CN104866085A - Display control method and device as well as electronic equipment applying display control method and device - Google Patents

Abstract

The invention discloses a display control method and device as well as electronic equipment applying the display control method and device. The method comprises steps as follows: infrared rays around a display screen are detected and analyzed, infrared ray distribution information representing the relative position relation between a user and the display screen is acquired, and then a display mode of the display screen is controlled according to the infrared ray distribution information; the infrared ray distribution information varies with the position of the user, so that switching of the display mode of the display screen can be triggered automatically. Compared with an existing switching control method based on a gravity sensor, the method has the advantages that switching motion is not required to be triggered through movement of the display screen by the user, so that the automation degree is higher, and the method can be well applicable to conditions that the display screen is placed horizontally and inconvenient to move.

Description

A kind of display control method, device and apply its electronic equipment

Technical field

The application relates to electronic technology field, particularly relates to a kind of display control method, device and applies its electronic equipment.

Background technology

For making full use of the viewing area of display screen, the display screen of the electronic equipments such as existing smart mobile phone, panel computer all has display interface spinfunction, can change the display direction of display interface, switches between horizontal screen display mode and perpendicular screen display mode.As, switch to horizontal screen display mode when seeing a film, to reach maximum broadcasting size; When being chatted by note or some communication softwares and good friend, switch to perpendicular screen display mode, to show more history messages simultaneously.

For realizing the automatic rotation of display interface, prior art generally adopts the method for controlling rotation based on gravity sensor, and principle is: the acceleration directional information gathered according to gravity sensor, determines the positive dirction of display interface, and then determines display mode.Such as, if the acceleration direction that gravity sensor collects is point to the second long limit by first of display screen the long limit, then with the lower boundary that the coboundary that is display interface, the first long limit, the second long limit are display interface, therefore display mode is defined as horizontal screen display mode.

The shortcoming of the above-mentioned method of controlling rotation based on gravity sensor is: the angle that must be changed display screen and surface level by user, could produce an acceleration, thus be detected by gravity sensor.Therefore, above-mentioned method of controlling rotation needs just can be triggered by user's moving display screen, and automaticity is lower, be not suitable for mobile difficulty, even can not the display screen of random movement.

Summary of the invention

In view of this, the application's object is the electronic equipment providing a kind of display control method, device and apply it, lower to solve the existing method of controlling rotation automaticity based on gravity sensor, and display screen horizontal positioned cannot be applied to, be not easy to the problem of the situation of movement.

For achieving the above object, the application provides following technical scheme:

A kind of display control method, is applied to a kind of electronic equipment with display screen, comprises:

Detect the infrared ray around described display screen;

Described infrared detection result is analyzed, obtains the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen;

The display mode of described display screen is controlled according to described infrared ray distributed intelligence.

Preferably, described infrared ray distributed intelligence comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen;

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding.

Preferably, the infrared ray around the described display screen of described detection, comprising:

Detect described first infrared ray of the different edges of described display screen respectively;

Described described infrared detection result to be analyzed, obtains described first distributed intelligence, comprising:

Determine described first ultrared edge in multiple edges of described display screen, to be detected.

Preferably, the infrared ray around the described display screen of described detection, comprising:

Detect all infrared rays of the different edges of described display screen;

Described described infrared detection result to be analyzed, obtains described first distributed intelligence, comprising:

Obtain the often kind of ultrared wavelength detected respectively;

Whether the ultrared wavelength detected described in judgement is within the scope of described preset wavelength;

Determine the edge corresponding to the infrared ray of wavelength in described preset range.

Preferably, described display control method also comprises: determine the application information corresponding to described display screen present displayed content;

The described display mode controlling described display screen according to described infrared ray distributed intelligence, comprising: the display mode controlling described display screen according to the described application information determined and the first distributed intelligence.

Preferably, the described display mode controlling described display screen according to described first distributed intelligence, comprising:

When determined application information meet first pre-conditioned time, judge according to described first distributed intelligence in multiple edges of described display screen, to detect whether described first ultrared number of edges is 1;

If described judged result is yes, then controls described display screen and detect that described first ultrared edge is as the lower boundary of display interface, shows using described.

