CN105606262B - A kind of information processing method and electronic equipment - Google Patents
A kind of information processing method and electronic equipment Download PDFInfo
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- CN105606262B CN105606262B CN201510977471.2A CN201510977471A CN105606262B CN 105606262 B CN105606262 B CN 105606262B CN 201510977471 A CN201510977471 A CN 201510977471A CN 105606262 B CN105606262 B CN 105606262B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01L—MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE
- G01L1/00—Measuring force or stress, in general
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D21/00—Measuring or testing not otherwise provided for
- G01D21/02—Measuring two or more variables by means not covered by a single other subclass
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N15/00—Investigating characteristics of particles; Investigating permeability, pore-volume, or surface-area of porous materials
- G01N15/08—Investigating permeability, pore-volume, or surface area of porous materials
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N3/08—Investigating strength properties of solid materials by application of mechanical stress by applying steady tensile or compressive forces
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N3/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N3/56—Investigating resistance to wear or abrasion
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
- G01N33/0004—Gaseous mixtures, e.g. polluted air
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2203/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N2203/0001—Type of application of the stress
- G01N2203/0003—Steady
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2203/00—Investigating strength properties of solid materials by application of mechanical stress
- G01N2203/0014—Type of force applied
- G01N2203/0016—Tensile or compressive
- G01N2203/0017—Tensile
Abstract
The invention discloses a kind of information processing method and electronic equipments, the method is applied in a wearable device, the described method includes: obtaining at least one state parameter of the detected wearable device of detection unit via the wearable device, wherein, the wearable device includes wearing main body, and be arranged in the wearing main body comprising at least two electronic components including processing unit and the detection unit, at least one described state parameter is parameter corresponding with the wearing main body;Based at least one described state parameter, the current state of the wearing main body is obtained, wherein the current state characterizes the degree of perfection of the wearing main body.For solving the technical issues of wearable electronic equipment in the prior art can not detect the current state of wearing main body, the technical effect for obtaining the state of wearing main body of wearable electronic equipment in real time is realized.
Description
Technical field
The present invention relates to electronic technology field, in particular to a kind of information processing method and electronic equipment.
Background technique
With the continuous development of science and technology, electronic technology has also obtained development at full speed, more and more wearable electricity
Sub- equipment, such as intelligent spire lamella, smartwatch, intelligent shoe, have been increasingly becoming people's lives necessity.In order to improve user's body
It tests, the function of electronic equipment is also more and more.
In the prior art, wearable electronic equipment can pass through the parameter to the user's progress for dressing the electronic equipment
Detection obtains some characteristic informations of user, and then generates corresponding control instruction, completes the operation that user specifies.However, electric
Sub- equipment can be only done the infomation detection to user, such as motion state, the operating gesture of detection user, or obtain electronic equipment
Electronic component state, for example, the electricity of electronic equipment, operating status of CPU (central processing unit) etc., can not but know electricity
The oneself state of sub- equipment body, for example, the gas permeability of the abrasion condition of smartwatch shell, intelligent shoe, water resistance, whether having
Damage, if need to clean etc..
As it can be seen that the technology that wearable electronic equipment in the prior art can not detect the current state of wearing main body
Problem.
Summary of the invention
The bright embodiment of the application provides a kind of information processing method, is applied in a wearable device, existing for solving
The technical issues of wearable electronic equipment in technology can not detect the current state of wearing main body, realizes and obtains in real time
The technical effect of the state of the wearing main body of wearable electronic equipment.
On the one hand the embodiment of the present application provides a kind of information processing method, be applied in a wearable device, including with
Lower step:
Obtain at least one shape of the detected wearable device of detection unit via the wearable device
State parameter, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit
And at least two electronic components including the detection unit, at least one described state parameter are corresponding with the wearing main body
Parameter;
Based at least one described state parameter, the current state of the wearing main body is obtained, wherein the current state
Characterize the degree of perfection of the wearing main body.
Optionally, the detection unit detected wearable device obtained via the wearable device
At least one state parameter, comprising:
It obtains current value of thrust that the first position was born at current time and corresponding with the current value of thrust works as
Preceding duration, and at least one value of thrust for being born before the current time and at least one described value of thrust
The corresponding duration of each value of thrust;
Correspondingly, described based at least one described state parameter, obtain the current state of the wearing main body, comprising:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and
The corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
Optionally, the detection unit detected wearable device obtained via the wearable device
At least one state parameter, comprising:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, described based at least one described state parameter, obtain the current state of the wearing main body, comprising:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
Optionally, the detection unit detected wearable device obtained via the wearable device
At least one state parameter, comprising:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or current sky are obtained
Temperature degree;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
Optionally, the detection unit detected wearable device obtained via the wearable device
At least one state parameter, comprising:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
Optionally, the detection unit detected wearable device obtained via the wearable device
At least one state parameter, comprising:
When the wearing main body has a cavity, the intracorporal current air mass value of the chamber and/or the chamber are obtained
Intracorporal pollution level value;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
Optionally, described based at least one described state parameter, after the current state for obtaining the wearing main body,
The method also includes:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described for adjusting
The operating member of current state;
Generate adjustment instruction corresponding with the operating member.
Optionally, the determination current state whether be characterize the wearing main body be in state to be adjusted it
Afterwards, the method also includes:
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generate
Prompting message.
On the other hand the embodiment of the present application provides a kind of electronic equipment, comprising:
First acquisition unit, it is detected described wearable via the detection unit of the wearable device for obtaining
At least one state parameter of equipment, wherein the wearable device includes wearing main body, and is arranged in the wearing main body
On comprising at least two electronic components including processing unit and the detection unit, at least one described state parameter be with
The corresponding parameter of the wearing main body;
Second acquisition unit, for obtaining the current state of the wearing main body based at least one described state parameter,
Wherein, the current state characterizes the degree of perfection of the wearing main body.
The embodiment of the present application also provides a kind of electronic equipment, comprising:
Shell;
Sensor is arranged in the shell, at least one state for the detected wearable device is joined
Number, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit and institute
At least two electronic components including detection unit are stated, at least one described state parameter is ginseng corresponding with the wearing main body
Number;
Processor is arranged in the shell, for obtaining the wearing main body based at least one described state parameter
Current state, wherein the current state characterize it is described wearing main body degree of perfection.
