CN102075625B - Dialing method, device, mobile phone and remote controller - Google Patents
Dialing method, device, mobile phone and remote controller Download PDFInfo
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Abstract
The embodiment of the invention relates to a dialing method. The dialing method comprises the following steps of: detection, namely detecting the moving mode of a dialing device to acquire a detection result containing a movement parameter; identification, namely processing the detection result, and determining a dialing value corresponding to the detection result; and output, namely performing output prompt on the dialing value or invalid dialing. The dialing method can dial only by moving the dialing device so as to overcome the limit that the dialing must be observed through eyes; and the dialing method has simple movement operation, obvious moving mode distinction and high dialing accuracy, and is suitable for the blind and the old to use. The embodiment of the invention also relates to the dialing device, a mobile phone and a remote controller.
Description
[technical field]
The embodiment of the invention relates to a kind of Dialing Method, particularly relates to dialing mechanism is moved the Dialing Method that detects.The embodiment of the invention also relates to a kind of dialing mechanism, mobile phone and remote controller
[background technology]
In the daily life, normally dial by button by operation to electronic products such as mobile phone, remote controllers for people.Along with intelligent level improves, the methods such as touch-screen dialing, acoustic-controlled dialing have also obtained application, and for specific group such as blind person, the elderly etc., above-mentioned Dialing Method has certain limitation.The blind person can't see keyboard, the elderly usually can not see keyboard because of dim eyesight, therefore push-button dialing method and touch-screen Dialing Method are difficult to satisfy the needs of these colonies usually, although exist by increasing the method that the touch recognition sign helps the blind person to dial at button, this method is used for the elderly larger difficulty; The acoustic-controlled dialing mode is limited by the difference of sound, has the not high problem of recognition correct rate.Therefore, need a kind of simple and effective other Dialing Methods to adapt to blind person, the elderly's user demand.
[summary of the invention]
The technical scheme that the embodiment of the invention adopts is: a kind of Dialing Method is provided, comprises:
Detecting step detects the move mode of dialing mechanism, obtains comprising the testing result of moving parameter; Identification step is processed described testing result, determines the dialing value that described testing result is corresponding;
Wherein, described move mode comprises that line accelerates at least a in mobile and the rotary moving, wherein detect the mobile described testing result of described line acceleration and comprise that line accelerates moving direction and linear acceleration value, the described testing result that detects described rotary moving comprises rotary moving direction and angular velocity of rotation value;
Wherein, described identification step comprises that described linear acceleration value that detection is obtained and default linear acceleration threshold value carry out numeric ratio, and/or the described angular velocity of rotation value that detection is obtained is carried out numeric ratio with default angular speed threshold value, described default linear acceleration threshold value comprises 1g rice/square second, described default angular speed threshold value comprises 90 degree/second, wherein, g represents acceleration of gravity.
Another embodiment of Dialing Method according to the present invention except detecting step and identification step, also comprises the output step, and invalid dialling or the dialing value of identification step are exported prompting, and this output prompting comprises at least a in showing of auditory tone cues and picture and text.
Another embodiment of Dialing Method according to the present invention, line accelerates mobile comprising along orthogonal X-axis, Y-axis, the Z axis 3-D walls and floor is done along X-axis positive direction line and is accelerated to move, accelerate mobile along X-axis negative direction line, accelerate mobile along Y-axis positive direction line, accelerate mobile along Y-axis negative direction line, accelerate mobile along Z axis positive direction line, accelerate to move along Z axis negative direction line, rotary moving comprises around orthogonal X-axis, Y-axis, the Z axis 3-D walls and floor is done around the X-axis movement that turns clockwise, be rotated counterclockwise movement around X-axis, around the Y-axis movement that turns clockwise, be rotated counterclockwise movement around Y-axis, around the Z axis movement that turns clockwise, be rotated counterclockwise movement around Z axis.
Another embodiment of Dialing Method according to the present invention, accelerating mobile corresponding dialing value along X-axis positive direction line is " 0 ", accelerating mobile corresponding dialing value along X-axis negative direction line is " 1 ", accelerating mobile corresponding dialing value along Y-axis positive direction line is " 2 ", accelerating mobile corresponding dialing value along Y-axis negative direction line is " 3 ", accelerating mobile corresponding dialing value along Z axis positive direction line is " 4 ", accelerating mobile corresponding dialing value along Z axis negative direction line is " 5 ", and be " 6 " around the X-axis mobile corresponding dialing value that turns clockwise, be rotated counterclockwise mobile corresponding dialing value around X-axis and be " 7 ", be " 8 " around the Y-axis mobile corresponding dialing value that turns clockwise, be rotated counterclockwise mobile corresponding dialing value around Y-axis and be " 9 ", be " deletion " around the Z axis mobile corresponding dialing value that turns clockwise, be rotated counterclockwise mobile corresponding dialing value around Z axis and be " dialing ".
