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, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, ability piece those of ordinary skill, not making the every other embodiment obtaining under creative work prerequisite, all belongs to the scope of protection of the invention.
Should understand, the technical scheme of the embodiment of the present invention can be applied in various electronic, such as: computer, electronic reading device, televisor, panel computer etc., the embodiment of the present invention does not limit electronic equipment, but for convenience of description, the embodiment of the present invention will be with televisor, and the digital television of especially take describes as example.
Fig. 1 is the integrated stand composition of the telechirics of embodiments of the invention.
The telechirics 100 of the embodiment of the present invention comprises: remote control equipment 10 and electronic equipment 20, this remote control equipment 10, by transmitting control signal to electronic equipment 20, is controlled the screen interface of electronic equipment 20 and selected operation.This remote control equipment 10 can be the equipment of supporting that three dimensions operates, as: air mouse, but be not limited to this.
Below the electronic equipment 20 of this telechirics 100 is described further by reference to the accompanying drawings.
Fig. 2 is the structural representation of the electronic equipment 20 of Fig. 1 embodiments of the invention.
In the embodiment of the present invention, this electronic equipment 20, comprises display screen 21, processor 22 and radio communication unit 23.Processor 22 connects respectively display screen 21 and radio communication unit 23.The control signal that this radio communication unit 23 sends for receiving remote control equipment 10.This display screen 21 is divided at least two viewing areas 33, and each viewing area 33 is corresponding one by one with the Option Box at these display screen 21 interfaces.
This processor 22, for resolving this control signal, obtains the moving parameter of this remote control equipment 10.According to the moving parameter of this remote control equipment 10, determine target viewing area.Wherein, this moving parameter can be to three-dimensional coordinate that should remote control equipment 10, and this processor 22 obtains the two-dimensional coordinate of the display screen 21 that this three-dimensional coordinate is corresponding according to the three-dimensional coordinate of this remote control equipment 10 and the mapping relations of the two-dimensional coordinate of display screen 21.Please also refer to Fig. 3, Fig. 3 is the prompting view of target viewing area of the electronic equipment of Fig. 1 embodiment of the present invention.
As seen from the above, the electronic equipment 20 of the embodiment of the present invention, selects the target viewing area of electronic equipment by remote control equipment 10, and changes the show state of selected viewing area 33, points out user current alternative.Overcome user and by mobile cursor progressively, carry out the difficulty of localizing objects object, be convenient to user's quickly positioning target object.
Wherein, this processor 22 is controlled the prompting state that this display screen 21 shows these target viewing areas after can changing the show state of this target viewing area, is used for pointing out the viewing area 33 of the current selection of user, is convenient to user and selects fast viewing area 33.
Particularly, by an embodiment, elaborate the implementation of this electronic equipment 20.
Fig. 4 a-4b is the division schematic diagram of the electronic equipment viewing area of Fig. 1 embodiment of the present invention, and the viewing area 33 of this electronic equipment 20 is corresponding one by one with the Option Box at display screen 21 interfaces.As shown in Fig. 4 a-4b, a corresponding Option Box in viewing area.
In the present embodiment, this display screen 21 can a corresponding standard two-dimensional coordinate system XOY, under this two-dimensional coordinate system XOY, this display screen 21 is divided at least two viewing areas 33, each corresponding two-dimensional coordinate scope ((Xi, Xj) in viewing area 33, (Yi, Yj)), for example, the horizontal ordinate scope of the two-dimensional coordinate scope of a viewing area 33 is (Xi, Xj), and the scope of ordinate is (Yi, Yj), wherein, i=0...n, j > i.
The dividing mode of this viewing area 33 can be for dividing (shown in Fig. 4 a) continuously, and the bee-line between two of arbitrary neighborhood viewing areas 33 is less than a threshold values, in the present embodiment, and the pixel value that this threshold values is predetermined quantity.
Optionally, according to interface layout's needs of user, to showing in single interface in the situation of limited Option Box,, this limited Option Box can not take this interface, the dividing mode of this viewing area 33 can be discontinuous division (shown in Fig. 4 b), at least exists one group of bee-line between adjacent viewing area 33 to be not less than this threshold values.
Fig. 5 a-5b is the menu interface schematic diagram of Fig. 1 embodiment of the present invention electronic equipment.
Understandable, this display screen 21 is for showing menu interface 30 and the content picture of electronic equipment 20.Take digital television as example, and this menu interface 30 can comprise program category menu interface 31, channel list menu interface 32, program list menu interface etc.Each menu interface 30 can also comprise the multistage submenu interface under this menu interface.This content picture can be the video pictures of selected program or channel.
