CN104113688A - Image processing method and electronic equipment - Google Patents

Abstract

The invention discloses an image processing method which is applied to electronic equipment. The electronic equipment includes an image acquisition unit and a display unit, wherein the display unit is provided with a first area and a second area. The method includes the following steps: when the electronic equipment performs image acquisition, the display unit presents a view-finding interface in the first area, and the view-finding interface is a first image acquired by the image acquisition unit in an image acquisition area; the display unit presets a light supplementing area in the second area, and the second area is at least part of an entire display area of the display unit apart from the first area; and in addition, by controlling optical parameters of the light supplementing area, the light supplement area is presented with a first brightness effect, so as to adjust ambient light parameters of the image acquisition area; and a brightness value corresponding to the first brightness effect is not smaller than a preset brightness threshold value. The invention also discloses electronic equipment.

Description

A kind of image processing method and electronic equipment thereof

Technical field

The present invention relates to image processing techniques, relate in particular to a kind of image processing method and electronic equipment thereof.

Background technology

More and more perfect along with social networks, user's demand of sharing of autodyning is more and more stronger; But because cost factor, the pixel of the front-facing camera of selecting when parts selection is lower, and front-facing camera in the time taking pictures just facing to by photographer's eyes, photoflash lamp is installed in inconvenience, especially between the lights or when night takes pictures, image quality is very poor, noise is many.

Existing solve at dusk or take pictures night cause the scheme of the problem that image quality is very poor, noise is many to be: near front camera, photoflash lamp is installed; But this scheme can increase the complexity of Design of Hardware Architecture; And the factors such as posture is uncertain due to auto heterodyne person arm length difference, while autodyning, can cause the luminance parameter of wayward photoflash lamp, and person is brighter or darker to make auto heterodyne, thereby causes customer complaint.Therefore, need badly a kind of new technical scheme solve autodynes to applying preposition image acquisition units that the image quality that causes is very poor, problem more than noise.

Summary of the invention

For solving the technical problem of existing existence, the embodiment of the present invention provides a kind of image processing method and electronic equipment thereof, can be between the lights or the poor condition of the light intensity such as night under, get the image that image quality is higher.

Technical scheme of the present invention is achieved in that the embodiment of the present invention provides a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area; Described method comprises:

When described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Described display unit presents light filling region at second area, wherein, and at least part of region in whole viewing areas that described second area is described display unit except described first area; And, can described light filling region be presented with the first brightness effects by controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

The embodiment of the present invention also provides a kind of electronic equipment, and described electronic equipment comprises image acquisition units, display unit and control unit; Described display unit is provided with first area and second area; Wherein,

Described image acquisition units, for gathering the first image in image acquisition region;

Described display unit, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described control unit, makes described light filling region present with the first brightness effects for controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

Display unit in image processing method provided by the present invention and electronic equipment thereof presents the interface of finding a view in first area is the zone line of display screen of described electronic equipment, and be at least part of region except zone line, to present light filling region in the display screen of described electronic equipment at second area, and, described light filling region can be by regulating optical parametric to regulate the brightness of self, and then regulate the brightness of the surround lighting of described image acquisition region, finally to regulate the brightness of the first image that described image acquisition units gathers, make immediately between the lights or take pictures night, and easily cause image quality very poor, in noise situation how, adopt image processing method in the embodiment of the present invention, still can get image quality compared with hi-vision.

