CN105615861B - A kind of method and electronic equipment measuring pulse - Google Patents
A kind of method and electronic equipment measuring pulse Download PDFInfo
- Publication number
- CN105615861B CN105615861B CN201510967464.4A CN201510967464A CN105615861B CN 105615861 B CN105615861 B CN 105615861B CN 201510967464 A CN201510967464 A CN 201510967464A CN 105615861 B CN105615861 B CN 105615861B
- Authority
- CN
- China
- Prior art keywords
- pressure
- pressure value
- acquisition
- value
- user
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/024—Detecting, measuring or recording pulse rate or heart rate
Landscapes
- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Cardiology (AREA)
- Biomedical Technology (AREA)
- Medical Informatics (AREA)
- Biophysics (AREA)
- Pathology (AREA)
- Engineering & Computer Science (AREA)
- Physiology (AREA)
- Heart & Thoracic Surgery (AREA)
- Physics & Mathematics (AREA)
- Molecular Biology (AREA)
- Surgery (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Measuring Pulse, Heart Rate, Blood Pressure Or Blood Flow (AREA)
Abstract
This application discloses a kind of methods and electronic equipment for detecting pulse, which comprises detects whether user's the whole body body region contacts the pressure acquisition region by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment;Described in the body contact when pressure acquisition region, obtain M pressure value in the physical feeling and pressure acquisition region contact process, wherein, M is the integer more than or equal to 2, and the M pressure value is the pressure change that the reflected vibration that the heartbeat of the user is reacted to the physical feeling generates during the physical feeling and the pressure acquisition region contact;Based on the M pressure value, the current pulse saltation velocity of the user is obtained.The application provides the above method, there is technical issues that accurately to detect for solving the prior art, realizes the technical effect of precise measurement pulse.
Description
Technical field
This application involves electronic technology field more particularly to a kind of methods and electronic equipment for measuring pulse.
Background technique
With the development of science and technology, electronic equipment using more more and more universal, function is also stronger and stronger.Meanwhile with
The fast development of social economy and the variation of people life style, people also become more concerned with health problem.In order to
It detects user to the physical condition of oneself whenever and wherever possible, the function of measurement pulse is provided on some electronic equipments.
In the prior art, electronic equipment is usually the variation that the oxygen content of blood of user is detected by camera, thus
The general beat pulse numerical value of user is estimated indirectly.Since scheme in the prior art can only estimate beat pulse,
Therefore, the prior art there is technical issues that accurately to detect.
Summary of the invention
The embodiment of the present application provides a kind of method and electronic equipment for measuring pulse, can not for solving prior art presence
The technical issues of accurately detecting beat pulse, realizes the technical effect of precise measurement pulse.
On the one hand the embodiment of the present application provides a kind of method for measuring pulse, comprising:
Whether user's the whole body body region is detected by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
Contact the pressure acquisition region;
Described in the body contact when pressure acquisition region, the physical feeling and the pressure acquisition area are obtained
M pressure value in the contact process of domain, wherein M is the integer more than or equal to 2, and the M pressure value is the heart of the user
The reflected vibration of institute that bounce is reacted to the physical feeling is contacted in the physical feeling with the pressure acquisition region
During the pressure change that generates;
Based on the M pressure value, the current pulse saltation velocity of the user is obtained.
Optionally, the M pressure value obtained in the physical feeling and pressure acquisition region contact process, packet
It includes:
The acquisition precision for the first pressure sensor for running on the first acquisition precision is adjusted to the second acquisition by control
Precision, second acquisition precision are better than first acquisition precision;
Based on the first pressure sensor for running on second acquisition precision obtain the physical feeling with it is described
M second pressure value in the contact process of pressure acquisition region.
Optionally, described to be based on the M pressure value, obtain the current pulse saltation velocity of the user, comprising:
Described the of first acquisition precision is run on when recording pressure acquisition region described in the body contact
One pressure sensor first pressure value obtained;
Based on the first pressure value and the M second pressure value, the current pulse bounce speed of the user is determined
Degree;
Wherein, described to be based on the first pressure value and the M second pressure value, determine the current arteries and veins of the user
It fights saltation velocity, comprising:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range, N are determined
Less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, the M pressure value obtained in the physical feeling and pressure acquisition region contact process, packet
It includes:
It is in operating status to control second pressure sensor, the acquisition precision of the second pressure sensor is better than described the
The acquisition precision of one pressure sensor;
The M in the physical feeling and pressure acquisition region contact process is obtained based on the second pressure sensor
A second pressure value.
Optionally, described to be based on the M pressure value, obtain the current pulse saltation velocity of the user, comprising:
Record the M obtained of first pressure sensor described in pressure acquisition region process described in the body contact
A first pressure value;
The current pulse bounce of the user is determined based on the M first pressure value and the M second pressure value
Speed;
Wherein, described to determine that the user's is current based on the M first pressure value and the M second pressure value
Beat pulse speed, comprising:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines to meet in the M second pressure value and preset
N number of third pressure value of range, N are less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, the method also includes:
Control instruction is obtained, acquisition precision of the control instruction for only adjusting the first pressure sensor is the
Two acquisition precisions;Or
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
Optionally, the acquisition control instruction, comprising:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains described
Whether one pressure value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
On the other hand the application provides a kind of electronic equipment, comprising:
Whether first pressure sensor contacts the pressure acquisition area of the electronic equipment for detecting user's the whole body body region
Domain;And for when pressure acquisition region, obtaining the physical feeling described in the body contact and being adopted with the pressure
Collect M pressure value in the contact process of region;Wherein, M is the integer more than or equal to 2, and the M pressure value is the user's
Heartbeat is reacted to the reflected vibration of institute of the physical feeling in the physical feeling and the pressure acquisition region
The pressure change generated during contact;
Processor obtains the current pulse saltation velocity of the user for being based on the M pressure value.
Optionally, the processor is used for:
The acquisition precision for the first pressure sensor for running on the first acquisition precision is adjusted to the second acquisition by control
Precision, second acquisition precision are better than first acquisition precision;
Based on the first pressure sensor for running on second acquisition precision obtain the physical feeling with it is described
M second pressure value in the contact process of pressure acquisition region.
Optionally, the processor is used for:
Described the of first acquisition precision is run on when recording pressure acquisition region described in the body contact
One pressure sensor first pressure value obtained;
Based on the first pressure value and the M second pressure value, the current pulse bounce speed of the user is determined
Degree;
The processor is also used to:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range, N are determined
Less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, the processor is used for:
It is in operating status to control second pressure sensor, the acquisition precision of the second pressure sensor is better than described the
The acquisition precision of one pressure sensor;
The M in the physical feeling and pressure acquisition region contact process is obtained based on the second pressure sensor
A second pressure value.
Optionally, the processor is used for:
Record the M obtained of first pressure sensor described in pressure acquisition region process described in the body contact
A first pressure value;
The current pulse bounce of the user is determined based on the M first pressure value and the M second pressure value
Speed;
The processor is also used to:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines to meet in the M second pressure value and preset
N number of third pressure value of range, N are less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, the processor is used for:
Control instruction is obtained, acquisition precision of the control instruction for only adjusting the first pressure sensor is the
Two acquisition precisions;Or
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
Optionally, the processor is used for:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains described
Whether one pressure value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
The embodiment of the present application also provides a kind of electronic equipment, comprising:
Whether first detection unit contacts the pressure acquisition area of the electronic equipment for detecting user's the whole body body region
Domain;
First acquisition unit, for when pressure acquisition region, obtaining the body described in the body contact
Position and M pressure value in the contact process of the pressure acquisition region, wherein M is the integer more than or equal to 2, the M pressure
Value is reacted to the reflected vibration of the physical feeling in the physical feeling and institute for the heartbeat of the user
The pressure change generated during stating the contact of pressure acquisition region;
First processing units obtain the current pulse saltation velocity of the user for being based on the M pressure value.
