CN104932695B - Message input device and data inputting method - Google Patents

Message input device and data inputting method Download PDF

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Publication number
CN104932695B
CN104932695B CN201510366863.5A CN201510366863A CN104932695B CN 104932695 B CN104932695 B CN 104932695B CN 201510366863 A CN201510366863 A CN 201510366863A CN 104932695 B CN104932695 B CN 104932695B
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China
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input data
acceleration
information
user
vibration
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CN201510366863.5A
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Chinese (zh)
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CN104932695A (en
Inventor
陈柯
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联想(北京)有限公司
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Abstract

The present invention provides a kind of data inputting methods, and applied to electronic equipment, input method includes:First input data of the first operating body of the user of sensing electronic equipment;When the first input data meets the first predetermined condition, the second input data of the first operating body is detected;Detect the 3rd input data of the second operation body of user;It is analyzed by combining the second input data and the 3rd input data, external equipment is instructed and send an instruction to judge the input type of user's operation and generate corresponding first.Action of the present invention by sensing two operating bodies of user determines the input data of user, and input data is corresponding with the action type of smart machine, so as to complete the control to smart machine.

Description

Message input device and data inputting method

Technical field

The present invention relates to the message input devices and data inputting method applied to electronic equipment.

Background technology

At present, smart machine has been obtained for extensive use, for example, smart mobile phone, smartwatch, intelligent glasses etc..It is right For existing normal procedure intelligent equipment, for example, mouse-keyboard in computer, remote controler in home appliance, all depend on specific Input attachment realize human-computer interaction.

However, some interaction scenarios newly emerged in large numbers, in addition to for computer, mobile phone, tablet, further include smart home, The emerging scene such as intelligent automobile.Under these scenes, it is desired to be able to be carried while being limited from objective condition such as distance, environment For interactive experience.Therefore, how to be interacted anywhere or anytime be field of human-computer interaction research hot spot direction.

The content of the invention

The embodiment of the present invention be designed to provide a kind of data inputting method applied to electronic equipment and information is defeated Enter device, to solve above-mentioned technical problem.

An embodiment of the present invention provides a kind of data inputting methods, and applied to electronic equipment, input method includes:Sensing electricity First input data of the first operating body of the user of sub- equipment;When the first input data meets the first predetermined condition, inspection Survey the second input data of the first operating body;Detect the 3rd input data of the second operation body of user;By combining second Input data and the 3rd input data are analyzed, and are referred to judging the input type of user's operation and generating corresponding first Make and send an instruction to external equipment.

Another embodiment of the present invention provides a kind of message input device, and applied to electronic equipment, input unit includes:The One input data sensing unit, for the first input data of the first operating body of the user of sensing electronic equipment;Second is defeated Enter data detecting unit, for when the first input data meets the first predetermined condition, the second of the first operating body of detection to input Data;3rd input data detection unit, for detecting the 3rd input data of the second operation body of user;Analytic unit, For being analyzed by combining the second input data and the 3rd input data, to judge the input type of user's operation and production Raw the first corresponding instruction and transmitting element, for sending an instruction to external equipment.

Scheme provided in an embodiment of the present invention determines user's by sensing the action of two operating bodies of user Input data, and input data is corresponding with the action type of smart machine, so as to complete the control to smart machine.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, make below by required in the description to embodiment Attached drawing is briefly described.The accompanying drawings in the following description is only exemplary embodiment of the present invention.

Figure 1A -1E are the structure diagrams of electronic equipment according to embodiments of the present invention;

Fig. 2 is the flow chart of data inputting method according to embodiments of the present invention;

Fig. 3 is the exemplary architecture figure of message input device according to embodiments of the present invention.

Specific embodiment

Hereinafter, by preferred embodiments of the present invention will be described in detail with reference to the annexed drawings.Note that in the specification and drawings In, there is substantially the same step and element to be denoted by the same reference numerals, and to the repetition solution of these steps and element Releasing will be omitted.

In the following embodiment of the present invention, electronic equipment refers to the equipment that can be communicated with other equipment.Electronics is set Standby concrete form includes but not limited to mobile phone, personal computer, digital camera, personal digital assistant, portable computing Machine, game machine, smartwatch, Intelligent bracelet, intelligent finger ring etc..Electronic equipment can also be the attachment as smart machine Input unit or independent smart machine.

