CN104469119A

CN104469119A - Information processing method and electronic equipment

Info

Publication number: CN104469119A
Application number: CN201310415662.0A
Authority: CN
Inventors: 唐小川
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2013-09-12
Filing date: 2013-09-12
Publication date: 2015-03-25

Abstract

The invention discloses an information processing method and electronic equipment. Through adoption of the information processing method, the problem that the electronic equipment with an image capturing function cannot capture vertical images when a display unit displays transversely in the prior art is solved. The method is applied to the electronic equipment with the display unit and an image capturing unit. The method comprises the steps of detecting whether to acquire a first switching operation to switch a transverse image capturing mode into a vertical image capturing mode when the display unit is in a transverse display mode and the image capturing mode is in the transverse image capturing mode corresponding to the transverse display mode, and acquiring a first detection result; if the first detection result is yes, responding to the first switching operation to switch the transverse image capturing mode into the vertical image capturing mode; detecting and acquiring a first capturing operation; and responding to the first capturing operation, generating and executing a first capturing instruction, controlling the image capturing unit to capture images in the vertical image capturing mode, and acquiring a first file.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, particularly a kind of information processing method and electronic equipment.

Background technology

Along with the development of technology, numerous electronic equipment (as mobile phone, panel computer, PDA etc.) all has camera, can carry out taking pictures and making a video recording.The display screen of current electronic equipment is mostly rectangular shape, if common the ratio of width to height is the display screen of 4:3 or 16:9, therefore for the ease of the image (comprising photo and video) of the screen display camera collection by rectangular shape, make to gather image can be displayed in full screen on a display screen, what need correspondence is set to the rectangular shape proportional with screen size by the photosurface of the imageing sensor of camera.

The electronic equipment with rectangular imageing sensor can only gather rectangular image when taking pictures and finding a view, and the situation being less than 1 with display unit the ratio of width to height of electronic equipment specifically comprises two kinds of situations:

1, please refer to Fig. 1 a, when display unit is for perpendicular screen display mode, namely electronic equipment display screen comparatively minor face is positioned at upper and lower both sides time, the image of electronic equipment collection is the image that the ratio of width to height equals display unit the ratio of width to height, namely vertical width image, is usually used in taking single photograph or highly higher scenery;

2, please refer to Fig. 1 b, when display unit is horizontal screen display mode, namely when the longer sides of the display screen of electronic equipment is positioned at upper and lower both sides, the image of the image of electronic equipment collection to be the ratio of width to height be display unit the ratio of width to height inverse, i.e. banner image, is usually used in taking the scenery that many people are shone or width is larger;

But present inventor in the process of technical scheme realizing the embodiment of the present application, at least find that above-mentioned prior art exists following technical problem:

Because user is in continuous print shooting process, both may can take banner image, and vertical width image can be taken again, in the prior art, user needs corresponding carry out taking and vertically grip electronic equipment and carry out switching between shooting two kinds of modes laterally gripping electronic equipment, very inconvenient.

In addition, a lot of electronic equipment is all provided with side direction and takes pictures key, user uses side direction to take pictures key when laterally gripping electronic equipment is taken can be very convenient, and user can only take banner photo when laterally gripping electronic equipment is taken pictures in the prior art, can not take vertical photos.

That is, there is the electronic equipment with image collecting function can not carry out the collection of vertical width image technical problem when the horizontal screen display of display unit is shown in prior art.

Summary of the invention

The application provides a kind of information processing method and electronic equipment, the electronic equipment with image collecting function can not carry out the collection of vertical width image technical problem when the horizontal screen display of display unit is shown is there is for solving in prior art, achieve the electronic equipment with image collecting function to be switched by drainage pattern when the horizontal screen display of display unit is shown, can banner IMAQ be carried out, also can carry out the technique effect of vertical width IMAQ.

The application provides a kind of information processing method on the one hand, being applied to one comprises in the electronic equipment of display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, described method comprises: at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect the first handover operation whether obtained for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, obtain the first testing result, when described first testing result is for being, respond described first handover operation, described image acquisition modality is switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, detect acquisition first acquisition operations, respond described first acquisition operations, generate and perform the first acquisition instructions, control described image acquisition units and carry out IMAQ with described perpendicular screen drainage pattern, obtain the first file.

Preferably, when described display unit is described horizontal screen display mode, the first viewing area area of described first file on described display unit is the first display area; When described display unit is described perpendicular screen display mode, the second viewing area area of described first file on described display unit is the second display area being greater than described first display area.

Preferably, the first handover operation for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern whether is obtained in described detection, after obtaining the first testing result, described method also comprises: when described first testing result is no, detects acquisition second acquisition operations; Respond described second acquisition operations, generate and perform the second acquisition instructions, control described image acquisition units and carry out IMAQ with described horizontal screen drainage pattern, obtain the second file.