Said one or multiple technical solutions in the embodiment of the present application at least have following one or more technology effects
Fruit:
One, the scheme in the embodiment of the present application, user are sensed when using electronic equipment measurement pulse by first pressure
Device come determine user whether by wrist, ancon or other be able to detect that the physical feeling of beat pulse and the pressure of electronic equipment
Pickup area contact.When body contact pressure acquisition region, M pressure in contact process is obtained by pressure sensor
Value, and then obtain the beat pulse speed of user.As it can be seen that the scheme in the embodiment of the present application directly obtains beat pulse generation
Pressure to determine beat pulse speed, and is to estimate beat pulse speed indirectly by the variation of the oxygen content of blood in the prior art.
Therefore, the scheme in the embodiment of the present application, which can effectively solve the problem that, existing in the prior art can not accurately detect beat pulse
Technical problem realizes the technical effect of precise measurement pulse.
Two, the scheme in the embodiment of the present application is using pressure sensor, i.e. first pressure sensor carries out arteries and veins
It fights when detecting, the precision of first pressure sensor is turned up during detecting pulse, measurement pulse that can be more accurate
Pressure caused by beating.Also, when being not in pulse detection, the precision of first pressure sensor is adopted using lower first
Collect precision, effectively reduces the power consumption of electronic equipment.
Three, the scheme in the embodiment of the present application may occur during detecting pulse due to the maloperation of user
The case where power that physical feeling is applied to pressure acquisition region becomes larger, will lead to collected pressure value in this way cannot be normally anti-
Answer heartbeat.Therefore, in this application, the pressure value of preset range will be met as the value for calculating beat pulse speed, and
The pressure value for being unsatisfactory for preset range is rejected as noise.Further improve the accuracy of pulse detection.
Four, two different pressure sensors of acquisition precision can be used to detect arteries and veins in the scheme in the embodiment of the present application
It fights, the power that the low pressure sensor of acquisition precision is used to determine that the physical feeling is applied on pressure acquisition region maintains one
In a plateau range, the high pressure sensor of acquisition precision is used to detect the pressure of beat pulse generation.In this way, when detecting arteries and veins
When bounce of fighting occurs abnormal, it can determine that the power being consequently exerted in pickup area on earth increases caused or heartbeat and leads extremely
It causes, detects own health situation convenient for user.
Detailed description of the invention
In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Apply embodiment, for those of ordinary skill in the art, without creative efforts, can also basis mention
The attached drawing of confession obtains other attached drawings.
Fig. 1 is a kind of flow chart of the information processing scheme provided in the embodiment of the present application one;
Fig. 2A-Fig. 2 B is the pressure value curve graph of first pressure sensor acquisition in the embodiment of the present application one;
Fig. 3 A- Fig. 3 C is first pressure sensor and the pressure of second pressure sensor acquisition in the embodiment of the present application one
It is worth curve graph;
Fig. 4 is the structural block diagram for a kind of electronic equipment that the embodiment of the present application two provides;
Fig. 5 is the structural block diagram for a kind of electronic equipment that the embodiment of the present application three provides.
Specific embodiment
The embodiment of the present application provides a kind of method and electronic equipment for measuring pulse, can not for solving prior art presence
The technical issues of accurately detecting beat pulse, realizes the technical effect of precise measurement pulse.
In order to solve the above technical problems, general thought is as follows for technical solution in the embodiment of the present application:
Whether user's the whole body body region is detected by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
Contact the pressure acquisition region;Described in the body contact when pressure acquisition region, obtain the physical feeling with
M pressure value in the contact process of the pressure acquisition region, wherein M is the integer more than or equal to 2, and the M pressure value is
The heartbeat of the user is reacted to the reflected vibration of institute of the physical feeling in the physical feeling and the pressure
The pressure change that power pickup area generates during contacting;Based on the M pressure value, the current pulse of the user is obtained
Saltation velocity.
In above-mentioned technical proposal, user is determined when using electronic equipment measurement pulse by first pressure sensor
User whether by wrist, ancon or other be able to detect that physical feeling and the pressure acquisition region of electronic equipment of beat pulse
Contact.When body contact pressure acquisition region, M pressure value in contact process is obtained by pressure sensor, in turn
Obtain the beat pulse speed of user.As it can be seen that the scheme in the embodiment of the present application directly obtains the pressure of beat pulse generation, come
It determines beat pulse speed, and is that beat pulse speed is estimated by the variation of the oxygen content of blood indirectly in the prior art.Therefore, originally
Scheme in application embodiment can effectively solve the problem that the technology existing in the prior art that can not accurately detect beat pulse is asked
Topic, realizes the technical effect of precise measurement pulse.
In order to better understand the above technical scheme, below by attached drawing and specific embodiment to technical solution of the present invention
It is described in detail, it should be understood that the specific features in the embodiment of the present application and embodiment are to the detailed of technical solution of the present invention
Thin explanation, rather than the restriction to technical solution of the present invention, in the absence of conflict, the embodiment of the present application and embodiment
In technical characteristic can be combined with each other.
Embodiment one
Referring to FIG. 1, the embodiment of the present application provides a kind of method for detecting pulse, comprising:
S10: user's the whole body body region is detected by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
Whether the pressure acquisition region is contacted;
S20: it described in the body contact when pressure acquisition region, obtains the physical feeling and is adopted with the pressure
Collect M pressure value in the contact process of region, wherein M is the integer more than or equal to 2, and the M pressure value is the user's
Heartbeat is reacted to the reflected vibration of institute of the physical feeling in the physical feeling and the pressure acquisition region
The pressure change generated during contact;
S30: it is based on the M pressure value, obtains the current pulse saltation velocity of the user.
In the specific implementation process, electronic equipment can be special pulse collection device, be also possible to mobile phone, plate electricity
Brain can also be other electronic equipments, just different one schematically illustrate herein.
Firstly, executing step S10: being used by the corresponding first pressure sensor detection in the pressure acquisition region of electronic equipment
Whether family the whole body body region contacts the pressure acquisition region.
Specifically, when electronic equipment is special pulse collection device, a pressure acquisition area is provided on device
Domain, the position in pressure acquisition region and size can be configured according to actual needs, and the application is without limitation.First pressure passes
Sensor can be set outside device, also can be set in the device, and pressure sensor, which can acquire, is applied to pressure acquisition region
Pressure value.When physical feeling, such as wrist, ancon or other physical feelings for being able to detect beat pulse are placed on pressure by user
When power pickup area, first pressure sensor detects the presence of pressure value, has shown physical feeling and pressure acquisition region
Contact, can carry out pulse pressure acquisition.
When electronic equipment is mobile phone, such as can will using part or all of handset as pressure acquisition region
The partial region of the display screen of mobile phone is as pressure acquisition region.The lower section of display screen is arranged in first sensor.When user will
When wrist or other physical feelings are placed on pressure acquisition region, first pressure sensor can detect pressure value, show body
Position has been released with pressure acquisition region, can carry out pulse pressure acquisition.
