CN104076911B - Feedback method and electronic equipment - Google Patents
Feedback method and electronic equipment Download PDFInfo
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- CN104076911B CN104076911B CN201310097878.7A CN201310097878A CN104076911B CN 104076911 B CN104076911 B CN 104076911B CN 201310097878 A CN201310097878 A CN 201310097878A CN 104076911 B CN104076911 B CN 104076911B
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Abstract
The invention discloses a kind of feedback method and electronic equipment.Methods described be applied to electronic equipment and including:Receive the force feedback information that the application program by being run in the electronic equipment is produced;Parse the force feedback information;Determine the first direction of the power that the application program will apply to the electronic equipment;And apply the power with first direction to the electronic equipment.Therefore, a kind of feedback scheme is proposed in the present invention, can provide a user with real force feedback impression, so that it obtains more operation informations, and without taking a large amount of bulkies and low cost in the electronic device.
Description
Technical field
The present invention relates to field of computer technology, more particularly it relates to a kind of feedback method and electronic equipment.
Background technology
With continuing to develop for computer technology, personal user has increasing high performance electronics, such as
Smart mobile phone, panel computer(PAD), ultrabook, digital subscriber assistant(PDA)And personal computer(PC)Deng.
When user to these electronic equipments when interface operation is carried out, generally require some tactile feedback mechanisms to point out to use
The process or result of family operation.
Therefore, the first feedback mechanism of the prior art is used to provide mechanical force feedback.This feedback mechanism example
Such as steering wheels for racing games analogue means or for aircraft game driving simulator.Specifically, set in electronics
For in the case of being the steering wheel simulation device for operating car race game, user can be by using direction disk analogue means
To experience damping and the turning power of steering wheel, so as to considerably enhance the operating experience of user.
However, in this fashion, the electronic equipment is operated in needing to be fixed on a certain position, with by transmission
Device(Feedback device)By force feedback to user.Obviously, such electronic equipment is by bulky and involves great expense.
Thus, in order to save space and the cost of electronic equipment, in the prior art, the tactile feedback mechanism of electronic equipment
A kind of method for making electronic equipment produce body vibration is used mostly, it for example uses the devices such as eccentric wheel to cause electronic equipment
Produce body vibration and realize vibrational feedback.
However, this body vibration feedback typically only possesses simple suggesting effect, and real force feedback cannot be provided
Experience so that obtaining user obtains more operation informations.That is, when user needs some real touch feedbacks, big portion
The single vibration for dividing electronic equipment to be provided tends not to get a desired effect.
Accordingly, it would be desirable to a kind of new feedback method and electronic equipment solve the above problems.
The content of the invention
In order to solve the above-mentioned technical problem, according to an aspect of the invention, there is provided a kind of feedback method, methods described
Electronic equipment is applied to, methods described includes:Receive the force feedback that the application program by being run in the electronic equipment is produced
Information;Parse the force feedback information;Determine the first direction of the power that the application program will apply to the electronic equipment;With
And apply the power with first direction to the electronic equipment.
Additionally, according to another aspect of the present invention, there is provided a kind of electronic equipment, the electronic equipment includes:Receive single
Unit, the force feedback information that the application program for receiving by being run in the electronic equipment is produced;Resolution unit, for parsing
The force feedback information;Determining unit, the first party for determining the power that the application program will apply to the electronic equipment
To;And applying unit, for applying the power with first direction to the electronic equipment.
Compared with prior art, using feedback method of the invention and electronic equipment, can be from the electronic device
The application program of operation receives force feedback information, and determining the application program by parsing the force feedback information will be to described
The first direction of the power that electronic equipment applies, and applied with first direction to the electronic equipment by various modes
Power.Therefore, a kind of feedback scheme is proposed in the present invention, real force feedback impression can be provided a user with, so that it is obtained
More operation informations are obtained, and without take a large amount of bulkies and low cost in the electronic device.
Other features and advantages of the present invention will be illustrated in the following description, also, the partly change from specification
Obtain it is clear that or being understood by implementing the present invention.The purpose of the present invention and other advantages can be by specification, rights
Specifically noted structure is realized and obtained in claim and accompanying drawing.