Preferably, the described display mode controlling described display screen according to described first distributed intelligence, comprising:

When determined application information meet second pre-conditioned time, judge according to described first distributed intelligence to detect in multiple edges of described display screen that whether described first ultrared edge is two relative edges;

If described judged result is yes, then controls described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, show.

A kind of display control unit, is applied to a kind of electronic equipment with display screen, comprises:

Infrared detection unit, for detecting the infrared ray around described display screen;

Storage unit, for analyzing described infrared detection result, obtains the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen;

Indicative control unit, for controlling the display mode of described display screen according to described infrared ray distributed intelligence.

Preferably, described infrared ray distributed intelligence comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen;

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding.

Preferably, described infrared detection unit comprises: the first detecting unit;

Described first detecting unit is used for: described first infrared ray detecting the different edges of described display screen respectively;

Described storage unit comprises: the first analytic unit;

Described first analytic unit is used for: determine according to the check result of described first detecting unit described first ultrared edge to be detected in multiple edges of described display screen.

Preferably, described first detecting unit comprises: human body pyroelectricity infrared sensor.

Preferably, described infrared detection unit comprises the second detecting unit;

Described second detecting unit is used for: all infrared rays detecting the different edges of described display screen;

Described storage unit comprises: the second analytic unit;

Described second analytic unit is used for: obtain often kind of ultrared wavelength detecting respectively, and the ultrared wavelength detected described in judgement, whether within the scope of described preset wavelength, determines the edge corresponding to the infrared ray of wavelength in described preset range.

Preferably, described second detecting unit comprises infrared sensor.

Preferably, described display control unit also comprises: application program determining unit;

Described application program determining unit is used for: determine the application information corresponding to described display screen present displayed content;

Described indicative control unit is specifically for the display mode that controls described display screen according to the described application information determined and the first distributed intelligence.

Preferably, described indicative control unit comprises: the first indicative control unit;

Described first indicative control unit comprises:

First judging unit, for meet when determined application information first pre-conditioned time, judge according to described first distributed intelligence in multiple edges of described display screen, to detect whether described first ultrared number of edges is 1;

First control module, if be yes for the judged result of described first judging unit, then control described display screen and detects that described first ultrared edge is as the lower boundary of display interface, shows using described.

Preferably, described indicative control unit comprises: the second indicative control unit;

Described second indicative control unit comprises:

Second judging unit, for meet when determined application information second pre-conditioned time, judge according to described first distributed intelligence to detect in multiple edges of described display screen that whether described first ultrared edge is two relative edges;

Second control module, if be yes for described judged result, then control described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, shows.

A kind of electronic equipment, comprises display screen and the display control unit as described in any one of claim 8 ~ 16.

As can be seen from above-mentioned technical scheme, the application is by the infrared ray information around detection display device, the current relative position of user and described display device is determined according to described infrared ray infomation detection result, and then according to the current display direction of this current relative position determination display device; Because the temperature contrast of other objects in human body temperature and environment is comparatively large, the shift in position of user detected easily via detective devices using infrared ray, and then the corresponding display direction switching display interface; Relative to prior art, the application does not need user's mobile display device to trigger the switching of display direction, but automatically switch along with the variation of customer location, be applicable to horizontal positioned completely or be not easy to the display device of movement or the display interface switching control of relevant device, solving the problem of prior art.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The display control method process flow diagram that Fig. 1 (a) provides for the embodiment of the present application one;

A kind of application scenarios schematic diagram that Fig. 1 (b) is the embodiment of the present application;

The another kind of application scenarios schematic diagram that Fig. 1 (c) is the embodiment of the present application;

The display control method process flow diagram that Fig. 2 provides for the embodiment of the present application two;

The display control method process flow diagram that Fig. 3 provides for the embodiment of the present application three;

The display control method process flow diagram that Fig. 4 provides for the embodiment of the present application four;

