CN105607738B - Determine the method and device of one hand pattern - Google Patents
Determine the method and device of one hand pattern Download PDFInfo
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- CN105607738B CN105607738B CN201510974092.8A CN201510974092A CN105607738B CN 105607738 B CN105607738 B CN 105607738B CN 201510974092 A CN201510974092 A CN 201510974092A CN 105607738 B CN105607738 B CN 105607738B
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/017—Gesture based interaction, e.g. based on a set of recognized hand gestures
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
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- General Physics & Mathematics (AREA)
- Ultra Sonic Daignosis Equipment (AREA)
- Measurement Of Velocity Or Position Using Acoustic Or Ultrasonic Waves (AREA)
Abstract
The disclosure is directed to a kind of method and devices of determining singlehanded pattern.The method includes:Control the first ultrasonic transmission device and the second ultrasonic transmission device transmitting ultrasonic wave, wherein first ultrasonic transmission device and second ultrasonic transmission device are arranged in the both sides of electronic equipment;Determine first group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the first ultrasonic transmission device transmitting, and, determine second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting;The type of the singlehanded pattern of the electronic equipment is determined according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver.Disclosed technique scheme can rapidly identify the type of the singlehanded pattern of electronic equipment by the ultrasonic probe, ultrasonic receiver of electronic equipment both sides.
Description
Technical field
This disclosure relates to field of terminal technology more particularly to a kind of method and device of determining singlehanded pattern.
Background technology
Increasing with the size of smart mobile phone, user gets over when singlehanded palm grip smart mobile phone carries out one-handed performance
It is more inconvenient to come, therefore the type of one-handed performance that identification intelligent mobile phone is presently in, to control smart mobile phone according to user
Use habit make corresponding action, the experience of user's operation smart mobile phone can be improved.
Invention content
To overcome the problems in correlation technique, the embodiment of the present disclosure provides a kind of method and dress of determining singlehanded pattern
It sets, to improve the accuracy of the singlehanded pattern of identification.
According to the first aspect of the embodiments of the present disclosure, a kind of method of determining singlehanded pattern is provided, including:
Control the first ultrasonic transmission device and the second ultrasonic transmission device transmitting ultrasonic wave, wherein described the first to surpass
Acoustic emission apparatus and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
Determine that first group of ultrasonic wave of the ultrasonic wave for receiving the first ultrasonic transmission device transmitting receives dress
It sets, and, determine that second group of ultrasonic wave of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting receives dress
It sets;
Determine that the electronics is set according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of standby singlehanded pattern.
In one embodiment, the determination receives the of the ultrasonic wave of first ultrasonic transmission device transmitting
One group of ultrasonic probe, ultrasonic receiver, and, determine the of the ultrasonic wave for receiving second ultrasonic transmission device transmitting
Two groups of ultrasonic probe, ultrasonic receivers, it may include:
Determine that the signal strength for receiving the first ultrasonic wave waveform is more than the from third group ultrasonic probe, ultrasonic receiver
The number of first group of ultrasonic probe, ultrasonic receiver of one predetermined threshold value, the third group ultrasonic probe, ultrasonic receiver is more than or equal to institute
State the number of first group of ultrasonic probe, ultrasonic receiver;
Determine that the signal strength for receiving the second ultrasonic wave waveform is more than institute from the 4th group of ultrasonic probe, ultrasonic receiver
Second group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value is stated, the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or waits
In the number of second group of ultrasonic probe, ultrasonic receiver.
In one embodiment, described that dress is received according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic wave
Set the type for the singlehanded pattern for determining the electronic equipment, it may include:
Determine that whether continuously distributed first group of ultrasonic probe, ultrasonic receiver be in the side of the electronic equipment and described
Whether the number of first group of ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value;
When first group of ultrasonic probe, ultrasonic receiver is continuously distributed in the side of the electronic equipment and first group described
The number of ultrasonic probe, ultrasonic receiver is more than or equal to second predetermined threshold value, determines the singlehanded pattern of the electronic equipment
Type is with first group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment;
When the discontinuous side for being distributed in the electronic equipment of first group of ultrasonic probe, ultrasonic receiver or described first
The number of group ultrasonic probe, ultrasonic receiver is less than second predetermined threshold value, determine the type of the singlehanded pattern of the electronic equipment with
Second group of ultrasonic probe, ultrasonic receiver is in the consistent of the position of the electronic equipment.
In one embodiment, the type of the singlehanded pattern of the determination electronic equipment connects with second group of ultrasonic wave
Receiving apparatus is consistent the position of the electronic equipment, it may include:
Determine whether second group of ultrasonic probe, ultrasonic receiver be continuously distributed in the other side of the electronic equipment and institute
Whether the number for stating second group of ultrasonic probe, ultrasonic receiver is more than or equal to second predetermined threshold value;
When second group of ultrasonic probe, ultrasonic receiver is continuously distributed in the other side of the electronic equipment and described second
The number of group ultrasonic probe, ultrasonic receiver is more than or equal to second predetermined threshold value, determines the singlehanded pattern of the electronic equipment
Type with second group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment.
In one embodiment, described that dress is received according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic wave
Set the type for the singlehanded pattern for determining the electronic equipment, it may include:
Determine first group of ultrasonic probe, ultrasonic receiver the side of the electronic equipment the first distribution mode;
Determine second group of ultrasonic probe, ultrasonic receiver the other side of the electronic equipment the second distribution mode;
The class of the singlehanded pattern of the electronic equipment is determined according to first distribution mode and second distribution mode
Type.
In one embodiment, described to determine that the electronics is set according to first distribution mode and second distribution mode
The type of standby singlehanded pattern, it may include:
Determine that first distribution mode indicates first group of ultrasonic probe, ultrasonic receiver adjacent distributions or indicates institute
It states first group of ultrasonic probe, ultrasonic receiver and is spaced apart and determines that second distribution mode is to indicate second group of ultrasonic wave
Reception device adjacent distributions still indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart;
When first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and described second
When distribution mode indicates that second group of ultrasonic probe, ultrasonic receiver is spaced apart, the class of the singlehanded pattern of the electronic equipment is determined
Type is with first group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment;
When first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and described second
When distribution mode indicates second group of ultrasonic probe, ultrasonic receiver adjacent distributions, the position of the electronic equipment and described the are determined
Two groups of ultrasonic probe, ultrasonic receivers are in the consistent of the position of the electronic equipment.
According to the second aspect of the embodiment of the present disclosure, a kind of device of determining singlehanded pattern is provided, including:
Control module is configured as the first ultrasonic transmission device of control and the second ultrasonic transmission device transmitting ultrasound
Wave, wherein first ultrasonic transmission device and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
First determining module is configured to determine that receiving the control module controls first ultrasonic transmission device
First group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave of transmitting, and, it determines and receives control module control described the
Second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave of two ultrasonic transmission devices transmitting;
Second determining module is configured as receiving dress according to first group of ultrasonic wave that first determining module determines
Set the type for the singlehanded pattern that the electronic equipment is determined with second group of ultrasonic probe, ultrasonic receiver.
In one embodiment, first determining module may include:
First determination sub-module is configured as the determination from third group ultrasonic probe, ultrasonic receiver and receives first ultrasound
The signal strength of wave waveform is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, and the third group ultrasonic wave receives dress
The number set is more than or equal to the number of first group of ultrasonic probe, ultrasonic receiver;
Second determination sub-module is configured as the determination from the 4th group of ultrasonic probe, ultrasonic receiver and receives second ultrasound
The signal strength of wave waveform is more than second group of ultrasonic probe, ultrasonic receiver of first predetermined threshold value, and the 4th group of ultrasonic wave connects
The number of receiving apparatus is more than or equal to the number of second group of ultrasonic probe, ultrasonic receiver.