First, will electronic equipment according to embodiments of the present invention be described with reference to Fig. 1.Electronics according to embodiments of the present invention is set Standby can be for example Wearable.As shown in Figure 1A, electronic equipment 100 includes:Body apparatus 200 and fixing device 300.Gu Determine device 300 to be connected with the body apparatus 200, the fixing device 300 is for the fixed user with the electronic equipment Relative position relation.

The fixing device 300 at least has stationary state, and under the stationary state, the fixing device 300 can be made For an annulus or at least a portion in the proximate annular space for meeting the first predetermined condition, the annulus or described near The column periphery for meeting the second predetermined condition can be centered around like annulus.

Specifically, Fig. 1 C and 1B illustrate two kinds of fixations that the fixing device 300 is connected with the body apparatus 200 respectively State.Under the first stationary state as shown in Figure 1B, the fixing device 300 forms closed loop with the body apparatus 200 Annulus, wherein the fixing device 300 respectively constitutes a part for annulus with the body apparatus 200.Such as scheming Under the second stationary state shown in 1C, the fixing device 300 forms the proximate annular with opening with the body apparatus 200 Space, wherein the fixing device 300 respectively constitutes a part for annulus with the body apparatus 200.The present invention's In one preferred embodiment, the body apparatus 200 is the dial plate part of smartwatch, and the fixing device 300 is intelligence The band portion of wrist-watch.The annulus formed by the body apparatus 200 and the fixing device 300 or the approximation Annulus can be centered around around the wrist of the user of the smartwatch as the column, and the annulus or institute The diameter for stating proximate annular space is more than the diameter of user's wrist and is less than the diameter of user's fist.

In addition, the annulus or the proximate annular space can certainly be by the 300 independent shapes of fixing device Into.As seen in figs. 1D and 1E, the body apparatus 200 can be arranged in the fixing device 300 (that is, described body apparatus 200 are attached to the fixing device 300 in a manner that face contacts), it is formed to only have the fixing device 300 itself for outer Around the annulus (Fig. 1 D) of the column or the proximate annular space (Fig. 1 E).The fixing device 300 is arranged There is the fixed mechanism (not shown) of hasp, fastener, slide fastener etc..

Figure 1B -1E show a case that the electronic equipment 100 is Wrist belt-type equipment.However, the present invention is not limited in This.For example, in many cases, the specific form of the electronic equipment 100 can also be finger ring etc..

An example according to the present invention, electronic equipment 100 are equipped with acceleration transducer and vibrating sensor.Vibration Sensor can be realized by piezoelectric membrane.For example, when the finger as the first operating body clicks on a certain surface, generation Vibration is transferred to by finger on the piezoelectric membrane on electronic equipment, and pressure signal is converted into electric signal to determine by piezoelectricity template The amplitude and frequency of vibration.Electronic equipment 100 senses acceleration signal by acceleration transducer or vibrating sensor or shakes After dynamic signal, processor therein can be according to the signal generation command signal of sensing, and command signal is inputed to other and is set It is standby.

Wearable form in this way can cause electronic equipment 100 to be more convenient for providing interactive experience anywhere or anytime. The 26S Proteasome Structure and Function of electronic equipment is described above, the function that above-mentioned electronic equipment is explained below realizes process, that is, passes through electricity The data inputting method that sub- equipment is realized.

Fig. 2 describes the flow chart of data inputting method 200 according to first embodiment of the invention.Below with reference to Fig. 2 come describe the present invention one embodiment data inputting method.Data inputting method 200 can be applied to above-mentioned electronics Equipment 100, electronic equipment 100 realizes that user action senses by execution information input method, and generates control instruction signal.When After user wears above-mentioned electronic equipment, which can realize the output of information according to the gesture instruction of user, so as to The external equipment being attached thereto is controlled as input signal.For example, the function of right mouse button is imitated to control external equipment.

In step s 201, the first input data of the first operating body of the user of sensing electronic equipment.According to this hair A bright example, the first operating body can be the finger of user or multiple fingers or wrist, as long as it can be by electricity Sub- equipment is worn on it, and operates electronic equipment using its action or gesture, can serve as the first operating body.According to The example of the present invention, the first input data can generate control electronics according to the action or gesture of the first operating body An input signal.For example, the first input data can include the first acceleration information of the first operating body and first shake Dynamic information, wherein the first acceleration information can for example include shaking by the 3-axis acceleration component of origin, first of electronic equipment Dynamic information can for example include Oscillation Amplitude and/or vibration frequency.Above-mentioned 3-axis acceleration component can for example include standard and sit Mark the component of tri- direction of principal axis of X, Y, Z of system.

