CN105787404A - Information processing method and electronic equipment - Google Patents

Abstract

The present invention discloses an information processing method applied to electronic equipment. The display unit of the electronic equipment comprises a first scanning region. The method comprises the steps of scanning a target region by the electronic equipment at a first moment, wherein a first scanning region comprises the image of a first target region corresponding to the target region; judging whether the electronic equipment is moving or not at a second moment after the first moment to obtain a first judgment result; when the first judgment result is yes, acquiring at least one movement parameter of the electronic equipment; based on the at least one movement parameter, acquiring a second scanning region different from the first scanning region. The second scanning region contains the image of a second target region corresponding to the second moment.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

Development along with science and technology, scanning technique more and more occurs in the life of people, for instance: in supermarket, cashier can pass through the item barcode in the scanning area scanning target area in electronic equipment, directly obtain the price of article, need not being manually entered price, in social activity, user can pass through the Quick Response Code in the scanning area scanning target area in electronic equipment, direct plusing good friend, do not need artificial enquiry, so, scanning technique greatly facilitates the life of people.

In prior art, when being scanned the Quick Response Code in target area by scanning area, what adopt is template matching, namely a square scanning area is adopted to be scanned, first the Quick Response Code in target area is placed on the inside of scanning area, start scanning afterwards, be generally sweep time between 2s to 4s, afterwards the end of scan.

Present inventor is in realizing the embodiment of the present application in the process of technical scheme, it has been found that prior art exists following technical problem:

Due in prior art in scanned the process of the Quick Response Code in target area by scanning area, shake if as electronic equipment, Quick Response Code is not in scanning area, electronic equipment can not control scanning area in real time according to the shake of electronic equipment and move, cause that scanning process is directly interrupted, visible, prior art also exists electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control scanning area and move, and then guarantees the technical problem having continued scanning.

Owing to there is above-mentioned technical problem, when electronic equipment shake causes that in target area, Quick Response Code is not in scanning area, user often wants Non-follow control electronic equipment, Quick Response Code is made to be included in scanning area, cause poor user experience, visible, in prior art, user is in scanning Quick Response Code process, the problem that there is poor user experience.

Summary of the invention

The embodiment of the present application provides a kind of information processing method and electronic equipment, for solving prior art to also exist electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control the technical problem that scanning area moves, and then realize electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can control scanning area and move, it is ensured that the unbroken technique effect of scanning process.

First aspect according to the application, a kind of information processing method is provided, it is applied in electronic equipment, the display unit of described electronic equipment comprises the first scanning area, described method includes: scanning the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；When described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；Based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

Optionally, at least one moving parameter of the described electronic equipment of described acquisition, specifically include: obtain the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or obtain the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

Optionally, when at least one moving parameter described is specially described first displacement, described based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, specifically include: the first distance obtaining between described electronic equipment and described target area；Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Described first scanning area is moved according to described second displacement, it is thus achieved that described second scanning area.

Optionally, when at least one moving parameter described is specially the first amount of deflection, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, specifically include: based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Described first scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, when at least one moving parameter described is specially the first displacement and the first amount of deflection, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, specifically include: the first distance obtaining between described electronic equipment and described target area；Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Described first scanning area is moved according to described second displacement, it is thus achieved that the 3rd scanning area；Based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Described 3rd scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, described based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, specifically include: judge the type of at least one moving parameter described, it is thus achieved that parameter type judged result；When described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

Another aspect according to the application, a kind of electronic equipment is provided, the display unit of described electronic equipment comprises the first scanning area, specifically include: judging unit, for scanning the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；First obtains unit, for when described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；Second obtains unit, for based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

Optionally, described first obtains unit, specifically includes: first obtains module, for obtaining the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or second obtain module, for obtain be characterized between described first moment and described second moment described electronic equipment angle change the first amount of deflection.

Optionally, described second obtains unit, specifically includes: distance obtains module, for when at least one moving parameter described is specially described first displacement, it is thus achieved that the first distance between described electronic equipment and described target area；Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that described second scanning area.

