CN103823548A - Electronic equipment, wearing-type equipment, control system and control method - Google Patents

Abstract

The invention provides electronic equipment, wearing-type equipment, a control system and a control method. The electronic equipment comprises a data connecting unit, a touch sensing unit, a processing unit and a sending unit, the data connecting unit is used for establishing a data passage with the wearing-type equipment, the touch sensing unit is used for detecting contact or approach operation of an operating body and generating touch information, the processing unit is used for generating a first control instruction according to the touch information, the sending unit is used for sending the first control instruction to the wearing-type equipment through the data passage, and the wearing-type equipment responds to the first control instruction and executes corresponding control service. By the electronic equipment, control operation of the wearing-type equipment can be realized, and direct operation of the wearing-type equipment is not needed, so that convenience in operation is provided.

Description

Electronic equipment, Wearable equipment, control system and method

Technical field

The application relates to control technology field, relates in particular a kind of electronic equipment, Wearable equipment, control system and method.

Background technology

Along with the development of electronic technology, the electronic equipment with difference in functionality characteristic is more and more.Existing electronic equipment has input equipment and output device conventionally, and input equipment can receive user's control operation information, and output device is for exporting the output content corresponding in different control operations.

Electronic equipment conventionally can end user control operation information, and carry out corresponding operational processes.But along with the diversified development of electronic equipment, a lot of electronic equipments in actual applications, and be not easy operation or operate comparatively complicated, such as Wearable electronic equipment, in the time wearing, carry out control operation, user need to repeatedly raise one's hand to operate, and could realize the control to Wearable equipment, and this makes operation extremely not convenient.

Summary of the invention

In view of this, the application provides a kind of electronic equipment, Wearable equipment, control method and system, in order to solve the not convenient technical matters of equipment control operation.

For achieving the above object, the application provides following technical scheme:

A kind of electronic equipment, comprising:

Data linkage unit, for setting up data channel with Wearable equipment;

Touch sensing unit, for detection of the contact/Proximity operation of operating body, generates touch information;

Processing unit, for generating the first steering order according to described touch information;

Transmitting element, for described the first steering order is sent to described Wearable equipment by described data channel, by the first steering order described in described Wearable device responds, carries out corresponding service control.

Preferably, described touch sensing unit at least comprises a touch area;

Described touch area, for detection of the contact/Proximity operation of operating body, generates touch information;

Described processing unit, specifically for the different touch informations according to different touch areas, generates corresponding difference the first steering order;

Described transmitting element, specifically for described the first different steering order is sent to described Wearable equipment by described data channel, by the first different steering order of described Wearable device responds, is carried out corresponding service control.

Preferably, described touch sensing unit comprises the first touch area;

The track that described the first touch area forms for detection of the first contact/Proximity operation of operating body, generates trace information;

Described processing unit, specifically for identifying described trace information, generates candidate characters, and generates the character output order that comprises described candidate characters;

Described transmitting element, specifically for the character output order that comprises described candidate characters is sent to described Wearable equipment, by character output order described in described Wearable device responds, is exported described candidate characters.

Preferably, described touch sensing unit also comprises the second touch area;

Described the second touch area, for detection of the second contact/Proximity operation of operating body, generates and selects operation information;

Described processing unit, also for according to described selection operation information, generates character selection instruction;

Described transmitting element, also for described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, is determined target character from described candidate characters.

Preferably, described touch-control sensing unit comprises the 3rd touch area and the 4th touch area;

Described the 3rd touch area, for detection of the three contact/Proximity operation of operating body, generates X axis operation information and/or Y-axis operation information;

Described the 4th touch area, for detection of the four contact/Proximity operation of operating body, generates Z-axis direction operation information;

Described processing unit, specifically for respectively according to described X axis operation information, Y-axis operation information and/or Z-axis direction operation information, generates X axis steering order, Y-axis steering order and/or Z-axis direction steering order;

Described transmitting element is specifically for being sent to Wearable equipment by described X axis steering order, Y-axis steering order and/or described Z-axis direction steering order, by X axis steering order, Y-axis steering order and/or described Z-axis direction steering order described in Wearable device responds, the displaying contents of output is controlled.

Preferably, described the 3rd touch area is circle detection region, and described the 4th touch area is the annular region of surrounding described the 3rd touch area.

Preferably, also comprise:

Physical state detection unit, for detection of the physical state information of described electronic equipment;

Described processing unit is also for according to described physical state Information generation the second steering order;

Described transmitting element, also for described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, is carried out corresponding service control.

A kind of Wearable equipment, comprising:

Fixed cell, wherein said Wearable equipment can be worn by operating body by described fixed cell;

Data linkage unit, for setting up data channel with an electronic equipment;

Receiving element, the steering order sending for receive described electronic equipment by described data channel;

Processing unit, for responding described steering order, carries out corresponding service control;

Display unit, for showing the result content of described processing unit;

Linkage unit, configuration connects described fixed cell and described display unit, wherein said linkage unit has the first state and the second state, under described the first state, described linkage unit makes at least Part I in described display unit have the primary importance relation with respect to described fixed cell, and under described the second state, described linkage unit makes described display unit have the second place relation with respect to described fixed cell.

A kind of control system,, wrap electronic equipment described above and above-mentioned Wearable equipment.

A kind of control method, is applied in an electronic equipment, and described method comprises:

Set up data channel with Wearable equipment;

Detect the contact/Proximity operation of operating body, generate touch information;

Generate steering order according to described touch information;

Described steering order is sent to described Wearable equipment by described data channel, by steering order described in described Wearable device responds, carries out corresponding service control.

