CN103034346A - Terminal, remote control and method for adjusting display under three-dimensional play mode - Google Patents

Abstract

The invention provides a terminal, a remote control and a method for adjusting a display under a three-dimensional play mode. The terminal comprises a three-dimensional element library, a controller connected with the three-dimensional element library, and a receiver connected with the controller, wherein the three-dimensional element library comprises more than one user interface (UI) element, and attributes of the UI elements for identifying the feature information of the UI elements; the receiver is used for receiving a sensing instruction for indicating the image change formed by the UI elements sent by the remote control, and sending the sensing instruction to the controller; and the controller acquires the adjusting information of more than one UI element according to the sensing instruction, and adjusts the display of the more than one UI element according to the adjusting information. Through the combination of the terminal and the remote control, the problem that the three-dimensional user interface cannot be regulated under the three-dimensional play mode in the prior art is solved.

Description

The method of adjustment of display under terminal, telepilot and the three-dimensional play mode

Technical field

The embodiment of the invention relates to the communications field, relates in particular to the method for adjustment of display under a kind of terminal, telepilot and the three-dimensional play mode.

Background technology

Along with increasing of three-dimensional (3Dimension is called for short 3D) video, the 3D TV that is used for broadcast 3D video becomes the focus that business tine is paid close attention to.But the content that current 3D televises is the 3D video, but the user interface and the operator scheme that are used for regulation and control 3D video belong to the 2D technology.For example, the user selects 3D video to be played in the 2D user interface, when the 3D video begins to play, the user wears the 3D Television glasses to watch the 3D video of playing in the 3D TV, after the 3D video playback finishes, the user can take the 3D Television glasses, gets back to the enterprising line correlation operation of user interface (User Interface is called for short UI) of 2D.

By upper, user's interface operation (such as brightness, contrast, color etc.) still carries out under the 2D pattern, and the 3D TV can't be showed to the user user interface of 3D, so that the user can't carry out man-machine interactive operation under the 3D pattern.

, experience for better UI is provided to the user, current a lot of equipment can for the figure motion, carry out the motion vector computation based on 3d space on the 2D display, the figure movement effects of similar 3D is provided to the user for this reason.Such as, can show image from perpendicular to the position of display to the mass motion process that is parallel to the display rotation etc.Although such scheme is in the figure motion, the figure movement effects of similar 3D can be provided to the user, but in fact, it still is the demonstration on the 2D TV, that is, actual each moment, image still is to only have the plane of X/Y diaxon to show, and man-machine interaction mode also is to carry out in planar range.

Summary of the invention

In view of this, the embodiment of the invention provides the method for adjustment of display under a kind of terminal, telepilot and the three-dimensional play mode, in order to solve the problem that can't carry out the three-dimensional user interface regulation and control in the prior art under three-dimensional play mode.

First aspect, the embodiment of the invention provide a kind of terminal, comprising:

Three-dimensional element database, the controller that is connected with described three-dimensional element database is with the receiver that is connected with described controller;

Wherein, this three-dimensional element database comprises more than one user interface UI element, and the described UI attribute of an element that is used for identifying the characteristic information of described UI element, and described each UI element has three-dimensional volume coordinate;

Described receiver receives the induction instruction of the image change of the described UI element composition of being used to indicate of telepilot transmission, and described receiver is sent to described controller with described induction instruction;

Described controller obtains the adjustment information of more than one UI element according to described induction instruction, and obtains described more than one UI element and adjust the demonstration of described more than one UI element from described three-dimensional element database according to described adjustment information.

In conjunction with first aspect, in the possible implementation of the first, described UI attribute of an element comprises one or more in the following information:

The position coordinates of described UI element on 3-D walls and floor; The neighbours element of described UI element on 3-D walls and floor; The size of described UI element; The shape of described UI element; The color of described UI element; The hyperlinked information of described UI element.

In conjunction with first aspect and the possible implementation of the first, in the possible implementation of the second, described receiver is wireless receiver.