Brief description of the drawings
Accompanying drawing is used for providing a further understanding of the present invention, and constitutes a part for specification, with reality of the invention
Applying example is used to explain the present invention together, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 illustrates feedback method of the invention.
Fig. 2 illustrates electronic equipment of the invention.
Fig. 3 illustrates feedback method according to a first embodiment of the present invention.
Fig. 4 illustrates electronic equipment according to a first embodiment of the present invention.
Fig. 5 illustrates feedback method according to a second embodiment of the present invention.
Fig. 6 illustrates electronic equipment according to a second embodiment of the present invention.
Fig. 7 illustrates feedback method according to a third embodiment of the present invention.
Fig. 8 illustrates electronic equipment according to a third embodiment of the present invention.
Fig. 9 illustrates feedback method according to a fourth embodiment of the present invention.
Figure 10 illustrates electronic equipment according to a fourth embodiment of the present invention.
Figure 11 illustrates gyro unit according to a fourth embodiment of the present invention.
Specific embodiment
Will be described in detail with reference to the accompanying drawings each embodiment of the invention.Here it is to be noted that it in the accompanying drawings,
The substantially part with same or like 26S Proteasome Structure and Function is assigned by identical reference, and will be omitted on it
Repeated description.
Hereinafter, feedback method of the invention and electronic equipment will be described with reference to Fig. 1 and 2.
Fig. 1 illustrates feedback method of the invention, and Fig. 2 illustrates electronic equipment of the invention.
Feedback method illustrated in Fig. 1 is applied to the electronic equipment illustrated in Fig. 2.Specifically, the electronic equipment 100 is wrapped
Include:Receiving unit 110, resolution unit 120, determining unit 130 and applying unit 140.
As illustrated in figure 1, the feedback method includes:
In step s 110, receiving unit 110 receives the power that the application program by being run in the electronic equipment is produced
Feedback information;
In the step s 120, resolution unit 120 parses the force feedback information;
In step s 130, determining unit 130 determines the of the power that the application program will apply to the electronic equipment
One direction;And
In step S140, applying unit 140 applies the power with first direction to the electronic equipment.
As can be seen here, using feedback method of the invention and electronic equipment, can be from running in the electronic device
Application program receives force feedback information, determines that the application program will set to the electronics by parsing the force feedback information
The first direction of the standby power for applying, and apply the power with first direction to the electronic equipment by various modes.Cause
This, proposes a kind of feedback scheme in the present invention, real force feedback impression can be provided a user with, so that its acquisition is more
Operation information, and without taking a large amount of bulkies and low cost in the electronic device.
Hereinafter, feedback method according to a first embodiment of the present invention will be described with reference to Fig. 3 and Fig. 4 and electronics will set
It is standby.
Fig. 3 illustrates feedback method according to a first embodiment of the present invention, and Fig. 4 is illustrated and implemented according to the present invention first
The electronic equipment of example.
Feedback method illustrated in Fig. 3 can apply to the electronic equipment 100 illustrated in Fig. 4.
As illustrated in figure 4, as Fig. 2, the electronic equipment 100 can include:Receiving unit 110, resolution unit
120th, determining unit 130 and applying unit 140.
Additionally, being also equipped with one or more application programs 150 in the electronic equipment 100.The application program
150 is, for example, car race game, aircraft game, Navigator etc..In some cases, the application program 150 needs to be returned to user
The process or result for returning some touch feedbacks to point out user to operate.
Also, the electronic equipment 100 can also include:Counterweight element 160, to cause that applying unit 140 passes through the counterweight
Unit 160 is come the power needed for being applied to the application program run in the electronic equipment 100 to electronic equipment 100.
Below, the example using mobile phone as electronic equipment is specifically described into embodiments of the invention.However, needing
It is noted that the invention is not restricted to this.The electronic equipment can be any kind of electronic equipment, and it is included but is not limited to:
Desktop computer, notebook, panel computer, electronic reader, multimedia player and personal digital assistant etc..This
Outward, other processing procedures of electronic equipment be the invention applies also to.
As illustrated in fig. 3, feedback method according to a first embodiment of the present invention includes:
In step S210, the force feedback information that the application program by running in the electronic device is produced is received.