The embodiment of the invention also provides a kind of dialing mechanism, it comprises microprocessor, human-machine interface module, also comprise sensor assembly, this sensor assembly can detect the move mode of dialing mechanism, and the move mode input information that detection is obtained is to microprocessor, by microprocessor move mode information is processed, determined the dialing value that move mode information is corresponding;
Wherein, described sensor assembly comprises at least a in linear acceleration transducer module and the angular-rate sensor module, wherein said linear acceleration transducer module comprises that line acceleration moving direction and the linear acceleration to described dialing mechanism detects, and described angular-rate sensor module comprises that rotary moving direction and the angular velocity of rotation to described dialing mechanism detects;
Wherein, dialing value corresponding to described move mode information carried out numeric ratio by the described linear acceleration value that detection is obtained with default linear acceleration threshold value, and/or the described angular velocity of rotation value that detection obtains is carried out numeric ratio with default angular speed threshold value come to determine, described default linear acceleration threshold value comprises 1g rice/square second, described default angular speed threshold value comprises 90 degree/second, wherein, g represents acceleration of gravity.
Dialing mechanism one embodiment according to the present invention, human-machine interface module comprise at least a in loud speaker and the display screen.
The embodiment of the invention also provides a kind of mobile phone, and this mobile phone is the mobile phone that has comprised aforementioned dialing mechanism embodiment of the present invention.
The embodiment of the invention also provides a kind of remote controller, and this remote controller is the remote controller that has comprised aforementioned dialing mechanism embodiment of the present invention.
The Dialing Method of the embodiment of the invention, device, mobile phone and remote controller detect by the movement to dialing mechanism, and different move modes is converted to different dialing values, realize dialing with this.This Dialing Method, device, mobile phone and remote controller have changed and must watch the limitation that just can dial by eyes, only need dialing mechanism is just moved and can dial, and move operation is simple, the move mode difference obviously, the dialing accuracy is high, is fit to blind person and the elderly and uses.
[description of drawings]
Can by embodiment the present invention be described more specifically with reference to the accompanying drawings, in the accompanying drawings:
Fig. 1 is the flow chart of Dialing Method one embodiment according to the present invention;
Fig. 2 is the flow chart of another embodiment of Dialing Method according to the present invention;
Fig. 3 is the schematic diagram of another embodiment of Dialing Method according to the present invention;
Fig. 4 is the schematic diagram of another embodiment of Dialing Method according to the present invention;
Fig. 5 is the structural representation of dialing mechanism one embodiment according to the present invention;
Fig. 6 is the structural representation of another embodiment of dialing mechanism according to the present invention; And
Fig. 7 is the structural representation of another embodiment of dialing mechanism according to the present invention;
[embodiment]
The present invention is described in detail below in conjunction with drawings and Examples.
Dialing Method embodiment of the present invention represents different dialing values by the different move modes to dialing mechanism, the dialing mechanism here refers to use the device of Dialing Method embodiment of the present invention, the dialing value comprises dialed digit, such as " 0 ", " 1 ", " 2 " etc., and dial feature, such as " affirmation ", " deletion ", " dialing " etc.Therefore, need to the move mode of dialing mechanism be detected.The move mode of dialing mechanism can have multiple, accelerate movement, rotary moving etc. such as line, testing result to move mode comprises the moving parameters such as moving direction, translational acceleration, translational speed, these move modes of while should be convenient to the user and operate use, and obvious difference is arranged again each other.
Fig. 1 has shown a preferred embodiment of Dialing Method of the present invention.In this embodiment, comprise detecting step 11, identification step 12.Detecting step 11 obtains comprising the testing result of moving parameter for detection of the move mode of dialing mechanism; Identification step 12 is used for the testing result that detecting step 11 obtains is processed, and determines the dialing value that testing result is corresponding.
In the preferred embodiment of the Dialing Method of the present invention that Fig. 2 shows, except comprising detecting step 21, outside the identification step 22, also comprise output step 23.The dialing value that output step 23 pair identification step 22 obtains produces prompting, also can produce prompting to invalid dialling, and prompting mode can be the combination that auditory tone cues, picture and text demonstration or auditory tone cues and picture and text show.
Below in conjunction with Fig. 3 and Fig. 4, do to specify for each step among Fig. 1 and Fig. 2 embodiment.
