Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is the present invention's part embodiment, instead of whole embodiments. Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.
The terminal control method that the embodiment of the present invention provides may operate in the terminal that smart mobile phone (such as Android phone, iOS mobile phone etc.), panel computer or electronics reader etc. comprise at least two display screens.
Fig. 1 is the schematic flow sheet of a kind of terminal control method provided in the embodiment of the present invention, and as shown in the figure, the terminal control method in the embodiment of the present invention at least can comprise:
S101, the gesture information that terminal is inputted by detection user.
Terminal can detect the gesture information that terminal is inputted by user. Wherein, gesture information can be dynamic, and the finger of such as user moves near the direction of terminal or moves to the direction away from terminal, and optionally, gesture information can also be static, and such as perpendicular thumb, remaining finger are clenched fist or scissors hand etc.
In an alternative embodiment, terminal can comprise the image of gesture information by the camera collection of terminal, is analyzed by image, to identify gesture information. Wherein, this gesture information can be static. The camera of terminal can comprise front-facing camera or rearmounted camera. For the interface schematic diagram of the gesture information shown in Fig. 2 A, terminal can be inputted gesture information by user in face of camera, after terminal comprises the image of this gesture information by camera collection, this image can be carried out image procossing, identifying the gesture information in this image, the gesture information recognized is " OK " gesture.
In an alternative embodiment, terminal can by the distance of the rang sensor detection gesture information of terminal relative to rang sensor. Wherein, this gesture information can be dynamic. Terminal can comprise at least one rang sensor, and each rang sensor can be arranged on the predeterminable area of terminal, and such as, around display screen, display screen can comprise the first display screen or second display screen. For the interface schematic diagram of the gesture information shown in Fig. 2 B, user moves near the direction of terminal in the upper direction of rang sensor, terminal can detect the distance of gesture information relative distance sensor by rang sensor, such as rang sensor can detect that the variation tendency of distance is for increasing progressively trend or decline trend, and rang sensor can also detect the distance of the terminal position relative distance sensor of gesture information.
In an alternative embodiment, before the gesture information of terminal detection user input, it can be determined that whether enter mode control terminal, when determining that terminal enters mode control terminal, the gesture information of detection user's input.Such as, user wish to be adjusted by gesture between the first display screen and second display screen when front rotary shaft angle, mode control terminal can be submitted to start instruction to terminal, terminal the startup instruction of response terminal master mode can enter mode control terminal, and then the gesture information that terminal is inputted by detection detection user. And for example, terminal can judge currently whether be in mode control terminal, when determining that terminal is currently in mode control terminal, and the gesture information that terminal is inputted by detection user. The embodiment of the present invention detects the gesture information that terminal is inputted by user after entering mode control terminal, terminal can be avoided to detect the gesture information of user's input in real time, the change of gesture information all can bring impact to when front rotary shaft angle in any case, mishandle can be reduced, it is to increase the tolerance range of terminal control.
S102, according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal.
In specific implementation, terminal can set up the corresponding relation of gesture information and rotating shaft angle in advance, obtain the rotating shaft angle that this gesture information is corresponding, rotating shaft angle corresponding for this gesture information is defined as between the first display screen and second display screen when front rotary shaft angle, so that the front rotary shaft angle of working as of the first display screen with second display screen is adjusted. Wherein, terminal can comprise multiple display screen, such as the first display screen and second display screen, wherein can be connected by Damping rotation shaft between the first display screen and second display screen, and Damping rotation shaft can realize the first display screen and second display screen is fixed on arbitrarily angled. When front rotary shaft angle can be the arbitrary angle value in 0 �㡫360 ��, rotating shaft angle when relative with second display screen for the first display screen and laminating can be defined as 0 �� by terminal, and rotating shaft angle when opposing to the first display screen and second display screen and laminating is defined as 360 ��. The gesture information set in advance and the corresponding relation of rotating shaft angle, it is possible to be that user is arranged, it is also possible to the operating system being terminal is self-defined.
For the interface schematic diagram of the gesture information shown in Fig. 2 A, if gesture information is static, then terminal is set up in advance gesture information and the corresponding relation of rotating shaft angle can be: when gesture information is for perpendicular thumb, corresponding rotating shaft angle is 180 ��; When gesture information is " OK " gesture, corresponding rotating shaft angle is 90 ��; When gesture information is scissors hand, corresponding rotating shaft angle is 0 ��. When terminal detects that gesture information that user inputs is for " OK " gesture, it is possible to by between the first display screen and second display screen when front rotary shaft angular setting be 90 ��.