When user is in electronic equipment(For example, mobile phone)A certain application program is run in 100(For example, car race game, fly
Machine game, Navigator etc.)When, in some cases, the application program needs to return to some touch feedbacks to user to point out
The process or result of user's operation.
For example, user by electronic equipment 100 to run car race game in the case of, the car race game can be by
Electronic equipment 100 is modeled as controlling the steering wheel in racing car direction, to improve the operating experience of user.When user's rotation is used as direction
The electronic equipment 100 of disk to control during the racing car rotation direction in game, preferably wish by electronic equipment by the car race game
100 apply rightabout power to user, so as to obtain damping and turning power that user experiences steering wheel.
Specifically, at this moment, in electronic equipment 100, the application program 150 being currently running will be provided a user with according to itself
Touch feedback need to generate a force feedback information.For example, the force feedback information can include being hopeful to electronic equipment
The parameters such as 100 direction, intensity, the frequencies of power for applying.
Correspondingly, receiving unit 110 receives above-mentioned force feedback information from the application program 150, and is transferred to
Resolution unit 120.
In step S220, force feedback information is parsed.
The force feedback information of the generation of application program 150 run in electronic equipment 100 is being received from receiving unit 110
Afterwards, the resolution unit 120 is parsed according to the predetermined form of application program 150 to it.
In one example, the application program 150 may be fixed and stored among electronic equipment 100.At this moment, the application
Program 150 can generate the force feedback information simply by defined variate-value.
In another example, when the application program 150 is not at electronic equipment 100 itself but positioned at high in the clouds(Network
End)When, that is to say, that when the application program 150 not be arranged on electronic equipment 100 in, but by electronic equipment 100 directly from
When high in the clouds is downloaded and run, the application program 150 can be according to extensible markup language(XML)Form generate the force feedback
Information.
Extensible markup language is for marking e-file and making it have structural markup language.It can be used to
Flag data defines data type etc..XML is standard generalized markup language(SGML)Subset, be especially suitable for network(Web)
Transmission.XML provides unified method to describe and exchange the structural data independently of application program or supplier.
Obviously, application program 150 can also generate the force feedback information by other predetermined formats.
Then, the analysis result of generation is sent to determining unit 130 by the resolution unit 120, for subsequent treatment.
In step S230, the first direction of the power that application program will apply to electronic equipment is determined.
After resolution unit 120 parses the force feedback information, determining unit 130 determines the application program 150
The first direction of the power to apply to the electronic equipment.
Specifically, the determining unit 130 determines that application program 150 is wished according to the analysis result of resolution unit 120
The parameter such as the direction of the power applied to electronic equipment 100 and intensity, frequency.
In step S240, the power with the second direction opposite with first direction is applied to gyro unit.
Next, the first party of the required power according to determined by determining unit 130 of applying unit 140 is always to the electronics
Equipment applies the power with first direction.Moreover it is preferred that the applying unit 140 can also be determined according to determining unit 130
Required power other specification(Such as, intensity, frequency etc.)The power come needed for applying application program 150 to the electronic equipment.
As described above, in the present embodiment, the applying unit 140 may be coupled to one or more counterweight elements 160.Should
Counterweight element 160 has constant weight, and may be mounted on one or more sliding rails.
The sliding rail is arranged in the electronic equipment 100, and the counterweight element 160 is provided with thereon, to apply
Cause that counterweight element 160 is moved on sliding rail to all directions of electronic equipment under the control of unit 140.The direction
Can for example include:The end face direction of front, back, left, right, up, down six of electronic equipment.Moreover it is preferred that the direction can be with
Including any direction between above-mentioned direction.
For example, the sliding rail can be chain, hinge, slide rail slidably etc..Additionally, the counterweight element 160 can
To be fixedly mounted(For example, welding, riveting, stickup etc.)On the sliding rail, moved with the sliding rail.
Specifically, the first direction of power of the applying unit 140 according to needed for application program 150 causes the counterweight list
Unit 160 moves in the electronic equipment to first direction, and the weight in causing the electronic equipment in a first direction is more than
Weight in other directions, so as to produce the power with first direction in the electronic equipment.
Moreover it is preferred that the electronic equipment 100 can include multiple counterweight elements 160, the counterweight element 160 has
Different weight.Thus, the applying unit 140 can also cause have not according to the intensity of the power needed for application program 150
Moved to first direction in the electronic equipment with the counterweight element 160 of weight, so as to produce tool in the electronic equipment
There is the power of varying strength.
