CN106503444A - Momental acquisition methods and device - Google Patents
Momental acquisition methods and device Download PDFInfo
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- CN106503444A CN106503444A CN201610922504.8A CN201610922504A CN106503444A CN 106503444 A CN106503444 A CN 106503444A CN 201610922504 A CN201610922504 A CN 201610922504A CN 106503444 A CN106503444 A CN 106503444A
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- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H50/00—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics
- G16H50/30—ICT specially adapted for medical diagnosis, medical simulation or medical data mining; ICT specially adapted for detecting, monitoring or modelling epidemics or pandemics for calculating health indices; for individual health risk assessment
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Abstract
The invention discloses momental acquisition methods and device, are related to electronic information field, main purpose is can to obtain its corresponding quantity of motion according to different human body situation and motor habit, and then realizes the reasonable recommendation of motion.The present invention main technical schemes be:The physical sign parameters and kinematic parameter of personnel to be measured are obtained, the physical sign parameters include sex, height, age and body weight;The current basal metabolic rate of the personnel to be measured is obtained by the sex, age, height and body weight;According to the relation between the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption and body weight and move distance and the kinematic parameter, the basal metabolic rate, body weight, the quantity of motion of personnel to be measured is obtained.Present invention is mainly used in momental acquisition process.
Description
Technical field
The present invention relates to electronic information field, more particularly to a kind of momental acquisition methods and device.
Background technology
Quantity of motion, also referred to as " sports load ", refer to physiology, mental workload amount and disappear that human body born in sports
The heat of consumption, by the exercise intensity and persistent period that complete to practise, and the factor such as accuracy of action and sports events feature
To determine momental size.Human body will be kept fit, and need to adhere to daily moving, and scientific and reasonable motion need to consider motion side
Formula, exercise intensity, movement time, motion frequency and points for attention etc..
In order to realize the detection to fitness campaign, many motion monitoring products, such as motion bracelet in currently available technology
Deng motion bracelet can count the actual motion amount of sporter, and the quantity of motion is presented to user, understand so as to user
Know oneself current quantity of motion.But, in practical application, everyone physical condition is different, the motion of same intensity
Different reactions can be produced for different human bodies, and such as somebody just may can reach the purpose of body-building, somebody
May be injured, somebody may not reach the purpose of body-building, therefore the motion only by having produced goes to point out being good for for user
Body, is unable to reach purpose, if hyperkinesia allows sporter injured on the contrary, therefore how according to everyone physical condition and
It is thing urgently to be resolved hurrily at present that motor habit obtains corresponding quantity of motion.
Content of the invention
In view of this, the present invention provides a kind of momental acquisition methods and device, and main purpose is can be according to difference
Human body situation and motor habit obtain its corresponding quantity of motion, and then realize the reasonable recommendation of motion.
For reaching above-mentioned purpose, present invention generally provides following technical scheme:
On the one hand, the invention provides a kind of momental acquisition methods, including:
The physical sign parameters and kinematic parameter of personnel to be measured are obtained, the physical sign parameters include sex, height, age and body
Weight;
The current basal metabolic rate of the personnel to be measured is obtained by the sex, age, height and body weight;
According to the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption and body
Relation and the kinematic parameter, the basal metabolic rate, body weight between weight and move distance, obtains the motion of personnel to be measured
Amount.
On the other hand, the present invention also provides a kind of momental acquisition device, including:
Parameter acquiring unit, for obtaining the physical sign parameters and kinematic parameter of personnel to be measured, the physical sign parameters inclusive
Not, height, age and body weight;
Basal metabolic rate acquiring unit, works as obtaining the personnel to be measured by the sex, age, height and body weight
Front basal metabolic rate;
Quantity of motion computing unit, for according to the pass between kinergety consumption and basal metabolic rate and physical exertion coefficient
System, the relation between kinergety consumption and body weight and move distance and the kinematic parameter, the basal metabolic rate, body
Weight, obtains the quantity of motion of personnel to be measured.
Momental acquisition methods proposed by the present invention and device, the sex of personnel to be measured that can pass through to obtain, the age,
Height and body weight obtain the current basal metabolic rate of personnel to be measured, and based on kinergety consumption and basal metabolic rate and muscular labor
The kinematic parameter and base of the relation between dynamic coefficient, the relation between kinergety consumption and body weight and move distance and acquisition
Plinth metabolic rate obtains the quantity of motion of personnel to be measured so that entirely momental acquisition, it is only necessary to obtain the sign ginseng of personnel to be measured
Number, the relation between kinematic parameter and kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption
Relation between body weight and move distance just can be obtained, due to personnel to be measured physical sign parameters, kinematic parameter can be simple
Convenient obtain, and the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption with
Relation between body weight and move distance can also be obtained based on scientific research, so that momental acquisition is simple and convenient.
Description of the drawings
Fig. 1 is a kind of momental acquisition methods flow chart provided in an embodiment of the present invention;
Fig. 2 is provided in an embodiment of the present invention a kind of by the sex, age, the height and body weight acquisition people to be measured
The method flow diagram of the current basal metabolic rate of member;
Fig. 3 is provided in an embodiment of the present invention a kind of according to kinergety consumption and basal metabolic rate and physical exertion coefficient
Between relation, the relation between kinergety consumption and body weight and move distance and the kinematic parameter, the basic generation
Rate, body weight is thanked, the momental method flow diagram of personnel to be measured is obtained;
A kind of Fig. 4 composition frame charts of momental acquisition device provided in an embodiment of the present invention.
Specific embodiment
The present invention is described in further detail with reference to the accompanying drawings and examples.
A kind of momental acquisition methods are embodiments provided, as shown in figure 1, the method includes:
101st, obtain the physical sign parameters and kinematic parameter of personnel to be measured, the physical sign parameters include sex, height, the age and
Body weight;
Wherein, the kinematic parameter can be but be not limited to carry out weekly the number of times of aerobatic exercise and move every time when
Between.
Wherein, when the physical sign parameters and kinematic parameter of acquisition personnel to be measured, can adopt but be not limited to and be logical using receiving
Cross the physical sign parameters and kinematic parameter of interface operation input.Characteristics of human body's parameter and kinematic parameter input behaviour can specifically be exported
Make interface, the operation interface has multiple input type selecting frames, user that the input of physical sign parameters and kinematic parameter is carried out by input frame.
The input of physical sign parameters and kinematic parameter in addition to which, can also be carried out by the form of pop-up box, specifically this
Bright embodiment is not limited to this.
102nd, the current basal metabolic rate of the personnel to be measured is obtained by the sex, age, height and body weight.
Basal metabolic rate refers to that human body, in the state of clear-headed and extreme peace and quiet, does not receive musculation, ambient temperature, food
Relative metabolic rate when thing and psychentonia etc. affect.Basal metabolic rate can be calculated by experimental technique or equation
Go out.General basal metabolic rate is related to sex, age, height and body weight, therefore in the embodiment of the present invention, is obtaining personnel to be measured
Physical sign parameters after, can be according to the sex in physical sign parameters, age, height and body weight and the calculating based on basal metabolic rate
Formula, obtains the basal metabolic rate of the personnel to be measured.
103rd, according to the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption
Relation and the kinematic parameter between body weight and move distance, the basal metabolic rate, body weight, obtain personnel's to be measured
Quantity of motion.
Wherein, human body is required for activity, activity or motion all cause energy expenditure to increase daily.Human body disappears daily
The energy of the energy or daily requirement of consumption, can be tested by laboratory or formula is calculated.By research, human body is every
D aily energy expenditure E=basal metabolic rate * f, wherein f represent the coefficient of different physical exertions).Energy consumes (S) and refers in fortune
The energy consumed under dynamic state, equal to energy of the human body per D aily energy expenditure or daily requirement deduct human body basal metabolism or
Under person's rest state, the energy expenditure of (activity is less), i.e. S=E- basal metabolic rates=(f-1.15) * basal metabolic rates, obtain
Kinergety is consumed and the first relation between basal metabolic rate and physical exertion coefficient.First relation is based on, as long as obtaining
Basal metabolic rate and physical exertion coefficient can be obtained by kinergety consumption, so based on kinergety consumption and body weight,
The second relation between distance, calculates the quantity of motion for obtaining personnel to be measured.
Wherein, the quantity of motion in the embodiment of the present invention can be but be not limited to motion step number and/or movement velocity.
In the embodiment of the present invention, sex, age, height and the body weight that can pass through the personnel to be measured of acquisition obtain people to be measured
The current basal metabolic rate of member, and based on the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, fortune
Energy is consumed and the kinematic parameter and basal metabolic rate of the relation between body weight and move distance and acquisition obtain people to be measured
The quantity of motion of member so that entirely momental acquisition, it is only necessary to obtain physical sign parameters, kinematic parameter and the motion of personnel to be measured
Relation between energy expenditure and basal metabolic rate and physical exertion coefficient, between kinergety consumption and body weight and move distance
Relation just can obtain, as the physical sign parameters of personnel to be measured, kinematic parameter simply and easily can be obtained, and kinergety
Consume and the pass between the relation between basal metabolic rate and physical exertion coefficient, kinergety consumption and body weight and move distance
System can also be obtained based on scientific research, so that momental acquisition is simple and convenient.
Further, basal metabolic rate as above can be calculated by experimental technique or equation.This
Bright embodiment is specifically described as a example by using computing formula.At present the computing formula of basal metabolic rate is relatively more, by with
The measurement contrast of bioelectrical impedance analysis instrument, the embodiment of the present invention can be adopted but be not limited to equation below:
Male's M=67+13.73* body weight (kg)+5* heights (cm) -6.9* ages
Women F=661+9.6* body weight (kg)+1.72* heights (the cm) -4.7* ages
Executing the current by the sex, age, the height and body weight acquisition personnel to be measured of the embodiment of the present invention
Basal metabolic rate before, first above-mentioned formula is built, and the corresponding relation that sets up between sex and formula, is being set up
After good corresponding relation between sex and formula, will also the corresponding relation stored, so as to the embodiment of the present invention enter exercise
With.The above is based on, the embodiment of the present invention provides a kind of described to be measured by the acquisition of the sex, age, height and body weight
The method of the current basal metabolic rate of personnel, as shown in Fig. 2 the method includes:
201st, the formula for calculating basal metabolic rate corresponding with the sex is obtained according to the sex.
When this step is executed, if the sex of the personnel described to be measured for obtaining is male, calculating basal metabolism is got
The formula of rate is the corresponding formula of male, if the sex of the personnel described to be measured for obtaining is women, gets calculating basic generation
The formula for thanking to rate is the corresponding formula of women.
202nd, described for the input of the age, the height and body weight formula for calculating basal metabolic rate is obtained the personnel to be measured
Current basal metabolic rate.
Further, the embodiment of the present invention is according between kinergety consumption and basal metabolic rate and physical exertion coefficient
Relation, the relation between kinergety consumption and body weight and move distance and the kinematic parameter, the basal metabolic rate,
Body weight, during the quantity of motion of acquisition personnel to be measured, can adopt but be not limited to following method and realize, as shown in figure 3, the method
Including:
301st, the physical exertion coefficient of the personnel to be measured is determined according to the kinematic parameter.
In the embodiment of the present invention, as above, the kinematic parameter can be but be not limited to carry out weekly aerobatic exercise
Number of times and the time that moves every time;Different physical exertion types can determine based on the kinematic parameter, and different physical exertions
Type, corresponding physical exertion coefficient are different.
Above description is based on, when the physical exertion coefficient of the personnel to be measured is determined according to the kinematic parameter, can be with
Using but be not limited to following methods, the method includes:
1st, physical exertion assessment determination is carried out according to the number of times for carrying out weekly aerobatic exercise and the every time time of motion to be measured
The physical exertion type of personnel;Wherein, muscle power is being carried out according to the number of times for carrying out weekly aerobatic exercise and the time that moves every time
When active evaluation determines the physical exertion type of personnel to be measured, physical exertion assessment determination can be carried out in the following way to be measured
The physical exertion type of personnel.
1) weekly times of exercise _ _
A, less than 2 B, 2-3 C, 4-5 D, 6 times and more than;
2) time of every time motion _ _
A, be less than 15min B, 15-30min C, 30-60min D, more than 60min;
The rule for carrying out physical exertion assessment is:
1) lack motion:AA, AB, AC, AD, BA, i.e. sitting posture life style (few motion), motion weekly is less than 2 times, or
Person is moved at 2-3 time weekly, but situation of the movement time less than 15 minutes (min) every time, and such as AA as moves weekly few
In twice and every time, motion is less than 15min.
2) basic exercise:BB, CA, DA, i.e. light activity, daily routines are moved 2-6 time weekly, but movement time every time
Less than 15min or in 15-30min, such as CA is moved 4-5 time weekly, and motion every time is less than 15min.
3) move normal:BC, BD, CB, DB, i.e. moderate strength body-building, 2-6 motion weekly, motion is in 15- every time
60min, such as CB are moved 4-5 time weekly, and motion is in 15-30min every time.
4) move active:CC, CD, DC, i.e., big intensity body-building, above motion, is moved more than 30 minutes every time 4 times a week,
Such as DC is moved weekly more than 6 times, moves 30-60min every time.
5) moving height is enlivened:DD, i.e. professional athlete, 6 times a week more than, each motion more than 1 hour.For example DD is
Move more than 6 times weekly, every time motion more than 60min.
In the embodiment of the present invention, move according to the number of times that carries out weekly aerobatic exercise of the personnel to be measured for obtaining and every time
Time, according to above-mentioned physical exertion assessment rule, determine the physical exertion type of personnel to be measured.
2nd, physical exertion coefficient is determined according to the physical exertion type.
It should be noted that the corresponding relation between the physical exertion type and physical exertion coefficient, can be according to current
Research obtain, the corresponding relation between specific physical exertion type and physical exertion coefficient is as follows:
1) lack motion:AA, AB, AC, AD, BA, coefficient f are 1.3-1.4;
2) basic exercise:BB, CA, DA, coefficient f are 1.4-1.5;
3) move normal:BC, BD, CB, DB, coefficient f are 1.5-1.6;
4) move active:CC, CD, DC, coefficient f are 1.6-1.7;
5) moving height is enlivened:DD, coefficient f are 1.7~1.8.
Foregoing description is so based on, in the embodiment of the present invention, after the physical exertion type for obtaining personnel to be measured, i.e.,
The physical exertion coefficient of personnel to be measured can be determined according to the corresponding relation between the physical exertion type and physical exertion coefficient.
302nd, the first kinergety of the physical exertion coefficient and basal metabolic rate input prebuild is consumed public
Formula, obtains the kinergety consumption of the personnel to be measured, the first kinergety loss ratio according to per D aily energy expenditure and
Basal metabolic rate builds, and expresses the relation between basal metabolic rate and physical exertion coefficient and kinergety consumption.
It should be noted that the first kinergety loss ratio is built with basal metabolic rate according to per D aily energy expenditure,
Therefore before the embodiment of the present invention is implemented, also including the step of building the first kinergety loss ratio, the step includes:Will
The physical exertion coefficient is multiplied with the basal metabolic rate and obtains the daily energy expenditure of the personnel to be measured;Based on daily
Energy expenditure is the logical relation of kinergety consumption and basal metabolic rate sum, builds the first kinergety and disappears value formula, should
Formula is:
S=E- basal metabolic rates=(f-1.15) * basal metabolic rates.
In the embodiment of the present invention, by above-mentioned to the physical exertion coefficient for getting and basal metabolic rate input the first motion
Energy expenditure formula, obtains the kinergety consumption of the personnel to be measured.
303rd, according to the kinergety consumption and the body weight and kinergety consumption and body weight and move distance it
Between Relation acquisition personnel to be measured quantity of motion.
Wherein, in the embodiment of the present invention, need according to structure kinergety consumption and the pass between body weight and move distance
System, build the second kinergety loss ratio, the second kinergety loss ratio based on research can with but be not limited to build
For below equation, the formula is specially:
S (kcal)=body weight (kg) × distance (km) × 1036m* (dis/1000) * 1036;
Foregoing description is based on, and the kinergety that personnel to be measured can be calculated based on the first kinergety loss ratio disappears
Consumption, and then on the premise of the kinergety consumption and body weight for knowing personnel to be measured, based on the second kinergety loss ratio,
Just corresponding move distance can be calculated, the momental calculating of personnel to be measured just can be realized by the move distance.
In the embodiment of the present invention, the quantity of motion can with but be not limited to include motion step number and/or movement velocity.
When the quantity of motion includes motion step number, described according to the kinergety consumption and the body weight and motion
The quantity of motion of Relation acquisition between energy expenditure and body weight and move distance personnel to be measured includes:
1st, the second kinergety loss ratio that the kinergety consumption and body weight input are built in advance is obtained described
The move distance of personnel to be measured, the second kinergety loss ratio express kinergety consumption and body weight and move distance it
Between relation;Specifically, in the case where known daily kinergety consumes S (kcal) and body weight (kg), according to the second motion
Energy expenditure formula:
S (kcal)=body weight (kg) × distance (km) × 1036m* (dis/1000) * 1036,
Motion mileage, i.e. move distance can be calculated,
The first kinergety loss ratio is based on, s=(f-1.15) * basal metabolic rates are obtained,
The kinergety consumption and body weight are input into above-mentioned move distance computing formula in the embodiment of the present invention, are treated
The move distance of survey personnel.The physical exertion coefficient of personnel to be measured and basal metabolic rate and body weight can also be input into the motion
Apart from computing formula, the move distance of personnel to be measured is obtained.
2nd, the move distance is obtained the motion step number of the personnel to be measured divided by the stride of every step.
Wherein, after the move distance of personnel to be measured is obtained according to the physical sign parameters and kinematic parameter of personnel to be measured,
By move distance divided by the stride of every step, the motion step number of the personnel to be measured is obtained.Specifically, human body average stride is
65cm, can draw motion step number with move distance divided by 65cm, i.e., per daily motion step number.
Based on the formula of above-mentioned move distance, the computing formula of motion step number is drawn, the computing formula is:
When the quantity of motion includes movement velocity, according to the kinergety consumption and the body weight and kinergety
Consume and the quantity of motion of the personnel to be measured of the Relation acquisition between body weight and move distance includes:
1st, the second kinergety loss ratio that the kinergety consumption and body weight input are built in advance is obtained described
The move distance of personnel to be measured, the second kinergety loss ratio express kinergety consumption and body weight and move distance it
Between relation.
Wherein, with regard to obtaining the second kinergety loss ratio that the kinergety consumption and body weight input are built in advance
The associated description of the move distance of the personnel to be measured is taken, the embodiment of the present invention will not be described in great detail herein, may be referred to other realities
Apply the description of example.
2nd, the move distance is obtained the motion step number of the personnel to be measured divided by the stride of every step.
3rd, the motion step number of the personnel to be measured is obtained the movement velocity of the personnel to be measured divided by predetermined movement time.
Further, for convenience the quantity of motion for calculating is exported and is checked to user, the embodiment of the present invention is treated in acquisition
After the quantity of motion of survey personnel, also by the quantity of motion output display of the personnel to be measured.
In the embodiment of the present invention, sex, age, height and the body weight that can pass through the personnel to be measured of acquisition obtain people to be measured
The current basal metabolic rate of member, and based on the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, fortune
Energy is consumed and the kinematic parameter and basal metabolic rate of the relation between body weight and move distance and acquisition obtain people to be measured
The quantity of motion of member so that entirely momental acquisition, it is only necessary to obtain physical sign parameters, kinematic parameter and the motion of personnel to be measured
Relation between energy expenditure and basal metabolic rate and physical exertion coefficient, between kinergety consumption and body weight and move distance
Relation just can obtain, as the physical sign parameters of personnel to be measured, kinematic parameter simply and easily can be obtained, and kinergety
Consume and the pass between the relation between basal metabolic rate and physical exertion coefficient, kinergety consumption and body weight and move distance
System can also be obtained based on scientific research, so that momental acquisition is simple and convenient.
Said method embodiment is based on, the embodiment of the present invention also provides a kind of momental acquisition device, as shown in figure 4,
Including:
Parameter acquiring unit 41, for obtaining the physical sign parameters and kinematic parameter of personnel to be measured, the physical sign parameters include
Sex, height, age and body weight;Wherein, the number of times that the kinematic parameter can be but be not limited to carry out weekly aerobatic exercise
The time that moves every time.Obtain personnel to be measured physical sign parameters and kinematic parameter when, can using but be not limited to using connecing
Receive the physical sign parameters and kinematic parameter being input into by interface operation.Characteristics of human body's parameter can be exported specifically and kinematic parameter is defeated
Enter operation interface, the operation interface has multiple input type selecting frames, user physical sign parameters and kinematic parameter to be carried out by input frame
Input.In addition to which, the input of physical sign parameters and kinematic parameter can also be carried out by the form of pop-up box, specifically
The embodiment of the present invention is not limited to this.
Basal metabolic rate acquiring unit 42, for obtaining the personnel to be measured by the sex, age, height and body weight
Current basal metabolic rate;Basal metabolic rate refers to that human body, in the state of clear-headed and extreme peace and quiet, does not receive musculation, ring
Relative metabolic rate when border temperature, food and psychentonia etc. affect.Basal metabolic rate can pass through experimental technique or public affairs
Formula method is calculated.General basal metabolic rate is related to sex, age, height and body weight, therefore in the embodiment of the present invention, is obtaining
After the physical sign parameters of personnel to be measured, can be according to the sex in physical sign parameters, age, height and body weight and based on basic generation
Thank to the computing formula of rate, obtain the basal metabolic rate of the personnel to be measured.
Quantity of motion computing unit 43, for according between kinergety consumption and basal metabolic rate and physical exertion coefficient
Relation and the kinematic parameter between relation, kinergety consumption and body weight and move distance, the basal metabolic rate, body
Weight, obtains the quantity of motion of personnel to be measured.
Further, the basal metabolic rate acquiring unit 42 includes:
Formula acquisition module, for obtaining the public affairs for calculating basal metabolic rate corresponding with the sex according to the sex
Formula;
Basal metabolic rate calculates module, for the age, height and body weight are input into the calculating basal metabolic rate
Formula obtains the current basal metabolic rate of the personnel to be measured.
Further, the quantity of motion computing unit 43 includes:
Physical exertion coefficient acquisition module, for determining the physical exertion system of the personnel to be measured according to the kinematic parameter
Number;Wherein, the kinematic parameter can with but the number of times that is not limited to include carry out weekly aerobatic exercise and the time that moves every time;
The physical exertion coefficient acquisition module specifically for:Number of times and the time that moves every time according to aerobatic exercise is carried out weekly enters
Row physical exertion assessment determines the physical exertion type of personnel to be measured;Physical exertion system is determined according to the physical exertion type
Number.
Kinergety consumption calculations module, for being input into prebuild by the physical exertion coefficient and the basal metabolic rate
The first kinergety loss ratio, obtain the kinergety consumption of the personnel to be measured, first kinergety consumes public
Formula is built with basal metabolic rate according to per D aily energy expenditure, expresses basal metabolic rate and physical exertion coefficient is disappeared with kinergety
Relation between consumption;
Quantity of motion computing module, for according to the kinergety consumption and the body weight and kinergety consumption and body
The quantity of motion of the Relation acquisition personnel to be measured between weight and move distance.Wherein, the quantity of motion can with but be not limited to include:
Motion step number and/or movement velocity;
When the quantity of motion includes motion step number, the quantity of motion computing module specifically for:By the kinergety
Consume and body weight is input into the move distance that the second kinergety loss ratio for building in advance obtains the personnel to be measured, this second
Kinergety loss ratio expresses the relation between kinergety consumption and body weight and move distance;The move distance is removed
With the stride of every step, the motion step number of the personnel to be measured is obtained.
When the quantity of motion includes movement velocity, the quantity of motion computing module specifically for:By the kinergety
Consume and body weight is input into the move distance that the second kinergety loss ratio for building in advance obtains the personnel to be measured, this second
Kinergety loss ratio expresses the relation between kinergety consumption and body weight and move distance;The move distance is removed
With the stride of every step, the motion step number of the personnel to be measured is obtained;By the motion step number of the personnel to be measured divided by predetermined motion
Time obtains the movement velocity of the personnel to be measured.
Further, the physical exertion coefficient and the basal metabolic rate are input in kinergety consumption calculations module
Before first kinergety loss ratio of prebuild, the device includes:
Per D aily energy expenditure acquiring unit, institute is obtained for the physical exertion coefficient is multiplied with the basal metabolic rate
State the daily energy expenditure of personnel to be measured;
Formula construction unit, for being patrolling for kinergety consumption and basal metabolic rate sum based on daily energy expenditure
Volume relation, builds the first kinergety and disappears value formula.
Further, after the quantity of motion for obtaining personnel to be measured, the device also includes:
Output display unit, for by the quantity of motion output display of the personnel to be measured.
It should be noted that the correlation function and module in the embodiment of the present invention involved by momental acquisition device
Other description, may be referred to the associated description in mode embodiment, the embodiment of the present invention will not be described in great detail herein.
In the embodiment of the present invention, sex, age, height and the body weight that can pass through the personnel to be measured of acquisition obtain people to be measured
The current basal metabolic rate of member, and based on the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, fortune
Energy is consumed and the kinematic parameter and basal metabolic rate of the relation between body weight and move distance and acquisition obtain people to be measured
The quantity of motion of member so that entirely momental acquisition, it is only necessary to obtain physical sign parameters, kinematic parameter and the motion of personnel to be measured
Relation between energy expenditure and basal metabolic rate and physical exertion coefficient, between kinergety consumption and body weight and move distance
Relation just can obtain, as the physical sign parameters of personnel to be measured, kinematic parameter simply and easily can be obtained, and kinergety
Consume and the pass between the relation between basal metabolic rate and physical exertion coefficient, kinergety consumption and body weight and move distance
System can also be obtained based on scientific research, so that momental acquisition is simple and convenient.
Through the above description of the embodiments, those skilled in the art can be understood that the present invention can be borrowed
Software is helped to add the mode of required common hardware to realize, naturally it is also possible to which by hardware, but the former is more preferably in many cases
Embodiment.Such understanding, the portion that technical scheme is substantially contributed in other words is based on to prior art
Divide and can be embodied in the form of software product, the computer software product is stored in the storage medium that can read, such as count
The floppy disk of calculation machine, hard disk or CD etc., use including some instructions so that computer equipment (can be personal computer,
Server, or the network equipment etc.) execute method described in each embodiment of the invention.
The above, the only specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any
Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all be contained
Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be defined by the scope of the claims.
Claims (10)
1. a kind of momental acquisition methods, it is characterised in that include:
The physical sign parameters and kinematic parameter of personnel to be measured are obtained, the physical sign parameters include sex, height, age and body weight;
The current basal metabolic rate of the personnel to be measured is obtained by the sex, age, height and body weight;
According to the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient, kinergety consumption and body weight and
Relation and the kinematic parameter between move distance, the basal metabolic rate, body weight, obtain the quantity of motion of personnel to be measured.
2. method according to claim 1, it is characterised in that obtained by the sex, age, height and body weight described
The current basal metabolic rate of personnel to be measured includes:
The formula for calculating basal metabolic rate corresponding with the sex is obtained according to the sex;
Described for the input of the age, the height and body weight formula for calculating basal metabolic rate is obtained the current base of the personnel to be measured
Plinth metabolic rate.
3. method according to claim 1, it is characterised in that according to kinergety consumption and basal metabolic rate and muscular labor
Relation between dynamic coefficient, the relation between kinergety consumption and body weight and move distance and the kinematic parameter, described
Basal metabolic rate, body weight, the quantity of motion for obtaining personnel to be measured include:
According to the physical exertion coefficient that the kinematic parameter determines the personnel to be measured;
The first kinergety loss ratio that the physical exertion coefficient and the basal metabolic rate are input into prebuild, obtains institute
The kinergety consumption of personnel to be measured is stated, the first kinergety loss ratio is according to every D aily energy expenditure and basal metabolic rate
Build, express the relation between basal metabolic rate and physical exertion coefficient and kinergety consumption;
According to the kinergety consumption and the relation between the body weight and kinergety consumption and body weight and move distance
Obtain the quantity of motion of personnel to be measured.
4. method according to claim 3, it is characterised in that by the physical exertion coefficient and the basal metabolic rate
Before first kinergety loss ratio of input prebuild, the method includes:
The physical exertion coefficient is multiplied with the basal metabolic rate and obtains the daily energy expenditure of the personnel to be measured;
Based on the logical relation that daily energy expenditure is kinergety consumption and basal metabolic rate sum, the first motion energy is built
Measure the value formula that disappears.
5. the method according to claim 3 or 4, it is characterised in that the quantity of motion includes motion step number and/or motion speed
Degree;
When the quantity of motion includes motion step number, described according to the kinergety consumption and the body weight and kinergety
Consume and the quantity of motion of the personnel to be measured of the Relation acquisition between body weight and move distance includes:
The second kinergety loss ratio that the kinergety consumption and body weight input are built in advance is obtained the people to be measured
The move distance of member, the second kinergety loss ratio express the pass between kinergety consumption and body weight and move distance
System;
By the move distance divided by the stride of every step, the motion step number of the personnel to be measured is obtained;
When the quantity of motion includes movement velocity, described according to the kinergety consumption and the body weight and kinergety
Consume and the quantity of motion of the personnel to be measured of the Relation acquisition between body weight and move distance includes:
The second kinergety loss ratio that the kinergety consumption and body weight input are built in advance is obtained the people to be measured
The move distance of member, the second kinergety loss ratio express the pass between kinergety consumption and body weight and move distance
System;
By the move distance divided by the stride of every step, the motion step number of the personnel to be measured is obtained;
The movement velocity that the motion step number of the personnel to be measured is obtained the personnel to be measured divided by predetermined movement time.
6. method according to claim 5, it is characterised in that the kinematic parameter include carrying out weekly aerobatic exercise time
Number and the time that moves every time;Described determine that the physical exertion coefficient of the personnel to be measured includes according to the kinematic parameter:
Physical exertion assessment is carried out according to the number of times for carrying out weekly aerobatic exercise and the time that moves every time and determines personnel's to be measured
Physical exertion type;
Physical exertion coefficient is determined according to the physical exertion type.
7. the method according to any one of claim 1-6, it is characterised in that the physical sign parameters of acquisition personnel to be measured
Include with kinematic parameter:
Receive the physical sign parameters and kinematic parameter of the personnel to be measured being input into by interface operation.
8. method according to claim 7, it is characterised in that after the quantity of motion for obtaining personnel to be measured, the method bag
Include:
Quantity of motion output display by the personnel to be measured.
9. a kind of momental acquisition device, it is characterised in that include:
Parameter acquiring unit, for obtaining the physical sign parameters and kinematic parameter of personnel to be measured, the physical sign parameters include sex, body
High, age and body weight;
Basal metabolic rate acquiring unit, current for obtaining the personnel to be measured by the sex, age, height and body weight
Basal metabolic rate;
Quantity of motion computing unit, for according to the relation between kinergety consumption and basal metabolic rate and physical exertion coefficient,
Kinergety is consumed and the relation between body weight and move distance and the kinematic parameter, the basal metabolic rate, body weight, is obtained
Take the quantity of motion of personnel to be measured.
10. device according to claim 9, it is characterised in that the quantity of motion computing unit includes:
Physical exertion coefficient acquisition module, for determining the physical exertion coefficient of the personnel to be measured according to the kinematic parameter;
Kinergety consumption calculations module, for by the of the physical exertion coefficient and basal metabolic rate input prebuild
One kinergety loss ratio, obtains the kinergety consumption of the personnel to be measured, the first kinergety loss ratio root
Build according to every D aily energy expenditure and basal metabolic rate, express basal metabolic rate and physical exertion coefficient and it is consumed with kinergety
Between relation;
Quantity of motion computing module, for according to the kinergety consumption and the body weight and kinergety consumption and body weight and
The quantity of motion of Relation acquisition between move distance personnel to be measured.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108392212A (en) * | 2018-01-15 | 2018-08-14 | 广东乐芯智能科技有限公司 | A kind of human-body fatigue degree judgment method and bracelet based on bracelet |
CN109887601A (en) * | 2019-01-09 | 2019-06-14 | 深圳智芯数据服务有限公司 | Monitoring method, device, equipment and the storage medium of human cyclin energy consumption |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1425357A (en) * | 1994-09-07 | 2003-06-25 | 欧姆龙公司 | Kinergety detector capable of displaying next kinergety to be finished |
CN1723838A (en) * | 2005-07-21 | 2006-01-25 | 高春平 | Method and device for individualized and three-D type reducing weight |
CN104434098A (en) * | 2014-11-27 | 2015-03-25 | 北京四海华辰科技有限公司 | Human body energy detection method and device |
CN105653715A (en) * | 2015-12-31 | 2016-06-08 | 北京奇艺世纪科技有限公司 | Pushing method and system for training courses |
-
2016
- 2016-10-26 CN CN201610922504.8A patent/CN106503444A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1425357A (en) * | 1994-09-07 | 2003-06-25 | 欧姆龙公司 | Kinergety detector capable of displaying next kinergety to be finished |
CN1723838A (en) * | 2005-07-21 | 2006-01-25 | 高春平 | Method and device for individualized and three-D type reducing weight |
CN104434098A (en) * | 2014-11-27 | 2015-03-25 | 北京四海华辰科技有限公司 | Human body energy detection method and device |
CN105653715A (en) * | 2015-12-31 | 2016-06-08 | 北京奇艺世纪科技有限公司 | Pushing method and system for training courses |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108392212A (en) * | 2018-01-15 | 2018-08-14 | 广东乐芯智能科技有限公司 | A kind of human-body fatigue degree judgment method and bracelet based on bracelet |
CN109887601A (en) * | 2019-01-09 | 2019-06-14 | 深圳智芯数据服务有限公司 | Monitoring method, device, equipment and the storage medium of human cyclin energy consumption |
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