An example according to the present invention when sensing the first input data of the first operating body, can sense the respectively The first acceleration information and the first vibration information of one operating body.It is possible, firstly, to the acceleration sensing portion using electronic equipment Part, for example, acceleration transducer, to sense the first acceleration information of wearable electronic device.It is sensed in acceleration transducer 3-axis acceleration component when, judge whether the component of acceleration more than first threshold.If it is present three axis are accelerated Degree component merges into the first acceleration information of first direction together.For example, when the finger of user move closer to a certain surface with When interacting operation, certainly exist perpendicular or close to the acceleration perpendicular to the surface.Pass through sentencing for acceleration transducer Break to determine user whether initial interactive operation.Here first threshold is not considered as the finger fortune of user to filter out Dynamic situation and noise jamming that may be present.In general, when the finger of user on a certain surface when being operated, Three number of axle that the acceleration transducer of electronic equipment obtains deposit larger acceleration value on both axes among.Certainly, It is also likely to be present only that there are one the situations of the larger acceleration value on axis.This by depending on the mode of operation of user's finger, Operation planar and the direction of motion.When merging the acceleration on first direction, the first of further sensing electronic equipment shakes Dynamic information.

For example, can the first vibration information be sensed by the vibrating sensor in electronic equipment.When vibrating sensor senses To after vibration information, judge whether the vibration information is more than a predetermined threshold value, if greater than predetermined threshold value, show that the vibration is believed Breath is an effective vibration information rather than the unconscious touch motion of user, therefore can simultaneously be vibrated as first Information.

In step S202, when the first input data meets the first predetermined condition, the second of the first operating body of detection is defeated Enter data.An example according to the present invention, when in step s 201, electronic equipment get effective first input data it Afterwards, in step S202, it can also determine whether the first input data meets the first predetermined condition.First predetermined condition The operation that can be used for limiting the first operating body of user is specific operation.For example, by the judgement of the first predetermined condition come really Whether the finger of user is determined for carrying out clicking operation rather than hanging clicking operation on a certain surface.It is for example, pre- by first If condition can also judge, if detecting that the first acceleration information is larger (for example, more than acceleration in the shorter period Predetermined threshold value), and Oscillation Amplitude is larger and/or vibration frequency is larger (for example, more than first vibration threshold), then tends to recognize It is clicking operation for the finger manipulation representated by the vibration information.

In addition, when the first input data meets the first predetermined condition, the second input of the first operating body is further detected Data.Second input data can be used for detecting the first operating body after a certain surface progress clicking operation, if be lifted away from The action on the surface.An example according to the present invention, the second input data include:Second acceleration information of electronic equipment. Wherein, the second acceleration information is the acceleration after the first acceleration.Second acceleration information can also include setting with electronics Standby is the 3-axis acceleration component of origin.In order to detect the second acceleration information, can judge among 3-axis acceleration component With the presence or absence of the component of acceleration more than the second predetermined threshold value, if it is judged that being yes, then it is merged into second direction The second acceleration information.Under normal circumstances, second direction and the first direction of the first acceleration information in step S201 are Opposite direction or approximately opposed direction.For example, the first acceleration information, which can be user's finger realization, clicks a certain surface During operation vertically downward or the acceleration close to vertical downward direction, the second acceleration information can be that user's finger is lifted away from When stating surface vertically upward or close to acceleration vertically upward.

After the second acceleration information is got, further can the first operating body be judged according to the second acceleration information Whether the action that is lifted away from above-mentioned surface is had.For example, when the second acceleration is more than predetermined threshold value, then show the first operation of user Body is moving.If further determine that the second acceleration is more than predetermined threshold value in the component on the direction on a certain surface (for example, zero), then it represents that the finger of user is likely to be lifted away from the surface of above-mentioned click.If the second acceleration be more than zero, but Component on the direction on a certain surface is zero, then it represents that user is only to be slided on a certain surface.