In one embodiment, second determining module may include:
Third determination sub-module is configured to determine that whether first group of ultrasonic probe, ultrasonic receiver be continuously distributed described
Whether the number of the side of electronic equipment and first group of ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value;
4th determination sub-module is configured as determining that first group of ultrasonic wave receives dress when the third determination sub-module
The continuously distributed number in the side of the electronic equipment and first group of ultrasonic probe, ultrasonic receiver is set to be more than or equal to
Second predetermined threshold value determines that the type of the singlehanded pattern of the electronic equipment exists with first group of ultrasonic probe, ultrasonic receiver
The position of the electronic equipment it is consistent;
5th determination sub-module is configured as determining that first group of ultrasonic wave receives dress when the third determination sub-module
The number for setting the discontinuous side for being distributed in the electronic equipment or first group of ultrasonic probe, ultrasonic receiver is less than described the
Two predetermined threshold values determine the type of the singlehanded pattern of the electronic equipment with second group of ultrasonic probe, ultrasonic receiver in the electricity
The position of sub- equipment it is consistent.
In one embodiment, the 5th determination sub-module may include:
6th determination sub-module is configured to determine that whether second group of ultrasonic probe, ultrasonic receiver be continuously distributed described
It is pre- whether the number of the other side of electronic equipment and second group of ultrasonic probe, ultrasonic receiver is more than or equal to described second
If threshold value;
7th determination sub-module is configured as determining that second group of ultrasonic wave receives dress when the 6th determination sub-module
The continuously distributed number in the other side of the electronic equipment and second group of ultrasonic probe, ultrasonic receiver is set to be more than or wait
In second predetermined threshold value, the type of the singlehanded pattern of the electronic equipment and second group of ultrasonic probe, ultrasonic receiver are determined
In the consistent of the position of the electronic equipment.
In one embodiment, second determining module may include:
8th determination sub-module is configured to determine that first group of ultrasonic probe, ultrasonic receiver the one of the electronic equipment
First distribution mode of side;
9th determination sub-module is configured to determine that second group of ultrasonic probe, ultrasonic receiver in the another of the electronic equipment
Second distribution mode of side;
Tenth determination sub-module, be configured as first distribution mode determined according to the 8th determination sub-module and
Second distribution mode that 9th determination sub-module determines determines the type of the singlehanded pattern of the electronic equipment.
In one embodiment, the tenth determination sub-module may include:
11st determination sub-module is configured to determine that first distribution mode is to indicate that first group of ultrasonic wave connects
Receiving apparatus adjacent distributions still indicate that first group of ultrasonic probe, ultrasonic receiver is spaced apart and determines the second distribution side
Formula indicates second group of ultrasonic probe, ultrasonic receiver adjacent distributions or indicates second group of ultrasonic probe, ultrasonic receiver interval
Distribution;
12nd determination sub-module is configured as determining the first distribution mode table when the 11st determination sub-module
Show that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and second distribution mode indicates second group of ultrasonic wave
When reception device is spaced apart, the type of the singlehanded pattern of the electronic equipment and first group of ultrasonic probe, ultrasonic receiver are determined
In the consistent of the position of the electronic equipment;
13rd determination sub-module is configured as determining the first distribution mode table when the 11st determination sub-module
Show that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and second distribution mode indicates second group of ultrasonic wave
When reception device adjacent distributions, determine the position of the electronic equipment with second group of ultrasonic probe, ultrasonic receiver in the electronics
The position of equipment it is consistent.
According to the third aspect of the embodiment of the present disclosure, a kind of device of determining singlehanded pattern is provided, including:
Processor;
Memory for storing processor-executable instruction;
Wherein, the processor is configured as:
Control the first ultrasonic transmission device and the second ultrasonic transmission device transmitting ultrasonic wave, wherein described the first to surpass
Acoustic emission apparatus and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
Determine that first group of ultrasonic wave of the ultrasonic wave for receiving the first ultrasonic transmission device transmitting receives dress
It sets, and, determine that second group of ultrasonic wave of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting receives dress
It sets;
Determine that the electronics is set according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of standby singlehanded pattern.
The technical scheme provided by this disclosed embodiment can include the following benefits:Due to palm area and finger area
The distribution of the ultrasonic wave of domain reflection is different, causes the ultrasonic signal that the ultrasonic probe, ultrasonic receiver of electronic equipment both sides receives
Distribution is also different, therefore the one hand of electronic equipment can be rapidly identified by the ultrasonic probe, ultrasonic receiver of electronic equipment both sides
The type of pattern, after identifying the type of singlehanded pattern, electronic equipment can rapidly adjust the type phase with singlehanded pattern
Consistent display pattern greatly improves the experience of user's operation electronic equipment to facilitate user's one-handed performance.
It should be understood that above general description and following detailed description is only exemplary and explanatory, not
The disclosure can be limited.
Description of the drawings
The drawings herein are incorporated into the specification and forms part of this specification, and shows the implementation for meeting the present invention
Example, and be used to explain the principle of the present invention together with specification.
Figure 1A is the flow chart that the method for order fingerprint formula really is shown according to an exemplary embodiment.
Figure 1B is the scene graph that the method for order fingerprint formula really is shown according to an exemplary embodiment.
Fig. 1 C are the circuit diagrams that the method for order fingerprint formula really is shown according to an exemplary embodiment.
Fig. 2A is the flow chart that the method for order fingerprint formula really is shown according to an exemplary embodiment one.
Fig. 2 B are one of the scene graph of method that order fingerprint formula really is shown according to an exemplary embodiment one.
Fig. 2 C are to show the two of the scene graph of the method for order fingerprint formula really according to an exemplary embodiment one.
Fig. 3 A are the flow charts that the method for order fingerprint formula really is shown according to an exemplary embodiment two.
Fig. 3 B are the flow charts according to the step S305 shown in an exemplary embodiment two.
Fig. 4 is a kind of block diagram of the device of determining singlehanded pattern shown according to an exemplary embodiment.
Fig. 5 is the block diagram for the device that singlehanded pattern is determined according to the another kind shown in an exemplary embodiment.
Fig. 6 is the block diagram for the device that singlehanded pattern is determined according to another shown in an exemplary embodiment.
Fig. 7 is a kind of block diagram of device being suitable for determining singlehanded pattern shown according to an exemplary embodiment.
Specific implementation mode
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent and the consistent all embodiments of the present invention.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects being described in detail in claims, of the invention.
Figure 1A is the flow chart that the method for order fingerprint formula really is shown according to an exemplary embodiment, and Figure 1B is according to one
Exemplary embodiment shows that the scene graph of the method for order fingerprint formula really, Fig. 1 C are shown really according to an exemplary embodiment
The circuit diagram of the method for order fingerprint formula;The method of the determination one hand pattern can apply electronic equipment (such as:Intelligent hand
Machine, tablet computer) on, as shown in Figure 1A, the method for the determination one hand pattern includes the following steps S101-S103:
In step S101, controls the first ultrasonic transmission device and the second ultrasonic transmission device emits ultrasonic wave,
In, the first ultrasonic transmission device and the second ultrasonic transmission device are arranged in the both sides of electronic equipment.
In one embodiment, as shown in Figure 1B, the first ultrasonic transmission device 11 can be arranged on the right side of electronic equipment 10
Side, the reception device for receiving the ultrasonic wave that the first ultrasonic transmission device 11 emits include:Ultrasonic probe, ultrasonic receiver 131-
Ultrasonic probe, ultrasonic receiver 134, the second ultrasonic transmission device 12 can be arranged in the left side of electronic equipment 10, for receiving second
The reception device of ultrasonic wave that ultrasonic transmission device 12 emits includes:Ultrasonic probe, ultrasonic receiver 141- ultrasonic probe, ultrasonic receivers
144, in addition, the first ultrasonic transmission device 11 and corresponding ultrasonic probe, ultrasonic receiver 131- ultrasonic probe, ultrasonic receivers
134 and second ultrasonic transmission device 12 and corresponding ultrasonic probe, ultrasonic receiver 141- ultrasonic probe, ultrasonic receivers 144
The lower half portion of electronic equipment 10 can be symmetricly set on.
