CN105513330A - Command generation method, electronic equipment and wearable apparatus - Google Patents

Abstract

The present invention discloses a command generation method, electronic equipment and a wearable apparatus, wherein the command generation method is used in the electronic equipment, and the electronic equipment comprises a magnetic force sensing device, and the magnetic force sensing device has a predetermined sensing range. The method comprises: acquiring the sensing data of a sensing member positioned in the predetermined sensing range through the magnetic force sensing device, wherein the sensing member is made from a material capable of being sensed by a magnetic field; according to the sensing date, determining the rotation operation generated by the sensing member around a support body, wherein the sensing member is characterized by the sensing data and is positioned outside the electronic equipment; based on the rotation operation, generating a control command corresponding to the rotation operation; and responding the control command. According to the present invention, with the command generation method, the electronic equipment and the wearable apparatus, the technical problem that the control of the electronic equipment requires the arrangement of the remote controller having the power supply in the case of no contact of the electronic equipment so as to cause electricity consumption in the prior art can be solved.

Description

A kind of instruction generation method, electronic equipment and Wearable device

Technical field

The present invention relates to electronic technology field, particularly relate to a kind of instruction generation method, electronic equipment and Wearable device.

Background technology

Along with the develop rapidly of electronic technology, the electronic product of the life of people and network and various Various Functions links together all the more closely, in order to strengthen the Consumer's Experience of user when using electronic equipment, a lot of electronic equipment all possesses abundant function, and user can control by operation switching or the setting that electronic equipment carries out various function.

Current, the manipulation to electronic equipment just can be realized without touch-controlled electronic devices in order to make user, mainly by being the supporting electronic romote-controller that arranges of electronic equipment, user can by the button on operation electronic romote-controller or handle, telepilot is made to generate steering order, steering order is sent to by the bluetooth on telepilot, WIFI or the radio communication unit such as infrared the electronic equipment needing manipulation again, responds to make electronic equipment the steering order performing and receive.

But present inventor is in the process realizing invention technical scheme in the embodiment of the present application, find that above-mentioned technology at least exists following technical matters:

Electronic romote-controller needs circuit to generate steering order, and the output of steering order needs radio communication unit, and circuit and radio communication unit all need Power supply and could work, therefore needs to arrange power supply in electronic romote-controller.

That is, manipulate electronic equipment when not contacting electronic equipments in prior art, need the telepilot of configure band power supply, there is the technical matters of power consumption.

Summary of the invention

The embodiment of the present application, by providing a kind of instruction generation method, electronic equipment and Wearable device, solves in prior art and manipulates electronic equipment when not contacting electronic equipments, need the telepilot of configure band power supply, the technical matters of the power consumption of existence.

On the one hand, the embodiment of the present application provides following technical scheme:

A kind of instruction generation method, be applied in electronic equipment, described electronic equipment comprises magnetic force induction device, and described magnetic force induction device has predetermined induction range, and described method comprises:

The sensed data being positioned at the inductive means of described predetermined induction range is obtained by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make;

That determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

The steering order corresponding with described rotating operation is produced based on described rotating operation;

Respond described steering order.

Optionally, described according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can the rotating operation that produces by magnetic field around a supporter of the inductive means made of the material responded to, also comprise: according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

Optionally, describedly produce the steering order corresponding from described rotating operation based on described rotating operation and comprise: different that produce and that described rotating operation the is corresponding steering order of described rotational parameters of described rotating operation is different.

Optionally, the described steering order of described response comprises: the response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

Optionally, described magnetic force induction device is three axle magnetic force induction devices, and when described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain sensed data; The coordinate of the induction point in the three-axis reference of described three axle magnetic force induction device definition is converted to according to described sensed data; According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

Optionally, after the coordinate of the induction point in the described three-axis reference converting described three axle magnetic force induction device definition according to described sensed data to, also comprise: obtain the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed; According to described moving parameter, determine the described rotational parameters of described rotating operation.

On the other hand, the embodiment of the present application additionally provides a kind of electronic equipment, comprising:

Magnetic force induction device, for obtaining the sensed data of the inductive means being positioned at described predetermined induction range; Described inductive means for can the material responded to by magnetic field make;

Determination module, is positioned at for what determine according to described sensed data that described sensed data characterizes the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

Control module, for producing the steering order corresponding with described rotating operation based on described rotating operation;

Respond module, for responding described steering order.

Optionally, described determination module also for: according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

Optionally, the steering order corresponding from described rotating operation that also produce for the described rotational parameters difference of: described rotating operation of described control module is different.

