CN105797348B - A kind of method and wearable electronic equipment of detection object type of sports - Google Patents

Abstract

The invention discloses the methods and wearable electronic equipment of a kind of detection object type of sports, the method is applied in the wearable electronic equipment including pressure sensor and kinematic parameter detection sensor, when the wearable electronic equipment is worn on the whole body body region of a user, the described method includes: obtaining first atmospheric pressure value of the user in first environment at the first moment by pressure sensor detection, and detection obtains the second atmospheric pressure value of the second environment where the user at the second moment after first moment；At least one kinematic parameter of the motion state for characterizing the user between first moment and second moment is obtained by kinematic parameter detection sensor detection；Based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine the current kinetic type of the user.

Description

A kind of method and wearable electronic equipment of detection object type of sports

Technical field

The present invention relates to the methods and wearable electronics of electronic technology field more particularly to a kind of detection object type of sports Equipment.

Background technique

With the development of science and technology, the function of wrist-watch, the wearable electronic equipment such as wrist-watch is more and more abundant, application Also more and more extensive, for example, sensor is arranged in the wearable electronic equipment such as wrist-watch or wrist-watch, can be used to detect user Motion state, be further utilized to judge the moving scene etc. that user is current.

But present inventor during inventive technique scheme, has found above-mentioned technology extremely in realizing the embodiment of the present application It has the following technical problems less:

Due in the prior art, when by wearable electronic equipment to detect the motion state being used for, mainly passing through The single-sensor of wearable electronic equipment is set to realize, however, in the moving scene with similar motion change rule Under, it is provided with single-sensor and is just difficult to make accurate judgment, so, in the prior art, there are objects for wearable electronic equipment The technical problem of type of sports judgement inaccuracy.

Summary of the invention

The embodiment of the present invention provides the method and wearable electronic equipment of a kind of detection object type of sports, existing for solving Have in technology, for wearable electronic equipment there are the technical problem of object type of sports judgement inaccuracy, having being capable of accurate judgement The technical effect of object of which movement type.

On the one hand the embodiment of the present application provides a kind of method of detection object type of sports, the method is applied to include pressure In the wearable electronic equipment of force snesor and kinematic parameter detection sensor, when the wearable electronic equipment is worn on a use When the whole body body region at family, which comprises

The first atmospheric pressure value for obtaining the user at the first moment in first environment is detected by the pressure sensor, with And detection obtains the second atmospheric pressure value of the second environment where the user at the second moment after first moment；

It is obtained between first moment and second moment by kinematic parameter detection sensor detection For characterizing at least one kinematic parameter of the motion state of the user；

Based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine the user Current kinetic type.

Optionally, described to be based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter The current kinetic type for determining the user, specifically includes:

Based on first atmospheric pressure value and second atmospheric pressure value, determine first moment to second moment it Between air pressure change value；

Based on the air pressure change value, determine the user at first moment to the height between second moment Changing value；

The current kinetic type of the user is determined based on the height change value and at least one described kinematic parameter.

Optionally, described to determine that the user's is current based on the height change value and at least one described kinematic parameter Type of sports specifically includes:

Determining that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration value When, determine that the current kinetic type of the user is to drop to movement or falling motion；

Determining that the height change value is to be lower by height or got higher by low, and at least one described kinematic parameter is rule When at least one acceleration value of variation, determine that the current kinetic type of the user is go upstairs movement or movement of going downstairs；

Determine the height change value in a preset height changing value, and at least one described kinematic parameter be rule When at least one acceleration value of variation, determine that the current kinetic type of the user is to be less than preset height in a height above sea level Walk movement or road-work in region in difference.

Optionally, described to determine that the height change value is to be lower by height, and at least one described kinematic parameter is attached most importance to When power acceleration value, determine that the current kinetic type of the user is to drop to after movement or falling motion, the method is also wrapped It includes:

It obtains the current location information of the user, and produces one for characterizing that the user dropped to comprising institute The prompt information of current location information is stated, and the prompt information is sent to the terminal device of the relatives of the user.

Optionally, described to determine that the height change value is to be lower by height, and at least one described kinematic parameter is attached most importance to When power acceleration value, determine that the current kinetic type of the user is to drop to after movement or falling motion, the method is also wrapped It includes:

It obtains the current location information of the user, and generates one for characterizing that the user fallen comprising institute The medical help information of current location information is stated, and the medical help information is sent to from described when location information is corresponding The nearest hospital in current location.

On the other hand the embodiment of the present application provides a kind of wearable electronic equipment, comprising:

Apparatus body；

Fixed body, including the first end of the apparatus body first position is arranged in and is arranged in the apparatus body second The second end opposite with the first end of position, can be by the fixed wearing of the wearable electronic equipment by the fixed body In the whole body body region of a user；

Pressure sensor is arranged on the apparatus body or the fixed body；

Kinematic parameter detection sensor is arranged on the apparatus body or the fixed body；

Processor is connect with the pressure sensor and the kinematic parameter detection sensor；

Wherein, the first gas of first environment where the pressure sensor is used to detect the user for obtaining for the first moment Pressure value, and detection obtain the second air pressure of the second environment where the user at the second moment after first moment Value；

The kinematic parameter detection sensor obtains between first moment and second moment for detecting For characterizing at least one kinematic parameter of the motion state of the user；

The processor is used to be based on first atmospheric pressure value, second atmospheric pressure value and at least one described movement ginseng Number, determines the current kinetic type of the user.