Optionally, described second obtains unit, specifically include: amount of deflection obtains module, for when at least one moving parameter described is specially the first amount of deflection, based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Scanning area rotary module, for rotating described first scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, described second obtains unit, specifically includes: distance obtains module, for when at least one moving parameter described is specially the first displacement and the first amount of deflection, it is thus achieved that the first distance between described electronic equipment and described target area；Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that the 3rd scanning area；Amount of deflection obtains module, for based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Scanning area rotary module, for rotating described 3rd scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, described second obtains unit, specifically includes:

Judge module, for judging the type of at least one moving parameter described, it is thus achieved that parameter type judged result；First extension module, for when described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or second extension module, for when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or the 3rd extension module, for when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

Said one in the embodiment of the present application or multiple technical scheme, at least have one or more technique effects following and advantage:

Due to the technical scheme in the embodiment of the present application, at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can according to the moving parameter of self, automatically move the scanning area of electronic equipment, compared to electronic equipment in prior art in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control scanning area and move, cause that scanning process is interrupted, can effectively solve the problem that there is electronic equipment in prior art can not control the technical problem that scanning area moves, and then realize at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can control scanning area and move, guarantee the unbroken technique effect of scanning process.

Due to the technical scheme in the embodiment of the present application, when electronic equipment shake causes that in target area, Quick Response Code is not in scanning area, electronic equipment can control scanning area according to the moving parameter of self and move, compared in prior art, user often wants Non-follow control electronic equipment to adjust the technical scheme of scanning area, it is possible to the problem effectively solving poor user experience.

Accompanying drawing explanation

Fig. 1 is the flow chart of a kind of information processing method in the embodiment of the present application；

Fig. 2 is that in a kind of information processing method of the embodiment of the present application, step S103 the first implements flow chart；

Fig. 3 is that in a kind of information processing method of the embodiment of the present application, the second of step S103 implements flow chart；

Fig. 4 is that in a kind of information processing method of the embodiment of the present application, the third of step S103 implements flow chart；

The 4th kind that Fig. 5 is step S103 in a kind of information processing method of the embodiment of the present application implements flow chart；

Fig. 6 a-Fig. 6 d is the schematic diagram of the first situation in the embodiment of the present application；

Fig. 7 a-Fig. 7 d is the schematic diagram of the second situation in the embodiment of the present application；

Fig. 8 a-Fig. 8 e is the schematic diagram of the third situation in the embodiment of the present application；

Fig. 9 is the structure chart of a kind of electronic equipment in the embodiment of the present application.

Detailed description of the invention

The embodiment of the present application provides a kind of information processing method and electronic equipment, for solving prior art to also exist electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control the technical problem that scanning area moves, and then realize electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can control scanning area and move, it is ensured that the unbroken technique effect of scanning process.

Technical scheme in the embodiment of the present application is solve above-mentioned technical problem, general thought is as follows: a kind of information processing method, it is applied in electronic equipment, the display unit of described electronic equipment comprises the first scanning area, described method includes: scan the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；When described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；Based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

In above-mentioned technical scheme, due at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can according to the moving parameter of self, automatically move the scanning area of electronic equipment, compared to electronic equipment in prior art in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control scanning area and move, cause that scanning process is interrupted, can effectively solve the problem that there is electronic equipment in prior art can not control the technical problem that scanning area moves, and then realize at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can control scanning area and move, guarantee the unbroken technique effect of scanning process.

In order to be better understood from technique scheme, below in conjunction with Figure of description and specific embodiment, the technical scheme in the embodiment of the present application is described in detail.