Next, executing step S20: described in the body contact when pressure acquisition region, obtaining the body
M pressure value in position and pressure acquisition region contact process.
During acquiring pulse, physical feeling is kept to be adjacent to pickup area, since physical feeling is in beat pulse
The difference for the pressure value that the pressure value and physical feeling apply to pickup area is not applied to pickup area in beat pulse can
Can be very subtle, therefore, first pressure sensor can be the higher pressure sensor of acquisition precision.Alternatively, in order to reduce electronics
The power consumption of equipment, only when having detected that physical feeling and pickup area contact, just by the acquisition essence of first pressure sensor
Degree is adjusted to higher acquisition precision, and first pressure sensor can be lower acquisition precision under normal circumstances.Certainly, originally
The technical staff in field can be arranged according to the actual situation, and the application is not specifically limited.When physical feeling and pressure acquisition
During region contacts, M pressure value of acquisition and beat pulse.
It should be noted that the application M pressure value collected is that user's heartbeat reflects to the physical feeling
When reflected vibration.Due in collection process, user may aggravate for some reason physical feeling and be applied to adopt
Collect region pressure, by taking wrist as an example, when wrist presses pickup area with strength in user's ability collection process, can also collect compared with
High pressure value, but this pressure value can not react the heartbeat of user, therefore, this kind of pressure value cannot function as calculating
The pressure value of beat pulse.
Further, it executes step S30: being based on the M pressure value, obtain the current pulse bounce speed of the user
Degree.
Specifically, while acquiring the M pressure value, it can recorde acquisition time, by adopting in the unit time
The pressure value number of collection, to determine the current pulse saltation velocity of the user.
In the application implementation, a pressure sensor can be set in the electronic equipment, passed by a pressure
Sensor detects the beat pulse speed of user.Also can be set there are two pressure sensor, by two pressure sensors come
Detect the beat pulse speed of user.It is of course also possible to be provided with multiple pressure sensors, those skilled in the art can root
It is configured according to actual needs.In this application, will be come pair with two kinds of situations that pressure sensor is respectively one and two
The method of detection pulse in the application is illustrated:
The first situation
In the first case, a pressure sensor is provided in electronic equipment.It is obtained by a pressure sensor
The step of obtaining the M pressure value is as follows:
The acquisition precision for the first pressure sensor for running on the first acquisition precision is adjusted to the second acquisition by control
Precision, second acquisition precision are better than first acquisition precision;
Based on the first pressure sensor for running on second acquisition precision obtain the physical feeling with it is described
M second pressure value in the contact process of pressure acquisition region.
Specifically, need the precision of pressure sensor higher during pulse collection, if under normal circumstances, i.e., not
It is the pressure sensor that high acquisition precision is still used in the case where pulse collection, the power consumption that will lead to electronic equipment is higher.Therefore,
Under normal circumstances, first pressure sensor can be run with the first acquisition precision, and the first acquisition precision is lower acquisition essence
Degree.When entering pulse collection mode, then the precision of first pressure sensor is adjusted to the second acquisition precision, the second acquisition precision
For higher acquisition precision.
It further, in a practical situation, is not to detect that there are pressure will enter pulse on pressure acquisition region
Acquisition mode.For example, electronic equipment is mobile phone, pressure acquisition region is the display screen area of electronic equipment, and user is aobvious in operation
When display content in display screen, operating process can be realized by touching display content with finger.But first pressure sensor
The pressure that the finger detected touches does not represent user and currently wants to carry out pulse detection.Therefore, the method in the application exists
When detecting the pressure value in pressure acquisition region, pressure value can further be judged, such as judge pressure value whether one
It fixes time interior continuous maintenance steady state.That is, when physical feeling is placed on pressure acquisition region by user, and in a timing
In, as in 3s or in 5s, the floating of the collected pressure value of first sensor is little, then it is assumed that user needs to carry out pulse
Detection.At this point, electronic equipment enters pulse collection mode, second pressure sensor is by acquisition precision by lower first acquisition essence
Degree is adjusted to higher second acquisition precision.
Further, first pressure sensor is contacted with the second acquisition precision to acquire physical feeling with pressure acquisition region
M pressure value in the process.When first pressure sensor can't detect pressure value, then it is assumed that physical feeling has left pressure and adopts
Collect region, at this point, terminating pulse collection process, the acquisition precision of first pressure sensor is adjusted to first by the second acquisition precision
Acquisition precision.Alternatively, being detected after pressure value mutation when first pressure sensor detects that pressure value is at a time mutated
Less than pressure value, it can also illustrate that physical feeling has left pressure acquisition region, terminate pulse collection.
Further, in the specific implementation process, step S30 the following steps are included:
Step 1: first acquisition precision is run on when recording pressure acquisition region described in the body contact
The first pressure sensor first pressure value obtained;
Step 2: it is based on the first pressure value and the M second pressure value, determines the current pulse of the user
Saltation velocity;
Further, step 2 is in the specific implementation process, comprising the following steps:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range is determined;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Specifically, it by taking the physical feeling is wrist as an example, when user detects pulse, needs wrist being put into pressure
Pickup area, and wrist is kept to maintain a stability region to the pressure that pressure acquisition region applies.Work as first pressure sensor
When detecting stable pressure value with the first acquisition precision, collected pressure value maintains 3N such as in 5s, records the power of 3N
As a reference value of pulse detection, i.e. first pressure value is 3N.Enter pulse collection mode simultaneously.
When entering pulse collection mode, switch the acquisition precision of first pressure sensor to the second acquisition precision, with the
Two acquisition precisions acquire the M second pressure value.Pulse is in bounce, pressure of the pressure acquisition region in addition to receiving wrist,
The pressure generated when also suffering from beat pulse.Since the corresponding pressure of beat pulse is more subtle, when beat pulse
The acquisition of one pressure sensor should carry out up and down subtle floating in first pressure value to pressure value, such as Fig. 2A-Fig. 2 B institute
Show.
In order to determine first sensor acquisition pressure value it is corresponding be beat pulse, need in the M second pressure
The N number of third pressure value for meeting preset range is determined in value.The preset range is the difference of second pressure value and first pressure value
The range met, if the interval range of second pressure value and the difference of first pressure value is (- 0.3N, 0.3N), that is to say, that when
Collected second pressure value between 2.7N~3.3N be beat pulse generate pressure value.When the second pressure of acquisition
When value is 4.5N, it is unsatisfactory for the preset range, then the pressure value may be for wrist presses pickup area and generates, Wu Fabiao
Bright beat pulse, therefore, the pressure value cannot function as calculating pulse and skip the point of speed.
In addition, pulse pressure song can be shown on the display screen of electronic equipment in order to keep pulse collection more intuitive
Line please refers to Fig. 2A-Fig. 2 B.Curve in figure is that first pressure sensor is adopted when physical feeling is contacted with pressure acquisition region
The pressure value curve collected, the point on curve are the point of collected beat pulse.In fig. 2, it can be observed that curve always
In first pressure value, i.e. 3N floats up and down, and is not all mutated in entire collection process, therefore, acquisition corresponding to Fig. 2A
In the process, the collected M pressure value of first pressure sensor is to meet the pressure value of preset range, i.e. M is equal to N's
Situation.