Similarly, the applying unit 140 can also be according to the frequency of the power needed for application program 150, to need power
Cause that counterweight element 160 is moved in the electronic equipment to first direction on time point, or on the time point for not needing power
So that counterweight element 160 returns to initial position in the electronic equipment, have not so as to be produced in the electronic equipment
The power of same frequency.
As can be seen here, using feedback method and electronic equipment according to a first embodiment of the present invention, can be set from electronics
The Local or Remote application program of standby middle operation receives force feedback information, and described answering is determined by parsing the force feedback information
The first direction of the power that applied to the electronic equipment with program, and match somebody with somebody by the way that middle actuating tool is ponderable in a first direction
Weight unit applies the power with first direction to the electronic equipment.Therefore, propose in the first embodiment of the present invention
A kind of easy, easy and cheap feedback scheme, can provide a user with real power by counterweight element with low cost
Feedback impression, to cause that the user obtains more operation informations in the operation of application program.
Hereinafter, feedback method according to a second embodiment of the present invention will be described with reference to Fig. 5 and Fig. 6 and electronics will set
It is standby.
With wherein the first embodiment of the ponderable counterweight element of middle actuating tool differently, is implemented second in a first direction
In example so that the buoyant floating unit of tool is moved to described to the second direction opposite with first direction in the electronic device
Electronic equipment applies the power with first direction.
Fig. 5 illustrates feedback method according to a second embodiment of the present invention, and Fig. 6 is illustrated and implemented according to the present invention second
The electronic equipment of example.
Feedback method illustrated in Fig. 5 can apply to the electronic equipment 100 illustrated in Fig. 6.
As illustrated in FIG. 6, the counterweight element 160 illustrated in Fig. 4 is instead of, the electronic equipment 100 can include:Float
Unit 170, to cause that applying unit 140 is applied to the electronic equipment by the floating unit 170 to electronic equipment 100
Power needed for the application program run in 100.
As illustrated in fig. 5, feedback method according to a second embodiment of the present invention includes:
In step S310, the force feedback information that the application program by running in the electronic device is produced is received.
In step s 320, force feedback information is parsed.
In step S330, the first direction of the power that application program will apply to electronic equipment is determined.
Step S310 to S330 in second embodiment is identical with step S210 to the S230 in first embodiment, and therefore
Omit its detailed description.
In step S340, the power with the second direction opposite with first direction is applied to gyro unit.
Determining unit 130 determine the application program will to the electronic equipment apply power first direction it
Afterwards, the first party of the required power according to determined by determining unit 130 of applying unit 140 always has to electronic equipment applying
The power of first direction.Moreover it is preferred that the applying unit 140 can also according to determined by determining unit 130 required power its
His parameter(Such as, intensity, frequency etc.)The power come needed for applying application program 150 to the electronic equipment.
As described above, in the present embodiment, the applying unit 140 may be coupled to one or more floating units 170.Should
Floating unit 170 have certain buoyancy, and may be mounted at one or more accommodate media in.
The receiving medium is arranged in the electronic equipment 100, wherein the floating unit 170 is accommodated, to apply
Cause that floating unit 170 is moved in medium is accommodated to all directions of electronic equipment under the control of unit 140.
For example, the receiving medium can be the buoyant gas of tool, liquid etc..Additionally, the floating unit 170 can be floated
In the receiving medium, moved with the receiving medium.
Specifically, the first direction of power of the applying unit 140 according to needed for application program 150 come cause it is described float it is single
Unit 170 moves in the electronic equipment to the second direction opposite with first direction, causes the electronic equipment in second party
, more than the buoyancy in a first direction, in other words, the weight in causing the electronic equipment in a first direction is big for buoyancy in
In the weight in other directions, so as to produce the power with first direction in the electronic equipment.
Moreover it is preferred that the electronic equipment 100 can include multiple floating units 170, the floating unit 170 has
Different buoyancy.Thus, the applying unit 140 can also cause have not according to the intensity of the power needed for application program 150
Moved to the second direction opposite with first direction in the electronic equipment with the floating unit 170 of buoyancy, so as to described
The power with varying strength is produced in electronic equipment.