Optionally, the sensor is specifically used for:
It obtains current value of thrust that the first position was born at current time and corresponding with the current value of thrust works as
Preceding duration, and at least one value of thrust for being born before the current time and at least one described value of thrust
The corresponding duration of each value of thrust;
Correspondingly, the processor is specifically used for:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and
The corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
Optionally, the sensor is specifically used for:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, the processor is specifically used for:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
Optionally, the sensor is specifically used for:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or current sky are obtained
Temperature degree;
Correspondingly, the processor is specifically used for:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
Optionally, the sensor is specifically used for:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, the processor is specifically used for:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
Optionally, the sensor is specifically used for:
When the wearing main body has a cavity, the intracorporal current air mass value of the chamber and/or the chamber are obtained
Intracorporal pollution level value;
Correspondingly, the processor is specifically used for:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
Optionally, the processor is also used to:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described for adjusting
The operating member of current state;
Generate adjustment instruction corresponding with the operating member.
Optionally, the processor is also used to:
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generate
Prompting message.
Said one or multiple technical solutions in the embodiment of the present application at least have following one or more technology effects
Fruit:
One, due to the technical solution in the embodiment of the present application, using the detection unit obtained via the wearable device
At least one state parameter of the detected wearable device, wherein the wearable device includes wearing main body, with
And be arranged in the wearing main body comprising at least two electronic components including processing unit and the detection unit, it is described
At least one state parameter is parameter corresponding with the wearing main body;Based at least one described state parameter, described in acquisition
Dress the current state of main body, wherein the current state characterizes the technological means of the degree of perfection of the wearing main body, this
Sample, wearable device can obtain in real time the current device parameter of equipment body by detection unit, such as obtain the shoe body of intelligent shoe
The pulling force currently born, the sole damage situations for obtaining intelligent shoe etc., and can be worn based on the determination of the equipment body parameter of acquisition
The integrity of formula equipment is worn, such as whether there is damage, if in the state etc. that can guarantee user's comfort, to effectively solve
The technical issues of wearable electronic equipment in the prior art can not detect the current state of wearing main body, realizes
The technical effect of the state of the wearing main body of wearable electronic equipment is obtained in real time.
Two, it due to the technical solution in the embodiment of the present application, is born using the acquisition first position at current time
Current value of thrust and existing continuous duration corresponding with the current value of thrust, and bore before the current time to
A few value of thrust and duration corresponding with value of thrust each at least one described value of thrust;And obtain described first
Preset value of thrust, duration and the resistance to corresponding relationship for drawing performance at position;And based on the current value of thrust, described work as
Preceding duration, at least one described value of thrust, the duration and the corresponding relationship obtain working as the wearing main body
The preceding resistance to technological means for drawing performance state, in this way, wearable device can obtain the value of thrust of equipment body key position in real time
And the corresponding duration of each value of thrust, such as the pulling force parameter of the sole of intelligent shoe, vamp, and bonding apparatus main body is intrinsic
Pulling force characteristic curve carry out comprehensive analysis, thus realize obtain wearable device it is current it is resistance to draw performance technical effect.
Three, due to the technical solution in the embodiment of the present application, whether a default item is met using the determination current state
Part;When determining that the current state meets the preset condition, determined based on the current state described current for adjusting
The operating member of state;The technological means for generating adjustment instruction corresponding with the operating member, in this way, when wearable device obtains
After taking the current state of equipment body, the current resistance to drawing performance number as intelligent shoe obtains sole is 40%, and at this moment, intelligent shoe can be certainly
It is dynamic to judge whether current resistance to drawing performance number meets preset condition, such as whether in range to be adjusted, when judging result shows
When intelligent shoe is in range to be adjusted at this time, it is determined that the resistance to operating member for drawing performance of adjustment, such as shoestring generate adjustment shoestring
The control instruction of elasticity, realizing in real time to imitate the technology that equipment is adjusted according to the current state of equipment body
Fruit.
Four, due to the technical solution in the embodiment of the present application, using determining that it is described default that the current state is unsatisfactory for
When condition, based at least one described state parameter, the technological means of prompting message is generated, in this way, when wearable device determines
When the current state of equipment body is more than preset range out, corresponding prompting message is can be generated in wearable device, e.g., works as intelligence
Shoes judge that the sole of intelligent shoe is damaged at this time, then, intelligent shoe can generate what prompting user placed under repair to sole
Prompting message, so that prompting and protection wearer can be provided to wearer in time when equipment body breaks down by realizing
Technical effect.
Detailed description of the invention
In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, will be described below to embodiment
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 information processing method provided in the embodiment of the present application one;
Fig. 2 is the structural block diagram of a kind of electronic equipment provided in the embodiment of the present application two;
Fig. 3 is the structural schematic diagram of a kind of electronic equipment provided in the embodiment of the present application three.
Specific embodiment
The bright embodiment of the application provides a kind of information processing method, is applied in a wearable device, existing for solving
The technical issues of wearable electronic equipment in technology can not detect the current state of wearing main body, realizes and obtains in real time
The technical effect of the state of the wearing main body of wearable electronic equipment.
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 information processing method is applied in a wearable device, comprising:
Obtain at least one shape of the detected wearable device of detection unit via the wearable device
State parameter, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit
And at least two electronic components including the detection unit, at least one described state parameter are corresponding with the wearing main body
Parameter;
Based at least one described state parameter, the current state of the wearing main body is obtained, wherein the current state
Characterize the degree of perfection of the wearing main body.
In the above-mentioned technical solutions, it described is worn using the detection unit obtained via the wearable device is detected
Wear at least one state parameter of formula equipment, wherein the wearable device includes wearing main body, and is arranged in the wearing
Include at least two electronic components including processing unit and the detection unit, at least one described state parameter in main body
For parameter corresponding with the wearing main body;Based at least one described state parameter, the current shape of the wearing main body is obtained
State, wherein the current state characterizes the technological means of the degree of perfection of the wearing main body, in this way, wearable device energy
Obtain the current device parameter of equipment body in real time by detection unit, such as obtain intelligent shoe shoe body currently bear pulling force,
The sole damage situations etc. of intelligent shoe are obtained, and can determine the perfect of wearable device based on the equipment body parameter of acquisition
Property, such as whether there is damage, if in the state etc. that can guarantee user's comfort, to efficiently solve in the prior art
Wearable electronic equipment can not to wearing main body current state detect the technical issues of, realize obtain in real time it is wearable
The technical effect of the state of the wearing main body of electronic equipment.
