second slider position is slided.When sliding the second vernier, since third slider position is temporarily fixed, thus during sliding the second vernier, corresponding second target pages of the second vernier change in any case, and the page that user read before the corresponding third sampling instant of third vernier.

Equally, when third slider position is slided, the corresponding third sampling instant of third vernier is different, and the flag state on corresponding third target pages and third target pages is also different.When sliding third vernier, since the second slider position is temporarily fixed, thus during sliding third vernier, the corresponding third target pages of third vernier change in any case, and the page that user read after corresponding second sampling instant of the second vernier.

In above-mentioned (1), (2) two kinds of situations, when vernier slides on a timeline, the time sequencing that the target pages shown in display area 1 are read according to user jumps automatically, and corresponding flag state in shows target pages, flag state includes the label carried out on target pages to user's viewpoint, thus the process can be equivalent to the user viewpoint marked by time shaft " rollback ".By the marked user's viewpoint of time shaft and vernier " rollback ", user can be helped to look back the vision track of oneself sequentially in time, and to the cognitive process of screen display content, position user rapidly and wish the specific content later found, improve reading efficiency.

Wherein, when being provided with a vernier on time shaft, user can look back the corresponding sampling instant of the slider position user viewpoint marked to initial time by sliding vernier；When there are two when vernier, user can look back user's viewpoint marked between the corresponding sampling instant of two slider positions by sliding vernier for setting on time shaft.Compared with being provided only with a vernier on time shaft, when setting can look back marked user's viewpoint in special time period in order to user, improve user experience there are two when vernier on time shaft.

Illustratively, user is when reading certain part of document, if seeing, the content of certain a part of B and another part A oneself seen before a few minutes are mutually confirmation, need to look back that previous a part of A, so due to user reading sequentially A before B, vernier that thus can back on sliding time axis, chronologically inversely finds A.And then want much clumsy by the method for rollback text commonly used in the prior art, not only due to according to text alignment sequence A, not necessarily just (such as A is in the page 3 before B, B is in the page 1), even if according to text alignment sequence A, just (such as A is in the page 1 before B, B is in the page 3), rollback text also implies that the content for needing many users of approach not see or not identified at all, the length of its rollback text is more than to carry out the length of rollback user's viewpoint using the vernier on time shaft, to reduce user's reading efficiency, the experience of user is also reduced.For example, A is in the page 1, B is in the page 3, and user has not seen the page 2, and during B review A, rollback text is needed by the page 2, and the marked user's viewpoint of rollback then directly can jump to the page 1 from the page 3, without passing through the page 2.

Furthermore, in labeling method provided in an embodiment of the present invention, after screen display equipment is restarted, when opening reading object opened before restarting in display area 1, flag state before can keeping restarting on reading object, and the label done before emptying when needed；Alternatively, restarting it The label done on reading object before restarting can also be directly emptied afterwards, be not specifically limited here.

The embodiment of the present invention provides a kind of labeling method, screen display equipment is according to the corresponding overlapping number in overlapping region of the view region of effective viewpoint, distinguishing mark is carried out to overlapping region, with identify the corresponding screen display content in overlapping region be concerned it is different degrees of, the key content that user reads repeatedly is highlighted, looks back the blind spot in main points and quickly discovery understanding rapidly convenient for user；And marked user's viewpoint is looked back by time shaft and vernier, look back the vision track of oneself and the cognitive process to screen display content in chronological order convenient for user, the specific content later found is wished in positioning rapidly, to further improve the reading efficiency of user.

Embodiment 3

The embodiment of the present invention provides a kind of screen display equipment 200, can be used for executing the labeling method of above-described embodiment 1 and the offer of embodiment 2.Referring to Figure 19, which may include:

Display unit 201 can be used in display area on a display screen opening reading object, include at least one display area on display screen.

Determination unit 202, is determined for effective viewpoint, and effective viewpoint is multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen in display area.

Marking unit 203 can be used for marking effective viewpoint.