In fig. 2b, it can be observed that there are the pressure value that pressure value becomes larger suddenly in curve, which is then considered
The power that user is applied on pressure acquisition region become larger caused by, since the mutation pressure value can not represent beat pulse, because
This, needs to weed out during processing.So in collection process corresponding to Fig. 2 B, the collected M of first pressure sensor
There is the case where pressure value for being unsatisfactory for preset range, i.e. M is greater than N in a pressure value.
It further, can be true based on second pressure value after N number of third pressure value corresponding with beat pulse has been determined
Determine beat pulse speed.Specifically, do not occur the mutation of pressure value during the pulse collection, i.e. M and the equal situation of N
Under, then it can determine acquisition time used in the acquisition M second pressure value, such as be collected in the acquisition time of 60s
80 second pressure values, then beat pulse speed is 80 beats/min.Alternatively, other durations can be used to calculate beat pulse speed
Degree, a length of 5s when such as first, collected K the 4th pressure of 5s institute before being determined in collected N number of third pressure value
Value, as collected 5 pressure values in preceding 5s, then, beat pulse speed is 60 beats/min.Alternatively, can also be acquired to preceding 5s
To pressure value and the number of the collected pressure value of next 5s be averaged, then calculate beat pulse speed.This field
Technical staff can calculate according to the actual situation, and the application is not specifically limited.
Further, there is the case where pressure value mutation during pulse collection, since the catastrophe point cannot be used for
It calculates, therefore, when determining the K four pressure values, needs to select the company for meeting the preset range before catastrophe point
K the 4th pressure values of continuous acquisition, alternatively, K of the continuous acquisition for meeting the preset range after selection catastrophe point the
Four pressure values.If a catastrophe point occurs in 15s during pulse collection, other moment do not occur catastrophe point, that
, can choose K the 4th pressure values that 15s is acquired before to calculate beat pulse speed, or selection 15s is adopted later
The K of collection the 4th pressure values calculate beat pulse speed.Specific calculation please refers to above description, does not just exist here
It repeats.
Further, after calculating the beat pulse speed of user, electronic equipment can be according to the normal pulse prestored
Whether saltation velocity range is normal come the pulse for determining user.If illustrating user's body situation in the normal range (NR) prestored
Very well.If not prestore normally enclose in, prompt information is generated, such as voice prompting or display content presentation, to lead to
Know that user's body situation may be abnormal.
Second situation
In second situation, there are two pressure sensors for setting in electronic equipment.It is obtained by two pressure sensors
The step of obtaining the M pressure value is as follows:
It is in operating status to control second pressure sensor, the acquisition precision of the second pressure sensor is better than described the
The acquisition precision of one pressure sensor;
The M in the physical feeling and pressure acquisition region contact process is obtained based on the second pressure sensor
A second pressure value.
Specifically, the acquisition precision of two pressure sensors is not identical.The acquisition precision of first pressure sensor is lower than
The precision of second pressure sensor.First pressure sensor be used to detected whether that physical feeling is contacted with pressure acquisition region,
And whether the pressure that the physical feeling is applied on pressure acquisition region maintains in a stability range.Work as first pressure
When sensor detects that the pressure value being subject on pressure acquisition region maintains the state of continuous and stable, show that user currently wants to hold
Row pulse detection, then electronic equipment control second pressure sensor is in operating status, by second pressure sensor with high-precision
The acquisition precision of degree obtains the M second pressure value.
Further, when first pressure sensor or second pressure sensor are when can't detect pressure value, then it is assumed that body
Body region has left pressure acquisition region, at this point, terminating pulse collection process, control second pressure sensor is closed, to reduce
The power consumption of electronic equipment is alternatively, when first pressure sensor or second pressure sensor detect that pressure value is at a time dashed forward
Become, can't detect pressure value after pressure value mutation, can also illustrate that physical feeling has left pressure acquisition region, terminate pulse
Acquisition.
Further, in the specific implementation process, step S30 the following steps are included:
Step a: the institute of first pressure sensor described in pressure acquisition region process described in the body contact is recorded
M first pressure value of acquisition;
Step b: the current arteries and veins of the user is determined based on the M first pressure value and the M second pressure value
It fights saltation velocity;
Further, step b is in the specific implementation process, comprising the following steps:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines to meet in the M second pressure value and preset
N number of third pressure value of range, N are less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Specifically, the acquisition precision of first pressure sensor cannot detect beat pulse bring minor variations, because
This, it is pressure that physical feeling is applied in pickup area that first pressure sensor detects during pulse collection, and is supervised
Control whether the pressure that the physical feeling applies aggravates.If the pressure of first pressure sensor acquisition is constantly in steady shape
State then shows that the data during pulse collection are all effectively usable.That is, when second pressure sensor is collected
When beat pulse occurs abnormal, it can judge that the exception is by user's heart according to the first pressure value that first sensor acquires
Caused by bounce is abnormal caused, or the power by being applied to pickup area with physical feeling changes.
In this application, while second pressure sensor acquires beat pulse pressure, first pressure sensor acquisition
Physical feeling is applied to the pressure in pressure acquisition region.Since the second pressure value acquired in pulse is applied in physical feeling
The pressure generated on the basis of the first pressure value in pickup area plus beat pulse.Since the second acquisition precision is higher than the
One acquisition precision, so, second pressure sensor can capture the fluctuation that first pressure sensor can't detect.In Fig. 3 A-3B
In, it is assumed that when first pressure is in steady state, the collected pressure value of first pressure sensor is all same pressure value, the
The second pressure value that two pressure sensors detect floats up and down in first pressure value.
Due to being directed to each second pressure value, all corresponding acquisition first pressure value of first pressure sensor therefore can be with
Referential is established according to M first pressure value and the M second pressure value.In order to determine second sensor collected M
Corresponding second pressure value is beat pulse, rather than user exerts oneself to press the pressure in the pressure acquisition region.It needs to be determined that
Whether the M second pressure value all meets preset range.The preset range can be second pressure value and corresponding first
The range that difference between pressure value is met, if first pressure value is 3N, the preset range is that difference is less than 0.35N, that
When second pressure value be greater than 2.65N and be less than 3.35N value when, be beat pulse generate pressure value.When the first pressure
Force value is 4N, and collected second pressure value be 6.3N when, then be unsatisfactory for the preset range, then the pressure value may be hand
Wrist pressing pickup area and generate, can not show beat pulse, therefore, which, which cannot function as calculating pulse, skips speed
Point.
Further, in order to keep pulse collection more intuitive, pulse pressure can be shown on the display screen of electronic equipment
Force curve please refers to Fig. 3 A- Fig. 3 C.Two curves in figure respectively represent the collected first pressure value of first pressure sensor
Curve and the collected second pressure value curve of second pressure sensor, the point on curve are collected beat pulse
Point.In figure 3 a, it can be observed that first pressure value curve is constantly in steady state, therefore, acquisition corresponding to Fig. 3 A
Cheng Zhong, the collected M second pressure value of second pressure sensor are to react the beat pulse pressure of heartbeat, i.e.,
Situation M equal with N.
In figure 3b, it can be observed that the feelings of pressure value mutation occur in first pressure value curve and second pressure value
Condition.At location A in figure, first pressure value curve and second pressure value are mutated simultaneously, illustrate mutation that A goes out be by
Caused by user firmly presses pickup area, since the mutation pressure value can not react beat pulse, it is therefore desirable to locate
It is weeded out during reason.So in collection process corresponding to Fig. 3 B, the collected M second pressure of second pressure sensor
There is the case where pressure value for being unsatisfactory for preset range, i.e. M is greater than N in value.