In order to better understand the above technical scheme, below by attached drawing and specific embodiment to technical solution of the present invention
It is described in detail, it should be understood that the specific features in the embodiment of the present application and embodiment are to the detailed of technical solution of the present invention
Thin explanation, rather than the restriction to technical solution of the present invention, in the absence of conflict, the embodiment of the present application and embodiment
In technical characteristic can be combined with each other.
Embodiment one
Referring to FIG. 1, a kind of flow chart of the information processing method provided in the embodiment of the present application one, is applied to a wearing
In formula equipment, which comprises
S101: at least one of the detected wearable device of detection unit via the wearable device is obtained
A state parameter, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing
At least two electronic components including unit and the detection unit, at least one described state parameter are and the wearing main body
Corresponding parameter;
S102: based at least one described state parameter, the current state of the wearing main body is obtained, wherein described to work as
The degree of perfection of the preceding state representation wearing main body.
In the specific implementation process, the wearable device specifically can be intelligent spire lamella, smartwatch, intelligent shoe etc.,
It is also possible to other wearable devices with wearing main body, here, just different one schematically illustrating.Correspondingly, it is set when wearable
When for being intelligent spire lamella or smartwatch, the wearing main body is the wrist not comprising electronic component being worn in user's wrist
Band and watchband;When wearable device is intelligent shoe, the wearing main body is the entire not comprising electronic device of intelligent shoe
Shoe body.It in the embodiment of the present application, will be by taking the wearable device be intelligent shoe as an example, to the method in the embodiment of the present application
It is described in detail.
When carrying out information processing using the method in the embodiment of the present application, step S101 is first carried out, it may be assumed that obtain via
At least one state parameter of the detected wearable device of the detection unit of the wearable device, wherein described
Wearable device includes wearing main body, and existing in the wearing main body comprising processing unit and the detection unit is arranged in
At least two interior electronic components, at least one described state parameter are parameter corresponding with the wearing main body.
In the embodiment of the present application, according to the difference of the parameter of detection, the specific implementation of step S101 is not also identical,
Specifically by taking following five kinds of specific implementations as an example, the implementation of step S101 to be described.
First way, step S101 include:
It obtains current value of thrust that the first position was born at current time and corresponding with the current value of thrust works as
Preceding duration, and at least one value of thrust for being born before the current time and at least one described value of thrust
The corresponding duration of each value of thrust.
In the specific implementation process, by taking the wearable device is intelligent shoe as an example, the key position in intelligent shoe can
Tension sensor is arranged, the pull sensing implement body can be MEMS sensor, naturally it is also possible to use other
The sensor of type, in the embodiment of the present application with no restriction.Specifically, pulling force can be arranged in the vamp material of intelligent shoe
Tension sensor can also be arranged at sole and the positions such as vamp joint place or sole in sensor, real-time detection shoes it is each
The practical value of thrust that a key position is born, and duration corresponding with each practical value of thrust.Certainly, art technology
Personnel can also obtain the value of thrust of the privileged site of wearable device using other modes, not limit in the embodiment of the present application
System.For detecting the value of thrust of sole and vamp joint place, intelligent shoe is obtained from beginning to use to detected by current time
All value of thrust, such as " F1=10N, S1=30min;F2=12N, S1=10min;F3=15N, S3=5min ".
The second way, step S101 include:
Obtain extent of damage value of the first position of the wearing main body in a preset duration.
In the specific implementation process, by taking the wearable device is intelligent shoe as an example, the key position in intelligent shoe can
Pressure sensor is arranged, the pressure sensing implement body can be MEMS sensor, naturally it is also possible to use other
The sensor of type, in the embodiment of the present application with no restriction.Specifically, can intelligent shoe sole it is corresponding with rear heel
Pressure sensor is set in position, pressure sensor etc. can also be set at the position corresponding with forefoot of sole, in this Shen
It please be in embodiment with no restriction.Then, corresponding position is obtained in real time by the pressure sensor of setting to be held in preset duration
The pressure condition received, the preset duration can be one week, one day etc., specifically can be according to user using setting.
Such as, pressure value and corresponding duration that shoes rear heel position detects in one week, such as " F4=20N, S4=are obtained
2hours;F5=15N, S5=5hours ", the parameter that then will test are sent to the processor of intelligent shoe.In intelligent shoe
The pressure value at shoes rear heel position, the performance curve of duration and extent of damage value can be stored in advance in memory, it will be current
The pressure value and duration of acquisition are compared with performance curve, can obtain the shoes rear heel position of intelligent shoe in one week
Extent of damage value, e.g., by taking extent of damage value when intelligent shoe is not used is 0% as an example, pass through will in one week acquisition parameter
Value is compared with performance curve, and the current extent of damage value for obtaining the heel of a shoe position of intelligent shoe is 5%.
It is of course also possible to use other modes obtain the extent of damage value of wearing main body.Such as, in the shoes rear heel of intelligent shoe
Graphene sensor is arranged in position, can sensitively detect the deflection at shoes rear heel position.In the memory of intelligent shoe
The corresponding performance curve of the middle deflection that shoes rear heel position can be stored in advance and sole material extent of damage value, graphene sensing
After device obtains the deflection at shoes rear heel position, the parameter value that just will acquire is sent to processor, and processor is worked as by comparing
Preceding parameter value and performance curve obtain the extent of damage value at intelligent shoe rear heel position, such as obtain the change of heel of a shoe position recess
Shape amount is 5mm, then by comparing performance curve, determines that current extent of damage value is 5%.
The third mode, step S101 include:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or current sky are obtained
Temperature degree.