Optionally, the response parameter of described respond module also for: the described steering order that the described rotating operation of response corresponding to the described rotational parameters difference of described rotating operation produces is different.

Optionally, described magnetic force induction device is three axle magnetic force induction devices, and when described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain described sensed data; Described determination module also for: convert the coordinate of induction point in the three-axis reference of described three axle magnetic force induction devices definition to according to described sensed data; According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

Optionally, described determination module also comprises: acquiring unit, and for obtaining the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed; Determining unit, for according to described moving parameter, determines the described rotational parameters of described rotating operation.

Again on the one hand, the embodiment of the present application also provides a kind of Wearable device, comprising:

Frame body, described frame body comprise can the inductive means made by magnetic field of the material responded to;

Stationary installation, described stationary installation is connected with described frame body, and described stationary installation is for being fixed on supporter by described Wearable device and described frame body and described stationary installation form an annulus when described Wearable device is fixed on described supporter by described stationary installation; To make user, with described supporter, for axis rotates, described Wearable device changes the relative position relative to described supporter of described inductive means thus controls to sense the electronic equipment of the described rotation of described Wearable device.

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

1, the method, electronic equipment and the device that provide of the embodiment of the present application, by the rotating operation of magnetic force induction device sensitive parts, to generate corresponding steering order to manipulate electronic equipment, due to inductive means only require with can the material responded to by magnetic field make, do not need configuration power supply to power, achieve the technique effect saving electric energy.

2, the method, electronic equipment and the device that provide of the embodiment of the present application, can according to the difference of rotating operation, generate different steering orders, can also according to the difference of the rotational parameters of rotating operation, the response parameter of operation response is different, therefore can diversified steering order be generated, realize diversified manipulation effect.

3, the method, electronic equipment and the device that provide of the embodiment of the present application, to sense that the first sensed parameter that inductive means rotates converts the induction point in the three-axis reference of described three axle magnetic force induction devices definition to, and the rotational parameters of rotating operation and rotating operation is determined according to the coordinate of induction point and/or motion state, the rotary state of inductive means can be obtained more accurately, thus generate steering order accurately, improve the accuracy of manipulation electronic equipment.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of instruction generation method in the embodiment of the present invention one;

Fig. 2 is the schematic diagram of induction point in the embodiment of the present invention one;

Fig. 3 A is the schematic diagram one determining rotational parameters in the embodiment of the present invention one;

Fig. 3 B is the schematic diagram two determining rotational parameters in the embodiment of the present invention one;

Fig. 4 is the structural drawing of electronic equipment in the embodiment of the present invention two;

Fig. 5 is the structural drawing of Wearable device in the embodiment of the present invention three.

Embodiment

The embodiment of the present application, by providing a kind of instruction generation method, electronic equipment and Wearable device, solves in prior art and manipulates electronic equipment when not contacting electronic equipments, need the telepilot of configure band power supply, the technical matters of the power consumption of existence.Achieve the technique effect saving electric energy.

In order to solve the technical matters of the power consumption that above-mentioned prior art exists, the general thought of the technical scheme that the embodiment of the present application provides is as follows:

A kind of instruction generation method, be applied in electronic equipment, described electronic equipment comprises magnetic force induction device, and described magnetic force induction device has predetermined induction range, and described method comprises:

The sensed data being positioned at the inductive means of described predetermined induction range is obtained by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make;

That determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

The steering order corresponding with described rotating operation is produced based on described rotating operation;

Respond described steering order.

Can be found out by foregoing, by the rotating operation of magnetic force induction device sensitive parts, to generate corresponding steering order to manipulate electronic equipment, due to inductive means only require with can the material responded to by magnetic field make, do not need configuration power supply to power, achieve the technique effect saving electric energy.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail, the specific features being to be understood that in the embodiment of the present invention and embodiment is the detailed description to technical scheme, instead of the restriction to technical scheme, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

Embodiment one:

A kind of instruction generation method is provided in embodiment one, be applied in electronic equipment, described electronic equipment comprises magnetic force induction device, described magnetic force induction device has predetermined induction range, please refer to Fig. 1, Fig. 1 is the process flow diagram of the information processing method of the embodiment of the present application one, and described method comprises:

Step S101, obtains the sensed data being positioned at the inductive means of described predetermined induction range by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make;

Step S102, that determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

Step S103, produces the steering order corresponding with described rotating operation based on described rotating operation;

Step S104, responds described steering order.

In specific implementation process, described electronic equipment can be the electronic equipments such as televisor, air-conditioning, mobile phone, notebook, panel computer, desktop computer, intelligent watch or intelligent helmet, will not enumerate in the present embodiment.