In fig. 3 c, it can be observed that the feelings of pressure value mutation occur in first pressure value curve and second pressure value
Condition.At B location in figure, first pressure value curve does not mutate, and the second pressure value curve at B location have occurred it is prominent
Become, illustrates that user does not press pickup area firmly, which is since heartbeat is extremely caused, at this point, electronic equipment
A prompt information can be generated, it is abnormal to notify that user's beat pulse occurs.
It further, can be true based on second pressure value after N number of third pressure value corresponding with beat pulse has been determined
Determine beat pulse speed.Specifically, do not occur the mutation of pressure value during the pulse collection, i.e. M and the equal situation of N
Under, then it can determine acquisition time used in the acquisition M second pressure value, such as be collected in the acquisition time of 60s
80 second pressure values, then beat pulse speed is 80 beats/min.Alternatively, other durations can be used to calculate beat pulse speed
Degree, a length of 5s when such as first, collected K the 4th pressure of 5s institute before being determined in collected N number of third pressure value
Value, as collected 5 pressure values in preceding 5s, then, beat pulse speed is 60 beats/min.Alternatively, can also be acquired to preceding 5s
To pressure value and the number of the collected pressure value of next 5s be averaged, then calculate beat pulse speed.This field
Technical staff can calculate according to the actual situation, and the application is not specifically limited.
Further, there is the case where pressure value mutation during pulse collection, i.e. situation in Fig. 3 B.Due to this
Catastrophe point cannot be used for calculating, and therefore, when determining the K four pressure values, need to select to meet institute before catastrophe point
K the 4th pressure values of the continuous acquisition of preset range are stated, alternatively, the company for meeting the preset range after selection catastrophe point
K the 4th pressure values of continuous acquisition.If a catastrophe point occurs in 10s during pulse collection, other moment are not
There is catastrophe point, it is possible to select the K acquired before 10s the 4th pressure values to calculate beat pulse speed, Huo Zhexuan
A 4th pressure values of the K acquired after 10s are selected to calculate beat pulse speed.Specific calculation please refers to retouching above
It states, is not just repeating here.
Further, after calculating the beat pulse speed of user, electronic equipment can be according to the normal pulse prestored
Whether saltation velocity range is normal come the pulse for determining user.If illustrating user's body situation in the normal range (NR) prestored
Very well.If not prestore normally enclose in, prompt information is generated, such as voice prompting or display content presentation, to lead to
Know that user's body situation may be abnormal.
In addition, when setting is there are two pressure sensor in electronic equipment, two pressure sensors can be high-precision
The pressure sensor of degree.For each pressure sensor, beat pulse corresponding pressure value can be acquired, it is specific real
Existing mode is similar with described in the first situation.It, can be by same time in order to keep the beat pulse speed calculated more acurrate
The pressure value number that interior two sensors detect is averaged, and is then calculating beat pulse speed.As first sensor exists
Preceding 10s detects that 10 pressure values, second sensor detect 12 pressure values in preceding 10s, the two are averaged, i.e., preceding 10s
Pulse is averagely beated 11 times, then beat pulse speed is 66 beats/min.Alternatively, the pressure value based on the detection of each pressure sensor,
The beat pulse speed of each measurement is calculated, then two beat pulse speed are averaged, the application is not specifically limited.
Further, in the embodiment of the present application, electronic equipment carries out pulse detection, the side in order to facilitate the use of the user
Method is further comprising the steps of:
Control instruction is obtained, acquisition precision of the control instruction for only adjusting the first pressure sensor is the
Two acquisition precisions;Or
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
Specifically, a physical button or virtual key has can be set in electronic equipment, when user is physical feeling, such as
It after wrist is placed on pressure detecting region, presses the button, then generates the control instruction.When electronic equipment is provided with a pressure
When sensor, the acquisition precision of first pressure sensor is adjusted to by higher second acquisition precision based on the control instruction,
To carry out beat pulse pressure acquisition.When electronic equipment setting executes control there are two the control when pressure sensor, is based on
Second pressure sensor is in operating status.Alternatively, when electronic equipment is the equipment such as mobile phone, tablet computer, it can be in electronics
The application of measurement pulse is installed in equipment, when user opens in application, then generate the control instruction, make pressure sensor into
The acquisition of row beat pulse pressure.
Further, electronic equipment can also automatically generate the control instruction, be not necessarily based on the manual operation of user, tool
Body:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains described
Whether one pressure value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
Specifically, when user carries out pulse detection, it is only necessary to wrist is put into pickup area, when the of electronic equipment
One pressure sensor detects that there are pressure or existing pressure, and stable state is maintained within first time in pickup area, from
It is dynamic to generate the control instruction, so that pressure sensor is carried out the acquisition of beat pulse pressure.
Further, in the specific implementation process, it in order to enable collected beat pulse is more accurate, is carried out in user
During pulse detection, electronic equipment can provide voice and/or show the prompt of content.For example, for no display screen
Electronic equipment for, voice prompting can be provided, can be according to such as when wrist is placed on pressure acquisition region by user
The collected pressure value of one pressure sensor prompts user, and when as smaller such as pressure, can export voice prompting " please increase to pressure
The pressing of power pickup area ", when as larger such as pressure value, can export voice prompting " please reduce and press to pressure acquisition region
Pressure " can export voice prompting " please maintain current press degree " when entering beat pulse collection process.
When electronic equipment is provided with display screen, the prompt of writings and image can be provided during pulse detection.Such as,
When wrist is put into pressure acquisition region by user, display screen can show the pressure column for indicating current pressure, in pressure column
Put can show the straight line of an expression optimum pressure value can when user observes that pressure column is below optimum pressure line
To increase the pressure to pressure acquisition region, it is overlapped pressure column rising until with optimum pressure line.Meanwhile display screen can be shown
It is shown with text prompt, when such as pressure column below optimum pressure line, is shown " pressure please be increase ", when pressure column rises to best pressure
When the line of force, display text " please keep this pressure for a period of time ".
Embodiment two
Based on inventive concept identical with the embodiment of the present application one, referring to FIG. 4, the embodiment of the present application two provides one kind
Electronic equipment, comprising:
Whether first pressure sensor 41 contacts the pressure acquisition of the electronic equipment for detecting user's the whole body body region
Region;And for when pressure acquisition region, obtaining the physical feeling and the pressure described in the body contact
M pressure value in pickup area contact process;Wherein, M is the integer more than or equal to 2, and the M pressure value is the user
Heartbeat be reacted to the physical feeling institute it is reflected vibration in the physical feeling and the pressure acquisition area
The pressure change that domain generates during contacting;
Processor 42 obtains the current pulse saltation velocity of the user for being based on the M pressure value.
In the specific implementation process, the electronic equipment further include: memory, transceiver and I/O interface.Processor 42 has
Body can be general central processing unit (CPU), can be application-specific integrated circuit (English: Application
Specific Integrated Circuit, referred to as: ASIC), it can be one or more for controlling the integrated of program execution
Circuit.The quantity of memory can be one or more.Memory may include read-only memory (English: Read Only
Memory, referred to as: ROM), random access memory (English: Random Access Memory, referred to as: RAM) and disk storage
Device.These memories, transceiver are connected by bus with processor 42.Transceiver includes receiver and transmitter, receiver
It can be two physically independent elements with transmitter, be also possible to the same element physically.I/O interface can be with
For connecting peripheral apparatus.It can store instruction in memory, processor 42 can execute the instruction stored in memory.