It in the specific implementation process, can in the privileged site of intelligent shoe by taking the wearable device is intelligent shoe as an example
To be provided with gas sensor, gas sensor is set on the toe-cap of intelligent shoe specifically, can be, is also possible in intelligence
Gas sensor is set on the vamp of shoes, and certainly, gas sensing can be arranged according to actual use demand in those skilled in the art
The specific location of device, in the embodiment of the present application with no restriction.Then current time is detected from vamp by gas sensor
Unit area enters the volume of air in shoes, e.g., detects current time by gas sensor, the air velocity of intelligent shoe is
200ml/min。
In the process of wearing due to intelligent shoe, the air themperature in shoes can be along with the body temperature of wearer itself or because wear
The movement of person and increase, and air themperature increase can accelerate in shoes air flowing, influence measurement accuracy, therefore,
In the embodiment of the present application, it is also possible to pass through gas sensor while detects air in air slamp value and shoes in current shoes
Temperature e.g. detects that the air temperature value in the intelligent shoe at current time is 30 DEG C by gas sensor, air velocity is
300ml/min。
4th kind of mode, step S101 include:
Obtain the current water percolating capacity of the first area of the wearing main body.
In the specific implementation process, by taking the wearable device is intelligent shoe as an example, in the easy leakage area of intelligent shoe
Liquid sensor can be set, specifically, can be the forefoot setting liquid sensor in intelligent shoe, be also possible to
Liquid sensor is set in sole and vamp junction, certainly, those skilled in the art can be according to actual use demand, setting
The specific location of liquid sensor, in the embodiment of the present application with no restriction.Then, corresponding site is detected by liquid sensor
Unit area water percolating capacity, e.g., detect the forefoot of intelligent shoe current water percolating capacity be 1ml/cm2, since wearer is to thin
Micro- water leakage is imperceptible, but liquid sensor can detect at the first time, to largely leak in intelligent shoe
Just user can be informed before water.
Since the infiltration situation of intelligent shoe can also be related with the time is worn, in the embodiment of the present application, can also have
Following specific implementation: the water percolating capacity of forefoot is obtained except through liquid sensor, a timer can also be set, obtained
Wearing the time for family is taken, e.g., wears the time as ours, water percolating capacity 1ml/cm for 24 hours2。
Fifth procedure, step S101 include:
When the wearing main body has a cavity, the intracorporal current air mass value of the chamber and/or the chamber are obtained
Intracorporal pollution level value.
In the specific implementation process, it by taking the wearable device is intelligent shoe as an example, can be set in the shoes of intelligent shoe
There is gas sensor, or be able to detect the sensor of microorganism, for gas sensor is set, specifically can be in intelligence
Gas sensor is set on the toe-cap of shoes, is also possible to that gas sensor is arranged on the vamp of intelligent shoe, certainly, this field skill
The specific location of gas sensor can be arranged, in the embodiment of the present application with no restriction according to actual use demand in art personnel.
Then the air quality in current time shoes is detected by gas sensor, as detected API (air pollution index) value in shoes
It is 60.
It, can be by micro- on the unit area in detection shoes when the sensor of setting detection microorganism in intelligent shoe
Biomass obtains the pollution level value in shoes, and the micro organism quantity for such as obtaining unit area is 200, it is determined that in shoes
Pollution level value is 200/cm2。
After executing completion step S101, the method in the embodiment of the present application just executes step S102, it may be assumed that based on described
At least one state parameter obtains the current state of the wearing main body, wherein the current state characterizes the wearing master
The degree of perfection of body.
In the embodiment of the present application, since the specific implementation of step S101 is different, then step S102 also correspondingly has
Following several specific implementations:
First way, when the state parameter of acquisition is specially value of thrust and the corresponding duration of each value of thrust,
Step S102 includes:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and
The corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
In the specific implementation process, above-mentioned example is continued to use, when the sole and vamp joint place for obtaining intelligent shoe are from starting to make
Using all value of thrust detected by current time is " F1=10N, S1=30min;F2=12N, S1=10min;F3=
After 15N, S3=5min ", processor will acquire the performance curve of resistance to drawing of sole and vamp joint place.The performance curve is specially
The design data being stored in advance in intelligent shoe memory has just obtained during designing intelligent shoe, e.g., design intelligence
, it is specified that the sole of this shoes and vamp fitting are in value of thrust when being 10N when shoes, longest can be for 2 hours not bad;?
Value of thrust be 12N when, longest can continue 30 minutes 1 hour it is not bad;Value of thrust be 15N when, longest can continue 1 hour it is not bad,
The parameter detected at this time is " F1=10N, S1=30min;F2=12N, S1=10min;F3=15N, S3=5min " pass through
It calculates, obtains duration ratio, such as 30min/2hour+10min/1.5hour+5min/1hour=1/4+1/9+1/12=
4/9, then it substantially estimates resistance to drawing performance and has dropped 4/9, at this point, judging that the resistance to drawing performance of intelligent shoe is 1-4/9=5/9.When
So, according to the difference of the performance curve of foundation, specific calculation is also different, in this application with no restriction.
The second way, when the state parameter of acquisition is specially extent of damage value, step S102 includes:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
In the specific implementation process, above-mentioned example is continued to use, when intelligent shoe obtains shoes rear heel position being damaged in one week
After degree value is 5%, the processor of intelligent shoe will obtain wear-resisting property curve corresponding with heel of a shoe position, institute from memory
Stating wear-resisting property curve is specially the number of the extent of damage of foundation, duration and wear-resisting property when designing the intelligent shoe
The wear-resisting property value of intelligent shoe is obtained, as wear-resisting property value is by comparing current extent of damage value and data model according to model
80%.Certainly, according to the difference of the performance curve of foundation, specific calculation is also different, in this application with no restriction.
The third mode, when the state parameter of acquisition is specially present air flow value and/or current air temperature, step
Suddenly S102 includes:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
In the specific implementation process, above-mentioned example is continued to use, after the air velocity for obtaining intelligent shoe is 200ml/min, intelligence
The processor of energy shoes will acquire design data relevant to venting capability pre-stored in the memory, which sets intelligent shoe
It has just been obtained during meter.Such as, when designing intelligent shoe, obtaining the normal air flow velocity in intelligent shoe is 300ml/min, so
Afterwards, the ratio of present air flow velocity and preset air velocity, e.g., 200/300=2/3, to obtain current intelligent shoe are obtained
Permeability be 2/3.