Each menu interface in this menu interface 30 comprises at least two Option Boxs, a viewing area 33 of the corresponding display screen 21 of each Option Box, for example: channel as shown in Figure 5 a, program request, review, film, TV play and the respectively corresponding viewing area 33 of Latest Online Option Box.An also corresponding viewing area 33 of each Option Box in CCTV1, CCTV2 as shown in Figure 5 b and CCTV3 again.In addition, the corresponding two-dimensional coordinate scope in this viewing area 33 can be set according to the size of these viewing area 33 corresponding Option Boxs.
In the present embodiment, this electronic equipment 20 can also comprise storer, described memory stores menu interface 30, the two-dimensional coordinate scope that the mapping relations of the three-dimensional coordinate of remote control equipment 10 and the two-dimensional coordinate of display screen 21 and each viewing area 33 are corresponding, wherein, the three-dimensional coordinate of remote control equipment 10 records displacement and the moving direction of remote control equipment 10 each coordinate components in three dimensions, this two-dimensional coordinate record be according to these mapping relations, to be mapped to displacement and the moving direction of each coordinate components of the two dimensional surface of this display screen, these mapping relations can be equidistant mappings one by one, also can be according to predetermined funtcional relationship mapping.This storer is also for storing instruction repertorie, fixed data (job information, variable, parameter, form), user data, quality control data etc., and this storer can be the storeies such as random storage RAM, read only memory ROM, E2PROM electrically-erasable ROM (read-only memory) and FLASH flash memory.
In the present embodiment, this processor 22 receives the control signal that this remote control equipment 10 sends, for example, remote control coding signal, the premenstrual storing of this remote control coding signal is large, Amplitude amplification, bandpass filtering, peak detection and wave shaping, thus parse the three-dimensional coordinate of this remote control coding acquisition of information remote control equipment 10.
This processor 22 converts the three-dimensional coordinate obtaining to the two-dimensional coordinate of display screen 21 according to the mapping relations of the two-dimensional coordinate of 10 three-dimensional coordinates of remote control equipment in storer and display screen 21.For example, processor 22 according to these mapping relations by the three-dimensional coordinate of this remote control equipment 10 (Δ X, Δ Y, Δ Z) along selected axis, as Z-direction is mapped to display screen two dimensional surface XOY, thereby obtain corresponding two-dimensional coordinate (Δ X1, Δ Y1).
Fig. 6 a-6b is the schematic diagram that the electronic equipment of Fig. 1 embodiment of the present invention is determined target viewing area.
As shown in Figure 6 a, this processor 22 search previous selecteed viewing area 33 arbitrary coordinate points A (as, centre coordinate point) as reference point (Xa, Ya), by this reference point (Xa, Ya) mobile (Δ X1, Δ Y1), thereby obtain current two-dimensional coordinate B (Xa+ Δ X1, Ya+ Δ Y1) (shown in Fig. 6 a).In the present embodiment, current two-dimensional coordinate B (Xa+ Δ X1, Ya+ Δ Y1) can be positioned at 33 inside, viewing area, also can be positioned at 33 outsides, viewing area (comprising border).
This processor 22 is according to the two-dimensional coordinate of display screen 21 corresponding to this three-dimensional coordinate, and the two-dimensional coordinate in previous selecteed viewing area 33, determine the scope of the two-dimensional coordinate of viewing area that current two-dimensional coordinate belongs to 33, further according to this two-dimensional coordinate scope, determine the target viewing area of display screen 21.
This processor 22 is according to the two-dimensional coordinate of display screen 21 corresponding to this three-dimensional coordinate, and the two-dimensional coordinate in previous selecteed viewing area 33, determine that current two-dimensional coordinate does not drop in the scope of arbitrary two-dimensional coordinate of viewing area 33, now, processor 22 can determine that the nearest viewing area 33 of the current two-dimensional coordinate of distance is as target viewing area.For example, processor 22 determines that the nearest viewing area 33 of the current two-dimensional coordinate of distance is as target viewing area, comprise, processor 22 is determined the bee-line of the viewing area 33 adjacent with current two-dimensional coordinate, and further the corresponding viewing area 33 of minimum value in definite those bee-lines is as target viewing area.