The display control method process flow diagram that Fig. 5 (a) provides for the embodiment of the present application five;

Another application scenarios schematic diagram that Fig. 5 (b) is the embodiment of the present application;

Another application scenarios schematic diagram that Fig. 5 (c) is the embodiment of the present application;

Another application scenarios schematic diagram that Fig. 5 (d) is the embodiment of the present application;

The structured flowchart of the display control unit that Fig. 6 provides for the embodiment of the present application six;

The structured flowchart of the display control unit that Fig. 7 provides for the embodiment of the present application seven;

The structured flowchart of the display control unit that Fig. 8 provides for the embodiment of the present application eight;

The structured flowchart of the display control unit that Fig. 9 provides for the embodiment of the present application nine;

The structured flowchart of the display control unit that Figure 10 provides for the embodiment of the present application ten.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technical scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

The embodiment of the present application discloses a kind of display control method, device and applies its electronic equipment, lower to solve the existing method of controlling rotation automaticity based on gravity sensor, and display screen horizontal positioned cannot be applied to, be not easy to the problem of the situation of movement.

With reference to Fig. 1 (a), a kind of display control method that the embodiment of the present application one provides, be applied to a kind of electronic equipment with display screen, it comprises the steps:

S101, detect infrared ray around described display screen;

S102, described infrared detection result to be analyzed, obtain the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen;

S103, control the display mode of described display screen according to described infrared ray distributed intelligence.

The control principle of the display control method that the above embodiments of the present application provide is as follows: in view of the ultrared characteristic of human body radiation, by detection display screen infrared ray around, and to testing result carry out analyze can obtain infrared ray distribution situation current around display screen, thus the relative position relation of user and display screen can be obtained, namely which orientation being specifically in this display screen of user is determined, and then the display mode of corresponding switching display screen, to adapt to the demand of user.

Application scenario such as shown in Fig. 1 (b), the a limit that user 1 is positioned at display screen (is labeled as a, b, c as shown in the figure and d) successively for ease of describing the four edges of display screen, by detecting and analyzing, can to determine around display screen human body infrared is mainly distributed near a limit, and then controls the lower boundary that display screen becomes display interface with a and carry out showing (as example display character " display " in Fig. 1 (b)); If because certain needs, user 1 is by moving near b limit near a limit, as shown in Fig. 1 (c), then detect and analyze that the infrared ray distributed intelligence that obtains is also corresponding to change, what namely detect is human body infraredly mainly distributed near a limit by original, becomes and is mainly distributed near b limit, according to the change of this infrared ray distributed intelligence, corresponding switching display mode, the lower boundary being namely display interface with b limit carries out example display character " display " shown in (with reference to figure 1(c)).

Visible, adopt the present embodiment, the infrared ray distributed intelligence around the display screen that detection analysis obtains changes along with the change of customer location, thus automatically triggers the display mode switching display screen; Relative to the existing method for handover control based on gravity sensor, switching action in the present embodiment does not need user to trigger by moving display screen, thus automaticity is higher, well can be applicable to display screen horizontal positioned, be not easy to the situation of movement, solve the problem of prior art.

Further, the infrared ray distributed intelligence described in the embodiment of the present application specifically comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen.

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding, is generally 8 ~ 12um.

The application is based on the different characteristic of the ultrared wavelength of the radiation source institute radiation of different temperatures, only the infrared ray of wavelength in the ultrared wavelength coverage of human body radiation is detected and/or analyzed, thus the infrared emitter reducing other different temperatures in addition to the human body is to a certain extent to the interference detecting analysis result, and then improve display and control precision.

Concrete, for obtaining above-mentioned first distributed intelligence, the embodiment of the present application provides two kinds of display control methods as shown in Figures 2 and 3, and two kinds of specific embodiments describe in detail respectively below.

The display control method that embodiment two shown in Fig. 2 provides, comprises the steps:

S201, detect the first infrared ray of the different edges of described display screen respectively;

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding.