If the parameter obtained is that the air temperature value in intelligent shoe shoes is 30 DEG C, air velocity 300ml/min, intelligent shoe
Processor will acquire design data relevant to venting capability pre-stored in the memory, design of the data in intelligent shoe
It has just been obtained in journey.Such as, when designing intelligent shoe, intelligent shoe is obtained when air themperature is 20 degrees Celsius, it is normal in shoes
Air velocity is 300ml/min;When air themperature is 30 degrees Celsius, the normal air flow velocity in shoes is 500ml/min, so
Afterwards, normal air flow velocity corresponding with current air temperature is determined.Since air temperature value at this time is 30 degrees Celsius, then with the temperature
The corresponding normal air flow velocity of angle value is 500ml/min, obtains the ratio of present air flow velocity and preset air velocity, e.g.,
300/500=3/5, so that the permeability for obtaining current intelligent shoe is 3/5.
4th kind of mode, when the state parameter of acquisition is specially current water percolating capacity, step S102 includes:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
In the specific implementation process, above-mentioned example is continued to use, when the current water percolating capacity for the forefoot for obtaining intelligent shoe is
1ml/cm2Afterwards, the processor of intelligent shoe will obtain preset maximum water percolating capacity from memory, that is, when more than the maximum
When water percolating capacity, then illustrate that intelligent shoe loses water resistance.Such as, preset maximum water percolating capacity is 5ml/cm2, then obtain current
The ratio of water percolating capacity and maximum water percolating capacity, 1ml/cm2/5ml/cm2=1/5, so that the water resistance for obtaining intelligent shoe is 1-1/5
=4/5.
Certainly, it when designing intelligent shoe, can also set: as long as detect that water percolating capacity is not zero, illustrate intelligent shoe
Lose water resistance.At this point, since the current water percolating capacity detected is 1ml/cm2, therefore, the water resistance of intelligent shoe is 0.
Certainly, according to the difference of design parameter, specific calculation is also different, in this application with no restriction.
Fifth procedure, when the state parameter of acquisition is specially air quality value and/or pollution level value, step S102
Include:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
In the specific implementation process, above-mentioned example is continued to use, after it is 60 that intelligent shoe, which obtains the API value in shoes, intelligent shoe
Processor will obtain preset maximum API value from memory, that is, when up to or over the maximum API value, then say
The health indicator state of bright intelligent shoe is 0, not can guarantee the health of wearer.Such as, preset maximum API value is 100, so
The ratio of current API value Yu maximum API value, 60/100=3/5 are obtained afterwards, so that the health indicator value for obtaining intelligent shoe is 1-3/
5=2/5.
If the parameter obtained is that the microbial contamination value in shoes is 200/cm2, at this point, the processor of intelligent shoe will
Preset greatest contamination degree value is obtained from memory, that is, when up to or over the greatest contamination degree value, then say
The health indicator state of bright intelligent shoe is 0, not can guarantee the health of wearer.Such as, preset greatest contamination degree value is
300/cm2, then obtain the ratio of current contamination level value and greatest contamination degree value, 200/300=2/3, to obtain
The health indicator value of intelligent shoe is 1-2/3=1/3.Certainly, according to the difference of design parameter, specific calculation is also different,
In this application with no restriction.
After executing completion step S102, the method in the embodiment of the present application further includes following steps:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described for adjusting
The operating member of current state;
Generate adjustment instruction corresponding with the operating member.
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generate
Prompting message.
In the specific implementation process, after the current state of the wearing main body of the gain of parameter based on acquisition, the wearing
The processor of equipment will also judge current state.Above-mentioned example is continued to use, to obtain sole and the vamp fitting of intelligent shoe
For the resistance to drawing performance at place is 5/9, at this point, the processor of intelligent shoe will judge whether current resistance to drawing performance meets preset condition,
Specifically, the preset condition can be for judging whether intelligent shoe is in the condition of normal condition, be also possible to for
Judge whether intelligent shoe is in the condition of adjustment state, it is of course also possible to be other conditions, in this application with no restriction.With
The preset condition is to judge whether intelligent shoe is in for adjustment state, is preset when resistance to drawing performance number is located at 3/9-6/9
Between when, show that intelligent shoe is in state to be adjusted, since sole and the value of thrust of vamp joint place are elastic related to shoestring,
Then, determine that the component for the value of thrust for adjusting sole and vamp joint place is shoestring, thus, the processor of intelligent shoe generates
The control instruction of " by shoestring tune pine ", and it is sent to shoestring, described instruction is executed by shoestring, to reduce between sole and vamp
Pulling force.After generating adjustment instruction, the data that can also be will acquire are managed, e.g., according to the frequency of setting, such as one day one
It is secondary, it is transmitted to the clients such as mobile phone/PC of wearer progress historical data and summarizes, or be transferred directly to server/cloud.
Above-mentioned example is continued to use, if the preset condition is to judge whether intelligent shoe is in for adjustment state, is preset
When resistance to drawing performance number is between 6/9-7/9, show that intelligent shoe is in state to be adjusted.Due to current intelligent shoe sole and
The performance number of resistance to drawing of vamp joint place is 5/9, is unsatisfactory for preset condition, mentions accordingly at this point, the processor of intelligent shoe just generates
Awake information.Specifically, it can be the prompting message for generating and user being reminded to need to change the mode of dress, such as shoestring is loosening;
It is also possible to that user's shoes needs is reminded to place under repair;Graduation prompting can also be carried out according to specific performance number, such as worked as
When performance number is in the first range, the information reminded wearer is generated;When performance number is in the second range, generation is mentioned
The wearer that wakes up stops the prompting message worn or repaired to shoes.Certainly, those skilled in the art can also be generated with employing mode and be reminded
Information, in this application with no restriction.
Embodiment two
Based on identical inventive concept in the embodiment of the present application one, a kind of electronics is provided in the embodiment of the present application two and is set
It is standby, referring to FIG. 2, including:
First acquisition unit 101, for obtaining, detection unit via the wearable device is detected described to be worn
Wear at least one state parameter of formula equipment, wherein the wearable device includes wearing main body, and is arranged in the wearing
Include at least two electronic components including processing unit and the detection unit, at least one described state parameter in main body
For parameter corresponding with the wearing main body;
Second acquisition unit 102, for obtaining the current shape of the wearing main body based at least one described state parameter
State, wherein the current state characterizes the degree of perfection of the wearing main body.