Further, the processor 42 is used for:
The acquisition precision for the first pressure sensor for running on the first acquisition precision is adjusted to the second acquisition by control
Precision, second acquisition precision are better than first acquisition precision;
Based on the first pressure sensor for running on second acquisition precision obtain the physical feeling with it is described
M second pressure value in the contact process of pressure acquisition region.
Further, the processor 42 is used for:
Described the of first acquisition precision is run on when recording pressure acquisition region described in the body contact
One pressure sensor first pressure value obtained;
Based on the first pressure value and the M second pressure value, the current pulse bounce speed of the user is determined
Degree;
The processor 42 is also used to:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range is determined;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Further, the processor 42 is used for:
It is in operating status to control second pressure sensor, the acquisition precision of the second pressure sensor is better than described the
The acquisition precision of one pressure sensor;
The M in the physical feeling and pressure acquisition region contact process is obtained based on the second pressure sensor
A second pressure value.
Further, the processor 42 is used for:
Record the M obtained of first pressure sensor described in pressure acquisition region process described in the body contact
A first pressure value;
The current pulse bounce of the user is determined based on the M first pressure value and the M second pressure value
Speed;
The processor is also used to:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines to meet in the M second pressure value and preset
N number of third pressure value of range, N are less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Further, the processor is used for:
Control instruction is obtained, acquisition precision of the control instruction for only adjusting the first pressure sensor is the
Two acquisition precisions;Or
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
Further, the processor 42 is used for:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains described
Whether one pressure value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
Various change mode and specific example in the method for detection pulse in previous embodiment one are equally applicable to this
The electronic equipment of embodiment, by the detailed description of the aforementioned method to detection pulse, those skilled in the art can be clear
The implementation method of electronic equipment in the present embodiment is known, so this will not be detailed here in order to illustrate the succinct of book.
Embodiment three
Based on inventive concept identical with the embodiment of the present application one, the embodiment of the present application three provides a kind of electronic equipment, asks
With reference to Fig. 5, comprising:
Whether first detection unit 51 contacts the pressure acquisition area of the electronic equipment for detecting user's the whole body body region
Domain;
First acquisition unit 52, for when pressure acquisition region, obtaining the body described in the body contact
M pressure value in position and pressure acquisition region contact process, wherein M is the integer more than or equal to 2, the M pressure
Force value for the heartbeat of the user be reacted to the physical feeling it is reflected vibration the physical feeling with
The pressure change generated during the pressure acquisition region contact;
First processing units 53 obtain the current pulse saltation velocity of the user for being based on the M pressure value.
Further, the first acquisition unit 52, comprising:
First control subelement, will run on the acquisition of the first pressure sensor of the first acquisition precision for controlling
Precision is adjusted to the second acquisition precision, and second acquisition precision is better than first acquisition precision;
First obtains subelement, for being obtained based on the first pressure sensor for running on second acquisition precision
M second pressure value in the physical feeling and pressure acquisition region contact process.
Further, the first processing units 53, comprising:
First record subelement, runs on described the when for recording pressure acquisition region described in the body contact
The first pressure sensor of one acquisition precision first pressure value obtained;
First determines subelement, for being based on the first pressure value and the M second pressure value, determines the use
The current pulse saltation velocity at family;
Wherein, described first subelement is determined, comprising:
First processing module, for using the first pressure value as a reference value;
First determining module, for compared with a reference value, determination to meet preset range by the M second pressure value
N number of third pressure value, N be less than or equal to M;
Second processing module selects K the 4th pressure values for being based on the first duration from N number of third pressure value,
Calculate the current pulse saltation velocity for determining the user.
Further, the first acquisition unit 52, comprising:
Second control subelement, the second pressure sensor in operating status for controlling second pressure sensor
Acquisition precision be better than the first pressure sensor acquisition precision;
Second obtains subelement, adopts for obtaining the physical feeling based on the second pressure sensor with the pressure
Collect M second pressure value in the contact process of region.
Further, the first processing units 53, comprising:
Second record subelement, for recording first described in pressure acquisition region process described in the body contact
Pressure sensor M first pressure value obtained;
Second determines subelement, described in being determined based on the M first pressure value and the M second pressure value
The current pulse saltation velocity of user;
Wherein, described second subelement is determined, comprising:
Third processing module, for the M first pressure value and the M second pressure value to be established referential;
Second determining module, in the M first pressure value in the case where continuous and stable, determining the M a the
Meet N number of third pressure value of preset range in two pressure values, N is less than or equal to M;
Fourth processing module selects K the 4th pressure values for being based on the first duration from N number of third pressure value,
Calculate the current pulse saltation velocity for determining the user.
Further, the electronic equipment further include:
Second acquisition unit, for obtaining control instruction, the control instruction is passed for only adjusting the first pressure
The acquisition precision of sensor is the second acquisition precision;Or
Second acquisition unit, for obtaining control instruction, the control instruction is for enabling the second pressure sensor.
Further, the second acquisition unit, comprising:
Third obtains subelement, for running on first pressure when pressure acquisition region described in the body contact
Sensor obtains whether the first pressure value meets predetermined condition;
First processing subelement refers to for when the first pressure value meets the predetermined condition, generating the control
It enables.
Various change mode and specific example in the method for detection pulse in previous embodiment one are equally applicable to this
The electronic equipment of embodiment, by the detailed description of the aforementioned method to detection pulse, those skilled in the art can be clear
The implementation method of electronic equipment in the present embodiment is known, so this will not be detailed here in order to illustrate the succinct of book.
Said one or multiple technical solutions in the embodiment of the present application at least have following one or more technology effects
Fruit:
One, the scheme in the embodiment of the present application, user are sensed when using electronic equipment measurement pulse by first pressure
Device come determine user whether by wrist, ancon or other be able to detect that the physical feeling of beat pulse and the pressure of electronic equipment
Pickup area contact.When body contact pressure acquisition region, M pressure in contact process is obtained by pressure sensor
Value, and then obtain the beat pulse speed of user.As it can be seen that the scheme in the embodiment of the present application directly obtains beat pulse generation
Pressure to determine beat pulse speed, and is to estimate beat pulse speed indirectly by the variation of the oxygen content of blood in the prior art.
Therefore, the scheme in the embodiment of the present application, which can effectively solve the problem that, existing in the prior art can not accurately detect beat pulse
Technical problem realizes the technical effect of precise measurement pulse.
Two, the scheme in the embodiment of the present application is using pressure sensor, i.e. first pressure sensor carries out arteries and veins
It fights when detecting, the precision of first pressure sensor is turned up during detecting pulse, measurement pulse that can be more accurate
Pressure caused by beating.Also, when being not in pulse detection, the precision of first pressure sensor is adopted using lower first
Collect precision, effectively reduces the power consumption of electronic equipment.
Three, the scheme in the embodiment of the present application may occur during detecting pulse due to the maloperation of user
The case where power that physical feeling is applied to pressure acquisition region becomes larger, will lead to collected pressure value in this way cannot be normally anti-
Answer heartbeat.Therefore, in this application, the pressure value of preset range will be met as the value for calculating beat pulse speed, and
The pressure value for being unsatisfactory for preset range is rejected as noise.Further improve the accuracy of pulse detection.
