CN103713752A - Orientation identification method and device - Google Patents

Abstract

The invention relates to the field of electronic devices, in particular to orientation identification method and device. The orientation identification method is applied to a first electronic device with at least two conductive contacts including a first conductive contact and a second conductive contact, and a first click frequency set for the first conductive contact has one-to-one correspondence relation with the first conductive contact. The orientation identification method includes: when the conductive contacts of the first electronic device contact with a touch sensor unit of the second electronic device, the first conductive contact generates a first point-contact signal, the second conductive contact generates a second point-contact signal, the second electronic device determines information of relative positions of the first conductive contact and the second conductive contact according to the first point-contact signal and the second point-contact signal and the first click frequency of the first conductive contact, and the information of relative position is used for indicating orientation of the first electronic device.

Description

A kind of orientation recognition method and apparatus

Technical field

The present invention relates to electronic device field, particularly relate to a kind of orientation recognition method and apparatus.

Background technology

Along with the development of touch technology, the electronic equipment with touch sensing unit is widely used, such as mobile phone, panel computer, notebook, telepilot etc.User is by operating body contacts such as finger, felt pens or approach touch sensing unit, can, by the contact position information of obtaining, realize the control operation to electronic equipment.The principle of work of touch sensing unit is according to the signal that taps detecting, and obtains the positional information of contact, and contact information is processed, and generates corresponding control command, realizes control operation.Usually, touch sensing unit is with the form appearance of touch-screen, and touch-screen of the prior art is mainly divided into resistive touch screen, capacitive touch screen, infrared touch panel, the types such as acoustic wave touching screen.These touch sensing unit all more exactly identifying operation body in the position of touch-screen.But when operating body is realized multi-point touch, for example, when operating body has a plurality of points to touch screen, touch-screen only can be identified the position of each contact on screen, but direction that can not identifying operation body can not obtain direction and the attitude of described operating body on screen.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the present invention provides a kind of orientation recognition method and apparatus, can identify the orientation of electronic equipment on screen.Technical scheme is as follows:

According to the first aspect of the embodiment of the present invention, a kind of orientation recognition method is disclosed, described method is applied to the first electronic equipment, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described method comprises:

When at least two conductive contacts of described the first electronic equipment contact the touch sensing unit of the second electronic equipment, described the first conductive contact generates first and taps signal, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency.

Further, described the second conductive contact generates second and taps signal and be specially:

Described the second conductive contact generates constantly second and taps signal.

Further, described the second conductive contact generates second and taps signal and be specially:

Described the second conductive contact taps signal with compartment of terrain generation second round second; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.

Further, described the first electronic equipment has vibrating device, and described method also comprises:

Receive relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission;

According to described relative position information and touch information, determine direction of vibration;

According to definite direction of vibration, control described vibrating device and produce vibration.

Further, when the distance between described conductive contact is less than predeterminable range, for described conductive contact arranges different click frequency.

According to the second aspect of the embodiment of the present invention, a kind of orientation recognition method is disclosed, described method is applied to the second electronic equipment, and described the second electronic equipment has touch sensing unit, and described method comprises:

Described touch sensing unit detects whether tap signal generation;

When described touch sensing unit detect that at least two conductive contacts of the first electronic equipment generate first when tapping signal and second and tapping signal, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

Further, describedly according to described first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determines that the relative position information of described the first conductive contact and the second conductive contact comprises:

According to first, tapping signal and second taps signal and determines corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact;

According to the first click frequency, identify the first conductive contact, set up the corresponding relation of the first conductive contact and primary importance information;

According to the corresponding relation of described the first conductive contact and primary importance information and second place information, determine the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

Further, described method also comprises:

The relative position information of described the first conductive contact and the second conductive contact is sent to described the first electronic equipment.

Further, described method also comprises:

When meeting default trigger condition, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generate corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

According to the third aspect of the embodiment of the present invention, a kind of the first electronic equipment is disclosed, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described the first electronic equipment comprises:

The first generation unit, while contacting the touch sensing unit of the second electronic equipment for the first conductive contact when described the first electronic equipment, described the first conductive contact generates first and taps signal; Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency;

The second generation unit, for when the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment.