Brief description of the drawings

Fig. 1 be one embodiment of the present invention the realization flow schematic diagram one of image processing method;

Fig. 2 is the schematic diagram one of viewing area and present position, light filling region in the electronic equipment of one embodiment of the present invention;

Fig. 3 is the schematic diagram two of viewing area and present position, light filling region in the electronic equipment of one embodiment of the present invention;

Fig. 4 is the realization flow schematic diagram two of the image processing method of one embodiment of the present invention;

Fig. 5 is the realization flow schematic diagram three of the image processing method of one embodiment of the present invention;

Fig. 6 is the realization flow schematic diagram four of the image processing method of one embodiment of the present invention;

Fig. 7 is the realization flow schematic diagram five of the image processing method of one embodiment of the present invention;

Fig. 8 is the structural representation one of the electronic equipment of one embodiment of the present invention;

Fig. 9 is the structural representation two of the electronic equipment of one embodiment of the present invention;

Figure 10 is the structural representation three of the electronic equipment of one embodiment of the present invention;

Figure 11 is the structural representation four of the electronic equipment of one embodiment of the present invention;

Figure 12 is the structural representation five of the electronic equipment of one embodiment of the present invention.

Embodiment

In order more at large to understand feature of the present invention and technology contents, below in conjunction with accompanying drawing, realization of the present invention is described in detail, the use of appended accompanying drawing explanation only for reference, is not used for limiting the present invention.

Embodiment mono-

One embodiment of the present invention is recorded a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area; Fig. 1 is the realization flow schematic diagram one of the image processing method of one embodiment of the present invention; As shown in Figure 1, described method comprises:

Step 101: when described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

In actual applications, described electronic equipment can be the mobile terminal that includes image acquisition units and display unit, for example, and mobile phone and panel computer etc.; In the image acquisition units of described electronic equipment, can realize image collecting function by front-facing camera is set; And, when operator between the lights, night or the insufficient local front-facing camera that adopts described electronic equipment of light source be while autodyning, described operator's picture presents in the first area of described display unit, as shown in Figure 2, present at the zone line of the display screen of electronic equipment the first image that includes operator.

Step 102: described display unit presents light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area; And, can described light filling region be presented with the first brightness effects by controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; State brightness value corresponding to the first brightness effects and be not less than a default luminance threshold.

In actual applications, because the light intensity of operator's environment of living in is poor, cause the image quality of the first image that includes described operator that described electronic equipment collects by the front-facing camera of self poor, now, by light filling region in the present embodiment, the residing environment of image acquisition region is carried out to light filling, light filling region 2 as shown in Figure 2 can self utilizing emitted light, or the backlight of described light filling region 2 and electronic equipment is in conjunction with rear utilizing emitted light, so that the residing environment of image acquisition region is carried out to light filling, and then the brightness of operator's picture described in adjusting display screen, realize the object that improves image quality.

Here, in the time that described electronic equipment adopts front-facing camera to carry out IMAQ, described display unit presents the interface of finding a view in first area is the zone line of display screen of described electronic equipment, and be at least part of region except zone line, to present light filling region in the display screen of described electronic equipment at second area, and, described light filling region can be by regulating optical parametric to regulate the brightness of self, and then regulate the brightness of the surround lighting of described image acquisition region, finally to regulate the brightness of the first image that described image acquisition units gathers, make immediately between the lights or take pictures night, and easily cause image quality very poor, in noise situation how, adopt image processing method in the embodiment of the present invention, still can get image quality compared with hi-vision.

In the present embodiment, described light filling region can, by controlling optical parametric, make described light filling region present with different colours and/or different-colour.

Here, can be by light-emitting device be set in described light filling region, or the reflector of different colours is set, described reflector is combined with described backlight, and by regulating the brightness of described light-emitting device, color, or, by regulating the brightness of the color of described reflector and the backlight of electronic equipment, regulate the brightness in described light filling region, the color of the light that launch in light filling region and colour temperature, so, regulate the brightness of the surround lighting of described image acquisition region, to realize the object of the first image brightness that regulates described image acquisition units collection, and then, even if make between the lights or take pictures night, and easily cause image quality very poor, in noise situation how, adopt image processing method in the embodiment of the present invention, color and/or colour temperature by the light that sends in conjunction with light filling region are carried out light filling to the first image of image acquisition units collection, obtain image quality compared with hi-vision.Wherein, described reflector includes but not limited to as follows: white reflection plate, silvery reflection plate, golden reflector, black reflector and softbox.