S202, determine described display screen multiple edges in described first ultrared edge detected, to obtain the first distributed intelligence of the distribution situation of sign first infrared ray around described display screen;

S203, control the display mode of described display screen according to described first distributed intelligence.

Concrete, in practical application, by being respectively provided to a few human body pyroelectricity infrared sensor in each edge of display, the front end of the pyroelectric detect element of this human body pyroelectricity infrared sensor is provided with an optical filter, this optical filter only allows the infrared ray (i.e. first infrared ray) of wavelength coverage in preset range (wavelength coverage that namely infrared ray of human body radiation is corresponding) to pass through, the light of other wavelength is then all absorbed, thus make detecting element only to described first infrared ray responsive, thus can be used for the first infrared ray detecting respective edges place; By analyzing the testing result of each human body heat-releasing electric transducer, can determine which edge exists described first infrared ray, thus obtain described first distributed intelligence, also namely obtain the position of user relative to display screen, and then the display mode of step S203 to display screen can be performed switch.

The display control method that embodiment three shown in Fig. 3 provides, comprises the steps:

S301, detect all infrared rays of the different edges of described display screen;

S302, obtain often kind of ultrared wavelength that each rim detection arrives respectively;

S303, judge described in the ultrared wavelength that detects whether within the scope of described preset wavelength;

S304, the edge determining corresponding to the infrared ray of wavelength in described preset range, to obtain the first distributed intelligence of the distribution situation of sign first infrared ray around described display screen;

S305, control the display mode of described display screen according to described first distributed intelligence.

Different from above-described embodiment two, the present embodiment three adopts the infrared sensor not arranging the screening elements such as any optical filter, infrared ray around detection display device within the scope of all wavelengths, the ultrared wavelength detected is determined according to the testing result of infrared sensor, and then judge it respectively whether in described preset wavelength scope (wavelength coverage that namely infrared ray of human body radiation is corresponding), thus the first infrared ray described in which or which marginal existence determining display screen, thus obtain described first distributed intelligence, also the position of user relative to display screen is namely obtained, and then the display mode of step S305 to display screen can be performed switch.

Foregoing embodiments two and three screens Infrared wavelength in infrared detection link and Analysis of test results link respectively, thus the infrared emitter of row's other different temperatures is in addition to the human body to the interference detecting analysis result, and then improve display and control precision.

In addition, as shown in Figure 4, the embodiment of the present application four provides another kind of display control method, and it comprises step:

S401, detect infrared ray around described display screen;

S402, described infrared detection result to be analyzed, obtain the first distributed intelligence of the distribution situation of the first infrared ray around described display screen characterizing human body radiation;

S403, the application information determining corresponding to described display screen present displayed content;

S404, control the display mode of described display screen according to determined application information and the first distributed intelligence.

In practical application, the application program of display mode also with concrete of display screen is relevant, and for the first same distributed intelligence, the display mode after switching under different application programs may be different.Therefore, the display control method that the embodiment of the present application four provides, simultaneously according to detecting the first distributed intelligence of analyzing and obtaining and the display mode of current application program information to display screen controls, thus display mode is controlled in the pattern of mating most with current user position and application program.

Concrete, can classifying according to action required number application programs, for ease of describing, carrying out as given a definition: the application program only needing one man operation for screen broadcasting, solitaire game etc., is divided into first kind application program; For Chinese chess, go etc. two people to play chess game class application program, be divided into Equations of The Second Kind application program ... the rest may be inferred, goes back definable and go out the 3rd class application program, the 4th class application program etc.The display mode control method that different types of application program is corresponding different, the embodiment of the present application five is for above-mentioned first kind application program and Equations of The Second Kind application program, and provide the display control method as shown in Fig. 5 (a), it comprises the following steps:

S501, detect infrared ray around described display screen;

S502, described infrared detection result to be analyzed, obtain the first distributed intelligence of the distribution situation of the first infrared ray around described display screen characterizing human body radiation;

S503, the application information determining corresponding to described display screen present displayed content;

S504, by determined application information and pre-conditionedly to compare, when determined application information meet first pre-conditioned time, perform step S505, when determined application information meet second pre-conditioned time, perform step S507;

Wherein, described first pre-conditioned specific to the described first kind application program program information, described second pre-conditioned specific to described Equations of The Second Kind application program program information; Widely, for when there is the application program of other types, can relative set pre-conditioned as judgment standard, determine the type of current application program.

S505, judge described display screen according to described first distributed intelligence multiple edges in detect whether described first ultrared number of edges is 1, if so, then perform step S506, otherwise do not change the display mode of display screen, return step S501;

S506, control described display screen and detect that described first ultrared edge is as the lower boundary of display interface, shows, returns step S501 using described;

For first kind application program, due to its action required number, to be that this condition of 1(can be used as described first pre-conditioned), therefore only when above-mentioned first infrared ray of a marginal existence of display screen being detected, just corresponding switching display mode; Can the shown situation of Fig. 1 (b) be still example, judging that current application program is as when only needing the first kind application program of one man operation, if detect analysis result for when only a limit place detects the first infrared ray (namely determining that user is near a limit), the lower boundary being display interface with a limit carries out showing (as example display character " display " in Fig. 1 (b)).

Same for first kind application program, if the Liang Ge edge of display screen all detects described first infrared ray, as shown in Fig. 5 (b), a limit and b limit detect the first infrared ray simultaneously, illustrate all have people near a limit and b limit, cannot determine which real user is on earth, so time for avoiding handoff error, the present embodiment does not switch display mode.

In addition, in other embodiments of the application, Fig. 5 (b) Suo Shi under sight, the reference edge that also can pre-set is as the lower boundary of display interface; Or the priority at each edge of display screen preset, using the lower boundary of the priority the higher person in a limit and b limit as display interface.

S507, judge described display screen according to described first distributed intelligence multiple edges in detect that whether described first ultrared edge is two relative edges, if, then perform step S508, otherwise do not change the display mode of display screen, return step S501;

S508, control described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, show, return step S501.

For Equations of The Second Kind application program, because its action required number is 2 and both sides lay respectively at one group of opposite side (this condition can be used as described second pre-conditioned) of display screen, if and only if judges when two of display screen relative edges detect described first infrared ray simultaneously, a limit as shown in Fig. 5 (c) and c limit, can determine that two users lay respectively near a limit and c limit, then using a limit and the b limit reference edge as display interface, namely relative to user 1, a limit is the lower boundary of its visual interface, relative to user 2, the lower boundary (Board of chess with reference to shown in Fig. 5 (c)) that c limit is its visual interface.

Similar, to with Equations of The Second Kind application program, if judge to detect that described first ultrared number of edges is not 2 according to described first distributed intelligence, or detect that described first ultrared 2 edges are adjacent and irrelative, namely user's number or the locality condition of the requirement of described Equations of The Second Kind application program is not met, for avoiding handoff error, the present embodiment does not switch display mode.

Same, in other embodiments of the application, the display mode when priority that also can pre-set corresponding reference edge or each edge does not meet the operation requirements of type 2 programming to determine user's number or locality condition.To arrange priority, suppose that the priority presetting four edges is followed successively by a, b, c, d from high to low, then described first infrared ray is measured for the adjacent b limit shown in Fig. 5 (d) and c frontier inspection, then using the opposite side on b limit and b limit as two reference edge of display interface, namely b limit is the lower boundary of display interface of a side of playing chess, and d limit is as the lower boundary (Board of chess with reference to shown in Fig. 5 (d)) of the display interface of the opposing party that plays chess.

It should be noted that; the above embodiments of the present application five only specifically illustrate the display control method of first kind application program and the Equations of The Second Kind application program defined above; for the application program of other types; can derive based on the ultimate principle of embodiment five and draw, corresponding other embodiments obtained are also in the protection domain of the application.

From said method step, the embodiment of the present application not only detects based on human body infrared the relative position relation analyzed and determine user and display screen in real time, also further combined with the requirement of current application program to user number and position, determine the display mode of display screen, relative to prior art, not only increase the automaticity of display and control, and hommization more, more easily promote satisfaction of users.

Relative to embodiment of the method above with, the embodiment of the present application six additionally provides a kind of display control unit, and it is applied to a kind of electronic equipment with display screen; As shown in Figure 6, this display control unit comprises infrared detection unit 100, storage unit 200 and indicative control unit 300.

Wherein, infrared detection unit 100, for detecting the infrared ray around described display screen; Storage unit 200, for analyzing described infrared detection result, obtains the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen; Indicative control unit 300, for controlling the display mode of described display screen according to described infrared ray distributed intelligence.The specific works principle of this display control unit can with reference to described in foregoing embodiments one.

Visible, the display control unit that the embodiment of the present application provides obtains the infrared ray distributed intelligence around display screen by infrared detection unit and storage unit, this red line distributed intelligence changes along with the change of customer location, thus automatically triggers the display mode switching display screen; Relative to the existing method for handover control based on gravity sensor, switching action in the present embodiment does not need user to trigger by moving display screen, thus automaticity is higher, well can be applicable to display screen horizontal positioned, be not easy to the situation of movement, solve the problem of prior art.

Further, the infrared ray distributed intelligence described in the embodiment of the present application specifically comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen.The application is based on the different characteristic of the ultrared wavelength of the radiation source institute radiation of different temperatures, only the infrared ray of wavelength in the ultrared wavelength coverage of human body radiation is detected and/or analyzed, thus the infrared emitter reducing other different temperatures in addition to the human body is to a certain extent to the interference detecting analysis result, and then improve display and control precision.

Concrete, for obtaining above-mentioned first distributed intelligence, the embodiment of the present application provides two kinds of display control units as shown in Figure 7 and Figure 8.

Wherein, embodiment illustrated in fig. 7 seven display control units provided comprise the first detecting unit 110, first analytic unit 210 and indicative control unit 300.First detecting unit 110 is for described first infrared ray that detects the different edges of described display screen respectively; First analytic unit 210 for: determine according to the check result of described first detecting unit described first ultrared edge in multiple edges of described display screen, to be detected; Indicative control unit 300, for controlling the display mode of described display screen according to described first distributed intelligence.The specific works principle of this display control unit can with reference to described in foregoing embodiments two.

More specifically, above-mentioned first detecting unit comprises: human body pyroelectricity infrared sensor.

Embodiment illustrated in fig. 8 eight display control units provided comprise the second detecting unit 120, second analytic unit 220 and indicative control unit 300.Second detecting unit 120 is for all infrared rays of detecting the different edges of described display screen; Second analytic unit 220 for: obtain often kind of ultrared wavelength detecting respectively, the ultrared wavelength detected described in judgement, whether within the scope of described preset wavelength, determines the edge corresponding to the infrared ray of wavelength in described preset range; Indicative control unit 300, for controlling the display mode of described display screen according to described first distributed intelligence.The specific works principle of this display control unit can with reference to described in foregoing embodiments two.

More specifically, above-mentioned second detecting unit comprises infrared sensor.

Relative to embodiment of the method four above, the embodiment of the present application nine provides another kind of display control unit, and as shown in Figure 9, it comprises infrared detection unit 100, storage unit 200, indicative control unit 300 and application program determining unit 400.

Wherein, infrared detection unit 100, for detecting the infrared ray around described display screen; Storage unit 200, for analyzing described infrared detection result, obtains the first distributed intelligence of the distribution situation of the first infrared ray around described display screen characterizing human body radiation; Application program determining unit 400 for: determine the application information corresponding to described display screen present displayed content; Indicative control unit 300 is for the display mode that controls described display screen according to determined application information and the first distributed intelligence.

The display control unit that the embodiment of the present application nine provides, simultaneously according to detecting the first distributed intelligence of analyzing and obtaining and the display mode of current application program information to display screen controls, thus display mode is controlled in the pattern of mating most with current user position and application program.

Corresponding to foregoing embodiments five, the embodiment of the present application ten provides display control unit shown in Figure 10, is applied to defined first kind application program and the display and control of Equations of The Second Kind application program above; Concrete, it comprises infrared detection unit 100, storage unit 200, indicative control unit 300 and application program determining unit 400.

Wherein, infrared detection unit 100, for detecting the infrared ray around described display screen; Storage unit 200, for analyzing described infrared detection result, obtains the first distributed intelligence of the distribution situation of the first infrared ray around described display screen characterizing human body radiation; Application program determining unit 400 for: determine the application information corresponding to described display screen present displayed content.

Indicative control unit 300 comprises: the first indicative control unit 310 and the second indicative control unit 320;

First indicative control unit 310 comprises the first judging unit 311 and the first control module 312

First judging unit 311 for: when the determined application information of application program determining unit 400 meet first pre-conditioned time, judge according to described first distributed intelligence in multiple edges of described display screen, to detect whether described first ultrared number of edges is 1, if so, then the first control module 312 is triggered; First control module 312 for: after being triggered, controlling described display screen and detect that described first ultrared edge is as the lower boundary of display interface, shows using described.

Second indicative control unit 320 comprises the second judging unit 321 and the second control module 322.

Second judging unit 321 for: when the determined application information of application program determining unit 400 meet second pre-conditioned time, judge according to described first distributed intelligence to detect in multiple edges of described display screen that whether described first ultrared edge is two relative edges, if so, then the second control module 322 is triggered; Second control module 322 for: after being triggered, controlling described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, show.

The concrete principle of the display control unit that above-described embodiment ten provides with reference to foregoing embodiments five, can repeat no more herein.

Visible, the embodiment of the present application ten not only detects based on human body infrared the relative position relation analyzed and determine user and display screen in real time, also further combined with the requirement of current application program to user number and position, determine the display mode of display screen, relative to prior art, not only increase the automaticity of display and control, and hommization more, more easily promote satisfaction of users.

In addition, the embodiment of the present application provides a kind of electronic equipment, comprise display screen and the display control unit above described in any embodiment, this display control unit is by carrying out determination and analysis to the infrared ray around display screen, obtain the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen, and then control the display mode of described display screen according to this infrared ray distributed intelligence; Because this red line distributed intelligence changes along with the change of customer location, thus automatically can trigger the display mode switching display screen; Relative to the existing method for handover control based on gravity sensor, switching action in the present embodiment does not need user to trigger by moving display screen, thus automaticity is higher, well can be applicable to display screen horizontal positioned, be not easy to the situation of movement, solve the problem of prior art.

It should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.

Each embodiment in this instructions all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiments.To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (17)

1. a display control method, is applied to a kind of electronic equipment with display screen, it is characterized in that, comprising:

Detect the infrared ray around described display screen;

Described infrared detection result is analyzed, obtains the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen;

The display mode of described display screen is controlled according to described infrared ray distributed intelligence.

2. display control method according to claim 1, is characterized in that, described infrared ray distributed intelligence comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen;

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding.

3. display control method according to claim 2, is characterized in that, the infrared ray around the described display screen of described detection, comprising:

Detect described first infrared ray of the different edges of described display screen respectively;

Described described infrared detection result to be analyzed, obtains described first distributed intelligence, comprising:

Determine described first ultrared edge in multiple edges of described display screen, to be detected.

4. display control method according to claim 2, is characterized in that, the infrared ray around the described display screen of described detection, comprising:

Detect all infrared rays of the different edges of described display screen;

Described described infrared detection result to be analyzed, obtains described first distributed intelligence, comprising:

Obtain the often kind of ultrared wavelength detected respectively;

Whether the ultrared wavelength detected described in judgement is within the scope of described preset wavelength;

Determine the edge corresponding to the infrared ray of wavelength in described preset range.

5. the display control method according to any one of claim 2 ~ 4, is characterized in that, also comprises: determine the application information corresponding to described display screen present displayed content;

The described display mode controlling described display screen according to described infrared ray distributed intelligence, comprising: the display mode controlling described display screen according to determined application information and the first distributed intelligence.

