CN103853419A

CN103853419A - Method and electronic equipment for information processing

Info

Publication number: CN103853419A
Application number: CN201210515030.7A
Authority: CN
Inventors: 黄希煌
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2012-12-04
Filing date: 2012-12-04
Publication date: 2014-06-11
Anticipated expiration: 2032-12-04
Also published as: CN103853419B

Abstract

The invention discloses a method and electronic equipment for information processing. At least two display objects comprising a first display object are displayed on a display unit of the electronic equipment. The method comprises the following steps: detecting and obtaining a first command for determining the position of the first display object on a longitudinal axis when a control focus is on a second display object different from the first display object in the at least two display objects; responding to the first command, and determining the first position of the first display object on the longitudinal axis to be the M-th line; detecting and obtaining a second command for determining the position of the first display object on a transverse axis; responding to the second command, and determining the second position of the first display object on the transverse axis to be the N-th row; switching the control focus to the first display object from the second display object based on the first position and the second position.

Description

The method of information processing and electronic equipment

Technical field

The present invention relates to field of computer technology, relate in particular to a kind of method and electronic equipment of information processing.

Background technology

Along with the development of electronic device technology and computer technology, on the display unit of existing electronic equipment, can show multiple demonstration objects, user can, by remote terminal carrying out more at a distance to select some demonstration objects in described multiple demonstration object, also can improve user's experience in being user-friendly to.

Such as: while showing multiple played file on existing intelligent television, can carry out Focal Point Shift up and down by remote terminal, choose the some played file in described multiple played file by described Focal Point Shift, in the time having selected to want the first played file of demonstration, confirm operation by definite key of centre again, thereby can on described intelligent television, show described the first played file.

Present inventor is realizing in the process of the embodiment of the present application technical scheme, at least finds to exist in prior art following technical matters:

On the display unit of existing electronic equipment, show multiple demonstration objects, and in the time operating described multiple demonstration object by remote terminal, existence need to repeatedly respond, control focus could be adjusted to the technical matters that target shows object, at this moment because show multiple demonstration object in described demonstration time, described remote terminal can only carry out Focal Point Shift up and down, cause repeatedly moving and described control focus could be adjusted to described target demonstration object, and then cause user to use inconvenience, experience poor.

Summary of the invention

The embodiment of the present application provides a kind of method and electronic equipment of information processing, show multiple demonstration objects in order to solve on the display unit of existing electronic equipment, and in the time operating described multiple demonstration object by remote terminal, existence need to repeatedly respond, and control focus could be adjusted to the technical matters that target shows object.

The embodiment of the present application provides a kind of method of information processing, application one has in the electronic equipment of display unit, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, and the longitudinal axis is that N is capable, wherein, M and N are all the integer that is more than or equal to 1, and described method comprises:

In the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, detect the first instruction obtaining for definite described the first position of demonstration object on the described longitudinal axis;

Respond described the first instruction, determine that described first shows that the primary importance of object on the described longitudinal axis is described M row;

Detect and obtain for determining that described first shows the second instruction of the position of object on described transverse axis;

Respond described the second instruction, determine that described first shows that the second place of object on described transverse axis is that described N is capable;

Based on described primary importance and the described second place, described control focus is shown to object is switched to described first and shows object from described second.

Optionally, before described detection obtains the first instruction for determining described the first position of demonstration object on the described longitudinal axis, described method also comprises: the first sight line parameter that obtains the first user corresponding with described electronic equipment by image acquisition units collection; Based on described the first sight line parameter, show that from described at least two object, determining described first shows object; Obtain described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system.

Optionally, described in obtain described first and show object corresponding described first coordinate parameters in the first coordinate system, specifically comprise: described in obtaining, at least two show first distribution parameter of object on described display unit; Based on described the first distribution parameter, set up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis; Obtain described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system.

Optionally, described in obtain described first and show object corresponding first coordinate parameters in the first coordinate system, specifically comprise: described in obtaining, at least two show second distribution parameter of object on described display unit; Based on described the second distribution parameter, set up the described longitudinal axis; Obtain described first and show that object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists; Based on described M row, set up described transverse axis, make described first to show that object is arranged on an axis of described transverse axis; Obtain described first and show that object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable; Based on the described longitudinal axis and described transverse axis, set up described the first coordinate system; Based on described primary importance and the described second place, obtain described first coordinate parameters of described the first demonstration object.

Optionally, it is described in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis, specifically comprise: in the time showing that second in object shows on object for described at least two, judge that described second shows that object and described first shows that whether object is identical in control focus; In the time that described second shows object and described first shows that object is different, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

Optionally, it is described in the time that described second shows object and described first shows that object is different, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis, specifically comprise: in the time that described second shows object and described first shows that object is different, based on the first default corresponding relation prestoring in described electronic equipment, obtain with described M and be listed as corresponding first signal; In the time of the first signal receiving from the second electronic equipment, based on described first signal, generate the first instruction.

Optionally, described detection obtains for determining that described first shows the second instruction of the position of object on the described longitudinal axis, specifically comprises: based on the second default corresponding relation prestoring in described electronic equipment, obtain the capable corresponding secondary signal with described N; In the time of the secondary signal receiving from described the second electronic equipment, based on described secondary signal, generate the second instruction.

Optionally, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, described method also comprises: obtain described first and show first display position of object on described display unit; Show described the first coordinate parameters at described the first display position.

The application one embodiment provide a kind of electronic equipment, described electronic equipment comprises display unit, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, and the longitudinal axis is that N is capable, wherein, M and N are all the integer that is more than or equal to 1, and described electronic equipment comprises:

The first instruction obtains unit, in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, for detection of the first instruction obtaining for determining described the first position of demonstration object on the described longitudinal axis;

The first instruction response unit, for responding described the first instruction, to determine that described first shows that the primary importance of object on the described longitudinal axis is listed as described M;

The second instruction obtains unit, for detection of obtaining for determining that described first shows the second instruction of the position of object on described transverse axis;

The second instruction response unit, for responding described the second instruction, to determine that described first shows that the second place of object on described transverse axis is listed as described N;

Adjustment unit, based on described primary importance and the described second place, for described control focus is shown to object is switched to described first and shows object from described second.

Optionally, described electronic equipment comprises that coordinate obtains unit, before described detection obtains the first instruction for determining described the first position of demonstration object on described the first axle, for obtain the first sight line parameter of the first user corresponding with described electronic equipment by image acquisition units collection, and based on described the first sight line parameter, show object for determining described first from described at least two demonstration objects, and show that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

Optionally, described coordinate obtains unit and comprises that the first coordinate obtains subelement, described in being used for obtaining, at least two show first distribution parameter of object on described display unit, based on described the first distribution parameter, be used for setting up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis, and shows that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

Optionally, described coordinate obtains unit and comprises that the second coordinate obtains subelement, described in being used for obtaining, at least two show second distribution parameter of object on described display unit, based on described the second distribution parameter, be used for setting up the described longitudinal axis, show that for obtaining described first object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists, again based on described M row, be used for setting up described transverse axis, make described first to show that object is arranged on an axis of described transverse axis, show that for obtaining described first object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable, based on the described longitudinal axis and described transverse axis, be used for setting up described the first coordinate system, based on described primary importance and the described second place, for obtaining described first coordinate parameters of described the first demonstration object.

Optionally, described electronic equipment comprises the first display unit, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, show first display position of object on described display unit for obtaining described first, and for showing described the first coordinate parameters at described the first display position.

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

One, because the embodiment of the present application is demarcated described the first demonstration object by described the first coordinate system, in the time that control focus shows that from described second object is adjusted to described the first demonstration object, because described the first demonstration object first corresponding coordinate parameters in described the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, described electronic equipment only need be responded 2 times, just described control focus can be adjusted to described first from described the second demonstration object and show object, show multiple demonstration objects in order to solve on the display unit of existing electronic equipment, and in the time operating described multiple demonstration object by remote terminal, existence need to repeatedly respond, control focus could be adjusted to the technical matters that target shows object, and then realized described electronic equipment only respond just described control focus can be adjusted to for 2 times target show object, operate simpler technique effect, more convenient user is used, user experiences better.

They are two years old, because the embodiment of the present application is in the time setting up described the first coordinate system, that the second distribution parameter on described demonstration object is set up the longitudinal axis by described at least two demonstration objects, showing that by described first the M of object on the described longitudinal axis is listed as to set up transverse axis, and it is capable to obtain described the first N of demonstration object on described transverse axis, without showing that to described at least two in object, each demonstration object is demarcated, make the numerical value of described M and described N less, make in the time carrying out toggle control focus by telepilot, button still less, make user's more convenient operation, user's experience is better.

They are three years old, because the embodiment of the present application is after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, obtain described first and show first display position of object on described display unit, wherein, described the first display position is that the described longitudinal axis is that M row are the capable crossing position of N with described transverse axis, and described the first coordinate parameters is presented to described the first display position, obtain more intuitively described the first coordinate parameters so that obtain user, then select described first by described telepilot and show object, further facilitating user uses, make user's experience better.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the method for information processing in the embodiment of the present application;

Fig. 2 is the structural drawing that has multiple demonstration objects in the embodiment of the present application on display unit;

Fig. 3 is the structural drawing of setting up in Fig. 2 after the longitudinal axis;

Fig. 4 is the structural drawing of setting up in Fig. 3 after transverse axis;

Fig. 5 sets up the structural drawing after the longitudinal axis and transverse axis in Fig. 2 simultaneously;

Fig. 6 is the structural representation of electronic equipment in the embodiment of the present application.

Embodiment

The technical scheme of the embodiment of the present application is the problem that solves above-mentioned technology, and general thought is as follows:

Because the embodiment of the present application is demarcated described the first demonstration object by described the first coordinate system, in the time that control focus shows that from described second object is adjusted to described the first demonstration object, because described the first demonstration object first corresponding coordinate parameters in described the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, described electronic equipment only need be responded 2 times, just described control focus can be adjusted to described first from described the second demonstration object and show object, show multiple demonstration objects in order to solve on the display unit of existing electronic equipment, and in the time operating described multiple demonstration object by remote terminal, existence need to repeatedly respond, control focus could be adjusted to the technical matters that target shows object, and then realized described electronic equipment only respond just described control focus can be adjusted to for 2 times target show object, operate simpler technique effect, more convenient user is used, user experiences better.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

The application one embodiment provides a kind of method of information processing, application one has in the electronic equipment of display unit, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, and wherein, M and N are all the integer that is more than or equal to 1.

Wherein, described electronic equipment is for example the electronic equipments such as panel computer, notebook computer, intelligent TV set, and further, described display unit is for example the electronic equipments such as LCDs, LED touch-screen, LCD touch-screen.

Please refer to Fig. 1, described method comprises:

Step 101: in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, detect the first instruction obtaining for definite described the first position of demonstration object on the described longitudinal axis;

Step 102: respond described the first instruction, determine that described first shows that the primary importance of object on the described longitudinal axis is described M row;

Step 103: detect and obtain for determining that described first shows the second instruction of the position of object on described transverse axis;

Step 104: respond described the second instruction, determine that described first shows that the second place of object on described transverse axis is that described N is capable;

Step 105: based on described primary importance and the described second place, described control focus is shown to object is switched to described first and shows object from described second.

Wherein, before execution step 101,, before described detection obtains the first instruction for determining described the first position of demonstration object on the described longitudinal axis, described method also comprises: the first sight line parameter that obtains the first user corresponding with described electronic equipment by image acquisition units collection; Based on described the first sight line parameter, show that from described at least two object, determining described first shows object; Obtain described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system.

Wherein, described image acquisition units is for example video camera, the first-class electronic equipment of making a video recording, described image acquisition units can be built in described electronic equipment, can also arrange separately, is connected with described electronic equipment by wire communication mode and/or communication.

In specific implementation process, described the first sight line parameter comprises the focusing parameter of eyes and the sight line moving parameter of described first user of described first user, gather the first sight line parameter of described first user by image acquisition units, by analyzing described focusing parameter and described sight line moving parameter, can show that object, determining described first shows object from described at least two, and then obtain described first coordinate parameters of described the first demonstration object in described the first coordinate system.

In actual application, take intelligent TV set as example, when the display screen of described intelligent TV set shows A, B, when tetra-of C and D show object, can be by focusing parameter and the sight line moving parameter of camera collection first user eyes built-in in described intelligent TV set, based on described focusing parameter, can show object and determine that at least one shows object from described four, based on described sight line moving parameter, can from described at least one demonstration object, obtain the first the longest demonstration object of the sight line residence time of first user, show, described first shows that object is described the first demonstration object.Such as: first user is watched A attentively and is shown object 1 second, has watched B demonstration object attentively 0.5 second and watched D attentively to show object 3 seconds, and described first shows that object is that described D shows object, more accurate with described the first demonstration object that described electronic equipment is obtained.

In specific implementation process, described in obtain described first and show object corresponding first coordinate parameters in the first coordinate system, specifically comprise: described in obtaining, at least two show second distribution parameter of object on described display unit; Based on described the second distribution parameter, set up the described longitudinal axis; Obtain described first and show that object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists; Based on described M row, set up described transverse axis, make described first to show that object is positioned on described transverse axis; Obtain described first and show that object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable; Based on the described longitudinal axis and described transverse axis, set up described the first coordinate system; Based on described primary importance and the described second place, obtain described first show object described the first coordinate parameters.

Specifically, first obtain the second distribution parameter of at least two demonstration objects on described display unit, based on described the second distribution parameter, set up the described longitudinal axis, the described longitudinal axis comprises at least one axis, and described at least two show that object is all distributed on described at least one axis, obtain described first and show that object is positioned at the primary importance on the described longitudinal axis, wherein, the M that described primary importance is positioned on the described longitudinal axis lists, based on described M row, set up described transverse axis, make described first to show described in object on an axis in transverse axis, obtain described first and show that object is positioned at the second place on described transverse axis, and the described second place is on the N of described transverse axis is capable, based on the described longitudinal axis and described transverse axis, set up described the first coordinate system, based on described primary importance and the described second place, obtain described first coordinate parameters of described the first demonstration object.

In specific implementation process, take intelligent television as example, referring to Fig. 2, on the display screen 20 of described intelligent television, show multiple demonstration objects 21, show object 22 and first user is watched attentively for first in multiple demonstration objects 21, multiple demonstration objects 21 become longitudinal axis ordered arrangement on display screen 20, multiple demonstration objects become longitudinal axis lack of alignment on display screen 20, based on described longitudinal axis ordered arrangement and described longitudinal axis lack of alignment, make described the second distribution parameter obtaining comprise described longitudinal axis ordered arrangement and described longitudinal axis lack of alignment, because multiple demonstration objects 21 become longitudinal axis ordered arrangement on display screen 20, therefore, can first set up the longitudinal axis in described the first coordinate system, also can first set up the transverse axis in described the first coordinate system, in the embodiment of the present application first to set up the longitudinal axis as example.

Wherein, referring to Fig. 3, for Fig. 2 sets up the structural drawing after the longitudinal axis.The described longitudinal axis comprises axis 1, axis 2, axis 3, axis 4 and axis 5 these 5 axis, each in multiple demonstration objects 21 shows that object is distributed on described 5 axis, wherein, first shows on the axis 4 of object 22 on the described longitudinal axis,, described M classifies axis 4 as, based on axis 4, sets up the transverse axis in described the first coordinate system.Wherein, for making the numerical value of described M less, the described longitudinal axis can also start left from the right to arrange, so, make described M classify axle 2 as, just can determine that with a digital keys described first shows the position of object on the described longitudinal axis by telepilot so that obtain user.

Further, referring to Fig. 4, for Fig. 3 sets up the structural drawing after transverse axis.Described transverse axis comprises these 4 axis of axis a, axis b, axis c and axis d, first shows on the axis c of object 22 on described transverse axis,, described N behavior axis c, based on the described longitudinal axis and described transverse axis, set up described the first coordinate system, on the axis c based on the first demonstration object 22 on described transverse axis and on the axis 4 of the first demonstration object 22 on the described longitudinal axis, first coordinate parameters that can obtain the first demonstration object 22 for (4, c).Wherein, for making the numerical value of described N less, described transverse axis can also start to arrange from bottom to top, so, make described N behavior axle b, just can determine that with a digital keys described first shows the position of object on described transverse axis by telepilot so that obtain user.

After obtaining the first coordinate parameters of described the first demonstration object, next perform step 101, in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, detect the first instruction obtaining for definite described the first position of demonstration object on the described longitudinal axis.In specific implementation process, in the time showing that second in object shows on object for described at least two, judge that described second shows that object and described first shows that whether object is identical in control focus; In the time that described second shows object and described first shows that object is different, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

Specifically, first determine the 3rd position at described control focus place, show object and obtain in second of described the 3rd position and show object from described at least two, can be whether identical by detecting the position corresponding with described the first coordinate parameters, described the 3rd position, judge that with this described second shows that object and described first shows that whether object is identical, when identical in the position corresponding with described the first coordinate parameters, described the 3rd position, can judge that described second shows that object and described first shows that object is identical; If when the position corresponding with described the first coordinate parameters, described the 3rd position is not identical, can judge that described second shows that object and described first shows that object is not identical, then detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

In actual application, referring to Fig. 2, described control focus shows on object 23 at second of multiple demonstration objects 21, second shows that object 23 is positioned at the upper left side of display screen 20, and the first demonstration object 22 is positioned at the middle position, the right of display unit 20, therefore, can judge that the first display degree likes sad 22 and second to show that object 23 is not identical, then detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

In specific implementation process, it is described in the time that described second shows object and described first shows that object is different, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis, specifically comprise: in the time that described second shows object and described first shows that object is different, based on the first default corresponding relation prestoring in described electronic equipment, obtain with described M and be listed as corresponding first signal; In the time of the first signal receiving from the second electronic equipment, based on described first signal, generate the first instruction.

Wherein, the described first default corresponding relation is the corresponding relation of each axis in different signal and the described longitudinal axis, makes can determine on which axis of described the first demonstration object on the described longitudinal axis by described different signal.Referring to Fig. 3, the described first default corresponding relation can be for example: the signal of the corresponding numerical value 1 of axis 1, the signal of the corresponding numerical value 2 of axis 2, the signal of the corresponding numerical value 3 of axis 3, the signal of the corresponding numerical value 4 of axis 4, the signal of the corresponding numerical value 5 of axis 5.

Specifically, because each axis in the described longitudinal axis is corresponding from different signals, therefore, can determine the position of described the first display unit on the described longitudinal axis by signal, send corresponding signal to described electronic equipment at described the second electronic equipment, make described electronic equipment can identify the axis of the described longitudinal axis corresponding with described signal, so that described electronic equipment receive from described second electronic equipment send first signal time, based on described first signal, described electronic equipment generates the first instruction automatically.

In actual application, take intelligent TV set as example, referring to Fig. 3, if the described first default corresponding relation can be: the signal of the corresponding numerical value 1 of axis 1, the signal of the corresponding numerical value 2 of axis 2, the signal of the corresponding numerical value 3 of axis 3, the signal of the corresponding numerical value 4 of axis 4, when the signal of the corresponding numerical value 5 of axis 5, can determine that first shows the position of object 22 on the described longitudinal axis by the digital keys on telepilot, because the first demonstration object 22 is on axis 4, and axis 4 is corresponding with numerical value 4, therefore, the button that can be 4 by the numeral by described telepilot, when the button that is 4 in described numeral is pressed, described intelligent TV set can be received the first signal corresponding with described numerical value 4, make described intelligent TV set can identify described first signal, regeneration the first instruction.

Next perform step 102, in this step, respond described the first instruction, determine that described first shows that the primary importance of object on the described longitudinal axis is described M row.In specific implementation process, owing to storing the corresponding relation of each axis in different signals and the described longitudinal axis in the described first default corresponding relation, therefore, in the time of described the first instruction of response, can pass through described first signal, determine that described first shows that the primary importance of object on the described longitudinal axis is described M row.

In actual application, referring to Fig. 3, when the button that is 4 by the numeral on the definite described telepilot of step 101 is pressed, described intelligent TV set can be received the first signal corresponding with described numerical value 4, signal correspondence based on described the first corresponding numerical value 4 in preset relation axis 4, known again, and first shows that the primary importance of object 22 on the described longitudinal axis is axis 4, wherein, described M classifies axis 4 as.

Next perform step 103, in this step, detect and obtain for determining that described first shows the second instruction of the position of object on described transverse axis.In specific implementation process, based on the second default corresponding relation prestoring in described electronic equipment, obtain the capable corresponding secondary signal with described N; In the time of the secondary signal receiving from described the second electronic equipment, based on described secondary signal, generate the second instruction.

Wherein, the described second default corresponding relation is the corresponding relation of each axis in different signal and described transverse axis, makes can determine on which axis of described the first demonstration object on described transverse axis by described different signal.

Specifically, because each axis in the described longitudinal axis is corresponding from different signals, therefore, can determine the position of described the first display unit on the described longitudinal axis by signal, send corresponding signal to described electronic equipment at described the second electronic equipment, make described electronic equipment can identify the axis of the described transverse axis corresponding with described signal, so that described electronic equipment receive from described second electronic equipment send secondary signal time, based on described secondary signal, described electronic equipment generates the second instruction automatically.

In actual application, take intelligent TV set as example, referring to Fig. 4, if the described first default corresponding relation can be: the signal of the corresponding numerical value 1 of axis a, the signal of the corresponding numerical value 2 of axis b, the signal of the corresponding numerical value 3 of axis c, when the signal of the corresponding numerical value 4 of axis d, can determine that first shows the position of object 22 on described transverse axis by the digital keys on telepilot, because the first demonstration object 22 is on axis c, and axis c is corresponding with numerical value 3, therefore, the button that can be 3 by the numeral by described telepilot, when the button that is 3 in described numeral is pressed, described intelligent TV set can be received the secondary signal corresponding with described numerical value 3, make described intelligent TV set can identify described secondary signal, regeneration the second instruction.

Next perform step 104, in this step, respond described the second instruction, determine that described first shows that the second place of object on described transverse axis is that described N is capable.In specific implementation process, owing to storing the corresponding relation of each axis in different signals and described transverse axis in the described second default corresponding relation, therefore, in the time of described the second instruction of response, can be by described secondary signal, determine that described first shows that the primary importance of object on described transverse axis is that described N is capable.

In actual application, referring to Fig. 4, when the button that is 3 by the numeral on the definite described telepilot of step 103 is pressed, described intelligent TV set can receive the secondary signal corresponding with described numerical value 3, signal correspondence based on the corresponding numerical value 3 of described the first preset relation axis c, known again, and first shows that the primary importance of object 22 on described transverse axis is axis c, wherein, described N behavior axis c.

Next perform step 105, in this step, based on described primary importance and the described second place, described control focus is shown to object is switched to described first and shows object from described second.In specific implementation process, in the time setting up described transverse axis and the described longitudinal axis, set up described the first coordinate system, make can determine that by described primary importance and the described second place described first shows the position of object, therefore, described control focus can be shown to object is switched to described first and shows object from described second.

In actual application, referring to Fig. 4, because the coordinate parameters of the first demonstration object 22 in described the first coordinate system is (4, c), , first shows the axis c crossing position of object 22 at axis 4 and the described longitudinal axis of described transverse axis, in the time that described intelligent TV set receives button that the numeral of telepilot is 4 and is pressed the first signal sending, axis 4 is demarcated, in the time that described intelligent TV set receives button that the numeral of described telepilot is 3 and is pressed the secondary signal sending, axis c is demarcated, thereby described intelligent television can be demarcated axis 4 and the crossing position of axis c, thereby described control can be adjusted to the first display position 22 from the second display position 23.

In another embodiment, described in obtain described first and show object corresponding described first coordinate parameters in the first coordinate system, specifically comprise: described in obtaining, at least two show first distribution parameter of object on described display unit; Based on described the first distribution parameter, set up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis; Obtain described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system.

In specific implementation process, after obtaining described the first distribution parameter, set up described the first coordinate system, described in making, at least two show that in object, each shows that object has different coordinates, at described the first coordinate parameters that obtains described the first demonstration object correspondence in described the first coordinate system.

In actual application, with reference to figure 5, described the first coordinate system comprises transverse axis and the longitudinal axis, described transverse axis comprises axis 1, axis 2, axis 3, axis 4 and axis 5, the described longitudinal axis comprises axis a, axis b, axis c, axis d and axis e, can demarcate the multiple demonstration objects 21 that are presented on the display screen 20 of intelligent TV set by described transverse axis and the described longitudinal axis, make each the demonstration object in multiple demonstration objects 21 there is different coordinates, can demarcate each the demonstration object in demonstration object 21 by described different coordinate, the first coordinate parameters that obtains the first demonstration object 22 is (4, d).

After obtaining described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system, can perform step successively 101 to step 105, thereby described control focus can be shown to object is switched to described first and shows object from described second, specific implementation is with reference to the above-mentioned statement to step 105 to step 101, succinct for instructions, has just repeated no more at this.

After obtaining described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system, in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, can also first perform step 103 to step 104, and then execution step 101 is to step 102, finally perform step 105, described control focus can be shown to object is switched to described first and shows object from described second equally.In actual application, with reference to figure 5, first shows that the first coordinate parameters of object 22 is (4, d), due to the first instruction of the first position of demonstration object 22 on described transverse axis first obtaining, can be that 4 button sends the second information to intelligent television by pressing numeral in telepilot, described intelligent television can be identified on the axis d of the first demonstration object on described transverse axis, be that 4 button sends the first information to described intelligent television by pressing numeral in telepilot again, described intelligent television can be identified on the axis 4 of the first demonstration object on the described longitudinal axis, thereby can determine that the first demonstration object 22 is in axis d and the crossing position of axis c, make described control focus to be switched to the first demonstration object 22 from the second display position 23.

In another embodiment, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, described method also comprises: obtain described first and show first display position of object on described display unit; Show described the first coordinate parameters at described the first display position.

In specific implementation process, based on the first coordinate parameters of described the first demonstration object, obtain described first and show first display position of object on described display unit, wherein, described the first display position is that the described longitudinal axis is that M row are the capable crossing position of N with described transverse axis, described the first coordinate parameters is presented to described the first display position, obtain more intuitively described the first coordinate parameters so that obtain user, then select described first by described telepilot and show object, further facilitate user and use, make user's experience better.

They are two years old, because the embodiment of the present application is in the time setting up described the first coordinate system, that the second distribution parameter on described demonstration object is set up the longitudinal axis by described at least two demonstration objects, showing that by described first the M of object on the described longitudinal axis is listed as to set up transverse axis, and it is capable to obtain described the first N of demonstration object on described transverse axis, without showing that to described at least two in object, each demonstration object is demarcated, make the numerical value of described M and described N less, make in the time carrying out toggle control focus by telepilot, button still less, make user's more convenient operation, user's experience is better

The application one embodiment provide a kind of electronic equipment, described electronic equipment has display unit, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, and wherein, M and N are all the integer that is more than or equal to 1.

Referring to Fig. 6, this electronic equipment comprises that the first instruction obtains unit 601, in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, for detection of the first instruction obtaining for determining described the first position of demonstration object on the described longitudinal axis; The first instruction response unit 602, for responding described the first instruction, to determine that described first shows that the primary importance of object on the described longitudinal axis is listed as described M; The second instruction obtains unit 603, for detection of obtaining for determining that described first shows the second instruction of the position of object on described transverse axis; The second instruction response unit 604, for responding described the second instruction, to determine that described first shows that the second place of object on described transverse axis is listed as described M; Adjustment unit 605, based on described primary importance and the described second place, for described control focus is shown to object is switched to described first and shows object from described second.

Further, described electronic equipment comprises that coordinate obtains unit, before described detection obtains the first instruction for determining described the first position of demonstration object on the described longitudinal axis, for obtain the first sight line parameter of the first user corresponding with described electronic equipment by image acquisition units collection, and based on described the first sight line parameter, show object for determining described first from described at least two demonstration objects, and show that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

Further, described coordinate obtains unit and comprises that the second coordinate obtains subelement, described in being used for obtaining, at least two show second distribution parameter of object on described display unit, based on described the second distribution parameter, be used for setting up the described longitudinal axis, show that for obtaining described first object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists, again based on described M row, be used for setting up described transverse axis, make described first to show that object is arranged on an axis of described transverse axis, show that for obtaining described first object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable, based on the described longitudinal axis and described transverse axis, be used for setting up described the first coordinate system, based on described primary importance and the described second place, for obtaining described first coordinate parameters of described the first demonstration object.

Further, the first instruction obtain unit 601 specifically for: in control focus in the time showing that second in objects show on objects for described at least two, be used for judging that described second shows that object and described first shows that whether object is identical, in the time that described second shows object and described first shows that object is different, for detection of obtaining for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

Further, the first instruction obtains unit 601 and comprises that the first instruction obtains subelement, in the time that described second shows object and described first shows that object is different, based on the first default corresponding relation of described electronic equipment, be listed as corresponding first signal for obtaining with described M, in the time of the first signal receiving from the second electronic equipment, based on described first signal, for generating the first instruction.

Further, the second instruction obtain unit 603 specifically for: based on the second default corresponding relation of described electronic equipment, be listed as corresponding secondary signal for obtaining with described M, in the time of the secondary signal receiving from described the second electronic equipment, based on described secondary signal, for generating the second instruction.

In another embodiment, described coordinate obtains unit and comprises that the first coordinate obtains subelement, described in being used for obtaining, at least two show first distribution parameter of object on described display unit, based on described the first distribution parameter, be used for setting up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis, and shows that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

In another embodiment, described electronic equipment also comprises display unit, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, show first display position of object on described display unit for obtaining described first, and show described the first coordinate parameters at described the first display position.

Although described the preferred embodiments of the present invention, once those skilled in the art obtain the basic creative concept of cicada, can make other change and modification to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the modification of the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification and not depart from the spirit and scope of the present invention the present invention.Like this, if within of the present invention these are revised and modification belongs to the scope of the claims in the present invention and equivalent technologies thereof, the present invention is also intended to comprise these changes and modification interior.

Claims

1. the method for an information processing, application one has in the electronic equipment of display unit, it is characterized in that, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, wherein, M and N are all the integer that is more than or equal to 1, and described method comprises:

2. the method for claim 1, is characterized in that, before described detection obtains the first instruction for determining described the first position of demonstration object on the described longitudinal axis, described method also comprises:

Obtain the first sight line parameter of the first user corresponding with described electronic equipment by image acquisition units collection;

Based on described the first sight line parameter, show that from described at least two object, determining described first shows object;

Obtain described first coordinate parameters of described the first demonstration object correspondence in described the first coordinate system.

3. method as claimed in claim 2, is characterized in that, described in obtain described first and show object corresponding described first coordinate parameters in the first coordinate system, specifically comprise:

Described in obtaining, at least two show first distribution parameter of object on described display unit;

Based on described the first distribution parameter, set up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis;

4. method as claimed in claim 2, is characterized in that, described in obtain described first and show object corresponding first coordinate parameters in the first coordinate system, specifically comprise:

Described in obtaining, at least two show second distribution parameter of object on described display unit;

Based on described the second distribution parameter, set up the described longitudinal axis;

Obtain described first and show that object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists;

Based on described M row, set up described transverse axis, make described first to show that object is arranged on an axis of described transverse axis;

Obtain described first and show that object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable;

Based on the described longitudinal axis and described transverse axis, set up described the first coordinate system;

Based on described primary importance and the described second place, obtain described first coordinate parameters of described the first demonstration object.

5. method as claimed in claim 4, it is characterized in that, it is described in the time that control focus is on described at least two the second demonstration objects different from described the first demonstration object that show in object, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis, specifically comprise:

In the time showing that second in object shows on object for described at least two, judge that described second shows that object and described first shows that whether object is identical in control focus;

In the time that described second shows object and described first shows that object is different, detect and obtain for determining that described first shows the first instruction of the position of object on the described longitudinal axis.

6. method as claimed in claim 5, is characterized in that, described in the time that described second shows object and described first shows that object is different, detects and obtains for determining that described first shows the first instruction of the position of object on the described longitudinal axis, specifically comprises:

In the time that described second shows object and described first shows that object is different, based on the first default corresponding relation prestoring in described electronic equipment, obtain with described M and be listed as corresponding first signal;

In the time of the first signal receiving from the second electronic equipment, based on described first signal, generate the first instruction.

7. method as claimed in claim 6, is characterized in that, described detection obtains for determining that described first shows the second instruction of the position of object on the described longitudinal axis, specifically comprises:

Based on the second default corresponding relation prestoring in described electronic equipment, obtain the capable corresponding secondary signal with described N;

In the time of the secondary signal receiving from described the second electronic equipment, based on described secondary signal, generate the second instruction.

8. the method for claim 1, is characterized in that, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, described method also comprises:

Obtain described first and show first display position of object on described display unit;

Show described the first coordinate parameters at described the first display position.

9. an electronic equipment, described electronic equipment comprises display unit, it is characterized in that, on described display unit, show at least two demonstration objects that comprise the first demonstration object, wherein, described first shows that object first corresponding coordinate parameters in the first coordinate system is: the longitudinal axis is M row, transverse axis is that N is capable, wherein, M and N are all the integer that is more than or equal to 1, and described electronic equipment comprises:

10. electronic equipment as claimed in claim 9, it is characterized in that, described electronic equipment comprises that coordinate obtains unit, before described detection obtains the first instruction for determining described the first position of demonstration object on the described longitudinal axis, for obtain the first sight line parameter of the first user corresponding with described electronic equipment by image acquisition units collection, and based on described the first sight line parameter, show object for determining described first from described at least two demonstration objects, and show that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

11. electronic equipments as claimed in claim 9, it is characterized in that, described coordinate obtains unit and comprises that the first coordinate obtains subelement, described in being used for obtaining, at least two show first distribution parameter of object on described display unit, based on described the first distribution parameter, be used for setting up described the first coordinate system, described the first coordinate system comprises the longitudinal axis and transverse axis, and shows that for obtaining described first object is at described the first coordinate parameters corresponding to described the first coordinate system.

12. electronic equipments as claimed in claim 9, it is characterized in that, described coordinate obtains unit and comprises that the second coordinate obtains subelement, described in being used for obtaining, at least two show second distribution parameter of object on described display unit, based on described the second distribution parameter, be used for setting up the described longitudinal axis, show that for obtaining described first object is positioned at the primary importance on the described longitudinal axis, wherein, the M of described primary importance on the described longitudinal axis lists, again based on described M row, be used for setting up described transverse axis, make described first to show that object is arranged on an axis of described transverse axis, show that for obtaining described first object is positioned at the second place on described transverse axis, wherein, on the N of the described second place on described transverse axis is capable, based on the described longitudinal axis and described transverse axis, be used for setting up described the first coordinate system, based on described primary importance and the described second place, for obtaining described first coordinate parameters of described the first demonstration object.

13. electronic equipments as claimed in claim 9, it is characterized in that, described electronic equipment comprises the first display unit, after described the first coordinate parameters that obtains described the first demonstration object correspondence in the first coordinate system, show first display position of object on described display unit for obtaining described first, and for showing described the first coordinate parameters at described the first display position.