Below with described electronic equipment for televisor, described inductive means is the finger ring be worn on user a finger is example, from the angle of man-machine interaction, tentatively illustrates the instruction generation method in the present embodiment.

Such as: suppose that televisor is in holding state, when user a wants to activate televisor, user a walks close to televisor, enters the predetermined induction range of magnetic force induction device on televisor, to make electronic equipment perform step S101, induction obtains the sensed data of the finger ring on user a finger;

Finger ring is rotated 360 degree by following user a, to make electronic equipment perform step S102, determines that the thorny machine of finger ring produces the rotating operation of 360 degree according to sensed data;

Subsequently, televisor continues to perform step S103 and step S104, generates and rotates 360 degree of corresponding activation instructions with finger ring, and responds activation instruction activation televisor and enter broadcast state;

When user a wants to make televisor be in holding state, finger ring is rotated 180 degree by user a, determines that the thorny machine of finger ring produces the rotating operation of 180 degree to make electronic equipment according to sensed data;

Then, televisor generates and rotates 180 degree of corresponding standby commands with finger ring, and responds standby command control televisor and enter holding state.

After tentatively understood the information processing method that the present embodiment provides by above-mentioned example, the specific implementation step of the method that the embodiment of the present application provides will be introduced in detail below:

First, perform step S101, obtained the sensed data being positioned at the inductive means of described predetermined induction range by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make.

In specific implementation process, carry with easy to operate for the ease of described inductive means, can arrange described inductive means is to be worn on the finger ring on user's finger, can also arrange described inductive means is to be worn on bracelet in user's wrist or wrist-watch, can also arrange described inductive means is the necklace weight that can be worn on user's neck, certainly, described inductive means also can be independently non-wearable parts, is not restricted in the present embodiment.

In specific implementation process, described inductive means can be all or part of can the material responded to by magnetic field make, such as ndfeb magnet material, samarium cobalt permanent magnet iron material matter or alnico magnet material, be not restricted in the present embodiment.

Specifically, described magnetic force induction device obtains the sensed data of inductive means, can be that magnetic force induction device is responded to and records the data obtaining the magnetic field that inductive means produces, described sensed data comprises the magnetic field magnetic field intensity in different directions that inductive means produces.

After obtaining described sensed data by step S101, perform step S102, that namely determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter.

In the embodiment of the present application, described according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can the rotating operation that produces by magnetic field around a supporter of the inductive means made of the material responded to, also comprise:

According to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

Described rotational parameters is any one or multiple combination in the rotational angle parameter of described inductive means, rotation direction parameter and velocity of rotation parameter.

Below, be three axle magnetic force induction devices for described magnetic force induction device, composition graphs 2, illustrate respectively and how to determine that described inductive means produces rotating operation around a supporter according to described sensed data, and how to determine that described inductive means produces the rotational parameters of rotating operation around a supporter according to described sensed data.

First, illustrate how to determine that described inductive means produces rotating operation around a supporter according to described sensed data.

As shown in Figure 2, three axle magnetic force induction devices 201 can define a three-axis reference 202, comprise X-axis, Y-axis and Z axis, when inductive means 203 enters the predetermined induction range of three axle magnetic force induction devices 201, three axle magnetic force induction devices 201 can respond to record inductive means 203 produce each axle of magnetic field in described three-axis reference 202 direction on field strength values as sensed data, when using the field strength values on three direction of principal axis as the coordinate time on the direction of three axles, the magnetic field data of inductive means 203 corresponds to an induction point in three-axis reference 202,

When described inductive means 203 is subject to external force, when supporter produces rotation, described three axle magnetic force induction devices 201 obtain the field strength values of magnetic field at different time of inductive means 203 generation; Correspondence is walked around and is changed to a series of induction points of in chronological sequence order appearance in three-axis reference 202, and then acquisition induction point changes the motion track in three-axis reference 202 in time;

Such as: as shown in Figure 2, when inductive means 203 rotates clockwise, the forked induction point in three-axis reference 202 is order in chronological sequence, occurs with the track shown in arrow 204;

When the motion track of sequencing in three-axis reference 202 mates with the motion track preset induction point in time, determine that inductive means 203 produces rotating operation around a supporter.Wherein, described default motion track can be rotate inductive means 203 in advance and the motion track of the induction point of corresponding stored.

Next, illustrate how to determine that described inductive means produces the rotational parameters of rotating operation around a supporter according to described sensed data.