Preferably, whether described detection obtains the first handover operation for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, is specially: detect described first handover operation whether obtained for an entity switching key on described electronic equipment; Or detect described first handover operation whether obtained for a virtual switching key on described electronic equipment.

Preferably, described image acquisition units has the transducer of symmetric shape centered by a photosurface, wherein: under described perpendicular screen drainage pattern, described electronic equipment can obtain the first picture signal of the first photosensitive region on described transducer; Wherein, described first photosensitive region is the maximum photosensitive region of shape proportional photosensitive area corresponding to described display unit size, and the longer sides of described first photosensitive region and the parallel compared with minor face of described display unit; Or under described horizontal screen drainage pattern, described electronic equipment can obtain the second picture signal of the second photosensitive region on described transducer; Wherein, described second photosensitive region is the maximum photosensitive region of shape proportional photosensitive area corresponding to described display unit size, and the longer sides of described second photosensitive region is parallel with the longer sides of described display unit.

The application provides a kind of electronic equipment on the other hand, comprise display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, described electronic equipment also comprises: the first detecting unit, for at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect the first handover operation whether obtained for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, obtain the first testing result, first response unit, for when described first testing result is for being, responds described first handover operation, and described image acquisition modality is switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, second detecting unit, for detecting acquisition first acquisition operations, second response unit, responds described first acquisition operations, generates and performs the first acquisition instructions, controls described image acquisition units and carries out IMAQ with described perpendicular screen drainage pattern, obtain the first file.

Preferably, described electronic equipment also comprises: the 3rd detecting unit, for when described first testing result is no, detects acquisition second acquisition operations; 3rd response unit, for responding described second acquisition operations, generating and performing the second acquisition instructions, controls described image acquisition units and carries out IMAQ with described horizontal screen drainage pattern, obtain the second file.

Preferably, described first detecting unit specifically at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect described first handover operation whether obtained for an entity switching key on described electronic equipment, obtain described first testing result; Or specifically at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect described first handover operation whether obtained for a virtual switching key on described electronic equipment, obtain described first testing result.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

1, due in the embodiment of the present application, when the horizontal screen display of the display unit of electronic equipment is shown, namely when user laterally grips electronic equipment, electronic equipment can by a handover operation of response user, realize the switching of the horizontal screen drainage pattern of banner IMAQ and the perpendicular screen drainage pattern of vertical width IMAQ, and then solve in prior art and there is the electronic equipment with image collecting function can not carry out the collection of vertical width image technical problem when the horizontal screen display of display unit is shown, achieve the electronic equipment with image collecting function to be switched by drainage pattern when the horizontal screen display of display unit is shown, banner IMAQ can be carried out, also the technique effect of vertical width IMAQ can be carried out.

2, due in the embodiment of the present application, the image acquisition units of electronic equipment has the imageing sensor of symmetric shape centered by photosurface shape (as square, circular etc.), when the IMAQ operation of electronic equipment response user, during synthetic image file, electronic equipment only can obtain the image information that the proportional photosensitive region corresponding to display unit size on Central Symmetry shape sensor generates, and then the picture gathered can be displayed in full screen on the display unit; Imageing sensor again owing to adopting has the photosurface of Central Symmetry shape, make horizontal screen drainage pattern can the corresponding photosensitive region using identical photosensitive area with the perpendicular drainage pattern that shields, when ensureing that photosensitive region keeps certain the ratio of width to height, obtain the image that maximum photosensitive region generates, and then the banner image of generation and vertical width image can be made to have identical and that quality is higher imaging effect.

Accompanying drawing explanation

Fig. 1 a is the schematic diagram collecting vertical width image when display unit is perpendicular screen display mode in background technology;

Fig. 1 b is the schematic diagram collecting banner image when display unit is horizontal screen display mode in background technology;

Fig. 2 is the schematic flow sheet of information processing method in the embodiment of the present application;

Fig. 3 is another schematic flow sheet of information processing method in the embodiment of the present application;

Fig. 4 a is the schematic diagram of the 3rd photosensitive region that in the embodiment of the present application, rectangle photosurface is corresponding;

Fig. 4 b is the schematic diagram of the first photosensitive region that in the embodiment of the present application, square photosurface is corresponding;

Fig. 4 c is the schematic diagram of the second photosensitive region that in the embodiment of the present application, positive direction photosurface is corresponding;

Fig. 5 is the schematic diagram of the electronic equipment in the embodiment of the present application;

Fig. 6 is another schematic diagram of the electronic equipment in the embodiment of the present application.