In step S203, the 3rd input data of the second operation body of user is detected.One according to the present invention is shown Example, second operation body can be the finger of user or multiple fingers or wrist.In embodiments of the present invention, the second operation Body and the first operating body are independently.For example, the first operating body, if the finger of user, second operation body is use Another finger at family.Alternatively, the first operating body if the hand of user, then second operation body can be the another of user Hand, etc..Second operation body can be acted or gesture passes through the body of user or the object contacted with second operation body It is transferred on electronic equipment.That is, electronic equipment is not necessarily worn in second operation body, but it should can pass through medium Directly or indirectly sense the operation of second operation body.For example, the first operating body is the forefinger of user, second operation body is user Middle finger, wearable electronic device on forefinger gives directions hit desktop when surfaces in the middle, and middle finger, which clicks on the vibration generated, can pass through table Face or human body are transferred on the electronic equipment of forefinger, so as to which the vibrating sensor on electronic equipment can sense the vibration of middle finger Amplitude and frequency.

An example according to the present invention detects the process and step of the 3rd input data of the second operation body of user The process that the first input data of the first operating body is detected in S201 is similar.For example, the 3rd input data can be according to the second behaviour Make body action or gesture and formed, and as another input signal of electronic equipment.3rd input data can include the 3rd acceleration information of two operating bodies and the second vibration information, wherein the 3rd acceleration information can for example include with electronics Equipment is the 3-axis acceleration component of coordinate system, and the second vibration information can for example include Oscillation Amplitude and/or vibration frequency.

An example according to the present invention when sensing three input data of second operation body, can sense the respectively 3rd acceleration information of two operating bodies and the second vibration information.It is possible, firstly, to the acceleration sensing portion using electronic equipment Part for example, acceleration transducer, carrys out the 3rd acceleration information of sensing electronic equipment.Three sensed in acceleration transducer During axle acceleration component, the component of acceleration more than first threshold is judged whether.If it is present 3-axis acceleration is divided Amount merges into the 3rd acceleration information of first direction together.For example, when the finger of user moves closer to a certain surface to carry out During interactive operation, certainly exist perpendicular or close to the acceleration perpendicular to the surface.By the judgement of a judgement part come really Determine user whether initial interactive operation.Here first threshold is not considered as the feelings of the finger motion of user to filter out Condition and noise jamming that may be present.In general, when the finger of user on a certain surface when being operated, set in electronics Three number of axle that standby sensing part obtains are among, and there are the larger acceleration values on an axis or two axis.This will take Certainly in the mode of operation of user's finger, operation planar and the direction of motion.When merge the 3rd acceleration on first direction it Afterwards, the second vibration information can be determined whether.

For example, can the second vibration information be sensed by the vibrating sensor in electronic equipment.When vibrating sensor senses To after vibration information, judge whether the vibration information is more than a predetermined threshold value, if greater than predetermined threshold value, show that the vibration is believed Breath is an effective vibration information for contacting a certain surface rather than hanging operation, therefore can be vibrated as second Information.

In step S204, analyzed by combining the second input data and the 3rd input data, to judge user The input type of operation simultaneously generates the first corresponding instruction.An example according to the present invention, when the second of the first operating body When the second acceleration information in input data is zero.That is, in step S202, the first operating body clicks on a certain surface Afterwards, remain stationary as, then determine whether the second vibration information of second operation body meets the second predetermined condition.It or can Selection of land, in step S202, if after the first operating body clicks on a certain surface, although the second acceleration information is not zero, but Not vertically with the component in above-mentioned surface direction.That is, the first operating body is after click action, only in clicks table Slided on face, without be lifted away from click on surface, then still can determine whether second operation body the second vibration information whether Meet the second predetermined condition.Opposite with above-mentioned two situations, if in step S202, the first operating body clicks on a certain surface Afterwards, the second acceleration information is not zero, and the component also in vertical direction.That is, the first operating body is dynamic in click After work, it may be lifted away from and click on surface, then need not further judge the situation of the 3rd input data of second operation body at this time, i.e., It need not further judge whether the second vibration information of second operation body meets the second predetermined condition.

As described above, after the second input data of the first operating body meets preset condition, determine whether as the second behaviour Whether the second vibration information for making body meets the second predetermined condition.For example, the 3rd input data is obtained first, then according to the 3rd Input data determines the input type of user's operation, and generates the first instruction according to input type.One according to the present invention Example, if the second vibration information of second operation body be more than the second vibration information of predetermined threshold value or second operation body with And the 3rd acceleration information be all higher than predetermined threshold value, it is determined that input type be click on, generate click commands as first instruction. If the second vibration information is more than predetermined threshold value or the second vibration information and the 3rd acceleration information is all higher than default threshold Value, and after vibration, further detect the 4th acceleration information, and the 4th acceleration information is perpendicular to vibration The component generated on the direction on surface is zero, it is determined that input type is to slide, and generates slip instruction as the first instruction.