Please refer to Fig. 2 equally, when described inductive means 203 is subject to external force, when supporter produces rotation, described three axle magnetic force induction devices 201 obtain the field strength values of magnetic field at different time of inductive means 203 generation; Correspondence is walked around and is changed to a series of induction points of in chronological sequence order appearance in three-axis reference 202, according to sensitive time and the coordinate of each induction point, calculate and obtain the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed; Wherein, described motion track can by chronological sequence sequentially carrying out the Fitting Calculation acquisition to induction point;

According to described moving parameter, determine that the method for the described rotational parameters of described rotating operation can be divided into: directly calculate rotational parameters and the corresponding relation determination rotational parameters two kinds according to the moving parameter prestored and rotational parameters according to moving parameter, be described respectively below:

The first, according to moving parameter calculate rotational parameters.

In specific implementation process, in the three-axis reference that can define at three axle magnetic force induction devices, directly calculate rotational parameters according to moving parameters such as the sensitive time of each induction point, the changing coordinates of induction point and the induction point motion tracks that simulates.

Consider the method for the rotational parameters determining described inductive means generation rotating operation in three-axis reference, need to carry out the calculating such as track fitting in three-axis reference, calculated amount is larger, in the embodiment of the present application, provide a kind of method induction point being mapped in two-dimensional coordinate system the rotational parameters determined described inductive means generation rotating operation again and determine rotating operation, below in conjunction with Fig. 3 A, details are as follows:

As shown in Figure 3A, the three-axis reference 202 that three axle magnetic force induction devices define, comprise X-axis, Y-axis and Z axis, when inductive means rotates in the predetermined induction range of three axle magnetic force induction devices, the induction point that three axle magnetic force induction devices induce in three-axis reference 202 in chronological sequence order, present with the track shown in arrow 204, in figure 3 a, the induction point in three-axis reference 202 is with forked point identification;

Projected to by induction point in three-axis reference 202 in two dimensional surface 301, its subpoint is as shown in the round dot in Fig. 3 A and 3B.

In specific implementation process, the computation process projected to by the induction point in three-axis reference 202 in two dimensional surface 301 is:

Least square fitting is first used to go out from the nearest two dimensional surface 301 of the mean distance of all induction points in three-axis reference 202;

Again induction point is projected to one by one on two dimensional surface 301, form subpoint.

Two dimensional surface 301 arranges perpendicular X ' axle and a Y ' axle, and obtains the coordinate of all subpoints on X ' axle and Y ' axle, go out a circle 302 according to the coordinate fitting of all subpoints on X ' axle and Y ' axle.

Suppose that the coordinate of i-th subpoint on X ' axle and Y ' axle is (x _i, y _i), first according to formula:

$\left[\begin{array}{ccc}\mathrm{\Σ}{x}_i^2& \mathrm{\Σ}{x}_i{y}_i& \mathrm{\Σ}{x}_i\\ \mathrm{\Σ}{x}_i{y}_i& \mathrm{\Σ}{y}_i^2& \mathrm{\Σ}{y}_i\\ \mathrm{\Σ}{x}_i& \mathrm{\Σ}{y}_i& n\end{array}\right]\left[\begin{array}{c}A\\ B\\ C\end{array}\right]=\left[\begin{array}{c}\mathrm{\Σ}{x}_i(x_i^2+y_i^2)\\ \mathrm{\Σ}{y}_i(x_i^2+y_i^2)\\ \mathrm{\Σ}{x}_i^2+y_i^2\end{array}\right]$

Calculate the value of A, B, C, wherein, n is the number of subpoint, then by formula x=-A/2; Y=-B/2; R=(√ 4C+A ²+ B ²)/2, calculate the center of circle (x, y) and the radius r of the circle 302 simulated.

Determine the rotational angle in rotational parameters, can determine according to the subpoint motion track that in chronological sequence order is formed, when the motion track of subpoint is clockwise, determine that inductive means rotates clockwise; When the motion track of subpoint is counterclockwise, determine that inductive means rotates counterclockwise.

Determine the rotational angle in rotational parameters, the subpoint of current induction point on two dimensional surface 301 and the center of circle can be linked to be a terminal straight line, the subpoint of the induction point started when rotating on two dimensional surface 301 and the center of circle are linked to be a starting point straight line, and the angle between starting point straight line and terminal straight line is described rotational angle.

Determine the velocity of rotation in rotational parameters, by the motion track of subpoint that simulates divided by the traveling time length of subpoint, the translational speed of subpoint can be calculated, determine that the translational speed of subpoint is the velocity of rotation of inductive means 203.

The second, corresponding relation determination rotational parameters according to the moving parameter that prestores and rotational parameters.