In the embodiment of the present application two, first acquisition unit 101 specifically has following five kinds of specific implementations:
First way, first acquisition unit 101 specifically include:
First obtains module, the current value of thrust that bears at current time for obtaining the first position and works as with described
The corresponding existing continuous duration of preceding value of thrust, and at least one value of thrust for being born before the current time and with it is described
The corresponding duration of each value of thrust at least one value of thrust;
Correspondingly, second acquisition unit 102 specifically includes:
Second obtains module, for obtaining preset value of thrust, duration and the resistance to drawing performance of the first position
Corresponding relationship;
Third obtains module, for being based on the current value of thrust, the existing continuous duration, at least one described pulling force
Value, the duration and the corresponding relationship obtain the current resistance to drawing performance state of the wearing main body.
The second way, first acquisition unit 101 specifically include:
4th obtains module, for obtaining the extent of damage of the first position of the wearing main body in a preset duration
Value;
Correspondingly, second acquisition unit 102 specifically includes:
5th obtains module, for being based on the extent of damage value and the preset duration, obtains the wearing main body
Wear-resisting property state.
The third mode, first acquisition unit 101 specifically include:
6th obtains module, for obtaining the intracorporal present air of the chamber when the wearing main body has a cavity
Slamp value and/or current air temperature;
Correspondingly, second acquisition unit 102 specifically includes:
7th obtains module, for being based on present air flow value and/or current air temperature, obtains the wearing main body
Permeability state.
4th kind of mode, first acquisition unit 101 specifically include:
8th obtains module, the current water percolating capacity of the first area for obtaining the wearing main body;
Correspondingly, second acquisition unit 102 specifically includes:
9th obtains module, for being based on the current water percolating capacity, obtains the water resistance state of the wearing main body.
Fifth procedure, first acquisition unit 101 specifically include:
Tenth obtains module, for obtaining the intracorporal present air of the chamber when the wearing main body has a cavity
Mass value and/or the intracorporal pollution level value of the chamber;
Correspondingly, second acquisition unit 102 specifically includes:
11st obtains module, for being based on the air quality value and/or the pollution level value, obtains the wearing
The health indicator state of main body.
In the embodiment of the present application, the electronic equipment further include:
First determination unit 103, for determining whether the current state meets a preset condition;
Second determination unit 104, it is described current for being based on when determining that the current state meets the preset condition
State determines the operating member for adjusting the current state;
First generation unit 105, for generating adjustment instruction corresponding with the operating member.
In the embodiment of the present application, the electronic equipment further include:
Second generation unit 106, for when determining that the current state is unsatisfactory for the preset condition, based on it is described extremely
A few state parameter, generates prompting message.
Embodiment three
Based on inventive concept identical with the embodiment of the present application one, the embodiment of the present application three provides a kind of electronic equipment, asks
With reference to Fig. 3, comprising:
Shell 10;
Sensor 20 is arranged in shell 10, at least one state for the detected wearable device is joined
Number, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit and institute
At least two electronic components including detection unit are stated, at least one described state parameter is ginseng corresponding with the wearing main body
Number;
Processor 30 is arranged in shell 10, for obtaining the wearing main body based at least one described state parameter
Current state, wherein the current state characterize it is described wearing main body degree of perfection.
In the embodiment of the present application three, sensor 20 is specifically used for:
It obtains current value of thrust that the first position was born at current time and corresponding with the current value of thrust works as
Preceding duration, and at least one value of thrust for being born before the current time and at least one described value of thrust
The corresponding duration of each value of thrust;
Correspondingly, processor 30 is specifically used for:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and
The corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
In the embodiment of the present application three, sensor 20 is specifically used for:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, processor 30 is specifically used for:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
In the embodiment of the present application three, sensor 20 is specifically used for:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or current sky are obtained
Temperature degree;
Correspondingly, processor 30 is specifically used for:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
In the embodiment of the present application three, sensor 20 is specifically used for:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, processor 30 is specifically used for:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
In the embodiment of the present application three, sensor 20 is specifically used for:
When the wearing main body has a cavity, the intracorporal current air mass value of the chamber and/or the chamber are obtained
Intracorporal pollution level value;
Correspondingly, processor 30 is specifically used for:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
In the embodiment of the present application three, processor 30 is also used to:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described for adjusting
The operating member of current state;
Generate adjustment instruction corresponding with the operating member.
In the embodiment of the present application three, processor 30 is also used to:
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generate
Prompting message.
By one or more technical solutions in the embodiment of the present application, following one or more technology effects may be implemented
Fruit:
One, due to the technical solution in the embodiment of the present application, using the detection unit obtained via the wearable device
At least one state parameter of the detected wearable device, wherein the wearable device includes wearing main body, with
And be arranged in the wearing main body comprising at least two electronic components including processing unit and the detection unit, it is described
At least one state parameter is parameter corresponding with the wearing main body;Based at least one described state parameter, described in acquisition
Dress the current state of main body, wherein the current state characterizes the technological means of the degree of perfection of the wearing main body, this
Sample, wearable device can obtain in real time the current device parameter of equipment body by detection unit, such as obtain the shoe body of intelligent shoe
The pulling force currently born, the sole damage situations for obtaining intelligent shoe etc., and can be worn based on the determination of the equipment body parameter of acquisition
The integrity of formula equipment is worn, such as whether there is damage, if in the state etc. that can guarantee user's comfort, to effectively solve
The technical issues of wearable electronic equipment in the prior art can not detect the current state of wearing main body, realizes
The technical effect of the state of the wearing main body of wearable electronic equipment is obtained in real time.