Preferably, the contact/Proximity operation of described detection operating body, generates touch information and comprises:

The track that detects the first contact/Proximity operation of operating body and form, generates trace information;

The described touch information generation of described foundation steering order comprises:

Identify described trace information, generate candidate characters, and generate the first steering order that comprises described at least one candidate characters;

Describedly described steering order be sent to described Wearable equipment by described data channel comprise:

The first steering order that comprises described candidate characters is sent to described Wearable equipment, by steering order described in described Wearable device responds, exports described candidate characters.

Preferably, described method also comprises:

Detect the second contact/Proximity operation of operating body, generate and select operation information;

According to described selection operation information, generate character selection instruction;

Described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, from described candidate characters, determines target character.

Preferably, the contact/Proximity operation of described detection operating body, generates touch information and comprises:

Detect the three contact/Proximity operation of operating body, generate X axis operation information and/or Y-axis operation information;

Detect the four contact/Proximity operation of operating body, generate Z-axis direction operation information;

The described touch information generation of described foundation steering order comprises:

According to axial operation information and/or Z-axis direction operation information described in described X axis operation information, Y, generate respectively X axis steering order, Y-axis steering order and/or Z-axis direction steering order;

Describedly described steering order be sent to described Wearable equipment by described data channel comprise:

Described X axis steering order, described Y-axis steering order and/or described Z-axis direction steering order are sent to Wearable equipment, by X axis steering order, described Y-axis steering order and/or described Z-axis direction steering order described in Wearable device responds, the displaying contents of output is controlled.

Known via above-mentioned technical scheme, compared with prior art, the application provides a kind of electronic equipment, Wearable equipment, control system and method, this electronic equipment is set up after data channel by its data linkage unit and Wearable equipment, detected the contact/Proximity operation of operating body by touch sensing unit, to generate touch information, processing unit can generate the first steering order according to this touch information, and by transmitting element, this first steering order is transferred to this Wearable equipment by this data channel, Wearable equipment can be carried out corresponding service control according to this first steering order, thereby realize the control to Wearable equipment by the electronic equipment of the present embodiment, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., make control operation simple.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only the application's embodiment, for those of ordinary skills, do not paying under the prerequisite of creative work, other accompanying drawing can also be provided according to the accompanying drawing providing.

Fig. 1 is the structural representation of a kind of electronic equipment embodiment 1 of the application;

Fig. 2 is the structural representation of a kind of electronic equipment embodiment 2 of the application;

Fig. 3 is that electronic equipment and the Wearable device synchronization of the embodiment of the present application 2 realizes a kind of schematic diagram that character is exported;

Fig. 4 is that electronic equipment and the Wearable device synchronization of the embodiment of the present application 2 realizes the another kind of schematic diagram that character is exported;

Fig. 5 is the electronic equipment of the embodiment of the present application 2 and the schematic diagram that Wearable device synchronization realize target character is selected;

Fig. 6 is the structural representation of a kind of electronic equipment embodiment 3 of the application;

Fig. 7 is that the one of the electronic equipment touch area of the embodiment of the present application 3 is divided schematic diagram;

Fig. 8 is the another kind cost schematic diagram of the electronic equipment touch area of the embodiment of the present application 3;

Fig. 9 is the structural representation of a kind of Wearable apparatus embodiments 1 of the application;

Figure 10 is the process flow diagram of a kind of control method embodiment 1 of the application;

Figure 11 is the process flow diagram of a kind of control method embodiment 2 of the application;

Figure 12 is the process flow diagram of a kind of control method embodiment 3 of the application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment is only the application's part embodiment, rather than whole embodiment.Based on the embodiment in the application, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the application's protection.

One of main thought of the embodiment of the present application is: electronic equipment comprises data linkage unit, set up data channel by data linkage unit and Wearable equipment, touch sensing unit detects the contact/Proximity operation of operating body, to generate touch information, processing unit can generate the first steering order according to this touch information, transmitting element transfers to this Wearable equipment by this first steering order by this data channel, Wearable equipment can be carried out corresponding service control according to this first steering order, thereby realize the control to Wearable equipment by the electronic equipment of the embodiment of the present application, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., make control operation simple.

With reference to figure 1, show the structural representation of a kind of electronic equipment embodiment 1 of the application, this electronic equipment can comprise:

Data linkage unit 101, for setting up data channel with Wearable equipment.

Wearable equipment refers to have fixed cell, the electronic equipment that can be worn by user by fixed cell, the headset equipments such as such as intelligent glasses, wrist formula equipment etc.

This electronic equipment can be realized with Wearable equipment and be set up data channel by data linkage unit, and this data channel can realize by wired or wireless connections mode, the short-range data passage of for example setting up by bluetooth.

Touch sensing unit 102, for detection of the contact/Proximity operation of operating body, generates touch information.

Touch sensing unit comprises touch area, and operating body by carrying out contact/Proximity operation in touch area, and touch area detects after touch/Proximity operation, generates corresponding touch information.If for example this touch area is for selecting the region of operation, operating body taps in this region selects operation, can generate corresponding contact information.

Touch sensing unit can comprise multiple touch areas, and the contact/Proximity operation of operating body all can be detected in each touch area, thereby generates different touch informations.

Contact/the Proximity operation of operating body is according to the content of the current output of Wearable equipment, to realize, the control of its output content is carried out.

Processing unit 103, for generating the first steering order according to described touch information.