It should be noted that, described light filling region can be in the time opening the front-facing camera function of described electronic equipment, together open the light filling function in described light filling region, or, after the front-facing camera function of described electronic equipment is opened, and while needing described light filling region to carry out light filling, start the light filling function in described light filling region by predetermined registration operation; Now, no matter which kind of opening ways, described light filling region can be according to the number of the environment bright intensity active adjustment light filling of image acquisition region, or the number of passive adjusting light filling; Can, by described electronic equipment, transducer being set, obtain the environment bright intensity of image acquisition region by described transducer, automatically regulate the bright intensity in described light filling region according to described environment bright intensity; Or, according to described environment bright intensity, the bright intensity in light filling region described in manual adjustments;

Described light filling region can be that an overall region is unlocked simultaneously or closes, the light filling function of opening light filling region is the light filling function in whole light fillings region of unlocking electronic equipment, accordingly, close the light filling function that light filling function in light filling region closes whole light fillings region of described electronic equipment simultaneously; Or described light filling region can also be some sub-light fillings regions separately, the unlatching of each sub-light filling Region control self light filling function or close, and, the bright intensity in each sub-light filling region can be identical can be not identical yet.

Embodiment bis-

In another preferred embodiment of the present invention, the image processing method of recording based on embodiment mono-, whole viewing areas of described display unit have the first Aspect Ratio; Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

As shown in Figure 3, whole viewing areas 3 of described display unit are the display screen region of living in of described electronic equipment; Described whole viewing area 3 has the first Aspect Ratio that ratio is X1:Y1; Described image acquisition units gathers image with the second Aspect Ratio X2:Y2, and is that first area 4 shows image with ratio X2:Y2 at the described interface of finding a view.

Here, show that with described the second Aspect Ratio the area in the region of image is less than the area that shows the region of image with the first Aspect Ratio, it is the area that the area of first area is less than whole viewing areas of described display unit, so, make except the first viewing area, also to remain and have other regions in whole viewing areas, therefore, can lay the foundation for light filling region being set in other regions beyond Zhong Chu first area, described viewing area 4.

Embodiment tri-

In another preferred embodiment of the present invention, the image processing method of recording based on embodiment mono-or embodiment bis-, described display unit presents light filling region at second area, described second area is at least part of region except described first area in the viewing area of described display unit, comprising:

Described light filling region is positioned at upper area and the lower area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be positioned at left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be positioned at upper area, lower area, left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit.

Here, region in other display units except described first area all can arrange light filling region, or light filling region is not set, and, the position in described light filling region, size etc. all can be according to user's request, the preset range value of the light filling brightness that light filling region presents and arbitrarily arrange, be left area and the region, the right that the present position, light filling region shown in Fig. 2 can be in the remaining area beyond the Zhong Chu first area, whole viewing area of described electronic equipment, also upper area and lower area that can be in the remaining area beyond the Zhong Chu first area, whole viewing area of described electronic equipment, also upper area that can be in the remaining area beyond the Zhong Chu first area, whole viewing area of described electronic equipment, lower area, left field and right side area.

Embodiment tetra-

One embodiment of the present invention is recorded a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units, display unit and the first sensing unit; Described display unit is provided with first area and second area;

Fig. 4 is the realization flow schematic diagram two of the image processing method of one embodiment of the present invention; As shown in Figure 4, described method comprises:

Step 401: when described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Step 402: described display unit presents light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Step 403: described the first sensing unit obtains the surround lighting parameter of described image acquisition region;

Here, for realizing the object that automatically regulates the bright intensity in described light filling region according to the bright intensity of image acquisition region, the first sensing unit is set in described electronic equipment, and light sensor can be set in described the first sensing unit, by the surround lighting parameter of described light sensor real-time image acquisition pickup area, and then the bright intensity of definite described image acquisition region, make described light filling region according to the bright intensity of described image acquisition region, automatically regulate the brightness of self, realize the object of gathered image being carried out to light filling.