Specifically, determine the rotation direction in rotational parameters, can by the motion track in the moving parameter of acquisition, when when moving clockwise with the inductive means 203 prestored respectively, the catatrepsis track of induction point moves counterclockwise with the inductive means 203 prestored, the reverse motion track of induction point contrasts.

When the motion track in moving parameter and catatrepsis path matching, determine that inductive means rotates clockwise; When the motion track in moving parameter mates with reverse motion track, determine that inductive means rotates counterclockwise;

Determine the rotational angle in rotational parameters, can by the motion track in the moving parameter of acquisition, the motion track corresponding from the different rotational angles of the inductive means 203 prestored contrasts, and determines rotational angle according to matching result.

Determine the velocity of rotation in rotational parameters, motion track in the moving parameter of acquisition can be sentenced the traveling time length of induction point, calculate the translational speed of the induction point in moving parameter, again from the corresponding relation of the velocity of rotation of the translational speed of the induction point prestored and inductive means 203, determine the velocity of rotation of inductive means 203.

Further, consider and above-mentionedly determine that described inductive means produces rotating operation and determines the method for rotational parameters of rotating operation, need to carry out the calculating such as path matching in the three-axis reference defined at three axle magnetic force induction devices, calculated amount is larger, in the embodiment of the present application, induction point can also to be mapped in two-dimensional coordinate system the corresponding relation determination rotational parameters again according to the moving parameter prestored and rotational parameters, details are as follows:

As shown in Figure 3 B, the three-axis reference 202 that three axle magnetic force induction devices define, comprise X-axis, Y-axis and Z axis, when inductive means rotates in the predetermined induction range of three axle magnetic force induction devices, the induction point that three axle magnetic force induction devices induce in three-axis reference 202 in chronological sequence order, present with the track shown in arrow 204, in figure 3b, the induction point in three-axis reference 202 is with forked point identification;

Induction point in three-axis reference 202 is projected in default two-dimensional coordinate system plane 303, its subpoint is as shown in the round dot in Fig. 3 B, according to the coordinate of subpoint in two-dimensional coordinate system plane 303 and the sensitive time of the corresponding induction point of subpoint, can calculate and obtain the moving parameter of described subpoint in described two-dimensional coordinate system, described moving parameter is one or more the combination in the motion track shown in arrow 304, changing coordinates, translational speed; Wherein, described motion track can by chronological sequence sequentially carrying out the Fitting Calculation acquisition to subpoint; Translational speed can calculate according to motion track and corresponding time span and obtain;

According to the moving parameter of described subpoint in two-dimensional coordinate system plane 303, and the corresponding relation of the rotational parameters of the moving parameter of the subpoint prestored in two-dimensional coordinate system plane 303 and inductive means, determine the described rotational parameters of described rotating operation.

Certainly in specific implementation process, all the other planes that the two dimensional surface of two dimensional surface, Y-axis and the Z axis composition that two dimensional surface, X-axis and Z axis that described two-dimensional coordinate system plane 303 can form for X-axis and Y-axis form or matching are determined, are not restricted in the present embodiment.

Specifically, the square ratio juris of the rotational parameters of the corresponding relation determination inductive means of the method for the rotation direction of the moving parameter prestored in two-dimensional coordinate system plane according to subpoint and the corresponding relation determination inductive means of rotational parameters, angle and the rotational parameters such as speed and the aforementioned moving parameter that prestores in three-axis reference 202 according to induction point and rotational parameters is identical, is not repeated at this.

Specifically, induction point in three-axis reference is projected as the subpoint in two-dimensional coordinate system, the rotational parameters of inductive means is determined again according to the motion track of subpoint, the moving parameter such as coordinate or translational speed, by the image matching that the computational short cuts such as the image matching of three-dimensional coordinate are two-dimensional coordinate, decrease the calculated amount of electronic equipment, improve processing speed.

After the rotating operation being determined inductive means by step S102, perform step S103 and step S104, namely produce the steering order corresponding with described rotating operation based on described rotating operation; Respond described steering order.

In specific implementation process, can according to the rotation direction in described rotational parameters, the difference of rotational angle or rotation direction generates different steering orders and response parameter, to realize manipulating the variation of electronic equipment.Illustrate respectively below.

The first, rotational parameters difference produces the situation of different steering orders.

In the embodiment of the present application, describedly produce the steering order corresponding with described rotating operation based on described rotating operation and comprise:

The steering order corresponding from described rotating operation that the described rotational parameters difference of described rotating operation produces is different.

Such as, when rotational parameters shows that user rotates inductive means 180 degree, corresponding generation standby command, when rotational parameters shows that user rotates inductive means 360 degree, corresponding generation open command.