Detecting step 11 among Fig. 1 embodiment comprises the detection to the move mode of dialing mechanism, and Fig. 3 has shown that wherein a kind of line accelerates the mobile embodiment of detection.An orthogonal three-dimensional system of coordinate is arranged in Fig. 3, represent with X reference axis, Y reference axis and Z reference axis respectively, the positive direction of reference axis arrow direction indication denotation coordination axle wherein, and the negative direction of direction indication this reference axis opposite with the arrow direction indication.31 expression dialing mechanisms among Fig. 3.Accelerate among the mobile embodiment of detection at this line, the moving parameter that needs to detect comprises that line accelerates moving direction and linear acceleration value.The direction that dialing mechanism 31 is done line acceleration movement comprises along the X-axis positive direction, along the X-axis negative direction, along the Y-axis positive direction, along the Y-axis negative direction, does line acceleration movement along the Z axis positive direction and along the Z axis negative direction.Describe for the ease of dialing mechanism among Fig. 3 31 being done the mobile testing result of line acceleration, can represent that respectively it makees line along X-axis, Y-axis and Z axis and accelerate mobile accekeration with Ax, Ay and Az, and line accelerate mobile direction can by+number and-number distinguished, representing to do accekeration along the X-axis positive direction by dialing mechanism 31 such as+Ax, to be that the line of Ax accelerates mobile, and-Ax represents that it is that the line of Ax accelerates mobile that dialing mechanism 31 is done accekeration along the X-axis negative direction.
The Dialing Method embodiment of the present invention that is shown by Fig. 1 as can be known, in detecting step 11, finish the detection to move mode after, enter identification step 12.Therefore, in the embodiments of figure 3, after detecting the acceleration of acquisition line mobile direction and accekeration, need to accelerate moving parameters to these two lines and process, and determine the dialing value thus.
Can have multiplely in this in the art processing and conversion method, for example can adopt the method for coding and process and change according to certain coding rule.In the embodiment that Fig. 3 shows, stipulated to accelerate to roll off the production line the mobile coding rule: for line accelerate mobile direction with+number and-number distinguished, namely along the reference axis positive direction do line accelerate mobile getting+number, if along the reference axis negative direction do line accelerate to move then get-number; The accekeration that obtains for detection then compares with the linear acceleration threshold value of setting, if the linear acceleration value that detects is+1 more than or equal to this linear acceleration threshold value value of then encoding, otherwise, if the linear acceleration value that detects is 0 less than this linear acceleration threshold value value of then encoding, can use Bx, By and Bz presentation code value.For example, do linear acceleration value Ax=2 rice/square second if detection line accelerates to move along the X-axis negative direction, the linear acceleration threshold value of setting is 1g rice/square second, and g represents acceleration of gravity.Then correspondence obtains encoded radio Bx=-1.In addition, when dialing mechanism 31 is done line acceleration movement along the X-axis negative direction, it does not have component motion in Y-axis and Z axis, then can think its linear acceleration value Ay=0 on Y-axis, linear acceleration value Az=0 on Z axis, accelerate the mobile coding rule according to aforementioned line, can correspondence obtain encoded radio By=0, Bz=0.Like this, just can use expression dialing mechanism 31 in encoded radio (Bx, By, Bz)=(1,0,0) to make line along the X-axis negative direction and accelerate to move, and the linear acceleration value is greater than the linear acceleration threshold value of setting.Here the purpose of setting the linear acceleration threshold value is that line is accelerated mobile validity to be judged, avoids occurring the slow movement of dialing mechanism 31 or slightly rocks and just think it is the movement of carrying out for dialing by mistake.And the linear acceleration threshold value can be set according to the effective situation choose reasonable that in the practical application dialing mechanism 31 is moved detection, for example, is 1g rice/square second with the linear acceleration threshold settings, and g represents acceleration of gravity.
Accelerate the mobile coding rule according to aforementioned line, only make line along the positive and negative direction of X-axis, Y-axis and Z axis respectively when dialing mechanism 31 and accelerate when mobile, then available encoded radio (Bx, By, Bz) comprising: (0,0,0), (+1,0,0), (1,0,0), (0 ,+1,0), (0,-1,0), (0,0, + 1), (0,0 ,-1).The wherein not mobile or invalid movements of (0,0,0) expression dialing mechanism 21, and (+1,0,0), (1,0,0), (0 ,+1,0), (0 ,-1,0), (0,0 ,+1), (0,0 ,-1) are that effective line accelerates mobile coding.
In actual applications, dialing mechanism 31 can not accurately only be made line in the positive and negative direction of X-axis, Y-axis and Z axis and accelerate mobile, this moment can be according to the kinetic combination and separation principle, the line acceleration movement of dialing mechanism 31 is decomposed at X-axis, Y-axis and Z axis, obtain respectively its line at X-axis, Y-axis and Z axis and accelerate moving direction and linear acceleration value.Then accelerating the mobile coding rule according to aforesaid line encodes.But it should be noted that, after the line that detects is accelerated mobile the decomposition, the linear acceleration value that might obtain in two reference axis or three reference axis is all more than or equal to the linear acceleration threshold value, when therefore encoding by aforementioned line acceleration mobile coding rule, other encoded radios except aforementioned encoded radio can appear, such as (+1, + 1,0), (+1,0 ,-1) etc.