Step 404: described light filling region is presented according to the optical parametric in light filling region described in the control of described surround lighting parameter with the first brightness effects; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

Here, the image processing method that the embodiment of the present invention provides, not only can be by the brightness of the surround lighting of the brightness regulation image acquisition region in adjusting light filling region, but also can obtain by first sensor the surround lighting parameter of image acquisition region, determine the environmental light brightness of image acquisition region, and then according to the brightness in the environmental light brightness adjusting light filling region of image acquisition region, finally to realize the object of the brightness that regulates the first image of collecting of described image acquisition units, so, the image processing method of the embodiment of the present invention can be more flexibly according to the environmental light brightness of image acquisition region, regulate the brightness in light filling region, and then higher in environmental light brightness, and ensure under prerequisite that the first image imaging quality of collecting is higher, can be by the mode of the brightness in reduction light filling region, reduce the power consumption of electronic equipment.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment five

One embodiment of the present invention is recorded a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area; Fig. 5 is the realization flow schematic diagram three of the image processing method of one embodiment of the present invention; As shown in Figure 5, described method comprises:

Step 501: when described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Step 502: described display unit presents light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Here, embodiment of the present invention image processing method can also regulate the bright intensity in described light filling region manually;

Step 503: receive an operation, generate an operational order; Described operational order makes described light filling region present with the first brightness effects for parameter value corresponding to optical parametric increasing or reduce described light filling region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

Here, when the display screen of described electronic equipment is touch-screen, in the time that operator autodynes by the front-facing camera of described electronic equipment, because the bright intensity of image acquisition region is poor, the image quality of the first image that includes described operator that is shown in described first area is poor, now, operator can touch with first gesture the touch area of described display screen, described electronic equipment obtains first gesture information, according to described first gesture Information generation the first operational order, to increase the parameter value corresponding to optical parametric in described light filling region; Wherein, described first gesture can be the gesture of the edge-diffusion from touch points to described display screen; Described touch points is at least two; Or described first gesture is before this IMAQ, default first gesture;

Subsequently, in the time of the environment bright grow of described image acquisition region, now, because the intensity in described light filling region is higher, cause the image quality of the first image that is shown in described first area also poor, now, operator can touch with the second gesture the touch area of described display screen, described electronic equipment obtains described the second gesture information, according to described second gesture Information generation the second operational order, to turn the parameter value corresponding to optical parametric in described light filling region down; Wherein, the gesture that described the second gesture can be drawn close for each touch points; Described touch points is at least two; Or described the second gesture is before this IMAQ, default the second gesture.

When the display screen of described electronic equipment is non-touch-screen, operator can manually input parameter value corresponding to described light filling area optical parameter, the size of the parameter value after described electronic equipment judgement input and the parameter value before input, generates an operational order according to judged result; Particularly, in the time that the parameter value after input is greater than the parameter value before input, described electronic equipment generates the 3rd operational order, and described the 3rd operational order is parameter value corresponding to optical parametric that increases described light filling region, to increase the bright intensity in described light filling region; In the time that the parameter value after input is less than the parameter value before input, described electronic equipment generates the 4th operational order, and described the 4th operational order is parameter value corresponding to optical parametric that dwindles described light filling region, to reduce the bright intensity in described light filling region.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment six

One embodiment of the present invention is recorded a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area; Fig. 6 is the realization flow schematic diagram four of the image processing method of one embodiment of the present invention; As shown in Figure 6, described method comprises:

Step 601: when described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Step 602: described display unit presents light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Step 603: the luminance parameter that obtains at least one region in described the first image, according to described at least one luminance parameter, automatically the luminance parameter value in the optical parametric in adjusting part or all of described light filling region, described light filling region is presented, to regulate surround lighting parameter and the display brightness of described the first image in described first area in described image acquisition region with the first brightness effects; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

Here, in the middle part of described the first image that is shown in described first area, subregional brightness is inadequate, cause the imaging effect of described the first image poor, now, can obtain inadequate luminance parameter corresponding to region of brightness in described the first image, according to described luminance parameter, the bright intensity in light filling region described in manual adjustments, and then regulate the environment bright intensity of described image acquisition region, realize the object of the brightness that regulates the first image that is shown in described first area, and then obtain preferably the first image of imaging effect.