Further, described the second generation unit specifically for:

When the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates constantly second and taps signal.

Further, described the second generation unit specifically for:

When the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact taps signal with compartment of terrain generation second round second; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.

Further, described the first electronic equipment has vibrating device, and described the first electronic equipment also comprises:

Receiving element, for receiving relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission;

Determining unit, for determining direction of vibration according to described relative position information and touch information;

The first control module, produces vibration for control described vibrating device according to definite direction of vibration.

Further, when the distance between described conductive contact is less than predeterminable range, for described conductive contact arranges different click frequency.

According to the fourth aspect of the embodiment of the present invention, a kind of the second electronic equipment is disclosed, described the second electronic equipment comprises:

Touch sensing unit, produces for detection of whether tapping signal;

Position determination unit, for first when the tapping signal and second and tapping signal of at least two conductive contacts generations of the first electronic equipment detected when described touch sensing unit, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

Further, described position determination unit comprises:

The first acquiring unit, taps signal and determines corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact for tapping signal and second according to first;

Corresponding relation is set up unit, for identifying the first conductive contact according to the first click frequency, sets up the corresponding relation of the first conductive contact and primary importance information;

Second acquisition unit, for according to the corresponding relation of described the first conductive contact and primary importance information and second place information, determines the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

Further, described the second electronic equipment also comprises:

Transmitting element, for sending to described the first electronic equipment by the relative position information of described the first conductive contact and the second conductive contact.

Further, described the second electronic equipment also comprises:

The second control module, for when meeting default trigger condition, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generate corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

The beneficial effect of an aspect of the embodiment of the present invention is: the embodiment of the present invention is at least two conductive contacts of the first electronic equipment setting, for at least one at least two conductive contacts arranges specific click frequency, thereby distinguish different conductive contacts according to click frequency.Like this, when at least two conductive contacts of the first electronic equipment touch the touch sensing unit of the second electronic equipment, the second electronic equipment just can identify at least one conductive contact according to described specific click frequency, according to the first conductive contact and the second conductive contact, the positional information on touch-screen is determined the relative position information of these two conductive contacts again, to obtain position and the direction of the first electronic equipment.Method provided by the invention, can identifying operation body be not only the position of electronic equipment, and attitude and orientation that can also identifying operation body, for user provides abundanter application.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention 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, the accompanying drawing the following describes is only some embodiment that record in the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Orientation recognition method the first embodiment schematic diagram that Fig. 1 provides for the embodiment of the present invention;

Orientation recognition the second embodiment schematic diagram that Fig. 2 provides for the embodiment of the present invention;

Orientation recognition the 3rd embodiment schematic diagram that Fig. 3 provides for the embodiment of the present invention;

Orientation recognition the 4th embodiment schematic diagram that Fig. 4 provides for the embodiment of the present invention;

Fig. 5 is the first electronic equipment one embodiment schematic diagram provided by the invention;

Fig. 6 is the second electronic equipment one embodiment schematic diagram provided by the invention.

Embodiment

The embodiment of the present invention provides a kind of orientation recognition method and apparatus, can identify the orientation of electronic equipment on screen.

In order to make those skilled in the art person understand better the technical scheme in the present invention, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, should belong to the scope of protection of the invention.

Referring to Fig. 1, it is orientation recognition method the first embodiment process flow diagram provided by the invention.

The method that the embodiment of the present invention provides is applied to the first electronic equipment, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described method comprises:

S101, when at least two conductive contacts of described the first electronic equipment contact the touch sensing unit of the second electronic equipment, described the first conductive contact generates first and taps signal; Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency.