Then, need to determine the corresponding dialing value of encoded radio that obtains with detection, this process can be undertaken by the mode of tabling look-up.Example is as shown in table 1, encoded radio (1 as can be seen from Table 1,0,0) and dialing value " 1 " be one group of corresponding relation, therefore in the embodiment that Fig. 3 shows, accelerate the mobile encoded radio (Bx that detects and obtain when finishing line, By, Bz)=(1,0,0) after, can determine that dialing value corresponding to this encoded radio is " 1 ".That is to say that make line when dialing mechanism 31 along the X-axis negative direction and accelerate mobilely, and the linear acceleration value is during greater than the linear acceleration threshold value set, this move mode represents to carry out " 1 " dialing.
Table 1
| Sequence number | Encoded radio | The dialing value |
| 1 | (+1,0,0) | “0” |
| 2 | (-1,0,0) | “1” |
| 3 | (0,+1,0) | “2” |
| 4 | (0,-1,0) | “3” |
| 5 | (0,0,+1) | “4” |
| 6 | (0,0,-1) | “5” |
| 7 | (+1,+1,0) | “6” |
| 8 | (+1,-1,0) | “7” |
| 9 | (-1,+1,0) | “8” |
| 10 | (-1,-1,0) | “9” |
| 11 | (+1,0,+1) | " affirmation " |
| 12 | (+1,0,-1) | " deletion " |
It should be noted that the corresponding relation of encoded radio and dialing value is an embodiment in the table 1, this corresponding relation can be changed, but in any case change all to guarantee this corresponding relation be unique and be one to one.For example, regulation (+1,0,0) and dialing value " 0 " are one group of corresponding relations in the table 1, for example also can stipulate (+1,0,0) and dialing value " 1 " be one group of corresponding relation, but this relation is in case determine to guarantee its uniqueness, can not in same mapping table, occur (+1 simultaneously, 0,0) dialing different from two or more is worth corresponding situation, the situation of the corresponding same dialing values of two or more different encoded radios perhaps occurs.
If encoded radio does not have the corresponding dialing value can be corresponding in table 1, then think a kind of invalid dialling, the encoded radio that for example obtains is (+1, + 1, + 1), because the dialing value that this encoded radio is not corresponding in the table 1 represents that then it is invalid dialling that corresponding line accelerates movement.
According to the embodiment that Fig. 2 shows, enter output step 23 after finishing identification step 22.Therefore, in the embodiment that Fig. 3 shows, after effective value of being dialled, can point out by sound, for example dialing value is " 1 ", then sends accordingly the pronunciation of " 1 ", also can carry out picture and text by screen and show that perhaps sound and picture and text are pointed out synchronously.Invalid if dial, also can pass through respectively sound, picture and text prompting, perhaps sound and picture and text are pointed out synchronously.
Need to prove that also in the embodiment that table 1 shows, one has 12 dialing values and the encoded radio corresponding with these dialing values, in actual applications, the number of dialing value may increase or reduce.Particularly be worth when more when dialing, required encoded radio also can increase, and encoded radio increases current situation necessity and asks line to accelerate mobile kind also will to increase, but in practical operation, this may be so that partial line be accelerated mobilely to be difficult to accurate differentiation because of closer to each other, and the probability that misoperation occurs increases.At this moment, in this case, only accelerate mobile some difficulty that seems that dials that realizes by line.
Fig. 4 has shown another embodiment of Dialing Method of the present invention.Different from embodiment among Fig. 3 is, Fig. 4 has shown that a kind of rotary moving detects embodiment, and namely the rotary moving for dialing mechanism 41 detects.An orthogonal three-dimensional system of coordinate that represents with X reference axis, Y reference axis and Z reference axis is also arranged, wherein the positive direction of reference axis arrow direction indication denotation coordination axle in Fig. 4.Detect among the embodiment at this rotary moving, the moving parameter that needs to detect comprises rotary moving direction and angular velocity of rotation.
When seeing from X-axis, Y-axis and Z axis positive direction respectively, the direction that dialing mechanism 41 is done rotary moving comprise around X-axis clockwise, be rotated counterclockwise movement, around Y-axis clockwise, be rotated counterclockwise movement, around Z axis clockwise, be rotated counterclockwise movement.Describe for the ease of the testing result of dialing mechanism among Fig. 4 41 being done rotary moving, can represent that respectively it does the magnitude of angular velocity of rotary moving around X-axis, Y-axis and Z axis with Cx, Cy and Cz, the direction of doing rotary moving then can by+number and-number distinguished, + Cx represents to do the movement that turns clockwise that magnitude of angular velocity is Cx along X-axis, and-Cx represents to do the movement that is rotated counterclockwise that magnitude of angular velocity is Cx along X-axis.