Particularly, in actual applications, described light filling region can be divided into some sub-light filling regions, the unlatching of the light filling function of every sub-light filling Region control self or close, now, if when the brightness of the subregion of described the first image is inadequate, can increase the bright intensity in the sub-light filling region in the region inadequate near brightness, and then carry out light filling for inadequate entity corresponding to region of described light, to obtain preferably the first image of imaging effect.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment seven

One embodiment of the present invention is recorded a kind of image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area;

Fig. 7 is the realization flow schematic diagram five of the image processing method of one embodiment of the present invention; As shown in Figure 7, described method comprises:

Step 701: when described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Step 702: described display unit presents light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Step 703: analyze described the first image, obtain the attribute information of described the first objects in images, according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value; And/or,

Analyze described the first image, obtain the attribute information of described the first objects in images, according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first color; And/or,

Analyze described the first image, obtain the attribute information of described the first objects in images, according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first colour temperature.

Here,, in the time that operator autodynes by the front-facing camera of described electronic equipment, described the first image is the image that includes described operator; The attribute information of described the first objects in images comprises: operator's sex information, ethnic group information etc.; Now, can carry out light filling to described operator according to described operator's the information such as sex, ethnic group, realize the object of different operating person being carried out to different light filling effects; Particularly, in the time that described operator is women, described light filling region can adopt powder light to carry out light filling to described operator; In the time that described operator is the male sex, described light filling region can adopt white light to carry out light filling to described operator;

Or, in actual application, the image display styles default according to operator, for example miss old times or old friends style, pseudo-classic style, simple and elegant style etc., adopt light, the light of different-colour and the different bright intensity of different colours to carry out light filling to described image acquisition region, to obtain the first image of different display effects.

In the present embodiment, the attribute information of described the first objects in images also comprises the optical parametric of the first objects in images; Wherein, described optical parametric comprises: contrast and colourity;

Accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first objects in images within the scope of the first predetermined threshold value time, is controlled the bright parameter in described light filling region, and described light filling region is presented with the first brightness value;

Accordingly, described according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color attribute parameter value of determining described the first objects in images within the scope of the second predetermined threshold value time, is controlled the color attribute parameter in described light filling region, and described light filling region is presented with the first color;

Accordingly, described according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color temperature parameters value of determining described the first objects in images within the scope of the 3rd predetermined threshold value time, is controlled the color temperature parameters in described light filling region, and described light filling region is presented with the first colour temperature.

Embodiment eight

Fig. 8 is the structural representation one of the electronic equipment of one embodiment of the present invention; As shown in Figure 8, described electronic equipment comprises image acquisition units 81, display unit 82 and control unit 83; Described display unit 82 is provided with first area and second area; Wherein

Described image acquisition units 81, for gathering the first image in image acquisition region;

Described display unit 82, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described control unit 83, makes described light filling region present with the first brightness effects for controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

In the present embodiment, described control unit, also for controlling optical parametric, makes described light filling region be presented in described second area with different colours and/or different-colour.

Embodiment nine

One embodiment of the present invention is recorded a kind of electronic equipment, and described electronic equipment comprises image acquisition units, display unit and control unit; Described display unit is provided with first area and second area; Wherein

Described image acquisition units, for gathering the first image in image acquisition region;

Described display unit, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area; Also for described second area being arranged to upper area and the lower area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be arranged at left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be arranged at upper area, lower area, left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit.