In first embodiment of the invention, the first electronic equipment has at least two conductive contacts, and described at least two conductive contacts comprise the first conductive contact and the second conductive contact.Wherein, be that the first conductive contact arranges the first click frequency, described the first click frequency and the first conductive contact have one-to-one relationship.When the first conductive contact of the first electronic equipment and the second conductive contact touch the touch sensing unit of the second electronic equipment, the first conductive contact is clicked the touch sensing unit of described the second electronic equipment with the first click frequency compartment of terrain, with period 1 compartment of terrain, generate first and tap signal, the described period 1 is corresponding with the first click frequency.During specific implementation, when the first click frequency of the first conductive contact being set being 50 times/second,, when the first conductive contact touches the touch sensing unit of the second electronic equipment, its frequency with 50 times per second is clicked screen, at this moment, generates first and taps signal.The first click frequency can be arranged by system or user as required in advance, and it is mainly used in distinguishing the first conductive contact and the second conductive contact, and concrete value does not limit.

It will be understood by those skilled in the art that, in other implementations, also can be for the first electronic equipment arranges 3 above conductive contacts, for example the first conductive contact, the second conductive contact and the 3rd conductive contact, be at least the first conductive contact the first click frequency be set.When the distance between described two or more conductive contacts is less than predeterminable range, for described conductive contact arranges different click frequency.During specific implementation, 3 conductive contacts of take are example, when the distance between 3 conductive contacts is less than 2CM, can different click frequency be set respectively for 3 conductive contacts, for example the first click frequency, the second click frequency, thirdly hit frequency, wherein, the first click frequency, the second click frequency, thirdly to hit frequency different.When the distance between described two or more conductive contacts is greater than predeterminable range, at least one conductive contact arranges click frequency.

S102, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment.

When the first conductive contact of the first electronic equipment and the second conductive contact touch the touch sensing unit of the second electronic equipment, the second conductive contact generates second and taps signal.

Wherein, the second conductive contact generates second and taps signal and be specifically as follows: described the second conductive contact generates constantly second and taps signal.When being only that the first conductive contact is while arranging click frequency, when the second conductive contact touches the touch sensing unit of the second electronic equipment, what the second conductive contact continued exerts pressure to the touch sensing unit of the second electronic equipment, to generate constantly second, taps signal.

Wherein, when being that the second conductive contact is while being provided with the second click frequency, described the second conductive contact generation second taps signal and is specifically as follows: when two conductive contacts touch the touch sensing unit of the second electronic equipment, the second conductive contact taps signal with compartment of terrain generation second round second; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.During specific implementation, when the first click frequency of the second conductive contact being set being 60 times/second,, when the second conductive contact touches the touch sensing unit of the second electronic equipment, its frequency with 60 times per second is clicked screen, at this moment, generates second and taps signal.The second click frequency can be arranged by system or user as required in advance, different from the value of the first click frequency.

Accordingly, the touch sensing unit of the second electronic equipment can detect first and tap signal and second and tap signal, and tapping the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact according to generate first, described relative position information is used to indicate position and the direction of described the first electronic equipment.

In the present invention first implements, be at least two conductive contacts of the first electronic equipment setting, at least one at least two conductive contacts arranges specific click frequency, thereby distinguish different conductive contacts according to click frequency.Like this, when at least two conductive contacts of the first electronic equipment touch the touch sensing unit of the second electronic equipment, the second electronic equipment just can identify at least one conductive contact according to described specific click frequency, according to the first conductive contact and the second conductive contact, the positional information on touch-screen is determined the relative position information of these two conductive contacts again, to obtain position and the direction of the first electronic equipment.Method provided by the invention, not only can identifying operation body the i.e. position of the first electronic equipment, attitude and orientation that can also identifying operation body, for user provides abundanter application.

Referring to Fig. 2, it is orientation recognition method the second embodiment process flow diagram provided by the invention.

The method that second embodiment of the invention provides is applied to the second electronic equipment, and described the second electronic equipment has touch sensing unit, and described method comprises:

S201, described touch sensing unit detects whether tap signal generation.

In second embodiment of the invention, the second electronic equipment has touch sensing unit.When at least two conductive contacts of the first electronic equipment touch the touch sensing unit of the second electronic equipment, described touch sensing unit detects whether tap signal generation.