Wherein it is determined that unit 202 can be specifically used for:

If falling in the continuous k user viewpoint in display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that continuous k user's viewpoint is effective viewpoint, wherein k is default positive integer.

In addition, determination unit 202 can be also used for:

Before marking unit 203 marks effective viewpoint, the corresponding view region of effective viewpoint is determined, wherein each corresponding view region of effectively viewpoint, view region are to have the region of default size and preset shape centered on effective viewpoint.

Optionally, marking unit 203 can be specifically used for:

The transparent color lump of pre-set color is filled in the view region of effective viewpoint.

Further, marking unit 203 can be specifically used for:

If it is determined that the coverage area of the different effectively corresponding view regions of viewpoint overlaps, then overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than overlapping region, fill the transparent color lump of pre-set color.

Alternatively, marking unit 203 can be specifically used for:

Transparent color lump is filled in overlapping region, the color of transparent color lump and the overlapping number of overlapping region are corresponding.

Optionally, marking unit 203 can be specifically used for:

Corresponding position display overlapping number mark in overlapping region.

Optionally, the clear coat of pre-set color is covered in the corresponding content of reading object, marking unit 203 can be specifically used for:

Wipe the corresponding region of view region in clear coat.

Referring to fig. 20, which can also include:

Storage unit 204, it can be used to save the sampling instant of the user's viewpoint fallen in display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of reading object.

Wherein, display area may include at least one subregion, and each subregion is used to show a page in reading object.

In addition, shown display unit 201 can be also used for:

After opening reading object in display area, shows time shaft, be provided at least one vernier on time shaft.

Optionally, the first vernier can be set on the time shaft in display area；

Determination unit 202 can be also used for, and when the first vernier on a timeline slides, determine corresponding first sampling instant of the slider position of the first vernier；According to mapping relations, the first identity corresponding with display area and the first sampling instant and the first coordinate are determined；

Display unit 201 can be also used for, in display area, in the corresponding reading object of the first identity of display, and flag state of the corresponding first object page of the first coordinate in the corresponding user's viewpoint of the first sampling instant.

Optionally, the second vernier and third vernier can be set on the time shaft in display area, the second vernier is located at the side on time shaft close to initial time；

Determination unit 202 can be also used for, and when the second vernier on a timeline slides, determine corresponding second sampling instant of the slider position of the second vernier and the corresponding third sampling instant of slider position of third vernier；According to mapping relations, the second identity corresponding with display area and the second sampling instant and the second coordinate are determined；

Display unit 201 can be also used for, in display area, in the corresponding reading object of the second identity of display, and after the second sampling instant and before third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of the second coordinate；

Determination unit 202 can be also used for, and when third vernier on a timeline slides, determine the corresponding third sampling instant of the slider position of third vernier；According to mapping relations, tiers e'tat mark corresponding with display area and third sampling instant and third coordinate are determined；

Display unit 201 can be also used for, and in display area, display tiers e'tat is identified in corresponding reading object, before third sampling instant and after the second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of third coordinate.

Further, if including at least two subregions in display area, when vernier on a timeline slides, display unit 201 can be specifically used for:

The shows target pages in the first subregion, target pages are corresponding with slider position, and display comes a front/rear page for target pages according to flag sequence in the second subregion.

A kind of screen display equipment provided in an embodiment of the present invention, when opening reading object is read in the display area on screen display device display screen for user, screen display equipment can mark the multiple continuous viewpoints for falling dense arrangement on a display screen automatically, multiple continuous viewpoint of label is effective viewpoint that user has time enough to identify screen display content corresponding with its is understood, screen display content and unidentified screen display content have been identified so as to accurately distinguish user, effectively user are guided to read in unidentified screen display Hold, improves the reading efficiency of user.

Moreover, screen display equipment can mark the interim point of interruption in user's reviewing process in time, continue to read so that user be helped to return quickly to the point of interruption after the interruption, so as to further provide for the reading efficiency of user by marking effective viewpoint.