Embodiment

Technical scheme in the embodiment of the present application is for solving the problems of the technologies described above, and general thought is as follows:

On the one hand, a kind of information processing method is provided, being applied to one comprises in the electronic equipment of display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, and described method comprises:

At described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect the first handover operation whether obtained for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, obtain the first testing result;

When described first testing result is for being, respond described first handover operation, described image acquisition modality is switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern;

Detect acquisition first acquisition operations;

Respond described first acquisition operations, generate and perform the first acquisition instructions, control described image acquisition units and carry out IMAQ with described perpendicular screen drainage pattern, obtain the first file.

On the other hand, a kind of electronic equipment is provided, comprise display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, and described electronic equipment also comprises:

First detecting unit, for at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect the first handover operation whether obtained for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, obtain the first testing result;

First response unit, for when described first testing result is for being, responds described first handover operation, and described image acquisition modality is switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern;

Second detecting unit, for detecting acquisition first acquisition operations;

Second response unit, responds described first acquisition operations, generates and performs the first acquisition instructions, controls described image acquisition units and carries out IMAQ with described perpendicular screen drainage pattern, obtain the first file.

Due in the embodiment of the present application, when the horizontal screen display of the display unit of electronic equipment is shown, namely when user laterally grips electronic equipment, electronic equipment can by a handover operation of response user, realize the switching of the horizontal screen drainage pattern of banner IMAQ and the perpendicular screen drainage pattern of vertical width IMAQ, and then solve in prior art and there is the electronic equipment with image collecting function can not carry out the collection of vertical width image technical problem when the horizontal screen display of display unit is shown, achieve the electronic equipment with image collecting function to be switched by drainage pattern when the horizontal screen display of display unit is shown, banner IMAQ can be carried out, also the technique effect of vertical width IMAQ can be carried out.

Below by accompanying drawing and specific embodiment, technical scheme is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical scheme, instead of the restriction to technical scheme, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

The embodiment of the present application provides a kind of information processing method on the one hand, and be applied to one and comprise in the electronic equipment of display unit 10 and image acquisition units, this electronic equipment can be smart mobile phone, panel computer, PDA etc.; Display unit 10 can be the display screens such as TFT, AMOLED, LCD, also can be electric capacity or electric resistance touch screen; Image acquisition units is camera, comprises set of lenses and image sensing device.Wherein, the image acquisition modality of image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, display unit 10 has horizontal screen display mode and perpendicular screen display mode, specifically, when so-called horizontal screen display mode is user's handling electronic equipment, the longer sides of display screen is positioned at the using forestland of upper and lower both sides, and the using forestland being positioned at upper and lower both sides compared with minor face of display screen when perpendicular screen display mode is user's handling electronic equipment.

Please refer to Fig. 2, in the embodiment of the present application, this information processing method comprises:

S101: at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, detect the first handover operation whether obtained for image acquisition modality to be switched to perpendicular screen drainage pattern from horizontal screen drainage pattern, obtain the first testing result.

Specifically, when display unit 10 is horizontal screen display mode, under default setting, the image acquisition modality of electronic equipment is horizontal screen drainage pattern, namely gather banner image, now, user can carry out the first handover operation, to make the drainage pattern of electronic equipment transfer perpendicular screen drainage pattern to from horizontal screen drainage pattern, namely transfer to from collection banner image and gather vertical width image.In a practical situation, while image acquisition modality transfers perpendicular screen drainage pattern to by horizontal screen drainage pattern, what the preview screen meeting that display unit 10 shows was corresponding is converted into from the horizontal screen preview screen taking screen the perpendicular screen preview screen taking part of screen, and user can carry out the preview of vertical width IMAQ in real time by display unit 10.

In addition, can by the current drainage pattern of explicit identification prompting user on screen, display letter " T " as corresponding in difference on screen, " V " are to represent that current residing image acquisition modality corresponds to horizontal screen drainage pattern and perpendicular screen drainage pattern; Can also distinguish two kinds of drainage patterns by the different conditions of signal lamp, be perpendicular screen drainage pattern if signal lamp is green, signal lamp is blue is horizontal screen drainage pattern.At this, the application illustrates no longer one by one.

S102: when the first testing result is for being, respond the first handover operation, is switched to perpendicular screen drainage pattern by image acquisition modality from horizontal screen drainage pattern.

Specifically, after electronic equipment detects first handover operation of user, this the first handover operation can be responded, image acquisition modality is transferred to perpendicular screen drainage pattern from horizontal screen drainage pattern, corresponding, live preview picture on display unit 10 also can transfer the perpendicular screen preview screen only taking display unit 10 part viewing area to, and generally, the ratio of width to height only taken in the middle part of screen is the viewing area of electronic equipment the ratio of width to height.In addition, if be provided with respective signal lamp or drainage pattern explicit identification, when pattern switches, corresponding conversion can be there is.

S103: detect acquisition first acquisition operations.