In step S205, external equipment is sent an instruction to.An example according to the present invention, can be by step S204 First instruction of middle generation is sent to external equipment.For example, when electronic equipment is the input equipment as attachment, first is referred to Order by interface channel be sent to its main equipment be used as control main equipment control signal.

Action of the embodiment of the present invention by sensing two operating bodies of user determines the input data of user, and Input data is corresponding with the action type of smart machine, so as to complete the interactive operation of input equipment and smart machine, It is convenient for users to use.

Fig. 3 describes the exemplary framework figure of message input device 300 according to another embodiment of the invention.Below By with reference to Fig. 3 come describe the present invention second embodiment message input device 300.Message input device 300 and information are defeated Enter method 200 to correspond to, in order to illustrate the brief introduction of book, only briefly introduce below.Message input device 300 can be applied to above-mentioned Electronic equipment 100, electronic equipment 100 realizes that user action senses by the program module of execution information input unit, and generates Control instruction signal.After user wears above-mentioned electronic equipment, which can realize according to the gesture instruction of user The output of information, so as to control the external equipment being attached thereto as input signal.For example, the function of imitating right mouse button is come Control external equipment.As shown in figure 3, message input device 300 includes:First input data sensing unit 301, the second input number According to detection unit 302, the 3rd input data detection unit 303, analytic unit 304, transmitting element 305.

First input number of the first operating body of the user of 301 sensing electronic equipment of the first input data sensing unit According to.An example according to the present invention, the first operating body can be the finger of user or multiple fingers or wrist, as long as It is that electronic equipment can be worn on it, and electronic equipment is operated using its action or gesture, can serve as first Operating body.An example according to the present invention, the first input data can be generated according to the action or gesture of the first operating body One input signal of control electronics.For example, the first acceleration that the first input data can include the first operating body is believed Breath and the first vibration information, wherein the first acceleration information can for example include using electronic equipment as the 3-axis acceleration of origin Component, the first vibration information can for example include Oscillation Amplitude and/or vibration frequency.Above-mentioned 3-axis acceleration component for example can be with The component of tri- direction of principal axis of X, Y, Z including conventional coordinates.

An example according to the present invention when sensing the first input data of the first operating body, can sense the respectively The first acceleration information and the first vibration information of one operating body.It is possible, firstly, to the acceleration sensing portion using electronic equipment Part, for example, acceleration transducer, to sense the first acceleration information of wearable electronic device.It is sensed in acceleration transducer 3-axis acceleration component when, judge whether the component of acceleration more than first threshold.If it is present three axis are accelerated Degree component merges into the first acceleration information of first direction together.For example, when the finger of user move closer to a certain surface with When interacting operation, certainly exist perpendicular or close to the acceleration perpendicular to the surface.Pass through sentencing for acceleration transducer Break to determine user whether initial interactive operation.Here first threshold is not considered as the finger fortune of user to filter out Dynamic situation and noise jamming that may be present.In general, when the finger of user on a certain surface when being operated, Three number of axle that the acceleration transducer of electronic equipment obtains deposit larger acceleration value on both axes among.Certainly, It is also likely to be present only that there are one the situations of the larger acceleration value on axis.This by depending on the mode of operation of user's finger, Operation planar and the direction of motion.When merging the acceleration on first direction, the first of further sensing electronic equipment shakes Dynamic information.

For example, can the first vibration information be sensed by the vibrating sensor in electronic equipment.When vibrating sensor senses To after vibration information, judge whether the vibration information is more than a predetermined threshold value, if greater than predetermined threshold value, show that the vibration is believed Breath is an effective vibration information rather than the unconscious touch motion of user, therefore can simultaneously be vibrated as first Information.

Second input data detection unit 302 is when the first input data meets the first predetermined condition, the first operation of detection Second input data of body.An example according to the present invention, when the first input data sensing unit 301 gets effective After one input data, the second input data detection unit 302 can also determine whether the first input data meets One predetermined condition.The operation that first predetermined condition can be used for limiting the first operating body of user is specific operation.For example, pass through The judgement of first predetermined condition carries out clicking operation rather than hanging point to determine whether the finger of user is directed on a certain surface Hit operation.For example, it can also be judged by the first preset condition, if detecting that the first acceleration is believed in the shorter period It ceases larger (for example, more than acceleration predetermined threshold value), and Oscillation Amplitude is larger and/or vibration frequency is larger (for example, more than the One vibration threshold), then it is clicking operation to tend to think the finger manipulation representated by the vibration information.