Optionally, as shown in Figure 6 b, this processor 22 is further searched two-dimensional coordinate the scope ((Xa of previous selecteed viewing area 33 correspondences, Xb), (Ya, Yb)), according to this two-dimensional coordinate variable (Δ X1, Δ Y1) by this two-dimensional coordinate scope ((Xa, Xb), (Ya, Yb)) mobile (Δ X1, Δ Y1), thereby obtain current two-dimensional coordinate scope ((Xa+ Δ X1, Xb+ Δ X1), (Ya+ Δ Y1, Yb+ Δ Y1)).In the present embodiment, current two-dimensional coordinate scope ((Xa+ Δ X1, Xb+ Δ X1), (Ya+ Δ Y1, Yb+ Δ Y1)) can be associated with the two-dimensional coordinate scope of at least one viewing area 33, also can not be associated with the two-dimensional coordinate scope of any viewing area 33, wherein, this current two-dimensional coordinate scope is associated with viewing area 33 and refers to that the two-dimensional coordinate scope of current two-dimensional coordinate scope and viewing area 33 intersects.
This processor 22 judges whether to exist the two-dimensional coordinate scope associated viewing area 33 current with this, if related viewing area 33, determine respectively the pixel that those associated viewing areas 33 and current two-dimensional coordinate scope are crossing, and determine and comprise viewing area 33 that pixel is maximum as target viewing area.
This processor 22 is determined the viewing area 33 that the two-dimensional coordinate scope current with this is not associated, determine that the viewing area 33 nearest with current two-dimensional coordinate scope is as target viewing area, this processor 22, determining the viewing area 33 being associated less than the two-dimensional coordinate scope with current, also can not carried out any instruction.
For example, this processor 22 is determined the viewing area 33 adjacent with this current two-dimensional coordinate scope, the bee-line of each adjacent viewing area 33 and this current two-dimensional coordinate scope in those adjacent viewing areas 33 of further calculating, and calculate the minimum value in those preset distances, further determine that the corresponding viewing area 33 of this minimum value is as target viewing area.
After being defined as target viewing area, the show state that this processor 22 can change target viewing area is prompting state.
For example: this prompting state is this target viewing area of highlighted demonstration, also can amplify this target viewing area, can protrude or cave in again display-object viewing area etc. can make user know the target viewing area of the current selection of identification, then prompting state can be combined to further prompting user with auditory tone cues.
This processor 22 further judges whether to receive the selection signal of remote control equipment 10, if so, carries out instruction corresponding to this target viewing area.Otherwise, continue to receive the control signal that telechiric device 10 sends.
In the embodiment of the present invention, after user's unlocking electronic equipment 20, the coordinate range corresponding to initialization target viewing area of electronic equipment 20 is ((X0, X1), (Y0, Y1)).The menu interface 30 showing after electronic equipment 20 initialization is the menu interface 31 of program category, can comprise: the content such as channel, program request, film, entertainment, TV play, news are dynamic.
In the present embodiment, this radio communication unit 23 carries out wireless communication transmissions by wireless telecommunications passage and this remote control equipment 10, the communication channel that this wireless telecommunications passage can be set up for arbitrary wireless communication techniques such as radio frequency (RF), bluetooth (Bluetooth), Wi-Fi, ZigBee.In the present embodiment, this radio communication unit 23 comprises the RF module with receiving antenna.
Fig. 7 be Fig. 1 according to the schematic diagram of the remote control equipment of the embodiment of the present invention.This remote control equipment 10 is set up a three-dimensional system of coordinate, for determining the three-dimensional coordinate variable of remote control equipment 10 of the present invention under this coordinate system.
Remote control equipment 10 in the present embodiment comprises detecting module 11, wireless transmitter module 12, MCU (Micro Controller Unit) control module 14 and selection key 15.This control module 14 is electrically connected to detecting module 11, wireless transmitter module 12 and selection key 15 respectively.In the present embodiment, this detecting module 11 can be gyroscope, can be also the arrangement for detecting that gyroscope is combined with acceleration transducer.These detecting module 11 detecting remote control equipment 10 move or rock produced analog voltage signal, control module 14 converts this analog voltage to three-dimensional coordinate digital signal, and send to wireless transmitter module 12, then through wireless transmitter module 12, send to the radio communication unit 23 of electronic equipment 20.
Further, when user finds target to be selected viewing area at the display screen 21 of electronic equipment 20, by pressing the selection key 15 of remote control equipment 10, produce selection signal, this selection signal sends to radio communication unit 23 through wireless transmitter module 12.
Fig. 8 is according to the indicative flowchart of the remote control thereof of the electronic equipment of the embodiment of the present invention.
820, electronic equipment 20 receives the control signal that remote control equipment 10 sends.
For example, the radio communication unit 23 of this electronic equipment 20 carries out wireless communication transmissions by wireless telecommunications passage and this remote control equipment 10, as, the control signal that receives remote control equipment 10, this wireless telecommunications passage refers to the communication channel that comprises that arbitrary wireless communication techniques such as radio frequency (RF), bluetooth (Bluetooth), Wi-Fi, ZigBee are set up.
830, electronic equipment 20 is resolved the moving parameter that this control signal is obtained remote control equipment 10.Wherein, this moving parameter is to three-dimensional coordinate that should remote control equipment 10.
840, according to the moving parameter of remote control equipment 10, determine target viewing area.
Wherein, step 840 can be carried out by the processor 22 in electronic equipment 20.For example, processor 22 is according to pre-stored mapping relations, by the three-dimensional coordinate of remote control equipment 10 (Δ X, Δ Y, Δ Z) along Z-direction, be mapped to the two dimensional surface XOY of display screen, thereby obtain corresponding two-dimensional coordinate (Δ X1, Δ Y1), wherein, mapping relations record the mapping relations of the three-dimensional coordinate of remote control equipment 10 and the two-dimensional coordinate of display screen 21, and the three-dimensional coordinate of remote control equipment 10 records displacement and the moving direction of remote control equipment 10 each coordinate components in three dimensions, this two-dimensional coordinate record be according to these mapping relations, to be mapped to displacement and the moving direction of each coordinate components of the two dimensional surface of this display screen.
This processor 22 search previous selecteed viewing area 33 arbitrary coordinate points A (as, centre coordinate point) as reference point (Xa, Ya), by this reference point (Xa, Ya) move (Δ X1, Δ Y1), thus obtain current two-dimensional coordinate B (Xa+ Δ X1, Ya+ Δ Y1) (shown in Fig. 6 a).In the present embodiment, current two-dimensional coordinate B (Xa+ Δ X1, Ya+ Δ Y1) can be positioned at 33 inside, viewing area, also can be positioned at 33 outsides, viewing area (comprising border).
This processor 22 is according to the two-dimensional coordinate of display screen 21 corresponding to this three-dimensional coordinate, and the two-dimensional coordinate in previous selecteed viewing area 33, determine the scope of the two-dimensional coordinate of viewing area that current two-dimensional coordinate belongs to 33, further according to this two-dimensional coordinate scope, determine the target viewing area of display screen.
This processor 22 is according to the two-dimensional coordinate of display screen 21 corresponding to this three-dimensional coordinate, and the two-dimensional coordinate in previous selecteed viewing area 33, determine that current two-dimensional coordinate does not drop in the scope of arbitrary two-dimensional coordinate of viewing area 33, processor 22 determines that the nearest viewing area 33 of the current two-dimensional coordinate of distance is as target viewing area.For example, processor 22 determines that the nearest viewing area 33 of the current two-dimensional coordinate of distance is as target viewing area, comprise, processor 22 is determined the bee-line of the viewing area 33 adjacent with current two-dimensional coordinate, and further the corresponding viewing area 33 of minimum value in definite those bee-lines is as target viewing area.
Optionally, as shown in Figure 6 b, this processor 22 is further searched two-dimensional coordinate the scope ((Xa of previous selecteed viewing area 33 correspondences, Xb), (Ya, Yb)), according to this two-dimensional coordinate variable (Δ X1, Δ Y1) by this two-dimensional coordinate scope ((Xa, Xb), (Ya, Yb)) mobile (Δ X1, Δ Y1), thereby obtain current two-dimensional coordinate scope ((Xa+ Δ X1, Xb+ Δ X1), (Ya+ Δ Y1, Yb+ Δ Y1)) (shown in Fig. 6 b).In the present embodiment, current two-dimensional coordinate scope ((Xa+ Δ X1, Xb+ Δ X1), (Ya+ Δ Y1, Yb+ Δ Y1)) can be associated with the two-dimensional coordinate scope of at least one viewing area 33, also can not be associated with the two-dimensional coordinate scope of any viewing area 33, wherein, this current two-dimensional coordinate scope is associated with viewing area 33 and refers to that the two-dimensional coordinate scope of current two-dimensional coordinate scope and viewing area 33 intersects.
This processor 22 judges whether to exist the two-dimensional coordinate scope associated viewing area 33 current with this, if related viewing area 33, determine respectively the pixel that those associated viewing areas 33 and current two-dimensional coordinate scope are crossing, and determine and comprise viewing area 33 that pixel is maximum as target viewing area.