For the interface schematic diagram of the gesture information shown in Fig. 2 B, if gesture information is dynamic, gesture information and the corresponding relation of rotating shaft angle that then terminal is set up in advance can be: when the distance of gesture information relative distance sensor belongs to the first distance scope, corresponding rotating shaft angle is 180 ��; When the distance of gesture information relative distance sensor belongs to the 2nd distance scope, corresponding rotating shaft angle is 90 ��; When the distance of gesture information relative distance sensor belongs to the 3rd distance scope, corresponding rotating shaft angle is 0 ��. Terminal detect the distance of the gesture information relative distance sensor that user inputs belong to first distance scope time, it is possible to by between the first display screen and second display screen when front rotary shaft angular setting be 180 ��.Wherein, different distance scope comprises different distance values, and the distance value that such as the first distance scope comprises is 0��1cm, and the distance value that the 2nd distance scope comprises is 1��2cm, and the distance value that the 3rd distance scope comprises is 2��3cm.
In an alternative embodiment, when the distance of the gesture information relative distance sensor that terminal detects tapers off trend, terminal can increase between the first display screen and second display screen when front rotary shaft angle; When this distance is in when increasing progressively trend, terminal can reduce between the first display screen and second display screen when front rotary shaft angle. Such as, the finger of user to when moving near the direction of terminal, terminal can determine the distance of the gesture information relative distance sensor detected taper off trend time, and then increase between the first display screen and second display screen when front rotary shaft angle. And for example, when the finger of user moves to the direction away from terminal, terminal can determine that the distance of the gesture information relative distance sensor detected is in when increasing progressively trend, so reduce between the first display screen and second display screen when front rotary shaft angle. The embodiment of the present invention can according to the variation tendency of the distance of gesture information relative distance sensor, adjust the first display screen and second display screen when front rotary shaft angle, promote Consumer's Experience.
In an alternative embodiment, terminal can according to the corresponding relation of the Distance geometry angle variables set in advance, obtain and detect angle variables corresponding to the distance obtained, according to angle variables, the front rotary shaft angle of working as between the first display screen and second display screen is adjusted. Such as, the corresponding relation of the Distance geometry angle variables that terminal sets in advance is: when distance is for 0.5cm, corresponding angle variables is 15 ��; When distance is 1cm, corresponding angle variables is 30 ��; When distance is 1.5cm, corresponding angle variables is 45 ��, if the finger of user moves the distance of 2cm, terminal can detect that the distance of gesture information relative distance sensor is 1cm, and then the angle variables getting this distance corresponding is 30 ��, and terminal can be added when front rotary shaft angle with this angle variables, after being adjusted when front rotary shaft angle, optionally, terminal can also be subtracted each other when front rotary shaft angle and this angle variables, works as front rotary shaft angle after being adjusted.
Further alternative, terminal is according to the corresponding relation of the Distance geometry angle variables set in advance, obtain after detecting angle variables corresponding to the distance obtained, can judge whether the distance of gesture information relative distance sensor tapers off trend, when the distance of gesture information relative distance sensor tapers off trend, front rotary shaft angle will be worked as be added with angle variables, after being adjusted when front rotary shaft angle; When the distance of gesture information relative distance sensor is in when increasing progressively trend, front rotary shaft angle will be worked as and angle variables is subtracted each other, after being adjusted when front rotary shaft angle. Such as, the finger of user moves to the direction near terminal, when terminal detects the distance that user moves 1cm, corresponding relation according to the Distance geometry angle variables set in advance, obtaining the angle variables detecting the distance obtained corresponding is 30 ��, and the distance of gesture information relative distance sensor tapers off trend, then terminal can increase 30 �� by when front rotary shaft angle. And for example, the finger of user moves to the direction away from terminal, when terminal detects the distance that user moves 1cm, corresponding relation according to the Distance geometry angle variables set in advance, obtaining the angle variables detecting the distance obtained corresponding is 30 ��, and the distance of gesture information relative distance sensor is in increasing progressively trend, then terminal can reduce 30 �� by when front rotary shaft angle.
S103, obtains the first display screen after adjustment and the rotating shaft angle between second display screen.