S202, when described touch sensing unit detect that at least two conductive contacts of the first electronic equipment generate first when tapping signal and second and tapping signal, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

Concrete, when touch sensing unit detects first when tapping signal and second and tapping signal, according to described first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact.

During specific implementation, step S202 can comprise the following steps:

S202A, taps signal and second according to first and taps signal and determine corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact.

When touch sensing unit detects first when tapping signal and second and tapping signal, determine corresponding to the primary importance information of the first conductive contact with corresponding to the second place information of the second conductive contact.Take described touch sensing unit as capacitive touch screen be example, its basic functional principle is, it arranges electrode on touch-screen four limits, in the electric conductor being formed by electrode, form an AC field, when conductive contact touches screen, between conductive contact and conductor, form a coupling capacitance, when touching screen, conductive contact can change in place, contact coupling capacitance, described in described capacitor trigger, electrode sends current direction contact, the variation of described coupling capacitance causes that the frequency of the oscillator being connected with described coupling capacitance changes, touch screen processor changes definite touch location by calculating electric current and survey frequency.Thus, can determine corresponding to the primary importance information of the first conductive contact with corresponding to the second place information of the second conductive contact.

S202B, identifies the first conductive contact according to the first click frequency, sets up the corresponding relation of the first conductive contact and primary importance information.

The first conductive contact, with the first click frequency point touching sensing unit, generates first with period 1 compartment of terrain and taps signal.And when the second conductive contact does not arrange click frequency, it generates a regular signal, generate constantly second and tap signal, can identify the first conductive contact according to the first click frequency, and then set up the corresponding relation of the first conductive contact and primary importance information.

S202C, according to the corresponding relation of described the first conductive contact and primary importance information and second place information, determines the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

After identifying the first conductive contact, can set up the corresponding relation of the second conductive contact and second place information.According to the corresponding relation of the corresponding relation of the first conductive contact and primary importance information and the second conductive contact and second place information, can determine the relative position relation of described the first conductive contact and the second conductive contact, thereby obtain position and the direction of the first electronic equipment.

In the middle of second embodiment of the invention, when at least two conductive contacts of the first electronic equipment touch the touch sensing unit of the second electronic equipment, described touch sensing unit detects whether tap signal generation, when detecting first when tapping signal and second and tapping signal, according to obtain first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact, and then obtain position and the direction of the first electronic equipment.In second embodiment of the invention, the second electronic equipment not only can be identified the position of conductive contact, can also determine according to click frequency the relative position relation of at least two conductive contacts, thus direction and the attitude of judgement the first electronic equipment.

Referring to Fig. 3, it is orientation recognition method the 3rd embodiment process flow diagram of the present invention.

In this embodiment, the first electronic equipment also has vibrating device, its can be according to the first electronic equipment the position in the touch sensing unit of the second electronic equipment and direction, the vibration that produces correspondence direction.

S301, at least two conductive contacts of the first electronic equipment contact the touch sensing unit of the second electronic equipment.

Wherein, described at least two conductive contacts comprise the first conductive contact and the second conductive contact.Wherein, be that the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship.

S302, the first conductive contact of the first electronic equipment is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain.

Wherein, the period 1 is corresponding with the first click frequency.During specific implementation, when the first click frequency is 50 times/second, the period 1 is the inverse of the first click frequency, 0.02 second.

S303, the second conductive contact of the first electronic equipment generates second and taps signal.

In this embodiment, be only that the first conductive contact is provided with the first click frequency, when the second conductive contact touches touch sensing unit, to touch sensing unit, exert pressure constantly, generate constantly second and tap signal.When the distance of the first conductive contact and the second conductive contact is less than predeterminable range threshold value, for example, during 2CM, can be for the second conductive contact arranges the second click frequency, the second click frequency is different from the first click frequency, to distinguish the first conductive contact and the second conductive contact.Wherein, predeterminable range threshold value can be set in advance by system, and its value does not limit.

S304, the touch sensing unit of the second electronic equipment detects whether tap signal generation.

Described touch sensing unit is specifically as follows touch-screen.

S305, when the second electronic equipment detect that at least two conductive contacts of the first electronic equipment generate first when tapping signal and second and tapping signal, according to described first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact.

During specific implementation, the second electronic equipment taps signal and second according to detect first and taps signal and can obtain corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact.Then, according to detect corresponding to the first the first click frequency that taps signal, determine the corresponding relation of primary importance information and the first conductive contact.At this moment, just can distinguish the first conductive contact and the second conductive contact, and then determine the relative position relation of the two.Thus, according to the relative position relation of the first conductive contact and the second conductive contact, can determine the direction of the first electronic equipment on screen.

S306, the second electronic equipment sends to described the first electronic equipment by the relative position information of described the first conductive contact and the second conductive contact.

In this embodiment, the first electronic equipment and the second electronic equipment have communication unit, and the first electronic equipment and the second electronic equipment can be realized by communication unit separately the transmission of data.The mode that the first electronic equipment is communicated by letter with the second electronic equipment foundation can be wired mode, can be also wireless mode, and the present invention does not limit this.

S307, the first electronic equipment receives relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission.

In this embodiment, touch information can be the information relevant to the direction of vibration of the first electronic equipment.Take virtual ice hockey game as example, and in this application scenarios, the first electronic equipment is handle, and the second electronic equipment is the electronic equipment with touch-screen, when user uses handle touching touch-screen, promotes virtual ice hockey.At this moment, in order to make user obtain impression more really, in the opposite direction of ice hockey, need to give feedback force of handle.In embodiments of the present invention, at this moment, the direction of ice hockey is touch information.The second electronic equipment sends to the first electronic equipment by the direction of the relative position information of conductive contact and ice hockey, and the first electronic equipment can be determined vibration oppositely.

Certainly, touch information can also be other information, and touch information is according to first, to tap signal and second with the second electronic equipment to tap the corresponding information of control signal that information and the relative position relation of the two generate.

S308, the first electronic equipment is determined direction of vibration according to described relative position information and touch information.

During specific implementation, still take virtual ice hockey game as example, the first electronic equipment can be according to the relative position relation of the first conductive contact and the second conductive contact, determine the direction of the first electronic equipment, thereby determine it is that ice hockey has been touched on which limit actually, again according to touch information (being ice hockey direction), take vertical and the first conductive contact and the second conductive contact connecting line, with the orientation determination of ice hockey opposite direction be direction of vibration.

It will be appreciated by persons skilled in the art that the difference according to touch information, can also have other modes to determine direction of vibration.

S309, the first electronic equipment is controlled described vibrating device according to definite direction of vibration and is produced vibration.

In this embodiment, the first electronic equipment has vibrating device.During specific implementation, vibrating device can be oscillation ring.After having determined direction of vibration, can control described vibrating device according to definite direction of vibration and produce directive vibration.

In third embodiment of the invention, on second electronic equipment with touch sensing unit, use the first electronic equipment to carry out when mutual, can determine position and the direction of the first electronic equipment on the second electronic equipment according at least two of the first electronic equipment conductive contacts, thereby the feedback force of giving user's correspondence direction on the first electronic equipment, makes user have real experience.

Referring to Fig. 4, it is orientation recognition method the 4th embodiment process flow diagram of the present invention.

S401, at least two conductive contacts of the first electronic equipment contact the touch sensing unit of the second electronic equipment.

Wherein, described at least two conductive contacts comprise the first conductive contact and the second conductive contact.Wherein, be that the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship.

S402, the first conductive contact of the first electronic equipment is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain.

Wherein, the period 1 is corresponding with the first click frequency.During specific implementation, when the first click frequency is 50 times/second, the period 1 is the inverse of the first click frequency, 0.02 second.

S403, the second conductive contact of the first electronic equipment generates second and taps signal.

S404, the touch sensing unit of the second electronic equipment detects whether tap signal generation.

Described touch sensing unit is specifically as follows touch-screen.

S405, when the second electronic equipment detect that at least two conductive contacts of the first electronic equipment generate first when tapping signal and second and tapping signal, according to described first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact.

S406, when meeting default trigger condition, the second electronic equipment, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generates corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

Concrete, the second electronic equipment, according to the first conductive contact obtaining and the relative position information of the second conductive contact, generates corresponding control signal.Take virtual table tennis game as example, and under this scene, the first electronic equipment is the handle of game, and the second electronic equipment is the electronic equipment with touch-screen.When user uses handle to impact virtual table tennis, it is different that corresponding handle impacts the surface of contact of table tennis, gives the different acting force of table tennis.For example, the A face of supposing handle is conductive contact A user oriented side while being positioned at the left side of conductive contact B, can arrange when using the A face of handle to impact table tennis, and the acting force that feeds back to table tennis when using B face to impact table tennis is large.When the second electronic equipment is according to the relative position information of the first conductive contact and the second conductive contact, determine the A face of handle or B face impacts table tennis, thereby generate different acting forces, to control movement velocity and the direction of virtual table tennis.

In another example, for example, when the first electronic equipment is mobile terminal, mobile phone; For example, when the second electronic equipment is while having the equipment of touch sensing unit, during PAD.Can be in advance for example, in a side of mobile phone (mobile phone has long limit and minor face, can in long limit one side) two conductive contact A and B being set, is 50 times/second for one of them conductive contact A arranges click frequency.Wherein, when the left side of conductive contact A at conductive contact B, the screen user oriented of mobile phone; When the right side of conductive contact A at conductive contact B, the screen back of mobile phone is to user.User can be by a side contacts PAD on the long limit of mobile phone, can set in advance so and detect while tapping signal as Pad, take two tap signal position as boundary, wherein the file of a side carries out deletion action, wherein the file of a side carries out replicate run.At this moment, need to which side of the orientation determination on PAD screen do deletion action according to mobile phone, which side is done replicate run.For example, can set in advance towards a side of mobile phone screen and carry out replicate run, a side of mobile phone screen is carried out deletion action dorsad.At this moment, the second electronic equipment can be according to the click frequency that taps signal and conductive contact A of the conductive contact A obtaining and conductive contact B generation, determine the relative position relation of conductive contact A and conductive contact B, generate control signal, control the second electronic equipment and operate accordingly.Wherein, control signal is not limited to deletion, the renewal operation to file, can also be other control signals and control command.This example is only in numerous embodiment of the present invention, is only a kind of explanation of implementation, is not considered as the restriction to the embodiment of the present invention.

In fourth embodiment of the invention, the second electronic equipment can tap according to obtain first that signal and second taps signal and the first click frequency determines that first taps the relative position relation that signal and second taps signal, and then position and the direction of definite the first electronic equipment, thereby generate corresponding control command, to control the second electronic equipment, carry out described control command.In this embodiment, the second electronic equipment, according to the difference of the first electronic equipment direction and attitude, generates different control commands, for user provides abundanter application.

It should be noted that, in first embodiment of the invention, the second embodiment, the 3rd embodiment, the 4th embodiment, all to there are two conductive contacts with the first electronic equipment, the first conductive contact and the second conductive contact are that example describes, it will be understood by those skilled in the art that, a plurality of conductive contacts can also be set according to actual needs in the first electronic equipment, and above embodiment is also applicable to have the situation of three or three above conductive contacts.In addition, at least one conductive contact arranges click frequency, be included as a conductive contact and click frequency be set and the situation of different click frequency be set for a plurality of conductive contacts.

Referring to Fig. 5, it is the first electronic equipment one embodiment schematic diagram provided by the invention.

The embodiment of the present invention provides a kind of the first electronic equipment, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described the first electronic equipment comprises:

The first generation unit 501, while contacting the touch sensing unit of the second electronic equipment for the first conductive contact when described the first electronic equipment, described the first conductive contact generates first and taps signal; Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency.

The second generation unit 502, for when the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment.

Wherein, described the second generation unit specifically for: when the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates constantly second and taps signal.

Wherein, described the second generation unit specifically for: when the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact with second round compartment of terrain generate second and tap signal; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.

Further, described the first electronic equipment has vibrating device, and described the first electronic equipment also comprises:

Receiving element, for receiving relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission;

Determining unit, for determining direction of vibration according to described relative position information and touch information;

The first control module, produces vibration for control described vibrating device according to definite direction of vibration.

Further, when the distance between described conductive contact is less than predeterminable range, for described conductive contact arranges different click frequency.

Referring to Fig. 6, the second electronic equipment one embodiment schematic diagram providing for the embodiment of the present invention.

The embodiment of the present invention provides a kind of the second electronic equipment, and described the second electronic equipment comprises:

Touch sensing unit 601, produces for detection of whether tapping signal.

Position determination unit 602, for first when the tapping signal and second and tapping signal of at least two conductive contacts generations of the first electronic equipment detected when described touch sensing unit, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment.

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

Wherein, described position determination unit comprises:

The first acquiring unit, taps signal and determines corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact for tapping signal and second according to first.

Corresponding relation is set up unit, for identifying the first conductive contact according to the first click frequency, sets up the corresponding relation of the first conductive contact and primary importance information.

Second acquisition unit, for according to the corresponding relation of described the first conductive contact and primary importance information and second place information, determines the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

Further, described the second electronic equipment also comprises:

Transmitting element, for sending to described the first electronic equipment by the relative position information of described the first conductive contact and the second conductive contact.

Further, described the second electronic equipment also comprises:

The second control module, for when meeting default trigger condition, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generate corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

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.

The present invention can describe in the general context of the computer executable instructions of being carried out by computing machine, for example program module.Usually, program module comprises the routine carrying out particular task or realize particular abstract data type, program, object, assembly, data structure etc.Also can in distributed computing environment, put into practice the present invention, in these distributed computing environment, by the teleprocessing equipment being connected by communication network, be executed the task.In distributed computing environment, program module can be arranged in the local and remote computer-readable storage medium that comprises memory device.

The above is only the specific embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (18)

1. an orientation recognition method, it is characterized in that, described method is applied to the first electronic equipment, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described method comprises:

When at least two conductive contacts of described the first electronic equipment contact the touch sensing unit of the second electronic equipment, described the first conductive contact generates first and taps signal, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency.

2. method according to claim 1, is characterized in that, described the second conductive contact generation second taps signal and is specially:

Described the second conductive contact generates constantly second and taps signal.

3. method according to claim 1, is characterized in that, described the second conductive contact generation second taps signal and is specially:

Described the second conductive contact taps signal with compartment of terrain generation second round second; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.

4. method according to claim 1, is characterized in that, described the first electronic equipment has vibrating device, and described method also comprises:

Receive relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission;

According to described relative position information and touch information, determine direction of vibration;

According to definite direction of vibration, control described vibrating device and produce vibration.

5. according to the method described in claim 1 to 4 any one, it is characterized in that, when the distance between described conductive contact is less than predeterminable range, for described conductive contact arranges different click frequency.

6. an orientation recognition method, is characterized in that, described method is applied to the second electronic equipment, and described the second electronic equipment has touch sensing unit, and described method comprises:

Described touch sensing unit detects whether tap signal generation;

When described touch sensing unit detect that at least two conductive contacts of the first electronic equipment generate first when tapping signal and second and tapping signal, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

7. method according to claim 6, it is characterized in that, describedly according to described first, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determines that the relative position information of described the first conductive contact and the second conductive contact comprises:

According to first, tapping signal and second taps signal and determines corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact;

According to the first click frequency, identify the first conductive contact, set up the corresponding relation of the first conductive contact and primary importance information;

According to the corresponding relation of described the first conductive contact and primary importance information and second place information, determine the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

8. method according to claim 6, is characterized in that, described method also comprises:

The relative position information of described the first conductive contact and the second conductive contact is sent to described the first electronic equipment.