In addition, when the first input data meets the first predetermined condition, the second input of the first operating body is further detected Data.Second input data can be used for detecting the first operating body after a certain surface progress clicking operation, if be lifted away from The action on the surface.An example according to the present invention, the second input data include:Second acceleration information of electronic equipment. Wherein, the second acceleration information is the acceleration after the first acceleration.Second acceleration information can also include setting with electronics Standby is the 3-axis acceleration component of origin.In order to detect the second acceleration information, can judge among 3-axis acceleration component With the presence or absence of the component of acceleration more than the second predetermined threshold value, if it is judged that being yes, then it is merged into second direction The second acceleration information.Under normal circumstances, the first acceleration information of second direction and the first input data sensing unit 301 First direction be opposite direction or approximately opposed direction.For example, the first acceleration information, which can be user's finger, realizes click To a certain surface operation when the acceleration vertically downward or close to vertical downward direction, the second acceleration information can be use When family finger is lifted away from above-mentioned surface vertically upward or close to acceleration vertically upward.

After the second acceleration information is got, further can the first operating body be judged according to the second acceleration information Whether the action that is lifted away from above-mentioned surface is had.For example, when the second acceleration is more than predetermined threshold value, then show the first operation of user Body is moving.If further determine that the second acceleration is more than predetermined threshold value in the component on the direction on a certain surface (for example, zero), then it represents that the finger of user is likely to be lifted away from the surface of above-mentioned click.If the second acceleration be more than zero, but Component on the direction on a certain surface is zero, then it represents that user is only to be slided on a certain surface.

3rd input data of the second operation body of the 3rd input data detection unit 303 detection user.According to this hair A bright example, second operation body can be the finger of user or multiple fingers or wrist.In the embodiment of the present invention In, second operation body and the first operating body are independently.For example, the first operating body is if the finger of user, Two operating bodies are another finger of user.Alternatively, the first operating body is if the hand of user, then second operation body can be with It is another hand of user, etc..Second operation body can be acted or gesture is operated by the body of user or with second The object transfer of body contact is on electronic equipment.That is, electronic equipment is not necessarily worn in second operation body, but should The operation of second operation body can be directly or indirectly sensed by medium.For example, the first operating body is the forefinger of user, second Operating body is the middle finger of user, wearable electronic device on forefinger, gives directions hit desktop when surfaces in the middle, and middle finger clicks on shaking of generating It is dynamic to be transferred to by desktop or human body on the electronic equipment of forefinger, so as to which the vibrating sensor on electronic equipment can sense To the Oscillation Amplitude and frequency of middle finger.

An example according to the present invention detects the process and first of the 3rd input data of the second operation body of user The process that input data sensing unit 301 detects the first input data of the first operating body is similar.For example, the 3rd input data can It is formed with the action according to second operation body or gesture, and as another input signal of electronic equipment.3rd input number According to the 3rd acceleration information and the second vibration information that can include second operation body, wherein the 3rd acceleration information for example may be used To include the 3-axis acceleration component using electronic equipment as coordinate system, the second vibration information can for example include Oscillation Amplitude and/ Or vibration frequency.

An example according to the present invention when sensing three input data of second operation body, can sense the respectively 3rd acceleration information of two operating bodies and the second vibration information.It is possible, firstly, to the acceleration sensing portion using electronic equipment Part for example, acceleration transducer, carrys out the 3rd acceleration information of sensing electronic equipment.Three sensed in acceleration transducer During axle acceleration component, the component of acceleration more than first threshold is judged whether.If it is present 3-axis acceleration is divided Amount merges into the 3rd acceleration information of first direction together.For example, when the finger of user moves closer to a certain surface to carry out During interactive operation, certainly exist perpendicular or close to the acceleration perpendicular to the surface.By the judgement of a judgement part come really Determine user whether initial interactive operation.Here first threshold is not considered as the feelings of the finger motion of user to filter out Condition and noise jamming that may be present.In general, when the finger of user on a certain surface when being operated, set in electronics Three number of axle that standby sensing part obtains are among, and there are the larger acceleration values on an axis or two axis.This will take Certainly in the mode of operation of user's finger, operation planar and the direction of motion.When merge the 3rd acceleration on first direction it Afterwards, the second vibration information can be determined whether.