Specifically, this step comprises the click touch control operation corresponding to IMAQ or the slip gesture operation of the operation of pressing shutter key or the touch-control touch display screen detecting user, and can also detect user one carries out acoustic control operation of IMAQ etc. for making electronic equipment.

S104: respond the first acquisition operations, generates and performs the first acquisition instructions, controls image acquisition units and carries out IMAQ with perpendicular screen drainage pattern, obtain the first file.

Specifically, first acquisition operations of electronic equipment response user, namely can carry out IMAQ, and when drainage pattern is for perpendicular screen drainage pattern, can clap to obtain the first file of vertical width image, the first file specifically comprises photo and video record.

Take electronic equipment as the example of the smart mobile phone that display screen the ratio of width to height is 10:16, when display unit 10 is horizontal screen display mode, under default situations, electronic equipment can carry out IMAQ with horizontal screen drainage pattern, when user needs single photograph or the shooting Statue of Liberty taking friend, because the ratio of width to height of acquisition target is less than 1, in this case, vertical width image better can retain acquisition target image information compared to collection banner image is gathered.Adopt the embodiment of the present application technique scheme, user grips the mode of mobile phone without the need to changing, keep the mode laterally gripping mobile phone constant, the switching of drainage pattern is carried out by the first handover operation, the image acquisition modality of mobile phone is switched to perpendicular screen drainage pattern from the horizontal screen drainage pattern of acquiescence, when user carries out the first acquisition operations, mobile phone just can gather the image that the ratio of width to height is 10:16, namely collects the image that can be displayed in full screen when the perpendicular screen display mode of the display unit 10 of electronic equipment of vertical width.

In the embodiment of the present application, the first handover operation specifically comprises and realizing with under type: by the virtual switching key, acoustic control handover operation etc. of compacts switching key, touch-control touch display screen.The application will not limit this.

In actual applications, because user is when recording a video, in most cases all needs the screen gathering horizontal wider field of view, namely needing the collection carrying out banner video.Therefore, the embodiment of the present application provides the deformation technology scheme based on technique scheme: when electronic equipment carries out video acquisition, and no matter display unit 10 is horizontal screen display mode or perpendicular screen display mode, all gathers with the pattern gathering banner video.Like this, user just can be allowed when vertically gripping mobile phone also to carry out the collection of banner video.It should be noted that, the technical program is an optimal technical scheme of the embodiment of the present application, is not limited other technologies scheme.

To sum up, due in the embodiment of the present application, when the horizontal screen display of display unit 10 of electronic equipment is shown, namely when user laterally grips electronic equipment, electronic equipment can by a handover operation of response user, realize the switching of the horizontal screen drainage pattern of banner IMAQ and the perpendicular screen drainage pattern of vertical width IMAQ, and then solve in prior art and there is the electronic equipment with image collecting function can not carry out the collection of vertical width image technical problem when the horizontal screen display of display unit 10 is shown, achieve the electronic equipment with image collecting function to be switched by drainage pattern when the horizontal screen display of display unit 10 is shown, banner IMAQ can be carried out, also the technique effect of vertical width IMAQ can be carried out.

In the embodiment of the present application, due to when display unit 10 is in horizontal screen display mode, the first file adopting perpendicular screen drainage pattern to gather is vertical width image, the ratio of width to height when its ratio of width to height is horizontal with display unit 10 becomes reciprocal, can not adapt in display unit 10 laterally full screen display when horizontal screen display mode, the subregion that can only take in display unit 10 shows, that is, in the embodiment of the present application:

When display unit 10 is horizontal screen display mode, the first viewing area area of the first file on display unit 10 is the first display area; When display unit 10 is for perpendicular screen display mode, the second viewing area area of the first file on display unit 10 is the second display area being greater than the first display area.

Wide for 5cm, high for 8cm for display unit 10 size, when display unit 10 is in horizontal screen display mode, IMAQ is carried out according to perpendicular screen drainage pattern, the first file obtained is vertical width image, the ratio of width to height of this first file is 5:8, and the ratio of width to height of horizontal display unit 10 is 8:5, therefore, when this first file shows on horizontal display unit 10, ensureing all image informations of display first file, when not amplifying it, the maximum display area that the first file can take is only 15.625cm ²; And when this first file shows under the perpendicular screen display mode of display unit 10, because the ratio of width to height is corresponding, when not losing image information, it can be displayed in full screen on a display screen, namely its display area is 40cm ².Certainly, in a practical situation, when showing image, may not be displayed in full screen, this does not hinder herein, and we contrast the difference that the first file shows area under display unit 10 two kinds of display modes in theory.