Similarly, the applying unit 140 can also be according to the frequency of the power needed for application program 150, to need power
Cause that floating unit 170 is moved in the electronic equipment to the second direction opposite with first direction on time point, or not
Need on the time point of power so that floating unit 170 returns to initial position in the electronic equipment, so as in the electronics
The power with different frequency is produced in equipment.
As can be seen here, using feedback method and electronic equipment according to a second embodiment of the present invention, can be set from electronics
The Local or Remote application program of standby middle operation receives force feedback information, and described answering is determined by parsing the force feedback information
The first direction of the power that applied to the electronic equipment with program, and by the second direction opposite with first direction
The buoyant floating unit of actuating tool to apply the power with first direction to the electronic equipment.Therefore, of the invention
Another easy, easy and cheap feedback scheme is proposed in two embodiments, can by floating unit with low cost come
Real force feedback impression is provided a user with, to cause that the user obtains more operation informations in the operation of application program.
For example, being run by electronic equipment 100 in the case that aircraft plays in user, aircraft game can be by
Electronic equipment 100 is modeled as controlling the control stick of heading.When user is manipulated as the electronic equipment 100 of control stick to control
When aircraft in game changes direction, aircraft game can preferably pass through above-mentioned floating unit 170 in electronic equipment 100
To apply rightabout power to user, so as to obtain damping and turning power that user experiences control stick.
Hereinafter, feedback method according to a third embodiment of the present invention will be described with reference to Fig. 7 and Fig. 8 and electronics will set
It is standby.
With the second embodiment that the buoyant floating unit of tool is activated wherein in the second direction opposite with first direction
Differently, in the third embodiment so that vibration unit produces vibration to come to the electronics in the first direction of electronic equipment
Equipment applies the power with first direction.
Fig. 7 illustrates feedback method according to a third embodiment of the present invention, and Fig. 8 is illustrated according to the 3rd implementation of the invention
The electronic equipment of example.
Feedback method illustrated in Fig. 7 can apply to the electronic equipment 100 illustrated in Fig. 8.
As illustrated in Figure 8, the floating unit 170 illustrated in Fig. 6 is instead of, the electronic equipment 100 can include:Vibration
Unit 180, to cause that applying unit 140 is applied to the electronic equipment by the vibration unit 180 to electronic equipment 100
Power needed for the application program run in 100.
Preferably, the electronic equipment 100 can include multiple vibration units 180, positioned at each side of electronic equipment 100
To.The direction can for example include:The end face direction of front, back, left, right, up, down six of electronic equipment.Moreover it is preferred that should
Direction can also include any direction between above-mentioned direction.
As illustrated in figure 7, feedback method according to a third embodiment of the present invention includes:
In step S410, the force feedback information that the application program by running in the electronic device is produced is received.
In the step s 420, force feedback information is parsed.
In step S430, the first direction of the power that application program will apply to electronic equipment is determined.
Step S410 to S430 in 3rd embodiment is identical with step S210 to the S230 in first embodiment, and therefore
Omit its detailed description.
In step S440, the power with the second direction opposite with first direction is applied to gyro unit.
Determining unit 130 determine the application program will to the electronic equipment apply power first direction it
Afterwards, the first party of the required power according to determined by determining unit 130 of applying unit 140 always has to electronic equipment applying
The power of first direction.Moreover it is preferred that the applying unit 140 can also according to determined by determining unit 130 required power its
His parameter(Such as, intensity, frequency etc.)The power come needed for applying application program 150 to the electronic equipment.
As described above, in the present embodiment, the applying unit 140 may be coupled to one or more vibration units 180.Should
Vibration unit 180 is used to produce vibration.
In one example, the vibration unit 180 is single vibration unit, and may be mounted at one or more cunnings
On dynamic rail road.
The sliding rail is arranged in the electronic equipment 100, and the vibration unit 180 is provided with thereon, to apply
Cause that vibration unit 180 is moved on sliding rail to all directions of electronic equipment under the control of unit 140.
For example, the sliding rail can be chain, hinge, slide rail slidably etc..Additionally, the vibration unit 180 can
To be fixedly mounted(For example, welding, riveting, stickup etc.)On the sliding rail, moved with the sliding rail.