In step s 102, determine that first group of ultrasonic wave of the ultrasonic wave for receiving the transmitting of the first ultrasonic transmission device connects
Receiving apparatus, and, determine second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the transmitting of the second ultrasonic transmission device.
As shown in Figure 1B, when the palm when held electronic equipment 10 of user's right hand, ultrasonic probe, ultrasonic receiver 131- ultrasonic waves
Multiple ultrasonic probe, ultrasonic receivers in reception device 134 can receive the transmitting of palm area reflectance ultrasound wave transmitting device 11
Ultrasonic signal;Likewise, when the palm when held electronic equipment 10 of user's left hand, ultrasonic probe, ultrasonic receiver 141- ultrasonic waves connect
Multiple ultrasonic probe, ultrasonic receivers in receiving apparatus 144 can receive the transmitting of ultrasonic transmission device 11 of palm area reflection
Ultrasonic signal.
In step s 103, determine that electronics is set according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of standby singlehanded pattern.
In one embodiment, the type of the singlehanded pattern of electronic equipment may include left hand one hand pattern and right hand one hand mould
Formula, for example, when multiple ultrasonic probe, ultrasonic receivers in ultrasonic probe, ultrasonic receiver 131- ultrasonic probe, ultrasonic receivers 134 shown in Figure 1B
(first group of ultrasonic probe, ultrasonic receiver in the disclosure, for example, ultrasonic probe, ultrasonic receiver 132- ultrasonic probe, ultrasonic receivers 134) receives
After the ultrasonic signal emitted to palm area reflectance ultrasound wave transmitting device 11, by determining that ultrasonic probe, ultrasonic receiver 132- is super
The distribution of acoustic receiver device 134 and (be left side or right side) on electronic equipment 10 determine the class of singlehanded pattern
Type, such as the ultrasonic signal received by ultrasonic probe, ultrasonic receiver 132- ultrasonic probe, ultrasonic receivers 134 in Figure 1B, it may be determined that
The type of the singlehanded pattern of electronic equipment 10 is right hand one hand pattern.
In an exemplary scenario, as shown in Figure 1 C, it can will need to pass through ultrasound by the CPU17 of electronic equipment 10
The ultrasound data of wave transmitting device transmitting is sent to conversion module 18, and conversion module 18 converts digital signals into simulation letter
Number, then sent by ultrasonic transmission device, after receiving ultrasonic signal with the reception device of emitter same side,
Ultrasonic signal is sent to conversion module 18, conversion module 18 obtains digital signal after carrying out A/D conversions, digital number is believed
It number is sent to CPU17, digital signal is identified according to the embodiment of the present disclosure by CPU17, to judge the type of singlehanded pattern.
In the present embodiment, since palm area is different from the distribution for the ultrasonic wave that finger areas reflects, cause electronic equipment
The distribution for the ultrasonic signal that the ultrasonic probe, ultrasonic receiver of both sides receives is also different, therefore can pass through electronic equipment both sides
Ultrasonic probe, ultrasonic receiver rapidly identifies the type of the singlehanded pattern of electronic equipment, after identifying the type of singlehanded pattern,
Electronic equipment can rapidly adjust the display pattern consistent with the singlehanded type of pattern, to facilitate user's one-handed performance,
Greatly improve the experience of user's operation electronic equipment.
In one embodiment, determine that first group of ultrasonic wave of the ultrasonic wave for receiving the transmitting of the first ultrasonic transmission device connects
Receiving apparatus, and, determine second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the transmitting of the second ultrasonic transmission device, it can
Including:
It is pre- to determine that the signal strength for receiving the first ultrasonic wave waveform is more than first from third group ultrasonic probe, ultrasonic receiver
If first group of ultrasonic probe, ultrasonic receiver of threshold value, the number of third group ultrasonic probe, ultrasonic receiver is more than or equal to first group of ultrasound
The number of wave receiving device;
It is pre- to determine that the signal strength for receiving the second ultrasonic wave waveform is more than first from the 4th group of ultrasonic probe, ultrasonic receiver
If second group of ultrasonic probe, ultrasonic receiver of threshold value, the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or equal to second group of ultrasound
The number of wave receiving device.
In one embodiment, determine that electronics is set according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of standby singlehanded pattern, it may include:
Determine whether first group of ultrasonic probe, ultrasonic receiver be continuously distributed in the side of electronic equipment and first group of ultrasonic wave
Whether the number of reception device is more than the second predetermined threshold value;
When first group of ultrasonic probe, ultrasonic receiver is continuously distributed dress is received in the side of electronic equipment and first group of ultrasonic wave
The number set is more than or equal to the second predetermined threshold value, determines that the type of the singlehanded pattern of electronic equipment connects with first group of ultrasonic wave
Receiving apparatus is consistent the position of electronic equipment;
When the discontinuous side for being distributed in electronic equipment of first group of ultrasonic probe, ultrasonic receiver or first group of ultrasonic wave receive
The number of device is less than the second predetermined threshold value, determines the type and second group of ultrasonic probe, ultrasonic receiver of the singlehanded pattern of electronic equipment
In the consistent of the position of electronic equipment.
In one embodiment, determine the type of the singlehanded pattern of electronic equipment with second group of ultrasonic probe, ultrasonic receiver in electronics
The position of equipment it is consistent, it may include:
Determine second group of ultrasonic probe, ultrasonic receiver it is whether continuously distributed the other side of electronic equipment and second group ultrasound
Whether the number of wave receiving device is more than or equal to the second predetermined threshold value;
It is received in the other side of electronic equipment and second group of ultrasonic wave when second group of ultrasonic probe, ultrasonic receiver is continuously distributed
The number of device is more than or equal to the second predetermined threshold value, determines the type and second group of ultrasonic wave of the singlehanded pattern of electronic equipment
Reception device is consistent the position of electronic equipment.
In one embodiment, determine that electronics is set according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of standby singlehanded pattern, it may include:
Determine first group of ultrasonic probe, ultrasonic receiver the side of electronic equipment the first distribution mode;
Determine second group of ultrasonic probe, ultrasonic receiver the other side of electronic equipment the second distribution mode;
The type of the singlehanded pattern of electronic equipment is determined according to the first distribution mode and the second distribution mode.
In one embodiment, the class of the singlehanded pattern of electronic equipment is determined according to the first distribution mode and the second distribution mode
Type, it may include:
Determine that the first distribution mode indicates first group of ultrasonic probe, ultrasonic receiver adjacent distributions or indicates first group of ultrasound
Wave receiving device be spaced apart and determine the second distribution mode indicate second group of ultrasonic probe, ultrasonic receiver adjacent distributions or
Indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart;
When the first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and the second distribution mode indicates
When second group of ultrasonic probe, ultrasonic receiver is spaced apart, determine that the type of the singlehanded pattern of electronic equipment is received with first group of ultrasonic wave
Device is consistent the position of electronic equipment;
When the first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and the second distribution mode indicates
When second group of ultrasonic probe, ultrasonic receiver adjacent distributions, determine the position of electronic equipment with second group of ultrasonic probe, ultrasonic receiver in electronics
The position of equipment it is consistent.
Specifically how to determine singlehanded pattern, please refers to subsequent embodiment.
So far, the above method that the embodiment of the present disclosure provides, can pass through the ultrasonic probe, ultrasonic receiver of electronic equipment both sides
The type for rapidly identifying the singlehanded pattern of electronic equipment, after identifying the type of singlehanded pattern, electronic equipment can be fast
The display pattern consistent with the singlehanded type of pattern is adjusted fastly, to facilitate user's one-handed performance, greatly improves user behaviour
Make the experience of electronic equipment.
The technical solution of embodiment of the present disclosure offer is provided with specific embodiment below.