Four, two different pressure sensors of acquisition precision can be used to detect arteries and veins in the scheme in the embodiment of the present application
It fights, the power that the low pressure sensor of acquisition precision is used to determine that the physical feeling is applied on pressure acquisition region maintains one
In a plateau range, the high pressure sensor of acquisition precision is used to detect the pressure of beat pulse generation.In this way, when detecting arteries and veins
When bounce of fighting occurs abnormal, it can determine that the power being consequently exerted in pickup area on earth increases caused or heartbeat and leads extremely
It causes, detects own health situation convenient for user.
The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product
Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions
The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs
Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce
A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real
The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates,
Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or
The function of being specified in multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting
Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or
The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one
The step of function of being specified in a box or multiple boxes.
Specifically, the corresponding computer program instructions of method of the detection pulse in the embodiment of the present application can be stored
In CD, hard disk, on the storage mediums such as USB flash disk, when the computer program corresponding with the detection method of pulse in storage medium refers to
It enables and is read or be performed by an electronic equipment, include the following steps:
Whether user's the whole body body region is detected by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
Contact the pressure acquisition region;
Described in the body contact when pressure acquisition region, the physical feeling and the pressure acquisition area are obtained
M pressure value in the contact process of domain, wherein M is the integer more than or equal to 2, and the M pressure value is the heart of the user
The reflected vibration of institute that bounce is reacted to the physical feeling is contacted in the physical feeling with the pressure acquisition region
During the pressure change that generates;
Based on the M pressure value, the current pulse saltation velocity of the user is obtained.
Optionally, stored in the storage medium and step: described to obtain the physical feeling and the pressure acquisition
The corresponding computer program instructions of M pressure value in the contact process of region specifically comprise the following steps: when executed
The acquisition precision for the first pressure sensor for running on the first acquisition precision is adjusted to the second acquisition by control
Precision, second acquisition precision are better than first acquisition precision;
Based on the first pressure sensor for running on second acquisition precision obtain the physical feeling with it is described
M second pressure value in the contact process of pressure acquisition region.
Optionally, stored in the storage medium and step: it is described to be based on the M pressure value, obtain the user
The corresponding computer program instructions of current pulse saltation velocity when executed, specifically comprise the following steps:
Described the of first acquisition precision is run on when recording pressure acquisition region described in the body contact
One pressure sensor first pressure value obtained;
Based on the first pressure value and the M second pressure value, the current pulse bounce speed of the user is determined
Degree;
Wherein, stored in the storage medium and step: described to be based on the first pressure value and the M second
Pressure value, the corresponding computer program instructions of current pulse saltation velocity for determining the user when executed, specifically include
Following steps, comprising:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range, N are determined
Less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, stored in the storage medium and step: described to obtain the physical feeling and the pressure acquisition
The corresponding computer program instructions of M pressure value in the contact process of region specifically comprise the following steps: when executed
It is in operating status to control second pressure sensor, the acquisition precision of the second pressure sensor is better than described the
The acquisition precision of one pressure sensor;
The M in the physical feeling and pressure acquisition region contact process is obtained based on the second pressure sensor
A second pressure value.
Optionally, stored in the storage medium and step: it is described to be based on the M pressure value, obtain the user
The corresponding computer program instructions of current pulse saltation velocity when executed, specifically comprise the following steps:
Record the M obtained of first pressure sensor described in pressure acquisition region process described in the body contact
A first pressure value;
The current pulse bounce of the user is determined based on the M first pressure value and the M second pressure value
Speed;
Wherein, stored in the storage medium and step: described a based on the M first pressure value and the M
Second pressure value determines the corresponding computer program instructions of current pulse saltation velocity of the user when executed, specific to wrap
Include following steps:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines to meet in the M second pressure value and preset
N number of third pressure value of range, N are less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines the user
Current pulse saltation velocity.
Optionally, other computer program instructions are also stored in the storage medium, the other computer
Program instruction when executed, includes the following steps: in implementation procedure
Control instruction is obtained, acquisition precision of the control instruction for only adjusting the first pressure sensor is the
Two acquisition precisions;Or
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
Optionally, stored in the storage medium with step: the corresponding computer program of the acquisition control instruction refers to
It enables when executed, specifically comprises the following steps:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains described
Whether one pressure value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic
Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as
It selects embodiment and falls into all change and modification of the scope of the invention.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (16)
1. a kind of method for detecting pulse, which comprises
Detect whether user's the whole body body region contacts by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
The pressure acquisition region;
Described in the body contact when pressure acquisition region, control will run on first pressure of the first acquisition precision
The acquisition precision of force snesor is adjusted to the second acquisition precision, and second acquisition precision is better than first acquisition precision;
The physical feeling and the pressure are obtained based on the first pressure sensor for running on second acquisition precision
M second pressure value in pickup area contact process, wherein M is the integer more than or equal to 2, and the M pressure value is described
The reflected vibration of institute that the heartbeat of user is reacted to the physical feeling is adopted in the physical feeling and the pressure
The pressure change generated during the contact of collection region;
First pressure of first acquisition precision is run on when recording pressure acquisition region described in the body contact
Force snesor first pressure value obtained;
Based on the first pressure value and the M second pressure value, the current pulse saltation velocity of the user is determined.
2. the method as described in claim 1, which is characterized in that described to be based on the first pressure value and the M second
Pressure value determines the current pulse saltation velocity of the user, comprising:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range is determined, N is less than
Equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines working as the user
Preceding beat pulse speed.
3. the method as described in claim 1, which is characterized in that the method also includes:
Control instruction is obtained, the control instruction is adopted for only adjusting the acquisition precision of the first pressure sensor for second
Collect precision.
4. method as claimed in claim 3, which is characterized in that the acquisition control instruction, comprising:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains first pressure
Whether force value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
5. a kind of method for detecting pulse, which comprises
Detect whether user's the whole body body region contacts by the corresponding first pressure sensor in the pressure acquisition region of electronic equipment
The pressure acquisition region;
Described in the body contact when pressure acquisition region, control second pressure sensor is in operating status, described
The acquisition precision of second pressure sensor is better than the acquisition precision of the first pressure sensor;
M in the physical feeling and pressure acquisition region contact process the is obtained based on the second pressure sensor
Two pressure values, wherein M is the integer more than or equal to 2, and the M pressure value is described in the heartbeat of the user is reacted to
Physical feeling reflected vibration generated during the physical feeling and the pressure acquisition region contact
Pressure change;
Record first pressure sensor described in pressure acquisition region process described in body contact M obtained the
One pressure value;
The current pulse saltation velocity of the user is determined based on the M first pressure value and the M second pressure value.
6. method as claimed in claim 5, which is characterized in that described based on the M first pressure value and the M a the
Two pressure values determine the current pulse saltation velocity of the user, comprising:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines in the M second pressure value and meet preset range
N number of third pressure value, N be less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines working as the user
Preceding beat pulse speed.
7. method as claimed in claim 5, which is characterized in that the method also includes:
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
8. the method for claim 7, which is characterized in that the acquisition control instruction, comprising:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains first pressure
Whether force value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
9. a kind of electronic equipment, comprising:
First pressure sensor, for whether contacting the electronic equipment based on the first acquisition precision detection user's the whole body body region
Pressure acquisition region;And for when pressure acquisition region, being based on the second acquisition precision described in the body contact
Obtain M second pressure value in the physical feeling and pressure acquisition region contact process;Wherein, M is more than or equal to 2
Integer, the M pressure value be reacted to the reflected vibration of the physical feeling for the heartbeat of the user
The pressure change generated during the physical feeling and the pressure acquisition region contact;
The acquisition precision for running on the first pressure sensor of the first acquisition precision is adjusted to for controlling by processor
Two acquisition precisions, second acquisition precision are better than first acquisition precision;Record pressure described in the body contact
The first pressure sensor first pressure value obtained of first acquisition precision is run on when pickup area;Based on institute
First pressure value and the M second pressure value are stated, determines the current pulse saltation velocity of the user.