Touch sensing unit generates after touch information according to the contact of operating body/Proximity operation, touch information can be sent to processing unit, and processing unit, according to this touch information, determines that user expects the control operation of carrying out, and generates corresponding the first steering order.This first steering order comprises the control information that the output content of Wearable equipment is controlled.

In the time that touch unit comprises multiple touch area, processing unit can, specifically for the different touch informations according to different touch areas, generate corresponding difference the first steering order.

Transmittingelement 104, for described the first steering order is sent to described Wearable equipment by described data channel, by the first steering order described in described Wearable device responds, carries out corresponding service control.

The first steering order is transferred to transmitting element by processing unit, triggers transmitting element this first steering order is sent to Wearable equipment by described data channel.

Wearable equipment can respond this first steering order, carries out corresponding service control according to this first steering order, thereby realizes the control operation of operating body to Wearable equipment.This service control can be for example to close or open the service control of Wearable equipment output content, the service control of inputting, the service control that Wearable equipment output content is adjusted etc.

When processing unit is specifically for the different touch informations according to different touch areas, while generating corresponding difference the first steering order, this transmitting element can be stated the first different steering orders and is sent to described Wearable equipment by described data channel described, Wearable equipment can respond the first different steering orders, thereby carries out different service controls.

Electronic equipment described in the embodiment of the present application can refer to the electronic equipment with touch-screen, the such as smart machine such as mobile phone, panel computer, in actual applications, this data linkage unit, touch sensing unit, transmitting element are connected with processing unit respectively, in a practical application, this data linkage unit can be blue-tooth device, touch sensing unit is the touch-screen of electronic equipment, it is display screen, processing unit is the processor of electronic equipment, transmitting element can be transmitter, can realize the included functional unit of electronic equipment by hardware configuration.

Described operating body can refer to wears this Wearable equipment, and operates the user's of described electronic equipment finger, or the touch objects of holding etc.

As another embodiment of the application, this electronic equipment can also comprise:

Physicalstate detection unit 105, for detection of the physical state information of described electronic equipment.

Describedprocessing unit 103 is also for according to described physical state Information generation the second steering order;

Described transmittingelement 104, also for described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, is carried out corresponding service control.

This physical state information can be the motion state information of this electronic equipment, can comprise acceleration information, velocity information or direction of motion information etc.Can generate the second steering order according to this acceleration information, this second steering order can trigger its displaying contents of Wearable equipment control and move accordingly according to the motion state of described electronic equipment.The for example displaying contents of the current output of Wearable equipment is a spheroid, can control this spheroid and follow the motion state of electronic equipment and make corresponding motion.

In the present embodiment, electronic equipment is set up after data channel by data linkage unit and Wearable equipment, detected the contact/Proximity operation of operating body by touch sensing unit, to generate touch information, thereby processing unit can generate the first steering order according to this touch information, and by transmitting element, this first steering order is transferred to this Wearable equipment by this data channel, Wearable equipment can be carried out corresponding service control according to this first steering order, thereby realize the control to Wearable equipment by the electronic equipment of the present embodiment, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., make control operation simple.

With reference to figure 2, show the structural representation of a kind of electronic equipment embodiment 2 of the application, this electronic equipment can comprise:

Data linkage unit 201, for setting up data channel with Wearable equipment.

Touch sensing unit 202, for detection of the contact/Proximity operation of operating body, generates touch information.

Wherein, in the present embodiment, describedtouch sensing unit 202 comprises thefirst touch area 2021, and the track that thisfirst touch area 2021 forms for detection of the first contact/Proximity operation of operating body generates trace information.

Processing unit 203, for generating the first steering order according to described touch information.

This touch information comprises this trace information, and processing unit can be identified described trace information, generates candidate characters, and generates the character output order that comprises described candidate characters, and character output order is also a kind of the first steering order.

Transmittingelement 204, for described the first steering order is sent to described Wearable equipment by described data channel, by the first steering order described in described Wearable device responds, carries out corresponding service control

Wherein, when described the first steering order is character output order, this character output order of Wearable device responds can, by the candidate characters output comprising in character output order, can show for user and check in the display interface of Wearable equipment.

Therefore, in the present embodiment, the first included touch area of this touch sensing unit is also a hand-written input area, processing unit is according to the trace information of the first touch area, generate corresponding candidate characters, candidate characters is the character identical or close with the track of described operating body in this first touch area.Processing unit can be processed this trace information in real time, thereby Wearable equipment can also show user's hand-written output procedure in real time.Take user's handwriting input Chinese character as example, in the time that user carries out in handwriting input operating process, described candidate characters can refer to corresponding stroke, radical etc. identical with trajectory shape, and candidate characters is now unique.In the time that user completes handwriting input operation, described candidate characters comprises the multiple candidate words identical or close with user's input trajectory etc.

Therefore the track that described the first touch area forms detecting the first contact/Proximity operation of operating body, generating trace information specifically comprises: whether the first contact/Proximity operation that detects operating body completes, if the operation that taps of operating body specifically can not detected in the given time by judgement, can determine that the first contact/Proximity operation completes;

In the time detecting that the first contact/Proximity operation of operating body does not complete, the trace information track forming according to the first contact/Proximity operation being generated sends to processing unit.Processing unit is specifically for according to this trace information, generate the identical candidate characters of trajectory shape comprising with trace information, and generate comprise this candidate characters character output order, by transmitting element, this character output order is sent to Wearable equipment, thereby this character output order of Wearable device responds, export this trajectory shape, realize the synchronous operation of electronic equipment and Wearable equipment.