Two, it due to the technical solution in the embodiment of the present application, is born using the acquisition first position at current time
Current value of thrust and existing continuous duration corresponding with the current value of thrust, and bore before the current time to
A few value of thrust and duration corresponding with value of thrust each at least one described value of thrust;And obtain described first
Preset value of thrust, duration and the resistance to corresponding relationship for drawing performance at position;And based on the current value of thrust, described work as
Preceding duration, at least one described value of thrust, the duration and the corresponding relationship obtain working as the wearing main body
The preceding resistance to technological means for drawing performance state, in this way, wearable device can obtain the value of thrust of equipment body key position in real time
And the corresponding duration of each value of thrust, such as the pulling force parameter of the sole of intelligent shoe, vamp, and bonding apparatus main body is intrinsic
Pulling force characteristic curve carry out comprehensive analysis, thus realize obtain wearable device it is current it is resistance to draw performance technical effect.
Three, due to the technical solution in the embodiment of the present application, whether a default item is met using the determination current state
Part;When determining that the current state meets the preset condition, determined based on the current state described current for adjusting
The operating member of state;The technological means for generating adjustment instruction corresponding with the operating member, in this way, when wearable device obtains
After taking the current state of equipment body, the current resistance to drawing performance number as intelligent shoe obtains sole is 40%, and at this moment, intelligent shoe can be certainly
It is dynamic to judge whether current resistance to drawing performance number meets preset condition, such as whether in range to be adjusted, when judging result shows
When intelligent shoe is in range to be adjusted at this time, it is determined that the resistance to operating member for drawing performance of adjustment, such as shoestring generate adjustment shoestring
The control instruction of elasticity, realizing in real time to imitate the technology that equipment is adjusted according to the current state of equipment body
Fruit.
Four, due to the technical solution in the embodiment of the present application, using determining that it is described default that the current state is unsatisfactory for
When condition, based at least one described state parameter, the technological means of prompting message is generated, in this way, when wearable device determines
When the current state of equipment body is more than preset range out, corresponding prompting message is can be generated in wearable device, e.g., works as intelligence
Shoes judge that the sole of intelligent shoe is damaged at this time, then, intelligent shoe can generate what prompting user placed under repair to sole
Prompting message, so that prompting and protection wearer can be provided to wearer in time when equipment body breaks down by realizing
Technical effect.
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 information processing method in the embodiment of the present application can be stored in
CD, hard disk, on the storage mediums such as USB flash disk, when the computer program instructions quilt corresponding with information processing method in storage medium
One electronic equipment reads or is performed, and includes the following steps:
Obtain at least one shape of the detected wearable device of detection unit via the wearable device
State parameter, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit
And at least two electronic components including the detection unit, at least one described state parameter are corresponding with the wearing main body
Parameter;
Based at least one described state parameter, the current state of the wearing main body is obtained, wherein the current state
Characterize the degree of perfection of the wearing main body.
Optionally, it stored in the storage medium and step: obtains and is examined via the detection unit of the wearable device
At least one state parameter of the wearable device obtained is surveyed, corresponding computer program instructions are when executed, comprising:
It obtains current value of thrust that the first position was born at current time and corresponding with the current value of thrust works as
Preceding duration, and at least one value of thrust for being born before the current time and at least one described value of thrust
The corresponding duration of each value of thrust;
Correspondingly, it stored in the storage medium and step: based at least one described state parameter, is worn described in acquisition
The current state of main body is worn, corresponding computer program instructions are when executed, comprising:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and
The corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
Optionally, it stored in the storage medium and step: obtains and is examined via the detection unit of the wearable device
At least one state parameter of the wearable device obtained is surveyed, corresponding computer program instructions are when executed, comprising:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, it stored in the storage medium and step: based at least one described state parameter, is worn described in acquisition
The current state of main body is worn, corresponding computer program instructions are when executed, comprising:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
Optionally, it stored in the storage medium and step: obtains and is examined via the detection unit of the wearable device
At least one state parameter of the wearable device obtained is surveyed, corresponding computer program instructions are when executed, comprising:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or current sky are obtained
Temperature degree;
Correspondingly, it stored in the storage medium and step: based at least one described state parameter, is worn described in acquisition
The current state of main body is worn, corresponding computer program instructions are when executed, comprising:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
Optionally, it stored in the storage medium and step: obtains and is examined via the detection unit of the wearable device
At least one state parameter of the wearable device obtained is surveyed, corresponding computer program instructions are when executed, comprising:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, it stored in the storage medium and step: based at least one described state parameter, is worn described in acquisition
The current state of main body is worn, corresponding computer program instructions are when executed, comprising:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
Optionally, it stored in the storage medium and step: obtains and is examined via the detection unit of the wearable device
At least one state parameter of the wearable device obtained is surveyed, corresponding computer program instructions are when executed, comprising:
When the wearing main body has a cavity, the intracorporal current air mass value of the chamber and/or the chamber are obtained
Intracorporal pollution level value;
Correspondingly, it stored in the storage medium and step: based at least one described state parameter, is worn described in acquisition
The current state of main body is worn, corresponding computer program instructions are when executed, comprising:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
Optionally, other computer program, the other computer journey are also stored in the storage medium
Sequence stores in the storage medium and step: based at least one described state parameter, working as the wearing main body is obtained
The corresponding computer program instructions of preceding state are performed after executing, specific to include the following steps: when executing
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described for adjusting
The operating member of current state;
Generate adjustment instruction corresponding with the operating member.
Optionally, other computer program, the other computer journey are also stored in the storage medium
Sequence stores in the storage medium and step: determine whether the current state is to characterize the wearing main body to be in wait adjust
The corresponding computer program instructions of whole state are performed after executing, and are included the following steps: when specifically executing
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generate
Prompting message.
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 (15)
1. a kind of information processing method is applied in a wearable device, comprising:
It obtains and joins via at least one state of the detected wearable device of detection unit of the wearable device
Number, wherein the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit and institute
At least two electronic components including detection unit are stated, at least one described state parameter is ginseng corresponding with the wearing main body
Number;
Based at least one described state parameter, the current state of the wearing main body is obtained, wherein the current state characterization
The degree of perfection of the wearing main body;
Described based at least one described state parameter, after the current state for obtaining the wearing main body, the method is also
Include:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described current for adjusting
The operating member of state;
Generate adjustment instruction corresponding with the operating member.