Described control unit, for making described light filling region present with the first brightness effects by the optical parametric of controlling described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment ten

Fig. 9 is the structural representation two of the electronic equipment of one embodiment of the present invention; As shown in Figure 9, described electronic equipment comprises image acquisition units 81, display unit 82 and control unit 83; Described display unit 82 is provided with first area and second area; Described control unit 83 comprises the first sensing subelement 831 and the first control subelement 832; Wherein,

Described image acquisition units 81, for gathering the first image in image acquisition region;

Described display unit 82, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described the first sensing subelement 831, for obtaining the surround lighting parameter of described image acquisition region;

Described first controls subelement 832, for described light filling region is presented according to the optical parametric in light filling region described in the control of described surround lighting parameter with the first brightness effects.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment 11

Figure 10 is the structural representation three of the electronic equipment of one embodiment of the present invention; As shown in figure 10, described electronic equipment comprises image acquisition units 81, display unit 82 and control unit 83; Described display unit 82 is provided with first area and second area; Described control unit 83 comprises that reception subelement 833 and instruction generate subelement 834; Wherein,

Described image acquisition units 81, for gathering the first image in image acquisition region;

Described display unit 82, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described reception subelement 833, for receiving an operation;

Described instruction generates subelement 834, for generating an operational order according to described operation; Wherein, described operational order makes described light filling region present with the first brightness effects for parameter value corresponding to optical parametric increasing or reduce described light filling region.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment 12

Figure 11 is the structural representation four of the electronic equipment of one embodiment of the present invention; As shown in figure 11, described electronic equipment comprises image acquisition units 81, display unit 82 and control unit 83; Described display unit 82 is provided with first area and second area; Described control unit 83 comprises that first obtains subelement 835 and regulate subelement 836; Wherein,

Described image acquisition units 81, for gathering the first image in image acquisition region;

Described display unit 82, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described first obtains subelement 835, for obtaining the luminance parameter in described first at least one region of image;

Described adjusting subelement 836, for automatically regulating the luminance parameter value of the optical parametric in part or all of described light filling region, described light filling region is presented, to regulate surround lighting parameter and the display brightness of described the first image in described first area in described image acquisition region with the first brightness effects.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

Embodiment 13

Figure 12 is the structural representation five of the electronic equipment of one embodiment of the present invention; As shown in figure 12, described electronic equipment comprises image acquisition units 81, display unit 82 and control unit 83; Described display unit 82 is provided with first area and second area; Described control unit 83 comprises that second obtains subelement 837 and the second control subelement 838; Wherein,

Described image acquisition units 81, for gathering the first image in image acquisition region;

Described display unit 82, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described second obtains subelement 837, for analyzing described the first image, obtains the attribute information of described the first objects in images;

Described second controls subelement 838, for according to the bright parameter of the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value; And/or, according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first color; And/or, according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first colour temperature.

In the present embodiment, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

In the present embodiment, the attribute information of described the first objects in images comprises the optical parametric of the first objects in images, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first objects in images within the scope of the first predetermined threshold value time, is controlled the bright parameter in described light filling region, and described light filling region is presented with the first brightness value;

Accordingly, described according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color attribute parameter value of determining described the first objects in images within the scope of the second predetermined threshold value time, is controlled the color attribute parameter in described light filling region, and described light filling region is presented with the first color;

Accordingly, described according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color temperature parameters value of determining described the first objects in images within the scope of the 3rd predetermined threshold value time, is controlled the color temperature parameters in described light filling region, and described light filling region is presented with the first colour temperature.

In the present embodiment, the attribute information of described the first image comprises the optical parametric of the first image, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first image is less than while presetting the first value, increases the bright parameter value in described light filling region, and described light filling region is presented with the first brightness value.

The practical function that it will be appreciated by those skilled in the art that the each unit in the electronic equipment in above-described embodiment can be understood with reference to the associated description of aforementioned information processing method.

In the several embodiment that provide in the application, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, for example, the division of described unit, be only that a kind of logic function is divided, when actual realization, can there is other dividing mode, as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can ignore, or do not carry out.In addition, the coupling each other of shown or discussed each part or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit as separating component explanation can or can not be also physically to separate, and the parts that show as unit can be or can not be also physical locations, can be positioned at a place, also can be distributed in multiple network element; Can select according to the actual needs part or all of unit wherein to realize the object of the present embodiment scheme.