It should be noted that, determination unit 202 and marking unit 203 in the embodiment of the present invention can be the processor individually set up, also it can integrate and realized in some processor of screen display equipment, furthermore, it can also be stored in the form of program code in the memory of screen display equipment, be called by some processor of screen display equipment 200 and executed the function of unit 202 and marking unit 203 determined above.Here processor can be a central processing unit (Central Processing Unit, CPU), microprocessor, either specific integrated circuit (Application Specific Integrated Circuit, ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.

Embodiment 4

The embodiment of the present invention provides a kind of screen display equipment 200, and referring to fig. 21, which uses general-purpose computing system structure, and the program code for executing the present invention program saves in memory, and execution is controlled by processor.Screen display equipment 200 may include bus 214, display screen 211, processor 212, memory 213 etc..Wherein, bus 214 may include data/address bus, power bus, control bus, status signal bus in addition etc., but for the sake of clear explanation, various buses are all designated as a bus in Figure 21, for transmitting information between computer all parts.Display screen 211 can be used to implement the function of display unit in above-described embodiment 3.Memory 213, it can be read-only memory read-only memory (ROM) or the other kinds of static storage device of static information and instruction can be stored, random access memory random access memory (RAM) or the other kinds of dynamic memory that can store information and instruction, are also possible to magnetic disk storage.Memory 213 is connected by bus with processor 212, for saving operating system and executing the program of the present invention program, can specifically execute the function of storage unit in above-described embodiment 2.Operating system is for controlling the operation of other programs, the program of management system resource.The program code for executing the present invention program is stored in memory 213, and execution is controlled by processor 212.

The program stored in memory 213 realizes above-described embodiment 1 and the labeling method that embodiment 2 describes for instruction processing unit 212.It can specifically include:

Display screen 211 can be used for opening reading object in the display area on display screen 211, include at least one display area on display screen 211.

Processor 212, is determined for effective viewpoint, and effective viewpoint is multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen in display area；Mark effective viewpoint.

Wherein, processor 212 is for determining that effective viewpoint can specifically include:

If falling in the continuous k user viewpoint in display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that continuous k user's viewpoint is effective viewpoint, wherein k is default positive integer.

Processor 212 can be also used for before marking effective viewpoint:

Determine the corresponding view region of effective viewpoint, wherein each corresponding view region of effectively viewpoint, view region are to have the region of default size and preset shape centered on effective viewpoint.

Optionally, processor 212 is for marking effective viewpoint can specifically include:

The transparent color lump of pre-set color is filled in the view region of effective viewpoint.

Optionally, processor 212 is for marking effective viewpoint can specifically include:

If it is determined that the coverage area of the different effectively corresponding view regions of viewpoint overlaps, then overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than overlapping region, fill the transparent color lump of pre-set color.

Further, processor 212 can specifically include for overlapping region to be marked according to the corresponding overlapping number in overlapping region:

Transparent color lump is filled in overlapping region, the color of transparent color lump and the overlapping number of overlapping region are corresponding.

Alternatively, processor 212 can specifically include for overlapping region to be marked according to the corresponding overlapping number in overlapping region:

Corresponding position display overlapping number mark in overlapping region.

Optionally, the clear coat of pre-set color is covered in the corresponding content of reading object, processor 212 is for marking effective viewpoint can specifically include:

Wipe the corresponding region of view region in clear coat.

In addition, processor 212 can be also used for:

To be different from the mark pattern marked invalid viewpoint of effective viewpoint, invalid viewpoint is user's viewpoint in the user's viewpoint fallen in display area, in addition to effective viewpoint.

Further, memory 213 can be used for, save the sampling instant for falling in user's viewpoint in display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of reading object.

Wherein, display area may include at least one subregion, and each subregion is used to show a page in reading object.

Further, display screen 211 can be also used for:

After opening reading object in display area, shows time shaft, be provided at least one vernier on time shaft.