Fig. 2A is the flow chart that the method for order fingerprint formula really is shown according to an exemplary embodiment one, and Fig. 2 B are bases
One exemplary embodiment one shows that one of the scene graph of method of order fingerprint formula really, Fig. 2 C are according to an exemplary embodiment
One shows the two of the scene graph of the method for order fingerprint formula really;The present embodiment utilizes the above-mentioned side that the embodiment of the present disclosure provides
Method, with any one group of ultrasonic probe, ultrasonic receiver in third group ultrasonic probe, ultrasonic receiver and the 4th group of ultrasonic probe, ultrasonic receiver even
The number for the ultrasonic probe, ultrasonic receiver for being included in the case of continuous distribution carries out exemplary for the type to determine singlehanded pattern
Illustrate, as shown in Figure 2 A, includes the following steps:
In step s 201, it controls the first ultrasonic transmission device and the second ultrasonic transmission device emits ultrasonic wave,
In, the first ultrasonic transmission device and the second ultrasonic transmission device are arranged in the both sides of electronic equipment.
The description of step S201 may refer to the associated description of above-mentioned Figure 1A illustrated embodiments, and this will not be detailed here.
In step S202, determine that the signal for receiving the first ultrasonic wave waveform is strong from third group ultrasonic probe, ultrasonic receiver
Degree is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, and the number of third group ultrasonic probe, ultrasonic receiver is more than or waits
In the number of first group of ultrasonic probe, ultrasonic receiver.
As shown in Figure 2 B, since different user holds the custom difference of electronic equipment 10, when electronic equipment 10 is in one hand
When pattern, for example, right hand one hand pattern shown in Fig. 2 B, the ultrasonic wave that palm area 15 can emit ultrasonic transmission device 11
Signal reflex to 11 homonymy of ultrasonic transmission device ultrasonic probe, ultrasonic receiver (for example, ultrasonic probe, ultrasonic receiver 131-134 connects
Have received ultrasonic signal, that is, the third group ultrasonic unit in the disclosure), in order to improve the accuracy of singlehanded mode type,
The ultrasonic signal that the amplitude of ultrasonic that can be received from third group ultrasonic probe, ultrasonic receiver reaches the first predetermined threshold value corresponds to
First group of ultrasonic probe, ultrasonic receiver, for example, ultrasonic probe, ultrasonic receiver 132- ultrasonic probe, ultrasonic receivers 134 shown in Fig. 2 B.
In step S203, determine that the signal for receiving the second ultrasonic wave waveform is strong from the 4th group of ultrasonic probe, ultrasonic receiver
Degree is more than second group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, and the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or waits
In the number of second group of ultrasonic probe, ultrasonic receiver.
In view of user is accustomed to using the user of electronic equipment, in singlehanded pattern, 13 side of palm with electronic equipment 10
The corresponding other side, user would generally assist to hold electronic equipment 10 by finger, and finger areas 16 as shown in Figure 2 B is
More accurately identify that the type of singlehanded pattern, the amplitude of ultrasonic that can be received from the 4th group of ultrasonic probe, ultrasonic receiver reach
The corresponding second group of ultrasonic probe, ultrasonic receiver of ultrasonic signal of first predetermined threshold value, for example, ultrasonic wave shown in Fig. 2 B receives
Device 142 and ultrasonic probe, ultrasonic receiver 144.
In step S204, determine first group of ultrasonic probe, ultrasonic receiver it is whether continuously distributed in the side of electronic equipment and
Whether the number of first group of ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value, when first group of ultrasonic probe, ultrasonic receiver is continuously distributed
It is more than or equal to the second predetermined threshold value in the number of the side of electronic equipment and first group of ultrasonic probe, ultrasonic receiver, executes step
Rapid S205, when the number of first group of ultrasonic probe, ultrasonic receiver is less than the second predetermined threshold value, execution step S206.First group of ultrasonic wave
The discontinuous side for being distributed in electronic equipment of reception device or
In one embodiment, due to the difference that finger areas 16 and palm area 15 are distributed, first group of ultrasonic wave is caused to connect
Receiving apparatus is different from the distribution of the second ultrasonic probe, ultrasonic receiver on an electronic device, for example, first group of ultrasonic wave shown in Fig. 2 B
Reception device (ultrasonic probe, ultrasonic receiver 132- ultrasonic probe, ultrasonic receivers 134) is continuously distributed on the right side of electronic equipment, second group
Ultrasonic probe, ultrasonic receiver (ultrasonic probe, ultrasonic receiver 142 and ultrasonic probe, ultrasonic receiver 144) is distributed in the left side of electronic equipment.
In one embodiment, the second predetermined threshold value be sized to make it is continuously distributed be spaced apart apparent differentiation, in addition, second
The setting of predetermined threshold value is also related to the area of ultrasonic probe, ultrasonic receiver, and the area of ultrasonic probe, ultrasonic receiver is smaller, then second is pre-
If threshold value can be arranged more larger, for example, the second predetermined threshold value is set as 3, the area of ultrasonic probe, ultrasonic receiver is larger, then
Two predetermined threshold values can be arranged smaller, for example, the second predetermined threshold value is set as 2.
In step S205, when first group of ultrasonic probe, ultrasonic receiver is continuously distributed in the side of electronic equipment and first group
The number of ultrasonic probe, ultrasonic receiver is more than or equal to the second predetermined threshold value, determines the type of the singlehanded pattern of electronic equipment and the
One group of ultrasonic probe, ultrasonic receiver is in the consistent of the position of electronic equipment.
Such as Fig. 2 B, if the second predetermined threshold value is set as 3, first group of ultrasonic probe, ultrasonic receiver is continuously distributed in electronic equipment
10 right side, and the number of first group of ultrasonic probe, ultrasonic receiver is 3, is equal to the second predetermined threshold value, at this time first group of ultrasonic wave
Reception device is located at the right side of electronic equipment 10, thus may determine that the type of the singlehanded modulus of electronic equipment 10 is that the right hand is singlehanded
Pattern.
In step S206, determine second group of ultrasonic probe, ultrasonic receiver it is whether continuously distributed the other side of electronic equipment simultaneously
And whether the number of second group of ultrasonic probe, ultrasonic receiver is more than or equal to the second predetermined threshold value, when second group of ultrasonic wave receives dress
It sets continuously distributed pre- more than or equal to second in the number of the other side of electronic equipment and second group of ultrasonic probe, ultrasonic receiver
If threshold value, step S207 is executed, when the discontinuous other side for being distributed in electronic equipment of the 4th group of ultrasonic probe, ultrasonic receiver or the
The number of four groups of ultrasonic probe, ultrasonic receivers is less than the second predetermined threshold value, determines that electronic equipment is in non-singlehanded pattern.
As shown in Figure 2 C, if detecting that (ultrasonic probe, ultrasonic receiver 142, ultrasonic wave connect second group of ultrasonic probe, ultrasonic receiver
Receiving apparatus 144) it is spaced apart, it can determine that the distribution of second group of ultrasonic probe, ultrasonic receiver, method of determination may refer at this time
The description of the distribution to first group of ultrasonic probe, ultrasonic receiver is stated, this will not be detailed here.
In step S207, when second group of ultrasonic probe, ultrasonic receiver is continuously distributed in the other side of electronic equipment and second
The number of group ultrasonic probe, ultrasonic receiver is more than or equal to the second predetermined threshold value, determine the type of the singlehanded pattern of electronic equipment with
Second group of ultrasonic probe, ultrasonic receiver is in the consistent of the position of electronic equipment.
As described in Fig. 2 C, if the second predetermined threshold value is set as 3, second group of ultrasonic probe, ultrasonic receiver is continuously distributed in electronics
The left side of equipment 10, and the number of second group of ultrasonic probe, ultrasonic receiver is 3, is equal to the second predetermined threshold value, is surpassed for second group at this time
Acoustic receiver device is located at the left side of electronic equipment, thus may determine that the type of the singlehanded modulus of electronic equipment 10 is left hand list
Fingerprint formula.