In addition, the each functional unit in various embodiments of the present invention can all be integrated in a processing unit, can be also that each unit is distinguished separately as a unit, also can be integrated in a unit two or more unit; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that also can adopt hardware to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can complete by the relevant hardware of program command, aforesaid program can be stored in a computer read/write memory medium, this program, in the time carrying out, is carried out the step that comprises said method embodiment; And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims (20)

1. an image processing method, is applied in electronic equipment, and described electronic equipment comprises image acquisition units and display unit; Described display unit is provided with first area and second area; Described method comprises:

When described electronic equipment carries out IMAQ, described display unit presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view;

Described display unit presents light filling region at second area, wherein, and at least part of region in whole viewing areas that described second area is described display unit except described first area; And, can described light filling region be presented with the first brightness effects by controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

2. method according to claim 1, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

3. want the method described in 1 or 2 according to right, described light filling region can, by controlling optical parametric, make described light filling region present with different colours and/or different-colour.

4. want the method described in 1 or 2 according to right, described display unit presents light filling region at second area, and at least part of region in the viewing area that described second area is described display unit except described first area, comprising:

Described light filling region is positioned at upper area and the lower area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be positioned at left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be positioned at upper area, lower area, left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit.

5. method according to claim 1 and 2, described electronic equipment is also provided with the first sensing unit; Wherein, describedly can described light filling region be presented with the first brightness effects by controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region, comprise:

Described the first sensing unit obtains the surround lighting parameter of described image acquisition region;

According to the optical parametric in light filling region described in the control of described surround lighting parameter, described light filling region is presented with the first brightness effects.

6. method according to claim 1 and 2, describedly can make described light filling region present with the first brightness effects by controlling the optical parametric in described light filling region, comprising:

Receive an operation, generate an operational order; Described operational order makes described light filling region present with the first brightness effects for parameter value corresponding to optical parametric increasing or reduce described light filling region.

7. method according to claim 1 and 2, describedly can make described light filling region present with the first brightness effects by controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region, comprising:

Obtain the luminance parameter at least one region in described the first image, according to described at least one luminance parameter, automatically the luminance parameter value in the optical parametric in adjusting part or all of described light filling region, described light filling region is presented, to regulate surround lighting parameter and the display brightness of described the first image in described first area in described image acquisition region with the first brightness effects.

8. according to the described method of claim 1 or 2, describedly can described light filling region be presented with the first brightness effects by controlling the optical parametric in described light filling region, comprising:

Analyze described the first image, obtain the attribute information of described the first objects in images, according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value; And/or,

Analyze described the first image, obtain the attribute information of described the first objects in images, according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first color; And/or,

Analyze described the first image, obtain the attribute information of described the first objects in images, according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first colour temperature.

9. method according to claim 8, the attribute information of described the first objects in images comprises the optical parametric of the first objects in images, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first objects in images within the scope of the first predetermined threshold value time, is controlled the bright parameter in described light filling region, and described light filling region is presented with the first brightness value;

Accordingly, described according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color attribute parameter value of determining described the first objects in images within the scope of the second predetermined threshold value time, is controlled the color attribute parameter in described light filling region, and described light filling region is presented with the first color;

Accordingly, described according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color temperature parameters value of determining described the first objects in images within the scope of the 3rd predetermined threshold value time, is controlled the color temperature parameters in described light filling region, and described light filling region is presented with the first colour temperature.

10. method according to claim 8, the attribute information of described the first image comprises the optical parametric of the first image, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first image is less than while presetting the first value, increases the bright parameter value in described light filling region, and described light filling region is presented with the first brightness value.