Optionally, the processor, comprising:

First determination unit is determined for being based on first atmospheric pressure value and second atmospheric pressure value at described first Air pressure change value between quarter and second moment；

Second determination unit determines the user at first moment and described for being based on the air pressure change value Height change value between second moment；

Third determination unit determines the use for being based on the height change value and at least one described kinematic parameter The current kinetic type at family.

Optionally, the third determination unit, is specifically used for:

Determining that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration value When, determine the current kinetic type of the user for movement or the falling motion of falling；

Determining that the height change value is to be lower by height or got higher by low, and at least one described kinematic parameter is rule When at least one acceleration value of variation, determine that the current kinetic type of the user is go upstairs movement or movement of going downstairs；

Determine the height change value in a preset height changing value, and at least one described kinematic parameter be rule When at least one acceleration value of variation, determine that the current kinetic type of the user is to be less than default height in an altitude difference Walk movement or road-work in region in degree difference.

Optionally, the equipment further includes prompt information unit, is connected to the processor, for described in the determination Height change value be lower by height, and at least one described kinematic parameter be gravity acceleration value when, determine working as the user Preceding type of sports is to obtain the current location information of user after falling movement or falling motion, and generate one for characterizing The prompt information comprising the current location information that the user has fallen, and the prompt information is sent to the use The terminal device of the relatives at family.

Optionally, the equipment further includes that medical treatment is sought help unit, is connected to the processor, for described in the determination Height change value be lower by height, and at least one described kinematic parameter be gravity acceleration value when, determine working as the user Preceding type of sports is to obtain the current location information of user after falling movement or falling motion, and generate one for characterizing The medical help information comprising the current location information that the user has fallen, and the medical help information is sent To from the hospital nearest when the corresponding current location of location information.

Said one or multiple technical solutions in the embodiment of the present application at least have following one or more technology effects Fruit:

Due to the wearable electronic equipment in the embodiment of the present application, using includes apparatus body；Fixed body, including setting The apparatus body first position first end and the opposite with the first end of the apparatus body second position is set Second end, can be worn the wearable electronic equipment is fixed in the whole body body region of a user by the fixed body； Pressure sensor is arranged on the apparatus body or the fixed body；Kinematic parameter detection sensor is arranged in the equipment On ontology or the fixed body；Processor is connect with the pressure sensor and the kinematic parameter detection sensor；Wherein, First atmospheric pressure value of first environment where the pressure sensor is used to detect the user for obtaining for the first moment, and detection obtain Obtain the second atmospheric pressure value of the second environment where the user at the second moment after first moment；The movement ginseng Number detection sensor is used to detect to obtain and is used to characterize the user's between first moment and second moment At least one kinematic parameter of motion state；The processor is used to be based on first atmospheric pressure value, second atmospheric pressure value and institute At least one kinematic parameter is stated, determines the technical solution of the current kinetic type of the user.

I.e. in this application, it is provided with pressure sensor simultaneously in wearable electronic equipment and object fortune can be obtained All kinds of kinematic parameter detection sensors of dynamic parameter, the pneumatic parameter and fortune of object current kinetic are acquired by the sensor Dynamic parameter determines the current type of sports of object jointly, thus it is possible to effective solution is in the prior art, wearable electronic equipment There are the technical problems of object type of sports judgement inaccuracy, have the technical effect for capableing of accurate judgement object of which movement type.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, embodiment will be described below Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only of the invention some Embodiment.

Fig. 1 is a kind of flow chart of the method for detection object type of sports that the embodiment of the present application one provides；

Fig. 2 is to be provided with pressure sensor, acceleration transducer and gyroscope sensor in the embodiment of the present application one The structural representation of mobile phone；

Fig. 3 is the flow chart of the specific implementation of step S103 in the embodiment of the present application one；

Fig. 4 is the flow chart of the specific implementation of step S1033 in the embodiment of the present application one；

Fig. 5 is a kind of structural schematic diagram for wearable electronic equipment that the embodiment of the present application two provides.

Specific embodiment

The embodiment of the present invention provides the method and wearable electronic equipment of a kind of detection object type of sports, existing for solving Have in technology, for wearable electronic equipment there are the technical problem of object type of sports judgement inaccuracy, having being capable of accurate judgement The technical effect of object of which movement type.

In order to solve the above technical problems, general thought is as follows for technical solution in the embodiment of the present application:

A kind of method of detection object type of sports is provided, the method is applied to include pressure sensor and kinematic parameter In the wearable electronic equipment of detection sensor, when the wearable electronic equipment is worn on the whole body body region of a user, The described method includes:

The first atmospheric pressure value for obtaining the user at the first moment in first environment is detected by the pressure sensor, with And detection obtains the second atmospheric pressure value of the second environment where the user at the second moment after first moment；

It is obtained between first moment and second moment by kinematic parameter detection sensor detection For characterizing at least one kinematic parameter of the motion state of the user；

Based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine the user Current kinetic type.