Optionally, the first vernier can be set on the time shaft in display area；

Processor 212 can be also used for, and when the first vernier on a timeline slides, determine corresponding first sampling instant of the slider position of the first vernier；According to mapping relations, the first identity corresponding with display area and the first sampling instant and the first coordinate are determined；

Display screen 211 can be also used for, in display area, in the corresponding reading object of the first identity of display, and flag state of the corresponding first object page of the first coordinate in the corresponding user's viewpoint of the first sampling instant.

Optionally, the second vernier and third vernier can be set on the time shaft in display area, the second vernier is located at the side on time shaft close to initial time；

Processor 212 can be also used for, and when the second vernier on a timeline slides, determine corresponding second sampling instant of the slider position of the second vernier and the corresponding third sampling instant of slider position of third vernier；According to mapping relations, the second identity corresponding with display area and the second sampling instant and the second coordinate are determined；

Display screen 211 can be also used for, in display area, in the corresponding reading object of the second identity of display, and after the second sampling instant and before third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of the second coordinate；

Processor 212 can be also used for, and when third vernier on a timeline slides, determine the corresponding third sampling instant of the slider position of third vernier；According to mapping relations, tiers e'tat mark corresponding with display area and third sampling instant and third coordinate are determined；

Display screen 211 can be also used for, and in display area, display tiers e'tat is identified in corresponding reading object, before third sampling instant and after the second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of third coordinate.

In addition, when vernier on a timeline slides, display screen 211 specifically can be used for if including at least two subregions in display area:

The shows target pages in the first subregion, target pages are corresponding with slider position, and display comes a front/rear page for target pages according to flag sequence in the second subregion.

A kind of screen display equipment provided in an embodiment of the present invention, when opening reading object is read in the display area on screen display device display screen for user, screen display equipment can mark the multiple continuous viewpoints for falling dense arrangement on a display screen automatically, multiple continuous viewpoint of label is effective viewpoint that user has time enough to identify screen display content corresponding with its is understood, screen display content and unidentified screen display content have been identified so as to accurately distinguish user, the effectively unidentified screen display content of guidance user reading, improves the reading efficiency of user.

Moreover, screen display equipment can mark the interim point of interruption in user's reviewing process in time, continue to read so that user be helped to return quickly to the point of interruption after the interruption, so as to further provide for the reading efficiency of user by marking effective viewpoint.

In several embodiments provided herein, it should be understood that disclosed device and method may be implemented in other ways.Such as, the apparatus embodiments described above are merely exemplary, such as, the division of the unit, only a kind of logical function partition, there may be another division manner in actual implementation, such as multiple units or components can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed phase Coupling, direct-coupling or communication connection between mutually can be through some interfaces, the indirect coupling or communication connection of device or unit, can be electrical property, mechanical or other forms.The unit as illustrated by the separation member may or may not be physically separated, and component shown as a unit may or may not be physical unit, it can and it is in one place, or may be distributed over multiple network units.It can some or all of the units may be selected to achieve the purpose of the solution of this embodiment according to the actual needs.In addition, the functional units in various embodiments of the present invention may be integrated into one processing unit, being also possible to the independent physics of each unit includes that can also be integrated in one unit with two or more units.Above-mentioned integrated unit both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.

The above-mentioned integrated unit being realized in the form of SFU software functional unit, can store in a computer readable storage medium.Above-mentioned SFU software functional unit is stored in a storage medium, including some instructions are used so that a computer equipment (can be personal computer, server or the network equipment etc.) executes the part steps of each embodiment the method for the present invention.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (Read-Only Memory, abbreviation ROM), random access memory (Random Access Memory, abbreviation RAM), the various media that can store program code such as magnetic or disk.