Second aspect, the embodiment of the invention also provide a kind of telepilot, comprising:

First sensor, the second sensor, the 3rd sensor, four-sensor, the pressure transducer more than three;

With first sensor, the second sensor, the 3rd sensor, four-sensor with the transmitter that is connected of the pressure transducer more than being connected;

The rotary part that is connected with described four-sensor;

With the button that described pressure transducer is connected, the quantity of described button is identical with the quantity of described pressure transducer;

Wherein, described rotary part is used for realizing that described telepilot receives surface level that the user triggers clockwise or the instruction that is rotated counterclockwise;

Described button is used for realizing that described telepilot receives that the user triggers really that definiteness makes, delete instruction, advancement commands or retreat instruction;

Described first sensor is used for obtaining the first induction instruction that described telepilot changes in X-axis, and described the first induction instruction is sent to terminal by described transmitter;

Described the second sensor is used for obtaining the second induction instruction that described telepilot changes in Y-axis, and described the second induction instruction is sent to described terminal by described transmitter;

Described the 3rd sensor is used for obtaining the 3rd induction instruction that described telepilot changes at Z axis, and described the 3rd induction instruction is sent to described terminal by described transmitter;

Described four-sensor is used for obtaining described telepilot at surface level clockwise or the 4th induction instruction when being rotated counterclockwise, and will the described the 4th responds to instruction and is sent to described terminal by described transmitter;

Described pressure transducer is used for obtaining the user by button inputted definite instruction, delete instruction, advancement commands or retreats the 5th induction instruction corresponding to instruction, and described the 5th induction instruction is sent to described terminal by described transmitter;

Described transmitter is sent to described terminal with described the first induction instruction, described the second induction instruction, described the 3rd induction instruction, described the 4th induction instruction, the 5th induction instruction respectively, so that the instruction that described terminal response receives.

In conjunction with second aspect, in the possible implementation of the first, described telepilot comprises four pressure transducers.

In conjunction with second aspect and the possible implementation of the first, in the possible implementation of the second, described transmitter is wireless launcher.

The third aspect, the embodiment of the invention also provide a kind of equipment, comprising:

Above-mentioned arbitrary described terminal, and as above arbitrary described telepilot, described telepilot and described terminal interaction.

In conjunction with the third aspect, in the possible implementation of the first, described equipment is set-top box or display device.

Fourth aspect, the embodiment of the invention also provide the method for adjustment of display under a kind of three-dimensional play mode, comprising:

Receive the induction instruction that telepilot sends,

Obtain the adjustment information of more than one user interface UI element according to described induction instruction, from three-dimensional element database, obtain described more than one user interface UI element and adjust the demonstration of described more than one UI element according to described adjustment information.

In conjunction with fourth aspect, in the possible implementation of the first, the described adjustment information that obtains more than one user interface UI element according to described induction instruction is adjusted the demonstration of described more than one UI element according to described adjustment information, comprising:

If described induction instruction is for showing the induction instruction of the next UI element on the Z axis positive dirction, then obtain UI element on the Z axis of current demonstration according to described induction instruction, and the adjacent UI element on the Z axis positive dirction of the UI element on the Z axis of described current demonstration, and making UI element on the Z axis of described current demonstration at the Z axis losing side predeterminable range that moves up, described adjacent UI element is at the Z axis pros described predeterminable range that moves up.

As shown from the above technical solution, the method of adjustment of display under the terminal of the embodiment of the invention, telepilot and the three-dimensional play mode, terminal comprises three-dimensional element database, controller and receiver, receiver receives the induction instruction that telepilot sends, and then controller obtains the adjustment information of UI element one by one according to the induction instruction in three-dimensional element database, and then adjusts the demonstration on the more than one UI element.Above-mentioned terminal and telepilot are in conjunction with solving the problem that can't carry out the three-dimensional user interface regulation and control in the prior art under three-dimensional play mode.

Description of drawings

In order to be illustrated more clearly in technical scheme of the present invention, the below will do one to the accompanying drawing of required use among the embodiment and introduce simply, apparently: following accompanying drawing is the accompanying drawing of some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain to realize equally according to these accompanying drawings other accompanying drawing of technical solution of the present invention.

The structural representation of the terminal that Fig. 1 provides for one embodiment of the invention;

The structural representation of the telepilot that Fig. 2 provides for one embodiment of the invention;

The structural representation of the equipment that Fig. 3 provides for one embodiment of the invention;

The schematic flow sheet of the method for adjustment of display under the three-dimensional play mode that Fig. 4 provides for one embodiment of the invention;

The schematic diagram of the image change that the UI element in the three-dimensional element database that Fig. 5 provides for one embodiment of the invention forms;

The user that Fig. 6 A provides for one embodiment of the invention regulates and control the schematic diagram of telepilot;

The schematic diagram of the image change that the UI element in the three-dimensional element database that Fig. 6 B and Fig. 6 C provide for one embodiment of the invention forms.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the invention, technical scheme of the present invention is clearly and completely described.Obviously, each following embodiment is the embodiment of a part of the present invention.Based on each following embodiment of the present invention, those of ordinary skills are even without making creative work, also can be by equivalent transformation part even whole technical characterictics, and obtain to solve the technology of the present invention problem, realize other embodiment of the technology of the present invention effect, and these conversion and each embodiment of coming does not obviously break away from scope disclosed in this invention.