Embodiment one

In order to allow those skilled in the art can know the technical scheme intactly understanding in the embodiment of the present application, in specific descriptions below, to illustrate for electronic equipment for mobile phone, below in conjunction with example, that introduces method in the embodiment of the present application implements process:

Refer to Fig. 1, embodiments herein one provides the process that implements of a kind of information processing method to be described.The method comprises the steps:

S101: scan the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；

S102: when described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；

S103: based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

Further, in the step S102 process implemented, specifically include:

Obtain the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or

Obtain the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

So, different according to the parameter obtained, the mode that corresponding step S103 performs is also different, specific as follows:

The first embodiment

Refer to Fig. 2, when at least one moving parameter described is specially described first displacement, step S103 implements process, specifically includes:

S301: obtain the first distance between described electronic equipment and described target area；

S302: based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

S303: based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

S304: described first scanning area is moved according to described second displacement, it is thus achieved that described second scanning area.

The second embodiment

Refer to Fig. 3, when at least one moving parameter described is specially the first amount of deflection, step S103 concrete implementation process, specifically include:

S401: based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

S402: described first scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

The third embodiment

Refer to Fig. 4, when being specially the first displacement and the first amount of deflection at least one moving parameter described, the concrete implementation process of step S103, specifically include:

S501: obtain the first distance between described electronic equipment and described target area；

S502: based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

S503: based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

S504: described first scanning area is moved according to described second displacement, it is thus achieved that the 3rd scanning area；

S505: based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

S506: described 3rd scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

Certainly, it is not limited only to above-mentioned three kinds of embodiments, when at least one moving parameter being detected when mobile phone, the difference according to the parameter type detected, the concrete implementation process of step S103 is also different, refer to Fig. 5, more specifically includes:

S601: judge the type of at least one moving parameter described, it is thus achieved that parameter type judged result；

S602: when described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

S603: when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

S604: when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

No matter by which kind of embodiment, in the process of mobile telephone scanning Quick Response Code, if mobile phone there occurs displacement and/or deflection, scanning area can displacement accordingly and/or deflection, thus without influence on whole scanning process.

Below by specific example, what describe information processing method in the embodiment of the present application implements process:

nullUser requires over Quick Response Code scan function one Quick Response Code on computer desktop of scanning of mobile phone，Now，Scan box on mobile phone is directed at the Quick Response Code on computer desktop by user，Assume that the size of the Quick Response Code on computer desktop is the square of 2.5 (cm) x2.5 (cm)，Mobile phone distance computer 10cm，Now on the display unit of mobile phone Quick Response Code be sized to 1.5 (cm) x1.5 (cm)，Scanning area on mobile phone is the square scan box of 2 (cm) x2 (cm)，The size of certain scanning area is not unique，Can be other shapes，Or other size，Here repeat no more，Now，The region that scan box covers has been placed on above Quick Response Code by user，Now，The scope that the scan box of mobile phone covers is bigger than Quick Response Code region area on the display unit of mobile phone，Namely scan box contains the whole image of Quick Response Code，So，Mobile phone starts to perform the process of scanning Quick Response Code.

Now, mobile phone starts to perform step S101: scan the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；Continue the example above specifically, now, it is a variety of that mobile phone judges that the method whether self moves has, whether the motion sensor sensing mobile phone that such as can pass through mobile phone exists movement, specifically, mobile phone passes through displacement transducer, or the modes such as acceleration transducer detection, whether same mobile phone can also pass through elementary area, it is judged that consistent on the image between the first moment with the second moment, thus judging whether mobile phone moves.Assume that the moment by scanning starts was set to for the first moment, then in a moment after the first moment, it is assumed that after 0.1s, mobile phone starts to detect whether mobile phone self moves.Certainly, after the second moment after the first moment is not limited only to 0.1s, it is also possible to being 0.05s or other duration, certain duration is more short, detecting also more accurate, those skilled in the art can adjust the concrete numerical value of above-mentioned duration according to the carrying out practically parameter of mobile phone.If now, user is in the process of mobile telephone scanning Quick Response Code, because the shake of hands, for instance: when hand has moved horizontally a small distance, or hand have rotated certain angle, or hand moves a small distance, have rotated again afterwards, cause that scan box now there occurs change at the relative position of mobile phone display screen and the relative position of Quick Response Code, namely mobile phone there occurs that some move, so now, it is possible to cause the some or all of not in scan box of Quick Response Code.