9. method according to claim 6, is characterized in that, described method also comprises:

When meeting default trigger condition, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generate corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

10. an electronic equipment, it is characterized in that, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, for described the first conductive contact arranges the first click frequency, described the first click frequency and described the first conductive contact have one-to-one relationship, and described the first electronic equipment comprises:

The first generation unit, while contacting the touch sensing unit of the second electronic equipment for the first conductive contact when described the first electronic equipment, described the first conductive contact generates first and taps signal; Wherein, described the first conductive contact is clicked described touch sensing unit with the first click frequency, generates first tap signal with period 1 compartment of terrain; The described period 1 is corresponding with the first click frequency;

The second generation unit, for when the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates second and taps signal, so that described the second electronic equipment taps according to generate first the relative position information that the first click frequency that signal and second taps signal and described the first conductive contact is determined described the first conductive contact and the second conductive contact, described relative position information is used to indicate position and the direction of described the first electronic equipment.

11. the first electronic equipments according to claim 10, is characterized in that, described the second generation unit specifically for:

When the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact generates constantly second and taps signal.

12. the first electronic equipments according to claim 10, is characterized in that, described the second generation unit specifically for:

When the second conductive contact of described the first electronic equipment contacts the touch sensing unit of the second electronic equipment, described the second conductive contact taps signal with compartment of terrain generation second round second; Described second round is corresponding with the second click frequency, and described the second click frequency is the click frequency of the second conductive contact of setting in advance, and described the second click frequency is different from described the first click frequency.

13. the first electronic equipments according to claim 10, is characterized in that, described the first electronic equipment has vibrating device, and described the first electronic equipment also comprises:

Receiving element, for receiving relative position information and the touch information of described at least two conductive contacts of the second electronic equipment transmission;

Determining unit, for determining direction of vibration according to described relative position information and touch information;

The first control module, produces vibration for control described vibrating device according to definite direction of vibration.

14. according to claim 10 to the first electronic equipment described in 13 any one, it is characterized in that, when the distance between described conductive contact is less than predeterminable range, for described conductive contact arranges different click frequency.

15. a kind of second electronic equipment, is characterized in that, described the second electronic equipment comprises:

Touch sensing unit, produces for detection of whether tapping signal;

Position determination unit, for first when the tapping signal and second and tapping signal of at least two conductive contacts generations of the first electronic equipment detected when described touch sensing unit, tap that signal and second taps signal and first click frequency corresponding with described the first conductive contact that detect determined the relative position information of described the first conductive contact and the second conductive contact according to described first, described relative position information is used to indicate position and the direction of described the first electronic equipment;

Wherein, described the first electronic equipment has at least two conductive contacts, described at least two conductive contacts comprise the first conductive contact and the second conductive contact, and described the first conductive contact has the first click frequency, and described the first click frequency and described the first conductive contact have one-to-one relationship.

16. the second electronic equipments according to claim 15, is characterized in that, described position determination unit comprises:

The first acquiring unit, taps signal and determines corresponding to the primary importance information of the first conductive contact and corresponding to the second place information of the second conductive contact for tapping signal and second according to first;

Corresponding relation is set up unit, for identifying the first conductive contact according to the first click frequency, sets up the corresponding relation of the first conductive contact and primary importance information;

Second acquisition unit, for according to the corresponding relation of described the first conductive contact and primary importance information and second place information, determines the relative position information of described the first conductive contact and the second conductive contact, to obtain position and the direction of the first electronic equipment.

17. the second electronic equipments according to claim 15, is characterized in that, described the second electronic equipment also comprises:

Transmitting element, for sending to described the first electronic equipment by the relative position information of described the first conductive contact and the second conductive contact.

18. the second electronic equipments according to claim 15, is characterized in that, described the second electronic equipment also comprises:

The second control module, for when meeting default trigger condition, according to described the first conductive contact obtaining and the relative position information of the second conductive contact, generate corresponding control signal, so that described the second electronic equipment is carried out corresponding control command according to described control signal.

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