Please refer to Fig. 3, in the embodiment of the present application, at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, if electronic equipment does not detect first handover operation image acquisition modality being switched to perpendicular screen drainage pattern from horizontal screen drainage pattern of user, electronic equipment, when the IMAQ operation responding user, can photograph the photo of banner with horizontal screen drainage pattern.That is, in the embodiment of the present application, detecting the first handover operation whether obtained for image acquisition modality to be switched to perpendicular screen drainage pattern from horizontal screen drainage pattern, after obtaining the first testing result, method also comprises:

S105: when the first testing result is no, detects acquisition second acquisition operations;

S106: respond the second acquisition operations, generates and performs the second acquisition instructions, controls image acquisition units and carries out IMAQ with horizontal screen drainage pattern, obtain the second file.

To continue to use electronic equipment be display screen the ratio of width to height is the example of the smart mobile phone of 10:16, user laterally grip electronic equipment take pictures time, if user's operation carrying out drainage pattern switching useless, electronic equipment can use horizontal screen drainage pattern corresponding to acquiescence to photograph the banner photo that the ratio of width to height is 16:10, and this photo can adapt to the full screen display when display unit 10 is horizontal.

Therefore, by the method for the embodiment of the present application, user both can be able to use horizontal screen drainage pattern to complete the collection of banner image when laterally gripping electronic equipment, the collection that perpendicular screen drainage pattern carries out vertical width image can be switched to again by the first handover operation, and then make user without the need to changing the mode gripping electronic equipment, keep display unit 10 to be horizontal screen display mode, realize the switching gathering banner image and gather vertical width image, improve the experience of user greatly.

As previously mentioned, in the embodiment of the present application, step: detect the first handover operation whether obtained for image acquisition modality to be switched to perpendicular screen drainage pattern from horizontal screen drainage pattern, be specifically as follows:

Detect the first handover operation whether obtained for an entity switching key on electronic equipment; Or

Detect the first handover operation whether obtained for a virtual switching key on electronic equipment.

Specifically, the first handover operation can be that a virtual switching push button on point touching display screen or one switch touch area, or a gesture slide; First handover operation can be the pressing operation of an entity switching key on pressing electronic equipment, and this entity switching key can be specifically be arranged on the sidepiece of electronic equipment, front and the back side.In the embodiment of the present application, will not limit this.

In addition, except above-mentioned two kinds of operations, the first handover operation can also be realized by phonetic entry, as the speech input device of user to electronic equipment is said " exposal model switching ", can complete the first handover operation.

Please refer to Fig. 4 a, in the embodiment of the present application, when display unit 10 is in horizontal screen display mode, adopt perpendicular screen drainage pattern carry out IMAQ in fact electronic equipment obtain transducer photosurface on the ratio of width to height picture signal of becoming the 3rd photosensitive region 211 reciprocal to generate with horizontal display unit 10 the ratio of width to height, the first file of the vertical width image of generation correspondence.For display unit 10 for rectangular shape, if use the rectangle photosurface 21 identical with display unit 10 the ratio of width to height, horizontal screen display mode is at display unit 10, and when adopting perpendicular screen drainage pattern to carry out IMAQ, the ratio of width to height of display unit 10 might as well be set as 8:5, rectangle photosurface 21 is of a size of wide 1.6cm, high 1cm, when adopting perpendicular screen drainage pattern, electronic equipment can only to obtain on rectangle photosurface 21 one wide be 0.625cm, height is the image information that the 3rd photosensitive region 211 of 1cm generates, and corresponding acquisition the ratio of width to height is the vertical photos of 5:8.Visible, the effective feeling light area of perpendicular screen drainage pattern only has 39% of whole photosensitive area, causes the vertical width image image quality generated comparatively greatly to reduce in banner image.

Please refer to Fig. 4 b, in order to avoid when being in horizontal screen display mode at display unit 10, the situation that adopt perpendicular screen drainage pattern to carry out vertical width image image quality that IMAQ obtains greatly reduces, in the embodiment of the present application, employ the imageing sensor of symmetric figure centered by photosurface shape, specifically comprise the shape such as square, circle.That is, in the embodiment of the present application, image acquisition units has the transducer of symmetric shape centered by a photosurface, wherein:

Under perpendicular screen drainage pattern, electronic equipment can obtain the first picture signal of the first photosensitive region 221 on transducer; Wherein, the first photosensitive region 221 is the maximum photosensitive region of shape proportional photosensitive area corresponding to display unit 10 size, and the longer sides of the first photosensitive region 221 and the parallel compared with minor face of display unit 10; Or

Under horizontal screen drainage pattern, electronic equipment can obtain the second picture signal of the second photosensitive region 222 on transducer; Wherein, the second photosensitive region 222 is the maximum photosensitive region of shape proportional photosensitive area corresponding to display unit 10 size, and the longer sides of the second photosensitive region 222 is parallel with the longer sides of display unit 10.