Also can arrange a pair fiducial mark to know on inductive means, when rotational parameters shows that aiming at mark points to ground level, corresponding generation shutdown command, when rotational parameters shows that aiming at mark points to the opposite direction of ground level, the corresponding instruction generating screen locking, when rotational parameters shows to aim at mark with ground level parallel, corresponding generating solution shields instruction.

Can also arrange when rotational parameters shows that inductive means rotates clockwise, the corresponding instruction generating incoming call answering, when rotational parameters shows that inductive means comes and goes back rotation, the corresponding instruction generating hanging up calling.

The second, the situation of the different corresponding different response parameter of rotational parameters.

In the embodiment of the present application, the described steering order of described response comprises:

The response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

Such as, when user browses e-book, user rotates inductive means, the corresponding instruction generating page turning, if rotational parameters shows that user rotates clockwise inductive means, then electronic equipment response is the direction page turning of pressing page number increase, if rotational parameters shows user and rotates counterclockwise inductive means, then electronic equipment response is the direction page turning of pressing page number minimizing, and can control the speed of page turning according to velocity of rotation.

Also can arrange, when user listens to the music, user rotates inductive means, the instruction of corresponding generation volume adjusting, if rotational parameters shows that user rotates clockwise inductive means, then electronic equipment response is for increasing volume, if rotational parameters shows user and rotates counterclockwise inductive means, then electronic equipment response is for reducing volume, and can control speed and/or the size of volume adjusting according to velocity of rotation and/or rotational angle.

Can also arrange, when user in lists select target item time, user rotates inductive means, corresponding generation target selection instruction, if rotational parameters shows that user rotates clockwise inductive means, then electronic equipment response is the select target that moves up, if rotational parameters shows that user rotates counterclockwise inductive means, then electronic equipment response is for moving down select target, if rotational parameters shows to come back rotation inductive means, then corresponding generation target determination instruction, determines the target selecting current selection.

Finally, in order to better understand the instruction generation method that the embodiment of the present application one provides, be be worn on user's intelligent watch on hand with described first electronic equipment, inductive means is the parts be arranged on ring, described intelligent watch can be worn on the on hand same of user with described ring, to ensure that inductive means is in the predetermined induction range of the magnetic force induction device of intelligent watch, the scheme of the embodiment of the present application one is described from the angle of man-machine interaction:

On the display unit of intelligent watch, show music list, when user selects music on intelligent watch, user rotates the ring be worn on finger with first direction, and the thorny finger of inductive means is rotated;

Magnetic force induction device on intelligent watch obtains the sensed data of the inductive means be positioned on the ring of described predetermined induction range;

According to described sensed data, intelligent watch determines that ring is rotating with first direction; Then generate and rotate the corresponding instruction moving down select target with described with first direction;

Move down the instruction of select target described in intelligent watch response, along music list, move down the music confirming to play successively, when confirm the music play be user need the target music play time, user stops operating ring;

Following user rotates back and forth ring, to make intelligent watch sense rotating back and forth of ring, and corresponding generation play instruction, play described target music.

Specifically, because the viewing area area of intelligent watch is less, wrist-watch volume is also less, be not easy to user perform contact action to manipulate, also being not easy to user uses the control knob that intelligent watch is arranged to manipulate, therefore the manipulation using the ring being provided with sensing unit to realize intelligent watch, the electric energy of operating element can be saved on the one hand, the manipulation of user to small-size electronic equipments such as intelligent watchs can be convenient on the other hand.

Embodiment two:

In embodiment two, provide a kind of electronic equipment, in actual applications, this electronic equipment can be the electronic equipments such as televisor, air-conditioning, mobile phone, notebook, panel computer, desktop computer, intelligent watch or intelligent helmet, will not enumerate in the present embodiment.

Please refer to Fig. 4, Fig. 4 is the structural drawing of the electronic equipment of the embodiment of the present invention two, and described electronic equipment comprises:

Magnetic force induction device 401, for obtaining the sensed data of the inductive means being positioned at described predetermined induction range; Described inductive means for can the material responded to by magnetic field make;

Determination module 402, is positioned at for what determine according to described sensed data that described sensed data characterizes the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

Control module 403, for producing the steering order corresponding with described rotating operation based on described rotating operation;

Respond module 404, for responding described steering order.

In the embodiment of the present application, described determination module 402 also for:

According to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

In the embodiment of the present application, described control module 403 also for:

The steering order corresponding from described rotating operation that the described rotational parameters difference of described rotating operation produces is different.