For example, can the second vibration information be sensed by the vibrating sensor in electronic equipment.When vibrating sensor senses To after vibration information, judge whether the vibration information is more than a predetermined threshold value, if greater than predetermined threshold value, show that the vibration is believed Breath is an effective vibration information for contacting a certain surface rather than hanging operation, therefore can be vibrated as second Information.

It when analytic unit 304 performs, is analyzed by combining the second input data and the 3rd input data, to judge to make The input type of user's operation simultaneously generates the first corresponding instruction.An example according to the present invention, when the first operating body When the second acceleration information in second input data is zero.That is, 302 implementation procedure of the second input data detection unit In, after the first operating body clicks on a certain surface, remain stationary as, then determining whether the second vibration information of second operation body is The second predetermined condition of no satisfaction.Or optionally, when the second input data detection unit 302 performs, if the first operating body point Hit after a certain surface, although the second acceleration information is not zero, but not vertically with the component in above-mentioned surface direction.Also It is to say, the first operating body only slides after click action on surface is clicked on, and clicks on surface without being lifted away from, then still It can determine whether the second vibration information of second operation body meets the second predetermined condition.It is opposite with above-mentioned two situations , if the second input data detection unit 302 performs, after the first operating body clicks on a certain surface, the second acceleration information It is not zero, and the component also in vertical direction.That is, the first operating body after click action, may be lifted away from click Surface then need not further be sentenced without the situation for the 3rd input data for further judging second operation body at this time Whether the second vibration information of disconnected second operation body meets the second predetermined condition.

As described above, after the second input data of the first operating body meets preset condition, determine whether as the second behaviour Whether the second vibration information for making body meets the second predetermined condition.For example, the 3rd input data is obtained first, then according to the 3rd Input data determines the input type of user's operation, and generates the first instruction according to input type.One according to the present invention Example, if the second vibration information of second operation body be more than the second vibration information of predetermined threshold value or second operation body with And the 3rd acceleration information be all higher than predetermined threshold value, it is determined that input type be click on, generate click commands as first instruction. If the second vibration information is more than predetermined threshold value or the second vibration information and the 3rd acceleration information is all higher than default threshold Value, and after vibration, further detect the 4th acceleration information, and the 4th acceleration information is perpendicular to vibration The component generated on the direction on surface is zero, it is determined that input type is to slide, and generates slip instruction as the first instruction.

Transmitting element 305 sends an instruction to external equipment.An example according to the present invention, can be by analytic unit 304 the first instructions generated are sent to external equipment.For example, when electronic equipment is the input equipment as attachment, by first Instruction by interface channel be sent to its main equipment be used as control main equipment control signal.

Action of the embodiment of the present invention by sensing two operating bodies of user determines the input data of user, and Input data is corresponding with the action type of smart machine, so as to complete the interactive operation of input equipment and smart machine, It is convenient for users to use.

Those of ordinary skill in the art may realize that each exemplary lists described with reference to the embodiments described herein Member and algorithm steps can be realized with the combination of electronic hardware, computer software or the two.And software module can be put In any form of computer storage media.In order to clearly demonstrate the interchangeability of hardware and software, in the above description Each exemplary composition and step are generally described according to function.These functions are come actually with hardware or software mode It performs, specific application and design constraint depending on technical solution.Those skilled in the art can specifically should to each For realizing described function using distinct methods, but this realization is it is not considered that beyond the scope of this invention.

It should be appreciated by those skilled in the art that can be dependent on design requirement and other factors carries out various repair to the present invention Change, combine, partly combining and replacing, as long as they are in the range of the appended claims and its equivalent.

Claims (10)

1. a kind of data inputting method, applied to electronic equipment, the described method includes:
Sense the first input data of the first operating body of the user of the electronic equipment;
When first input data meets the first predetermined condition, the second input data of first operating body, institute are detected Stating the second input data includes the second acceleration information of the electronic equipment,
Detect the 3rd input data of the second operation body of the user;
By being analyzed with reference to second input data and the 3rd input data, to judge user's operation Input type and generate the first corresponding instruction and
Described instruction is sent to external equipment;
First input data includes the first acceleration information and the first vibration information of first operating body,
The step of first input data of the first operating body of the user of the sensing electronic equipment, includes:
Judge whether first vibration information meets the first vibration threshold.
2. according to the method described in claim 1, wherein, wherein first acceleration information include using the electronic equipment as The 3-axis acceleration component of coordinate system, the vibration information include Oscillation Amplitude and/or vibration frequency, wherein,
The step of first input data of the first operating body of the user of the sensing electronic equipment, further includes:
Among the 3-axis acceleration component, the component of acceleration more than the first acceleration rate threshold is judged whether;
If it is judged that be yes, then the first acceleration information being merged on first direction;
And
When the acceleration for merging on the first direction and judge first vibration information be more than the first vibration threshold when, Determine that first input data meets first predetermined condition.
3. method according to claim 1 or 2, wherein second acceleration information is included using the electronic equipment as seat The 3-axis acceleration component of system is marked,
When first input data meets the first predetermined condition, the step of the second input data of first operating body is detected Suddenly include:
Among the 3-axis acceleration component, the component of acceleration more than the second acceleration rate threshold is judged whether;
If it is judged that be yes, then second acceleration information being merged into second direction.
4. according to the method described in claim 3, wherein, the 3rd input data includes the second vibration information, described second Vibration information includes Oscillation Amplitude and/or vibration frequency;
By being analyzed with reference to second input data and the 3rd input data, to judge user's operation First corresponding to input type and generation includes the step of instruction:
When the vertical direction component that second acceleration information is zero or described second acceleration information is zero, described in judgement Whether the second vibration information of second operation body meets the second predetermined condition;
When the second vibration information of the second operation body meets second predetermined condition, according to the 3rd input data Determine the input type of user's operation;
First instruction is generated according to the input type.
5. according to the method described in claim 4, wherein, the 3rd input data includes:It clicks on, slides, wherein,
The step of generating first instruction according to the input type includes:
When the input type is to click on, first instruction is click commands;
When the input type is to slide, first instruction is slip instruction.
6. a kind of message input device, applied to electronic equipment, described device includes:
First input data sensing unit, for sensing the first of the first operating body of the user of the electronic equipment the input number According to;
Second input data detection unit, for when first input data meets the first predetermined condition, detection described the Second input data of one operating body, second input data include:Second acceleration information of the electronic equipment;
3rd input data detection unit, for detecting the 3rd input data of the second operation body of the user;
Analytic unit, for by being analyzed with reference to second input data and the 3rd input data, to judge State the input type of user's operation and generate the first corresponding instruction and
Transmitting element, for described instruction to be sent to external equipment;
First input data includes the first acceleration information and the first vibration information of first operating body,
The first input data sensing unit includes:
First vibration information judging unit, for judging whether first vibration information meets the first vibration threshold.
7. device according to claim 6, wherein, wherein first acceleration information include using the electronic equipment as The 3-axis acceleration component of coordinate system, the vibration information include Oscillation Amplitude and/or vibration frequency, wherein,
The first input data sensing unit further includes:
First component of acceleration judging unit, among the 3-axis acceleration component, judging whether to be more than first The component of acceleration of acceleration rate threshold;
First acceleration information combining unit, for if it is judged that being yes, then being merged on first direction first Acceleration information;
And
First input data condition meets determination unit, for that ought merge the acceleration on the first direction and judge institute When stating the first vibration information more than the first vibration threshold, determine that first input data meets first predetermined condition.
8. device according to claim 7, wherein second acceleration information is included using the electronic equipment as coordinate The 3-axis acceleration component of system,
The second input data detection unit includes:
Second component of acceleration judging unit, among the 3-axis acceleration component, judging whether to be more than second The component of acceleration of acceleration rate threshold;
Second acceleration information combining unit, for if it is judged that be yes, being then merged into described in second direction Second acceleration information.
9. device according to claim 8, wherein, the 3rd input data includes the second vibration information, and described second Vibration information includes Oscillation Amplitude and/or vibration frequency;
The analytic unit includes:
Second vibration information condition meets judging unit, is zero or described second acceleration for working as second acceleration information When the vertical direction component of information is zero, judge whether the second vibration information of the second operation body meets the second predetermined item Part;
Input type determination unit, the second vibration information for working as the second operation body meet second predetermined condition When, according to the 3rd input data determine user operate input type;
First instruction generation unit, for generating first instruction according to the input type.
10. device according to claim 9, wherein, the 3rd input data includes:It clicks on, slides, described first refers to Generation unit is made to be further used for
When the input type is to click on, first instruction of generation is click commands;
When the input type is to slide, first instruction of generation is slip instruction.
CN201510366863.5A 2015-06-29 2015-06-29 Message input device and data inputting method CN104932695B (en)

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