Now, after step S101 completes, perform step S102: when described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；Continuing the example above specifically, when due to the movement of mobile phone, when causing that Quick Response Code some or all of be not in scan box, mobile phone now obtains at least one parameter moved about mobile phone.Certainly, situation about moving due to mobile phone is different, so at least one moving parameter here also just differs.

In the first situation, refer to Fig. 6 a, be the position view of scan box during the first moment and Quick Response Code.Now, when mobile phone level has been moved to the left a small distance, cause Quick Response Code not in scan box, refer to Fig. 6 b, so now, mobile phone will perform: obtains the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；Continue the example above specifically, mobile phone will pass through direction sensor, obtain the distance that mobile phone moves, its principle is by an acceleration transducer, the acceleration that detection mobile phone moves, and by obtaining the duration that mobile phone moves, then can according to law of physics, obtain mobile phone to the left move horizontally distance, it is assumed that the horizontal range now obtained is 1.5cm.

After step S102 completes, performing step S103, certainly in the first scenario, mobile phone directly performs step S301: obtain the first distance between described electronic equipment and described target area；Continuing the example above specifically, now, mobile phone can pass through to detect, the distance obtaining the Quick Response Code on mobile phone and computer display screen is 10cm, and the method for detection has a variety of, it is possible to by infrared location, or image unit etc. can be passed through, here do not do concrete restriction.

After step S301 completes, perform step S302: based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；Continue the example above specifically, owing to obtaining the first distance in above-mentioned steps for 10cm, so, mobile phone can pass through the size of this gain of parameter Quick Response Code on computer display screen and the Quick Response Code on mobile phone display screen, such as, the Quick Response Code on computer display screen in the preamble be sized to 2.5 (cm) x2.5 (cm), and the Quick Response Code on mobile phone display screen be sized to 1.5 (cm) x1.5 (cm), so, the ratio of Quick Response Code size is 25:9, and namely the ratio of length is 5:3.

After step S302 completes, perform step S303: based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Continue the example above specifically, ratio 25:9 according to Quick Response Code size above, namely lenth ratio is 5:3, and now, the distance that the mobile phone detected moves horizontally is 1.5cm, according to this ratio value, it is possible to obtaining Quick Response Code actual displacement on display screen on mobile phone is the 0.9cm that moved right.

After step S303, perform step S304: described first scanning area moved according to described second displacement, it is thus achieved that described second scanning area；Continue the example above specifically, refer to Fig. 6 c, now, mobile phone controls scan box and moves horizontally to the right 0.9cm, although mobile phone is because shake has moved horizontally a segment distance to the left, but, mobile phone can control scan box from the movement on mobile phone display screen of the motion tracking Quick Response Code, is included in inside scan box by whole Quick Response Codes all the time, refer to Fig. 6 d, so, the scanning process of Quick Response Code would not be interrupted because of mobile phone occurred level displacement.

The second situation, refer to Fig. 7 a, is the position view of scan box during the first moment and Quick Response Code.Now, because the shake of user's hand, and cause that mobile phone is counterclockwise to the left and have rotated, so that Quick Response Code is not in the scan box of mobile phone, refer to Fig. 7 b.So now mobile phone will perform step S102, and more specifically, mobile phone will perform: obtains the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment；Continuing the example above specifically, now, mobile phone obtains mobile phone according to detection and have rotated 30 ° to direction counterclockwise around the central point of mobile phone.Certainly, the mode of detection has a variety of, it is possible to according to acceleration principle, it is also possible to according to means such as infrared location, be here not construed as limiting.

After completion of step s 102, performing step S103, more specifically mobile phone will perform step S401: based on described first amount of deflection, it is thus achieved that characterizes the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Continue the example above specifically, due to obtain in above-mentioned steps mobile phone be around the central point of mobile phone counterclockwise have rotated 30 °, then, the Quick Response Code on mobile phone display screen is really the central point clockwise direction right rotation 30 ° around mobile phone.