This processor 22 is determined the viewing area 33 that the two-dimensional coordinate scope current with this is not associated, determine that the viewing area 33 nearest with current two-dimensional coordinate scope is as target viewing area, this processor 22 is determined the viewing area 33 being associated less than the two-dimensional coordinate scope with current, also can not carry out any instruction.
For example, this processor 22 is determined the viewing area 33 adjacent with this current two-dimensional coordinate scope, the bee-line of each adjacent viewing area 33 and this current two-dimensional coordinate scope in those adjacent viewing areas 33 of further calculating, and calculate the minimum value in those preset distances, further determine that the corresponding viewing area of this minimum value is as target viewing area.
850, show the prompting state of this target viewing area.
Wherein, step 850 can be carried out by the processor 22 in electronic equipment 20.
Wherein, this prompting state is this target viewing area of highlighted demonstration, also can amplify this target viewing area, the display-object viewing area etc. of can protruding or cave in again, can make user know the target viewing area of the current selection of identification, then prompting state can be combined to further prompting user with auditory tone cues.
As seen from the above, the method for the embodiment of the present invention, selects the target viewing area of electronic equipment 20 by remote control equipment 10, and changes the show state of selected viewing area 33, points out user current alternative.Overcome user and by mobile cursor progressively, carry out the difficulty of localizing objects object, be convenient to user's quickly positioning target object.
Further the method can also comprise step 860, judges whether to receive the selection signal of remote control equipment 10, if so, performs step 870.Otherwise, return to step 810.
870, carry out instruction corresponding to this target viewing area.
Step 860 and step 870 can be carried out by processor 22.
Be understandable that, before electronic equipment dispatches from the factory, the method can also comprise:
810, the display screen 21 of dividing electronic equipment is at least two viewing areas 33, and each viewing area 33 is corresponding one by one with the Interface Options frame of this display screen 21.
For example, the corresponding standard two-dimensional coordinate system XOY of this display screen 21, under this two-dimensional coordinate system XOY, this display screen 21 is divided at least two viewing areas 33, each corresponding two-dimensional coordinate scope ((Xi, Xj) in viewing area 33, (Yi, Yj)), for example, the horizontal ordinate scope of the two-dimensional coordinate scope of a viewing area 33 is (Xi, Xj), and the scope of ordinate is (Yi, Yj), wherein, i=0...n, j > i.
The dividing mode of this viewing area 33 can be for dividing (shown in Fig. 4 a) continuously, and the bee-line between two of arbitrary neighborhood viewing areas 33 is less than a threshold values, in the present embodiment, and the pixel value that this threshold values is predetermined quantity.
Optionally, according to interface layout's needs of user, to showing in single interface in the situation of limited Option Box,, this limited Option Box can not take this interface, the dividing mode of this viewing area 33 can be discontinuous division (shown in Fig. 4 b), at least exists one group of bee-line between adjacent viewing area 33 to be not less than this threshold values.
Fig. 9 is the indicative flowchart that the remote control equipment 10 of the embodiment of the present invention produces control signal.
In the present embodiment, the remote control equipment 10 being somebody's turn to do can be gyroscope, can be also the arrangement for detecting that gyroscope is combined with acceleration transducer.
910, detecting remote control equipment 100 move or rock produced analog voltage signal.
920, convert this analog voltage to three-dimensional coordinate digital signal, and send to wireless transmitter module 12.
930, send three-dimensional coordinate digital signal to the radio communication unit 23 of electronic equipment 20.
When user finds viewing area 33 to be selected and will click or activate Option Box corresponding to this target viewing area at the display screen 21 of electronic equipment 20, by pressing the remote keying 15 of remote control equipment 10, produce selection signal, this selection signal sends to radio communication unit 23 through wireless transmitter module 12.
The electronic equipment of the embodiment of the present invention and remote control thereof thereof, select the target viewing area of electronic equipment 20 by remote control equipment 10, and according to control signal, change the show state of target viewing area, points out user current alternative.Overcome user and by mobile cursor progressively, carry out the difficulty of localizing objects object, the show state that changes target viewing area 31 is convenient to user's quickly positioning target object, to user, brings better experience effect.
If described function usings that the form of SFU software functional unit realizes and during as production marketing independently or use, can be stored in a computer read/write memory medium.Understanding based on such, the part that technical scheme of the present invention contributes to prior art in essence in other words or the part of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprise that some instructions are with so that a computer equipment (can be personal computer, server, or the network equipment etc.) carry out all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, ROM (read-only memory) (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of claim.