Specifically, the first direction of power of the applying unit 140 according to needed for application program 150 causes the vibration single
Unit 180 moves in the electronic equipment to first direction, and middle generation is vibrated in a first direction to cause the electronic equipment, so that
The power with first direction is produced in the electronic equipment.
Moreover it is preferred that the vibration unit 180 can have different oscillation intensity and frequency.Thus, the applying unit
140 the vibration unit 180 can also be caused according to the intensity of the power needed for application program 150 in the electronic equipment with
Different intensity and frequency produce vibration, so as to produce the power with varying strength and frequency in the electronic equipment.
In another example, the vibration unit 180 includes multiple vibration units 180, and the vibration unit 180 is located at electronics
The all directions of equipment 100.
Specifically, the first direction of power of the applying unit 140 according to needed for application program 150 causes that the electronics sets
Vibration unit 180 in standby in first direction produces vibration, and the vibration in causing the electronic equipment in a first direction is big
In the vibration in other directions, so as to produce the power with first direction in the electronic equipment.
Similarly, the multiple vibration unit 180 can have different oscillation intensity and frequency, to cause in the electricity
The power with varying strength and frequency is produced in sub- equipment.
As can be seen here, using feedback method and electronic equipment according to a third embodiment of the present invention, can be set from electronics
The Local or Remote application program of standby middle operation receives force feedback information, and described answering is determined by parsing the force feedback information
The first direction of the power that applied to the electronic equipment with program, and shaking for vibration is produced by middle actuating in a first direction
Moving cell causes that the vibration unit being in first direction among multiple vibration units produces vibration to come to the electronic equipment
Apply the power with first direction.Therefore, another is proposed in the third embodiment of the present invention easy, easy and cheap
Feedback scheme, can be by with low cost and to be prevalent in the vibration unit in electronic equipment real to provide a user with
Force feedback is experienced, to cause that the user can also be closed according to the vibration of different modes in addition to common suggesting effect
In more operation informations of application program.
Hereinafter, feedback method according to a fourth embodiment of the present invention will be described with reference to Fig. 9 and Figure 10 and electronics will set
It is standby.
With wherein cause electronic equipment in a first direction it is middle produce vibration 3rd embodiment differently, in fourth embodiment
In so that apply the power with the second direction opposite with first direction to make to the gyro unit of rotation in the electronic device
Obtain the gyro unit and automatically apply the power with first direction to the electronic equipment.
Fig. 9 illustrates feedback method according to a fourth embodiment of the present invention, and Figure 10 is illustrated according to the present invention the 4th in fact
Apply the electronic equipment of example.
Feedback method illustrated in Fig. 9 can apply to the electronic equipment 100 illustrated in Figure 10.
As illustrated in Figure 10, the vibration unit 180 illustrated in Fig. 8 is instead of, the electronic equipment 100 can include:Top
Spiral shell instrument unit 190, to cause that applying unit 140 is applied to the electronics by the gyro unit 190 to electronic equipment 100
Power needed for the application program run in equipment 100.
As illustrated in fig. 9, feedback method according to a fourth embodiment of the present invention includes:
In step S510, the force feedback information that the application program by running in the electronic device is produced is received.
In step S520, force feedback information is parsed.
In step S530, the first direction of the power that application program will apply to electronic equipment is determined.
Step S510 to S530 in fourth embodiment is identical with step S210 to the S230 in first embodiment, and therefore
Omit its detailed description.
In step S540, the power with the second direction opposite with first direction is applied to gyro unit.
Determining unit 130 determine the application program will to the electronic equipment apply power first direction it
Afterwards, the first party of the required power according to determined by determining unit 130 of applying unit 140 always has to electronic equipment applying
The power of first direction.Moreover it is preferred that the applying unit 140 can also according to determined by determining unit 130 required power its
His parameter(Such as, intensity, frequency etc.)The power come needed for applying application program 150 to the electronic equipment.
As described above, in the present embodiment, the applying unit 140 may be coupled to a gyro unit 190.The gyro
Instrument unit 190 rotates in the electronic equipment 100.In the present embodiment, using gyroscope device directive property it is unique the characteristics of, come
Realize the feedback of 100 hollow twisting resistances of electronic equipment.