After step S401 completes, perform step S402: described first scanning area rotated according to described second amount of deflection, it is thus achieved that described second scanning area；Continuing the example above specifically, refer to Fig. 7 c, now, the scan box of mobile phone just rotates 30 ° clockwise around the central point of mobile phone, and the Quick Response Code on mobile phone display screen is all contained into by scan box afterwards.Now, although mobile phone have rotated certain angle counterclockwise, but mobile phone can control scan box rotates corresponding angle clockwise, all the time whole Quick Response Codes is included in inside scan box, refer to Fig. 7 d, so, the scanning process of Quick Response Code would not be interrupted because mobile phone rotates.

The third situation, refer to Fig. 8 a, is the scan box position view with Quick Response Code in the first moment.Now, when mobile phone level has been moved to the left a small distance, then have rotated again certain angle afterwards counterclockwise, cause Quick Response Code not in scanning area, refer to Fig. 8 b, so now, mobile phone will perform: obtains the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And obtain the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.Continuing the example above specifically, mobile phone will pass through direction sensor, it is thus achieved that the distance displacement of mobile phone is 1.5 centimetres to the left, and 30 ° counterclockwise of the anglec of rotation of mobile phone.Certainly, the various ways such as the first displacement and the first amount of deflection can pass through infrared location, acceleration transducer obtain, and its operation principle is it has been observed that here just repeat no more.

After step S102 completes, performing step S103, certainly in a third case, mobile phone directly performs step S501: obtain the first distance between described electronic equipment and described target area；Continuing the example above specifically, now mobile phone is by detecting, it is thus achieved that the distance of the Quick Response Code on mobile phone and computer display screen is 10cm, the method of detection also have a lot of and, infrared location can be passed through, or image unit etc. can be passed through, here also not do concrete restriction.

After step S501 completes, perform step S502: based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；Continue the example above specifically, owing to obtaining the first distance in above-mentioned step for 10cm, so, mobile phone can pass through the size of this gain of parameter Quick Response Code on computer display screen and the Quick Response Code on mobile phone display screen, such as, the Quick Response Code on computer display screen in the preamble be sized to 2.5 (cm) x2.5 (cm), and the Quick Response Code on mobile phone display screen be sized to 1.5 (cm) x1.5 (cm), so, the ratio of Quick Response Code size is 25:9, and namely the ratio of length is 5:3.

After step S502 completes, continue executing with step S503: based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；Continue the example above specifically, ratio 25:9 according to Quick Response Code size above, namely lenth ratio is 5:3, and now, the distance that the mobile phone detected moves horizontally is 1.5cm, according to this ratio value, it is possible to obtaining Quick Response Code actual displacement on display screen on mobile phone is the 0.9cm that moved right.

After step S503 completes, perform step S504: described first scanning area moved according to described second displacement, it is thus achieved that the 3rd scanning area；Continuing the example above specifically, refer to Fig. 8 c, now, mobile phone controls scan box and moves right 0.9cm, and so, mobile phone just obtains the 3rd scanning area.

After step S504 completes, perform step S505: based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；Continue the example above specifically, due to obtain in above-mentioned steps mobile phone be around the central point of mobile phone counterclockwise have rotated 30 °, then, the Quick Response Code on mobile phone display screen is really the central point clockwise direction right rotation 30 ° around mobile phone.

After step S505 completes, perform step S506: described 3rd scanning area rotated according to described second amount of deflection, it is thus achieved that described second scanning area；Continuing the example above specifically, refer to Fig. 8 d, now, the scan box of mobile phone just rotates 30 ° clockwise around the central point of mobile phone, and the Quick Response Code on mobile phone display screen is all contained into by scan box afterwards.Now, although mobile phone has first moved horizontally a segment distance to the left, counterclockwise certain angle is have rotated again afterwards around the central point of mobile phone, but mobile phone can control scan box first towards moving right corresponding distance, then rotate corresponding angle clockwise, all the time whole Quick Response Codes is included in inside scan box, refer to Fig. 8 e, so, the scanning process of Quick Response Code would not be interrupted because mobile phone moves.