Fig. 1 shows the structural representation of the terminal that one embodiment of the invention provides, and as shown in Figure 1, the terminal 10 of the present embodiment comprises:

Three-dimensional element database 11, the controller 12 that is connected with described three-dimensional element database and the receiver 13 that is connected with described controller;

Wherein, described three-dimensional element database 11 comprises: more than one user interface UI element, and the described UI attribute of an element that is used for identifying the characteristic information of described UI element, and described each UI element has three-dimensional volume coordinate;

Described receiver 13 receives the image change induction instruction that is used to indicate described UI element composition that telepilot sends, and this receiver 13 is sent to described controller 12 with described induction instruction;

Described controller 12 obtains the adjustment information of more than one UI element according to described induction instruction, and obtains described more than one UI element and adjust the demonstration of described more than one UI element from described three-dimensional element database according to described adjustment information.The image change that thus, the UI element in the three-dimensional element element storehouse is formed.

For instance, if the induction instruction (as described below three induction instruction) of described induction instruction for showing the next UI element on the Z axis positive dirction, then obtain UI element on the Z axis of current demonstration according to described induction instruction, and the adjacent UI element on the Z axis positive dirction of the UI element on the Z axis of described current demonstration, and making UI element on the Z axis of described current demonstration at the Z axis losing side predeterminable range that moves up, described adjacent UI element is at the Z axis pros described predeterminable range that moves up.

Above-mentioned induction instruction can be the induction instruction (the first induction instruction as described below) that shows the next UI element on the X-axis positive dirction, perhaps, it can be the induction instruction (the second induction instruction as described below) that shows the next UI element on the Y-axis positive dirction, perhaps, can also be that surface level turns clockwise be the induction instruction (as described below the 4th induction instruction) of next UI element, perhaps, the 5th corresponding induction instruction etc. such as determine, delete, advance or retreat that can also to be the user send by telepilot.

That is to say, above-mentioned induction instruction is the user changes the image that the UI element forms in the current three-dimensional element database 11 by the needs of telepilot triggering concrete instruction.

Again for instance, receiver can be wireless receiver, such as bluetooth receiver module, WiFi receiver module etc.

It should be noted that, each the UI element in the three-dimensional element database can be that the associative operation personnel set in advance and arrange, and the UI attribute of an element also is that the user is predefined.

In the present embodiment, described UI attribute of an element comprises one or more in the following information:

The position coordinates of described UI element on 3-D walls and floor is such as the coordinate (X, Y, Z) of a certain UI element; The neighbours element of described UI element on 3-D walls and floor, adjacent with UI element 2, UI element 5 respectively such as UI element 1 on X-axis, and UI element 2 is in the front of UI element 1 (being the positive dirction of X-axis), and UI element 5 is in the back of UI element 1 (being the negative direction of X-axis) etc.;

The size of described UI element, shape, color, hyperlinked information etc.

In other embodiments, above-mentioned UI attribute of an element also can comprise: the operational attribute of each UI element, the operational attribute at this place can be regarded as the computing machine UI fundamental element that this UI element can normally show on 3D UI, as: the value scope, maximum character length, the check box size that allow input in input frame size, the input frame, picture, radio box, text box, drop-down list etc.

Should be understood that in actual applications, above-mentioned terminal has the default conditions of the UI element composition image in the three-dimensional element database.That is to say, when including the display device initial start of terminal, the image that can show default conditions is the image that the UI element in the three-dimensional element database forms.

By upper, the terminal of the present embodiment comprises three-dimensional element database, controller and receiver, receiver receives the induction instruction that telepilot sends, and then controller obtains the adjustment information of UI element one by one according to the induction instruction in three-dimensional element database, and then adjusts the demonstration on the more than one UI element.Above-mentioned terminal and telepilot are in conjunction with solving the problem that can't carry out the three-dimensional user interface regulation and control in the prior art under three-dimensional play mode.