11. 1 kinds of electronic equipments, described electronic equipment comprises image acquisition units, display unit and control unit; Described display unit is provided with first area and second area; Wherein,

Described image acquisition units, for gathering the first image in image acquisition region;

Described display unit, in the time that described electronic equipment carries out IMAQ, presents in first area the interface of finding a view, described in the first image that interface collects in image acquisition region for described image acquisition units of finding a view; Also for present light filling region at second area, wherein, at least part of region in whole viewing areas that described second area is described display unit except described first area;

Described control unit, makes described light filling region present with the first brightness effects for controlling the optical parametric in described light filling region, to regulate the surround lighting parameter of described image acquisition region; Brightness value corresponding to described the first brightness effects is not less than a default luminance threshold.

12. equipment according to claim 11, whole viewing areas of described display unit have the first Aspect Ratio;

Described image acquisition units gathers image with the second Aspect Ratio, and in the described interface of finding a view, show the image that described image acquisition units is collected with described the second Aspect Ratio, the length of the photosensitive region in the sensor devices that wherein, described the second Aspect Ratio is described electronic equipment and wide ratio;

At least part of region of whole viewing areas that described light filling region is arranged in described display unit except region of living in, the interface of finding a view.

13. according to the equipment described in claim 11 or 12, and described control unit, also for controlling optical parametric, makes described light filling region be presented in described second area with different colours and/or different-colour.

14. according to the equipment described in claim 11 or 12, described display unit, also for described second area being arranged to upper area and the lower area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be arranged at left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit, or, be arranged at upper area, lower area, left field and right side area beyond the Zhong Chu first area, whole viewing area of described display unit.

15. according to the equipment described in claim 11 or 12, and described control unit comprises: the first sensing subelement, for obtaining the surround lighting parameter of described image acquisition region;

First controls subelement, for described light filling region is presented according to the optical parametric in light filling region described in the control of described surround lighting parameter with the first brightness effects.

16. according to the equipment described in claim 11 or 12, and described control unit comprises:

Receive subelement, for receiving an operation;

Instruction generates subelement, for generating an operational order according to described operation; Wherein, described operational order makes described light filling region present with the first brightness effects for parameter value corresponding to optical parametric increasing or reduce described light filling region.

17. according to the equipment described in claim 11 or 12, and described control unit comprises:

First obtains subelement, for obtaining the luminance parameter in described first at least one region of image;

Regulate subelement, for automatically regulating the luminance parameter value of the optical parametric in part or all of described light filling region, described light filling region is presented, to regulate surround lighting parameter and the display brightness of described the first image in described first area in described image acquisition region with the first brightness effects.

18. according to the equipment described in claim 11 or 12, and described control unit comprises:

Second obtains subelement, for analyzing described the first image, obtains the attribute information of described the first objects in images;

Second controls subelement, for according to the bright parameter of the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value; And/or, according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first color; And/or, according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first colour temperature.

19. equipment according to claim 18, the attribute information of described the first objects in images comprises the optical parametric of the first objects in images, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first objects in images within the scope of the first predetermined threshold value time, is controlled the bright parameter in described light filling region, and described light filling region is presented with the first brightness value;

Accordingly, described according to the color attribute parameter in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color attribute parameter value of determining described the first objects in images within the scope of the second predetermined threshold value time, is controlled the color attribute parameter in described light filling region, and described light filling region is presented with the first color;

Accordingly, described according to the color temperature parameters in the optical parametric in light filling region described in the attribute information control of described the first image, comprising:

The color temperature parameters value of determining described the first objects in images within the scope of the 3rd predetermined threshold value time, is controlled the color temperature parameters in described light filling region, and described light filling region is presented with the first colour temperature.

20. equipment according to claim 18, the attribute information of described the first image comprises the optical parametric of the first image, accordingly, described according to the bright parameter in the optical parametric in light filling region described in the attribute information control of described the first image, described light filling region is presented with the first brightness value, comprising:

The optical parameter value of determining described the first image is less than while presetting the first value, increases the bright parameter value in described light filling region, and described light filling region is presented with the first brightness value.