Certainly, judge mobile phone self at mobile phone because there occurs movement, and when causing that Quick Response Code that needs scan is not in scan box, the movement of scan box is controlled except that according to moving parameter, according to the type of the parameter detected, the movement of scan box can also be controlled, more specifically:

Mobile phone will perform step S601: judges the type of at least one moving parameter described, it is thus achieved that parameter type judged result；Continue the example above specifically, because the difference of the moving parameter detected, then mobile phone is when performing step S103, and specific embodiment also differs.Assuming now, the parameter type judged result that mobile phone obtains is the first displacement 1cm.

So, after step S601 completes, step S602 will be performed: when described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Continue the example above specifically, such as, now mobile phone is by the square region of original scanning area 2 (cm) x2 (cm), expanding as 3 (cm) x3 (cm), now the central point of new region and the central point in original region are same points certainly.

Or when the moving parameter type that mobile phone obtains is the first amount of deflection, mobile phone will perform step S603: when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Continue the example above specifically, assume now, when the amount of deflection that mobile phone obtains is 10 °, so mobile phone controls original scanning, the i.e. square region of 2 (cm) x2 (cm), expanding as the region of 3.5 (cm) x3.5 (cm), now the central point of new region and the central point in original region are same central points certainly.

Or when the moving parameter type that mobile phone obtains is the first displacement and the first amount of deflection, mobile phone will perform step S604: when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Continue the example above specifically, assume now, when the moving parameter that mobile phone obtains is the first displacement and the first amount of deflection, being specially the first side-play amount is 1cm, when the first amount of deflection is 10 °, now, mobile phone controls the region of original surface sweeping, i.e. 2 (cm) x2 (cm) square region, diffusing into is the region of 4 (cm) x4 (cm), and now the central point of new region and the central point in original region are same central points certainly.

Embodiment two

Refer to Fig. 9, in the embodiment of the present application, also provide for a kind of electronic equipment based on same inventive concept, comprise the first scanning area in the display unit of described electronic equipment, described electronic equipment specifically includes:

Judging unit 10, for scanning the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；

First obtains unit 20, for when described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；

Second obtains unit 30, for based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

Optionally, first obtains unit 20, specifically includes:

First obtains module, for obtaining the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or

Second obtains module, for obtaining the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

Optionally, second obtains unit 30, specifically includes:

Distance obtains module, for when at least one moving parameter described is specially described first displacement, it is thus achieved that the first distance between described electronic equipment and described target area；

Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；

Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that described second scanning area.

Optionally, second obtains unit 30, specifically includes:

Amount of deflection obtains module, for when at least one moving parameter described is specially the first amount of deflection, based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Scanning area rotary module, for rotating described first scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, second obtains unit 30, specifically includes:

Distance obtains module, for when at least one moving parameter described is specially the first displacement and the first amount of deflection, it is thus achieved that the first distance between described electronic equipment and described target area；

Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；

Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that the 3rd scanning area；

Amount of deflection obtains module, for based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Scanning area rotary module, for rotating described 3rd scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, second obtains unit 30, specifically includes:

Judge module, for judging the type of at least one moving parameter described, it is thus achieved that parameter type judged result；

First extension module, for when described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

Second extension module, for when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

3rd extension module, for when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

Due to above-mentioned electronic equipment and aforesaid a kind of information processing method one_to_one corresponding, so just repeating no more at this.

By the one or more technical schemes in the embodiment of the present application, it is possible to achieve following one or more technique effects and advantage:

Due to the technical scheme in the embodiment of the present application, at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can according to the moving parameter of self, automatically move the scanning area of electronic equipment, compared to electronic equipment in prior art in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can not control scanning area and move, cause that scanning process is interrupted, can effectively solve the problem that there is electronic equipment in prior art can not control the technical problem that scanning area moves, and then realize at electronic equipment in scanning process, when target area image corresponding to target area be not in scanning area, electronic equipment can control scanning area and move, guarantee the unbroken technique effect of scanning process.