The description of embodiment of the method before some concrete functions about device, system or equipment can refer to.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although the present invention is described in detail referring to the foregoing embodiments, those skilled in the art should understand that: it is still possible to modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features；And these are modified or replaceed, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (45)

1. A kind of labeling method characterized by comprising

   Reading object is opened in display area on a display screen, includes at least one described display area on the display screen；

   Determine that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen within the display area；

   Mark effective viewpoint.
2. The method according to claim 1, wherein the effective viewpoint of determination includes:

   If falling in continuous k user viewpoint within the display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint, wherein k is default positive integer.
3. According to the method described in claim 2, it is characterized in that, before label effective viewpoint further include:

   Determine the corresponding view region of effective viewpoint, wherein each corresponding view region of effective viewpoint, the view region are to have the region of default size and preset shape centered on effective viewpoint.
4. According to the method described in claim 3, it is characterized in that, label effective viewpoint includes:

   The transparent color lump of pre-set color is filled in the view region of effective viewpoint.
5. According to the method described in claim 3, it is characterized in that, label effective viewpoint includes:

   If it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, the transparent color lump of pre-set color is filled.
6. According to the method described in claim 5, it is characterized in that, the described overlapping region is marked according to the corresponding overlapping number in overlapping region includes:

   Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding.
7. According to the method described in claim 5, it is characterized in that, the described overlapping region is marked according to the corresponding overlapping number in overlapping region includes:

   Corresponding position display overlapping number mark in the overlapping region.
8. According to the method described in claim 3, label effective viewpoint includes: it is characterized in that, being covered with the clear coat of pre-set color in the corresponding content of the reading object

   Wipe the corresponding region of view region described in the clear coat.
9. Method according to claim 1-8, which is characterized in that the method also includes:

   To be different from the mark pattern marked invalid viewpoint of effective viewpoint, the invalid viewpoint is user's viewpoint in the user's viewpoint fallen within the display area, in addition to effective viewpoint.
10. - 9 described in any item methods according to claim 1, which is characterized in that the method also includes:

    Save the sampling instant for falling user's viewpoint within the display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of the reading object.
11. - 10 described in any item methods according to claim 1, which is characterized in that the display area includes at least one subregion, and each subregion is used to show a page in the reading object.
12. According to the method for claim 11, which is characterized in that the method also includes:

    After opening reading object within the display area, shows time shaft, be provided at least one vernier on the time shaft.
13. According to the method for claim 12, which is characterized in that the first vernier is provided on the time shaft in the display area, the method also includes:

    When first vernier on the time axis slides, corresponding first sampling instant of the slider position of first vernier is determined；

    According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

    Within the display area, it shows in the corresponding reading object of first identity, the corresponding first object page of first coordinate is in the corresponding user's viewpoint of first sampling instant Flag state.
14. According to the method for claim 12, which is characterized in that the second vernier and third vernier are provided on the time shaft in the display area, second vernier is located at the side on time shaft close to initial time, the method also includes:

    When second vernier on the time axis slides, corresponding second sampling instant of the slider position of second vernier and the corresponding third sampling instant of slider position of third vernier are determined；

    According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

    Within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

    When the third vernier on the time axis slides, the corresponding third sampling instant of the slider position of the third vernier is determined；

    According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

    Within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.
15. Method described in 3 or 14 according to claim 1, it is characterized in that, it include at least two subregions in the display area, when vernier on the time axis slides, the shows target pages in the first subregion, the target pages are corresponding with slider position, and display comes a front/rear page for the target pages according to flag sequence in the second subregion.
16. A kind of screen display equipment characterized by comprising

    Display unit includes at least one described display area on the display screen for opening reading object in display area on a display screen；

    Determination unit, for determining that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen within the display area；

    Marking unit, for marking effective viewpoint.
17. Equipment according to claim 16, which is characterized in that the determination unit is specifically used for:

    If falling in continuous k user viewpoint within the display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint, wherein k is default positive integer.
18. Equipment according to claim 17, which is characterized in that the determination unit is also used to:

    Before the marking unit marks effective viewpoint, determine the corresponding view region of effective viewpoint, wherein each corresponding view region of effective viewpoint, the view region is to have the region of default size and preset shape centered on effective viewpoint.
19. Equipment according to claim 18, which is characterized in that the marking unit is specifically used for:

    The transparent color lump of pre-set color is filled in the view region of effective viewpoint.
20. Equipment according to claim 18, which is characterized in that the marking unit is specifically used for:

    If it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, the transparent color lump of pre-set color is filled.
21. Equipment according to claim 20, which is characterized in that the marking unit is specifically used for:

    Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding.
22. Equipment according to claim 20, which is characterized in that the marking unit is specifically used for:

    Corresponding position display overlapping number mark in the overlapping region.
23. Equipment according to claim 18, which is characterized in that the clear coat of pre-set color is covered in the corresponding content of object of reading, the marking unit is specifically used for:

    Wipe the corresponding region of view region described in the clear coat.
24. The described in any item equipment of 6-23 according to claim 1, which is characterized in that the mark Note unit is also used to:

    To be different from the mark pattern marked invalid viewpoint of effective viewpoint, the invalid viewpoint is user's viewpoint in the user's viewpoint fallen within the display area, in addition to effective viewpoint.
25. The described in any item equipment of 6-24 according to claim 1, which is characterized in that the equipment further include:

    Storage unit, for saving the sampling instant for falling the viewpoint of user within the display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of the reading object.
26. The described in any item equipment of 6-25 according to claim 1, which is characterized in that the display area includes at least one subregion, and each subregion is used to show a page in the reading object.
27. Equipment according to claim 26, which is characterized in that shown display unit is also used to:

    After opening reading object within the display area, shows time shaft, be provided at least one vernier on the time shaft.
28. Equipment according to claim 27, which is characterized in that the first vernier is provided on the time shaft in the display area；

    The determination unit is also used to, and when first vernier on the time axis slides, determines corresponding first sampling instant of the slider position of first vernier；According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

    The display unit is also used to, and within the display area, is shown in the corresponding reading object of first identity, flag state of the corresponding first object page of first coordinate in the corresponding user's viewpoint of first sampling instant.
29. Equipment according to claim 27, which is characterized in that the second vernier and third vernier are provided on the time shaft in the display area, second vernier is located at the side on time shaft close to initial time；

    The determination unit is also used to, and when second vernier on the time axis slides, determines corresponding second sampling instant of the slider position of second vernier and third vernier The corresponding third sampling instant of slider position；According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

    The display unit is also used to, within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

    The determination unit is also used to, and when the third vernier on the time axis slides, determines the corresponding third sampling instant of the slider position of the third vernier；According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

    The display unit is also used to, within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.
30. The equipment according to claim 28 or 29, which is characterized in that include two sub-regions in the display area, when vernier on the time axis slides, the display unit is specifically used for:

    The shows target pages in the first subregion, the target pages are corresponding with slider position, and display comes a front/rear page for the target pages according to flag sequence in the second subregion.
31. A kind of screen display equipment characterized by comprising

    Display screen includes at least one described display area on the display screen for opening reading object in display area on a display screen；

    Processor, for determining that effective viewpoint, effective viewpoint are multiple continuous user's viewpoints of dense arrangement in the user's viewpoint fallen within the display area；Mark effective viewpoint.
32. Equipment according to claim 31, which is characterized in that the processor is for determining that effective viewpoint specifically includes:

    If falling in continuous k user viewpoint within the display area, the distance between any two neighboring user viewpoint is less than or equal to pre-determined distance threshold value, it is determined that the continuous k user viewpoint is effective viewpoint, wherein k is default positive integer.
33. Equipment according to claim 32, which is characterized in that the processor is being marked Before remembering effective viewpoint, it is also used to:

    Determine the corresponding view region of effective viewpoint, wherein each corresponding view region of effective viewpoint, the view region are to have the region of default size and preset shape centered on effective viewpoint.
34. Equipment according to claim 33, which is characterized in that the processor is for marking effective viewpoint to specifically include:

    The transparent color lump of pre-set color is filled in the view region of effective viewpoint.
35. Equipment according to claim 33, which is characterized in that the processor is for marking effective viewpoint to specifically include:

    If it is determined that the coverage area of the corresponding view region of the different effective viewpoint overlaps, then the overlapping region is marked according to the corresponding overlapping number in overlapping region, and in the view region other than the overlapping region, the transparent color lump of pre-set color is filled.
36. Equipment according to claim 35, which is characterized in that the processor is specifically included for the overlapping region to be marked according to the corresponding overlapping number in overlapping region:

    Transparent color lump is filled in the overlapping region, the color of the transparent color lump and the overlapping number of the overlapping region are corresponding.
37. Equipment according to claim 35, which is characterized in that the processor is specifically included for the overlapping region to be marked according to the corresponding overlapping number in overlapping region:

    Corresponding position display overlapping number mark in the overlapping region.
38. Equipment according to claim 33, which is characterized in that the clear coat of pre-set color is covered in the corresponding content of object of reading, the processor is for marking effective viewpoint to specifically include:

    Wipe the corresponding region of view region described in the clear coat.
39. According to the described in any item equipment of claim 31-38, which is characterized in that the processor is also used to:

    To be different from the mark pattern marked invalid viewpoint of effective viewpoint, the invalid viewpoint is user's viewpoint in the user's viewpoint fallen within the display area, in addition to effective viewpoint.
40. According to the described in any item equipment of claim 31-39, which is characterized in that the equipment further include:

    Memory, for saving the sampling instant for falling the viewpoint of user within the display area, the corresponding display area of user's viewpoint, the identity of reading object and user's viewpoint belonging to the corresponding screen display content of user's viewpoint are relative to the mapping relations between the coordinate of the reading object.
41. According to the described in any item equipment of claim 31-40, which is characterized in that the display area includes at least one subregion, and each subregion is used to show a page in the reading object.
42. Equipment according to claim 41, which is characterized in that the display screen is also used to:

    After opening reading object within the display area, shows time shaft, be provided at least one vernier on the time shaft.
43. Equipment according to claim 42, which is characterized in that the first vernier is provided on the time shaft in the display area；

    The processor is also used to, and when first vernier on the time axis slides, determines corresponding first sampling instant of the slider position of first vernier；According to the mapping relations, the first identity corresponding with the display area and first sampling instant and the first coordinate are determined；

    The display screen is also used to, and within the display area, is shown in the corresponding reading object of first identity, flag state of the corresponding first object page of first coordinate in the corresponding user's viewpoint of first sampling instant.
44. Equipment according to claim 42, which is characterized in that the second vernier and third vernier are provided on the time shaft in the display area, second vernier is located at the side on time shaft close to initial time；

    The processor is also used to, and when second vernier on the time axis slides, determines corresponding second sampling instant of the slider position of second vernier and the corresponding third sampling instant of slider position of third vernier；According to the mapping relations, the second identity corresponding with the display area and second sampling instant and the second coordinate are determined；

    The display screen is also used to, within the display area, it shows in the corresponding reading object of second identity, after second sampling instant and before the third sampling instant, the flag state of user's viewpoint corresponding to corresponding second target pages of second coordinate；

    The processor is also used to, and when the third vernier on the time axis slides, determines the corresponding third sampling instant of the slider position of the third vernier；According to the mapping relations, tiers e'tat mark corresponding with the display area and the third sampling instant and third coordinate are determined；

    The display screen is also used to, within the display area, show that the tiers e'tat identifies in corresponding reading object, before the third sampling instant and after second sampling instant, the flag state of user's viewpoint corresponding to the corresponding third target pages of the third coordinate.
45. The equipment according to claim 43 or 44, which is characterized in that include two sub-regions in the display area, when vernier on the time axis slides, the display screen is specifically used for:

    The shows target pages in the first subregion, the target pages are corresponding with slider position, and display comes a front/rear page for the target pages according to flag sequence in the second subregion.