10. electronic equipment as claimed in claim 9, which is characterized in that the processor is also used to:
Using the first pressure value as a reference value;
By the M second pressure value compared with a reference value, the N number of third pressure value for meeting preset range is determined, N is less than
Equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines working as the user
Preceding beat pulse speed.
11. electronic equipment as claimed in claim 9, which is characterized in that the processor is used for:
Control instruction is obtained, the control instruction is adopted for only adjusting the acquisition precision of the first pressure sensor for second
Collect precision.
12. electronic equipment as claimed in claim 11, which is characterized in that the processor is used for:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains first pressure
Whether force value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
13. a kind of electronic equipment, comprising:
Whether first pressure sensor contacts the pressure acquisition region of the electronic equipment for detecting user's the whole body body region;
Second pressure sensor, for when pressure acquisition region, obtaining the physical feeling described in the body contact
With M second pressure value in the contact process of the pressure acquisition region;Wherein, M is the integer more than or equal to 2, the M pressure
Force value for the heartbeat of the user be reacted to the physical feeling it is reflected vibration the physical feeling with
The pressure change generated during the pressure acquisition region contact;
Processor, in operating status for controlling second pressure sensor, the acquisition precision of the second pressure sensor is excellent
In the acquisition precision of the first pressure sensor;It records described in pressure acquisition region process described in the body contact
First pressure sensor M first pressure value obtained;Based on the M first pressure value and the M second pressure
Value determines the current pulse saltation velocity of the user.
14. electronic equipment as claimed in claim 13, which is characterized in that the processor is used for:
The processor is also used to:
The M first pressure value and the M second pressure value are established into referential;
In the M first pressure value in the case where continuous and stable, determines in the M second pressure value and meet preset range
N number of third pressure value, N be less than or equal to M;
Based on the first duration, K the 4th pressure values are selected from N number of third pressure value, calculates and determines working as the user
Preceding beat pulse speed.
15. electronic equipment as claimed in claim 13, which is characterized in that the processor is used for:
Control instruction is obtained, the control instruction is for enabling the second pressure sensor.
16. electronic equipment as claimed in claim 15, which is characterized in that the processor is used for:
First pressure sensor is run on when pressure acquisition region described in the body contact and obtains first pressure
Whether force value meets predetermined condition;
When the first pressure value meets the predetermined condition, the control instruction is generated.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510967464.4A CN105615861B (en) | 2015-12-21 | 2015-12-21 | A kind of method and electronic equipment measuring pulse |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510967464.4A CN105615861B (en) | 2015-12-21 | 2015-12-21 | A kind of method and electronic equipment measuring pulse |
Publications (2)
Publication Number | Publication Date |
---|---|
CN105615861A CN105615861A (en) | 2016-06-01 |
CN105615861B true CN105615861B (en) | 2019-01-15 |
Family
ID=56031526
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201510967464.4A Active CN105615861B (en) | 2015-12-21 | 2015-12-21 | A kind of method and electronic equipment measuring pulse |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN105615861B (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106923791A (en) * | 2017-02-20 | 2017-07-07 | 上海创功通讯技术有限公司 | The method and device of heart rate is analyzed using pressure sensitivity touch-screen |
CN111867449B (en) * | 2018-03-09 | 2022-03-29 | 华为技术有限公司 | Method and terminal device for measuring human physiological parameters |
CN108742581B (en) * | 2018-06-15 | 2021-08-20 | Oppo广东移动通信有限公司 | Heartbeat detection method, heartbeat detection device, storage medium and terminal |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2388913A (en) * | 2002-04-26 | 2003-11-26 | E Med Biotech Inc | Sphygmogram measurement of pulse pressure at two adjacent points |
CN201356133Y (en) * | 2009-02-23 | 2009-12-09 | 张占腾 | Finger ring capable of measuring heart-beat |
CN204048339U (en) * | 2014-06-27 | 2014-12-31 | 苏州原点工业设计有限公司 | A kind of multifunctional massage bracelet |
CN105078409A (en) * | 2014-05-22 | 2015-11-25 | 三星电子株式会社 | Information management method and electronic device |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1018346B (en) * | 1990-04-12 | 1992-09-23 | 四川大学 | Multiple strip laser crystal processing technology by disks and its device |
-
2015
- 2015-12-21 CN CN201510967464.4A patent/CN105615861B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2388913A (en) * | 2002-04-26 | 2003-11-26 | E Med Biotech Inc | Sphygmogram measurement of pulse pressure at two adjacent points |
CN201356133Y (en) * | 2009-02-23 | 2009-12-09 | 张占腾 | Finger ring capable of measuring heart-beat |
CN105078409A (en) * | 2014-05-22 | 2015-11-25 | 三星电子株式会社 | Information management method and electronic device |
CN204048339U (en) * | 2014-06-27 | 2014-12-31 | 苏州原点工业设计有限公司 | A kind of multifunctional massage bracelet |
Also Published As
Publication number | Publication date |
---|---|
CN105615861A (en) | 2016-06-01 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105615861B (en) | A kind of method and electronic equipment measuring pulse | |
WO2017114062A1 (en) | Terminal equipment-based fingerprint and press detection method, and application method and corresponding device thereof | |
RU2016143170A (en) | SYSTEM AND METHOD FOR DETECTING CHANGE IN USER'S HEART RATE | |
RU2016131353A (en) | METHODS, SYSTEMS AND DEVICES FOR OPTIMUM LOCATION OF SENSORS | |
US11642058B2 (en) | System and method for measuring reaction time of a subject | |
JP2017121286A (en) | Emotion estimation system, emotion estimation method, and emotion estimation program | |
KR102173725B1 (en) | Apparatus and Method for measuring physiological signal | |
CN105686818A (en) | Measuring device and method | |
US20190387986A1 (en) | Blood pressure measurement apparatus, method, and program | |
TWI645834B (en) | Apparatus, method and non-transitory computing device for opportunistic measurement and processing of a user's context can read media | |
CN108024743A (en) | Analysis of blood pressure device, blood pressure measurement apparatus, analysis of blood pressure method, analysis of blood pressure program | |
JP6834192B2 (en) | Biological information measuring device, operating method of biological information measuring device, and operating program of biological information measuring device | |
KR102505348B1 (en) | Apparatus and method for bio information processing | |
EP3184042A1 (en) | Electronic device and computer-readable recording medium | |
JP2018149173A5 (en) | ||
CN104586352A (en) | Fatigue detection method and system | |
JP2019512347A5 (en) | ||
US20210386305A1 (en) | Apparatus and method for estimating blood pressure | |
CN108877875B (en) | Physiological sensor device, method and system | |
US20170319081A1 (en) | Electronic device and control method | |
CN105867618A (en) | Terminal and holding strength detecting method thereof | |
US20170127955A1 (en) | Measurement apparatus and measurement method | |
US9039628B2 (en) | Touch-sensitive display apparatus capable of measuring pulse rate and method thereof | |
JP5296392B2 (en) | Health condition determination support system and self-organizing map generation system using self-organizing map | |
CN110446459A (en) | Blood pressure related information display apparatus and method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |