CN105630364A

CN105630364A - Information processing method and electronic device

Info

Publication number: CN105630364A
Application number: CN201410594202.3A
Authority: CN
Inventors: 刘云辉
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-10-29
Filing date: 2014-10-29
Publication date: 2016-06-01
Anticipated expiration: 2034-10-29
Also published as: CN105630364B

Abstract

The invention discloses an information processing method and an electronic device. The method comprises the steps of detecting an operation object by a detection unit; obtaining first position information of an operation point of the operation object by the detection unit, wherein the first position information represents position information of the operation point of the operation object in a touch coordinate system corresponding to a first display unit; according to the first position information and a first conversion parameter, determining second position information, wherein the second position information represents position information of an operation point of the operation object in a display coordinate system of a second display unit; and controlling the second display unit to display the operation point information corresponding to the operation object at the second position information.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to intelligent terminal's technology, particularly relate to a kind of information processing method and electronic equipment.

Background technology

At present, possesses the electronic equipment of projecting function, especially the equipment such as smart mobile phone or panel computer, user needs the content that the display screen first passing through electronic equipment shows to select the information to project, and then projects, when needing the content changing projection, need the content choice shown again by the display screen of electronic equipment, so, it is poor that user's use possesses interactive experience during the electronic equipment of projecting function, and inefficient operation.

Summary of the invention

In view of this, it is an object of the invention to provide a kind of information processing method and electronic equipment, can at least solve the problems referred to above that prior art exists.

For reaching above-mentioned purpose, the technical scheme is that and be achieved in that:

The invention provides a kind of information processing method, be applied to electronic equipment, described electronic equipment possesses the first display unit, the second display unit, detection unit, and when described second display unit is in running order, described method includes:

Described detection unit detects operation object;

Described detection unit obtains the primary importance information of the operation point of described operation object, and what operate object described in described primary importance information representation operates some positional information in the touch coordinate system that described first display unit is corresponding;

According to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Control described second display unit and show, at described second position information place, the operation dot information that described operation object is corresponding.

In such scheme, described detection unit is: touch screen;

Described detection unit obtains the primary importance information of the operation point of described operation object, including: the touch point described operation object being detected as operating point, is obtained the positional information of described operation point as primary importance information by detection unit.

In such scheme, described method also includes:

When described first display unit is closed, detection unit gets the first operation of the operation point of operation object, resolves the positional information of described first operation; Positional information according to described first operation, it is determined that the first displacement information of the operation point of described operation object; According to the first default conversion parameter, described first displacement information is converted to the second displacement information, controls described second display unit and move operation point corresponding to described operation object according to described second displacement information and show;

When described first display unit is in opening, detection unit gets the second operation of the operation point of operation object, resolves the positional information of described second operation; Obtain the positional information of terminating point in the positional information of described second operation; According to the first default conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed, controls described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding.

In such scheme, described detection unit obtains the primary importance information of the operation point of described operation object, including:

Detection obtains the spatial positional information of the operation point of described operation object, and described spatial positional information includes the operation point of described operation object and is arranged in the depth information of the first coordinate system, horizontal position information and vertical position information;

According to the second default conversion parameter, described spatial positional information is converted to primary importance information.

In such scheme, described method also includes:

When described first display unit is in opening, detection unit gets the 3rd operation of the operation point of operation object, resolves the positional information of described 3rd operation; Positional information according to described 3rd operation, it is determined that the operation point of described operation object is relative to the horizontal displacement information of described electronic equipment; According to the second default conversion parameter, described horizontal displacement information is converted to triple motion information, according to the first default conversion parameter, described triple motion information is converted to the 4th displacement information, controls described second display unit and move operation point corresponding to described operation object according to described 4th displacement information and show;

When described first display unit is closed, detection unit gets the 4th operation of the operation point of operation object, resolves the positional information of described 4th operation; Obtain the positional information of terminating point in the positional information of described 4th operation; According to the second default conversion parameter and the first conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed, controls described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding.

In such scheme, described method also includes:

Detection obtains the 5th operation of described operation object,

Extract the depth information of the spatial positional information of the depth information in the spatial positional information of the described 5th starting point operated and terminating point;

Whether the difference judged between the depth information of the depth information of the spatial positional information of described starting point and the spatial positional information of described terminating point meets predetermined threshold value, when meeting, generates the first operational order;

Perform corresponding process according to described first operational order, obtain result, described result is shown described result by described second display unit.

Present invention also offers a kind of electronic equipment, described electronic equipment includes:

Detection unit, is used for operation object being detected; Obtain the primary importance information of the operation point of described operation object, the operation o'clock of operation object positional information in the touch coordinate system that the first display unit is corresponding described in described primary importance information representation;

First converting unit, for according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Processing unit, shows, at described second position information place, the operation dot information that described operation object is corresponding for controlling described second display unit.

In such scheme, described detection unit, for touch screen, the primary importance information that the operation specifically for obtaining described operation object is put, including: the touch point described operation object being detected as operating point, is obtained the positional information of described operation point as primary importance information by detection unit.

In such scheme, described detection unit, it is additionally operable to when described first display unit is closed, gets the first operation of the operation point of operation object, resolve the positional information of described first operation; Positional information according to described first operation, it is determined that the first displacement information of the operation point of described operation object; According to the first default conversion parameter, described first displacement information is converted to the second displacement information;

Accordingly, described processing unit, it is additionally operable to control described second display unit and moves operation point corresponding to described operation object according to described second displacement information and show;

Or,

Described detection unit, is additionally operable to when described first display unit is in opening, and detection unit gets the second operation of the operation point of operation object, resolves the positional information of described second operation; Obtain the positional information of terminating point in the positional information of described second operation; According to the first default conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed;

Accordingly, described processing unit, it is additionally operable to control described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding.

In such scheme, described electronic equipment also includes: the second converting unit, for described spatial positional information being converted to primary importance information according to the second conversion parameter preset;

Accordingly, described detection unit, obtain the spatial positional information of the operation point of described operation object specifically for detection, described spatial positional information includes the operation point of described operation object and is arranged in the depth information of the first coordinate system, horizontal position information and vertical position information.

In such scheme, described detection unit, it is additionally operable to when described first display unit is in opening, gets the 3rd operation of the operation point of operation object, resolve the positional information of described 3rd operation; Positional information according to described 3rd operation, it is determined that the operation point of described operation object is relative to the horizontal displacement information of described electronic equipment; According to the second default conversion parameter, described horizontal displacement information is converted to triple motion information, according to the first default conversion parameter, described triple motion information is converted to the 4th displacement information;

Accordingly, described processing unit, it is additionally operable to control described second display unit and moves operation point corresponding to described operation object according to described 4th displacement information and show;

Or,

Described detection unit, is additionally operable to when described first display unit is closed, and gets the 4th operation of the operation point of operation object, resolves the positional information of described 4th operation; Obtain the positional information of terminating point in the positional information of described 4th operation; According to the second default conversion parameter and the first conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed;

In such scheme, described detection unit, it is additionally operable to detect the 5th operation obtaining described operation object, extracts the depth information of the spatial positional information of the depth information in the spatial positional information of the described 5th starting point operated and terminating point;

Described processing unit, whether the difference being additionally operable to judge between the depth information of the spatial positional information of the depth information of the spatial positional information of described starting point and described terminating point meets predetermined threshold value, when meeting, generates the first operational order; Perform corresponding process according to described first operational order, obtain result, described result is shown described result by described second display unit.

Information processing method provided by the present invention and electronic equipment, by obtaining the operation object positional information in the touch coordinate system of the first display unit, it is determined that the positional information that described operation object is corresponding in the displaing coordinate system of the second display unit; So, allow for user to interact either directly through the first display unit with electronic equipment, mutual operation is displayed by the second display unit, it is made directly mutual experience and lifting operation efficiency with the content shown by the second display unit thus providing the user.

Accompanying drawing explanation

Fig. 1 is embodiment of the present invention information processing method schematic flow sheet one;

Fig. 2 embodiment of the present invention operation scenario schematic diagram one;

Fig. 3 is embodiment of the present invention information processing method schematic flow sheet two;

Fig. 4 is embodiment of the present invention operation scenario schematic diagram two;

Fig. 5 is embodiment of the present invention operation scenario schematic diagram three;

Fig. 6 is embodiment of the present invention information processing method schematic flow sheet three;

Fig. 7 is embodiment of the present invention operation scenario schematic diagram four;

Fig. 8 is embodiment of the present invention operation scenario schematic diagram five;

Fig. 9 is embodiment of the present invention operation scenario schematic diagram six;

Figure 10 is embodiment of the present invention operation scenario schematic diagram seven;

The 5th operation handling process schematic diagram that Figure 11 provides for the embodiment of the present invention;

Figure 12 is embodiment of the present invention operation scenario schematic diagram eight;

Figure 13 is embodiment of the present invention electronic devices structure composition schematic diagram one;

Figure 14 is embodiment of the present invention electronic equipment composition structural representation two.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is further described in more detail.

Embodiment one,

Embodiments provide a kind of information processing method, being applied to electronic equipment, described electronic equipment possesses the first display unit, the second display unit, detection unit, when described second display unit is in running order, as it is shown in figure 1, described method includes:

Step 101: described detection unit detects operation object;

Step 102: described detection unit obtains the primary importance information of the operation point of described operation object, what operate object described in described primary importance information representation operates some positional information in the touch coordinate system that described first display unit is corresponding;

Step 103: according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Step 104: control described second display unit and show, at described second position information place, the operation dot information that described operation object is corresponding.

Here, described electronic equipment can be the equipment such as smart mobile phone, panel computer, all-in-one.

Described first display unit can be the display screen of described electronic equipment. Such as, shown in Fig. 2, wherein, the first display unit 21 is the display screen of electronic equipment.

Described second display unit can be the projecting cell of electronic equipment; Described second display unit location is primary importance, and described primary importance can carry out equipment according to practical situation, it is possible to is arranged at the centre position at the top of described electronic equipment, or can be arranged at top left side or the right side of described electronic equipment. Such as, shown in Fig. 2, the second display unit 22 is the projecting cell being arranged at electronic equipment crown center position.

Described when described second display unit is in running order can be described second display unit open time, namely start projection.

Described operation object can be finger or can be that user is for the pointer that is operated.

Described detection unit detects that operation object can be: detect that the finger of user or pointer are positioned at the detection region of described electronic equipment.

The point that operates of described operation object can be after the operating area that detection unit detect operation object, using a qualified point therein as operating point.

Described first conversion parameter is the parameter that described primary importance information is converted to the positional information in the displaing coordinate system of the second display unit, it is possible to including: transition matrix.

The mode of the operation dot information that described display described operation object is corresponding can for being shown as preset pattern, it can be such as a circle, as shown in Figure 2, for final second display unit 22 image 23 that to be shown in projected background by image to display exhibited, in the image 23 of display, show that the operation dot information operating object corresponding is a circle 231.

Visible, adopt such scheme, by obtaining the operation object positional information in the touch coordinate system of the first display unit, it is determined that the positional information that described operation object is corresponding in the displaing coordinate system of the second display unit; So, allow for user to interact either directly through the first display unit with electronic equipment, mutual operation is displayed by the second display unit, it is made directly mutual experience and lifting operation efficiency with the content shown by the second display unit thus providing the user.

Embodiment two,

Embodiments provide a kind of information processing method, being applied to electronic equipment, described electronic equipment possesses the first display unit, the second display unit, detection unit, when described second display unit is in running order, as it is shown on figure 3, described method includes:

Step 301: described detection unit detects operation object; Described detection unit is: touch screen;

Step 302: the touch point described operation object being detected as operating point, is obtained the positional information of described operation point as primary importance information by detection unit; What operate object described in described primary importance information representation operates some positional information in the touch coordinate system that described first display unit is corresponding;

Step 303: according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Step 304: control described second display unit and show, at described second position information place, the operation dot information that described operation object is corresponding.

Detection unit described in the present embodiment is touch screen, concrete, described detection unit geographically can overlap with described first display unit, but detection unit is positioned at the face side of electronic equipment relative to the first display unit, such as, in fig. 2 it can be seen that interface be the image that the first display unit shows, but on the first display unit also have layer of transparent touch screen.

Touch screen described in the present embodiment can be: electric resistance touch screen, capacitance touch screen, acoustic wave touching screen etc.

Accordingly, described detection unit obtains the primary importance information of the operation point of described operation object, including:

Such as, when described touch screen is electric resistance touch screen, described detection unit obtains the primary importance information of the operation point of described operation object, may include that when operating object and contacting with electric resistance touch screen, two conductive layers has just had contact in position, touch point, resistance changes, and produces signal in transverse and longitudinal coordinate both direction, and this transverse and longitudinal coordinate operates the primary importance information of the operation point of object.

When described touch screen is capacitance touch screen, described detection unit obtains the primary importance information of the operation point of described operation object, may include that when finger touches on the metal level of described capacitance touch screen, due to human body electric field, operation object and touch screen surface are formed and couple electric capacity with one, for high frequency electric, electric capacity is direct conductor, and then operation object siphons away the first electric current from contact point; Described first electric current flows out respectively from the electrode the corner of touch screen, and four electron currents flowing through the first electric current of these four electrodes are directly proportional to the distance of finger to corner, the controller accurate calculating by four sub-current ratios to the first electric current, draw the transverse and longitudinal co-ordinate position information of touch point, using the described transverse and longitudinal coordinate position that obtains as described primary importance information.

When described touch screen is acoustic wave touching screen, described detection unit obtains the primary importance information of the operation point of described operation object, it is possible to including: the transducer that transverse and longitudinal coordinate both direction is launched and received sound wave is pasted at three angles of acoustic wave touching screen respectively; Wherein, described transducer is what be made up of special ceramic materials, is divided into transmitting transducer and receives transducer, the signal of telecommunication sent here by touch screen cable being converted into sound wave energy and the surface acoustic wave pooled from reflection strip can become the signal of telecommunication. The hyperacoustic reflection strip of reflecting surface is carved on four limits. When operating object and touching screen, acoustic wave segment energy is absorbed, and then changes reception signal, and the process through controller obtains the transverse and longitudinal coordinate touched.

Described primary importance information includes: when described operation object carry out for clicking operation, then described primary importance information is the abscissa information in touch coordinate system, vertical coordinate information; When described operation object has carried out slide, then described primary importance information is the N number of abscissa information in the touch coordinate system of electronic equipment, vertical coordinate information and gathers the moment, and N is the positive integer be more than or equal to 1.

Preferably, for the scene that the present embodiment provides, when operated by the user, the second display unit shows the operation information of correspondence, including:

The scene of this operation can be as shown in Figure 4: as seen in Figure 4, and the first display unit 41 is closed, it is shown that black state, at this point it is possible to using the first display unit as a touch control operation region; When the finger 42 user being detected perform from initial position 421 move to final position 422 first operation time, by original position and final position, determine the first displacement information of finger 42, namely get the moving direction of finger, lateral displacement, lengthwise position as described first displacement information;

Then passing through described first conversion parameter and described first displacement information is converted to the second displacement information, control the operation dot information in the image that described second display unit shows, namely circular image moves to the second position 432 place from primary importance 431;

After more than having operated, if and then user has carried out the touch operation identical with aforesaid operations direction again, namely when the finger 42 user again being detected perform from initial position 421 move to final position 422 first operation time, detection unit again get the first displacement information; After first displacement information is converted to the second displacement information of the second display unit, the display mode of described second display unit is, on the upper basis once showing operation dot information, carrying out the superposition of the second displacement information, namely in Fig. 4, the display figure of the operation dot information of display moves to the 3rd position 433 from second position 432; The rest may be inferred.

When described first display unit is in opening, detection unit gets the second operation of the operation point of operation object, resolves the positional information of described second operation; Obtain the positional information of terminating point in the positional information of described second operation; According to the first default conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed, controls described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding;

The scene of this operation can be as shown in Figure 5: the first display unit 51 is in opening, namely demonstrates operation interface, at this point it is possible to the first display unit and the second display unit are definitely projected; The original state of user is that finger is positioned at initial position 521 place, and place, the position place operating dot information obtaining the second display unit now by the first conversion parameter is position 531; When the finger 52 user being detected performs the second operation moved to final position 522 from initial position 521, obtain the positional information of terminating point in the positional information of described second operation; According to the first default conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed, control described second display unit, show, according to the positional information of the terminating point after described conversion, the operation dot information 532 that described operation object is corresponding at display interface 53 place. Under this operation scenario, namely user directly projects to the display image of the second display unit in the operation of the first display unit.

Preferably, when user performs to choose operation, the present embodiment can also include:

When the first display unit is closed, get the positional information operating dot information in the second display unit, by the first conversion parameter described positional information is converted to the positional information in the touch coordinate system that described first display unit is corresponding, according to the positional information after conversion, choose described in determining operate for target information, choose operation to respond according to described target information to described, obtain response results, and demonstrate final response results by the second display unit;

When the first display unit is in opening, it is directly obtained the described operation object positional information choosing operation in the touch coordinate system of described first display unit, according to described positional information determine described in choose operate for target information, according to described target information to choosing operation to respond, obtain response results, control the first display unit and the second display unit display response results. Wherein, described response results is different and different according to the position choosing operation, such as, have selected the icon of an application, then response results just for this application of unlatching, can show the operation interface that this application is corresponding; If some functional keys that have selected in the operation interface that application is corresponding, then response results be just operated for this functional keys after result.

Visible, by adopting such scheme, by obtaining the operation object positional information in the touch coordinate system of the first display unit, it is determined that the positional information that described operation object is corresponding in the displaing coordinate system of the second display unit; So, allow for user to interact either directly through the first display unit with electronic equipment, mutual operation is displayed by the second display unit, it is made directly mutual experience and lifting operation efficiency with the content shown by the second display unit thus providing the user.

Embodiment three,

Embodiments provide a kind of information processing method, being applied to electronic equipment, described electronic equipment possesses the first display unit, the second display unit, detection unit, when described second display unit is in running order, as shown in Figure 6, described method includes:

Step 601: described detection unit detects operation object;

Step 602: detection obtains the spatial positional information of the operation point of described operation object, described spatial positional information includes the operation point of described operation object and is arranged in the depth information of the first coordinate system, horizontal position information and vertical position information;

Step 603: described spatial positional information is converted to primary importance information according to the second default conversion parameter; What operate object described in described primary importance information representation operates some positional information in the touch coordinate system that described first display unit is corresponding;

Step 604: according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Step 605: control described second display unit and show, at described second position information place, the operation dot information that described operation object is corresponding.

Detection unit described in the present embodiment can be Proximity Sensor or can be emission-type electric capacity, and concrete, described detection unit can, for being arranged at predetermined position, can be such as the upper end middle position of electronic equipment.

When described detection unit is Proximity Sensor, the spatial positional information of the operation point that detection obtains described operation object can be: is sent default detection signal by described Proximity Sensor, such as can send infrared ray, for detecting the positional information of the operation object in preset range, the position of the operation object detected is determined, it is possible to include depth information, horizontal position information and vertical position information by measuring the time of return of the detection signal sent; As shown in Figure 7, it is assumed that closely induction apparatus is arranged on the upper end middle position of electronic equipment, launch detection signal and receive the time that detection signal is reflected by finger, and then determining depth information, horizontal position information and vertical position information.

When described detection unit is emission-type electric capacity, the spatial positional information of the operation point that detection obtains described operation object can be: the emission-type electric capacity of detection unit can be the spatial positional information of the operation object within the scope of pre-set space sensed by capacitive touch screens, such as, shown in Fig. 8, the coverage of the emission-type electric capacity being seen from the side can be scope 81, when when this scope internal induction to user's finger, get the spatial positional information of finger.

The scene of this operation can be as shown in Figure 9: the first display unit is in opening, when the finger 92 user being detected performs the operation moved to final position 922 from initial position 921, positional information according to described 3rd operation, determine that the operation point of described operation object is relative to the horizontal displacement information of described electronic equipment, namely get finger relative to the moving direction in the horizontal direction of electronic equipment, lateral displacement, lengthwise position as horizontal displacement information; According to the second default conversion parameter, described horizontal displacement information is converted to triple motion information, according to the first default conversion parameter, described triple motion information is converted to the 4th displacement information, control described second display unit and move, according to described 4th displacement information, the operation point that described operation object is corresponding, operation dot information is moved to final position 932 place from initial position 931;

After more than having operated, if and then user has carried out the touch operation identical with aforesaid operations direction again, namely when finger user again being detected perform from initial position move to final position first operation time, detection unit again get the first displacement information; After first displacement information is converted to the second displacement information of the second display unit, the display mode of described second display unit is, on the upper basis once showing operation dot information, carries out the superposition of the second displacement information; The rest may be inferred.

When described first display unit is closed, detection unit gets the 4th operation of the operation point of operation object, resolves the positional information of described 4th operation; Obtain the positional information of terminating point in the positional information of described 4th operation; According to the second default conversion parameter and the first conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed, controls described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding; The scene of this operation can be as shown in Figure 10, first display unit is closed, the finger of user is relative to the position in the detection region of detection unit, the positional information of the touch coordinate system of the first display unit is converted to either directly through the second conversion parameter, then the positional information of touch coordinate system is converted to according to the first conversion parameter the positional information of the displaing coordinate system of the second display unit, along with the movement of finger, the operation dot information of the final image shown at the second display unit moves to another position 1002 from position 1001.

Preferably, after above-mentioned steps completes, as shown in figure 11, described method also includes:

Step 1101: detection obtains the 5th operation of described operation object,

Step 1102: extract the depth information of the spatial positional information of the depth information in the spatial positional information of the described 5th starting point operated and terminating point;

Step 1103: whether the difference judged between the depth information of the depth information of the spatial positional information of described starting point and the spatial positional information of described terminating point meets predetermined threshold value, when meeting, generates the first operational order;

Step 1104: perform corresponding process according to described first operational order, obtain result, described result is shown described result by described second display unit.

Wherein, described 5th operation can for choosing operation, namely unsettled clicking operation.

The operation of above-mentioned Figure 11 can use the scene shown in Figure 12 to be described:

When operating object and carrying out the 5th operation, it can be a unsettled clicking operation, now will necessarily there is quickly moving up and down of operation object, so have only to the depth information of depth information and the terminating point getting the starting point of the 5th operation and unsettled clicking operation, it is possible to determine and carried out choosing operation for current operation dot information position place;

Further, determine that user carries out for before choosing operation, also get the collection moment that the depth information gathering moment and terminating point corresponding to the depth information of above-mentioned starting point is corresponding, calculate the operation duration obtaining the 5th operation, when described operation duration is less than predetermined threshold value, it is determined that for choosing operation.

In Figure 12, the finger of user is operation object, is moved downward to dotted line position from solid line position, by getting two depth informations, or gets the collection moment of two depth informations and correspondence;

According to two depth informations, it is determined that what current operation dot information 1201 position place carried out chooses operation;

Then described operation dot information 1201 is converted to the positional information in the touch coordinate system of the first display unit, according to the destination object that this positional information is corresponding, it is determined that for the response results choosing operation; Response results is shown by the second display unit.

Embodiment four,

Embodiments providing a kind of electronic equipment, as shown in figure 13, described electronic equipment includes:

Detection unit 1301, is used for operation object being detected; Obtain the primary importance information of the operation point of described operation object, the operation o'clock of operation object positional information in the touch coordinate system that the first display unit is corresponding described in described primary importance information representation;

First converting unit 1302, for according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Processing unit 1303, shows, at described second position information place, the operation dot information that described operation object is corresponding for controlling described second display unit.

The mode of the operation dot information that described display described operation object is corresponding can, for being shown as preset pattern, can be such as a circle.

Embodiment five,

Embodiments provide detection unit, be used for operation object being detected; Obtain the primary importance information of the operation point of described operation object, the operation o'clock of operation object positional information in the touch coordinate system that the first display unit is corresponding described in described primary importance information representation;

Described detection unit, for touch screen, specifically for obtaining the primary importance information of the operation point of described operation object, including: the touch point described operation object being detected as operating point, is obtained the positional information of described operation point as primary importance information by detection unit.

Such as, when described touch screen is electric resistance touch screen, described detection unit, specifically for when operating object and contacting with electric resistance touch screen, two conductive layers has just had contact in position, touch point, resistance changes, and produces signal in transverse and longitudinal coordinate both direction, and this transverse and longitudinal coordinate operates the primary importance information of the operation point of object;

When described touch screen is capacitance touch screen, described detection unit, specifically for when finger touches on the metal level of described capacitance touch screen, due to human body electric field, operation object and touch screen surface are formed and couple electric capacity with one, for high frequency electric, electric capacity is direct conductor, and then operation object siphons away the first electric current from contact point; Described first electric current flows out respectively from the electrode the corner of touch screen, and four electron currents flowing through the first electric current of these four electrodes are directly proportional to the distance of finger to corner, the controller accurate calculating by four sub-current ratios to the first electric current, draw the transverse and longitudinal co-ordinate position information of touch point, using the described transverse and longitudinal coordinate position that obtains as described primary importance information.

When described touch screen is acoustic wave touching screen, described detection unit, the transducer that transverse and longitudinal coordinate both direction is launched and received sound wave is pasted at three angles specifically for acoustic wave touching screen respectively; Wherein, described transducer is what be made up of special ceramic materials, is divided into transmitting transducer and receives transducer, the signal of telecommunication sent here by touch screen cable being converted into sound wave energy and the surface acoustic wave pooled from reflection strip can become the signal of telecommunication. The hyperacoustic reflection strip of reflecting surface is carved on four limits. When operating object and touching screen, acoustic wave segment energy is absorbed, and then changes reception signal, and the process through controller obtains the transverse and longitudinal coordinate touched.

Described detection unit, is additionally operable to when described first display unit is closed, and gets the first operation of the operation point of operation object, resolves the positional information of described first operation; Positional information according to described first operation, it is determined that the first displacement information of the operation point of described operation object; According to the first default conversion parameter, described first displacement information is converted to the second displacement information; Accordingly, described processing unit, it is additionally operable to control described second display unit and moves operation point corresponding to described operation object according to described second displacement information and show;

The scene of this operation can be as shown in Figure 4: as seen in Figure 4, and the first display unit 41 is closed, it is shown that black state, at this point it is possible to using the first display unit as a touch control operation region; When the finger 42 user being detected perform from initial position 421 move to final position 422 first operation time, detection unit gets the primary importance information of the operation of finger 42, and by the original position of primary importance information and final position, determine the first displacement information of finger 42, namely get the moving direction of finger, lateral displacement, lengthwise position as described first displacement information;

Described detection unit, is additionally operable to when described first display unit is in opening, and detection unit gets the second operation of the operation point of operation object, resolves the positional information of described second operation; Obtain the positional information of terminating point in the positional information of described second operation; According to the first default conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed; Accordingly, described processing unit, it is additionally operable to control described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding;

When the first display unit is closed, detection unit gets the positional information operating dot information in the second display unit, by the first conversion parameter described positional information is converted to the positional information in the touch coordinate system that described first display unit is corresponding, according to the positional information after conversion, choose described in determining operate for target information, operation is chosen to respond according to described target information to described, obtain response results, and demonstrate final response results by the second display unit;

When the first display unit is in opening, detection unit is directly obtained the described operation object positional information choosing operation in the touch coordinate system of described first display unit, according to described positional information determine described in choose operate for target information, according to described target information to choosing operation to respond, obtain response results, control the first display unit and the second display unit display response results.

Embodiment six,

Embodiments providing a kind of electronic equipment, as shown in figure 14, described electronic equipment includes:

Detection unit 1401, is used for operation object being detected; Obtain the primary importance information of the operation point of described operation object, the operation o'clock of operation object positional information in the touch coordinate system that the first display unit is corresponding described in described primary importance information representation;

First converting unit 1402, for according to described primary importance information and the first conversion parameter, it is determined that second position information, the operation o'clock of operation object positional information in the displaing coordinate system of the second display unit described in described second position information representation;

Processing unit 1403, shows, at described second position information place, the operation dot information that described operation object is corresponding for controlling described second display unit.

Described electronic equipment also includes: the second converting unit 1404, for described spatial positional information being converted to primary importance information according to the second conversion parameter preset; Accordingly, described detection unit 1401, obtain the spatial positional information of the operation point of described operation object specifically for detection, described spatial positional information includes the operation point of described operation object and is arranged in the depth information of the first coordinate system, horizontal position information and vertical position information.

When described detection unit is Proximity Sensor, default detection signal is sent by described Proximity Sensor, such as can send infrared ray, for detecting the positional information of the operation object in preset range, the position of the operation object detected is determined, it is possible to include depth information, horizontal position information and vertical position information by measuring the time of return of the detection signal sent; As shown in Figure 7, it is assumed that closely induction apparatus is arranged on the upper end middle position of electronic equipment, launch detection signal and receive the time that detection signal is reflected by finger, and then determining depth information, horizontal position information and vertical position information.

When described detection unit is emission-type electric capacity, described detection unit, specifically for sensing the spatial positional information of the operation object within the scope of pre-set space, such as, shown in Fig. 8, the coverage of the emission-type electric capacity being seen from the side can be scope 81, when when this scope internal induction to user's finger, getting the spatial positional information of finger.

Described detection unit, is additionally operable to when described first display unit is in opening, gets the 3rd operation of the operation point of operation object, resolves the positional information of described 3rd operation; Positional information according to described 3rd operation, it is determined that the operation point of described operation object is relative to the horizontal displacement information of described electronic equipment; According to the second default conversion parameter, described horizontal displacement information is converted to triple motion information, according to the first default conversion parameter, described triple motion information is converted to the 4th displacement information; Accordingly, described processing unit, it is additionally operable to control described second display unit and moves operation point corresponding to described operation object according to described 4th displacement information and show;

Described detection unit, is additionally operable to when described first display unit is closed, and gets the 4th operation of the operation point of operation object, resolves the positional information of described 4th operation; Obtain the positional information of terminating point in the positional information of described 4th operation; According to the second default conversion parameter and the first conversion parameter, the positional information of described terminating point is changed, the positional information of the terminating point after being changed; Accordingly, described processing unit, it is additionally operable to control described second display unit and shows, according to the positional information of the terminating point after described conversion, the operation dot information that described operation object is corresponding; The scene of this operation can be as shown in Figure 10, first display unit is closed, the finger of user is relative to the position in the detection region of detection unit, the positional information of the touch coordinate system of the first display unit is converted to either directly through the second conversion parameter, then the positional information of touch coordinate system is converted to according to the first conversion parameter the positional information of the displaing coordinate system of the second display unit, along with the movement of finger, the operation dot information of the final image shown at the second display unit moves to another position 1002 from position 1001.

Preferably, described detection unit, it is additionally operable to detect the 5th operation obtaining described operation object, extracts the depth information of the spatial positional information of the depth information in the spatial positional information of the described 5th starting point operated and terminating point;

The scene shown in Figure 12 is used to be described:

In several embodiments provided herein, it should be understood that disclosed equipment and method, it is possible to realize by another way. Apparatus embodiments described above is merely schematic, such as, the division of described unit, it is only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, or is desirably integrated into another system, or some features can ignore, or do not perform. It addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be through INDIRECT COUPLING or the communication connection of some interfaces, equipment or unit, it is possible to be electrical, machinery or other form.

The above-mentioned unit illustrated as separating component can be or may not be physically separate, and the parts shown as unit can be or may not be physical location, namely may be located at a place, it is also possible to be distributed on multiple NE; Part or all of unit therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme.

It addition, each functional unit in various embodiments of the present invention can be fully integrated in a processing module, it is also possible to be that each unit is individually as a unit, it is also possible to two or more unit are integrated in a unit; Above-mentioned integrated unit both can adopt the form of hardware to realize, it would however also be possible to employ hardware adds the form of SFU software functional unit and realizes.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can be completed by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program upon execution, performs to include the step of said method embodiment; And aforesaid storage medium includes: movable storage device, read only memory (ROM, Read-OnlyMemory), the various media that can store program code such as random access memory (RAM, RandomAccessMemory), magnetic disc or CD.

The above; being only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those familiar with the art is in the technical scope that the invention discloses; change can be readily occurred in or replace, all should be encompassed within protection scope of the present invention. Therefore, protection scope of the present invention should be as the criterion with described scope of the claims.

Claims

1. an information processing method, is applied to electronic equipment, and described electronic equipment possesses the first display unit, the second display unit, detection unit, and when described second display unit is in running order, described method includes:

Described detection unit detects operation object;

2. method according to claim 1, it is characterised in that described detection unit is: touch screen;

3. method according to claim 2, it is characterised in that described method also includes:

4. method according to claim 1, it is characterised in that described detection unit obtains the primary importance information of the operation point of described operation object, including:

5. method according to claim 4, it is characterised in that described method also includes:

6. the method according to claim 4 or 5, it is characterised in that described method also includes:

Detection obtains the 5th operation of described operation object,

7. an electronic equipment, described electronic equipment includes:

8. electronic equipment according to claim 7, it is characterised in that

9. electronic equipment according to claim 8, it is characterised in that

Described detection unit, is additionally operable to when described first display unit is closed, and gets the first operation of the operation point of operation object, resolves the positional information of described first operation; Positional information according to described first operation, it is determined that the first displacement information of the operation point of described operation object; According to the first default conversion parameter, described first displacement information is converted to the second displacement information;

Or,

10. electronic equipment according to claim 7, it is characterised in that described electronic equipment also includes:

Second converting unit, for being converted to primary importance information according to the second conversion parameter preset by described spatial positional information;

11. electronic equipment according to claim 10, it is characterised in that

Described detection unit, is additionally operable to when described first display unit is in opening, gets the 3rd operation of the operation point of operation object, resolves the positional information of described 3rd operation; Positional information according to described 3rd operation, it is determined that the operation point of described operation object is relative to the horizontal displacement information of described electronic equipment; According to the second default conversion parameter, described horizontal displacement information is converted to triple motion information, according to the first default conversion parameter, described triple motion information is converted to the 4th displacement information;

Or,

12. electronic equipment according to claim 11, it is characterised in that

Described detection unit, is additionally operable to detect the 5th operation obtaining described operation object, extracts the depth information of the spatial positional information of the depth information in the spatial positional information of the described 5th starting point operated and terminating point;