Horizontal screen display mode is in along being used in display unit 10, and when adopting perpendicular screen drainage pattern to carry out IMAQ, the ratio of width to height of display unit 10 is the example of 8:5, if photosurface is the length of side is 1.6cm square photosurface 22, then when image acquisition modality being switched to perpendicular screen drainage pattern and to obtain the ratio of width to height be first file of vertical width image of 5:8, electronic equipment the ratio of width to height that can obtain on square photosurface 22 is the image of first photosensitive region 221 of 5:8, in order to make the imaging effect of the first file as well as possible, the area of the first photosensitive region 221 should be large as far as possible, in this example, first photosensitive region 221 is wide 1cm, the rectangular shape of high 1.6cm, corresponding photosensitive area is 1.6cm ², be 62.5% of total photosensitive area, visible, relative to the situation (39%) when adopting rectangle photosurface transducer, effective feeling light area ratio is greatly improved, and then realizes the lifting of image quality of the first file.

Please refer to Fig. 4 c, owing to using the transducer of square photosurface, horizontal screen display mode is at display unit 10, and when adopting horizontal screen drainage pattern to carry out IMAQ, the size of photosurface is not corresponding proportional with display unit 10 size itself, therefore, the second file to the banner enabling the collection of horizontal screen drainage pattern adapts to the full screen display when the horizontal screen display of display unit 10 is shown, electronic equipment can obtain the image information that the proportional photosensitive region of a size and display unit 10 on transducer generates, in order to make synthetic image imaging effect best, this photosensitive region is the photosensitive region that in the photosensitive region proportional with display unit 10 size, area is maximum.

Horizontal screen display mode is in along being used in display unit 10, and when adopting horizontal screen drainage pattern to carry out IMAQ, the ratio of width to height of display unit 10 is the example of 8:5, if use the length of side for 1.6cm square photosurface 22, then when obtaining the second file of the banner image that the ratio of width to height is 8:5 with horizontal screen drainage pattern, electronic equipment the ratio of width to height that can obtain on square photosurface 22 is the image of second photosensitive region 222 of 8:5, in order to make the imaging effect of the second file as well as possible, the area of the second photosensitive region 222 should be large as far as possible, in this example, second photosensitive region 222 is wide 1.6cm, the rectangular shape of high 1cm, corresponding photosensitive area is 1.6cm ², the 62.5%, second photosensitive region 222 and the difference of the first photosensitive region 221 for total photosensitive area are wide and high relative orientations is different, the direction of direction corresponding to the first photosensitive region 221 broadside corresponding to the height of the second photosensitive region 222.Visible, use after having the imageing sensor of square photosurface 22, the effective feeling light area that the vertical width image that the banner image that horizontal screen drainage pattern obtains obtains with perpendicular screen drainage pattern is corresponding is identical, and the image imaging effect of corresponding generation is also identical.

In the embodiment of the present application, the first photosensitive region 221 and the second photosensitive region 222 can be arranged at the middle part in sensor photosensitive face, and namely the first photosensitive region 221 or the second photosensitive region 222 only have one group of relative limit to be positioned on the side of photosurface; First photosensitive region 221 and the second photosensitive region 222 also can be arranged on the end of photosurface, and namely the first photosensitive region 221 or the second photosensitive region 222 only have one group of adjacent edge to be positioned on the side of photosurface.In actual applications, the general middle part first photosensitive region 221 or the second photosensitive region 222 being arranged on photosurface, this is because the central region of photosurface is just to the middle part of the light field of set of lenses, and in the middle part of set of lenses, image formed by light field is better than set of lenses external side light place one-tenth image.

Except the situation of above-mentioned square photosurface 22, in the embodiment of the present application, also circular photosurface can be used, in this case, as long as the circle of correspondence is set to foursquare circumscribed circle, the first corresponding photosensitive region 221 and choosing of the second photosensitive region 222 can be identical with above-mentioned square photosurface situation.Certainly, except using circular photosurface, the photosurface of other Central Symmetry shapes such as regular hexagon, octagon can also be used, illustrating no longer one by one in this embodiment of the present application.

A deformation technology scheme of the embodiment of the present application technique scheme is: electronic equipment with perpendicular screen drainage pattern carry out IMAQ obtain the first file time, the photosurface of transducer is all photosensitive, just electronic equipment conceals the image information of other Area generation beyond the first photosensitive region 221 when showing image, the only image information of display first photosensitive region 221 generation, and when this first file is exported to other large-screen electronic equipments, can be a foursquare full image by the first file access pattern.Corresponding, electronic equipment with horizontal screen drainage pattern carry out IMAQ obtain the second file time, the photosurface of transducer is all photosensitive, just electronic equipment conceals the image information of other Area generation beyond the second photosensitive region 222 when showing image, the only image information of display second photosensitive region 222 generation, and when this second file is exported to other large-screen electronic equipments, can be a foursquare full image by the first file access pattern.The beneficial effect that this scheme is brought is: ensureing that the image gathered can adapt on the basis of full screen display on the display unit 10 of electronic equipment, retain the image information of the full image that square photosurface generates, because this full image has more image information, make user can carry out more various picture processing based on this full width photo.

Be not difficult to find out, the above-mentioned all technical schemes of the embodiment of the present application are all describe the situation of display unit 10 when being horizontal screen display mode, in actual applications, when display unit 10 is for perpendicular screen display mode, by switching image acquisition modality, the conversion gathering banner image and gather vertical width image can be carried out equally.

Specifically, when display unit 10 is for perpendicular screen display mode, in default situations, electronic equipment can gather vertical width image, and what now electronic equipment obtained is the image that the second photosensitive region 222 generates; By switching the switching of image acquisition modality, the image information that acquisition first photosensitive region 221 generates transferred by electronic equipment, collects banner image.

Synthetic display unit 10 is horizontal screen display mode and perpendicular screen display mode two kinds of situations, the image acquisition modality of electronic equipment can be summarized as two kinds:

Normal acquisition pattern, the drainage pattern of width image is found in the collection of erecting under screen display mode of horizontal screen drainage pattern under corresponding display unit 10 horizontal screen display mode and display unit 10, and the image file now generated corresponds to the image information that the second photosensitive region 222 generates.If sensor photosensitive face is identical with display unit 10 shape, now namely the second photosensitive region 222 is photosurface Zone Full.

Reversion drainage pattern, perpendicular screen drainage pattern under corresponding display unit 10 horizontal screen display mode and display unit 10 erect the drainage pattern of the collection banner image under screen display mode, and the image file now generated corresponds to the image information that the first photosensitive region 221 generates.

Therefore, in the embodiment of the present application, the switching of banner IMAQ and vertical width IMAQ not only can be carried out under the display unit 10 horizontal screen display mode of electronic equipment, the switching of banner IMAQ and vertical width IMAQ can be carried out equally under the perpendicular screen display mode of the display unit 10 of electronic equipment, enrich the mode that user gathers image greatly, improve the experience degree of user.

Please refer to Fig. 5 the embodiment of the present application and provide a kind of electronic equipment on the other hand, comprise display unit 10 and image acquisition units, wherein, the image acquisition modality of image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, display unit 10 has horizontal screen display mode and perpendicular screen display mode, and electronic equipment also comprises:

First detecting unit 30, for at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, detect the first handover operation whether obtained for image acquisition modality to be switched to perpendicular screen drainage pattern from horizontal screen drainage pattern, obtain the first testing result;

First response unit 40, for when the first testing result is for being, responds the first handover operation, and image acquisition modality is switched to perpendicular screen drainage pattern from horizontal screen drainage pattern;

Second detecting unit 50, for detecting acquisition first acquisition operations;

Second response unit 60, responds the first acquisition operations, generates and performs the first acquisition instructions, controls image acquisition units and carries out IMAQ with perpendicular screen drainage pattern, obtain the first file.

In the embodiment of the present application, due to when display unit 10 is in horizontal screen display mode, the first file adopting perpendicular screen drainage pattern to gather is vertical width image, the ratio of width to height when its ratio of width to height is horizontal with display unit 10 becomes reciprocal, be displayed in full screen when can not adapt at the horizontal screen display mode of display unit 10 when laterally showing, the subregion that can only take in display unit 10 shows, that is, in the embodiment of the present application:

Please refer to Fig. 6, in the embodiment of the present application, at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, if electronic equipment does not detect first handover operation image acquisition modality being switched to perpendicular screen drainage pattern from horizontal screen drainage pattern of user, electronic equipment, when the IMAQ operation responding user, can photograph the photo of banner with horizontal screen drainage pattern.That is, in the embodiment of the present application, electronic equipment also comprises:

3rd detecting unit 70, during for being no in the first testing result, detects acquisition second acquisition operations;

3rd response unit 80, for responding the second acquisition operations, generating and performing the second acquisition instructions, controls image acquisition units and carries out IMAQ with horizontal screen drainage pattern, obtain the second file.

Further, in the embodiment of the present application:

First detecting unit 30 specifically at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, detect the first handover operation whether obtained for an entity switching key on electronic equipment, obtain the first testing result; Or

Specifically at display unit 10 with horizontal screen display mode, and when image acquisition modality is in the horizontal screen drainage pattern corresponding with horizontal screen display mode, detect the first handover operation whether obtained for a virtual switching key on electronic equipment, obtain the first testing result.

In order to avoid when being in horizontal screen display mode at display unit 10, the situation that adopt perpendicular screen drainage pattern to carry out vertical width image image quality that IMAQ obtains greatly reduces, in the embodiment of the present application, employ the imageing sensor of symmetric figure centered by photosurface shape, specifically comprise the shape such as square, circle.That is, in the embodiment of the present application, image acquisition units has the transducer of symmetric shape centered by a photosurface, wherein:

Various information processing manner in information processing method in previous embodiment and instantiation are equally applicable to the electronic equipment of the present embodiment, by the aforementioned detailed description to information processing method, those skilled in the art clearly can know the implementation method of electronic equipment in the present embodiment, so succinct in order to specification, be not described in detail in this.