6. display control method according to claim 5, is characterized in that, the described display mode controlling described display screen according to described first distributed intelligence, comprising:

When determined application information meet first pre-conditioned time, judge according to described first distributed intelligence in multiple edges of described display screen, to detect whether described first ultrared number of edges is 1;

If described judged result is yes, then controls described display screen and detect that described first ultrared edge is as the lower boundary of display interface, shows using described.

7. display control method according to claim 5, is characterized in that, the described display mode controlling described display screen according to described first distributed intelligence, comprising:

When determined application information meet second pre-conditioned time, judge according to described first distributed intelligence to detect in multiple edges of described display screen that whether described first ultrared edge is two relative edges;

If described judged result is yes, then controls described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, show.

8. a display control unit, is applied to a kind of electronic equipment with display screen, it is characterized in that, comprising:

Infrared detection unit, for detecting the infrared ray around described display screen;

Storage unit, for analyzing described infrared detection result, obtains the infrared ray distributed intelligence of relative position relation between characterizing consumer and described display screen;

Indicative control unit, for controlling the display mode of described display screen according to described infrared ray distributed intelligence.

9. display control unit according to claim 8, is characterized in that, described infrared ray distributed intelligence comprises: the first distributed intelligence characterizing the distribution situation of the first infrared ray around described display screen;

Wherein, described first infrared ray is the infrared ray of wavelength within the scope of preset wavelength; Described preset wavelength scope is the wavelength coverage that the infrared ray of human body radiation is corresponding.

10. display control unit according to claim 9, is characterized in that, described infrared detection unit comprises: the first detecting unit;

Described first detecting unit is used for: described first infrared ray detecting the different edges of described display screen respectively;

Described storage unit comprises: the first analytic unit;

Described first analytic unit is used for: determine according to the check result of described first detecting unit described first ultrared edge to be detected in multiple edges of described display screen.

11. display control units according to claim 10, is characterized in that, described first detecting unit comprises: human body pyroelectricity infrared sensor.

12. display control units according to claim 9, is characterized in that, described infrared detection unit comprises the second detecting unit;

Described second detecting unit is used for: all infrared rays detecting the different edges of described display screen;

Described storage unit comprises: the second analytic unit;

Described second analytic unit is used for: obtain often kind of ultrared wavelength detecting respectively, and the ultrared wavelength detected described in judgement, whether within the scope of described preset wavelength, determines the edge corresponding to the infrared ray of wavelength in described preset range.

13. display control units according to claim 12, is characterized in that, described second detecting unit comprises infrared sensor.

14. display control units according to any one of claim 9 ~ 13, is characterized in that, also comprise: application program determining unit;

Described application program determining unit is used for: determine the application information corresponding to described display screen present displayed content;

Described indicative control unit is specifically for the display mode that controls described display screen according to determined application information and the first distributed intelligence.

15. display control units according to claim 14, is characterized in that, described indicative control unit comprises: the first indicative control unit;

Described first indicative control unit comprises:

First judging unit, for meet when determined application information first pre-conditioned time, judge according to described first distributed intelligence in multiple edges of described display screen, to detect whether described first ultrared number of edges is 1;

First control module, if be yes for the judged result of described first judging unit, then control described display screen and detects that described first ultrared edge is as the lower boundary of display interface, shows using described.

16. display control units according to claim 14, is characterized in that, described indicative control unit comprises: the second indicative control unit;

Described second indicative control unit comprises:

Second judging unit, for meet when determined application information second pre-conditioned time, judge according to described first distributed intelligence to detect in multiple edges of described display screen that whether described first ultrared edge is two relative edges;

Second control module, if be yes for described judged result, then control described display screen with the described benchmark border detecting that described first ultrared two relative edges are display interface, shows.

17. 1 kinds of electronic equipments, is characterized in that, comprise display screen and the display control unit as described in any one of claim 8 ~ 16.