In addition, terminal in the present embodiment can be used in conjunction with following telepilot, the user is under the 3D play mode, the user is by telepilot direct regulation and control terminal, so that the induction instruction that the terminal response telepilot sends, and then terminal changes the image that UI element in the three-dimensional element database forms, and reaching the purpose of the required image of user, and then can realize can directly carrying out the regulation and control of user interface under the 3D play mode.

Fig. 2 shows the structural representation of the telepilot that one embodiment of the invention provides, and as shown in Figure 2, the telepilot 20 of the present embodiment comprises:

First sensor 21, the second sensor 22, the 3rd sensor 23, four-sensor 24, the pressure transducer more than three 25;

The transmitter 26 that is connected with first sensor 21, the second sensor 22, the 3rd sensor 23, four-sensor 24, pressure transducer 25 more than three;

The button 28(that is connected with pressure transducer 25 such as OK button, cancel button, backspace button etc.); , the quantity of described button 28 is identical with the quantity of described pressure transducer 25;

The rotary part 27 that is connected with described four-sensor;

Described rotary part 27 is used for realizing that described telepilot receives surface level that the user triggers clockwise or the instruction that is rotated counterclockwise;

Described button 28 is used for realizing that described telepilot receives that the user triggers really that definiteness makes, delete instruction, advancement commands or retreat instruction;

Wherein, described first sensor 21 is used for obtaining the first induction instruction that telepilot changes in X-axis, and described the first induction instruction is sent to terminal 10(as shown in Figure 1 by described transmitter 26);

Described the second sensor 22 is used for obtaining the second induction instruction that described telepilot changes in Y-axis, and described the second induction instruction is sent to described terminal by described transmitter 26;

Described the 3rd sensor 23 is used for obtaining the 3rd induction instruction that described telepilot changes at Z axis, and described the 3rd induction instruction is sent to described terminal by described transmitter 26;

Described four-sensor 24 is used for obtaining described telepilot at surface level clockwise or the 4th induction instruction when being rotated counterclockwise, and will the described the 4th responds to instruction and is sent to described terminal by described transmitter 26;

Described pressure transducer 25 be used for obtaining described user by described button 28 input really that definiteness makes, delete instruction, advancement commands or retreat respectively corresponding the 5th induction instruction of instruction, will the described the 5th respond to instruction and be sent to described terminal by described transmitter 26;

Described transmitter 26 is sent to described terminal with described the first induction instruction, described the second induction instruction, described the 3rd induction instruction, described the 4th induction instruction, described the 5th induction instruction respectively, so that the instruction that described terminal response receives.

For instance, also can be the respectively corresponding parts such as button that user's touch-control is arranged of above-mentioned first sensor, the second sensor, the 3rd sensor, those buttons are used for realizing that described telepilot receives the dependent instruction that the user triggers.It should be noted that, the function of the button that the button that the first sensor at this place is corresponding, button, the 3rd sensor that the second sensor is corresponding are corresponding and the X-axis in the existing 2D telepilot, button that the Y-axis sensor is corresponding is basically identical, for convenience of description, this place is not described in detail.

Again for instance, above-mentioned telepilot can comprise four pressure transducers, correspondingly, and the button of the corresponding difference in functionality of each pressure transducer.In the practical application, the quantity of pressure transducer can arrange according to actual needs in the above-mentioned telepilot.

Above-mentioned transmitter can be wireless launcher, such as bluetooth sending module, WiFi sending module etc.

Above-mentioned telepilot can be handle etc.The telepilot of the present embodiment is the handheld device of built-in a plurality of sensors; Especially, be equipped with in the handheld device be used to the power supply that electric weight is provided, such as internal battery etc.

Usually, some parts that the user triggers telepilot are with the image that adjusts display device, and for example, the spinning movement of the rotary part of telepilot can realize the variation of the annular captions in the image of display device etc.

Telepilot in the present embodiment possesses up and down the perception that three axles successively move, and possesses surface level clockwise or the perception that is rotated counterclockwise, and can the perception user to the pressing and release movement of button, and then transmit in real time the induction instruction that above-mentioned telepilot is collected by transmitter.

In addition, understand for convenient, the present embodiment compares explanation with above-mentioned telepilot and 2D telepilot:

Three-axis sensor (such as first sensor 21, the second sensor 22, the 3rd sensor 23) is similar to the four direction key of 2D telepilot;

Button is similar to the OK button of 2D telepilot, cancel button and backspace button etc.

In conjunction with above-mentioned terminal and telepilot, scene when inputting for following spherical literal shown in Figure 5, on the UI of traditional 2D play mode, can there be the place (for example inputting a network address) that allows the user input, after the focus of mouse enters input frame, alternative characters (A～Z) appears on the UI, become planar alignment (horizontal or vertical), and on the UI of 3D play mode, the annular captions that just show a solid, circularize arrangement, then select to want the character inputted with the rotary part of telepilot, determine that with more than one button the character of selection gets final product.

Be understandable that, comprise that the equipment of terminal and telepilot is when initial the startup, the image that can show the default conditions that formed by the UI element in the three-dimensional element database in the terminal, at this moment, a UI element can be arranged as the current selected highlighted demonstration of UI element, such as the letter among Fig. 5 " Y " for choosing letter to be confirmed, the surface level of telepilot clockwise rotates, can make terminal receive corresponding instruction shows UI element relevant in the three-dimensional element database, as the level of UI element corresponding to annular captions (such as the letter among Fig. 5) is clockwise rotated, to change the letter of current highlighted demonstration.

Confirm that the letter of current highlighted demonstration chooses if the user presses button 1 in the telepilot, so that the letter that terminal will current highlighted demonstration appends in input frame, action of input alphabet etc. is finished in button 2 affirmations of pressing in the telepilot.

Fig. 3 shows the structural representation of the equipment that one embodiment of the invention provides; The equipment of the present embodiment can comprise above-mentioned telepilot 20 and terminal 10, and wherein, telepilot 20 and terminal 10 are mutual.

But the telepilot 20 in the reality and terminal 10 wireless connections.

For instance, above-mentioned equipment can be set-top box or display device etc.

The equipment of the present embodiment can solve the problem that can't carry out three-dimensional user interface regulation and control in the prior art under three-dimensional play mode.The image that the said equipment can allow user's direct regulation and control under the 3D play mode show.

Fig. 4 shows the schematic flow sheet of the method for adjustment of display under the three-dimensional play mode that one embodiment of the invention provides, and as shown in Figure 4, the method for adjustment of display comprises under the three-dimensional play mode in the present embodiment:

401, the terminal in the display receives the induction instruction that telepilot sends;

402, the terminal in the display obtains the adjustment information of more than one user interface UI element according to described induction instruction, obtains described more than one UI element and adjust the demonstration of described more than one UI element from three-dimensional element database according to described adjustment information.

In a kind of preferred implementation, step 402 can specifically comprise:

If described induction instruction is for showing the induction instruction of the next UI element on the Z axis positive dirction, then obtain UI element on the Z axis of current demonstration according to described induction instruction, and the adjacent UI element on the Z axis positive dirction of the UI element on the Z axis of described current demonstration, and making UI element on the Z axis of described current demonstration at the Z axis losing side predeterminable range that moves up, described adjacent UI element is at the Z axis pros described predeterminable range that moves up.

Shown in Fig. 6 A to Fig. 6 C, what show among Fig. 6 A is that the user sends the induction instruction by telepilot, rotates rotary part such as the runner on the handle that turns clockwise such as the user, namely sends the induction instruction that shows the next UI element on the Z axis positive dirction.

In the image that current UI element forms, shown in Fig. 6 B, element 2 and element 3 are adjacent element on the Y-axis in the three-dimensional element database, and element 1 and element 3 are adjacent element on the Z axis in the three-dimensional element database, and element 3 is in the place ahead of element 1 (being on the Z axis positive dirction);

Current, current demonstration is element 1 in the image that the UI element forms in the three-dimensional element database, if what terminal received is the induction instruction that shows the next UI element on the Z axis positive dirction, then terminal is obtained the UI element 1 on the Z axis of current demonstration according to described induction instruction, and the adjacent UI element 3 on the Z axis positive dirction that obtains the UI element on the Z axis of current demonstration, make UI element 1 on the Z axis of current demonstration at the Z axis losing side predeterminable range that moves up, adjacent UI element 3 is at the Z axis pros described predeterminable range that moves up, shown in Fig. 6 C.

It should be noted that at last: above each embodiment is not intended to limit only in order to technical scheme of the present invention to be described; Although with reference to aforementioned each embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps some or all of technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a terminal is characterized in that, comprising:

Three-dimensional element database, the controller that is connected with described three-dimensional element database is with the receiver that is connected with described controller;

Wherein, described three-dimensional element database comprises more than one user interface UI element, and the described UI attribute of an element that is used for identifying the characteristic information of described UI element, and described each UI element has three-dimensional volume coordinate;

Described receiver receives the induction instruction of the image change of the described UI element composition of being used to indicate of telepilot transmission, and described receiver is sent to described controller with described induction instruction;

Described controller obtains the adjustment information of more than one UI element according to described induction instruction, and obtains described more than one UI element and adjust the demonstration of described more than one UI element from described three-dimensional element database according to described adjustment information.

2. terminal according to claim 1 is characterized in that,

Described UI attribute of an element comprises one or more in the following information:

The position coordinates of described UI element on 3-D walls and floor;

The neighbours element of described UI element on 3-D walls and floor;

The size of described UI element;

The shape of described UI element;

The color of described UI element;

The hyperlinked information of described UI element.

3. terminal according to claim 1 and 2 is characterized in that, described receiver is wireless receiver.

4. a telepilot is characterized in that, comprising:

First sensor, the second sensor, the 3rd sensor, four-sensor, the pressure transducer more than three;

With first sensor, the second sensor, the 3rd sensor, four-sensor with the transmitter that is connected of the pressure transducer more than being connected;

The rotary part that is connected with described four-sensor;

With the button that described pressure transducer is connected, the quantity of described button is identical with the quantity of described pressure transducer;

Wherein, described rotary part is used for realizing that described telepilot receives surface level that the user triggers clockwise or the instruction that is rotated counterclockwise;

Described button is used for realizing that described telepilot receives that the user triggers really that definiteness makes, delete instruction, advancement commands or retreat instruction;

Described first sensor is used for obtaining the first induction instruction that described telepilot changes in X-axis, and described the first induction instruction is sent to terminal by described transmitter;

Described the second sensor is used for obtaining the second induction instruction that described telepilot changes in Y-axis, and described the second induction instruction is sent to described terminal by described transmitter;

Described the 3rd sensor is used for obtaining the 3rd induction instruction that described telepilot changes at Z axis, and described the 3rd induction instruction is sent to described terminal by described transmitter;

Described four-sensor is used for obtaining described telepilot at surface level clockwise or the 4th induction instruction when being rotated counterclockwise, and will the described the 4th responds to instruction and is sent to described terminal by described transmitter;

Described pressure transducer is used for obtaining the user by button inputted definite instruction, delete instruction, advancement commands or retreats the 5th induction instruction corresponding to instruction, and described the 5th induction instruction is sent to described terminal by described transmitter;

Described transmitter is sent to described terminal with described the first induction instruction, described the second induction instruction, described the 3rd induction instruction, described the 4th induction instruction, the 5th induction instruction respectively, so that the instruction that described terminal response receives.

5. telepilot according to claim 4 is characterized in that, described telepilot comprises four pressure transducers.

6. according to claim 4 or 5 described telepilots, it is characterized in that, described transmitter is wireless launcher.

7. an equipment is characterized in that, comprising: the as above arbitrary described terminal of claims 1 to 3, and as above claim 4 to 6 arbitrary described telepilot, described telepilot and described terminal interaction.

8. equipment according to claim 7 is characterized in that, described equipment is set-top box, perhaps display device.

9. the method for adjustment of display under the three-dimensional play mode is characterized in that, comprising:

Receive the induction instruction that telepilot sends,

Obtain the adjustment information of more than one user interface UI element according to described induction instruction, from three-dimensional element database, obtain described more than one user interface UI element and adjust the demonstration of described more than one UI element according to described adjustment information.

10. method according to claim 9 is characterized in that, the described adjustment information that obtains more than one user interface UI element according to described induction instruction is adjusted the demonstration of described more than one UI element according to described adjustment information, comprising:

If described induction instruction is for showing the induction instruction of the next UI element on the Z axis positive dirction, then obtain UI element on the Z axis of current demonstration according to described induction instruction, and the adjacent UI element on the Z axis positive dirction of the UI element on the Z axis of described current demonstration, and making UI element on the Z axis of described current demonstration at the Z axis losing side predeterminable range that moves up, described adjacent UI element is at the Z axis pros described predeterminable range that moves up.

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