Those skilled in the art should understand, the embodiment of the application can be provided as method, system or computer program.Therefore, the application can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the application can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The application describes with reference to according to the flow chart of the method for the embodiment of the present application, equipment (system) and computer program and/or block diagram.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can being provided to the processor of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computer or other programmable data processing device produce device for realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

These computer program instructions also can be loaded in computer or other programmable data processing device, make on computer or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computer or other programmable devices is provided for the step realizing the function of specifying in flow chart flow process or multiple flow process and/or block diagram square frame or multiple square frame.

Although described the preferred embodiment of the application, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the application's scope.

Obviously, those skilled in the art can carry out various change and modification to the application and not depart from the spirit and scope of the application.Like this, if these amendments of the application and modification belong within the scope of the application's claim and equivalent technologies thereof, then the application is also intended to comprise these change and modification.

Claims

1. an information processing method, being applied to one comprises in the electronic equipment of display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, and described method comprises:

Detect acquisition first acquisition operations;

2. the method for claim 1, is characterized in that, when described display unit is described horizontal screen display mode, the first viewing area area of described first file on described display unit is the first display area; When described display unit is described perpendicular screen display mode, the second viewing area area of described first file on described display unit is the second display area being greater than described first display area.

3. method as claimed in claim 1 or 2, it is characterized in that, whether obtain the first handover operation for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern in described detection, after obtaining the first testing result, described method also comprises:

When described first testing result is no, detect acquisition second acquisition operations;

Respond described second acquisition operations, generate and perform the second acquisition instructions, control described image acquisition units and carry out IMAQ with described horizontal screen drainage pattern, obtain the second file.

4. method as claimed in claim 1 or 2, it is characterized in that, whether described detection obtains the first handover operation for described image acquisition modality to be switched to described perpendicular screen drainage pattern from described horizontal screen drainage pattern, is specially:

Detect described first handover operation whether obtained for an entity switching key on described electronic equipment; Or

Detect described first handover operation whether obtained for a virtual switching key on described electronic equipment.

5. method as claimed in claim 1 or 2, it is characterized in that, described image acquisition units has the transducer of symmetric shape centered by a photosurface, wherein:

Under described perpendicular screen drainage pattern, described electronic equipment can obtain the first picture signal of the first photosensitive region on described transducer; Wherein, described first photosensitive region is the maximum photosensitive region of shape proportional photosensitive area corresponding to described display unit size, and the longer sides of described first photosensitive region and the parallel compared with minor face of described display unit; Or

Under described horizontal screen drainage pattern, described electronic equipment can obtain the second picture signal of the second photosensitive region on described transducer; Wherein, described second photosensitive region is the maximum photosensitive region of shape proportional photosensitive area corresponding to described display unit size, and the longer sides of described second photosensitive region is parallel with the longer sides of described display unit.

6. an electronic equipment, comprise display unit and image acquisition units, wherein, the image acquisition modality of described image acquisition units comprises horizontal screen drainage pattern and perpendicular screen drainage pattern, described display unit has horizontal screen display mode and perpendicular screen display mode, and described electronic equipment also comprises:

Second detecting unit, for detecting acquisition first acquisition operations;

7. electronic equipment as claimed in claim 6, it is characterized in that, when described display unit is described horizontal screen display mode, the first viewing area area of described first file on described display unit is the first display area; When described display unit is described perpendicular screen display mode, the second viewing area area of described first file on described display unit is the second display area being greater than described first display area.

8. electronic equipment as claimed in claims 6 or 7, it is characterized in that, described electronic equipment also comprises:

3rd detecting unit, for when described first testing result is no, detects acquisition second acquisition operations;

3rd response unit, for responding described second acquisition operations, generating and performing the second acquisition instructions, controls described image acquisition units and carries out IMAQ with described horizontal screen drainage pattern, obtain the second file.

9. electronic equipment as claimed in claims 6 or 7, is characterized in that:

Described first detecting unit specifically at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect described first handover operation whether obtained for an entity switching key on described electronic equipment, obtain described first testing result; Or

Specifically at described display unit with described horizontal screen display mode, and when described image acquisition modality is in the horizontal screen drainage pattern corresponding with described horizontal screen display mode, detect described first handover operation whether obtained for a virtual switching key on described electronic equipment, obtain described first testing result.

10. electronic equipment as claimed in claims 6 or 7, it is characterized in that, described image acquisition units has the transducer of symmetric shape centered by a photosurface, wherein: