CN105769209A - Method for calculating heat consumption and electronic device - Google Patents

Abstract

The invention provides a method for calculating heat consumption and an electronic device. The method is used for solving the technical problem that the electronic device has poor accuracy in calculating heat consumption by movement. The method comprises the steps of determining that a user is in a movement state through an induction unit of the electronic device, and obtaining a first movement parameter of the user in the first direction and a second movement parameter of the user in the second direction; obtaining sign information of the user; and calculating a heat consumption value of the user during the movement based on the first movement parameter, the second movement parameter and the sign information.

Description

A kind of method calculating heat consumption and electronic equipment

Technical field

The present invention relates to electronic technology field, calculate, particularly to a kind of, method and the electronic equipment that heat consumes.

Background technology

Along with developing rapidly of science and technology, the living standard of people also gradually steps up, and increasingly focuses on promoting the body constitution of self, therefore, in daily life, people also increasingly pay attention to individual sports, and expect by the health keeping health of moving, the even maintenance etc. of stature, therefore, various motion kind equipments and motion class application software also arise at the historic moment so that user can be best understood from and record the correlated results of motion in motor process, such as heat consumption, movement locus etc..

At present, electronic equipment is usually mounted with the application of motion class, such as thud body-building application, Runtastic application etc., but existing being applied in calculates heat corresponding to motion when consuming, i.e. calorie consumption, it is generally only the energy metabolism equivalent value of the type according to user movement and correspondence, calculates the calorie that motion consumes.

But, motion class is mainly determined according to speed or acceleration when being applied in assessment type of sports, but the speed that application detects in practice or acceleration all obtain according to moving horizontally distance calculating, and not considering the impact that heat is consumed by the change of height, the accuracy of the data of the energy metabolism therefore calculated is relatively low.

Summary of the invention

The application provides a kind of and calculates method and the electronic equipment that heat consumes, for solving electronic equipment in the relatively low technical problem of the accuracy of consumption of calorie calculating motion.

On the one hand, the application provides a kind of and calculates the method that heat consumes, including:

Determine that user is in the state of motion by the sensing unit of electronic equipment, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Obtain the sign information of described user；

Based on described first kinematic parameter, described second kinematic parameter and described sign information, calculate described user heat consumption figures in described motion.

Described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

Optionally, while the second kinematic parameter obtained in described user the first kinematic parameter in a first direction and second direction, also include:

First variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor；

If it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

Optionally, calculate described user heat consumption figures in described motion, including:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

Optionally, it is determined that the first heat consumption figures that described user consumes in said first direction, including:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

Optionally, it is determined that the second heat consumption figures that described user consumes in this second direction, including:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

Optionally, before calculating the described heat consumption figures that described first user consumes in described motion, described method also includes:

Based on described first kinematic parameter, it is determined that the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction；

Then, based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion, including:

Based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

On the other hand, the application provides a kind of electronic equipment, including:

Sensing unit, for determining that user is in the state of motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Processor, for obtaining the sign information of described user, based on described first kinematic parameter, described second kinematic parameter and described sign information, calculates described user heat consumption figures in described motion.

Described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

Optionally, described processor is additionally operable to:

While the second kinematic parameter obtained in described user the first kinematic parameter in a first direction and second direction, first variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor, if it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

Optionally, described processor is used for:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

Optionally, described processor is used for:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

Optionally, described processor is used for:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

Optionally, described processor is additionally operable to before calculating the described heat consumption figures that described first user consumes in described motion, based on described first kinematic parameter, determine the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction；

And then, based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

On the other hand, the application provides a kind of electronic equipment, including:

By the sensing unit of electronic equipment, first acquisition module, for determining that user is in the state of motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Second acquisition module, for obtaining the sign information of described user；

Computing module, for based on described first kinematic parameter, described second kinematic parameter and described sign information, calculating described user heat consumption figures in described motion.

In the application, can when determining the state that user is in motion by the sensing unit of electronic equipment, obtain the second kinematic parameter in user's the first kinematic parameter in a first direction and second direction, and obtain the sign information of user, thus based on the first kinematic parameter, second kinematic parameter and sign information, the heat consumption figures determining user at the volley can be calculated, therefore by obtaining user's operational factor (as horizontally and vertically) on two different directions in motor process, such that it is able to user's heat consumption figures at the volley can be calculated comparatively all sidedly based on the operational factor on different directions, improve the accuracy of result of calculation.

Accompanying drawing explanation

Fig. 1 is the flow chart calculating the method that heat consumes in the embodiment of the present invention；

Fig. 2 is the structure chart of electronic equipment in the embodiment of the present invention；

Fig. 3 is the module map of information processing method in the embodiment of the present invention.

Detailed description of the invention

The application provides a kind of and calculates method and the electronic equipment that heat consumes, for solving electronic equipment in the relatively low technical problem of the accuracy of consumption of calorie calculating motion.

In order to solve above-mentioned technical problem, the technical scheme general thought that the embodiment of the present invention provides is as follows:

In the application, can when determining the state that user is in motion by the sensing unit of electronic equipment, obtain the second kinematic parameter in user's the first kinematic parameter in a first direction and second direction, and obtain the sign information of user, thus based on the first kinematic parameter, second kinematic parameter and sign information, the heat consumption figures determining user at the volley can be calculated, therefore by obtaining user's operational factor (as horizontally and vertically) on two different directions in motor process, such that it is able to user's heat consumption figures at the volley can be calculated comparatively all sidedly based on the operational factor on different directions, improve the accuracy of result of calculation.

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

In the embodiment of the present invention, electronic equipment can be used for record and calculate the equipment of related data in motor process.Such as, electronic equipment can be the motion kind equipment with the corresponding function module, such as pedometer, Intelligent bracelet etc., or, this electronic equipment can also be the mobile equipment being provided with the application of motion class, such as smart mobile phone etc., certainly can also is that other electronic equipment, this is not specifically limited by the present invention.

It addition, the terms "and/or", being only a kind of incidence relation describing affiliated partner, can there are three kinds of relations in expression, for instance, A and/or B, it is possible to represent: individualism A, there is A and B, individualism B these three situation simultaneously.It addition, character "/" herein, typically represent forward-backward correlation to as if the relation of a kind of "or".

Below in conjunction with accompanying drawing, the preferred embodiment of the present invention is described in detail.

As it is shown in figure 1, the embodiment of the present invention provides a kind of calculates the method that heat consumes, the method can describe as follows.

S11: determine that user is in the state of motion by the sensing unit of electronic equipment, it is thus achieved that the second kinematic parameter on user's the first kinematic parameter in a first direction and second direction；

In the embodiment of the present invention, sensing unit may be used for detection user's associ-ated motion parameters in motor process, and sensing unit can include displacement transducer, velocity sensor and baroceptor etc..

In actual applications, sensing unit can be arranged in electronic equipment as a functional part, for instance air pressure sensing implement body can be provided in the barometer in electronic equipment.It can measure height in motor process.As a rule, under atmospheric pressure, whenever highly raising 12m, namely the mercury column in barometer reduces about 1 millimeter, therefore in the process highly changed, by detecting rising or the reduction of mercury column, namely can determine that user's height change at the volley.

In the embodiment of the present invention, user can be the user carrying mobile terminal, for instance wears Intelligent bracelet or carries the user of smart mobile phone.When user moves, the sensing unit of electronic equipment can detect corresponding kinematic parameter, and determines that user is in the state of motion.Such as, determining that user exists speed in the horizontal direction by the speed sensor in mobile phone, and when its horizontal displacement changes, then may determine that now user is likely to move, namely user is likely to be at the state of motion, such as walking or running etc..

Optionally, when determining the state that user is in operation, the second kinematic parameter in user's the first kinematic parameter in a first direction and second direction can be obtained by sensing unit, wherein, first kinematic parameter can include the displacement parameter on gravity direction, and the second kinematic parameter can include the displacement parameter in horizontal direction.

In actual applications, first direction and second direction can be different directions, and time in a first direction for gravity direction, it can be vertically oriented, and second direction can be horizontally oriented.

Therefore, obtain the displacement parameter on gravity direction that the first operational factor includes and may refer to the height parameter in the fortune merit of user.Such as, user is in the process climbing slope, and electronic equipment can detect, by built-in barometer, the height parameter obtained in climbing process.Second operational factor can be user's displacement in horizontal direction in motor process, for instance the corresponding displacement of user's running orbit in hill climbing process.

Certainly, in actual applications, can also detecting user's other relevant parameters at the volley by sensing unit, such as speed, acceleration, user's body temperature etc., those skilled in the art can detect according to practical situation, and the present invention is not specifically limited.

Optionally, obtain in the process of kinematic parameter in detection, can also judge whether the kinematic parameter gathered is actual parameter, this process may is that the first variable quantity of the first operational factor in preset duration and the second variable quantity of the second operational factor are determined in detection, if it is determined that the first variable quantity is be more than or equal to the first preset value, and second variable quantity be more than or equal to the second preset value, it is determined that the first operational factor and the second operational factor are actual parameter.

Wherein, preset duration can be dispatched from the factory and set at once by electronic equipment, or can also be user is set by motion practical situation.Such as, the preset duration of setting can be 30 seconds, 1 minute or 2 minutes, etc., this is not done specific requirement by the present invention.As a rule, if user is kept in motion, then within this time, all can there is corresponding change in its kinematic parameter in the vertical direction and the horizontal direction.

First variable quantity may refer to the height parameter of sensing unit current detection and user starts the residual quantity between elemental height corresponding during this motion, i.e. drop value.Such as, if when determining user's setting in motion, corresponding elemental height is with respect to the horizontal plane 0.9m, in preset duration in motor process, detects that current height parameter is 25m, then corresponding first variable quantity is 24.1m.

Accordingly, the second variable quantity can also be that the position (start position) during by user's setting in motion carries out the displacement the final position moved in preset duration.

Optionally, the first preset value and the second preset value can also be that user is arranged voluntarily or good by electronic equipment Default Value, and the present invention is not specifically limited.

Therefore, after the first variable quantity of user's the first kinematic parameter at the volley and the second variable quantity of the second operational factor being detected in preset duration, based on preset value, it can be judged, to determine that whether current kinetic parameters is for actual parameter.

Such as, if expectation duration is 20s, the first preset value is 3m, second preset value is 10m, determining that user is when motion, in 1 minute, by the barometrical detection in smart machine, determining that the first variable quantity is 5m, the second variable quantity is 15m, is all higher than corresponding preset value, the motion determining active user is effective exercise, as user is likely to climb the mountain, then the motion that now user carries out is the motion required the expenditure of energy, and the operational factor of collection is actual parameter.

Or, however, it is determined that variable quantity (including the first variable quantity or the second variable quantity) be not more than equal to corresponding preset value, then may determine that the operational factor of detection be likely to invalid.Such as, if it is determined that in 20s, first variable quantity is 40m, and the second variable quantity is 0.1m, and the motion that namely user is current is in preset duration, high variable quantity is bigger, and horizontal variable quantity almost without, namely the second variable quantity is unsatisfactory for the second preset value, so time, user is likely to be only taking elevator, it does not have corresponding heat consumption.

S12: obtain the sign information of user；

In the embodiment of the present invention, the sign information of the user of acquisition can include the height parameter of user, body weight parameters, even sex, body temperature, age etc., and this is not specifically limited by the present invention.

In actual applications, the sign information of user can be through user oneself input, and/or, can also be by electronic equipment self or the corresponding detecting device detection connected with electronic equipment, the Intelligent weight being such as connected with electronic equipment claims can after weighing to user, it is possible to corresponding body weight information is sent in electronic equipment.

S13: based on the first kinematic parameter, the second kinematic parameter and sign information, calculates user's heat consumption figures at the volley.

In actual applications, when calculating user's heat consumption figures (i.e. calorie) at the volley, the heat consumption that mainly can be through calculating on different directions respectively is to determine the heat consumption that user is total at the volley.

In the embodiment of the present invention, it is determined that the process of user's heat consumption at the volley may is that

First, based on the first kinematic parameter and sign information, it is determined that the first heat consumption figures that user consumes in a first direction, and based on the first kinematic parameter and sign information, it is determined that the second heat consumption figures that user consumes in this second direction.

In the embodiment of the present invention, when calculating heat and consuming, when can obtain body weight parameters, corresponding displacement (i.e. distance), it is possible to be calculated in conjunction with MET (MetabolicEquivalentofEnergy, energy metabolism equivalent) value.Therefore, the heat consumption of user can be expressed as: body weight × distance × MET value, and wherein, MET value can be 1.036.

Then when the first heat consumption figures calculated on first direction, the displacement parameter on gravity direction can be based on and user's weight parameter is calculated, wherein, the displacement parameter on gravity direction can be user's height fall at the volley, is called height parameter in the embodiment of the present invention.For example, it is possible to be expressed as: the first heat consumption figures=height parameter × body weight parameters × MET value.

In like manner, when calculating the second heat consumption figures of second direction, it is possible to be based on what the body weight parameters of the displacement parameter in horizontal direction and user was calculated.Such as can be expressed as: the second heat consumption figures=horizontal displacement parameter × body weight component parameters × MET value.

As a rule, user is when the motion that the kinematic parameter carried out in first direction and second direction all changes, usually along moving of having that gradient object carries out, for instance climbing the mountain, go upstairs, it can be calculated based on body weight component parameters on horizontal mode.

In the embodiment of the present invention, determine that in user movement process, the process of body weight component parameters may is that based on the displacement parameter on gravity direction and the displacement parameter in horizontal direction, determine user be in operation correspondence angle parameter, and then, based on angle parameter and body weight parameters, calculate user's body weight component parameters in a second direction, based on body weight component parameters and displacement parameter, it is thus achieved that the second heat consumption figures that user consumes in a second direction.

In actual applications, owing to first direction and second direction are mutually perpendicular to, therefore when knowing displacement parameter (horizontal range) of the displacement parameter (i.e. height parameter) of first direction and second direction, it is possible to calculate based on Pythagorean theorem and determine corresponding angle.Such as, however, it is determined that height parameter is 20m, horizontal range is 40m, then it is believed that angle parameter corresponding to current kinetic is 30 °.

And then, based on a determination that angle parameter and body weight parameters, can calculate, based on vector, the body weight component parameters that horizontal direction is corresponding.Such as, the body weight such as user is 50kg, if the angle on slope is 30 °, then may determine that user's body weight component parameters of correspondence in hill climbing process is 25kg.

Thus based on the computing formula of above-mentioned second heat consumption figures, the heat consumption figures in second direction can be obtained.

Optionally, after collecting user's kinematic parameter at the volley, it is also possible to determine user's exercise intensity in motor process.This process may include that on the one hand, based on the first kinematic parameter, it is determined that the first exercise intensity coefficient that user is corresponding in a first direction, on the other hand, based on the second kinematic parameter, it is determined that user's the second exercise intensity coefficient in a second direction.

Wherein, when determining the first exercise intensity coefficient based on the first operational factor, it is possible to being in conjunction with the difference in height on gravity direction, acceleration, even speed, angle parameter are comprehensively determined.Such as, can by level walking time exercise intensity coefficient be defined as 1, then when being calculated based on the kinematic parameter on first direction, can using level walking time corresponding speed and acceleration as reference value, thus the exercise intensity on first direction is estimated.As a rule, kinematic parameter is more big compared to reference value, then kinematic coefficient is also just more difficult to, for instance, when climbing the mountain, the angle on slope is more big, then exercise intensity coefficient is also just also big.In actual applications, the span of exercise intensity coefficient can be [1,3].

After determining the exercise intensity coefficient responded on different directions, then when the heat consumption figures that calculating user is total at the volley, the first heat consumption figures and the first exercise intensity coefficient can be based on, and second heat consumption figures and the second exercise intensity coefficient carry out computing, such as can be expressed as: total amount of heat consumption figures=the first heat consumption figures × the first exercise intensity coefficient the+the second heat consumption figures × the second exercise intensity coefficient, wherein, the first exercise intensity coefficient and the second exercise intensity can be less than being equal to the parameter of 3.

Therefore, in the embodiment of the present invention, after calculate heat consumption figures both vertically and horizontally respectively based on the kinematic parameter on gravity direction and horizontal direction, it is also based on kinematic parameter and determines first direction and the respective exercise intensity coefficient of second direction, namely the heat consumption figures in first direction and second direction is revised further in conjunction with exercise intensity coefficient, thus improving the accuracy of computed total amount of heat consumption figures.

As in figure 2 it is shown, the present invention also provides for a kind of electronic equipment, including sensing unit 10 and processor 20.

Sensing unit 10 is determined for determining the state that user is in motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction.

Processor 20 may be used for obtaining the sign information of described user, based on described first kinematic parameter, described second kinematic parameter and described sign information, calculates described user heat consumption figures in described motion.

Optionally, described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

Optionally, processor 20 is additionally operable to:

While the second kinematic parameter obtained in described user the first kinematic parameter in a first direction and second direction, first variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor, if it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

Optionally, processor 20 is used for:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

Optionally, processor 20 is used for:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

Optionally, processor 20 is used for:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

Optionally, processor 20 is additionally operable to before calculating the described heat consumption figures that described first user consumes in described motion, based on described first kinematic parameter, determine the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction；

And then, based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

As it is shown on figure 3, the embodiment of the present invention also provides for a kind of electronic equipment, including the first acquisition module the 301, second acquisition module 302 and computing module 303.

First acquisition module 301 may be used for the sensing unit by electronic equipment and determines that user is in the state of motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Second acquisition module 302 may be used for obtaining the sign information of described user；

Computing module 303 may be used for, based on described first kinematic parameter, described second kinematic parameter and described sign information, calculating described user heat consumption figures in described motion.

Optionally, described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

Optionally, the first acquisition module 301 may be used for the first variable quantity of described first operational factor in detection preset duration and the second variable quantity of described second operational factor；If it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

Optionally, computing module 303 may be used for:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

Optionally, computing module 303 may be used for, based on the displacement parameter on described gravity direction and described body weight parameters, calculating and obtaining the first heat consumption figures that described user consumes in said first direction.

Optionally, computing module 303 may be used for: based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

Optionally, computing module 303 can be also used for before calculating the described heat consumption figures that described first user consumes in described motion, based on described first kinematic parameter, determine the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, determine described user the second exercise intensity coefficient in this second direction, and then, based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

Specifically, the computer program instructions that information processing method in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions corresponding with information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

Determine that user is in the state of motion by the sensing unit of electronic equipment, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Obtain the sign information of described user；

Based on described first kinematic parameter, described second kinematic parameter and described sign information, calculate described user heat consumption figures in described motion.

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions with step: obtain while computer instruction corresponding to the second kinematic parameter in described user the first kinematic parameter in a first direction and second direction performs and be performed, comprise the steps: when executed

First variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor；

If it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

Optionally, store in described storage medium and step: calculating described user heat consumption figures in described motion, corresponding computer instruction, being specifically performed in process, comprises the steps

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

Optionally, store in described storage medium and step: determining the first heat consumption figures that described user consumes in said first direction, corresponding computer instruction, being specifically performed in process, comprises the steps:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

Optionally, store in described storage medium and step: determining the second heat consumption figures that described user consumes in this second direction, corresponding computer instruction, being specifically performed in process, comprises the steps:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

Optionally, in described storage medium, also storage has other computer instruction, these computer instructions with step: calculating the described heat consumption figures that described first user consumes in described motion, corresponding computer instruction is performed after performing, and comprises the steps: when executed

Based on described first kinematic parameter, it is determined that the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction.

Optionally, in described storage medium storage and step: based on described first heat consumption figures and described second heat consumption figures, calculating the described heat consumption figures that described user consumes in described motion, corresponding computer instruction, being specifically performed in process, comprises the steps:

Based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

Obviously, the present invention can be carried out various change and modification without deviating from the spirit and scope of the present invention by those skilled in the art.So, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (15)

1. calculate the method that heat consumes, including:

Determine that user is in the state of motion by the sensing unit of electronic equipment, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Obtain the sign information of described user；

Based on described first kinematic parameter, described second kinematic parameter and described sign information, calculate described user heat consumption figures in described motion.

2. the method for claim 1, it is characterised in that described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

3. method as claimed in claim 2, it is characterised in that while the second kinematic parameter obtained in described user the first kinematic parameter in a first direction and second direction, also include:

First variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor；

If it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

4. method as claimed in claim 3, it is characterised in that calculate described user heat consumption figures in described motion, including:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

5. method as claimed in claim 4, it is characterised in that determine the first heat consumption figures that described user consumes in said first direction, including:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

6. method as claimed in claim 4, it is characterised in that determine the second heat consumption figures that described user consumes in this second direction, including:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

7. the method as described in claim as arbitrary in claim 4-6, it is characterised in that before calculating the described heat consumption figures that described first user consumes in described motion, described method also includes:

Based on described first kinematic parameter, it is determined that the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction；

Then, based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion, including:

Based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

8. an electronic equipment, including:

Sensing unit, for determining that user is in the state of motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Processor, for obtaining the sign information of described user, based on described first kinematic parameter, described second kinematic parameter and described sign information, calculates described user heat consumption figures in described motion.

9. electronic equipment as claimed in claim 8, it is characterised in that described first kinematic parameter includes the displacement parameter on gravity direction, and described second kinematic parameter includes the displacement parameter in horizontal direction, and described sign information at least includes body weight parameters.

10. electronic equipment as claimed in claim 9, it is characterised in that described processor is additionally operable to:

While the second kinematic parameter obtained in described user the first kinematic parameter in a first direction and second direction, first variable quantity of described first operational factor in detection preset duration, and the second variable quantity of described second operational factor, if it is determined that described first variable quantity is be more than or equal to the first preset value, and described second variable quantity is be more than or equal to the second preset value, it is determined that described first operational factor and described second operational factor are actual parameter.

11. electronic equipment as claimed in claim 10, it is characterised in that described processor is used for:

Based on described first kinematic parameter and described sign information, determine the first heat consumption figures that described user consumes in said first direction, and, based on described first kinematic parameter and described sign information, it is determined that the second heat consumption figures that described user consumes in this second direction；

Based on described first heat consumption figures and described second heat consumption figures, calculate the described heat consumption figures that described user consumes in described motion.

12. electronic equipment as claimed in claim 11, it is characterised in that described processor is used for:

Based on the displacement parameter on described gravity direction and described body weight parameters, calculate and obtain the first heat consumption figures that described user consumes in said first direction.

13. electronic equipment as claimed in claim 12, it is characterised in that described processor is used for:

Based on the displacement parameter on the displacement parameter on described gravity direction and described horizontal direction, it is determined that the angle parameter that described user is corresponding in described operation；

Based on described angle parameter and described body weight parameters, calculate described user body weight component parameters in this second direction；

Based on described body weight component parameters and described displacement parameter, it is thus achieved that the described second heat consumption figures that described user consumes in this second direction.

14. the electronic equipment as described in claim as arbitrary in claim 12-13, it is characterised in that

Described processor is additionally operable to before calculating the described heat consumption figures that described first user consumes in described motion, based on described first kinematic parameter, determine the first exercise intensity coefficient that described user is corresponding in said first direction, and based on described second kinematic parameter, it is determined that described user the second exercise intensity coefficient in this second direction；

And then, based on described first heat consumption figures and described first exercise intensity coefficient, and described second heat consumption figures and described second exercise intensity coefficient, calculate the described user described heat consumption figures in described motion.

15. an electronic equipment, including:

By the sensing unit of electronic equipment, first acquisition module, for determining that user is in the state of motion, it is thus achieved that the second kinematic parameter on described user the first kinematic parameter in a first direction and second direction；

Second acquisition module, for obtaining the sign information of described user；

Computing module, for based on described first kinematic parameter, described second kinematic parameter and described sign information, calculating described user heat consumption figures in described motion.