Figure 11 illustrates gyro unit according to a fourth embodiment of the present invention.
As shown in figure 11, after a gyro unit rotates at a high speed, it will remain pointing to a direction in space.
When attempting to change its sensing, it will produce an opposite force to prevent the change in direction.Thus, it is possible in electronic equipment 100
Middle installation gyro, while installing one or more gears to influence its steering.When drive gear turns to gyro, gyro will
An opposite force is produced, equipment twisting resistance in space is thus obtained.For example, if necessary to a up time for XZ planes
Pin twisting resistance, then only need to apply a counterclockwise force for XZ planes to gyro.
Specifically, the first direction of power of the applying unit 140 according to needed for application program 150, to the gyroscope list
Unit 190 applies the power with the second direction opposite with first direction so that the gyroscope 190 is produced in the electronic equipment
The raw power with first direction.
Similarly, the applying unit 140 can also needed according to the intensity of the power needed for application program 150 and frequency
Want to apply with opposite with first direction second direction and with institute to the gyro unit 190 on the time point of power
The power of intensity is needed, or does not apply any power to gyro unit 190 on the time point for not needing power, so as to be set in the electronics
The standby middle power produced with varying strength and frequency.
As can be seen here, using feedback method and electronic equipment according to a fourth embodiment of the present invention, can be set from electronics
The Local or Remote application program of standby middle operation receives force feedback information, and described answering is determined by parsing the force feedback information
The first direction of the power that applied to the electronic equipment with program, and gyro unit is embedded in electronic equipment and makes it high
Speed rotation, when electronic equipment needs a twisting resistance, using gyro unit outside gear to gyro apply one it is reverse
Twisting resistance, so as to the power needed for automatically being applied to the electronic equipment from the gyroscope.Therefore, implement the of the invention 4th
Another easy, easy and cheap feedback scheme is proposed in example, can be by with low cost and usual in the electronic device
The gyro unit of equipment provides a user with real force feedback impression, causing that the user obtains in the operation of application program
Obtain more operation informations.
For example, user by electronic equipment 100 to perform Navigator in the case of, when Navigator find root
According to the track for being calculated, it is currently needed for prompting user and changes direct of travel(For example, turning right or turning left)When, electronics sets
Standby 100 can apply a rightabout power by the gear being connected with gyro unit to the gyro unit(For example,
The non-coplanar force for turning right or turning left)So that gyroscope produces power corresponding with direct of travel is expected, so as to guide user
Into correct line.
Although it should be noted that herein by receiving unit 110, resolution unit 120, determining unit 130 and applying unit
140th, application program 150, counterweight element 160, floating unit 170, vibration unit 180, gyro unit 190 are included in electronics and set
Each embodiment of the invention is illustrated in standby 100, but, it will be appreciated to those of skill in the art that the invention is not restricted to
This.The feedback device for electronic equipment separate can be formed with one or more in above-mentioned unit, by wired
And/or wireless network is connected to the electronic equipment, and interactive information is transmitted according to the data form of agreement, for control
Electronic equipment produces touch feedback according to the demand of application program.
For example, the feedback device can include:Receiving unit 110, resolution unit 120, determining unit 130 and applying are single
Unit 140, and also can include:In counterweight element 160, floating unit 170, vibration unit 180, gyro unit 190 one
Individual or multiple, by it is single or combination by way of come according to being fitted the most in the way of to the electronic equipment 100 apply have
The power of first direction.
Although additionally, herein using above-mentioned unit as the executive agent of each step come illustrate it is of the invention each
Embodiment, but, it will be appreciated to those of skill in the art that the invention is not restricted to this.The executive agent of each step can be with
Served as by other one or more units, unit, even module.
For example, each performed by above-mentioned receiving unit 110, resolution unit 120, determining unit 130 and applying unit 140
Individual step can uniformly by the CPU in electronic equipment(CPU)To realize.
Through the above description of the embodiments, those skilled in the art can be understood that the present invention can be by
Realized in the mode of software plus required hardware platform, naturally it is also possible to all implemented by software or hardware.Based on this
The understanding of sample, what technical scheme contributed to background technology in whole or in part can be in the form of software product
Embody, the computer software product can be stored in storage medium, such as ROM/RAM, disk, CD, including it is some
Instruction is used to so that a computer equipment(Can be personal computer, server, or network equipment etc.)Perform the present invention
Method described in some parts of each embodiment or embodiment.