In the embodiment of the present application, described respond module 404 also for:

The response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

In the embodiment of the present application, described magnetic force induction device 401 is three axle magnetic force induction devices, and when described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain described sensed data;

Described determination module 402 also for: convert the coordinate of induction point in the three-axis reference of described three axle magnetic force induction devices definition to according to described sensed data; According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

In the embodiment of the present application, described determination module 402 also comprises:

Acquiring unit, for obtaining the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed;

Determining unit, for the corresponding relation according to described moving parameter and the moving parameter prestored and rotational parameters, determines the described rotational parameters of described rotating operation.

Instruction production method in the electronic equipment provided in the present embodiment and embodiment one, based on the aspect of two under same inventive concept, detailed description is done to the implementation process of method above, so those skilled in the art can according to the structure of the electronic equipment in aforementioned understanding the present embodiment be described clearly and implementation process, succinct in order to instructions, has just repeated no more at this.

After having understood instruction generation method provided by the invention and electronic equipment, introduce inductive means matching used with described electronic equipment in embodiment one and embodiment two below.

Embodiment three:

In embodiment three, provide a kind of Wearable device, described Wearable device is specially the inductive means in embodiment one and embodiment two.

In actual applications, described Wearable device can, for the finger ring that can be worn on user's finger, can also be the bracelet or wrist-watch that can be worn in user's wrist, for being worn on the necklace etc. of user's neck, can also will not enumerate in the present embodiment.

Please refer to Fig. 5, Fig. 5 is the structural drawing of the Wearable device of the embodiment of the present invention three, and described Wearable device comprises:

Frame body 501, described frame body 501 comprise can the inductive means made by magnetic field of the material responded to;

Stationary installation 502, described stationary installation 502 is connected with described frame body 501, and described stationary installation 502 is for being fixed on supporter by described Wearable device and described frame body 501 and described stationary installation 502 form an annulus when described Wearable device is fixed on described supporter by described stationary installation 502; To make user, with described supporter, for axis rotates, described Wearable device changes the relative position relative to described supporter of described inductive means thus controls to sense the electronic equipment of the described rotation of described Wearable device.

In the present embodiment, described electronic equipment can be the electronic equipments such as the televisor, air-conditioning, mobile phone, notebook, panel computer, desktop computer, intelligent watch or the intelligent helmet that provide in embodiment two, will not enumerate in the present embodiment.

In specific implementation process, described inductive means can be all or part of can the material responded to by magnetic field make, such as ndfeb magnet material, samarium cobalt permanent magnet iron material matter or alnico magnet material, be not restricted in the present embodiment.

Technical scheme in above-mentioned the embodiment of the present application, at least has following technique effect or advantage:

1, the method, electronic equipment and the device that provide of the embodiment of the present application, by the rotating operation of magnetic force induction device sensitive parts, to generate corresponding steering order to manipulate electronic equipment, due to inductive means only require with can the material responded to by magnetic field make, do not need configuration power supply to power, achieve the technique effect saving electric energy.

2, the method, electronic equipment and the device that provide of the embodiment of the present application, can according to the difference of rotating operation, generate different steering orders, can also according to the difference of the rotational parameters of rotating operation, the response parameter of operation response is different, therefore can diversified steering order be generated, realize diversified manipulation effect.

3, the method, electronic equipment and the device that provide of the embodiment of the present application, to sense that the first sensed parameter that inductive means rotates converts the induction point in the three-axis reference of described three axle magnetic force induction devices definition to, and the rotational parameters of rotating operation and rotating operation is determined according to the coordinate of induction point and/or motion state, the rotary state of inductive means can be obtained more accurately, thus generate steering order accurately, improve the accuracy of manipulation electronic equipment.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Specifically, the computer program instructions that two kinds of information processing methods in the embodiment of the present application are corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk.

For the instruction generation method that embodiment one provides, when the computer program instructions corresponding with described instruction generation method in storage medium is read by an electronic equipment or be performed, comprise the steps:

The sensed data being positioned at the inductive means of described predetermined induction range is obtained by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make;

That determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

The steering order corresponding with described rotating operation is produced based on described rotating operation;

Respond described steering order.

Optionally, that store in described storage medium and step: according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can the rotating operation that produces by magnetic field around a supporter of the inductive means made of the material responded to, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

According to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

Optionally, store in described storage medium with step: produce the steering order corresponding with described rotating operation based on described rotating operation, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

The steering order corresponding from described rotating operation that the described rotational parameters difference of described rotating operation produces is different.