I.e. in this application, it is provided with pressure sensor simultaneously in wearable electronic equipment and object fortune can be obtained All kinds of kinematic parameter detection sensors of dynamic parameter, the pneumatic parameter and fortune of object current kinetic are acquired by the sensor Dynamic parameter determines the current type of sports of object jointly, thus it is possible to effective solution is in the prior art, wearable electronic equipment There are the technical problems of object type of sports judgement inaccuracy, have the technical effect for capableing of accurate judgement object of which movement type.

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical solution of the present invention is clearly and completely described, it is clear that described embodiment is skill of the present invention A part of the embodiment of art scheme, instead of all the embodiments.Based on the embodiment recorded in present specification, this field is general Logical technical staff every other embodiment obtained without creative efforts, belongs to the technology of the present invention side The range of case protection.

Embodiment one

Referring to FIG. 1, a kind of method of the detection object type of sports provided for the embodiment of the present application one, the method are answered For in the wearable electronic equipment including pressure sensor and kinematic parameter detection sensor, the wearable electronic equipment to be worn The whole body body region of Dai Yuyi user, which comprises

S101: the first air pressure for obtaining the user at the first moment in first environment is detected by the pressure sensor Value, and detection obtain the second air pressure of the second environment where the user at the second moment after first moment Value；

S102: by kinematic parameter detection sensor detection obtain first moment and second moment it Between for characterize the user motion state at least one kinematic parameter；

S103: it is based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine institute State the current kinetic type of user.

In the specific implementation process, the wearable electronic equipment in the method for above-mentioned detection object type of sports is provided with pressure Force snesor and kinematic parameter detection sensor, wearable electronic equipment can be specially wrist-watch, the helmet, bracelet, wrist-watch etc., It is just not listed one by one herein, in the embodiment of the present application, by taking wearable electronic equipment is specially wrist-watch as an example, to the application The specific implementation process of method in embodiment is described in detail.

When carrying out the detection of object of which movement type using the method in the embodiment of the present application, step S101 is first carried out, i.e., The first atmospheric pressure value for obtaining the user at the first moment in first environment is detected by the pressure sensor, and detection obtains Obtain the second atmospheric pressure value of the second environment where the user at the second moment after first moment.

In the specific implementation process, continuing with above-mentioned example is continued to use, in practical applications, pressure sensor and kinematic parameter Detection sensor can be arranged in simultaneously on the watchband of wrist-watch, can also be arranged in simultaneously on the dial plate of wrist-watch, certainly can be with It is separately positioned on the watchband and dial plate of wrist-watch, in the present embodiment, specifically with pressure sensor and kinematic parameter detection sensing Device is arranged in for the dial plate of wrist-watch simultaneously, and during concrete practice, kinematic parameter detection sensor can be specially to accelerate Sensor is spent, gyroscope sensor etc. can obtain one of sensor of object of which movement parameter or a variety of, here, with setting For motion sensor on Watch dail plate is specially acceleration transducer, and referring to FIG. 2, to be provided with pressure sensing The structural schematic diagram of the wrist-watch of device, acceleration transducer and gyroscope sensor, in Fig. 2, mark 1 representative pressure sensing Device, mark 2 represent acceleration transducer, and mark 3 represents gyroscope sensor.

In practical applications, wrist-watch can be worn on right finesse or is worn at left finesse by user, here with by wrist-watch For being worn at the right finesse of user, then, when user is kept in motion, wrist-watch can be by the pressure that is disposed therein Force snesor detects under current time, the gas pressure intensity size that wrist-watch is subject in its position, here, in order to describe It is convenient, it will be known as the first moment current time, the first moment, corresponding wrist-watch present position was known as first position, that is, wrist-watch Be in first position at the first moment, and at first position by gas pressure size be first pressure, likewise, wrist-watch In pressure sensor can also detect that next moment after current time can be described as the second moment here, wrist-watch is At two positions by gas pressure size be second pressure.Certainly, in practical applications, those skilled in the art can root According to actual needs, the flexible frequency that pressure sensor detection in wrist-watch is arranged does not do any restrictions herein.

After executing completion step S101, the method in the embodiment of the present application just executes step S102, i.e., by described The detection of kinematic parameter detection sensor is obtained to be used to characterize the user between first moment and second moment Motion state at least one kinematic parameter.

In the specific implementation process, continuing with continuing to use above-mentioned example, due to be also provided in wrist-watch acceleration transducer and Gyroscope sensor, so, wrist-watch can also detect that wrist-watch moves at the first moment from first position by acceleration transducer When to the second position at the second moment, the variation of the angular speed of the variation and wrist-watch of the acceleration of wrist-watch, for example, wrist-watch is from One position moves to during the second position at the second moment, and acceleration direction is consistent with acceleration of gravity direction i.e. towards ground Straight down, acceleration magnitude is equal to the size of acceleration of gravity, and there is no variations by angle rates.

For another example, during the second position that first position moved to for the second moment, acceleration direction adds wrist-watch with gravity Directional velocity deviates from ground straight up on the contrary, and acceleration magnitude is in a smaller range such as varies with sinusoidal function, angle Speed to the right with 3 Radian per seconds rotation, for another example, wrist-watch during the second position that first position moved to for the second moment, Acceleration direction first straight up, after straight down, acceleration magnitude also in a smaller range such as varies with sinusoidal function, Angular speed is according to rotation of 3 Radian per seconds to right after to left etc..

Certainly, in practical applications, if a motion sensor is only provided in wrist-watch, correspondingly, wrist-watch is at one Just only a kinematic parameter can be detected in carving, for example, acceleration transducer is only provided in wrist-watch, then, wrist-watch is first Moment is only able to detect the variation of acceleration when being at first position, and can't detect other kinematic parameters such as angular speed Variation.

After executing completion step S102, the method in the embodiment of the present application just executes step S103, i.e., based on described First atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine the current kinetic type of the user.

In the specific implementation process, continuing with above-mentioned example is continued to use, pass through the pressure sensor being disposed therein in wrist-watch, Acceleration transducer and gyroscope sensor detect that wrist-watch is in the first pressure suffered by first position at the first moment By force, wrist-watch is in the second pressure suffered by the second position and wrist-watch at the second moment and is in first position at the first moment It moves to during the second position at the second moment after the variation of acceleration and the variation of angular speed, wrist-watch can basis These numbers detected determine which kind of type of sports user is presently at, and in practical applications, step S103 can pass through Following manner specific implementation:

Referring to FIG. 3, being the specific implementation of step S103:

S1031: being based on first atmospheric pressure value and second atmospheric pressure value, determines at first moment to described second Air pressure change value between moment；

S1032: it is based on the air pressure change value, determines the user at first moment between second moment Height change value；

S1033: the current kinetic of the user is determined based on the height change value and at least one described kinematic parameter Type.

During specific embodiment, continue to continue to use above-mentioned example, detects acquisition wrist-watch in wrist-watch and be at the first moment First pressure and wrist-watch suffered by first position are when being in the second pressure suffered by the second position at the second moment, hand Table can calculate, and wrist-watch moves to the second place at the second moment at the first moment at first position, suffered by wrist-watch The pressure change amount of air pressure pressure, for example, when the second pressure values are 10Pa, wrist-watch is at first when the first pressure values are 20Pa The second place for moving to for the second moment from first position is carved, air pressure pressure suffered by wrist-watch just reduces 10Pa, namely pressure Strong changing value is negative 10Pa；When the first pressure values are 20Pa, and the second pressure values are 25Pa, wrist-watch is at the first moment from first The place of setting moves to the second place at the second moment, and air pressure pressure suffered by wrist-watch increases 5Pa namely pressure change value is positive 5Pa。

Then, wrist-watch can be according to calculated pressure change amount, when calculating the user for wearing the wrist-watch from first Moving to for the second moment quarter, user's right hand moves how high distance with respect to ground, specifically, when the first pressure values are 20Pa, When second pressure values are 10Pa, it is assumed that it is 1m that the first pressure values, which are the corresponding user's right hand of 20Pa with respect to ground level, and second presses Intensity values are that correspond to user's right hand with respect to the first face height be 0.3m to 10Pa, then, wrist-watch is transported at first position at the first moment It moves to the second place at the second moment, air pressure pressure suffered by wrist-watch reduces 10Pa, just corresponds to user's right hand at first It carves from the position apart from ground 1m high and has moved to position of second moment apart from ground 0.3m high, highly reduce 0.7m, That is the 0.7m that is positive of height change value.

In practical applications, since using for user just will lead to height of the physical feeling such as right hand of user relative to ground Degree changes, so, user's right hand has moved to the second moment distance ground from the position apart from ground 1m high at the first moment The position of face 0.3m high also just represents position of the user from the first moment apart from ground 1m high and has moved to the second moment distance The position of ground 0.3m high namely user moved to for the second moment from the first moment, and the height apart from ground reduces 0.7m.

Specifically, when the first pressure values are 20Pa, when the second pressure values are 25Pa, it is assumed that the first pressure values are corresponding for 20Pa User's right hand with respect to ground level be 1m, the second pressure values are that correspond to user's right hand with respect to the first face height be 1.5m to 25Pa, So, wrist-watch moves to the second place at the second moment at the first moment at first position, and air pressure pressure suffered by wrist-watch increases 5Pa is added, has just corresponded to user's right hand at the first moment and moved to the second moment distance ground from the position apart from ground 1m high The position of face 1.5m high highly increases the 0.5m that 0.5m namely height change value are positive.

In practical applications, since using for user just will lead to height of the physical feeling such as right hand of user relative to ground Degree changes, so, user's right hand has moved to the second moment distance ground from the position apart from ground 1m high at the first moment The position of face 1.5m high also just represents position of the user from the first moment apart from ground 1m high and has moved to the second moment distance The position of ground 1.5m high namely user moved to for the second moment from the first moment, and the height apart from ground increases 0.5m.

So, wrist-watch carries out step S1033: true based on the height change value and at least one described kinematic parameter The current kinetic type of the fixed user, namely moved to for the second moment from the first moment obtaining user, apart from ground After height change, it will be able to according to the variation of the variation of user movement height change value and acceleration and angular speed, determine and use The type of family current kinetic.

Referring to FIG. 4, in practical applications, step S1033 can be implemented in the following manner:

S201: determining that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration When angle value, determine that the current kinetic type of the user is to drop to movement or falling motion；

S202: the height change value is being determined to be lower by height or being got higher by low, and at least one described kinematic parameter For rule variation at least one acceleration value when, determine the user current kinetic type be go upstairs movement or go downstairs Movement；

S203: determine the height change value in a preset height changing value, and at least one described kinematic parameter For rule variation at least one acceleration value when, determine the user current kinetic type be less than in a height above sea level it is pre- If walk movement or road-work in the region in difference in height.

During specific embodiment, continue to continue to use above-mentioned example, specifically, wrist-watch determines that user transports from the first moment It moves to the second moment, is moved to from the position 1m apart from ground at the position 0.3m of ground namely user distance ground Position is lower by height, it is assumed that during being moved at the position 1m on user distance ground at the position 0.3m of ground, hand The variation (namely variation of the acceleration of wrist-watch) for user's acceleration that acceleration transducer detects in table are as follows: acceleration direction It is consistent with acceleration of gravity direction i.e. towards ground straight down, acceleration magnitude the first moment to the second moment this when Between in section, only rare its value of a bit of time is equal to the size of acceleration of gravity, the use that gyroscope sensor detects in wrist-watch The variation (namely variation of the angular speed of wrist-watch) of family angular speed are as follows: angle rates are there is no changing, and above-mentioned distance change, Acceleration change and angular speed variation meet the rule for dropping to movement or falling motion, so, mobile phone is assured that user It is to drop to movement or falling motion from the first moment to the type of sports at the second moment.

Certainly, in practical applications, step can also be performed after executing the step S201 in wrist-watch:

It obtains the current location information of the user, and produces one for characterizing that the user dropped to comprising institute The prompt information of current location information is stated, and the prompt information is sent to the terminal device of the relatives of the user.

That is, wrist-watch can also obtain after wrist-watch determines that user's current kinetic type is to drop to movement or falling motion Wrist-watch is presently in geographical location information, in practical applications, can be by installing map app in wrist-watch, or in wrist-watch The modes such as the sensor that can obtain geographical location are set, Lai Shixian wrist-watch obtains the geographical location information on the locating ground of wrist-watch, This does not just do and excessively discusses, and after wrist-watch, which obtains wrist-watch, is presently in geographical location information, wrist-watch can be generated including this Geographical location information and indicate user's current kinetic type be drop to movement prompt information, such as generate as " central plaza, Drop to " short message.Then, the short message of generation will be sent to and the wrist-watch by wrist-watch by the information transmitting unit inside wrist-watch The terminal devices such as the wrist-watch or mobile phone of the user relatives being wirelessly connected, to notify user relatives at the first time.

Certainly, in practical applications, wrist-watch can also execute step after executing the step S201:

It obtains the current location information of the user, and generates one for characterizing that the user fallen comprising institute The medical help information of current location information is stated, and the medical help information is sent to from described when location information is corresponding The nearest hospital in current location.

That is, wrist-watch can also obtain after wrist-watch determines that user's current kinetic type is to drop to movement or falling motion Wrist-watch is presently in geographical location information, in practical applications, can be by installing map app in wrist-watch, or in wrist-watch The modes such as the sensor that can obtain geographical location are set, Lai Shixian wrist-watch obtains the geographical location information on the locating ground of wrist-watch, This does not just do and excessively discusses, and after wrist-watch acquisition table is presently in geographical location information, wrist-watch can be generated including the ground Reason location information and expression user's current kinetic type are to drop to the medical help information of movement, such as generate such as " railway station Western square, drops to " short message.Then, the short message of generation will be sent to by wrist-watch by the information transmitting unit inside wrist-watch The terminal of the hospital nearest apart from wrist-watch current location, to achieve the purpose that give treatment in time.In practical applications, wrist-watch can be with The termination number that the hospital nearest apart from current location is obtained by cloud network, certainly can also by other means, herein Just be not listed one by one.

Specifically, wrist-watch determines that user moved to for the second moment from the first moment, transported from the position 1m apart from ground It moves at the position 0.3m of ground namely the position on user distance ground is lower by height, and the position 1m on user distance ground During the place of setting moves at the position 0.3m of ground, the change for user's acceleration that acceleration transducer detects in wrist-watch Turn to: acceleration direction straight down, acceleration magnitude in this period at the first moment to the second moment, it is big after first small or It is first big after small, and in one compared within the scope of fractional value, as acceleration magnitude in 0.1m/s to 0.5m/s it is first small after it is big or first It is small after big, and the variation of angle rates are as follows: angular speed is rotated with 3 Radian per seconds to the right, and above-mentioned distance change, acceleration change And angular speed variation meets and drops to laws of motion of going downstairs, so, mobile phone is assured that user from the first moment to the The type of sports at two moment is movement of going downstairs.

Specifically, wrist-watch determines that user moved to for the second moment from the first moment, transported from the position 1m apart from ground It moves at the position 1.5m of ground namely the position on user distance ground is got higher by low, and the position 1m on user distance ground During the place of setting moves at the position 1.5m of ground, the change for user's acceleration that acceleration transducer detects in wrist-watch Turn to: acceleration direction straight up, acceleration magnitude in this period at the first moment to the second moment, it is big after first small or It is first big after small, and in one compared within the scope of fractional value, as acceleration magnitude in 0.1m/s to 0.5m/s it is first small after it is big or first It is small after big, and the variation of angle rates are as follows: angular speed is rotated to the left with 3 Radian per seconds, and above-mentioned distance change, acceleration change And angular speed variation meets and drops to laws of motion of going upstairs, so, mobile phone is assured that user from the first moment to the The type of sports at two moment is movement of going upstairs.

Specifically, wrist-watch determines that user moved to for the second moment from the first moment, transported from the position 1m apart from ground Move at the position 1.5m of ground namely height change within the scope of preset 0.1m-0.6m (it is assumed that for being in away When road transport is dynamic or is in road-work, the height change apart from ground is within the scope of 0.1m-0.6m), and user distance ground During being moved at the position 1m at the position 1.5m of ground, acceleration transducer detects in wrist-watch user's acceleration Variation are as follows: acceleration direction first straight up, after straight down or first straight down, after straight up, acceleration magnitude Also in a smaller range (such as 0.6m/s to 0.9m/s, the range meet on foot movement or road-work acceleration magnitude) such as Varies with sinusoidal function, angular speed is rotated according to right after to left or first right rear left with 3 Radian per seconds, and above-mentioned distance change, Acceleration change and angular speed variation, which meet, to be dropped to move on foot or the rule of road-work, so, mobile phone is assured that User is walk movement or road-work from the first moment to the type of sports at the second moment.

Embodiment two

Based on inventive concept same as the embodiment of the present application one, the embodiment of the present application two provides a kind of wearable electronics and sets It is standby, referring to FIG. 5, including:

Apparatus body 4；

Fixed body 5, including the first end 51 of 4 first position of apparatus body is arranged in and is arranged in the apparatus body The second end 52 opposite with the first end 51 of 4 second positions can be set the wearable electronics by the fixed body 5 Standby fixed wearing is in the whole body body region of a user；

Pressure sensor (is not drawn into) in figure, is arranged on the apparatus body or the fixed body；

Kinematic parameter detection sensor (is not drawn into) in figure, is arranged on the apparatus body or the fixed body；

Processor (is not drawn into) in figure, is connect with the pressure sensor and the kinematic parameter detection sensor；

Wherein, the first gas of first environment where the pressure sensor is used to detect the user for obtaining for the first moment Pressure value, and detection obtain the second air pressure of the second environment where the user at the second moment after first moment Value；

The kinematic parameter detection sensor obtains between first moment and second moment for detecting For characterizing at least one kinematic parameter of the motion state of the user；

The processor is used to be based on first atmospheric pressure value, second atmospheric pressure value and at least one described movement ginseng Number, determines the current kinetic type of the user.

In the specific implementation process, above-mentioned wearable electronic equipment can be specially wrist-watch, the helmet, bracelet, wrist-watch etc., if Setting in above-mentioned wearable electronic equipment kinematic parameter detection sensor can be acceleration transducer, in gyroscope sensor etc. It is one or more, it is to be understood that those skilled in the art can be specifically chosen according to actual needs, herein not It is limited.

Optionally, the processor, comprising:

First determination unit is determined for being based on first atmospheric pressure value and second atmospheric pressure value at described first Air pressure change value between quarter and second moment；

Second determination unit determines the user at first moment and described for being based on the air pressure change value Height change value between second moment；

Third determination unit determines the use for being based on the height change value and at least one described kinematic parameter The current kinetic type at family.

Optionally, the third determination unit, is specifically used for:

Determining that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration value When, determine the current kinetic type of the user for movement or the falling motion of falling；

Determining that the height change value is to be lower by height or got higher by low, and at least one described kinematic parameter is rule When at least one acceleration value of variation, determine that the current kinetic type of the user is go upstairs movement or movement of going downstairs；

Determine the height change value in a preset height changing value, and at least one described kinematic parameter be rule When at least one acceleration value of variation, determine that the current kinetic type of the user is to be less than default height in an altitude difference Walk movement or road-work in region in degree difference.

Optionally, the equipment further includes prompt information unit, is connected to the processor, for described in the determination Height change value be lower by height, and at least one described kinematic parameter be gravity acceleration value when, determine working as the user Preceding type of sports is to obtain the current location information of user after falling movement or falling motion, and generate one for characterizing The prompt information comprising the current location information that the user has fallen, and the prompt information is sent to the use The terminal device of the relatives at family.

Optionally, the equipment further includes that medical treatment is sought help unit, is connected to the processor, for described in the determination Height change value be lower by height, and at least one described kinematic parameter be gravity acceleration value when, determine working as the user Preceding type of sports is to obtain the current location information of user after falling movement or falling motion, and generate one for characterizing The medical help information comprising the current location information that the user has fallen, and the medical help information is sent To from the hospital nearest when the corresponding current location of location information.

Said one or multiple technical solutions in the embodiment of the present application at least have following one or more technology effects Fruit:

Due to the wearable electronic equipment in the embodiment of the present application, using includes apparatus body；Fixed body, including setting The apparatus body first position first end and the opposite with the first end of the apparatus body second position is set Second end, can be worn the wearable electronic equipment is fixed in the whole body body region of a user by the fixed body； Pressure sensor is arranged on the apparatus body or the fixed body；Kinematic parameter detection sensor is arranged in the equipment On ontology or the fixed body；Processor is connect with the pressure sensor and the kinematic parameter detection sensor；Wherein, First atmospheric pressure value of first environment where the pressure sensor is used to detect the user for obtaining for the first moment, and detection obtain Obtain the second atmospheric pressure value of the second environment where the user at the second moment after first moment；The movement ginseng Number detection sensor is used to detect to obtain and is used to characterize the user's between first moment and second moment At least one kinematic parameter of motion state；The processor is used to be based on first atmospheric pressure value, second atmospheric pressure value and institute At least one kinematic parameter is stated, determines the technical solution of the current kinetic type of the user.

I.e. in this application, it is provided with pressure sensor simultaneously in wearable electronic equipment and object fortune can be obtained All kinds of kinematic parameter detection sensors of dynamic parameter, the pneumatic parameter and fortune of object current kinetic are acquired by the sensor Dynamic parameter determines the current type of sports of object jointly, thus it is possible to effective solution is in the prior art, wearable electronic equipment There are the technical problems of object type of sports judgement inaccuracy, have the technical effect for capableing of accurate judgement object of which movement type.

It should be understood by those skilled in the art that, the embodiment of the present invention can provide as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention Apply the form of example.Moreover, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more, The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces The form of product.

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

Specifically, the corresponding computer program instructions of method of the detection object type of sports in the embodiment of the present application can To be stored in CD, hard disk, on the storage mediums such as USB flash disk, when the computer corresponding with information processing method in storage medium Program instruction is read or is performed by an electronic equipment, includes the following steps:

The first atmospheric pressure value for obtaining the user at the first moment in first environment is detected by the pressure sensor, with And detection obtains the second atmospheric pressure value of the second environment where the user at the second moment after first moment；

It is obtained between first moment and second moment by kinematic parameter detection sensor detection For characterizing at least one kinematic parameter of the motion state of the user；

Based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter determine the user Current kinetic type.

Optionally, stored in the storage medium and step: described to be based on first atmospheric pressure value, second air pressure Value and at least one described kinematic parameter determine the current kinetic type of the user, and corresponding computer instruction is specifically being held During row, specifically include:

Based on first atmospheric pressure value and second atmospheric pressure value, determine first moment to second moment it Between air pressure change value；

Based on the air pressure change value, determine the user at first moment to the height between second moment Changing value；

The current kinetic type of the user is determined based on the height change value and at least one described kinematic parameter.

Optionally, stored in the storage medium and step: described to be based on the height change value and described at least one A kinematic parameter determines the current kinetic type of the user, and corresponding computer instruction is specific to wrap in specific implementation procedure It includes:

Determining that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration value When, determine that the current kinetic type of the user is to drop to movement or falling motion；

Determining that the height change value is to be lower by height or got higher by low, and at least one described kinematic parameter is rule When at least one acceleration value of variation, determine that the current kinetic type of the user is go upstairs movement or movement of going downstairs；

Determine the height change value in a preset height changing value, and at least one described kinematic parameter be rule When at least one acceleration value of variation, determine that the current kinetic type of the user is to be less than preset height in a height above sea level Walk movement or road-work in region in difference.

Optionally, other computer program instructions are also stored in the storage medium, the other computer Program instruction is with step: described to determine that the height change value is to be lower by height, and at least one described kinematic parameter is When gravity acceleration value, determines that the current kinetic type of the user is to drop to after movement or falling motion be performed, execute Include the following steps: in the process

It obtains the current location information of the user, and produces one for characterizing that the user dropped to comprising institute The prompt information of current location information is stated, and the prompt information is sent to the terminal device of the relatives of the user.

Optionally, other computer program instructions are also stored in the storage medium, the other computer Program instruction is with step: described to determine that the height change value is to be lower by height, and at least one described kinematic parameter is When gravity acceleration value, determines that the current kinetic type of the user is to drop to after movement or falling motion be performed, execute Include the following steps: in the process

It obtains the current location information of the user, and generates one for characterizing that the user fallen comprising institute The medical help information of current location information is stated, and the medical help information is sent to from described when location information is corresponding The nearest hospital in current location.

Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the scope of the invention.

Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to include these modifications and variations.

Claims (4)

1. a kind of method of detection object type of sports, which is characterized in that the method is applied to include pressure sensor and fortune In the wearable electronic equipment of dynamic parameter detecting sensor, when the wearable electronic equipment is worn on the body portion of a user When position, which comprises

First atmospheric pressure value of the user for obtaining for the first moment in first environment, Yi Jijian are detected by the pressure sensor Survey the second atmospheric pressure value of the second environment where the user for obtaining the second moment after first moment；

It is obtained by kinematic parameter detection sensor detection and is used between first moment and second moment Characterize at least one kinematic parameter of the motion state of the user；

Based on first atmospheric pressure value and second atmospheric pressure value, determine at first moment between second moment Air pressure change value；

Based on the air pressure change value, determine the user at first moment to the height change between second moment Value；

The current kinetic type of the user is determined based on the height change value and at least one described kinematic parameter:

Determining that the height change value is to be lower by height, and when at least one described kinematic parameter is gravity acceleration value, really The current kinetic type of the fixed user is to drop to movement or falling motion；

Determining that the height change value is to be lower by height or got higher by low, and at least one described kinematic parameter is rule variation At least one acceleration value when, determine the user current kinetic type be go upstairs movement or movement of going downstairs；

Determine the height change value in a preset height changing value, and at least one described kinematic parameter be rule variation At least one acceleration value when, determine the user current kinetic type be a height above sea level be less than preset height difference in Region in walk movement or road-work；

Wherein, described to determine that the height change value is to be lower by height, and at least one described kinematic parameter is gravity acceleration When angle value, determine that the current kinetic type of the user is to drop to after movement or falling motion, the method also includes:

It obtains the current location information of the user, and generates one and work as characterize that the user dropped to comprising described The prompt information of front position information, and the prompt information is sent to the terminal device of the relatives of the user.

2. the method as described in claim 1, which is characterized in that it is described determine the height change value be lower by height, and At least one described kinematic parameter be gravity acceleration value when, determine the user current kinetic type be drop to movement or under It falls after movement, the method also includes:

It obtains the current location information of the user, and generates one and work as characterize that the user fallen comprising described The medical help information of front position information, and the medical help information is sent to work as corresponding from the current location information The nearest hospital in front position.

3. a kind of wearable electronic equipment, comprising:

Apparatus body；

Fixed body, including the first end of the apparatus body first position is arranged in and is arranged in the apparatus body second position The second end opposite with the first end, can be worn the wearable electronic equipment is fixed in one by the fixed body The whole body body region of user；

Pressure sensor is arranged on the apparatus body or the fixed body；

Kinematic parameter detection sensor is arranged on the apparatus body or the fixed body；

Processor is connect with the pressure sensor and the kinematic parameter detection sensor；

Wherein, the first air pressure of first environment where the pressure sensor is used to detect the user for obtaining for the first moment Value, and detection obtain the second air pressure of the second environment where the user at the second moment after first moment Value；

The kinematic parameter detection sensor is used between first moment and second moment for detecting acquisition Characterize at least one kinematic parameter of the motion state of the user；

The processor is used to be based on first atmospheric pressure value, second atmospheric pressure value and at least one described kinematic parameter, really The current kinetic type of the fixed user；

Wherein, the processor, comprising:

First determination unit, for being based on first atmospheric pressure value and second atmospheric pressure value, determine at first moment and Air pressure change value between second moment；

Second determination unit determines the user at first moment and described second for being based on the air pressure change value Height change value between moment；

Third determination unit determines the user's for being based on the height change value and at least one described kinematic parameter Current kinetic type, and for determining that the height change value is to be lower by height, and at least one described kinematic parameter is When gravity acceleration value, determine that the current kinetic type of the user for movement or the falling motion of falling, is determining the height Changing value is to be lower by height or got higher by low, and at least one described kinematic parameter is at least one acceleration value of rule variation When, it determines that the current kinetic type of the user is go upstairs movement or movement of going downstairs, is determining that the height change value exists In one preset height changing value, and at least one described kinematic parameter be rule variation at least one acceleration value when, determine The current kinetic type of the user is that walking in the region that an altitude difference is less than in preset height difference moves or run Step movement；

Including prompt information unit, it is connected to the processor, for being to be lower by height in the determination height change value, And at least one described kinematic parameter is when being gravity acceleration value, determine the current kinetic type of the user for fall movement or After falling motion, the current location information of user is obtained, and generate one and include for characterize that the user fallen The prompt information of the current location information, and the prompt information is sent to the terminal device of the relatives of the user.

4. equipment as claimed in claim 3, which is characterized in that the equipment further includes that medical treatment is sought help unit, with the processing Device connection, for being to be lower by height, and at least one described kinematic parameter adds for gravity in the determination height change value When velocity amplitude, after determining the current kinetic type of the user as fall movement or falling motion, the present bit of user is obtained Confidence breath, and one is generated for characterizing the medical appeal letter comprising the current location information that the user has fallen Breath, and the medical help information is sent to the nearest hospital in current location corresponding from the current location information.