Due to the technical scheme in the embodiment of the present application, when electronic equipment shake causes that in target area, Quick Response Code is not in scanning area, electronic equipment can control scanning area according to the moving parameter of self and move, compared in prior art, user often wants Non-follow control electronic equipment to adjust the technical scheme of scanning area, it is possible to the problem effectively solving poor user experience.

Those skilled in the art are it should be appreciated that embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, complete software implementation or the embodiment in conjunction with software and hardware aspect.And, the present invention can adopt the form at one or more upper computer programs implemented of computer-usable storage medium (including but not limited to disk memory, CD-ROM, optical memory etc.) wherein including computer usable program code.

The present invention is that flow chart and/or block diagram with reference to method according to embodiments of the present invention, equipment (system) and computer program describe.It should be understood that can by the combination of the flow process in each flow process in computer program instructions flowchart and/or block diagram and/or square frame and flow chart and/or block diagram and/or square frame.These computer program instructions can be provided to produce a machine to the processor of general purpose computer, special-purpose computer, Embedded Processor or other programmable data processing device so that the instruction performed by the processor of computer or other programmable data processing device is produced for realizing the device of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

These computer program instructions may be alternatively stored in and can guide in the computer-readable memory that computer or other programmable data processing device work in a specific way, the instruction making to be stored in this computer-readable memory produces to include the manufacture of command device, and this command device realizes the function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram 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 provides for realizing the step of function specified in one flow process of flow chart or multiple flow process and/or one square frame of block diagram or multiple square frame.

Specifically, the computer program instructions that a kind of information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with a kind of information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

The first moment in the process of a target area is scanned at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, it is judged that whether described electronic equipment moves, it is thus achieved that the first judged result；

When described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；

Based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

Optionally, store in described storage medium and step: at least one moving parameter of the described electronic equipment of described acquisition, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Obtain the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or

Obtain the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

Optionally, in described storage medium storage and step: when at least one moving parameter described is specially described first displacement, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Obtain the first distance between described electronic equipment and described target area；

Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Described first scanning area is moved according to described second displacement, it is thus achieved that described second scanning area.

Optionally, in described storage medium storage and step: when at least one moving parameter described is specially the first amount of deflection, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Described first scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, in described storage medium storage and step: when at least one moving parameter described is specially the first displacement and the first amount of deflection, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Obtain the first distance between described electronic equipment and described target area；

Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Described first scanning area is moved according to described second displacement, it is thus achieved that the 3rd scanning area；

Based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Described 3rd scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

Optionally, in described storage medium storage and step: based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, corresponding computer instruction is specifically being performed in process, specifically includes following steps:

Judge the type of at least one moving parameter described, it is thus achieved that parameter type judged result；

When described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

When described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

When described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

Although preferred embodiments of the present invention have been described, but those skilled in the art are once know basic creative concept, then these embodiments can be made other change and amendment.So, claims are intended to be construed to include preferred embodiment and fall into all changes and the amendment of the scope of the invention.

Obviously, the present invention can be carried out various change and modification without deviating from the spirit and scope of the present invention by those skilled in the art.So, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (12)

1. an information processing method, is applied to an electronic equipment, comprises the first scanning area in the display unit of described electronic equipment, and described method includes:

The first moment in the process of a target area is scanned at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, it is judged that whether described electronic equipment moves, it is thus achieved that the first judged result；

When described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；

Based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

2. the method for claim 1, it is characterised in that at least one moving parameter of the described electronic equipment of described acquisition, specifically includes:

Obtain the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or

Obtain the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

3. method as claimed in claim 2, it is characterized in that, when at least one moving parameter described is specially described first displacement, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, specifically include:

Obtain the first distance between described electronic equipment and described target area；

Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Described first scanning area is moved according to described second displacement, it is thus achieved that described second scanning area.