Optionally, that store in described storage medium and step: respond described steering order, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

The response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

Optionally, when described magnetic force induction device is three axle magnetic force induction device, that store in described storage medium and step: according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can the rotating operation that produces by magnetic field around a supporter of the inductive means made of the material responded to, corresponding computer instruction, being specifically performed in process, specifically comprises the steps:

When described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain sensed data;

The coordinate of the induction point in the three-axis reference of described three axle magnetic force induction device definition is converted to according to described sensed data;

According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: the coordinate converting the induction point in the three-axis reference that described three axle magnetic force induction devices define according to described sensed data to, being performed after corresponding computer instruction is performed, comprising the steps: when being performed

Obtain the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed;

According to described moving parameter, determine the described rotational parameters of described rotating operation.

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

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

Claims (13)

1. an instruction generation method, is applied in electronic equipment, and described electronic equipment comprises magnetic force induction device, and described magnetic force induction device has predetermined induction range, and described method comprises:

The sensed data being positioned at the inductive means of described predetermined induction range is obtained by described magnetic force induction device; Described inductive means for can the material responded to by magnetic field make;

That determines that described sensed data characterizes according to described sensed data is positioned at the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

The steering order corresponding with described rotating operation is produced based on described rotating operation;

Respond described steering order.

2. the method for claim 1, it is characterized in that, described according to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can the rotating operation that produces by magnetic field around a supporter of the inductive means made of the material responded to, also comprise:

According to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

3. method as claimed in claim 2, is characterized in that, describedly produces the steering order corresponding with described rotating operation based on described rotating operation and comprises:

The steering order corresponding from described rotating operation that the described rotational parameters difference of described rotating operation produces is different.

4. method as claimed in claim 2, it is characterized in that, the described steering order of described response comprises:

The response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

5. the method for claim 1, is characterized in that, described magnetic force induction device is three axle magnetic force induction devices, and when described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain sensed data;

The coordinate of the induction point in the three-axis reference of described three axle magnetic force induction device definition is converted to according to described sensed data;

According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

6. method as claimed in claim 5, is characterized in that, after the coordinate of the induction point in the described three-axis reference converting described three axle magnetic force induction device definition according to described sensed data to, also comprises:

Obtain the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed;

According to described moving parameter, determine the described rotational parameters of described rotating operation.

7. an electronic equipment, described electronic equipment comprises:

Magnetic force induction device, for obtaining the sensed data of the inductive means being positioned at described predetermined induction range; Described inductive means for can the material responded to by magnetic field make;

Determination module, is positioned at for what determine according to described sensed data that described sensed data characterizes the rotating operation that the described inductive means beyond described electronic equipment produces around a supporter;

Control module, for producing the steering order corresponding with described rotating operation based on described rotating operation;

Respond module, for responding described steering order.

8. electronic equipment as claimed in claim 7, is characterized in that, described determination module also for:

According to described sensed data determine that described sensed data characterizes be positioned at beyond described electronic equipment can by magnetic field the rotational parameters of the rotating operation that produces around a supporter of the inductive means made of the material responded to and described rotating operation.

9. electronic equipment as claimed in claim 8, is characterized in that, described control module also for:

The steering order corresponding from described rotating operation that the described rotational parameters difference of described rotating operation produces is different.

10. electronic equipment as claimed in claim 8, is characterized in that, described respond module also for:

The response parameter of the described steering order that the described rotating operation of response corresponding to described rotational parameters difference of described rotating operation produces is different.

11. electronic equipments as claimed in claim 7, is characterized in that, described magnetic force induction device is three axle magnetic force induction devices, and when described inductive means is subject to external force, described in when described supporter produces rotation, three axle magnetic force induction devices obtain described sensed data;

Described determination module also for: convert the coordinate of induction point in the three-axis reference of described three axle magnetic force induction devices definition to according to described sensed data; According to the motion track of described induction point in described three-axis reference, determine that described inductive means produces rotating operation around described supporter.

12. electronic equipments as claimed in claim 11, it is characterized in that, described determination module also comprises:

Acquiring unit, for obtaining the moving parameter of described induction point in described three-axis reference, described moving parameter is one or more the combination in motion track, changing coordinates, translational speed;

Determining unit, for according to described moving parameter, determines the described rotational parameters of described rotating operation.

13. 1 kinds of Wearable devices, described Wearable device comprises:

Frame body, described frame body comprise can the inductive means made by magnetic field of the material responded to;

Stationary installation, described stationary installation is connected with described frame body, and described stationary installation is for being fixed on supporter by described Wearable device and described frame body and described stationary installation form an annulus when described Wearable device is fixed on described supporter by described stationary installation; To make user, with described supporter, for axis rotates, described Wearable device changes the relative position relative to described supporter of described inductive means thus controls to sense the electronic equipment of the described rotation of described Wearable device.