In the present embodiment, by first group of ultrasonic probe, ultrasonic receiver with it is any one in second group of ultrasonic probe, ultrasonic receiver
The continuously distributed state of group ultrasonic probe, ultrasonic receiver is identified, and first group of ultrasonic probe, ultrasonic receiver when continuously distributed
The type of singlehanded pattern is determined with the number of the ultrasonic probe, ultrasonic receiver for being included under second group of ultrasonic probe, ultrasonic receiver situation,
Since the present embodiment is premised on user holds the use habit of electronic equipment, the present embodiment can make the knowledge of singlehanded pattern
It is more inaccurate.
Fig. 3 A are the flow charts that the method for order fingerprint formula really is shown according to an exemplary embodiment two, and Fig. 3 B are bases
The flow chart of step S305 shown in one exemplary embodiment two;The present embodiment utilizes the above-mentioned side that the embodiment of the present disclosure provides
Method is determined with the distribution mode of the third group ultrasonic probe, ultrasonic receiver of electronic equipment both sides and the 4th group of ultrasonic probe, ultrasonic receiver
It illustrates for the type of singlehanded pattern and in conjunction with Fig. 2 B and Fig. 2 C, as shown in Figure 3A, includes the following steps:
In step S301, controls the first ultrasonic transmission device and the second ultrasonic transmission device emits ultrasonic wave,
In, the first ultrasonic transmission device and the second ultrasonic transmission device are arranged in the both sides of electronic equipment.
In step s 302, determine that the signal for receiving the first ultrasonic wave waveform is strong from third group ultrasonic probe, ultrasonic receiver
Degree is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, and the number of third group ultrasonic probe, ultrasonic receiver is more than or waits
In the number of first group of ultrasonic probe, ultrasonic receiver.
In step S303, determine that the signal for receiving the second ultrasonic wave waveform is strong from the 4th group of ultrasonic probe, ultrasonic receiver
Degree is more than second group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, and the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or waits
In the number of second group of ultrasonic probe, ultrasonic receiver.
The description of step S301 to step S303 may refer to the associated description of above-mentioned Figure 1A or Fig. 2A illustrated embodiments,
This is no longer described in detail.
In step s 304, determine first group of ultrasonic probe, ultrasonic receiver the side of electronic equipment the first distribution mode,
And determining second group of ultrasonic probe, ultrasonic receiver is in the second distribution mode of the other side of electronic equipment.
As shown in Figure 2 B, under right hand one hand pattern, first group of ultrasonic probe, ultrasonic receiver (ultrasonic probe, ultrasonic receiver 132-134)
To be continuously distributed, second group of ultrasonic probe, ultrasonic receiver (ultrasonic probe, ultrasonic receiver 142, ultrasonic probe, ultrasonic receiver 144) is interval point
Cloth;As shown in Figure 2 C, under left hand one hand pattern, (ultrasonic probe, ultrasonic receiver 132, ultrasonic wave connect first group of ultrasonic probe, ultrasonic receiver
Receiving apparatus 134) be to be spaced apart, second group of ultrasonic probe, ultrasonic receiver (ultrasonic probe, ultrasonic receiver 142-144) be it is continuously distributed, because
This present embodiment can be determined by the distribution mode of first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of the singlehanded pattern of electronic equipment.
In step S305, the class of the singlehanded pattern of electronic equipment is determined according to the first distribution mode and the second distribution mode
Type.
In one embodiment, step S305 may include:
In step S311, determine that the first distribution mode indicates first group of ultrasonic probe, ultrasonic receiver adjacent distributions or table
Show that first group of ultrasonic probe, ultrasonic receiver is spaced apart and determines that the second distribution mode is to indicate second group of ultrasonic probe, ultrasonic receiver
Adjacent distributions still indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart, when the first distribution mode indicates that first group of ultrasonic wave connects
When receiving apparatus is that adjacent distributions and the second distribution mode indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart, step is executed
S312, when the first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and the second distribution mode indicates second
When group ultrasonic probe, ultrasonic receiver adjacent distributions, step S313 is executed.
As shown in Figure 2 B, being spaced apart described in the present embodiment can be the phase between two ultrasonic probe, ultrasonic receivers
Can be to be separated by two ultrasonic probe, ultrasonic receivers, as long as can be distinguished with adjacent distributions every a ultrasonic probe, ultrasonic receiver
.
In step S312, when the first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and second
When distribution mode indicates that second group of ultrasonic probe, ultrasonic receiver is spaced apart, the type and first of the singlehanded pattern of electronic equipment is determined
Group ultrasonic probe, ultrasonic receiver is in the consistent of the position of electronic equipment.
As shown in Figure 2 B, when detecting that the first distribution mode indicates that (ultrasonic wave receives dress for first group of ultrasonic probe, ultrasonic receiver
Set 132- ultrasonic probe, ultrasonic receivers 134) it is adjacent distributions, the second distribution mode indicates second group of ultrasonic probe, ultrasonic receiver (ultrasound
Wave receiving device 142, ultrasonic probe, ultrasonic receiver 144) it is to be spaced apart, first group of ultrasonic probe, ultrasonic receiver is electronic equipment at this time
10 right side, thus may determine that the type of the singlehanded pattern of electronic equipment 10 is right hand one hand pattern.
In step S313, when the first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and second
When distribution mode indicates second group of ultrasonic probe, ultrasonic receiver adjacent distributions, determine that the position of electronic equipment connects with second group of ultrasonic wave
Receiving apparatus is consistent the position of electronic equipment.
As shown in Figure 2 C, when detecting that the first distribution mode indicates that (ultrasonic wave receives dress for first group of ultrasonic probe, ultrasonic receiver
Set 132, ultrasonic probe, ultrasonic receiver 134) it is to be spaced apart, the second distribution mode indicates second group of ultrasonic probe, ultrasonic receiver (ultrasound
Wave receiving device 142- ultrasonic probe, ultrasonic receivers 144) it is adjacent distributions, second group of ultrasonic probe, ultrasonic receiver is electronic equipment at this time
10 left side, thus may determine that the type of the singlehanded pattern of electronic equipment 10 is left hand one hand pattern.
In the present embodiment, dress is received by the first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic wave of electronic equipment both sides
The distribution mode set determines the type of singlehanded pattern, fully takes into account use habit and human body that user holds electronic equipment
Temperature is different from the intrinsic attribute of environment temperature, so as to so that the identification of singlehanded pattern is more accurate.
Fig. 4 is a kind of block diagram of the device of determining singlehanded pattern shown according to an exemplary embodiment, as shown in figure 4,
Determine that the device of one hand pattern includes:
Control module 41 is configured as the first ultrasonic transmission device of control and the second ultrasonic transmission device transmitting ultrasound
Wave, wherein the first ultrasonic transmission device of control module and the second ultrasonic transmission device of control module are arranged in electronic equipment
Both sides;
First determining module is configured to determine that receiving control module 41 controls the transmitting of the first ultrasonic transmission device
First group of ultrasonic probe, ultrasonic receiver of ultrasonic wave, and, determine that receiving control module 41 controls the second ultrasonic transmission device
Second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave of transmitting;
Second determining module 43 is configured as first group of the control module determined according to the first determining module of control module 42
Second group of ultrasonic probe, ultrasonic receiver of ultrasonic probe, ultrasonic receiver and control module determines the singlehanded pattern of control module electronic equipment
Type.
Fig. 5 is the block diagram for the device that singlehanded pattern is determined according to the another kind shown in an exemplary embodiment, such as Fig. 5 institutes
Show, the present embodiment is on the basis of above-mentioned embodiment illustrated in fig. 4, and in one embodiment, the first determining module 42 may include:
First determination sub-module 421 is configured as the determination from third group ultrasonic probe, ultrasonic receiver and receives the first ultrasound
The signal strength of wave waveform is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, third group ultrasonic probe, ultrasonic receiver
Number is more than or equal to the number of first group of ultrasonic probe, ultrasonic receiver;
Second determination sub-module 422 is configured as the determination from the 4th group of ultrasonic probe, ultrasonic receiver and receives the second ultrasound
The signal strength of wave waveform is more than second group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, the 4th group of ultrasonic probe, ultrasonic receiver
Number is more than or equal to the number of second group of ultrasonic probe, ultrasonic receiver.
In one embodiment, the second determining module 43 may include:
Third determination sub-module 431 is configured to determine that whether first group of ultrasonic probe, ultrasonic receiver be continuously distributed in electronics
Whether the number of the side of equipment and first group of ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value;
4th determination sub-module 432 is configured as determining first group of ultrasonic probe, ultrasonic receiver when third determination sub-module 431
It is continuously distributed to be more than or equal to the second default threshold in the number of the side of electronic equipment and first group of ultrasonic probe, ultrasonic receiver
Value, determines phase one of the type of the singlehanded pattern of electronic equipment with first group of ultrasonic probe, ultrasonic receiver in the position of electronic equipment
It causes;
5th determination sub-module 433 is configured as determining first group of ultrasonic probe, ultrasonic receiver when third determination sub-module 431
The number of the discontinuous side for being distributed in electronic equipment or first group of ultrasonic probe, ultrasonic receiver is less than the second predetermined threshold value, determines
The type of the singlehanded pattern of electronic equipment is with second group of ultrasonic probe, ultrasonic receiver in the consistent of the position of electronic equipment.
In one embodiment, the 5th determination sub-module 433 may include:
6th determination sub-module 4331 is configured to determine that whether second group of ultrasonic probe, ultrasonic receiver be continuously distributed in electronics
Whether the number of the other side of equipment and second group of ultrasonic probe, ultrasonic receiver is more than or equal to the second predetermined threshold value;
7th determination sub-module 4332 is configured as determining that second group of ultrasonic wave receives dress when the 6th determination sub-module 4331
It sets continuously distributed pre- more than or equal to second in the number of the other side of electronic equipment and second group of ultrasonic probe, ultrasonic receiver
If threshold value, phase of the type of the singlehanded pattern of electronic equipment with second group of ultrasonic probe, ultrasonic receiver in the position of electronic equipment is determined
Unanimously.
Fig. 6 is the block diagram for the device that singlehanded pattern is determined according to another shown in an exemplary embodiment, such as Fig. 6 institutes
Show, the present embodiment is on the basis of above-mentioned Fig. 4 or embodiment illustrated in fig. 5, and in one embodiment, the second determining module 42 can wrap
It includes:
First determination sub-module 421 is configured as the determination from third group ultrasonic probe, ultrasonic receiver and receives the first ultrasound
The signal strength of wave waveform is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, third group ultrasonic probe, ultrasonic receiver
Number is more than or equal to the number of first group of ultrasonic probe, ultrasonic receiver;
Second determination sub-module 422 is configured as the determination from the 4th group of ultrasonic probe, ultrasonic receiver and receives the second ultrasound
The signal strength of wave waveform is more than second group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, the 4th group of ultrasonic probe, ultrasonic receiver
Number is more than or equal to the number of second group of ultrasonic probe, ultrasonic receiver.
In one embodiment, the second determining module 43 may include:
8th determination sub-module 434 is configured to determine that first group of ultrasonic probe, ultrasonic receiver in the side of electronic equipment
First distribution mode;
9th determination sub-module 435 is configured to determine that second group of ultrasonic probe, ultrasonic receiver in the other side of electronic equipment
The second distribution mode;
Tenth determination sub-module 436 is configured as the first distribution mode determined according to the 8th determination sub-module 434 and
The second distribution mode that nine determination sub-modules 435 determine determines the type of the singlehanded pattern of electronic equipment.
In one embodiment, the tenth determination sub-module 436 may include:
11st determination sub-module 4361 is configured to determine that the first distribution mode is to indicate that first group of ultrasonic wave receives dress
It sets adjacent distributions and still indicates that first group of ultrasonic probe, ultrasonic receiver is spaced apart and determines that the second distribution mode is to indicate second
Group ultrasonic probe, ultrasonic receiver adjacent distributions still indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart;
12nd determination sub-module 4362 is configured as determining the first distribution mode table when the 11st determination sub-module 4361
Show that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and the second distribution mode indicates second group of ultrasonic probe, ultrasonic receiver interval
When distribution, phase of the type of the singlehanded pattern of electronic equipment with first group of ultrasonic probe, ultrasonic receiver in the position of electronic equipment is determined
Unanimously;
13rd determination sub-module 4363 is configured as determining the first distribution mode table when the 11st determination sub-module 4361
Show first group of ultrasonic probe, ultrasonic receiver be spaced apart and the second distribution mode indicate second group of ultrasonic probe, ultrasonic receiver it is adjacent
When distribution, determine the position of electronic equipment with second group of ultrasonic probe, ultrasonic receiver in the consistent of the position of electronic equipment.
About the device in above-described embodiment, wherein modules execute the concrete mode of operation in related this method
Embodiment in be described in detail, explanation will be not set forth in detail herein.
Fig. 7 is a kind of block diagram suitable for mobile terminal defense device shown according to an exemplary embodiment.For example, dress
It can be mobile phone, computer, digital broadcast terminal, messaging devices, game console, tablet device, medical treatment to set 700
Equipment, body-building equipment, personal digital assistant etc..
With reference to Fig. 7, device 700 may include following one or more components:Processing component 702, memory 704, power supply
Component 706, multimedia component 708, audio component 710, the interface 712 of input/output (I/O), sensor module 714, and
Communication component 716.
The integrated operation of 702 usual control device 700 of processing component, such as with display, call, data communication, phase
Machine operates and record operates associated operation.Processing element 702 may include that one or more processors 720 refer to execute
It enables, to perform all or part of the steps of the methods described above.In addition, processing component 702 may include one or more modules, just
Interaction between processing component 702 and other assemblies.For example, processing component 702 may include multi-media module, it is more to facilitate
Interaction between media component 708 and processing component 702.
Memory 704 is configured as storing various types of data to support the operation in equipment 700.These data are shown
Example includes instruction for any application program or method that are operated on device 700, contact data, and telephone book data disappears
Breath, picture, video etc..Memory 704 can be by any kind of volatibility or non-volatile memory device or their group
It closes and realizes, such as static RAM (SRAM), electrically erasable programmable read-only memory (EEPROM) is erasable to compile
Journey read-only memory (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash
Device, disk or CD.
Electric power assembly 706 provides electric power for the various assemblies of device 700.Electric power assembly 706 may include power management system
System, one or more power supplys and other generated with for device 700, management and the associated component of distribution electric power.
Multimedia component 708 is included in the screen of one output interface of offer between described device 700 and user.One
In a little embodiments, screen may include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, screen
Curtain may be implemented as touch screen, to receive input signal from the user.Touch panel includes one or more touch sensings
Device is to sense the gesture on touch, slide, and touch panel.The touch sensor can not only sense touch or sliding action
Boundary, but also detect duration and pressure associated with the touch or slide operation.In some embodiments, more matchmakers
Body component 708 includes a front camera and/or rear camera.When equipment 700 is in operation mode, such as screening-mode or
When video mode, front camera and/or rear camera can receive external multi-medium data.Each front camera and
Rear camera can be a fixed optical lens system or have focusing and optical zoom capabilities.
Audio component 710 is configured as output and/or input audio signal.For example, audio component 710 includes a Mike
Wind (MIC), when device 700 is in operation mode, when such as call model, logging mode and speech recognition mode, microphone by with
It is set to reception external audio signal.The received audio signal can be further stored in memory 704 or via communication set
Part 716 is sent.In some embodiments, audio component 710 further includes a loud speaker, is used for exports audio signal.
I/O interfaces 712 provide interface between processing component 702 and peripheral interface module, and above-mentioned peripheral interface module can
To be keyboard, click wheel, button etc..These buttons may include but be not limited to:Home button, volume button, start button and lock
Determine button.
Sensor module 714 includes one or more sensors, and the state for providing various aspects for device 700 is commented
Estimate.For example, sensor module 714 can detect the state that opens/closes of equipment 700, and the relative positioning of component, for example, it is described
Component is the display and keypad of device 700, and sensor module 714 can be with 700 1 components of detection device 700 or device
Position change, the existence or non-existence that user contacts with device 700,700 orientation of device or acceleration/deceleration and device 700
Temperature change.Sensor module 714 may include proximity sensor, be configured to detect without any physical contact
Presence of nearby objects.Sensor module 714 can also include optical sensor, such as CMOS or ccd image sensor, at
As being used in application.In some embodiments, which can also include acceleration transducer, gyro sensors
Device, Magnetic Sensor, pressure sensor or ultrasonic probe, ultrasonic receiver.
Communication component 716 is configured to facilitate the communication of wired or wireless way between device 700 and other equipment.Device
700 can access the wireless network based on communication standard, such as WiFi, 2G or 3G or combination thereof.In an exemplary implementation
In example, communication component 716 receives broadcast singal or broadcast related information from external broadcasting management system via broadcast channel.
In one exemplary embodiment, the communication component 716 further includes near-field communication (NFC) module, to promote short range communication.Example
Such as, NFC module can be based on radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra wide band (UWB) technology,
Bluetooth (BT) technology and other technologies are realized.
In the exemplary embodiment, device 700 can be believed by one or more application application-specific integrated circuit (ASIC), number
Number processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array
(FPGA), controller, microcontroller, microprocessor or other electronic components are realized, for executing the above method.
In the exemplary embodiment, it includes the non-transitorycomputer readable storage medium instructed, example to additionally provide a kind of
Such as include the memory 704 of instruction, above-metioned instruction can be executed by the processor 720 of device 700 to complete the above method.For example,
The non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk
With optical data storage devices etc..
Those skilled in the art will readily occur to its of the disclosure after considering specification and putting into practice disclosure disclosed herein
Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or
Person's adaptive change follows the general principles of this disclosure and includes the undocumented common knowledge in the art of the disclosure
Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following
Claim is pointed out.
It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.
Claims (11)
1. a kind of method of determining singlehanded pattern, which is characterized in that the method includes:
Control the first ultrasonic transmission device and the second ultrasonic transmission device transmitting ultrasonic wave, wherein first ultrasonic wave
Emitter and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
First group of ultrasonic probe, ultrasonic receiver for determining the ultrasonic wave for receiving the first ultrasonic transmission device transmitting, with
And determine second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting;
The electronic equipment is determined according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of singlehanded pattern;Wherein,
First group of ultrasonic wave that the determination receives the ultrasonic wave of the first ultrasonic transmission device transmitting receives dress
It sets, and, determine that second group of ultrasonic wave of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting receives dress
It sets, including:
Determine that the signal strength for receiving the first ultrasonic wave waveform is more than the first default threshold from third group ultrasonic probe, ultrasonic receiver
The number of first group of ultrasonic probe, ultrasonic receiver of value, the third group ultrasonic probe, ultrasonic receiver is more than or equal to described first group
The number of ultrasonic probe, ultrasonic receiver;
It is pre- to determine that the signal strength for receiving the second ultrasonic wave waveform is more than described first from the 4th group of ultrasonic probe, ultrasonic receiver
If second group of ultrasonic probe, ultrasonic receiver of threshold value, the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or equal to described the
The number of two groups of ultrasonic probe, ultrasonic receivers.
2. according to the method described in claim 1, it is characterized in that, described according to first group of ultrasonic probe, ultrasonic receiver and institute
The type that second group of ultrasonic probe, ultrasonic receiver determines the singlehanded pattern of the electronic equipment is stated, including:
Determine whether first group of ultrasonic probe, ultrasonic receiver be continuously distributed in the side of the electronic equipment and described first
Whether the number of group ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value;
When first group of ultrasonic probe, ultrasonic receiver it is continuously distributed in the side of the electronic equipment and it is described first group ultrasound
The number of wave receiving device is more than or equal to second predetermined threshold value, determines the type of the singlehanded pattern of the electronic equipment
With first group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment;
When the discontinuous side for being distributed in the electronic equipment of first group of ultrasonic probe, ultrasonic receiver or described first group surpass
The number of acoustic receiver device is less than second predetermined threshold value, determine the type of the singlehanded pattern of the electronic equipment with it is described
Second group of ultrasonic probe, ultrasonic receiver is in the consistent of the position of the electronic equipment.
3. according to the method described in claim 2, it is characterized in that, the type of the singlehanded pattern of the determination electronic equipment
With second group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment, including:
Determine whether second group of ultrasonic probe, ultrasonic receiver be continuously distributed in the other side of the electronic equipment and described
Whether the number of two groups of ultrasonic probe, ultrasonic receivers is more than or equal to second predetermined threshold value;
When second group of ultrasonic probe, ultrasonic receiver it is continuously distributed in the other side of the electronic equipment and it is described second group it is super
The number of acoustic receiver device is more than or equal to second predetermined threshold value, determines the class of the singlehanded pattern of the electronic equipment
Type is with second group of ultrasonic probe, ultrasonic receiver in the consistent of the position of the electronic equipment.
4. according to the method described in claim 1, it is characterized in that, described according to first group of ultrasonic probe, ultrasonic receiver and institute
The type that second group of ultrasonic probe, ultrasonic receiver determines the singlehanded pattern of the electronic equipment is stated, including:
Determine first group of ultrasonic probe, ultrasonic receiver the side of the electronic equipment the first distribution mode;
Determine second group of ultrasonic probe, ultrasonic receiver the other side of the electronic equipment the second distribution mode;
The type of the singlehanded pattern of the electronic equipment is determined according to first distribution mode and second distribution mode.
5. according to the method described in claim 4, it is characterized in that, described according to first distribution mode and second point described
Mode for cloth determines the type of the singlehanded pattern of the electronic equipment, including:
Determine that first distribution mode indicates first group of ultrasonic probe, ultrasonic receiver adjacent distributions or indicates described the
One group of ultrasonic probe, ultrasonic receiver is spaced apart and determines that second distribution mode is to indicate that second group of ultrasonic wave receives
Device adjacent distributions still indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart;
When first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is adjacent distributions and second distribution
When mode indicates that second group of ultrasonic probe, ultrasonic receiver is spaced apart, determine the type of the singlehanded pattern of the electronic equipment with
First group of ultrasonic probe, ultrasonic receiver is in the consistent of the position of the electronic equipment;
When first distribution mode indicates that first group of ultrasonic probe, ultrasonic receiver is to be spaced apart and second distribution
When mode indicates second group of ultrasonic probe, ultrasonic receiver adjacent distributions, the position of the electronic equipment and described second group are determined
Ultrasonic probe, ultrasonic receiver is consistent the position of the electronic equipment.
6. a kind of device of determining singlehanded pattern, which is characterized in that described device includes:
Control module is configured as the first ultrasonic transmission device of control and the second ultrasonic transmission device transmitting ultrasonic wave,
In, first ultrasonic transmission device and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
First determining module is configured to determine that receiving the control module controls the first ultrasonic transmission device transmitting
The ultrasonic wave first group of ultrasonic probe, ultrasonic receiver, and, determine and receive that control module control is described the second to surpass
Second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave of acoustic emission apparatus transmitting;
Second determining module, be configured as the first group of ultrasonic probe, ultrasonic receiver determined according to first determining module and
Second group of ultrasonic probe, ultrasonic receiver determines the type of the singlehanded pattern of the electronic equipment;Wherein,
First determining module includes:
First determination sub-module is configured as the determination from third group ultrasonic probe, ultrasonic receiver and receives the first ultrasonic wave waveform
Signal strength is more than first group of ultrasonic probe, ultrasonic receiver of the first predetermined threshold value, the number of the third group ultrasonic probe, ultrasonic receiver
More than or equal to the number of first group of ultrasonic probe, ultrasonic receiver;
Second determination sub-module is configured as the determination from the 4th group of ultrasonic probe, ultrasonic receiver and receives the second ultrasonic wave waveform
Signal strength is more than second group of ultrasonic probe, ultrasonic receiver of first predetermined threshold value, the 4th group of ultrasonic probe, ultrasonic receiver
Number is more than or equal to the number of second group of ultrasonic probe, ultrasonic receiver.
7. device according to claim 6, which is characterized in that second determining module includes:
Third determination sub-module is configured to determine that whether first group of ultrasonic probe, ultrasonic receiver be continuously distributed in the electronics
Whether the number of the side of equipment and first group of ultrasonic probe, ultrasonic receiver is more than the second predetermined threshold value;
4th determination sub-module is configured as determining that first group of ultrasonic probe, ultrasonic receiver connects when the third determination sub-module
The number of the continuous side for being distributed in the electronic equipment and first group of ultrasonic probe, ultrasonic receiver is more than or equal to described
Second predetermined threshold value determines the type of the singlehanded pattern of the electronic equipment with first group of ultrasonic probe, ultrasonic receiver described
The position of electronic equipment it is consistent;
5th determination sub-module is configured as determining that first group of ultrasonic probe, ultrasonic receiver is non-when the third determination sub-module
It is continuously distributed in the side of the electronic equipment or the number of first group of ultrasonic probe, ultrasonic receiver to be less than described second pre-
If threshold value, determine that the type of the singlehanded pattern of the electronic equipment is set with second group of ultrasonic probe, ultrasonic receiver in the electronics
Standby position it is consistent.
8. device according to claim 7, which is characterized in that the 5th determination sub-module includes:
6th determination sub-module is configured to determine that whether second group of ultrasonic probe, ultrasonic receiver be continuously distributed in the electronics
Whether the number of the other side of equipment and second group of ultrasonic probe, ultrasonic receiver is more than or equal to the described second default threshold
Value;
7th determination sub-module is configured as determining that second group of ultrasonic probe, ultrasonic receiver connects when the 6th determination sub-module
The number of the continuous other side for being distributed in the electronic equipment and second group of ultrasonic probe, ultrasonic receiver is more than or equal to institute
The second predetermined threshold value is stated, determines the type of the singlehanded pattern of the electronic equipment with second group of ultrasonic probe, ultrasonic receiver in institute
State the consistent of the position of electronic equipment.
9. device according to claim 6, which is characterized in that second determining module includes:
8th determination sub-module is configured to determine that first group of ultrasonic probe, ultrasonic receiver in the side of the electronic equipment
First distribution mode;
9th determination sub-module is configured to determine that second group of ultrasonic probe, ultrasonic receiver in the other side of the electronic equipment
The second distribution mode;
Tenth determination sub-module is configured as first distribution mode determined according to the 8th determination sub-module and described
Second distribution mode that 9th determination sub-module determines determines the type of the singlehanded pattern of the electronic equipment.
10. device according to claim 9, which is characterized in that the tenth determination sub-module includes:
11st determination sub-module is configured to determine that first distribution mode is to indicate that first group of ultrasonic wave receives dress
It sets adjacent distributions and still indicates that first group of ultrasonic probe, ultrasonic receiver is spaced apart and determines that second distribution mode is
Indicate that second group of ultrasonic probe, ultrasonic receiver adjacent distributions still indicate that second group of ultrasonic probe, ultrasonic receiver is spaced apart;
12nd determination sub-module is configured as determining that first distribution mode indicates institute when the 11st determination sub-module
It is adjacent distributions and second distribution mode expression, second group of ultrasonic wave reception to state first group of ultrasonic probe, ultrasonic receiver
When device is spaced apart, determine the type of the singlehanded pattern of the electronic equipment with first group of ultrasonic probe, ultrasonic receiver in institute
State the consistent of the position of electronic equipment;
13rd determination sub-module is configured as determining that first distribution mode indicates institute when the 11st determination sub-module
It is to be spaced apart and second distribution mode indicates that second group of ultrasonic wave receives to state first group of ultrasonic probe, ultrasonic receiver
When device adjacent distributions, determine the position of the electronic equipment with second group of ultrasonic probe, ultrasonic receiver in the electronic equipment
Position it is consistent.
11. a kind of device of determining singlehanded pattern, which is characterized in that described device includes:
Processor;
Memory for storing processor-executable instruction;
Wherein, the processor is configured as:
Control the first ultrasonic transmission device and the second ultrasonic transmission device transmitting ultrasonic wave, wherein first ultrasonic wave
Emitter and second ultrasonic transmission device are arranged in the both sides of electronic equipment;
First group of ultrasonic probe, ultrasonic receiver for determining the ultrasonic wave for receiving the first ultrasonic transmission device transmitting, with
And determine second group of ultrasonic probe, ultrasonic receiver of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting;
The electronic equipment is determined according to first group of ultrasonic probe, ultrasonic receiver and second group of ultrasonic probe, ultrasonic receiver
The type of singlehanded pattern;Wherein,
First group of ultrasonic wave that the determination receives the ultrasonic wave of the first ultrasonic transmission device transmitting receives dress
It sets, and, determine that second group of ultrasonic wave of the ultrasonic wave for receiving the second ultrasonic transmission device transmitting receives dress
It sets, including:
Determine that the signal strength for receiving the first ultrasonic wave waveform is more than the first default threshold from third group ultrasonic probe, ultrasonic receiver
The number of first group of ultrasonic probe, ultrasonic receiver of value, the third group ultrasonic probe, ultrasonic receiver is more than or equal to described first group
The number of ultrasonic probe, ultrasonic receiver;
It is pre- to determine that the signal strength for receiving the second ultrasonic wave waveform is more than described first from the 4th group of ultrasonic probe, ultrasonic receiver
If second group of ultrasonic probe, ultrasonic receiver of threshold value, the number of the 4th group of ultrasonic probe, ultrasonic receiver is more than or equal to described the
The number of two groups of ultrasonic probe, ultrasonic receivers.
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CN201510974092.8A CN105607738B (en) | 2015-12-22 | 2015-12-22 | Determine the method and device of one hand pattern |
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CN106546970B (en) * | 2016-10-19 | 2019-02-12 | 北京小米移动软件有限公司 | The ultrasonic wave calibration method and device of mobile device |
CN106546969B (en) * | 2016-10-19 | 2018-12-25 | 北京小米移动软件有限公司 | The method and device of ultrasonic wave calibration |
CN106502328B (en) * | 2016-10-25 | 2019-10-22 | 北京小米移动软件有限公司 | Terminal protection shell, touch identification method and device |
CN109194810B (en) * | 2018-07-02 | 2021-05-04 | Oppo(重庆)智能科技有限公司 | Display control method and related product |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103999021A (en) * | 2011-12-19 | 2014-08-20 | 高通股份有限公司 | Gesture controlled audio user interface |
CN104252292A (en) * | 2014-08-29 | 2014-12-31 | 惠州Tcl移动通信有限公司 | Display method and mobile terminal |
CN204808202U (en) * | 2015-05-04 | 2015-11-25 | 南昌欧菲光科技有限公司 | Non -contact electronic product |
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CN103999021A (en) * | 2011-12-19 | 2014-08-20 | 高通股份有限公司 | Gesture controlled audio user interface |
CN104252292A (en) * | 2014-08-29 | 2014-12-31 | 惠州Tcl移动通信有限公司 | Display method and mobile terminal |
CN204808202U (en) * | 2015-05-04 | 2015-11-25 | 南昌欧菲光科技有限公司 | Non -contact electronic product |
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