4. method as claimed in claim 2, it is characterised in that when at least one moving parameter described is specially the first amount of deflection, described based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, specifically includes:

Based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Described first scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

5. method as claimed in claim 2, it is characterized in that, when at least one moving parameter described is specially the first displacement and the first amount of deflection, described based at least one moving parameter described, obtain second scanning area different from described first scanning area, specifically include:

Obtain the first distance between described electronic equipment and described target area；

Based on described first distance, it is thus achieved that corresponding with described first distance, and characterize the first ratio value of size between described target area and described first object image；

Based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Described first scanning area is moved according to described second displacement, it is thus achieved that the 3rd scanning area；

Based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Described 3rd scanning area is rotated according to described second amount of deflection, it is thus achieved that described second scanning area.

6. method as claimed in claim 2, it is characterised in that described based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, specifically includes:

Judge the type of at least one moving parameter described, it is thus achieved that parameter type judged result；

When described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

When described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtaining described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

When described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.

7. an electronic equipment, comprises the first scanning area in the display unit of described electronic equipment, described electronic equipment includes:

Judging unit, for scanning the first moment in the process of a target area at described electronic equipment, described first scanning area includes the first object area image corresponding with described target area, the second moment after described first moment, judge whether described electronic equipment moves, it is thus achieved that the first judged result；

First obtains unit, for when described first judged result is for being, it is thus achieved that at least one moving parameter of described electronic equipment；

Second obtains unit, for based at least one moving parameter described, it is thus achieved that second scanning area different from described first scanning area, wherein, described second scanning area can include second target area image corresponding with described second moment.

8. electronic equipment as claimed in claim 7, it is characterised in that described first obtains unit, specifically includes:

First obtains module, for obtaining the first displacement of the described electronic equipment change in displacement being characterized between described first moment and described second moment；And/or

Second obtains module, for obtaining the first amount of deflection of the described electronic equipment angle change being characterized between described first moment and described second moment.

9. electronic equipment as claimed in claim 8, it is characterised in that described second obtains unit, specifically includes:

Distance obtains module, for when at least one moving parameter described is specially described first displacement, it is thus achieved that the first distance between described electronic equipment and described target area；

Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；

Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that described second scanning area.

10. electronic equipment as claimed in claim 8, it is characterised in that described second obtains unit, specifically includes:

Amount of deflection obtains module, for when at least one moving parameter described is specially the first amount of deflection, based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Scanning area rotary module, for rotating described first scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

11. electronic equipment as claimed in claim 8, it is characterised in that described second obtains unit, specifically includes:

Distance obtains module, for when at least one moving parameter described is specially the first displacement and the first amount of deflection, it is thus achieved that the first distance between described electronic equipment and described target area；

Ratio obtains module, for based on described first distance, it is thus achieved that corresponding with described first distance, and characterizes the first ratio value of size between described target area and described first object image；

Displacement obtains module, for based on described first ratio value and described first displacement, it is thus achieved that characterize the second displacement of displacement variable between described first object area image and described second target area image；

Scanning area mobile module, for moving described first scanning area according to described second displacement, it is thus achieved that the 3rd scanning area；

Amount of deflection obtains module, for based on described first amount of deflection, it is thus achieved that characterize the second amount of deflection of angle variable quantity between described first object area image and described second target area image；

Scanning area rotary module, for rotating described 3rd scanning area according to described second amount of deflection, it is thus achieved that described second scanning area.

12. electronic equipment as claimed in claim 8, it is characterised in that described second obtains unit, specifically includes:

Judge module, for judging the type of at least one moving parameter described, it is thus achieved that parameter type judged result；

First extension module, for when described parameter type judged result is described first displacement, described first scanning area is expanded the first preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

Second extension module, for when described parameter type judged result is described first amount of deflection, described first scanning area is expanded the second preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area；Or

3rd extension module, for when described parameter type judged result is described first displacement and described first amount of deflection, described first scanning area is expanded the 3rd preset range, obtain described second scanning area, wherein, the first nodal point of described first scanning area is identical with the second central point of described second scanning area.