2. information processing method as described in claim 1, which is characterized in that the inspection obtained via the wearable device
Survey at least one state parameter of the detected wearable device of unit, comprising:
Obtain current value of thrust that the first position of the wearing main body was born at current time and with the current value of thrust pair
The existing continuous duration answered, and at least one value of thrust for being born before the current time and at least one described drawing
The corresponding duration of each value of thrust in force value;
Correspondingly, described based at least one described state parameter, obtain the current state of the wearing main body, comprising:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position of the wearing main body;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and described
Corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
3. information processing method as described in claim 1, which is characterized in that the inspection obtained via the wearable device
Survey at least one state parameter of the detected wearable device of unit, comprising:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, described based at least one described state parameter, obtain the current state of the wearing main body, comprising:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
4. information processing method as described in claim 1, which is characterized in that the inspection obtained via the wearable device
Survey at least one state parameter of the detected wearable device of unit, comprising:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or present air temperature are obtained
Degree;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
5. information processing method as described in claim 1, which is characterized in that the inspection obtained via the wearable device
Survey at least one state parameter of the detected wearable device of unit, comprising:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
6. information processing method as described in claim 1, which is characterized in that the inspection obtained via the wearable device
Survey at least one state parameter of the detected wearable device of unit, comprising:
When the wearing main body has a cavity, obtain in the intracorporal current air mass value of the chamber and/or the cavity
Pollution level value;
Correspondingly, described based at least one described state parameter, the current state for obtaining the wearing main body includes:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
7. information processing method as described in claim 1, which is characterized in that in the determination current state whether be table
The wearing main body is levied to be in after state to be adjusted, the method also includes:
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generates and remind
Information.
8. a kind of electronic equipment is applied in a wearable device, comprising:
First acquisition unit, for obtaining the detected wearable device of detection unit via the wearable device
At least one state parameter, wherein the wearable device includes wearing main body, and is arranged in the wearing main body
Comprising at least two electronic components including processing unit and the detection unit, at least one described state parameter be with it is described
Dress the corresponding parameter of main body;
Second acquisition unit, for obtaining the current state of the wearing main body based at least one described state parameter,
In, the current state characterizes the degree of perfection of the wearing main body;
The electronic equipment further include:
First determination unit, for determining whether the current state meets a preset condition;
Second determination unit, for it is true to be based on the current state when determining that the current state meets the preset condition
Determine the operating member for adjusting the current state;
First generation unit, for generating adjustment instruction corresponding with the operating member.
9. a kind of electronic equipment is applied in a wearable device, comprising:
Shell;
Sensor is arranged in the shell, at least one state parameter of the detected wearable device,
In, the wearable device includes wearing main body, and being arranged in the wearing main body includes processing unit and the inspection
At least two electronic components including unit are surveyed, at least one described state parameter is parameter corresponding with the wearing main body;
Processor is arranged in the shell, for obtaining working as the wearing main body based at least one described state parameter
Preceding state, wherein the current state characterizes the degree of perfection of the wearing main body;
The processor is also used to:
Determine whether the current state meets a preset condition;
When determining that the current state meets the preset condition, determined based on the current state described current for adjusting
The operating member of state;
Generate adjustment instruction corresponding with the operating member.
10. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for:
Obtain current value of thrust that the first position of the wearing main body was born at current time and with the current value of thrust pair
The existing continuous duration answered, and at least one value of thrust for being born before the current time and at least one described drawing
The corresponding duration of each value of thrust in force value;
Correspondingly, the processor is specifically used for:
Obtain preset value of thrust, duration and the resistance to corresponding relationship for drawing performance of the first position of the wearing main body;
Based on the current value of thrust, the existing continuous duration, at least one described value of thrust, the duration and described
Corresponding relationship obtains the current resistance to drawing performance state of the wearing main body.
11. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for:
Obtain extent of damage value of the first position of the wearing main body in a preset duration;
Correspondingly, the processor is specifically used for:
Based on the extent of damage value and the preset duration, the wear-resisting property state of the wearing main body is obtained.
12. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for:
When the wearing main body has a cavity, the intracorporal present air flow value of the chamber and/or present air temperature are obtained
Degree;
Correspondingly, the processor is specifically used for:
Based on present air flow value and/or current air temperature, the permeability state of the wearing main body is obtained.
13. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for:
Obtain the current water percolating capacity of the first area of the wearing main body;
Correspondingly, the processor is specifically used for:
Based on the current water percolating capacity, the water resistance state of the wearing main body is obtained.
14. electronic equipment as claimed in claim 9, which is characterized in that the sensor is specifically used for:
When the wearing main body has a cavity, obtain in the intracorporal current air mass value of the chamber and/or the cavity
Pollution level value;
Correspondingly, the processor is specifically used for:
Based on the air quality value and/or the pollution level value, the health indicator state of the wearing main body is obtained.
15. electronic equipment as claimed in claim 9, which is characterized in that the processor is also used to:
When determining that the current state is unsatisfactory for the preset condition, based at least one described state parameter, generates and remind
Information.
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CN108654063A (en) * | 2018-05-18 | 2018-10-16 | 四川斐讯信息技术有限公司 | A kind of the heart rate acquisition equipment and heart rate acquisition methods of open air running |
CN109873653A (en) * | 2018-12-19 | 2019-06-11 | 安徽八爪智能科技有限公司 | A kind of wearing detection system of intelligent wearable device |
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CN201929109U (en) * | 2009-06-26 | 2011-08-17 | 阿库施耐特公司 | Shoe provided with sensors, controller and active-response element |
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US6578291B2 (en) * | 2000-06-06 | 2003-06-17 | John Hirsch | Shoe wear indicator |
US7277021B2 (en) * | 2005-01-11 | 2007-10-02 | Wisconsin Alumni Research Foundation | Device and method for alerting a runner when a new pair of running shoes is needed |
US20070033838A1 (en) * | 2005-08-15 | 2007-02-15 | Luce Nicola J | Intelligent sneaker insole |
US7911339B2 (en) * | 2005-10-18 | 2011-03-22 | Apple Inc. | Shoe wear-out sensor, body-bar sensing system, unitless activity assessment and associated methods |
KR101819070B1 (en) * | 2011-02-17 | 2018-01-16 | 나이키 이노베이트 씨.브이. | Footwear having sensor system |
US8904877B2 (en) * | 2011-12-06 | 2014-12-09 | ParaWare LLC | Means to track the cumulative compressions imparted to a shoe |
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