Each embodiment of the invention has been described in detail above.However, it should be appreciated by those skilled in the art that not taking off
In the case of principle of the invention and spirit, these embodiments can be carried out with various modifications, combination or sub-portfolio, and so
Modification should fall within the scope of the present invention.
Claims (2)
1. a kind of feedback method, methods described is applied to electronic equipment, it is characterised in that methods described includes:
Receive the force feedback information that the application program by being run in the electronic equipment is produced;Parse the force feedback information;
The force feedback information that obtains determines the power that the application program will apply to the electronic equipment the is parsed based on described
One direction;And
Apply the power with first direction to the electronic equipment;
Wherein, the electronic equipment includes counterweight element, and the counterweight element has a weight, and
It is described to the electronic equipment apply with first direction power the step of include:
So that the counterweight element is moved in the electronic equipment to first direction, so as to produce institute in the electronic equipment
State the power with first direction;
Or,
The electronic equipment includes floating unit, and the floating unit has a buoyancy, and
It is described to the electronic equipment apply with first direction power the step of include:
So that the floating unit is moved in the electronic equipment to the second direction opposite with first direction, so as to described
The power with first direction is produced in electronic equipment;
Or,
The electronic equipment includes gyro unit, and the gyro unit rotates in the electronic equipment, and
It is described to the electronic equipment apply with first direction power the step of include:
Apply the power with the second direction opposite with first direction to the gyro unit so that the gyroscope is described
The power with first direction is produced in electronic equipment.
2. a kind of electronic equipment, it is characterised in that the electronic equipment includes:
Receiving unit, the force feedback information that the application program for receiving by being run in the electronic equipment is produced;Parsing is single
Unit, for parsing the force feedback information;
Determining unit, for determining that the application program will be to the electronic equipment based on the force feedback information for obtaining that parses
The first direction of the power of applying;And
Applying unit, for applying the power with first direction to the electronic equipment;
Wherein, the electronic equipment includes counterweight element, and the counterweight element has a weight, and
The applying unit causes that the counterweight element is moved in the electronic equipment to first direction, so as in the electronics
The power with first direction is produced in equipment;
Or, the electronic equipment includes floating unit, and the floating unit has a buoyancy, and
The applying unit causes that the floating unit is transported in the electronic equipment to the second direction opposite with first direction
It is dynamic, so as to produce the power with first direction in the electronic equipment;
Or,
The electronic equipment includes gyro unit, and the gyro unit rotates in the electronic equipment, and
The applying unit applies the power with the second direction opposite with first direction to the gyro unit so that described
Gyroscope produces the power with first direction in the electronic equipment.
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CN201310097878.7A CN104076911B (en) | 2013-03-25 | 2013-03-25 | Feedback method and electronic equipment |
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CN201310097878.7A CN104076911B (en) | 2013-03-25 | 2013-03-25 | Feedback method and electronic equipment |
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CN104076911B true CN104076911B (en) | 2017-06-27 |
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CN102111496A (en) * | 2009-12-24 | 2011-06-29 | 三星电子株式会社 | Method and apparatus for generating vibrations in portable terminal |
CN102221890A (en) * | 2010-06-22 | 2011-10-19 | 微软公司 | Free space directional force feedback device |
CN102402318A (en) * | 2010-09-09 | 2012-04-04 | 瑞声声学科技(深圳)有限公司 | Method for implementing positioning and force feedback |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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EP2380640A3 (en) * | 2005-06-27 | 2011-12-28 | Coactive Drive Corporation | Synchronized vibration device for haptic feedback |
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2013
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102111496A (en) * | 2009-12-24 | 2011-06-29 | 三星电子株式会社 | Method and apparatus for generating vibrations in portable terminal |
CN102221890A (en) * | 2010-06-22 | 2011-10-19 | 微软公司 | Free space directional force feedback device |
CN102402318A (en) * | 2010-09-09 | 2012-04-04 | 瑞声声学科技(深圳)有限公司 | Method for implementing positioning and force feedback |
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