Terminal by between the first display screen and second display screen after front rotary shaft angle adjusts, it is possible to obtain adjustment after rotating shaft angle. Further, terminal can also rotating shaft angle after the predeterminable area display adjustment of the first display screen and/or second display screen so that user check between the first display screen and second display screen when front rotary shaft angle.
In the terminal control method shown in Fig. 1, the gesture information that terminal is inputted by detection user, according to gesture information to adjusting when front rotary shaft angle between the first display screen and the second display screen of terminal, and obtain the rotating shaft angle after adjustment, can effectively adjust the rotating shaft angle between the first display screen and second display screen, the convenience of lifting operation.
Fig. 3 is the schematic flow sheet of a kind of terminal control method provided in another embodiment of the present invention, and as shown in the figure, the terminal control method in the embodiment of the present invention at least can comprise:
S301, comprises the image of gesture information by the camera collection of terminal.
Terminal can comprise the image of gesture information by the camera collection of terminal. Wherein, this gesture information can be static, and such as perpendicular thumb, remaining finger are clenched fist or scissors hand etc. The camera of terminal can comprise front-facing camera or rearmounted camera. For the interface schematic diagram of the gesture information shown in Fig. 2 A, terminal can be inputted gesture information by user in face of camera, and terminal comprises the image of this gesture information by camera collection.
In an alternative embodiment, before terminal comprises the image of gesture information by camera collection, it can be determined that whether enter mode control terminal, when determining that terminal enters mode control terminal, the image of gesture information is comprised by the camera collection of terminal. Such as, user wish to be adjusted by gesture between the first display screen and second display screen when front rotary shaft angle, mode control terminal can be submitted to start instruction to terminal, terminal the startup instruction of response terminal master mode can enter mode control terminal, and then comprised the image of gesture information by the camera collection of terminal. And for example, terminal can judge currently whether be in mode control terminal, when determining that terminal is currently in mode control terminal, is comprised the image of gesture information by the camera collection of terminal. The embodiment of the present invention comprises the image of gesture information after entering mode control terminal by the camera collection of terminal, terminal can be avoided to gather image in real time by camera, gesture information in the image collected in any case all can bring impact to when front rotary shaft angle, mishandle can be reduced, it is to increase the tolerance range of terminal control.
S302, analyzes image, to identify gesture information.
Image can be analyzed by terminal, to identify gesture information. For the interface schematic diagram of the gesture information shown in Fig. 2 A, after terminal comprises the image of this gesture information by camera collection, it is possible to this image is carried out image procossing, identifying the gesture information in this image, the gesture information recognized is " OK " gesture.
S303, according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal.
In specific implementation, terminal can set up the corresponding relation of gesture information and rotating shaft angle in advance, obtain the rotating shaft angle that this gesture information is corresponding, rotating shaft angle corresponding for this gesture information is defined as between the first display screen and second display screen when front rotary shaft angle, so that the front rotary shaft angle of working as of the first display screen with second display screen is adjusted.
For the interface schematic diagram of the gesture information shown in Fig. 2 A, the corresponding relation of the gesture information that terminal is set up in advance and rotating shaft angle can be: when gesture information is for perpendicular thumb, corresponding rotating shaft angle is 180 ��;When gesture information is " OK " gesture, corresponding rotating shaft angle is 90 ��; When gesture information is scissors hand, corresponding rotating shaft angle is 0 ��. When terminal detects that gesture information that user inputs is for " OK " gesture, it is possible to by between the first display screen and second display screen when front rotary shaft angular setting be 90 ��.
S304, obtains the first display screen after adjustment and the rotating shaft angle between second display screen.
Terminal by between the first display screen and second display screen after front rotary shaft angle adjusts, it is possible to obtain adjustment after rotating shaft angle. Further, terminal can also rotating shaft angle after the predeterminable area display adjustment of the first display screen and/or second display screen so that user check between the first display screen and second display screen when front rotary shaft angle.
In the terminal control method shown in Fig. 3, the image of gesture information is comprised by the camera collection of terminal, image is analyzed, to identify gesture information, according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal, obtain the rotating shaft angle after adjustment, can effectively adjust the rotating shaft angle between the first display screen and second display screen, the convenience of lifting operation.
Fig. 4 is the schematic flow sheet of a kind of terminal control method provided in another embodiment of the present invention, and as shown in the figure, the terminal control method in the embodiment of the present invention at least can comprise:
S401, detects the distance of gesture information relative to rang sensor by the rang sensor of terminal.
Terminal can detect the distance of gesture information relative to rang sensor by rang sensor. Wherein, gesture information can be dynamic, and the finger of such as user moves to the direction near terminal or moves to the direction away from terminal. For the interface schematic diagram of the gesture information shown in Fig. 2 B, user moves near the direction of terminal in the upper direction of rang sensor, terminal can detect the distance of gesture information relative distance sensor by rang sensor, such as rang sensor can detect that the variation tendency of distance is for increasing progressively trend or decline trend, and rang sensor can also detect the distance of the terminal position relative distance sensor of gesture information.
In an alternative embodiment, before terminal detects the distance of gesture information relative to rang sensor by rang sensor, can judge whether to enter mode control terminal, when determining that terminal enters mode control terminal, detect the distance of gesture information relative to rang sensor by the rang sensor of terminal. Such as, user wish to be adjusted by gesture between the first display screen and second display screen when front rotary shaft angle, mode control terminal can be submitted to start instruction to terminal, terminal the startup instruction of response terminal master mode can enter mode control terminal, and then detects the distance of gesture information relative to rang sensor by the rang sensor of terminal. And for example, terminal can judge currently whether be in mode control terminal, when determining that terminal is currently in mode control terminal, detects the distance of gesture information relative to rang sensor by the rang sensor of terminal. The embodiment of the present invention detects the distance of gesture information relative to rang sensor by the rang sensor of terminal after entering mode control terminal, terminal can be avoided to detect the distance of gesture information relative to rang sensor in real time by rang sensor, the change of gesture information all can bring impact to when front rotary shaft angle in any case, mishandle can be reduced, it is to increase the tolerance range of terminal control.
S402, according to the distance of gesture information relative to rang sensor, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal.
In specific implementation, terminal can set up the corresponding relation of gesture information and rotating shaft angle in advance, obtain the rotating shaft angle that this gesture information is corresponding, rotating shaft angle corresponding for this gesture information is defined as between the first display screen and second display screen when front rotary shaft angle, so that the front rotary shaft angle of working as of the first display screen with second display screen is adjusted. For the interface schematic diagram of the gesture information shown in Fig. 2 B, if gesture information is dynamic, gesture information and the corresponding relation of rotating shaft angle that then terminal is set up in advance can be: when the distance of gesture information relative distance sensor belongs to the first distance scope, corresponding rotating shaft angle is 180 ��; When the distance of gesture information relative distance sensor belongs to the 2nd distance scope, corresponding rotating shaft angle is 90 ��; When the distance of gesture information relative distance sensor belongs to the 3rd distance scope, corresponding rotating shaft angle is 0 ��. Terminal detect the distance of the gesture information relative distance sensor that user inputs belong to first distance scope time, it is possible to by between the first display screen and second display screen when front rotary shaft angular setting be 180 ��. Wherein, different distance scope comprises different distance values, and the distance value that such as the first distance scope comprises is 0��1cm, and the distance value that the 2nd distance scope comprises is 1��2cm, and the distance value that the 3rd distance scope comprises is 2��3cm.
In an alternative embodiment, when the distance of the gesture information relative distance sensor that terminal detects tapers off trend, terminal can increase between the first display screen and second display screen when front rotary shaft angle; When this distance is in when increasing progressively trend, terminal can reduce between the first display screen and second display screen when front rotary shaft angle. Such as, the finger of user to when moving near the direction of terminal, terminal can determine the distance of the gesture information relative distance sensor detected taper off trend time, and then increase between the first display screen and second display screen when front rotary shaft angle. And for example, when the finger of user moves to the direction away from terminal, terminal can determine that the distance of the gesture information relative distance sensor detected is in when increasing progressively trend, so reduce between the first display screen and second display screen when front rotary shaft angle. The embodiment of the present invention can according to the variation tendency of the distance of gesture information relative distance sensor, adjust the first display screen and second display screen when front rotary shaft angle, promote Consumer's Experience.