Similar with the embodiment among Fig. 3, after detecting the direction and magnitude of angular velocity that obtains rotary moving, need to process and definite dialing value these two rotary moving parameters.Equally, also can adopt the method for coding and carry out according to certain coding rule.In the embodiment shown in fig. 4, stipulated following rotary moving coding rule: for the direction of rotary moving with+number and-number distinguished, namely along reference axis do mobile the getting that turn clockwise+number, if along reference axis do be rotated counterclockwise mobilely then get-number; The magnitude of angular velocity that obtains for detection then compares with the angular speed threshold value of setting, if magnitude of angular velocity is more than or equal to the angular speed threshold value, the value of then encoding is 1, if otherwise magnitude of angular velocity is 0 less than the angular speed threshold value value of then encoding, can use Dx, Dy and Dz presentation code value.For example, do the movement that is rotated counterclockwise of magnitude of angular velocity Cx=100 degree/second if detect along X-axis, angular speed threshold value 90 degree of setting/second, then correspondence obtains encoded radio Dx=-1.In addition, when dialing mechanism 41 is done rotary moving along X-axis, it does not have component motion in Y-axis and Z axis, then can think its angular velocity of rotation value Cy=0 on Y-axis, angular velocity of rotation value Cz=0 on Z axis, according to aforementioned rotary moving coding rule, can correspondence obtain encoded radio Dy=0, Dz=0.Like this, just can use encoded radio (Dx, Dy, Dz)=(1,0,0) expression dialing mechanism 41 to do around X-axis and be rotated counterclockwise movement, and magnitude of angular velocity is greater than the angular speed threshold value of setting.Here the purpose of set angle speed threshold value is the validity of rotary moving is judged, avoids occurring the slow circumvolve of dialing mechanism 41 or slightly rocks and just think it is the movement of carrying out for dialing by mistake.The angular speed threshold value can arrange according to the effective situation choose reasonable that in the practical application dialing mechanism 41 rotary movings is detected, for example 90 degree/second.
According to aforementioned rotary moving coding rule, when dialing mechanism 41 is only done clockwise and is rotated counterclockwise when mobile around X-axis, Y-axis and Z axis respectively, available encoded radio (Dx, Dy then, Dz) comprising: (0,0,0), (+1,0,0), (1,0,0), (0 ,+1,0), (0,-1,0), (0,0, + 1), (0,0 ,-1).The wherein not mobile or invalid movements of (0,0,0) expression dialing mechanism 41, and (+1,0,0), (1,0,0), (0 ,+1,0), (0 ,-1,0), (0,0 ,+1), (0,0 ,-1) are effective rotary moving codings.
In the practical application, 41 of dialing mechanisms do around X-axis, Y-axis and Z axis that rotary moving normally is difficult to accomplish, tend to depart from X-axis, Y-axis and Z axis and do rotary moving around the axis of other directions, this moment can be according to the kinetic combination and separation principle, to decompose equivalence around the rotary moving of other azimuth axis is around X-axis, Y-axis and Z axis rotary moving, and obtains corresponding magnitude of angular velocity Cx, Cy and Cz, obtains encoded radio Dx according to the rotary moving coding rule again, Dy, Dz.
In the embodiment that Fig. 4 shows, finish detect coding after, enter identification step, also can enter again the output step, wherein implementation content and Fig. 3 embodiment are similar.
Abovely respectively line is accelerated the mobile embodiment of detection and rotary moving in conjunction with Fig. 3 and Fig. 4 and detect embodiment and be illustrated, the use that also can combine of these two kinds of detection methods, both comprised in detecting step shown in Figure 1 11 namely that the line to dialing mechanism accelerated mobile detection, comprise again the detection to the dialing mechanism rotary moving, and can encode according to different coding rules, but the encoded radio of gained is wanted and can mutually be distinguished, and guarantees that encoded radio and dialing value can be corresponding one by one.For example, according to noted earlier, by being accelerated mobile detection, the dialing mechanism line obtains encoded radio (Bx, By, Bz)=(+1,0,0), obtains encoded radio (Dx, Dy by the detection to the dialing mechanism rotary moving, Dz)=(+1,0,0), when the corresponding relation of definite and dialing value, if directly with (+1,0,0) corresponding with a certain dialing value, then finally can cause the corresponding same dialing value of encoded radio of two kinds of different move modes, this obviously is unallowed.For this reason, can define another parameter E, and regulation E=-1 represents it is that line is accelerated mobile the detection, E=+1 represents it is that rotary moving is detected.On this basis, further coding is done in (Bx, By, Bz)=(+1,0,0), namely obtain (E, Bx, By, Bz)=(1 ,+1,0,0).In like manner, the further coding in (Dx, Dy, Dz)=(+1,0,0) is obtained (E, Dx, Dy, Dz)=(+1 ,+1,0,0).So so that the encoded radio that different move modes are detected gained can mutually distinguish, and corresponding from different dialing values.Also can take in the art other methods commonly used to carry out this differentiation, as long as guarantee that the different move modes and the dialing value that finally obtain can be corresponding one by one.As a preferred embodiment of the present invention, table 2 shows dialing value corresponding to different move modes.
Table 2
| Sequence number | Move mode | The dialing value |
| 1 | Accelerate mobile along X-axis positive direction line | “0” |
| 2 | Accelerate mobile along X-axis negative direction line | “1” |
| 3 | Accelerate mobile along Y-axis positive direction line | “2” |
| 4 | Accelerate mobile along Y-axis negative direction line | “3” |
| 5 | Accelerate mobile along Z axis positive direction line | “4” |
| 6 | Accelerate mobile along Z axis negative direction line | “5” |
| 7 | Around the X-axis movement that turns clockwise | “6” |
| 8 | Be rotated counterclockwise movement around X-axis | “7” |
| 9 | Around the Y-axis movement that turns clockwise | “8” |
| 10 | Be rotated counterclockwise movement around Y-axis | “9” |
| 11 | Around the Z axis movement that turns clockwise | " deletion " |
| 12 | Be rotated counterclockwise movement around Z axis | " dial " or other functions |
Fig. 5 has shown an embodiment of dialing mechanism of the present invention.Comprise in this embodiment microprocessor 51, linear acceleration transducer module 52 and human-machine interface module 54, microprocessor 51 can be the chip that the common single-chip microcomputer of the art etc. has computing and control function, linear acceleration transducer module 52 can be the art linear acceleration transducer module commonly used, for example can detect along six different directions and do the mobile 3-axis acceleration sensor module of line acceleration.Human-machine interface module 54 can be loud speaker or display screen etc.When using dialing mechanism embodiment shown in Figure 5 to do line acceleration movement, linear acceleration transducer module 52 can be accelerated mobile the detection to its line, obtain comprising the measurement result that line accelerates moving direction and linear acceleration value, then, measurement result is input to microprocessor 51.In microprocessor 51, line is accelerated moving direction and accekeration is analyzed and computing, and encode according to certain coding rule, for example, for line accelerate mobile direction with+number with-number distinguished, be preset with the linear acceleration threshold value, and the linear acceleration threshold value of the linear acceleration value that detection is obtained and setting is carried out numeric ratio and is waited, obtain on this basis representing that line accelerates the encoded radio of moving direction and accekeration, then further determine the dialing value corresponding with it by this encoded radio, then can be by the information of human-machine interface module 54 these dialing values of output expression, for example read by loud speaker or show this dialing value by display screen, perhaps loud speaker and display screen are exported synchronously.If the encoded radio that obtains in little processing 51 does not have corresponding dialing value corresponding, then think invalid to the mobile detection of line acceleration, then can be by the invalid information of human-machine interface module 54 output expression dialing, for example read by loud speaker or show " it is invalid to dial ", perhaps the two synchronous output by display screen.
Fig. 6 has shown another embodiment of dialing mechanism of the present invention.The embodiment that shows with Fig. 5 compares, the difference part is that sensor assembly wherein is angular-rate sensor module 63, and microprocessor 51 and the human-machine interface module 54 of embodiment have identical formation and characteristic among microprocessor 61 and human-machine interface module 64 and Fig. 5.Angular-rate sensor module 63 can be the art angular-rate sensor module commonly used, can measure angular velocity of rotation.When using dialing mechanism embodiment shown in Figure 6 to do rotary moving, angular-rate sensor module 63 can detect it, obtains comprising the measurement result of rotary moving direction and angular velocity of rotation, then, measurement result is input to microprocessor 61.In little processing 61, to the rotary moving direction with angular velocity of rotation is analyzed and computing, and encode according to certain coding rule, for example, for the direction of rotary moving with+number and-number distinguished, be preset with the angular speed threshold value, and the angular speed threshold value of the magnitude of angular velocity that detection is obtained and setting is carried out numeric ratio and is waited, obtain on this basis representing the encoded radio of rotary moving direction and angular velocity of rotation, then further determine the dialing value corresponding with it by this encoded radio, the information that then represents these dialing values by human-machine interface module 64 outputs, for example read by loud speaker or show this dialing value by display screen, perhaps loud speaker and display screen are exported synchronously.If the encoded radio that obtains in little processing 61 is the dialing value corresponding with it not, then think invalid to the rotary moving detection, then can be by the invalid information of human-machine interface module 64 output expression dialing, for example read by loud speaker or show " it is invalid to dial ", perhaps the two synchronous output by display screen.