In the time detecting that the first contact/Proximity operation of operating body completes, the final track forming according to this first contact/Proximity operation is generated to trace information and send to processing unit.Processing unit, specifically for according to this trace information, generates the multiple candidate characters close with final trajectory shape, and generates the character output order that comprises this candidate characters.By transmitting element, this character output order is sent to Wearable equipment by data channel.This character output order of Wearable device responds, i.e. exportable the plurality of candidate characters.

As shown in Figure 3, for this electronic equipment of the present embodiment and Wearable device synchronization realize a kind of schematic diagram of character output, that is to say the synchronous schematic diagram in handwriting input process.As shown in Figure 4, for this electronic equipment of the present embodiment and Wearable device synchronization realize the another kind of schematic diagram of character output, also i.e. synchronous schematic diagram in the time that a handwriting input completes.

User carries out handwriting input in thefirst touch area 2021 of the touch sensing unit ofelectronic equipment 100, thefirst touch area 2021 generates trace information according to handwriting input track, processing unit generates candidate characters according to trace information, and the character output order that generation comprises this candidate characters is passed to transmitting element, by transmitting element, this character output order is sent toWearable equipment 200,Wearable equipment 200 these character output orders of response, by this candidate characters output.Fig. 3 and Fig. 4 show the output situation of two kinds of candidate characters.

By after candidate characters output, because candidate characters may comprise multiplely, need user therefrom to select a unique candidate characters as target character.Therefore,, in the present embodiment, thistouch sensing unit 202 also comprises:

Thesecond touch area 2022,, for detection of the second contact/Proximity operation of operating body, generate and select operation information.

Described processing unit, also for according to described selection operation information, generates character selection instruction;

Described transmitting element, also for described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, is determined target character from described candidate characters.

As a kind of possible situation, this second touch area can arrange multiple virtual push buttons of clicking for user, thereby can realize the operation of selecting in multiple candidate characters, the selection operation information of selecting operation to trigger is sent to processing unit by the second touch area, processing unit is according to this selection operation information, determine user-selected candidate characters, or the operation such as mobile in multiple candidate characters.Processing unit generates character selection instruction, because transmitting element is sent to Wearable equipment.This character selection instruction of Wearable device responds, determines target character.

Be illustrated in figure 5 the schematic diagram that this electronic equipment of the present embodiment and Wearable device synchronization realize target character are selected.Known in conjunction with Fig. 3 and Fig. 4, user is by the trajectory shape of thefirst touch area 2021 handwriting inputs " good " ofelectronic equipment 100,Wearable equipment 200 shows the multiple candidate characters similar to this trajectory shape at its display interface, for example comprise " good, as, mother " etc., user can continue to be carried out and selected operation by 2022 selection button in the second touch area of thiselectronic equipment 100 and confirming button, select and want " good " word of input and confirm, make Wearable equipment only to show this " good " word at its display interface.Thereby user can continue to carry out character input operation next time by this electronic equipment.

Wherein, described the second touch area can be positioned at the both sides of described the first touch area, thereby can facilitate user's both hands to select operation.

In addition, described electronic equipment can also comprise:

Physicalstate detection unit 205, for detection of the physical state information of described electronic equipment.

Describedprocessing unit 203 is also for according to described physical state Information generation the second steering order;

Described transmittingelement 204, also for described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, is carried out corresponding service control.

In the present embodiment, electronic equipment is set up after data channel by data linkage unit and Wearable equipment, detected respectively the contact/Proximity operation of operating body by the first touch area of touch sensing unit and the second touch area, processing unit generates candidate characters, and target character in definite candidate characters, and being sent to this Wearable equipment by transmitting element with steering order form, Wearable equipment is exportable candidate characters, and finally exports the target character that user selects.Thereby realize the control to Wearable equipment by the electronic equipment of the present embodiment, can realize the input operation to Wearable equipment by electronic equipment, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., made control operation simple.

With reference to figure 6, show the structural representation of a kind of electronic equipment embodiment 3 of the application, this electronic equipment can comprise:

Data linkage unit 601, for setting up data channel with Wearable equipment.

Touch sensing unit 602, for detection of the contact/Proximity operation of operating body, generates touch information.

Wherein, describedtouch sensing unit 602 comprises the3rd touch area 6021 and the4th touch area 6022;

Described the3rd touch area 6021, for detection of the three contact/Proximity operation of operating body, generates X axis operation information and/or Y-axis operation information.

Described the4th touch area 6022, for detection of the four contact/Proximity operation of operating body, generates Z-axis direction operation information.

Processing unit 603, according to described X axis operation information, Y-axis operation information and/or Z-axis direction operation information, generates X axis steering order, Y-axis steering order and/or Z-axis direction steering order for respectively.

Transmittingelement 604, for described X axis steering order, Y-axis steering order and/or described Z-axis direction steering order are sent to Wearable equipment, by X axis steering order, Y-axis steering order and/or described Z-axis direction steering order described in Wearable device responds, the contents of object of output is controlled.

In actual applications, described touch sensing unit can comprise electronic equipment display screen curtain, respective regions in the corresponding described display screen in described the 3rd touch area and the 4th touch area, with reference to figure 7, the one that shows electronic equipment touch area is divided schematic diagram.The3rd touch area 6021 and the4th touch area 6022 lay respectively at the both sides of display screen, and user can this electronic equipment of bimanualness, thereby can realize the contact/Proximity operation to the 3rd touch area and the 4th touch area simultaneously.Between the 3rd touch area and the 4th touch area, can also be provided with spacer region, prevent error detection.

In the time that the output of Wearable equipment has the displaying contents of three-dimensional stereo effect, to the control of displaying contents may comprise to three disalignments at least one axial control, for example displaying contents is a movable spheroid, this spheroid can move in three-dimensional space, therefore in the present embodiment, touch sensing unit at least arranges the 3rd touch area and the 4th touch area, the 3rd touch area receives the contact/Proximity operation of operating body, form plane control information, it is the operation information of X axis and/or Y-axis, the 4th touch area receives the contact/Proximity operation of operating body, form the operation information of Z-axis direction.

In practical application, for example displaying contents is a movable spheroid, this spheroid can move in three-dimensional space, suppose that the contact/Proximity operation of along continuous straight runs (or departing from the direction that horizontal direction certain angle is corresponding) in the 3rd touch area forms X axis operation information, contact/the Proximity operation of vertical direction (or direction corresponding to offset from perpendicular certain angle) of along continuous straight runs forms Y-axis operation information, wherein, this X axis operation information or Y-axis operation information can comprise the information such as direction, speed.Thereby processing unit can be according to X axis operation information or Y-axis operation information, generate respectively X axis steering order or Y-axis steering order, by transmitting element, X axis steering order or Y-axis steering order are sent to Wearable equipment, this X axis steering order of Wearable device responds or Y-axis steering order, realize the control to displaying contents, for example, control spheroid moving and controlling direction of motion or the movement velocity etc. of spheroid along X-axis or Y-axis on two dimensional surface.Certain described X axis control information and Y-axis control can be processed simultaneously, thereby control when can realizing spheroid X axis and Y-axis.

In like manner, the contact of the operating body that the 4th touch area detects/approaching, generate the control information of Z-axis direction, a kind of possible mode is, user forms arc track at the contact/Proximity operation of the 4th touch area, direction, the speed etc. of inputting arc track according to user can generate the control information of Z-axis direction, thereby form Z-axis direction steering order by processing unit, transmitting element sends it to Wearable equipment, Wearable equipment is according to this Z-axis direction steering order, realize to displaying contents along Z-axis direction control, for example control spheroid and move along Z-axis direction direction.

It should be noted that, user carries out the control of X axis, Y-axis and Z-axis direction simultaneously to the displaying contents of Wearable equipment, also can be only for wherein any or two axially control.Therefore described X axis steering order, Y-axis steering order and Z-axis direction steering order can generate and send to Wearable equipment simultaneously, also can generate and send separately to Wearable equipment.

Wherein, as another embodiment, the 4th touch area can surround described the 3rd touch area, and described the 3rd touch area can be a circle detection region, and described the 4th touch area is the annular surveyed area that surrounds this circle detection region.The 4th touch area operates along annular surveyed area the arc track forming according to user can generate Z-axis direction control information.Specifically, referring to Fig. 8, for the one of electronic equipment touch area is divided schematic diagram, the4th touch area 6022 surrounds the 3rd touch area 6021.Between the 4th touch area and the 3rd touch area, anisolated area 6023 can also be set, to avoid error detection.

In addition, described electronic equipment can also comprise:

Physicalstate detection unit 605, for detection of the physical state information of described electronic equipment.

Describedprocessing unit 603 is also for according to described physical state Information generation the second steering order;

Described transmittingelement 604, also for described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, is carried out corresponding service control.

In the present embodiment, electronic equipment is set up after data channel by data linkage unit and Wearable equipment, detected respectively the contact/Proximity operation of operating body by the 3rd touch area of touch sensing unit and the 4th touch area, corresponding X axis steering order, Y-axis steering order and/or the Z-axis direction steering order of generating of processing unit, and by transmitting element, this steering order is sent to this Wearable equipment, this steering order of Wearable device responds, realizes the control of X axis, Y-axis or Z-axis direction to displaying contents.Realize the control to Wearable equipment by the electronic equipment of the present embodiment, particularly can realize three-dimensional control, make user without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., made control operation simple.

Referring to Fig. 9, show the structural representation of a kind of Wearable apparatus embodiments 1 of the application, this Wearable equipment can comprise:

Fixed cell 901, wherein said Wearable equipment can be worn by operating body by describedfixed cell 901.

Thisfixed cell 901 can comprise the such as wearable components such as the helmet, headband.

Data linkage unit 902, for setting up data channel with an electronic equipment.

Receivingelement 903, the steering order sending for receive described electronic equipment by described data channel.

Processing unit 904, for responding described steering order, carries out corresponding service control;

Display unit 905, for showing the content after the described service control of execution of described processing unit;

Linkage unit 906, configuration connects described fixedcell 901 and describeddisplay unit 905, wherein saidlinkage unit 906 has the first state and the second state, under described the first state, describedlinkage unit 906 makes at least Part I in describeddisplay unit 905 have the primary importance relation with respect to describedfixed cell 901, and under described the second state, describedlinkage unit 906 makes describeddisplay unit 905 have the second place relation with respect to describedfixed cell 901.

Described data linkage unit, receiving element, processing unit are integrated in described Wearable equipment, and data linkage unit, receiving element and display unit are connected with this processing unit respectively.

As a kind of possible situation, when Wearable equipment is headset equipment, while being worn on head byfixed cell 901 by user, atlinkage unit 906, under the first state, at least Part I indisplay unit 905 is positioned at user's viewing area and towards user.Specifically, in the time thatlinkage unit 906 is under the first state, at least Part I indisplay unit 905 is positioned at the first area with respect to fixedcell 901, and in the time thatlinkage unit 906 is under the second state, at least Part I indisplay unit 905 is positioned at the second area with respect to fixed cell, and wherein, first area is different with second area, and first area is Wearable equipment while being configured in head byfixed cell 901 by user, user's viewing area.

Wherein,linkage unit 906 can be included under described the first state, supports the support of described display unit.Length, width, thickness, shape or the scale of construction of carrier unit, can change by the forms of motion such as mechanical motion or magnetostriction, changes and position adjustment for the position that completes display unit.

Wherein,fixed cell 901 also can comprise rotary part.For example, in the situation that fixed cell is the helmet, under the first state, rotatable rotary part, make display unit be positioned at the viewing area in eyes of user front, and under the second state, rotatable rotating part, makes display unit be moved upward in the interlayer of the helmet or helmet top.

In addition,display unit 905 can comprise the display screen that size is less.Under the first state, display unit 140 is positioned at user's viewing area and towards user, so that user watches.

In the present embodiment, Wearable equipment can be set up data channel by data linkage unit and electronic equipment, and by the steering order of this data channel reception electronic equipment, carry out corresponding service control according to this steering order, without directly manipulated this Wearable equipment by user, thereby improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., made control operation simple.

The application also provides a kind of control system, comprise the Wearable equipment described in the electronic equipment described in above-described embodiment and above-described embodiment, by described electronic equipment and the Wearable equipment of the embodiment of the present application, can realize the control to Wearable equipment by this electronic equipment, for example character input shows, three-dimensional control to Wearable equipment displaying contents etc., thereby without user's direct control Wearable equipment, improve operation ease, when particularly Wearable equipment is headset equipment, the problems such as operation of having avoided raising one's hand, make control operation simple.In the time that touch-screen corresponding to the touch sensing unit of electronic equipment is larger, user can also realize bimanualness, has further improved operation ease.

In actual applications, this electronic equipment can be the smart machines such as mobile phone, panel computer, this Wearable equipment can be the smart machines such as intelligent glasses, thereby user is in the time wearing intelligent glasses and watch displaying contents, can realize the control operation to it by hand-hold electronic equipments, without taking intelligent glasses or the operation of raising one's hand, improve the convenience of operation.

Corresponding with the electronic equipment described in the above embodiments of the present application 1, with reference to Figure 10, show the process flow diagram of a kind of control method embodiment 1 of the application, this control method specifically electronic equipment based on described in above-described embodiment 1 is carried out, this electronic equipment can comprise data linkage unit, touch sensing unit, processing unit and transmitting element, and described method can comprise:

Step 1001: set up data channel with Wearable equipment.

Electronic equipment is the data channel with Wearable equipment by the foundation of data linkage unit.

Step 1002: detect the contact/Proximity operation of operating body, generate touch information.

Detect the contact/Proximity operation of operating body by touch sensing unit, generate touch information.

Touch sensing unit comprises touch area, and operating body by carrying out contact/Proximity operation in touch area, and touch area detects after touch/Proximity operation, generates corresponding touch information.If for example this touch area is for selecting the region of operation, operating body taps in this region selects operation, can generate corresponding contact information.

Touch sensing unit can comprise multiple touch areas, and the contact/Proximity operation of operating body all can be detected in each touch area, thereby generates different touch informations.

Step 1003: generate the first steering order according to described touch information.

Due to the touch information that processing unit generates according to touch sensing unit, generate the first steering order.

In the time that touch unit comprises multiple touch area, processing unit can, specifically for the different touch informations according to different touch areas, generate corresponding difference the first steering order.

Step 1004: described steering order is sent to described Wearable equipment by described data channel, by steering order described in described Wearable device responds, carries out corresponding service control.

The steering order that electronic equipment processing unit generates, is sent to Wearable equipment by it by described data channel by transmitting element.

Wearable equipment can respond this first steering order, carries out corresponding service control according to this first steering order, thereby realizes the control operation of operating body to Wearable equipment.This service control can be for example to close or open the service control of Wearable equipment output content, the service control of inputting, the service control that Wearable equipment output content is adjusted etc.

When processing unit is specifically for the different touch informations according to different touch areas, while generating corresponding difference the first steering order, this transmitting element can be stated the first different steering orders and is sent to described Wearable equipment by described data channel described, Wearable equipment can respond the first different steering orders, thereby carries out different service controls.

As another embodiment of the application, the method can also comprise:

Step 1005: the physical state information that detects described electronic equipment.

Step 1006: according to described physical state Information generation the second steering order.

Step 1007: described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, carries out corresponding service control.

This physical state information can be the motion state information of this electronic equipment, can comprise acceleration information, velocity information or direction of motion information etc.Can generate the second steering order according to this acceleration information, this second steering order can trigger its displaying contents of Wearable equipment control and move accordingly according to the motion state of described electronic equipment.The for example displaying contents of the current output of Wearable equipment is a spheroid, can control this spheroid and follow the motion state of electronic equipment and make corresponding motion.

In the present embodiment, electronic equipment and Wearable equipment are set up after data channel, and detect the contact/Proximity operation of operating body, generate touch information, generate the first steering order according to this touch information, and this first steering order is transferred to this Wearable equipment by this data channel, Wearable equipment can be carried out corresponding service control according to this first steering order, thereby realize the control to Wearable equipment by the present embodiment, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., make control operation simple.

Corresponding with the electronic equipment described in the above embodiments of the present application 2, with reference to Figure 11, the application also provides a kind of control method embodiment 2, this electronic equipment can comprise data linkage unit, touch sensing unit, processing unit and transmitting element, wherein this touch sensing unit comprises multiple touch areas, in the present embodiment, specifically carry out based on the electronic equipment described in above-described embodiment 2, described method can comprise:

Step 1101: set up data channel with Wearable equipment.

Step 1102: detect the first contact/Proximity operation of operating body, generate trace information.

Step 1103: identify described trace information, generate candidate characters, and generate the first steering order that comprises described at least one candidate characters.

Candidate characters is the character identical or close with the track of described operating body in this first touch area.Electronic equipment can detect user's handwriting input operation, take user's handwriting input Chinese character as example, in the time that user carries out in handwriting input operating process, described candidate characters can refer to corresponding stroke, radical etc. identical with trajectory shape, and candidate characters is now unique.In the time that user completes handwriting input operation, described candidate characters comprises the multiple candidate words identical or close with user's input trajectory etc.

Step 1104: the first steering order that comprises described candidate characters is sent to described Wearable equipment, by steering order described in described Wearable device responds, exports described candidate characters.

By after candidate characters output, because candidate characters may comprise multiplely, need user therefrom to select a unique candidate characters as target character.Therefore, described method can also comprise:

Step 1105: detect the second contact/Proximity operation of operating body, generate and select operation information.

Step 1106: according to described selection operation information, generate character selection instruction.

Step 1107: described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, determines target character from described candidate characters.

In addition, this electronic equipment can also detect the physical state information of himself, and according to described physical state Information generation the second steering order, is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, carry out corresponding service control.

In the present embodiment, electronic equipment and Wearable equipment are set up after data channel, and detect the contact/Proximity operation of operating body, can generate candidate characters, and determine the target character in candidate characters, and being sent to this Wearable equipment with steering order form, Wearable equipment is exportable candidate characters, and finally exports the target character that user selects.Thereby realize the control to Wearable equipment by the electronic equipment of the present embodiment, can realize the input operation to Wearable equipment by electronic equipment, without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., made control operation simple.

Corresponding with the electronic equipment described in the above embodiments of the present application 3, with reference to Figure 12, the application also provides a kind of control method embodiment 3, described method realizes based on this electronic equipment, this electronic equipment can comprise data linkage unit, touch sensing unit, processing unit and transmitting element, wherein this touch sensing unit comprises multiple touch areas, and described method comprises:

Step 1201: set up data channel with Wearable equipment;

Step 1202: detect the three contact/Proximity operation of operating body, generate X axis operation information and/or Y-axis operation information.

Step 1203: detect the four contact/Proximity operation of operating body, generate Z-axis direction operation information.

Step 1204: according to described X axis operation information, Y-axis operation information and/or Z-axis direction operation information, generate respectively X axis steering order, Y-axis steering order and/or Z-axis direction steering order.

Step 1205: described X axis steering order, Y-axis steering order and/or described Z-axis direction steering order are sent to Wearable equipment, by X axis steering order described in Wearable device responds, Y-axis steering order and/or and described Z-axis direction steering order, the displaying contents of output is controlled.

In the time that the output of Wearable equipment has the displaying contents of three-dimensional stereo effect, to the control of displaying contents may comprise to three disalignments at least one axial control, for example displaying contents is a movable spheroid, this spheroid can move in three-dimensional space, therefore in the present embodiment, the touch sensing unit of electronic equipment at least arranges the 3rd touch area and the 4th touch area, the 3rd touch area receives the contact/Proximity operation of operating body, form plane control information, it is the operation information of X axis and/or Y-axis, the 4th touch area receives the contact/Proximity operation of operating body, form the operation information of Z-axis direction.

In addition, this electronic equipment can also detect the physical state information of himself, and according to described physical state Information generation the second steering order, is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, carry out corresponding service control.

In the present embodiment, electronic equipment and Wearable equipment are set up after data channel, detect respectively the contact/Proximity operation of operating body, corresponding X axis steering order, Y-axis steering order and/or the Z-axis direction steering order of generating, and this steering order is sent to this Wearable equipment, this steering order of Wearable device responds, realizes the control of X axis, Y-axis or Z-axis direction to displaying contents.Realize the control to Wearable equipment by the electronic equipment of the present embodiment, particularly can realize three-dimensional control, make user without this Wearable equipment of direct control, improve operation ease, when particularly Wearable equipment is headset equipment, avoid raising one's hand operating etc., made control operation simple.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, between each embodiment identical similar part mutually referring to.For the disclosed device of embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates referring to method part.

It should be noted that, in this article, relational terms such as the first and second grades is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply and between these entities or operation, have the relation of any this reality or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thereby the process, method, article or the equipment that make to comprise a series of key elements not only comprise those key elements, but also comprise other key elements of clearly not listing, or be also included as the intrinsic key element of this process, method, article or equipment.The in the situation that of more restrictions not, the key element being limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment that comprises described key element and also have other identical element.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the application.To be apparent for those skilled in the art to the multiple modification of these embodiment, General Principle as defined herein can, in the case of not departing from the application's spirit or scope, realize in other embodiments.Therefore, the application will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (13)

1. an electronic equipment, is characterized in that, comprising:

Data linkage unit, for setting up data channel with Wearable equipment;

Touch sensing unit, for detection of the contact/Proximity operation of operating body, generates touch information;

Processing unit, for generating the first steering order according to described touch information;

Transmitting element, for described the first steering order is sent to described Wearable equipment by described data channel, by the first steering order described in described Wearable device responds, carries out corresponding service control.

2. electronic equipment according to claim 1, is characterized in that, described touch sensing unit at least comprises a touch area;

Described touch area, for detection of the contact/Proximity operation of operating body, generates touch information;

Described processing unit, specifically for the different touch informations according to different touch areas, generates corresponding difference the first steering order;

Described transmitting element, specifically for described the first different steering order is sent to described Wearable equipment by described data channel, by the first different steering order of described Wearable device responds, is carried out corresponding service control.

3. electronic equipment according to claim 1 and 2, is characterized in that, described touch sensing unit comprises the first touch area;

The track that described the first touch area forms for detection of the first contact/Proximity operation of operating body, generates trace information;

Described processing unit, specifically for identifying described trace information, generates candidate characters, and generates the character output order that comprises described candidate characters;

Described transmitting element, specifically for the character output order that comprises described candidate characters is sent to described Wearable equipment, by character output order described in described Wearable device responds, is exported described candidate characters.

4. electronic equipment according to claim 3, is characterized in that, described touch sensing unit also comprises the second touch area;

Described the second touch area, for detection of the second contact/Proximity operation of operating body, generates and selects operation information;

Described processing unit, also for according to described selection operation information, generates character selection instruction;

Described transmitting element, also for described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, is determined target character from described candidate characters.

5. electronic equipment according to claim 1 and 2, is characterized in that, described touch-control sensing unit comprises the 3rd touch area and the 4th touch area;

Described the 3rd touch area, for detection of the three contact/Proximity operation of operating body, generates X axis operation information and/or Y-axis operation information;

Described the 4th touch area, for detection of the four contact/Proximity operation of operating body, generates Z-axis direction operation information;

Described processing unit, specifically for respectively according to described X axis operation information, Y-axis operation information and/or Z-axis direction operation information, generates X axis steering order, Y-axis steering order and/or Z-axis direction steering order;

Described transmitting element is specifically for being sent to Wearable equipment by described X axis steering order, Y-axis steering order and/or described Z-axis direction steering order, by X axis steering order, Y-axis steering order and/or described Z-axis direction steering order described in Wearable device responds, the displaying contents of output is controlled.

6. electronic equipment according to claim 5, is characterized in that, described the 3rd touch area is circle detection region, and described the 4th touch area is the annular region of surrounding described the 3rd touch area.

7. electronic equipment according to claim 1, is characterized in that, also comprises:

Physical state detection unit, for detection of the physical state information of described electronic equipment;

Described processing unit is also for according to described physical state Information generation the second steering order;

Described transmitting element, also for described the second steering order is sent to described Wearable equipment, by the second steering order described in described Wearable device responds, is carried out corresponding service control.

8. a Wearable equipment, is characterized in that, comprising:

Fixed cell, wherein said Wearable equipment can be worn by operating body by described fixed cell;

Data linkage unit, for setting up data channel with an electronic equipment;

Receiving element, the steering order sending for receive described electronic equipment by described data channel;

Processing unit, for responding described steering order, carries out corresponding service control;

Display unit, for showing the result content of described processing unit;

Linkage unit, configuration connects described fixed cell and described display unit, wherein said linkage unit has the first state and the second state, under described the first state, described linkage unit makes at least Part I in described display unit have the primary importance relation with respect to described fixed cell, and under described the second state, described linkage unit makes described display unit have the second place relation with respect to described fixed cell.

9. a control system, is characterized in that, electronic equipment and the as claimed in claim 8 Wearable equipment of bag as described in claim 1 ~ 7 any one.

10. a control method, is characterized in that, is applied in an electronic equipment, and described method comprises:

Set up data channel with Wearable equipment;

Detect the contact/Proximity operation of operating body, generate touch information;

Generate steering order according to described touch information;

Described steering order is sent to described Wearable equipment by described data channel, by steering order described in described Wearable device responds, carries out corresponding service control.

11. methods according to claim 10, is characterized in that, the contact/Proximity operation of described detection operating body generates touch information and comprises:

The track that detects the first contact/Proximity operation of operating body and form, generates trace information;

The described touch information generation of described foundation steering order comprises:

Identify described trace information, generate candidate characters, and generate the first steering order that comprises described at least one candidate characters;

Describedly described steering order be sent to described Wearable equipment by described data channel comprise:

The first steering order that comprises described candidate characters is sent to described Wearable equipment, by steering order described in described Wearable device responds, exports described candidate characters.

12. methods according to claim 11, is characterized in that, described method also comprises:

Detect the second contact/Proximity operation of operating body, generate and select operation information;

According to described selection operation information, generate character selection instruction;

Described character selection instruction is sent to described Wearable equipment, by character selection instruction described in described Wearable device responds, from described candidate characters, determines target character.

13. methods according to claim 10, is characterized in that, the contact/Proximity operation of described detection operating body generates touch information and comprises:

Detect the three contact/Proximity operation of operating body, generate X axis operation information and/or Y-axis operation information;

Detect the four contact/Proximity operation of operating body, generate Z-axis direction operation information;

The described touch information generation of described foundation steering order comprises:

According to axial operation information and/or Z-axis direction operation information described in described X axis operation information, Y, generate respectively X axis steering order, Y-axis steering order and/or Z-axis direction steering order;

Describedly described steering order be sent to described Wearable equipment by described data channel comprise:

Described X axis steering order, described Y-axis steering order and/or described Z-axis direction steering order are sent to Wearable equipment, by X axis steering order, described Y-axis steering order and/or described Z-axis direction steering order described in Wearable device responds, the displaying contents of output is controlled.

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