In an alternative embodiment, terminal can according to the corresponding relation of the Distance geometry angle variables set in advance, obtain and detect angle variables corresponding to the distance obtained, according to angle variables, the front rotary shaft angle of working as between the first display screen and second display screen is adjusted. Such as, the corresponding relation of the Distance geometry angle variables that terminal sets in advance is: when distance is for 0.5cm, corresponding angle variables is 15 ��; When distance is 1cm, corresponding angle variables is 30 ��; When distance is 1.5cm, corresponding angle variables is 45 ��, if the finger of user moves the distance of 2cm, terminal can detect that the distance of gesture information relative distance sensor is 1cm, and then the angle variables getting this distance corresponding is 30 ��, and terminal can be added when front rotary shaft angle with this angle variables, after being adjusted when front rotary shaft angle, optionally, terminal can also be subtracted each other when front rotary shaft angle and this angle variables, works as front rotary shaft angle after being adjusted.
Further alternative, terminal is according to the corresponding relation of the Distance geometry angle variables set in advance, obtain after detecting angle variables corresponding to the distance obtained, can judge whether the distance of gesture information relative distance sensor tapers off trend, when the distance of gesture information relative distance sensor tapers off trend, front rotary shaft angle will be worked as be added with angle variables, after being adjusted when front rotary shaft angle; When the distance of gesture information relative distance sensor is in when increasing progressively trend, front rotary shaft angle will be worked as and angle variables is subtracted each other, after being adjusted when front rotary shaft angle. Such as, the finger of user moves to the direction near terminal, when terminal detects the distance that user moves 1cm, corresponding relation according to the Distance geometry angle variables set in advance, obtaining the angle variables detecting the distance obtained corresponding is 30 ��, and the distance of gesture information relative distance sensor tapers off trend, then terminal can increase 30 �� by when front rotary shaft angle. And for example, the finger of user moves to the direction away from terminal, when terminal detects the distance that user moves 1cm, corresponding relation according to the Distance geometry angle variables set in advance, obtaining the angle variables detecting the distance obtained corresponding is 30 ��, and the distance of gesture information relative distance sensor is in increasing progressively trend, then terminal can reduce 30 �� by when front rotary shaft angle.
S403, obtains the first display screen after adjustment and the rotating shaft angle between second display screen.
Terminal by between the first display screen and second display screen after front rotary shaft angle adjusts, it is possible to obtain adjustment after rotating shaft angle. Further, terminal can also rotating shaft angle after the predeterminable area display adjustment of the first display screen and/or second display screen so that user check between the first display screen and second display screen when front rotary shaft angle.
In the terminal control method shown in Fig. 4, the distance of gesture information relative to rang sensor is detected by the rang sensor of terminal, according to the distance of gesture information relative to rang sensor, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal, obtain the rotating shaft angle after adjustment, can effectively adjust the rotating shaft angle between the first display screen and second display screen, the convenience of lifting operation.
Fig. 5 is the structural representation of a kind of terminal provided in first embodiment of the invention, terminal in the embodiment of the present invention at least can comprise as shown in the figure: gesture information detecting unit 501, rotating shaft angle adjusting 502 and rotating shaft angle acquiring unit 503, wherein:
Gesture information detecting unit 501, for detecting the gesture information that terminal is inputted by user.
Rotating shaft angle adjusting 502, for according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal.
Rotating shaft angle acquiring unit 503, for obtaining the first display screen after adjustment and the rotating shaft angle between second display screen.
In an alternative embodiment, the gesture information detecting unit 501 in the embodiment of the present invention can as shown in Figure 6, comprise further:
Image acquisition units 601, for comprising the image of gesture information by the camera collection of terminal.
Gesture information recognition unit 602, for analyzing image, to identify gesture information.
In an alternative embodiment, gesture information detecting unit 501, for detecting the distance of gesture information relative to rang sensor by the rang sensor of terminal.
In an alternative embodiment, the rotating shaft angle adjusting 502 in the embodiment of the present invention can as shown in Figure 7, comprise further:
First adjustment unit 701, for when distance tapers off trend, increase between the first display screen and second display screen when front rotary shaft angle.
2nd adjustment unit 702, for when distance is in when increasing progressively trend, reduce between the first display screen and second display screen when front rotary shaft angle.
In an alternative embodiment, the rotating shaft angle adjusting 502 in the embodiment of the present invention can as shown in Figure 8, comprise further:
Angle variables acquiring unit 801, for the corresponding relation according to the Distance geometry angle variables set in advance, obtains and detects angle variables corresponding to the distance obtained.
3rd adjustment unit 802, for according to angle variables, adjusting the front rotary shaft angle of working as between the first display screen and second display screen.
In the terminal shown in Fig. 5, gesture information detecting unit 501 detects the gesture information that terminal is inputted by user, rotating shaft angle adjusting 502 is according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal, rotating shaft angle acquiring unit 503 obtains the first display screen after adjustment and the rotating shaft angle between second display screen, can effectively adjust the rotating shaft angle between the first display screen and second display screen, the convenience of lifting operation.
Fig. 9 is the structural representation of a kind of terminal provided in second embodiment of the invention, and as shown in the figure, described terminal at least can comprise: input unit 903, first take-off equipment the 904, two take-off equipment 905, at least one treater 901, such as CPU, storer 906 and at least one bus 902.
Wherein, above-mentioned bus 902 is for connecting above-mentioned input unit 903, first take-off equipment 904, the 2nd take-off equipment 905, treater 901 and storer 906.
Wherein, above-mentioned input unit 903 specifically can be camera, for gathering the image comprising gesture information. Optionally, above-mentioned input unit 903 specifically can be rang sensor, for detecting the distance of gesture information relative to rang sensor.
Above-mentioned first take-off equipment 904 specifically can be the first display screen of terminal, for showing the image comprising gesture information.
Above-mentioned 2nd take-off equipment 905 specifically can be the second display screen of terminal, for showing the image comprising gesture information.
Above-mentioned storer 906 can be high-speed RAM display device, it is possible to be non-volatile indicating meter (non-volatilememory), such as disk indicating meter. Above-mentioned storer 906 is also for showing one group of program code, and above-mentioned input unit 903, first take-off equipment 904, the 2nd take-off equipment 905 and treater 901, for calling the program code of display in storer 906, perform to operate as follows:
Input unit 903, for detecting the gesture information that terminal is inputted by user.
Treater 901, for according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal.
Treater 901, also for obtaining the first display screen after adjustment and the rotating shaft angle between described second display screen.
In an alternative embodiment, when input unit 903 is camera, input unit 903 detects the gesture information that terminal is inputted by user, is specifically as follows:
Input unit 903 gathers the image comprising gesture information.
Image is analyzed by input unit 903, to identify gesture information.
In an alternative embodiment, when input unit 903 is rang sensor, input unit 903 detects the gesture information that terminal is inputted by user, is specifically as follows:
Input unit 903 detects the distance of gesture information relative to rang sensor.
In an alternative embodiment, treater 901, according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal, is specifically as follows:
When distance tapers off trend, treater 901 increase between the first display screen and second display screen when front rotary shaft angle.
When distance is in when increasing progressively trend, treater 901 reduce between the first display screen and second display screen when front rotary shaft angle.
In an alternative embodiment, treater 901, according to gesture information, to adjusting when front rotary shaft angle between the first display screen of terminal and the second display screen of terminal, is specifically as follows:
Treater 901, according to the corresponding relation of the Distance geometry angle variables set in advance, obtains and detects angle variables corresponding to the distance obtained.
Front rotary shaft angle of working as between first display screen and second display screen, according to angle variables, is adjusted by treater 901.
Concrete, the terminal introduced in the embodiment of the present invention can in order to the part or all of flow process in the terminal control method embodiment implementing composition graphs 1 of the present invention, Fig. 3 or Fig. 4 introduction.
Unit in all embodiments of the present invention, universal integrated circuit can be passed through, such as CPU (CentralProcessingUnit, central processing unit), or realized by ASIC (ApplicationSpecificIntegratedCircuit, application specific integrated circuit).
Step in embodiment of the present invention method can carry out order according to actual needs and adjust, merges and delete.
Unit in embodiment of the present invention device can carry out merging, divide and deleting according to actual needs.
In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, the part not having a detailed description in certain embodiment, it is possible to see the associated description of other embodiments.
One of ordinary skill in the art will appreciate that all or part of flow process realizing in above-described embodiment method, it is can be completed by the hardware that computer program carrys out instruction relevant, described program can be shown in an embodied on computer readable display medium, this program, when performing, can comprise the flow process of the embodiment such as above-mentioned each side method. Wherein, described display medium can be magnetic disc, CD, read-only display memory body (Read-OnlyMemory, ROM) or random display memory body (RandomAccessMemory, RAM) etc.
Above disclosed being only the better embodiment of the present invention, certainly can not limit the interest field of the present invention with this, the equivalent variations therefore done according to the claims in the present invention, still belongs to the scope that the present invention is contained.