Fig. 7 has shown another embodiment of dialing mechanism of the present invention.Except comprising microprocessor 71 and human-machine interface module 74, also comprised simultaneously linear acceleration transducer module 72 and angular-rate sensor module 73 among this embodiment, therefore and rotary moving mobile to the line acceleration all can detect.Microprocessor 51 and the human-machine interface module 54 of embodiment have identical formation and characteristic among microprocessor 71 and human-machine interface module 74 and Fig. 5, embodiment center line acceleration sensor module 52 has identical formation and characteristic among linear acceleration transducer module 72 and Fig. 5, among angular-rate sensor module 73 and Fig. 6 among the embodiment angular-rate sensor module 63 have identical formation and characteristic.Linear acceleration transducer module 72 can be accelerated mobile the detection to line, obtains comprising the measurement result that line accelerates moving direction and linear acceleration value, and measurement result is input to microprocessor 71.Angular-rate sensor module 73 can detect rotary moving, obtains comprising the measurement result of rotary moving direction and angular velocity of rotation, and measurement result is input to microprocessor 71.For example, linear acceleration transducer module 72 and angular-rate sensor module 73 produce interrupt signal, and microprocessor 71 reads above-mentioned measurement result by I2C or SPI interface.In microprocessor 71, to analyze respectively and computing two kinds of measurement results, and encode according to coding rule separately, obtain two kinds of encoded radios, be that a kind of line that represents accelerates the encoded radio of moving direction and accekeration, the encoded radio of another kind of expression rotary moving direction and angular velocity of rotation, but these two kinds of encoded radios of gained want and can mutually distinguish, corresponding one by one to guarantee encoded radio and dialing value.Then, according to the corresponding relation of encoded radio and dialing value, further determine dialing value corresponding to gained encoded radio, represent again the information of these dialing values by human-machine interface module 74 outputs, for example read by loud speaker or show this dialing value by display screen, perhaps loud speaker and display screen are exported synchronously.If the encoded radio that obtains in little processing 71 does not have corresponding dialing value, then think invalid to mobile detection, then can be by the invalid information of human-machine interface module 74 output expression dialing, for example read by loud speaker or show " it is invalid to dial ", perhaps the two synchronous output by display screen.
The dialing mechanism embodiment of the present invention that represents among Fig. 5, Fig. 6 or Fig. 7 can be applied in the electronic products such as mobile phone, remote controller, so that these electronic products can be realized dial feature by changing move mode, satisfy the users' such as blind person, the elderly needs.
In the above-described embodiments, only the embodiment of the invention has been carried out exemplary description, but those skilled in the art can carry out various modifications to the present invention after reading present patent application in the situation that does not break away from the spirit and scope of the present invention.
Claims (8)
1. Dialing Method is characterized in that: may further comprise the steps:
Detecting step detects the move mode of dialing mechanism, obtains comprising the testing result of moving parameter;
Identification step is processed described testing result, determines the dialing value that described testing result is corresponding;
Wherein, described move mode comprises that line accelerates at least a in mobile and the rotary moving, wherein detect the mobile described testing result of described line acceleration and comprise that line accelerates moving direction and linear acceleration value, the described testing result that detects described rotary moving comprises rotary moving direction and angular velocity of rotation value;
Wherein, described identification step comprises that described linear acceleration value that detection is obtained and default linear acceleration threshold value carry out numeric ratio, and/or the described angular velocity of rotation value that detection is obtained is carried out numeric ratio with default angular speed threshold value, described default linear acceleration threshold value comprises 1g rice/square second, described default angular speed threshold value comprises 90 degree/second, wherein, g represents acceleration of gravity.
2. Dialing Method according to claim 1, it is characterized in that: described Dialing Method also comprises:
The output step is exported prompting to invalid dialling or described dialing value, and described output prompting comprises at least a in showing of auditory tone cues and picture and text.
3. Dialing Method according to claim 1, it is characterized in that: described line accelerates mobile comprising along orthogonal X-axis, Y-axis, the Z axis 3-D walls and floor is done along X-axis positive direction line and is accelerated to move, accelerate mobile along X-axis negative direction line, accelerate mobile along Y-axis positive direction line, accelerate mobile along Y-axis negative direction line, accelerate mobile along Z axis positive direction line, accelerate to move along Z axis negative direction line, described rotary moving comprises around orthogonal X-axis, Y-axis, the Z axis 3-D walls and floor is done around the X-axis movement that turns clockwise, be rotated counterclockwise movement around X-axis, around the Y-axis movement that turns clockwise, be rotated counterclockwise movement around Y-axis, around the Z axis movement that turns clockwise, be rotated counterclockwise movement around Z axis.
4. Dialing Method according to claim 3 is characterized in that: describedly accelerate mobile corresponding dialing value along X-axis positive direction line and be " 0 ", described is " 1 " along the mobile corresponding dialing value of X-axis negative direction line acceleration, described is " 2 " along the mobile corresponding dialing value of Y-axis positive direction line acceleration, described is " 3 " along the mobile corresponding dialing value of Y-axis negative direction line acceleration, described is " 4 " along the mobile corresponding dialing value of Z axis positive direction line acceleration, described is " 5 " along the mobile corresponding dialing value of Z axis negative direction line acceleration, and describedly be " 6 " around the X-axis mobile corresponding dialing value that turns clockwise, the described dialing value that is rotated counterclockwise mobile correspondence around X-axis is " 7 ", describedly be " 8 " around the Y-axis mobile corresponding dialing value that turns clockwise, the described dialing value that is rotated counterclockwise mobile correspondence around Y-axis is " 9 ", describedly be " deletion " around the Z axis mobile corresponding dialing value that turns clockwise, the described dialing value that is rotated counterclockwise mobile correspondence around Z axis is " dialing ".
5. dialing mechanism, comprise microprocessor, human-machine interface module, it is characterized in that: described dialing mechanism also comprises sensor assembly, described sensor assembly can detect the move mode of described dialing mechanism, and the move mode input information that detection is obtained is to described microprocessor, by described microprocessor described move mode information is processed, determined the dialing value that move mode information is corresponding;
Wherein, described sensor assembly comprises at least a in linear acceleration transducer module and the angular-rate sensor module, wherein said linear acceleration transducer module comprises that line acceleration moving direction and the linear acceleration to described dialing mechanism detects, and described angular-rate sensor module comprises that rotary moving direction and the angular velocity of rotation to described dialing mechanism detects;
Wherein, dialing value corresponding to described move mode information carried out numeric ratio by the described linear acceleration value that detection is obtained with default linear acceleration threshold value, and/or the described angular velocity of rotation value that detection obtains is carried out numeric ratio with default angular speed threshold value come to determine, described default linear acceleration threshold value comprises 1g rice/square second, described default angular speed threshold value comprises 90 degree/second, wherein, g represents acceleration of gravity.
6. dialing mechanism according to claim 5 is characterized in that: described human-machine interface module comprises at least a in loud speaker and the display screen.
7. mobile phone, it is characterized in that: described mobile phone comprises claim 5 or 6 described dialing mechanisms.
8. remote controller, it is characterized in that: described remote controller comprises claim 5 or 6 described dialing mechanisms.
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| CN103227856A (en) * | 2013-03-22 | 2013-07-31 | 中兴通讯股份有限公司 | Non-touch dialing method and non-touch dialing device |
| CN105100348B (en) * | 2015-08-31 | 2018-07-06 | 小米科技有限责任公司 | Phone call method and device |
| CN105630174A (en) * | 2016-01-22 | 2016-06-01 | 上海斐讯数据通信技术有限公司 | Intelligent terminal dialing system and method |
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| CN101006720A (en) * | 2004-09-21 | 2007-07-25 | 株式会社尼康 | Electronic device |
| CN101598980A (en) * | 2008-06-02 | 2009-12-09 | 索尼株式会社 | Input equipment, opertaing device, control system and control method |
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| US7091964B2 (en) * | 2001-11-30 | 2006-08-15 | Palm, Inc. | Electronic device with bezel feature for receiving input |
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| US8462109B2 (en) * | 2007-01-05 | 2013-06-11 | Invensense, Inc. | Controlling and accessing content using motion processing on mobile devices |
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| CN101006720A (en) * | 2004-09-21 | 2007-07-25 | 株式会社尼康 | Electronic device |
| CN101598980A (en) * | 2008-06-02 | 2009-12-09 | 索尼株式会社 | Input equipment, opertaing device, control system and control method |
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Effective date of registration: 20201228 Address after: 274000 west of Dinghu Road north of Huaihe Road, Huangzhen sub district office, Mudan District, Heze City, Shandong Province (West of China Resources Power Plant) Patentee after: Heze Carboniferous Technology Co.,Ltd. Address before: 511400 No.106 Fengze East Road, Nansha District, Guangzhou City, Guangdong Province (self compiled Building 1) x1301-a4845 (cluster registration) (JM) Patentee before: Guangzhou shengxia Intellectual Property Operation Co.,Ltd. Effective date of registration: 20201228 Address after: 511400 No.106 Fengze East Road, Nansha District, Guangzhou City, Guangdong Province (self compiled Building 1) x1301-a4845 (cluster registration) (JM) Patentee after: Guangzhou shengxia Intellectual Property Operation Co.,Ltd. Address before: 516006 Guangdong province Huizhou Zhongkai hi tech Development Zone No. 23 District Patentee before: HUIZHOU TCL MOBILE COMMUNICATION Co.,Ltd. |
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Denomination of invention: A dialing method, device, mobile phone, and remote control Effective date of registration: 20230625 Granted publication date: 20130109 Pledgee: Heze rural commercial bank Limited by Share Ltd. Pledgor: Heze Carboniferous Technology Co.,Ltd. Registration number: Y2023980045253 |